A­
99­
30
IV­
B­
16
From:
Brian
Shrager
To:
Mary
Johnson
EPA/
ESD/
CG
(
C439­
01)
U.
S.
Environmental
Protection
Agency
Research
Triangle
Park,
NC
27711
Date:
February
28,
2003
Project:
Brick
and
Structural
Clay
Products
Manufacturing
NESHAP
Re:
Final
Rule:
Documentation
of
Database
and
Responses
to
the
1997
Information
Collection
Request
for
Brick
and
Structural
Clay
Products.

I.
Introduction
In
December,
1997,
the
U.
S.
Environmental
Protection
Agency
(
EPA)
developed
and
sent
a
maximum
achievable
control
technology
(
MACT)
information
collection
request
(
ICR)
to
brick
and
structural
clay
products
(
BSCP)
manufacturing
facilities.
The
ICR
package
was
sent
to
223
facilities
and
included
the
ICR
developed
for
the
BSCP
industry
and
a
generic
(
EPA
Office
of
Management
and
Budget­
approved)
MACT
ICR.
Facilities
had
the
option
of
completing
either
ICR.
Following
receipt
of
the
completed
ICRs
from
the
BSCP
manufacturing
facilities,
we
reviewed
the
responses
for
completeness
and
accuracy
and
created
a
database
of
the
ICR
responses.
This
database,
which
is
referred
to
as
"
the
database"
for
the
remainder
of
this
memorandum,
summarizes
the
responses
to
the
general
MACT
survey,
along
with
additional
information
from
follow­
up
phone
calls
and
faxes,
which
was
the
basis
for
all
further
calculations.
This
memorandum
describes
the
information
contained
in
the
database.
Each
of
the
following
sections
describes
the
data
found
in
each
of
the
tables
of
the
ICR
as
well
as
providing
a
copy
of
the
database
table.
Following
proposal
of
the
BSCP
manufacturing
NESHAP,
several
changes
were
made
to
the
database.
This
memorandum
presents
revised
versions
of
the
database
tables
that
were
modified
since
proposal.

II.
Facility
Information
The
first
database
table
is
the
facility
information
table,
which
contains
basic
facility
information.
Facility
ownership
changes,
latitude
and
longitude
corrections,
and
other
changes
have
been
made
to
this
table
since
proposal.
Because
of
the
quantity
of
data
that
is
contained
in
this
table,
it
was
split
into
2
tables
for
the
purposes
of
this
memorandum.
Table
1
includes
the
name
and
location
of
the
facility,
the
facility
contact
person
and
their
contact
information,
and
alternate
contact
information.
Each
facility
also
was
assigned
a
facility
identification
number
2
(
FACID),
which
was
used
in
subsequent
tables
and
data
analyses
to
identify
the
facility.
Facility
identification
numbers
that
are
followed
by
"
NR"
indicate
a
facility
that
did
not
respond
to
the
ICR.
For
these
facilities,
data
obtained
from
permits,
contacts
with
State
agency
personnel,
and
a
database
provided
to
EPA
by
the
Brick
Industry
Association
(
BIA),
were
used
in
lieu
of
an
ICR
response.
1­
25
Table
2
includes
the
remaining
facility
information
in
the
ICR
responses,
including:
facility
latitude
and
longitude,
applicable
SIC
codes,
Dun
and
Bradstreet
number,
number
of
employees
(
facility­
wide,
company­
wide
and
per
shift),
whether
or
not
the
facility
is
subject
to
other
federal
standards
(
e.
g.,
new
source
performance
standards),
whether
or
not
a
permit
was
submitted
with
the
ICR
response,
and
the
facility
type
(
brick
[
b]
or
structural
clay
products
[
s]).
A
field
providing
an
estimate
of
the
major
source
status
(
major,
area,
or
synthetic
area)
also
was
added
to
this
table.
26
III.
Production
and
Capacity
Table
This
table
(
Table
3
in
original
database
memo,
docket
A­
99­
30,
item
II­
B­
22)
has
not
been
updated
since
proposal.
Table
3
presents
the
1996
production
and
capacity
for
each
product
line
at
each
facility
(
by
FACID).
A
calculated
field,
utilization,
also
is
included
to
show
the
percentage
of
the
capacity
that
was
produced
in
1996.

IV.
Raw
Materials/
Additives
Table
This
table
(
Table
4
in
original
database
memo,
docket
A­
99­
30,
item
II­
B­
22)
has
not
been
updated
since
proposal.
Table
4
contains
information
on
each
of
the
raw
materials
used.
The
facilities
reported
the
individual
raw
materials
used
and
the
amount,
in
tons,
of
each
material.
We
added
"
HAP
codes"
to
each
material
to
indicate
if
the
material:
(
1)
is
a
HAP
("
H");
(
2)
contains
a
HAP
or
is
a
HAP
precursor
("
P");
or
(
3)
is
not
a
HAP,
does
not
contain
a
HAP,
and
is
not
a
HAP
precursor
("
N").
If
a
raw
material
analysis
was
provided,
it
is
noted.
Finally,
a
"
category"
field
was
added
to
this
table
that
is
used
to
categorize
the
different
raw
materials
based
on
class
(
additive,
clay,
clay/
shale,
colorant,
contaminated
soil,
filler,
grog,
HAP
colorant,
lubricant,
raw
ore,
sand,
schist,
shale,
or
water).

V.
Flashing
Substances
This
table
(
Table
5
in
original
database
memo,
docket
A­
99­
30,
item
II­
B­
22)
has
not
been
updated
since
proposal.
Table
5
contains
information
on
the
types
and
amounts
of
substances
used
for
flashing.
Most
facilities
simply
identified
the
substances
that
are
used
for
flashing
because
they
do
not
track
the
amounts
of
flashing
substances
that
are
used.

VI.
Glazes
and
Glaze
Ingredients
These
tables
(
Tables
6
and
7
in
original
database
memo,
docket
A­
99­
30,
item
II­
B­
22)
have
not
been
updated
since
proposal.
A
listing
of
the
different
surface
colorants
in
use
at
each
facility
is
included
in
Table
6.
The
type
of
glaze,
product
on
which
it
is
used,
amount
used
in
1996,
an
indication
of
whether
or
not
the
colorant
is
produced
at
the
facility,
and
the
capacity
are
all
presented.
A
calculated
utilization
is
shown,
and
a
product
ID
is
assigned
for
each
glaze.
3
Table
7,
entitled
Glaze
Ingredients,
contains
information
on
the
ingredients
present
in
each
of
the
colorants.
For
each
ingredient,
either
the
range
or
the
average
percentage
and
the
HAP
code
(
see
Section
IV
of
this
memorandum
for
a
description
of
HAP
codes)
is
provided
for
each
ingredient.

VII.
Raw
Material
Processing
This
table
(
Table
8
in
original
database
memo,
docket
A­
99­
30,
item
II­
B­
22)
has
not
been
updated
since
proposal.
Table
8
provides
information
on
the
different
raw
material
processing
steps
(
e.
g.,
crushing,
grinding,
and
screening)
at
each
facility.
The
FACID,
process
ID,
type
of
equipment,
purpose,
raw
material,
process
rate,
and
any
air
pollution
control
devices
(
APCDs)
are
listed.
Additional
fields
were
added
to
indicate
the
use
of
multiple
APCDs
on
a
process
line
and
to
assign
unique
IDs
for
both
the
process
and
the
APCD.

VIII.
Thermal
Processing
Table
9
contains
information
pertaining
to
thermal
processes
(
e.
g.,
kilns
and
dryers)
at
each
facility.
Changes
to
this
table
since
proposal
include:
addition
of
multiple
new
kilns;
addition
of
a
field
called
"
preproposal
kiln
capacity;"
and
update
of
several
kiln
capacities.
The
FACID,
process
ID,
equipment
type,
product
type,
operating
temperature,
fuel,
heat
input,
typical
production
rate
for
continuous
processes,
capacity,
and
APCD
information
are
listed.

Prior
to
proposal,
additional
fields
were
added
to
classify
processes
by
general
equipment
type,
to
indicate
the
use
of
multiple
APCDs,
and
to
create
unique
identifiers
for
each
process
APCD.
One
additional
field,
"
kiln
capacity
tph"
also
was
added
to
this
table.
For
continuous
kilns
(
tunnel
and
roller
kilns),
these
kiln
capacities
were
calculated
using
available
information
including
plant
capacity,
typical
production
rates,
and
an
assumption
that
the
kilns
operate
8,760
hours
per
year.
Capacities
for
periodic
kilns
also
were
estimated
using
similar
procedures.

IX.
Process
Rate
Monitoring
This
table
(
Table
10
in
original
database
memo,
docket
A­
99­
30,
item
II­
B­
22)
has
not
been
updated
since
proposal.
Table
10
presents
a
summary
of
the
process
rate
monitoring
that
is
performed
at
each
facility.
The
FACID,
source
type,
equipment
ID,
monitoring
procedures,
type
of
monitoring,
monitoring
frequency,
accuracy
of
the
monitoring,
and
calibration
frequency
are
provided
in
this
table.

X.
Summary
This
table
(
Table
11
in
original
database
memo,
docket
A­
99­
30,
item
II­
B­
22)
has
not
been
updated
since
proposal.
A
summary
of
the
different
pieces
of
equipment
at
each
facility
is
included
in
Table
11.
The
FACID,
source
description,
equipment
ID,
APCD
identification,
and
whether
or
not
any
emission
test
data
are
available
are
provided
in
this
table.
Additional
fields
were
added
to
assign
a
generic
equipment
type
and
list
the
number
of
pieces
of
equipment
that
corresponds
to
each
entry.
4
XI.
Emission
Points
These
tables
(
Table
12
through
16
in
original
database
memo,
docket
A­
99­
30,
item
II­
B­
22)
have
not
been
updated
since
proposal.
Table
12
presents
a
summary
of
the
emission
points
at
each
facility.
The
FACID,
emission
point
ID,
APCD
type
(
if
controlled),
sources
that
are
ducted
to
the
emission
point,
product
type,
and
stack
dimensions
(
height,
diameter,
and
area)
are
provided
in
this
table.
Additional
fields
were
added
(
prior
to
proposal)
to
indicate
whether
or
not
there
were
multiple
APCDs
on
the
emission
point
and
to
create
a
unique
APCD
ID.

The
inlet
gas
parameters
table,
Table
13,
provides
information
on
process
exhaust
(
for
emission
points
listed
in
Table
12).
Indexed
by
the
unique
APCD
ID
created
in
Table
12,
this
table
also
contains
the
volumetric
flow
rates
in
actual
cubic
feet
per
minute
(
acfm)
and
dry
standard
cubic
feet
per
minute
(
dscfm),
the
moisture
content,
the
oxygen
content,
the
stack
gas
temperature,
PM
and
VOC
emission
factors,
and
the
basis
for
those
emission
factors.
Table
14
lists
the
HAPs
associated
with
each
of
the
emission
points,
the
amount
of
HAP
emitted
prior
to
the
APCD,
inlet
gas
HAPs,
and
the
source
of
the
HAP
emission
estimate.
Most
facilities
did
not
provide
the
detailed
information
shown
in
Tables
13
and
14.

The
outlet
gas
parameters
table,
Table
15,
provides
information
on
the
process
exhaust
(
for
the
emission
points
listed
in
Table
12)
from
uncontrolled
sources
and
post­
APCD
for
controlled
sources.
This
table
also
is
indexed
by
the
APCD
ID
and
includes
the
same
categories
as
Table
13.
Table
16
provides
a
HAP
listing
comparable
to
the
one
presented
in
Table
14.

X.
Fabric
Filters
This
table
(
Table
17
in
original
database
memo,
docket
A­
99­
30,
item
II­
B­
22)
has
not
been
updated
since
proposal.
Table
17
contains
information
on
fabric
filters
that
are
used
to
control
PM
emissions
from
various
processes
in
the
industry.
The
table
includes
fields
for
the
FACID,
fabric
filter
type
(
baghouse
or
cartridge)
and
identification
number,
installation
date,
manufacturer,
number
of
filter
bags,
bag
material,
material
weight,
estimated
bag
life,
air­
tocloth
ratio,
and
cleaning
mechanism.

XI.
Injection
Filters
This
table
(
Table
18
in
original
database
memo,
docket
A­
99­
30,
item
II­
B­
22)
has
not
been
updated
since
proposal.
Table
18
presents
information
on
the
dry
lime
injection
fabric
filters
(
DIFFs)
used
in
the
industry.
The
FACID,
APCD
ID,
installation
date,
manufacturer,
sorbent
used,
injection
rate,
number
of
filter
bags,
type
of
filter
material,
material
weight,
estimated
bag
life,
air­
to­
cloth
ratio,
and
cleaning
mechanism
are
included
in
this
table.

XII.
Scrubbers
Information
on
the
scrubbers
used
in
the
industry
is
presented
in
Table
19.
The
table
includes
fields
for
the
FACID,
APCD
ID,
installation
date,
manufacturer,
scrubber
type,
scrubbing
liquid
(
if
any),
pressure
drop,
liquid­
to­
gas
ratio,
any
additives
used
to
improve
scrubber
efficiency,
and
the
rate
that
those
additives
are
added.
5
XIII.
Other
Air
Pollution
Control
Devices
This
table
(
Table
20
in
original
database
memo,
docket
A­
99­
30,
item
II­
B­
22)
has
not
been
updated
since
proposal.
Table
20
contains
data
on
all
other
types
of
APCDs
at
each
facility.
Generally,
these
other
APCDs
are
cyclones,
though
there
are
a
few
other
methods
of
pollution
control
listed
(
i.
e.,
dust
suppression).
The
table
includes
fields
for
the
FACID,
APCD
ID,
installation
date,
manufacturer,
and
three
generic
fields
for
any
additional
available
information
concerning
the
APCD.

XIV.
Pollution
Prevention
This
table
(
Table
21
in
original
database
memo,
docket
A­
99­
30,
item
II­
B­
22)
has
not
been
updated
since
proposal.
A
list
of
any
pollution
prevention
activities
that
are
performed
at
each
facility
is
provided
in
Table
21.

XV.
Control
Device
Monitoring
This
table
(
Table
22
in
original
database
memo,
docket
A­
99­
30,
item
II­
B­
22)
has
not
been
updated
since
proposal.
Table
22
contains
information
on
the
APCD
monitoring
techniques
used
at
each
facility.
This
table
includes
fields
for
the
FACID,
APCD
ID
and
type,
parameters
monitored,
monitoring
frequency,
type
of
monitoring
device,
recording
method,
monitoring
equipment
operation
and
maintenance
practices,
and
APCD
operation
and
maintenance
practices.

XVI.
Other
HAP
These
tables
(
Table
23
and
24
in
original
database
memo,
docket
A­
99­
30,
item
II­
B­
22)
have
not
been
updated
since
proposal.
Tables
23
and
24
contain
information
on
HAP
emitted
from
sources
at
BSCP
manufacturing
facilities
that
are
not
part
of
the
brick
manufacturing
process.
These
tables
include
fields
for
the
FACID,
HAP
emission
source,
SIC
code
of
the
associated
manufacturing
operation,
specific
HAP
emitted,
and
an
estimate
of
the
quantity
of
HAP
emitted.

XVII.
Other
Information
This
table
(
Table
25
in
original
database
memo,
docket
A­
99­
30,
item
II­
B­
22)
has
not
been
updated
since
proposal.
Table
25
contains
any
other
pertinent
information
that
was
not
specifically
requested
in
the
ICR,
but
was
provided
by
the
facilities.

XVIII.
Fluoride
Analysis
This
table
(
Table
26
in
original
database
memo,
docket
A­
99­
30,
item
II­
B­
22)
has
not
been
updated
since
proposal.
Table
26
contains
a
summary
of
available
fluoride
analyses
for
raw
materials
and
fired
products.
The
table
includes
fields
for
FACID,
description
of
the
material,
and
parts
per
million
fluoride
for
raw
(
dry
basis)
and
fired
materials.
6
XIX.
Test
Reports
Three
test
reports
were
added
to
this
table.
Table
27,
the
test
report
table,
was
not
a
part
of
the
ICR,
but
was
compiled
by
MRI
to
document
the
available
test
reports
for
the
BSCP
industry.
This
table
(
Table
27
in
original
database
memo,
docket
A­
99­
30,
item
II­
B­
22)
has
not
been
updated
since
proposal
and
is
not
included
in
this
document.
However,
three
additional
test
reports
were
used
in
the
development
of
the
final
rule.

XX.
Test
Data
We
updated
the
test
data
table
to
include
data
from
three
new
test
reports.
Some
data
corrections
were
also
made,
and
we
removed
total
fluorides
data
from
the
hydrogen
fluoride
columns.
Tables
28
through
34,
compiled
from
the
available
test
data,
summarize
the
emissions
data
found
in
the
test
reports.
For
the
purposes
of
this
memorandum,
fields
are
included
for
the
FACID;
test
dates;
source(
s)
tested;
equipment
ID
and
type;
APCD
ID
(
if
any);
APCD
type;
volumetric
flow
rates
(
acfm
and
dscfm)
at
the
APCD
inlet
and
outlet
(
if
applicable);
production
rate
during
the
test;
stack
gas
parameters
(
moisture
content,
oxygen
content,
and
temperature);
uncontrolled
and
controlled
pollutant
concentrations,
emission
rates,
and
emission
factors
for
hydrogen
fluoride,
total
fluorides,
hydrogen
chloride,
sulfur
dioxide,
and
particulate
matter;
the
test
method
used
for
each
pollutant;
whether
or
not
a
complete
test
report
was
provided;
a
field
for
any
additional
comments
about
the
report;
stack
height;
stack
area;
stack
diameter;
process
operating
temperatures;
process
fuel;
heat
input;
and
the
"
typical"
production
rate
for
the
process.
The
actual
database
table
also
includes
fields
for
the
company
name,
facility
name,
and
facility
location.

XXI.
List
of
Codes
Throughout
the
tables,
many
codes
are
used
for
various
types
of
process
equipment,
emission
points,
and
APCDs.
These
codes,
along
with
a
definition
for
each
code,
are
presented
below.

Code
Definition
BH
Baghouse:
fabric
filter
BHI
Baghouse
that
exhausts
into
a
building
CA
Calciner:
rotary
calciner,
multiple
hearth
calciner,
rotary
kiln,
Herschoff
furnace
CC
Coal
crusher:
coal
pulverizer
CR
Crusher:
jaw
crusher,
primary
crusher,
secondary
crusher,
cone
crusher,
impact
mill
CTA
Color/
texture
application
CY
Cyclone
DA
Dry
Limestone
Adsorber
DC
Dryer
(
continuous):
tunnel
dryer
Code
Definition
7
DIFF
Dry
lime
injection
fabric
filter
DLS
Dry
lime
scrubber/
fabric
filter
DP
Dryer
(
periodic)

DR
Dryer:
rotary
dryer,
vibrating
grate
dryer,
fluidized
bed
dryer
DS
Sawdust
dryer
FD
Forming
(
dry):
press
(
other
than
hot
press),
friction
press
FE
Fugitive
emissions
FW
Forming
(
wet):
extrusion,
casting,
molding
G
Grinder:
grinder,
ball
mill,
hammer
mill,
attrition
mill,
dry
pan,
pulverizer
GR
Finish
grinding:
grinder
GS
Raw
material
grinding
and
screening:
grinding
room
GZ
Glazing
operation,
including
spraying,
dipping,
and
other
glaze
application
methods
MD
Mixer
(
dry):
mixer,
hot
mixer
MH
Raw
material
handling
and
storage:
conveyor
transfer,
elevator,
hopper
with
screw
MISC
Miscellaneous:
This
designation
should
be
used
for
other
processes,
i.
e.
drying
MN
Mining
MW
Mixing
(
wet):
pug
mill,
mixer,
blunger
OC
Other
control
device
OS
Open
storage
piles
PK
Periodic
kiln:
beehive
kiln,
bell
kiln,
shuttle
kiln,
bell
top
kiln,
dome
kiln,
elevator
RK
Roller
kiln,
roller
hearth
kiln
RU
Raw
material
unloading
and
storage
(
into
storage
bins
or
silos)

S
Screen:
vibrating
screen
SC
Scrubber
ST
Storage
tank
(
organic
liquid)

TK
Tunnel
kiln:
continuous
kiln
(
except
roller
kilns)

US
Uncontrolled
stack
WE
Weighing:
weigh
scale,
scale,
weigh
table,
platform
scale
WS
Water
sprays:
wet
suppression
8
XXII.
Referencesa
1.
K.
Patel,
Pennsylvania
Department
of
Environmental
Protection,
to
J.
Frost,
Glen­
Gery
Corporation.
Transmittal
of
the
Title
V
Operating
Permit
for
the
Glen­
Gery
Corporation,
York
facility,
located
in
Spring
Garden
Township,
York
County,
Pennsylvania.
December
12,
1997.

2.
Title
V
Operating
Permit
for
the
Glen­
Gery
Corporation,
Hanley
Plant.
Pennsylvania
Department
of
Environmental
Protection.
June
9,
1998.

3.
Title
V
Operating
Permit
for
the
Glen­
Gery
Corporation,
Redfield
Plant.
Iowa
Department
of
Natural
Resources.
May
17,
1999.

4.
Title
V
Operating
Permit
for
the
Glen­
Gery
Corporation,
Bigler
Plant.
Pennsylvania
Department
of
Environmental
Protection.
June
15,
1999.

5.
S.
Shrager,
MRI,
with
A.
Clark,
Ohio
Environmental
Protection
Agency.
Telecon:
Request
for
information
on
the
operating
status
of
two
brick
manufacturing
facilities
owned
by
General
Clay
Products
Corporation
(
Gahanna
and
Upper
Sandusky,
Ohio).
September
22,
1999.

6.
Title
V
Operating
Permit
for
the
Glen­
Gery
Corporation,
Capitol
Plant.
Virginia
Department
of
Environmental
Quality.
January
14,
2000.

7.
Title
V
Operating
Permit
for
the
Glen­
Gery
Corporation,
Utica,
Missouri.
Missouri
Department
of
Natural
Resources,
Air
Pollution
Control
Program.
February
14,
2000.

8.
N.
Jamison
and
A.
Brooks,
Kansas
Department
of
Health
and
Environment,
to
M.
Abraczinskas,
MRI.
Verification
of
capacity
numbers
at
Kansas
Brick
and
Tile.
March
1,
2000.

9.
B.
Shrager,
MRI,
with
T.
Campbell,
Atkinson
Brick
Company.
Telecon:
Discussion
of
small
business
outreach
questions
for
Perris,
California
facility.
Indication
that
Atkinson
would
accept
10
tph
permit
limit.
May
17,
2000.

10.
R.
Floyd,
J.
L.
Anderson
(
Palmetto
Brick)
to
B.
Shrager.
Contact
Report
of
conversation
regarding
EPA
outreach
questions
for
brick
manufacturers.
May
17
&
19,
2000.

11.
L.
Williams
III,
Brick
and
Tile
Corporation
of
Lawrenceville,
to
B.
Shrager,
MRI.
Response
to
EPA's
small
business
outreach
questionnaire.
May
19,
2000.

12.
B.
Shrager,
MRI,
with
B.
Bell,
Castaic
Clay.
Telecon:
Discussion
of
small
business
outreach
questions.
Indication
that
Castaic
Clay
is
not
a
major
source.
May
23,
2000.

13.
M.
Leidich,
Robinson
Brick
Company,
to
B.
Shrager,
MRI.
Response
to
EPA
outreach
questions
for
brick
manufacturers.
May
30,
2000.
9
14.
R.
Aldrich,
Tri­
State
Brick
and
Tile
Company,
to
B.
Shrager,
MRI.
Response
to
EPA
outreach
questions
for
brick
manufacturers.
June
6,
2000.

15.
K.
Bendel,
Triangle
Brick,
to
B.
Shrager,
MRI.
Response
to
EPA
outreach
questions
for
brick
manufacturers.
June
14,
2000.

16.
H.
Newman,
Pine
Hall
Brick,
to
B.
Shrager,
MRI.
Response
to
EPA
outreach
questions
for
brick
manufacturers.
Confidential
information
in
the
response
is
in
CBI
file
no.
00358­
I17­
02.
June
16,
2000.

17.
C.
Laird,
Global
Clay
Marseilles
LLC,
to
B.
Shrager,
MRI.
Response
to
EPA
outreach
questions
for
brick
manufacturers.
June
16,
2000.

18.
J.
Holton,
Lee
Brick
&
Tile
Company,
to
B.
Shrager,
MRI.
Response
to
EPA
outreach
questions
for
brick
manufacturers.
June
20,
2000.

19.
C.
McAvoy,
McAvoy
Brick,
to
B.
Shrager,
MRI.
Response
to
EPA
outreach
questions
for
brick
manufacturers.
June
21,
2000.

20.
T.
Lyhane,
Roberts/
Schornick
&
Associates,
Incorporated,
on
behalf
of
Commercial
Brick,
to
B.
Shrager,
MRI.
Response
to
EPA
outreach
questions
for
brick
manufacturers.
July
26,
2000.

21.
B.
Storer,
Denver
Brick
Company,
to
B.
Shrager,
MRI.
Information
on
the
dry
lime
injection
fabric
filter
system
controlling
emissions
from
a
tunnel
kiln.
August
1,
2000.

22.
E.
Birch,
Henry
Brick
Company,
Incorporated,
to
B.
Shrager,
MRI.
Response
to
EPA
outreach
questions
for
brick
manufacturers.
August
2,
2000.

23.
S.
Rummel,
Ochs
Brick
Company,
to
B.
Shrager,
MRI.
Response
to
EPA
outreach
questions
for
brick
manufacturers.
August
24,
2000.

24.
B.
Shrager,
MRI,
with
L.
Jackson,
Mutual
Materials.
Telecon:
Discussion
of
small
business
outreach
questions
and
wet
scrubbers
for
controlling
brick
kilns.
September
1,
2000.

25.
D.
Norvell,
Clayton
Group
Services,
to
B.
Shrager,
MRI.
Transmitting
CD­
ROM
with
the
BIA
database,
spreadsheet
with
capacity
information,
and
test
report
for
Palmetto
Brick
Company
performed
in
March
1999.
March
20,
2001.

26.
Memorandum
from
B.
Shrager
and
M.
Abraczinskas,
MRI,
to
M.
Johnson,
EPA:
ESD.
Baseline
Emissions
and
Emission
Reductions.
June
7,
2001.

a
References
were
not
included
for
ICRs,
follow­
up
phone
calls,
and
other
standard
communications.
10
TABLE
1:
FACILITY
INFORMATION,
PART
I
FACID
Company
Facility
Street
City
State
Zip
Respondent
Title
Resp.
Street
Resp.
City
Resp
state
Resp
zip
Resp
Telephone
Other
contact
Other
telephone
1
Wienerberger
Group
(
General
Shale)
General
Shale
Brick­
Plants
14
and
38
212
South
Park
Rd
Fairdale
KY
40118
Dave
McNees
Environmental
Specialist
PO
Box
3547
Johnson
City
TN
37602
(
423)
282
­

4661
2
American
Eagle
Brick
Co
American
Eagle
Brick
Co
1000
McNutt
Rd
Sunland
Park
NM
88063
George
F.

Cudahy
President
PO
Box
12786
El
Paso
TX
79913
(
505)
589­
0700
3
Atkinson
Brick
Co
Atkinson
Brick
24100
Orange
Ave
Perris
CA
92570
Tobin
Campbell
Vice
President
15421
Chemical
Lane
Huntington
Beach
CA
92649
(
714)
897­
4311
4
Atkinson
Brick
Co
Atkinson
Brick
13633
S.
Central
Ave
Los
Angeles
CA
90059
Tobin
Campbell
Vice
President
15421
Chemical
Lane
Huntington
Beach
CA
92649
(
714)
897­
4311
5
Boral
Industries,
Inc
Boral
Bricks,

Bessemer
Plant
#
6
Hopewell
Rd,

S.
E.
­
Plant
62
Bessemer
AL
35020
Michele
Fry
Manufacturing
Management
Trainee
PO
Box
517
Bessemer
AL
35021
(
205)
425­
8970
Dave
Johnson
(
334)

480­
2487
6
Boral
Industries,
Inc
Boral
Bricks,

Bessemer
Plant
#
5
Vulcan
Rd,
S.
E.
Bessemer
AL
35023
Michele
Fry
Manufacturing
Management
Trainee
PO
Box
517
Bessemer
AL
35021
(
205)
425­
8970
Dave
Johnson
(
334)

480­
2487
7
Boral
Industries,
Inc
Boral
Bricks,

Augusta
Plant
6
1449
Doug
Barnard
Parkway
Augusta
GA
31208
Guiomar
Obregon
Analyst
500
Northridge
Rd,

Suite
300
Atlanta
GA
30350
(
770)
645­
4500
David
P.

Johnson
(
334)

480­
2487
8
Belden
Brick
Co
Redland
Brick,

Rocky
Ridge
Plant
9801
Rocky
Ridge
Rd
Rocky
Ridge
MD
21778
Barry
Miller
Manager­
Safety,

Environmental
&
Quality
15718
Clear
Spring
Rd,
PO
Box
160
Williamsport
MD
21795
(
301)
223­
7700
ext.
7147
9
J.
L.
Anderson
Co.,

Inc
Palmetto
Brick
Co
3501
Brickyard
Rd
Wallace
SC
29596
Rick
Floyd
(
843)
537­
7861
10
Boral
Industries,
Inc
Boral
Bricks,

Macon,
Mississippi
Highway
14
West
Macon
MS
39341
Michele
Fry
Manufacturing
Management
Trainee
PO
Box
517
Bessemer
AL
35021
(
205)
425­
8970
Dave
Johnson
(
334)

480­
2487
11
Boral
Industries,
Inc
Boral
Bricks,

Lexington
Plant
Hwy
1
and
Brickyard
Rd,

P.
O.
Box
868
Lexington
SC
29072
William
Anderson
Plant
Manager
(
Boral
Bricks)
PO
Box
868
Van
Wyck
SC
29042
(
803)
286­
5566
David
Johnson
(
334)

480­
2487
12
Boral
Industries,
Inc
Boral
Bricks,

Gleason
Plant
P.
O.
Box
72
Gleason
TN
38229
David
Johnson
Environmental
Manager
PO
Box
1178
Columbus
GA
31902
­
1178
(
334)
480­
2487
13
Boral
Industries,
Inc
Boral
Bricks,

Henderson
Plant
1309
Kilgore
Dr
Henderson
TX
75653
Will
Anderson
Plant
Engineer
(
Boral
Bricks)
7472
Van
Wyck
Rd
(
PO
Box
99)
Van
Wyck
SC
29744
(
803)
286­
5566
Dave
Johnson
(
334)

480­
2487
14
Clay
City
Pipe
Bowerston
Shale
Co­
Bowerston
Plant
515
E.
Main
St
Bowerston
OH
44695
Edward
C.

Milliken
Engineering
Manager
(
740)
269­
2921
15
Clay
City
Pipe
Bowerston
Shale
Co­
Hanover
Plant
1329
Seven
Hills
Road
NE
Newark
OH
43055
Edward
C.

Milliken
Engineering
Manager
515
East
Main
St
Bowerston
OH
44695
(
740)
269­
2921
16
Brick
and
Tile
Corp
of
Lawrenceville
Plant
I
1244
Brickyard
St
Lawrenceville
VA
23868
Leon
F.
Williams
III
Vice
President
Production
PO
Box
45
Lawrenceville
VA
23868
(
804)
848­
3151
17
Brick
and
Tile
Corp
of
Lawrenceville
Plant
III
16024
Governor
Harrison
Parkway
Lawrenceville
VA
23868
Leon
F.
Williams
III
Vice
President
Production
PO
Box
45
Lawrenceville
VA
23868
(
804)
848­
3151
TABLE
1.
(
CONTINUED)

FACID
Company
Facility
Street
City
State
Zip
Respondent
Title
Resp.
Street
Resp.
City
Resp
state
Resp
zip
Resp
Telephone
Other
contact
Other
telephone
11
18
Castaic
Clay
Mfg.

Co,
Inc
Castaic
Clay
Mfg
P.
O.
Box
8,

32300
Old
Ridge
Rte
Rd
Castaic
CA
91310
William
Bell
Plant
Manager
(
661)
259­
3066
19
Cherokee
Brick
&

Tile
Co
Cherokee
Brick
&

Tile
Co
3250
Waterville
Rd
Macon
GA
31206
James
V.
Owen
General
Manager
Operations
(
478)
781­
6800
Leesa
Gerald
(
904)

268­
8393
20
Clinton­
Campbell
Contractor,
Inc
Phoenix
Brick
Yard
1814
South
7th
Ave
Phoenix
AZ
85007
Don
Campbell
Vice
President
(
602)
258­
7158
Craig
McCurry
(
602)

804­
1420
21
D'Hanis
Clay
Products,
Inc
dba
D'Hanis
Brick
and
Tile
7734
County
Rd
No.
429
D'Hanis
TX
78850
John
A.
Oberman
President
311
E
Nakoma
San
Antonio
TX
78216
(
210)
525­
8142
22
Wienerberger
Group
(
General
Shale)
Darlington
Brick
&

Clay
Products
Co
602
Third
&

Morris
St,
P.
O.

Box
346
Darlington
PA
16115
Jack
Landsbach
Plant
Manager
(
724)
827­
2700
ext
209
23
Endicott
Clay
Products
Co
Endicott
Clay
Products
Co
57120
707th
Rd
Fairbury
NE
68352
Paul
W.
Judd
Vice
President
PO
Box
17
Fairbury
NE
68352
(
402)
729­
3315
24
Florida
Brick
&
Clay
Co.,
Inc
Florida
Brick
1708
Turkey
Creek
Rd
Plant
City
FL
33567
Antonio
C.

Azorin
Vice
President
­

Operations
(
813)
754­
1521,

ext.
17
25
Hanson,
PLC
Boren
Clay­­
Monroe
Hwy
No.
74,
P.
O.

Box
5012
Monroe
NC
28111
Jack
Garvey
Director
of
Engineering
(
336)
674­
2255
26
Hanson,
PLC
Boren
Clay
Products
1410
Forest
Acres
Circle
Pleasant
Garden
NC
27313
Jack
Garvey
Director
of
Engineering
(
336)
674­
2255
27
Hanson,
PLC
Boren
Clay
Products­­
Roseboro
Plant
P.
O.
Box
518
Roseboro
NC
28382
Jack
Garvey
Director
of
Engineering
(
336)
674­
2255
28
Hanson,
PLC
Boren
Clay
Products­­
Blacksbur
g
Plant
P.
O.
Box
156
Blacksburg
SC
29702
Jack
Garvey
Director
of
Engineering
(
336)
674­
2255
29
Hanson,
PLC
US
Brick
Cline
Plant
510
US
Rt
60
Ashland
KY
41105
Martin
V.

Harrison
Safety/
Environme
ntal
Director
(
606)
928­
6324
(
606)

928­
6324
30
Hanson,
PLC
US
Brick,

Inc­­
Sipple
2014
Morris
Creek
Rd
Stanton
KY
4038
Martin
V.

Harrison
Safety/
Environme
ntal
Director
(
606)
663­
4125
31
Hanson,
PLC
Richtex
plants
2
and
4
Brickyard
Rd
@

Frost
Ave.
Columbia
SC
29203
J.
David
McKeown
Environment/
Qua
lity
Control
Manager
(
803)
786­
1260
(
803)

786­
1260
32
Hanson,
PLC
Richtex
Corp­­
Plant
9
624
Brickyard
Rd
Ninety­
Six
SC
29666
J.
David
McKeown
Environment/
Qua
lity
Control
Manager
(
803)
786­
1260
33
Colonial
Brick
Corp
Colonial
Brick
Corp
817
Park
St
­
P.
O.

Box
365
Cayuga
IN
47928
Daniel
A.
Swartz
President
817
Park
St
Cayuga
IN
47928
(
765)
492­
3355
34
Columbus
Brick
Co
Columbus
Brick
Co
114
Brickyard
Rd
Columbus
MS
39705
Charles
J.

Deignan
Plant
Engineer
114
Brickyard
Rd
Columbus
MS
39705
(
601)
438­
4931
35
Jenkins
Brick
Co
Coosada
Plant
6250
Coosada
Rd
Coosada
AL
36020
John
Williams
Plant
Manager
(
334)
285­
5165
TABLE
1.
(
CONTINUED)

FACID
Company
Facility
Street
City
State
Zip
Respondent
Title
Resp.
Street
Resp.
City
Resp
state
Resp
zip
Resp
Telephone
Other
contact
Other
telephone
12
36
Jenkins
Brick
Co
Montgomery
Plant
1228
N.
McDonough
St
Montgomery
AL
36104
Buddy
Hibbard
Plant
Manager
(
334)
263­
6660
37
Kentwood
Brick
&

Tile
Mfg.
Co,
Inc
Kentwood
Brick
&

Tile
Mfg
Co,
Inc
72199
Hwy
51,

P.
O.
Drawer
F
Kentwood
LA
70444
Edward
Burns
Controller
(
504)
229­
7112
38
Hoffman
Enterprises,
Inc
Kinney
Brick
Co
100
Prosperity
SE
Albuquerque
NM
87105
Ralph
Hoffman
General
Manager
PO
Box
1804
Albuquerque
NM
87103
(
505)
877­
4550
39
Summit
Pressed
Brick
and
Tile
Co
Lakewood
Brick
and
Tile
Co
1325
Jay
St
Lakewood
CO
80214
Thomas
J.

Murray
Vice
President
(
303)
238­
5313
40
Louisville
Brick
Co
Louisville
Brick
Co
750
N
Church
Louisville
MS
39339
Mark
F.
Mitchell
Plant
Superintendent
PO
Box
426
Louisville
MS
39339
(
601)
773­
5971
41
Ibstock,
PLC
(
Glen­
Gery
Corp)
Glen­
Gery
Corp
1401
Broadway
St
Marseilles
IL
61341
Charles
Laird
Plant
Manager
(
815)
795­
6922
42
McAvoy
Brick
Co
The
McAvoy
Brick
Co
140
McAvoy
Lane,
P.
O.
Box
468
Phoenixville
PA
19460
Creighton
H.

McAvoy
President
43
Nash
Brick
Co
Nash
Brick
Co
(
Plant)
532
Nash
Brick
Rd
(
NO
MAIL)
Enfield
NC
Jeff
A.
Wyers
Plant
Manager
PO
Box
962
(
ALL
MAIL)
Rocky
Mount
NC
27802
(
919)
443­
4965
44
Owensboro
Brick
and
Tile
Owensboro
Brick
and
Tile
1120
E
Wing
Rd,

Box
907
Owensboro
KY
42302
Willian
J.
Richard
Chairman
(
502)
926­
3330
Mark
Sexton
(
502)

926­
3330
45
Richards
Brick
Co
Richards
Brick
Co
234
Springer
Ave
Edwardsville
IL
62025
­
1806
John
Motley
General
Manager
(
618)
656­
0230
46
Statesville
Brick
Co
Statesville
Brick
Co
391
Brickyard
Rd
Statesville
NC
28677
Brad
Brown
Technical
Services
PO
Box
471
Statesville
NC
28687
(
704)
872­
4123
47
Taylor
Clay
Products
Co
Taylor
Clay
Products
PO
Box
2128,

185
Peeler
Rd
Salisbury
NC
28145
Harold
Howard
Vice
President
Engineering
(
704)
636­
2411
48
Roeben
Co.,
Inc
Triangle
Brick
Co­
Carpenter
Hwy
55
South
Carpenter
NC
27560
Howard
P.
Brown
President
6523
Apex
Rd
Durham
NC
27713
­
9346
(
919)
544­
1796
William
G.

Colby,
P.
E.
(
603)

623­
3600
49
Roeben
Co.,
Inc
Triangle
Brick
Co­­
Merry
Oaks
US
Hwy
1
Merry
Oaks
NC
27559
Howard
P.
Brown
President
6523
Apex
Rd
Durham
NC
27713
­
9346
(
919)
544­
1796
William
G.

Colby,
P.
E.
(
603)

623­
3600
50
Marion
Ceramics,

Inc
Marion
Ceramics,

Inc
Hwy
301
North
Pee
Dee
SC
Daniel
Cabeza
President
PO
Box
1134
Marion
SC
29571
(
803)
423­
1311
51
Boral
Industries,
Inc
Boral
Bricks,
Van
Wyck
Plants
7472
Van
Wyck
Rd,
P.
O.
Box
99
Van
Wyck
SC
29744
William
Anderson
Plant
Manager
(
803)
286­
5566
David
Johnson
(
334)

480­
2487
52
Wienerberger
Group
(
General
Shale)
General
Shale
Brick
Plant
30
3195
Brick
Plant
Rd,
NW
Atlanta
GA
30318
Dave
McNees
Environmental
Specialist
PO
Box
3547,
3211
N
Roan
St
Johnson
City
TN
37602
(
423)
282­
4661
53
Wienerberger
Group
(
General
Shale)
General
Shale
Brick
Plant
31
2142
James
Jackson
Atlanta
GA
30318
Dave
McNees
Environmental
Specialist
PO
Box
3547,
3211
N
Roan
St
Johnson
City
TN
37602
(
423)
282­
4661
54
Wienerberger
Group
(
General
Shale)
General
Shale
Brick­
Plants
20
&
32
CR
1000
N
Mooresville
IN
46158
Dave
McNees
Environmental
Specialist
PO
Box
3547
Johnson
City
TN
37602
(
423)
282­
4661
TABLE
1.
(
CONTINUED)

FACID
Company
Facility
Street
City
State
Zip
Respondent
Title
Resp.
Street
Resp.
City
Resp
state
Resp
zip
Resp
Telephone
Other
contact
Other
telephone
13
55
Wienerberger
Group
(
General
Shale)
General
Shale
Brick­
Corbin­
Plant
33
16
Perkins
Lane
Woodbine
KY
40771
Dave
McNees
Environmental
Specialist
PO
Box
3547
Johnson
City
TN
37602
(
423)
282­
4661
56
Wienerberger
Group
(
General
Shale)
General
Shale
Brick­
Hanford
Div
Plant
34
1136
Cedarcrest
Dr
Burlington
NC
27215
Dave
McNees
Environmental
Specialist
PO
Box
3547
Johnson
City
TN
37602
(
423)
282­
4661
57
Wienerberger
Group
(
General
Shale)
General
Shale
Brick
­
Plant
10
102
South
Broadway
Johnson
City
TN
37601
Dave
McNees
Environmental
Specialist
PO
Box
3547
Johnson
City
TN
37602
(
423)
282­
4661
58
Wienerberger
Group
(
General
Shale)
General
Shale
Brick
Plants
15
&
29
Hill
St
Kingsport
TN
37662
Dave
McNees
Environmental
Specialist
PO
Box
3547
Johnson
City
TN
37602
(
423)
282­
4661
59
Wienerberger
Group
(
General
Shale)
General
Shale
Brick
Plant
7
1740
Riverside
Dr
Knoxville
TN
37901
Dave
McNees
Environmental
Specialist
PO
Box
3547
Johnson
City
TN
37602
(
423)
282­
4661
60
Wienerberger
Group
(
General
Shale)
General
Shale
Brick
Plants
6
&
28
Rt
1,
Hwy
11­
E,

Box
460
Atkins
(
Marion)
VA
24311
Dave
McNees
Environmental
Specialist
PO
Box
3547
Johnson
City
TN
37602
(
423)
282­
4661
61
Wienerberger
Group
(
General
Shale)
General
Shale
Brick
Plants
35
and
36
770
Webster
Rd
Blue
Ridge
(
Roanoke)
VA
24064
Dave
McNees
Environmental
Specialist
PO
Box
3547
Johnson
City
TN
37602
(
423)
282­
4661
62
Wienerberger
Group
(
General
Shale)
General
Shale
Brick
Plant
37
State
Rt.
655
Somerset
VA
22972
Dave
McNees
Environmental
Specialist
PO
Box
3547
Johnson
City
TN
37602
(
423)
282­
4661
63
Higgins
Brick
Co
Higgins
Brick
Co
15920
Pomona
Rincon
Rd
Chino
Hills
CA
91709
Ray
Thomas
Plant
Senior
Superintendent
15920
Pomona
Rincon
Rd
Chino
Hills
CA
91709
(
805)
644­
5948
Michael
Shaffer
(
805)

644­
5948
64
Continental
Brick
Co
Martinsburg
Plant
1441
Charles
Town
Rd
Martinsburg
WV
25401
Charles
L.
Pickett
Vice
President
(
304)
263­
6974
65
Eureka
Brick
and
Tile
Co
Eureka
Brick
and
Tile
Co
East
Hwy
64
(
P.
O.
Box
379)
Clarksville
AR
72830
Ronnie
Sexton
Plant
Manager
(
501)
754­
3040
66
Belden
Brick
Co
Redland
Brick­
Harmar
Plant
375
Rich
Hill
Rd
Cheswick
PA
15024
Barry
Miller
Manager­
Safety,

Environmental,

and
Quality
15718
Clear
Spring
Rd,
PO
Box
160
Williamsport
MD
21795
(
301)
223­
7700
Simon
Whalley
(
301)

223­
7700
67
Hanson,
PLC
US
Brick
­
Holly
Springs
Plant
700
Hwy
7
North
Holly
Springs
MS
38635
Paul
Anderson
Assistant
Manager
Engineering
and
Research
(
940)
325­
9466
68
Old
Virginia
Brick
Co
Madison
Heights,

Virginia
Plant
Mitchell
Bell
Rd
Madison
Heights
VA
24572
William
F.

Walker
Vice
President
Engineering/
Divi
sion
Manager
PO
Box
740
Madison
Heights
VA
24572
(
804)
929­
6411
69
Old
Virginia
Brick
Co
Salem,
Virginia
Plant
2500
West
Main
St
Salem
VA
24153
William
F.

Walker
Vice
President
Engineering/
Divi
sion
Manager
PO
Box
740
Madison
Heights
VA
24572
(
804)
929­
6411
70
Hanson,
PLC
US
Brick
­
Mineral
Wells
Plant
500
N.
E.
14th
Ave
Mineral
Wells
TX
76067
Paul
Anderson
Assistant
Manager
Engineering
and
Research
(
940)
325­
9466
TABLE
1.
(
CONTINUED)

FACID
Company
Facility
Street
City
State
Zip
Respondent
Title
Resp.
Street
Resp.
City
Resp
state
Resp
zip
Resp
Telephone
Other
contact
Other
telephone
14
71
Interpace
Industries
Inc
Interpace
Industries
Inc
736
W.
Harrisville
Rd,

P.
O.
Box
12118
Ogden
UT
84412
C.
L.
Patterson
Plant
Manager
(
801)
782­
7933
72
Boral
Industries,
Inc
Boral
Bricks,

Salisbury
Plants
700
North
Long
St
Salisbury
NC
28145
CH2MHill
for
David
Johnson
Consultant
100
Brickyard
Rd
Phenix
City
AL
36869
(
334)
480­
2487
David
Johnson
(
334)

480­
2487
73
Boral
Industries,
Inc
Boral
Bricks,
Atlanta
Plant
5472
Oakdale
Rd
Smyrma
GA
30082
Guiomar
Obregon
Analyst
500
Northridge
Rd,

Suite
300
Atlanta
GA
30350
(
770)
645­
4500
David
P.

Johnson
(
334)

480­
2487
74
Boral
Industries,
Inc
Boral
Bricks,

Macon,
Georgia
Plant
7110
10th
St
Macon
GA
31208
Guiomar
Obregon
Analyst
500
Northridge
Rd,

Suite
300
Atlanta
GA
30350
(
770)
645­
4500
David
P.

Johnson
(
334)

480­
2487
75
Wheeler
Brick
Co,

Inc
Wheeler
Brick
Co,

Inc
2905
Dan
Ave,

P.
O.
Box
250
Jonesboro
AR
72403
­
0250
Randall
Wheeler
President
PO
Box
250
(
870)
935­
5182
Randy
Wheeler
(
Jr)
(
870)

935­
5182
76
Scott
Jewett
Truck
Line,
Inc
Mangum
Brick
2316
N
Louis
Tittle
Ave
Mangum
OK
73554
Ron
Gay
Sales
Manager
(
580)
782­
2324
77
Hanson,
PLC
US
Brick­
Elgin
Plant
Rt.
6,
Box
338
Elgin
TX
78621
Paul
Anderson
Assistant
Manager
Engineering
and
Research
(
940)
325­
9466
78
Henry
Brick
Company,
Inc
Henry
Brick
Co,
Inc
3409
Water
Ave
Selma
AL
36703
C.
Elton
Birch,
Jr.
Vice
President/
Product
ion
(
334)
875­
2600
79
Morin
Brick
Co
Lachance
Div
392
Mosher
Rd
Gorham
ME
4038
Norman
E.
Davis
Treasurer
Old
Danville
Rd,

PO
Box
36
Danville
ME
4223
(
207)
784­
9375
80
Stone
Creek
Brick
Co
Stone
Creek
Brick
Co
103
North
St
Stone
Creek
OH
43840
Dick
Graham
General
Manager
(
330)
339­
5511
Greg
Myers
(
330)

339­
5511
81
Boral
Industries,
Inc
Boral
Bricks,
Phenix
City,
Plant
4
100
Brickyard
Rd,
Plant
4
Phenix
City
AL
36865
Andrew
S.
R.

Wichers
Regional
Safety
Manager
100
Brickyard
Rd
Phenix
City
AL
36865
(
334)
480­
2407
David
Johnson
(
334)

480­
2487
82
Boral
Industries,
Inc
Boral
Bricks,

Muskogee
Plant
3101
West
53rd
St
South
Muskogee
OK
74401
Andrew
S.
R.

Wichers
Regional
Safety
Manager
PO
Box
1178
Columbus
GA
31902
­
1178
(
334)
480­
2407
David
Johnson
(
334)

480­
2487
83
Cunningham
Brick
Company,
Inc
Cleveland
County
Facility
1622
Longbranch
Rd
Grover
NC
Richard
W.
Cunningham
Secretary
701
N
Main
St
Lexington
NC
27292
(
336)
472­
6181
84
Cunningham
Brick
Company,
Inc
Thomasville
1437
Cunningham
Brick
Yard
Rd
Thomasville
NC
27360
Richard
W.
Cunningham
Secretary
701
N
Main
St
Lexington
NC
27292
(
336)
472­
6181
85
Wienerberger
Group
(
General
Shale)
General
Shale
Brick
­
Plant
18
13207
Memorial
Parkway,
South
Huntsville
AL
35803
Dave
McNees
Environmental
Specialist
PO
Box
3547
Johnson
City
TN
37602
(
423)
282­
4661
86
Pacific
Coast
Building
Products
H.
C.
Muddox
4875
Bradshaw
Rd
Sacramento
CA
95827
­
9705
Mark
Nunes
Production
Superintendent
4875
Bradshaw
Rd
Sacramento
CA
95827
(
916)
368­
4567
Normita
Callison
(
916)

339­
8128
87
Mutual
Materials
Co
Mica
Brick
Plant
Facility
10627
South
State
Hwy
27
Mica
WA
99023
George
Beamer
Assistant
R&
D
Lab
Director
PO
Box
14705
Spokane
WA
99214
(
509)
924­
2120
TABLE
1.
(
CONTINUED)

FACID
Company
Facility
Street
City
State
Zip
Respondent
Title
Resp.
Street
Resp.
City
Resp
state
Resp
zip
Resp
Telephone
Other
contact
Other
telephone
15
88
Mutual
Materials
Co
Newcastle
Brick
Plant
Facility
6620
Coalcreek
Parkway
SE
Renton
WA
98055
George
Beamer
Assistant
R&
D
Lab
Director
PO
Box
14705
Spokane
WA
99214
(
509)
924­
2120
89
Richland
Moulded
Brick
Co
Richland
Moulded
Brick
Co
1000
Richland
Shale
Rd,
P.
O.

Box
1711
Mansfield
OH
44901
Scott
W.
Frame,

PE
Vice
President
(
419)
524­
0000
(
205)

237­
2887
90
Sioux
City
Brick
and
Tile
Co
United
Brick
&
Tile,

Adel
Plant
1831
W.
Main
St,

P.
O.
Box
35
Adel
IA
50003
Steven
G.
Gerhart
Vice
President
of
Administration
310
S
Floyd
Blvd,

PO
Box
807
Sioux
City
IA
51102
(
712)
258­
6571
Larry
Smidt
(
515)

993­
4549
91
Stiles
and
Hart
Brick
Co
The
Stiles
and
Hart
Brick
Co
Cook
Street,
P.
O.

Box
367
Bridgewater
MA
2324
Francis
O.

Mansfield
Vice
President
(
508)
697­
6928
92
Justin
Industries
Acme
Brick­
Kanopolis
Plant
1915
Arenia
L
Kanopolis
KS
67454
Mike
Vickers
Director
of
Research
(
940)
382­
3573
Robert
Simmons
(
940)

382­
3573
93
Justin
Industries
Acme
Brick­
Weir
Plant
South
Washington
St
Weir
KS
66781
Mike
Vickers
Director
of
Research
(
940)
382­
3573
Robert
Simmons
(
940)

382­
3573
94
Justin
Industries
Acme
Brick­
Dixie
Plant
3457
Hwy
792
Jamestown
LA
71045
Mike
Vickers
Director
of
Research
(
940)
382­
3573
Robert
Simmons
(
940)

382­
3573
95
Justin
Industries
Acme
Brick­
Oklahoma
City
Plant
500
E.
Memorial
Rd
Oklahoma
City
OK
73114
Mike
Vickers
Director
of
Research
(
940)
382­
3573
Bob
Simmons
(
940)

382­
3573
96
Justin
Industries
Acme
Brick­
Tulsa
Plant
4103
Dawson
Rd
Tulsa
OK
74115
Mike
Vickers
Director
of
Research
(
940)
382­
3573
Robert
Simmons
(
940)

382­
3573
97
Justin
Industries
Acme
Brick­
Denton
Tunnel
Plant
220
E
Danels
Plant
Denton
TX
76205
Mike
Vickers
Director
of
Research
(
940)
382­
3573
Robert
Simmons
(
940)

382­
3573
98
Justin
Industries
Acme
Brick­
Elgin
Tunnel
Plants
FM
Road
696
Elgin
TX
78621
Mike
Vickers
Director
of
Research
(
940)
382­
3573
Bob
Simmons
(
940)

382­
3573
99
Justin
Industries
Acme
Brick­
McQueeney
Plant
FM
I25
McQueeney
TX
78123
Mike
Vickers
Director
of
Research
(
940)
382­
3573
Robert
Simmons
(
940)

382­
3573
100
Wienerberger
Group
(
General
Shale)
Cherokee
Sanford
Beltsville
Facility
7100
Murikirk
Rd
Beltsville
MD
20705
J.
Warren
Paschal
Environmental
Compliance
Manager
1600
Colon
Rd
Sanford
NC
27330
(
919)
774­
5306
101
Wienerberger
Group
(
General
Shale)
Cherokee
Sanford
Moncure
Facility
SR1923
Moncure
NC
27330
J.
Warren
Paschal
Environmental
Compliance
Manager
1600
Colon
Rd
Sanford
NC
27330
(
919)
774­
5306
102
Wienerberger
Group
(
General
Shale)
Cherokee
Sanford
Lee
County
Facility
737
Colon
Rd
Sanford
NC
27330
J.
Warren
Paschal
Environmental
Compliance
Manager
1600
Colon
Rd
Sanford
NC
27330
(
919)
774­
5306
103
Wienerberger
Group
(
General
Shale)
Cherokee
Sanford
Sanford
Facility
1600
Colon
Rd
Sanford
NC
27330
J.
Warren
Paschal
Environmental
Compliance
Manager
1600
Colon
Rd
Sanford
NC
27330
(
919)
774­
5306
TABLE
1.
(
CONTINUED)

FACID
Company
Facility
Street
City
State
Zip
Respondent
Title
Resp.
Street
Resp.
City
Resp
state
Resp
zip
Resp
Telephone
Other
contact
Other
telephone
16
104
Kasten
Clay
Products
Co
Kasten
Clay
Products
Co
713
Lee
Ave,

Hwys
25
&
61
Jackson
MO
63755
Quent
Kasten
Engineering
Manager
(
573)
243­
3591
105
Can
Clay
Corp
Can
Clay
Corp
402
Washington
St
Cannelton
IN
47520
Mark
Bruce
President
(
812)
547­
3461
106
MCP
Industries,
Inc
Mission
Clay
Products
Phoenix
4850
W.
Buckeye
Rd
Phoenix
AZ
85043
A.
Joel
Frazier
Manager
Ceramic
Technology
(
316)
231­
1400
107
MCP
Industries,
Inc
Mission
Clay
Products
Corona
23835
Temescol
Canyon
Rd
Corona
CA
91719
­
5235
A.
Joel
Frazier
Manager
Ceramic
Technology
(
316)
231­
1400
108
MCP
Industries,
Inc
Mission
Clay
Products
Pittsburg
900
E.
2nd
Pittsburg
KS
66762
A.
Joel
Frazier
Manager
Ceramic
Technology
(
316)
231­
1400
109
MCP
Industries,
Inc
Mission
Clay
Products
Saspamco
Old
Corpus
Christi
Rd
Elmendorf
TX
78112
A.
Joel
Frazier
Manager
Ceramic
Technology
(
316)
231­
1400
110
Belden
Brick
Co
Plant
1
Strasburg
7666
Reed
Rd,

NW
Strasburg
OH
44680
John
C.
Jensen
Manager
of
Environmental
Operations
PO
Box
430
Sugarcreek
OH
44681
(
330)
852­
2424
111
Belden
Brick
Co
Plant
#
3
Sugarcreek
690
Dover
Rd
NE
Sugarcreek
OH
44681
John
C.
Jensen
Manager
of
Environmental
Operations
PO
Box
430
Sugarcreek
OH
44681
(
330)
852­
2424
112
Belden
Brick
Co
Sugarcreek
Plants
4,6,&
8
(#
4'
s)
475
Dover
Rd,
NC
Sugarcreek
OH
44687
John
Jensen
Manager
of
Environmental
Operations
PO
Box
430
Sugargreek
OH
44681
(
330)
852­
2424
113
Morin
Brick
Co
Morin
Brick
Co
Old
Danville
Rd,

P.
O.
Box
36
Danville
ME
4223
Norman
E.
Davis
Treasurer
(
207)
784­
9375
114
Mutual
Materials
Co
Columbia
Brick
Plant
Facility
2300
S.
E.
Hogan
Rd
Gresham
OR
97080
George
Beamer
Assistant
R&
D
Lab
Director
POBox
14705
Spokane
WA
99214
(
509)
924­
2120
115
Southern
Brick
&

Tile
Co,
Inc
Southern
Brick
&

Tile
Co,
Inc
8589
Hwy
178
W
Byhalia
MS
38611
R.
D.
Kight
President
(
601)
838­
2141
116
Summit
Pressed
Brick
and
Tile
Co
Brick
Plant
and
Storange
Yard
13
th
and
Erie
St
Pueblo
CO
81001
Ed
Henne
Director
Environmental
Health
and
Safety
(
719)
542­
8278
117
Superior
Clay
Corp
Superior
Clay
Corp
6566
Superior
Rd
SE,
P.
O.
Box
352
Uhrichsville
OH
44683
Elmer
W.

McClave
III
Vice
President
(
740)
922­
4122
118
Justin
Industries
Texas
Clay
West
Bartlett
St
Malakoff
TX
75148
Maury
Ward
President
PO
Box
469
Malakoff
TX
75148
(
903)
489­
1331
Bob
Ferbend
(
817)

860­
0274
119
Tri­
State
Brick
&

Tile
B­
Plant
2050
Forest
Ave
Jackson
MS
39213
Carl
Craig
QC
Supervisor
(
601)
981­
1410
120
Texas
Industries
Athens
Brick
Caddo
Plant
8469
Barnette
Rd
Mooringsport
LA
71060
Robert
B.
Cain
Senior
Environmental
Engineer
1341
W.
Mockingbird
Lane
Dallas
TX
75247
(
972)
647­
3932
TABLE
1.
(
CONTINUED)

FACID
Company
Facility
Street
City
State
Zip
Respondent
Title
Resp.
Street
Resp.
City
Resp
state
Resp
zip
Resp
Telephone
Other
contact
Other
telephone
17
121
Texas
Industries
Athens
Brick
Mineral
Wells
Plant
7510
Hwy
180
East
Mineral
Wells
TX
76080
Robert
B.
Cain
Senior
Environmental
Engineer
1341
W.
Mockingbird
Lane
Dallas
TX
75247
(
972)
647­
3932
122
Ochs
Brick
Co
Ochs
Brick
Co­
Springfield
Plant
915
East
Rock
St
Springfield
MN
56087
Phil
Weller
Plant
Manger
VA
production
Hwy
14
E,
PO
Box
106
Springfield
MN
56087
(
507)
723­
4221
Andy
Reiter
(
507)

723­
4221
123
Pacific
Coast
Building
Products
Gladding
McBean
601
7th
St
Lincoln
CA
Normita
Callison
Corp.
Environmental
Specialist
(
916)
339­
8128
124
Watsontown
Brick
Co
Watsontown
Brick
Co
P.
O.
Box
68,

South
Main
St
Watsontown
PA
17777
Michael
Fisher
President
(
717)
538­
2555
125
Justin
Industries
Acme
Brick­
Bridgeport
Plant
102
Main
St
Bridgeport
TX
76426
Mike
Vickers
Director
of
Research
(
940)
382­
3573
Robert
Simmons
(
940)

382­
3573
126
Justin
Industries
Acme
Brick­
Garrison
Plant
257
Brickyard
Rd
Garrison
TX
75946
Mike
Vickers
Director
of
Research
(
940)
382­
3573
Robert
Simmons
(
940)

382­
3573
127
Justin
Industries
Acme
Brick­
Fort
Smith
Plant
2723
Old
Greenwood
Rd
Fort
Smith
AR
72903
Mike
Vickers
Director
of
Research
(
940)
382­
3573
Bob
Simmons
(
940)

382­
3573
128
Justin
Industries
Acme
Brick­
San
Felipe
Plant
562
Peter
San
Felip
Rd
Sealy
TX
77474
Mike
Vickers
Director
of
Research
(
940)
382­
3573
Robert
Simmons
(
940)

382­
3573
129
Justin
Industries
Acme
Brick­
Ouachita
Plant
Grigsby
Ford
Rd
Malvern
AR
72104
Mike
Vickers
Director
of
Research
(
940)
382­
3573
Bob
Simmons
(
940)

382­
3573
130
Belden
Brick
Co
Plant
#
9
Sugarcreek
225
E.
Main
St
Sugarcreek
OH
44681
John
C.
Jensen
Manager
of
Environmental
Operations
PO
Box
430
Sugarcreek
OH
44681
(
330)
852­
2424
131
Boral
Industries,
Inc
Boral
Bricks,
Phenix
City,
Plant
3
100
Brickyard
Rd,
Plant
3
Phenix
City
AL
36869
Andrew
S.
R.

Wichers
Regional
Safety
Manager
PO
Box
1178
Columbus
GA
31902
­
1178
(
334)
480­
2407
David
Johnson
(
334)

480­
2487
132
Boral
Industries,
Inc
Boral
Bricks,
Phenix
City,
Plant
1
&
2
100
Brickyard
Rd,
Plant
1
Phenix
City
AL
36865
Andrew
S.
R.

Wichers
Regional
Safety
Manager
PO
Box
1178
Columbus
GA
31902
­
1178
(
334)
480­
2407
David
Johnson
(
334)

480­
2487
133
Boral
Industries,
Inc
Boral
Bricks,

Augusta
Plants
3
&
5
1630
Athern
Rd
Augusta
GA
30901
Guiomar
Obregon
Analyst
500
Northridge
Rd,

Suite
300
Atlanta
GA
30350
(
770)
645­
4500
David
Johnson
(
334)

480­
2487
134
Commercial
Brick
Corp
Commercial
Brick
Corp
Old
Hwy
270
Wewoka
OK
74884
Bob
Hartsock
President
PO
Box
1382
Wewoka
OK
74884
(
405)
257­
6613
135
Lee
Brick
and
Tile
Co
Lee
Brick
and
Tile
Co
3704
Hawkins
Ave
Sanford
NC
27330
J.
R.
Holton
Secretary/
Treasur
er
(
919)
774­
4800
Nathan
J.

Hansen
(
919)

755­
5011
136
Old
Carolina
Brick
Co
Old
Carolina
Brick
Co
425
Majolica
Rd
Salisbury
NC
28144
Scott
W.
Frame,

PE
Vice
President
PO
Box
1617
Anniston
AL
36202
(
205)
237­
2887
137
Pine
Hall
Brick
Co,

Inc
Madison
Plant
634
Lindsay
Bridge
Rd
Madison
NC
27025
Harold
Newman
Manager
of
Technical
Services
(
336)
548­
6007
138
Boral
Industries,
Inc
Boral
Bricks,

Marshall
Plant
1920
N.
Franklin
St
Marshall
TX
75670
Guiomar
Obregon
Analyst
500
Northridge
Rd,

Suite
300
Atlanta
GA
30350
(
770)
645­
4500
David
Johnson
(
334)

480­
2487
TABLE
1.
(
CONTINUED)

FACID
Company
Facility
Street
City
State
Zip
Respondent
Title
Resp.
Street
Resp.
City
Resp
state
Resp
zip
Resp
Telephone
Other
contact
Other
telephone
18
139
L.
P.
McNear
Brick
Co,
Inc
McNear
Brickyard
1
McNear
Brickyard
Rd
San
Rafael
CA
94901
Dan
McNear
Vice
President
PO
Box
151380
San
Rafael
Ca
94915
(
415)
453­
7702
140
Sioux
City
Brick
and
Tile
Co
Sergeant
Bluff
Plant
504
F
St
Sergeant
Bluff
IA
51054
Steven
G.
Gerhart
Vice
President
of
Administration
310
South
Floyd
Blvd,
PO
Box
807
Sioux
City
IA
51102
(
712)
258­
6571
Robert
Sheets
(
712)

943­
5581
141
Stark
Ceramics,
Inc
Stark
Ceramics,
Inc
600
West
Church
St
East
Canton
OH
44730
Surinder
Maheshwary
Vice
President
of
Operations
(
330)
488­
1211
142
Logan
Clay
Products
Logan
Clay
Products
201
S.
Walnut
St
Logan
OH
43138
William
Heft
Plant
Superintendent
(
740)
385­
2184
David
Chapman
(
740)

385­
2184
143
Justin
Industries
Acme
Brick­
Perla
Plant
US
Hwy
67
North
Malvern
AR
72104
Mike
Vickers
Director
of
Research
(
940)
382­
3573
144
Texas
Industries
Athens
Brick
Plant
200
Athens
Brick
Rd
Athens
TX
75751
Robert
B.
Cain
Senior
Environmental
Engineer
1341
W
Mockingbird
Lane
Dallas
TX
75247
(
972)
647­
3932
145
Jordan
Industries
Hebron
Brick
Plant
1000
Washington
Ave,
East
Hebron
ND
58638
Brian
Jennings
Project
Manager
(
701)
878­
4428
146
Boral
Industries,
Inc
U.
S.
Tile
909
West
Railroad
St
Corona
CA
91720
Victor
F.
Mena
HR
&
Safety
Manager
(
909)
737­
0200
147
Yankee
Hill
Brick
and
Tile
Yankee
Hill
Brick
and
Tile
3705
S.
Coddington
Lincoln
NE
68522
Dave
Kendle
Plant
Engineer
(
402)
477­
6663
ext.
45
148
Belden
Brick
Co
Redland
Brick­
K
F
Plant
1440
John
Fitch
Blvd.
South
Windsor
CT
6074
Barry
Miller
Manager­
Safety,

Environmental
&

Quality
15718
Clear
Spring
Rd
Williamsport
MD
21795
(
301)
223­
7700
ext.
7147
Simon
Whalley
(
301)

223­
7700
ext.
7147
149
Belden
Brick
Co
Redland
Brick­
Cushwa
Plant
15718
Clear
Spring
Rd,
P.
O.

Box
160
Williamsport
MD
21795
Barry
Miller
Manager­
Safety,

Environmental
&

Quality
(
301)
223­
7700
ext.
7147
Simon
Whalley
(
301)

223­
7700
ext.
7147
150
Hanson,
PLC
US
Brick,
Inc
­

Michigan
3820
East
Serr
Rd
Corunna
MI
48817
Dave
Worthington
Environmental/
Sa
fety
Director
(
517)
743­
3444
151
Justin
Industries
Acme
Brick­
Bennett
Tunnel
Plant
2350
Bennett
Rd
Milsap
TX
76066
Mike
Vickers
Director
of
Research
(
940)
382­
3573
152
Carolina
Ceramics
(
MKB
Acquisitions)
Carolina
Ceramics
(
MKB
Aquisitions)
9931
Two
Notch
Rd
Columbia
SC
29223
Matt
Shealy
(
803)
788­
1796
ext.
131
153
Elgin­
Butler
Brick
Co
Elgin
Butler
Brick
FM
696
(
P.
O.

Box
546)
Elgin
TX
78621
Robert
Butler
Mgr
Safety,
Env,
Huma
n
Resource,
&

Quality
Assurance
(
512)
281­
3358
154
Pacific
Coast
Building
Products
Interstate
Brick
Co
9780
South
5200
West
West
Jordan
UT
84088
Brady
Anderton
Process
Engineer
(
801)
280­
5287
Normita
Callison
(
916)

339­
8128
155
The
Denver
Brick
Co
The
Denver
Brick
Co
401
North
Santa
Fe
Rd
Castle
Rock
CO
80104
Ronald
W.
Stuart
Environmental
Manager
(
303)
688­
6951
TABLE
1.
(
CONTINUED)

FACID
Company
Facility
Street
City
State
Zip
Respondent
Title
Resp.
Street
Resp.
City
Resp
state
Resp
zip
Resp
Telephone
Other
contact
Other
telephone
19
156
New
London
Brick
Works
New
London
Brick
Works
17375
Old
Beattie
Ford
Rd
Gold
Hill
NC
28144
David
P.
Frame
President
17375
Old
Beattie
Ford
Gold
Hill
NC
28144
(
704)
279­
6901
157
Robinson
Brick
Co
Robinson
Brick
Co
1845
W.
Dartmouth
Ave
Denver
CO
80110
Michael
Leidich
Vice
President,

Mining
and
Materials
(
303)
783­
3047
158
General
Finance,
Inc
Cloud
Ceramics
RR
3
P.
O.
Box
369
Concordia
KS
66901
Donald
E.
Kling
President
and
General
Manager
611
East
13th
St
Concordia
KS
66901
(
785)
243­
7922
Andy
Reiter
(
785)

243­
1284
159
Ragland
Clay
Products,
LLC
Ragland
Clay
Products,
LLC
J.
C.
Ford
Industrial
Dr,

P.
O.
Box
160
Ragland
AL
35131
Geoff
Dunlap
President
(
205)
472­
2136
179
Saint
Joe
Brick
Works,
Inc
Saint
Joe
Brick
Works,
Inc
63076
Highway
1091
Pearl
River
LA
70452
M.
P.
(
Pete)

Schneider
President
P.
O.
Box
400
Slidell
LA
70459
(
504)
863­
6161
181
Certainteed
Corporation
Ludowici
Roof
Tile,

Inc.
4757
Tile
Plant
Road
New
Lexington
OH
43764
Brad
Smith
Plant
Engineer
(
740)
342­
1995
183
London
Tile
Company
London
Tile
Company
65
Walnut
Street
New
London
OH
44851
Sylvia
Danison
President
(
419)
929­
1551
184
Metropolitan
Ceramics,
Inc.
Metropolitan
Ceramics,
Inc.
1201
Millerton
Road,
SE
Canton
OH
44707
Philip
McGuinness
Technical
Director
(
330)
486­
4887
185
Seneca
Tiles,
Inc.
Seneca
Tiles,
Inc.
7100
S.
County
Road.
23
Attica
OH
44807
James
D.
Fry
President
(
419)
426­
3561
186
Summitville
Tiles,

Inc.
Summitville
Tiles,

Inc.­
Minerva
Plant
1310
Alliance
Road,
P.
O.
Box
283
Minerva
OH
44657
James
A.
Miller
Plant
Manager
(
330)
868­
6771
187
Summitville
Tiles,

Inc.
Summitville
Factory
State
Route
644
Summitville
OH
43962
John
H
Hothem
Vice
President
(
330)
223­
1511
188
Dti
Investors,
LLC
Dal­
Tile,
Fayete,

Alabama
1470
Country
Road,
21
South
Fayette
AL
35555
Normain
Shain
Environmental/
Sa
fety
Coordinator
P.
O.
Box
170130
Dallas
TX
75217
­
0130
(
214)
309­
3492
189
Dti
Investors,
LLC
Dal­
Tile,
Lewisport,

Kentucky
675
Melanie
Lane
Lewisport
KY
42351
Norman
Shain
Enviromental/
Saf
ety
Coordinator
7834
C.
F.
Hawn
Freeway
Dallas
TX
(
214)

­
30­
9­
3492
160NR
Snyder
Brick
and
Tile
Snyder
Brick
and
Tile
901
East
US
Highway
180
Snyder
TX
79549
161NR
General
Clay
Products
Corp
General
Clay
Products
Corp
550
Zanesville
Avenue
Logan
OH
43138
162NR
General
Clay
Products
Corp
General
Clay
Products
Corp
39420
US
Highway
33
Nelsonville
OH
45764
163NR
General
Clay
Products
Corp
General
Clay
Products
Corp
9866
Mount
Eaton
Road
Wadsworth
OH
44281
164NR
Ibstock,
PLC
(
Glen­
Gery
Corp)
Glen­
Gery
Corp
1519
Highway
6
Redfield
IA
50233
165NR
Ibstock,
PLC
(
Glen­
Gery
Corp)
Glen­
Gery
Corp
101
Brick
Road
Chillicothe
MO
64601
TABLE
1.
(
CONTINUED)

FACID
Company
Facility
Street
City
State
Zip
Respondent
Title
Resp.
Street
Resp.
City
Resp
state
Resp
zip
Resp
Telephone
Other
contact
Other
telephone
20
166NR
Ibstock,
PLC
(
Glen­
Gery
Corp)
Glen­
Gery
Corp
95
Hamilton
Road
Hillsborough
NJ
8844
167NR
Ibstock,
PLC
(
Glen­
Gery
Corp)
Glen­
Gery
Corp
5692
Rinker
Road
Caledonia
OH
43314
168NR
Ibstock,
PLC
(
Glen­
Gery
Corp)
Glen­
Gery
Corp
3785
Cardington
Iberia
Road
Iberia
OH
43325
169NR
Ibstock,
PLC
(
Glen­
Gery
Corp)
Glen­
Gery
Corp
Bigler
PA
16825
170NR
Ibstock,
PLC
(
Glen­
Gery
Corp)
Glen­
Gery
Corp
423
South
Pottsville
Pike
Shoemakersvil
le
PA
19555
171NR
Ibstock,
PLC
(
Glen­
Gery
Corp)
Glen­
Gery
Corp
Summerville
PA
15864
172NR
Ibstock,
PLC
(
Glen­
Gery
Corp)
Glen­
Gery
Corp
1090
East
Boundary
Avenue
York
PA
17403
173NR
Ibstock,
PLC
(
Glen­
Gery
Corp)
Glen­
Gery
Corp
9905
Godwin
Drive
Manassas
VA
20110
174NR
Hope
Brick
Works
Hope
Brick
Works
East
Avenue
A
Hope
AR
71801
175NR
Kansas
Brick
and
Tile
Co
Kansas
Brick
and
Tile
Co
Highway
281
Hoisington
KS
67544
176NR
Pacific
Clay
Products
Pacific
Clay
Products
14741
Lake
Street
Lake
Elsinore
CA
92530
177NR
Iskilar
Brick,
Inc
Powell
&
Minnock
Brick
Works,
Inc
Coeymans
NY
12045
178NR
International
Chimney
Corp
Continental
Clay
Co
260
Oak
Avenue
Kittanning
PA
16201
180NR
Vermont
Brick
Manufacturing,
LP
Vermont
Brick
P.
O.
Box
330
Highgate
VT
5459
182NR
Yadkin
Brick
Company,
Inc.
Yadkin
Brick
44052
Yadkin
Brick
Road
New
London
NC
28127
21
TABLE
2:
FACILITY
INFORMATION,
PART
II
FACID
Latitude
Longitude
SIC
Dun
&
Bradstreet
Company
employees
Facility
employees
Shift
1
employees
Shift1
hrs
Shift
1
days
Shift
2
employees
Shift
2
hrs
Shift2
days
Shift
3
employees
Shift
3
hrs
Shift
3
days
Other
standard
Permit
Facility
type
Major
source
status
1
380525
854317
3251
003383361
1600
110
99
8
250
9
8
250
2
8
250
FALSE
TRUE
B
major
2
314720
1063230
3251
008404410
40
40
34
8
255
4
8
255
2
8
365
FALSE
FALSE
B
major
3
334857
1171429
3251
44
5
4
8
250
1
8
250
FALSE
FALSE
B
major
4
335400
1181500
3251
44
30
24
8
250
2
8
365
2
8
365
FALSE
FALSE
B
major
5
332034
865810
3251
003275682
1500
49
45
10
312
3
8
312
1
8
364
TRUE
FALSE
B
major
6
332058
865730
3251
003275682
1500
48
25
10
258
22
10
258
1
8
365
FALSE
TRUE
B
major
7
332559
815913
3251
003275682
1500
41
41
8
260
TRUE
FALSE
B
major
8
393619
771932
3251
003275682
750
35
33
8
250
1
8
365
1
8
365
FALSE
FALSE
B
major
9
344143
794933
3251
160
FALSE
FALSE
B
area
(
synth)*

10
330537
883425
3251
003275682
1500
99
96
10
281
1
8
364
1
1
364
TRUE
FALSE
B
major
11
335825
811135
3251
003275682
1500
53
41
8
270
7
8
270
5
12
183
FALSE
FALSE
B
major
12
361357
883758
3251
003275682
1500
47
45
8
250
1
8
365
1
8
365
FALSE
FALSE
B
major
13
321051
944717
3251
026389254
1500
128
125
10
312
3
12
182
FALSE
TRUE
B
major
14
402600
811119
3251
80
30
25
8
250
3
8
250
2
8
250
FALSE
TRUE
B
major
15
400439
821501
3251
80
33
28
8
250
3
8
250
2
8
250
FALSE
TRUE
B
major
16
364510
775200
3251
003134384
120
42
40
8
260
1
8
260
1
8
260
FALSE
TRUE
B
major
17
364543
774655
3251
003134384
120
65
63
8
260
1
8
260
1
8
260
FALSE
TRUE
B
major
17
343022
1183657
3251
90
90
80
8
260
8
8
260
2
8
260
FALSE
FALSE
B
area*

19
324735
833735
3251
003321916
222
222
200
10
260
13
10
260
4
10
260
FALSE
TRUE
B
major
20
332515
1120502
3251
90
90
84
10
260
2
8
365
2
8
365
FALSE
TRUE
B
major
21
291949
991646
3251
35
35
35
8
250
FALSE
FALSE
B
area
22
484838
802540
3251
1600
80
2
8
365
58
8
260
20
8
260
TRUE
FALSE
B
major
23
400435
970735
3251
007268535
195
190
157
9
280
26
9
280
7
9
280
FALSE
TRUE
B
major
24
275936
821013
3251
45
45
39
9
312
3
11
260
3
8
365
FALSE
TRUE
B
area
25
350200
803500
3251
1500
180
FALSE
FALSE
B
major
26
355804
794603
3251
1500
82
FALSE
FALSE
B
major
27
345830
783330
3251
1500
59
FALSE
FALSE
B
major
28
350700
812927
3251
1500
43
FALSE
FALSE
B
major
29
382215
824430
3251
1500
30
FALSE
FALSE
B
major
30
375234
834132
3251
1500
75
FALSE
FALSE
B
major
31
340315
810345
3251
1500
190
FALSE
FALSE
B
major
32
340920
815720
3251
1500
120
FALSE
FALSE
B
major
33
395624
872818
3251
47
47
41
8
250
2
8
365
2
8
365
FALSE
FALSE
B
area
34
333051
882446
3251
58
58
46
8
260
1
8
365
1
8
365
FALSE
FALSE
B
major
35
322730
861949
3251
380
88
74
8
260
10
8
260
2
8
365
FALSE
FALSE
B
major
TABLE
2.
(
CONTINUED)

FACID
Latitude
Longitude
SIC
Dun
&
Bradstreet
Company
employees
Facility
employees
Shift
1
employees
Shift1
hrs
Shift
1
days
Shift
2
employees
Shift
2
hrs
Shift2
days
Shift
3
employees
Shift
3
hrs
Shift
3
days
Other
standard
Permit
Facility
type
Major
source
status
22
36
322358
861812
3251
380
41
39
8
260
1
8
365
1
8
365
FALSE
FALSE
B
major
37
305422
903055
3251
75
75
75
8
260
FALSE
TRUE
B
major
38
3503
1063700
3251
25
25
21
8
250
4
8
365
FALSE
TRUE
B
area
39
394415
1050352
3251
109
32
30
8
286
2
8
365
1
8
365
FALSE
FALSE
B
major
40
330708
8901
3251
38
38
33
9
255
2
12
182
3
8
255
FALSE
FALSE
B
major
41
411917
884059
3251
4700
63
57
8
260
5
8
260
1
8
365
FALSE
TRUE
B
major
42
400734
752908
3251
31
29
1
8
365
26
8
260
1
8
365
FALSE
TRUE
B
major
43
361012
775419
3251
003193190
57
53
49
8
230
1
8
329
1
8
329
FALSE
TRUE
B
major
44
3745
8710
3251
30
26
2
8
365
21
8
260
2
8
365
FALSE
TRUE
B
area
45
384835
895644
3251
70
61
61
8
252
FALSE
FALSE
B
major
46
354249
810235
3251
003217148
73
73
69
8
260
4
12
365
FALSE
TRUE
B
major
47
353715
803115
3251
78
78
74
8
351
4
12
351
FALSE
FALSE
S
major
48
355020
785307
3251
003182672
501
31
23
8
365
6
8
365
2
8
365
FALSE
TRUE
B
major
49
353800
790000
3251
003182672
501
69
56
8
365
13
8
365
0
8
365
TRUE
TRUE
B
major
50
341319
793106
3251
66
66
FALSE
FALSE
B
major
51
345122
805055
3251
003275682
1500
116
110
9
270
3
10
270
3
10
270
TRUE
FALSE
B
major
52
334830
842919
3251
003383361
1600
103
77
8
250
19
8
250
7
8
250
FALSE
TRUE
B
major
53
334846
842849
3251
003383361
1600
69
39
8
250
27
8
250
3
8
250
FALSE
TRUE
B
major
54
393429
862207
3251
003383361
1600
105
83
8
250
20
8
250
1
8
250
FALSE
TRUE
B
major
55
365355
840537
3251
003383361
1600
60
57
8
250
2
8
250
1
8
250
TRUE
TRUE
B
major
56
360340
792530
3251
003383361
1600
27
25
8
250
1
8
250
1
8
250
FALSE
TRUE
B
major
57
361946
822022
3251
003383361
1600
81
70
8
250
7
8
250
4
8
250
FALSE
TRUE
B
major
58
363226
823330
3251
003383361
1600
110
94
8
250
8
8
250
8
8
250
FALSE
TRUE
B
major
59
353748
835337
3251
003383361
1600
94
68
8
250
20
8
250
6
8
250
TRUE
TRUE
B
major
60
365258
812231
3251
003383361
1600
95
81
8
250
12
8
250
2
8
250
FALSE
TRUE
B
major
61
372115
794940
3251
003383361
1600
119
101
8
250
16
8
250
2
8
250
TRUE
TRUE
B
major
62
381216
781351
3251
003383361
1600
63
51
8
250
8
8
250
4
8
250
FALSE
FALSE
B
major
63
335746
1174121
3251
042403857
25
16
16
9
210
FALSE
TRUE
B
major
64
392558
775730
3251
43
43
39
8
260
2
8
365
2
8
365
FALSE
FALSE
B
major
65
352800
932500
3251
60
60
58
8
260
1
8
260
1
8
260
FALSE
TRUE
B
major
66
403330
795030
3251
614389427
750
36
33
8
260
2
8
260
1
8
365
FALSE
TRUE
B
major
67
344708
892708
3251
1500
43
FALSE
FALSE
B
major
68
372654
790723
3251
159
40
40
10
200
3
8
200
2
8
200
FALSE
TRUE
B
major
69
371706
800600
3251
159
91
85
10
200
4
8
200
2
8
200
FALSE
TRUE
B
major
TABLE
2.
(
CONTINUED)

FACID
Latitude
Longitude
SIC
Dun
&
Bradstreet
Company
employees
Facility
employees
Shift
1
employees
Shift1
hrs
Shift
1
days
Shift
2
employees
Shift
2
hrs
Shift2
days
Shift
3
employees
Shift
3
hrs
Shift
3
days
Other
standard
Permit
Facility
type
Major
source
status
23
70
324856
980693
3251
1500
68
FALSE
FALSE
B
major
71
411530
1125730
3251
40
34
30
9
260
2
12
182
2
12
182
FALSE
FALSE
B
major
72
353953
850013
3251
003275682
1500
188
81
8
365
54
8
365
53
8
365
TRUE
FALSE
B
major
73
334916
843004
3251
003275682
1500
59
42
9
357
17
10
357
FALSE
FALSE
B
major
74
324926
833710
3251
003275682
1500
38
38
9
286
FALSE
FALSE
B
major
75
351000
904530
3251
007016686
45
41
39
10
254
2
12
182
FALSE
FALSE
B
major
76
345305
9930
3251
52
52
47
8
260
2
8
365
1
8
365
FALSE
FALSE
B
major
77
293752
981529
3251
1500
37
FALSE
FALSE
B
major
78
322431
865953
3251
003395811
97
97
93
8
260
2
12
365
2
12
365
FALSE
FALSE
B
major
79
434209
702431
3251
76
31
28
8
365
1
8
365
1
8
365
FALSE
TRUE
B
area
80
402600
814000
3251
004465498
65
65
61
8
260
2
8
260
2
8
260
FALSE
FALSE
B
major
81
322346
850029
3251
003275682
1500
101
90
8
359
8
8
359
3
8
365
FALSE
FALSE
B
major
82
354053
952435
3251
003275682
1500
47
42
8
360
4
8
360
1
8
365
TRUE
FALSE
B
major
83
351038
812504
3251
109
41
39
8
260
1
8
365
1
8
365
FALSE
FALSE
B
major
84
354745
800802
3251
109
68
66
8
260
1
8
365
1
8
365
TRUE
TRUE
B
major
85
343528
863340
3251
003383361
1600
45
43
8
250
1
8
250
1
8
250
FALSE
TRUE
B
major
86
383200
1202000
3251
029043056
1500
58
50
8
260
7
8
260
1
8
260
FALSE
FALSE
B
major
87
473351
1171256
3251
009244377
499
61
59
8
260
1
8
365
1
8
365
TRUE
TRUE
B
major
88
473200
1220900
3251
009244377
499
58
46
8
260
11
8
260
1
8
365
FALSE
TRUE
B
major
89
404730
823000
3251
41
39
37
8
255
1
8
360
1
8
360
TRUE
FALSE
B
major
90
413700
940157
3251
007273915
240
106
104
8
260
1
8
365
1
8
365
FALSE
FALSE
B
major
91
415821
705832
3251
36
36
36
8
230
FALSE
TRUE
B
major
92
384244
980902
3251
1500
34
FALSE
FALSE
B
major
93
371708
944343
3251
1500
41
FALSE
FALSE
B
major
94
322211
931248
3251
1500
35
FALSE
FALSE
B
major
95
353609
973801
3251
1500
45
FALSE
FALSE
B
major
96
361048
955548
3251
008018772
1500
75
FALSE
FALSE
B
major
97
331111
970805
3251
1500
128
FALSE
FALSE
B
major
98
301909
971736
3251
1500
70
FALSE
FALSE
B
major
99
293421
980223
3251
1500
70
FALSE
FALSE
B
major
100
390342
765303
3251
003191509
1600
67
65
8
365
1
8
365
1
8
365
FALSE
TRUE
B
major
101
353300
7009
3251
003191509
1600
170
160
8
365
7
8
365
3
8
365
FALSE
TRUE
B
major
102
352948
791006
3251
003191509
1600
73
69
12
365
4
12
365
FALSE
TRUE
B
major
103
353133
790941
3251
003191509
1600
189
151
12
365
38
12
365
TRUE
TRUE
B
major
TABLE
2.
(
CONTINUED)

FACID
Latitude
Longitude
SIC
Dun
&
Bradstreet
Company
employees
Facility
employees
Shift
1
employees
Shift1
hrs
Shift
1
days
Shift
2
employees
Shift
2
hrs
Shift2
days
Shift
3
employees
Shift
3
hrs
Shift
3
days
Other
standard
Permit
Facility
type
Major
source
status
24
104
372230
894015
3251
006299242
35
35
35
8
286
FALSE
TRUE
B
major
105
375445
864500
3259
100
100
FALSE
TRUE
S
major
106
332613
1120949
3259
175
50
FALSE
FALSE
S
area
107
334647
1172908
3259
175
50
FALSE
FALSE
S
area
108
372130
944130
3259
175
50
FALSE
FALSE
S
area
109
291415
9818
3259
175
50
FALSE
FALSE
S
area
110
403400
813100
3251
750
24
22
8
260
1
8
365
1
8
365
FALSE
FALSE
B
major
111
403030
813730
3251
750
54
52
8
260
1
8
365
1
8
365
FALSE
TRUE
B
major
112
403030
813830
3251
750
216
208
8
260
4
8
365
4
8
365
FALSE
TRUE
B
major
113
440059
701603
3251
76
45
40
8
365
2
8
365
1
8
365
FALSE
TRUE
B
major
114
453853
1221708
3251
009244377
499
20
18
8
260
1
8
260
1
8
260
FALSE
FALSE
B
area*

115
345135
894014
3251
40
40
40
8
260
FALSE
TRUE
B
major
116
381651
1043542
3251
109
55
44
8
263
9
8
254
2
12
365
FALSE
FALSE
B
major
117
402240
812138
3251
50
50
FALSE
FALSE
S
major
118
320956
960115
3251
052120979
1500
120
116
8
250
2
8
365
2
8
365
TRUE
FALSE
B
major
119
321914
901227
3251
008150997
129
96
92
8
261
2
8
365
2
8
365
FALSE
FALSE
B
major
120
324000
935652
3251
041083627
2350
25
23
8
345
1
8
365
1
8
365
FALSE
FALSE
B
major
121
3247
9804
3251
041083403
2350
19
17
8
345
1
8
365
1
8
365
FALSE
FALSE
B
major
122
441441
945747
3251
006185417
80
49
48
8
255
1
12
365
FALSE
TRUE
B
major
123
385408
1221845
3259
1500
216
FALSE
TRUE
S
major
124
410346
765053
3251
40
33
FALSE
FALSE
B
major
125
331234
974628
3251
1500
17
FALSE
FALSE
B
major
126
315021
943032
3251
1500
17
FALSE
FALSE
B
major
127
352139
942343
3251
1500
52
FALSE
FALSE
B
major
128
294944
960823
3251
1500
110
FALSE
FALSE
B
major
129
342119
924951
3251
1500
47
FALSE
FALSE
B
major
130
403130
813800
3251
750
34
32
8
260
1
8
365
1
8
365
FALSE
TRUE
B
major
131
322404
850013
3251
003275682
1500
33
26
8
359
6
8
359
1
8
365
FALSE
FALSE
B
major
132
322404
850013
3251
003275682
1500
74
39
8
359
34
8
359
1
8
365
FALSE
FALSE
B
major
133
332717
815732
3251
003275682
1500
225
186
10
252
10
10
252
5
10
252
FALSE
FALSE
B
major
134
351030
963245
3251
130
130
95
9
260
35
9
260
TRUE
FALSE
B
major
135
353230
791130
3251
003225125
80
72
70
8
250
1
8
365
1
8
365
TRUE
TRUE
B
major
136
354132
803157
3251
49
44
41
8
255
1
8
360
1
8
360
TRUE
FALSE
B
area
137
362233
795939
3251
041414541
289
258
242
8
255
10
8
365
6
8
365
TRUE
TRUE
B
major
TABLE
2.
(
CONTINUED)

FACID
Latitude
Longitude
SIC
Dun
&
Bradstreet
Company
employees
Facility
employees
Shift
1
employees
Shift1
hrs
Shift
1
days
Shift
2
employees
Shift
2
hrs
Shift2
days
Shift
3
employees
Shift
3
hrs
Shift
3
days
Other
standard
Permit
Facility
type
Major
source
status
25
138
323335
942205
3251
003275682
1500
36
34
9
260
1
8
365
1
8
365
FALSE
FALSE
B
major
139
375907
1222802
3251
65
65
62
8
250
1
8
300
1
8
300
FALSE
TRUE
B
major
140
402427
962133
3251
007273915
240
88
86
8
260
1
8
365
1
8
365
FALSE
FALSE
B
major
141
404652
811743
3251
004461711
120
120
8
8
365
104
8
280
8
8
365
FALSE
FALSE
B
major
142
393208
822120
3259
110
100
FALSE
FALSE
S
major
143
342227
924653
3251
1500
135
FALSE
FALSE
B
major
144
321215
954922
3251
041083403
2350
49
46
8
345
2
8
365
1
8
365
FALSE
FALSE
B
major
145
465412
1020216
3251
006166821
6200
50
44
8
250
1
8
350
1
8
350
FALSE
FALSE
B
major
146
335309
1173436
3259
624855896
1500
119
68
8
260
19
8
260
32
8
286
FALSE
FALSE
S
major
147
404646
964500
3251
77
77
74
8
260
2
8
260
1
8
260
TRUE
TRUE
B
major
148
415012
723618
3251
614389427
750
45
28
8
260
13
8
260
4
8
260
TRUE
FALSE
B
major
149
393603
774930
3251
614389427
750
100
75
8
260
21
8
260
4
8
260
TRUE
TRUE
B
major
150
425930
840522
3251
1500
89
FALSE
FALSE
B
major
151
324100
980306
3251
1500
17
FALSE
FALSE
B
major
152
340642
805346
3251
100
60
FALSE
FALSE
B
major
153
301918
971722
3251
NA
120
113
98
8
260
1
8
365
1
8
365
FALSE
FALSE
S
major
154
403540
1120340
3251
280008028
1500
200
110
8
280
40
8
280
20
8
280
FALSE
FALSE
B
major
155
392244
1045122
3251
026048876
90
90
20
8
260
20
8
260
20
8
260
FALSE
FALSE
B
major
156
353000
801900
3251
10
8
FALSE
FALSE
B
area
157
393945
1050024
3251
175
100
FALSE
FALSE
B
major
158
393245
900736
3251
NA
53
53
49
8
253
4
8
365
TRUE
FALSE
B
major
159
333705
860705
3251
961543121
36
33
34
8
260
1
8
260
1
8
260
FALSE
FALSE
B
major
160NR
3243
1005500
3251
10
FALSE
FALSE
B
major
161NR
393239
822352
3251
136
FALSE
FALSE
B
major
162NR
3931
8225
3251
136
FALSE
FALSE
B
major
163NR
410019
814418
3251
136
FALSE
FALSE
B
major
164NR
413503
941142
3251
4700
FALSE
FALSE
B
major
165NR
393015
933010
3251
4700
FALSE
FALSE
B
major
166NR
403018
743730
3251
4700
FALSE
FALSE
B
major
167NR
403810
825824
3251
4700
FALSE
FALSE
B
major
168NR
403816
825202
3251
4700
FALSE
FALSE
B
major
169NR
405905
781824
3251
4700
FALSE
FALSE
B
major
170NR
402904
755753
3251
4700
FALSE
FALSE
B
major
171NR
410605
790954
3251
4700
FALSE
FALSE
B
major
TABLE
2.
(
CONTINUED)

FACID
Latitude
Longitude
SIC
Dun
&
Bradstreet
Company
employees
Facility
employees
Shift
1
employees
Shift1
hrs
Shift
1
days
Shift
2
employees
Shift
2
hrs
Shift2
days
Shift
3
employees
Shift
3
hrs
Shift
3
days
Other
standard
Permit
Facility
type
Major
source
status
26
172NR
395731
764213
3251
4700
FALSE
FALSE
B
major
173NR
384427
773013
3251
4700
FALSE
FALSE
B
major
174NR
3338
9335
3251
32
FALSE
FALSE
B
major
175NR
383637
985155
3251
47
FALSE
FALSE
B
major
176NR
334335
1172333
3251
150
FALSE
FALSE
B
major
177NR
422901
734722
3251
200
FALSE
FALSE
B
major
178NR
4049
7929
3251
140
FALSE
FALSE
B
major
179
3023
8944
3251
41
31
27
8
252
2
12
208
2
12
130
FALSE
FALSE
B
area
180NR
3251
22
FALSE
FALSE
B
area
181
394245
821430
3253
1500
120
FALSE
FALSE
S
major
182NR
352717
800949
3251
35
FALSE
FALSE
B
major
183
4105
8224
3253
6
6
6
8
260
FALSE
FALSE
S
area
184
404630
812215
3253
136
136
90
10
350
3
12
350
TRUE
TRUE
S
major
185
4104
8253
3253
45
43
40
8
250
2
16
350
1
8
350
FALSE
TRUE
S
area
186
404222
810724
3253
550
124
115
8
260
8
8
260
1
8
260
FALSE
TRUE
S
major
187
400408
800534
3253
550
193
144
8
260
47
8
260
2
8
260
FALSE
FALSE
S
area
188
334149
875224
3253
002347003
4800
95
40
8
251
40
8
251
15
8
251
FALSE
TRUE
S
major
189
375546
865416
3251
002347003
4800
148
126
12
251
22
12
251
FALSE
TRUE
S
major
27
TABLE
3.
PRODUCTION
AND
CAPACITY
FACID
Product
Product
(
basic)
1996
Production
Capacity
1996
Utilization
1
Face
brick
Brick
112,706
203,700
0.5533
2
Brick
Brick
29,500
29,500
1.0000
3
Common
brick
Brick
0
111,690
0.0000
4
Common
brick
Brick
30,000
60,000
0.5000
5
Fired
Brick
Brick
179,726
219,099
0.8203
6
Fired
brick
Brick
167,401
205,917
0.8130
7
Brick
Brick
69,000
154,000
0.4481
8
Brick
Brick
24,920
42,000
0.5933
9
Face
brick
Brick
157,500
206,955
0.7610
10
Brick
Brick
132,797
145,974
0.9097
11
Brick
Brick
96,511
105,015
0.9190
12
Brick
(
fired
weigh)
Brick
88,522
116,953
0.7569
13
Brick
Brick
153,062
194,910
0.7853
14
Brick
Brick
29,000
39,420
0.7357
15
Brick
Brick
26,600
32,000
0.8313
16
Face
brick
Brick
48,127
60,486
0.7957
17
Face
brick
Brick
87,807
130,000
0.6754
18
Common
brick
Brick
75,955
128,772
0.5898
19
Red
brick
Brick
169,330
204,724
0.8271
19
Pastel
brick
Brick
8,467
10,000
0.8467
20
Finished
brick
Brick
56,600
90,830
0.6231
21
Clay
brick
Brick
4,092
5,000
0.8184
21
Structural
tile
Structural
clay
products
3,379
5,000
0.6758
22
Structural
brick
Brick
72,941
102,500
0.7116
23
Structural
brick
Brick
89,500
200,000
0.4475
23
1/
2"
floor
&
wall
tile
Structural
clay
products
10,718
50,000
0.2144
23
Glazed
1/
2"
tile
Structural
clay
products
320
13,797
0.0232
24
Quarry
tile
and
brick
pool
coping
Structural
clay
products
7,631
8,615
0.7264
24
Brick
pavers
Brick
7,711
8,041
0.9590
25
Brick
Brick
187,042
249,556
0.7500
25
Brick
bats
Crushed
reject
brick
5,548
7,402
0.7500
26
Face
brick
Brick
97,055
116,475
0.8330
26
Brick
bats
Crushed
reject
brick
804
965
27
Brick
bats
Crushed
reject
brick
2,227
2,572
27
Face
brick
Brick
65,552
75,721
0.8373
TABLE
3.
(
continued)

FACID
Product
Product
(
basic)
1996
Production
Capacity
1996
Utilization
28
28
Face
brick
Brick
60,346
71,663
0.8370
28
Brick
bats
Crushed
reject
brick
364
432
29
Brick
Brick
44,000
44,000
1.0000
30
Brick
Brick
120,122
121,275
0.9905
30
Crushed
brick
(
bats)
Crushed
reject
brick
573
657,000
0.0009
31
Brick
Brick
332,721
395,772
0.8407
32
Brick
Brick
135,240
226,884
0.5961
33
Brick
Brick
22,824
25,127
0.9083
34
Face
brick
Brick
83,383
83,383
1.0000
35
Face
brick
Brick
145,883
150,000
0.9726
36
Face
brick
Brick
82,282
87,500
0.9404
37
Face
brick
Brick
64,046
68,250
0.9384
38
Brick
Brick
13,200
17,300
0.7630
39
Fired
brick
Brick
25,316
28,032
0.9388
40
Structural
brick
Brick
34,000
34,000
1.0000
41
Face
brick
Brick
104,724
136,130
0.7693
42
Structural
brick
Brick
30,000
90,000
0.3333
43
Face
brick
Brick
43,560
58,613
0.7432
44
Thin
brick
Brick
1,050
1,750
0.6000
44
Modular
brick
Brick
20,000
20,000
1.0000
45
Structural
brick
Brick
46,581
66,111
0.7046
46
Structural
brick
Brick
74,932
85,771
0.8736
47
Structural
brick
Brick
48,600
63,431
1.0000
48
Structural
brick
Brick
68,466
88,038
0.7777
49
Structural
brick
Brick
186,360
464,280
0.7336
50
Paver
Tile
Structural
clay
products
15,643
27,375
0.5714
51
Brick
Brick
146,374
172,572
0.8482
52
Face
brick
Brick
154,580
215,000
0.7190
53
Face
brick
Brick
136,594
190,000
0.7189
54
Face
brick
Brick
196,132
250,000
0.7845
55
Face
brick
Brick
111,388
218,500
0.5098
56
Face
brick
Brick
38,194
50,000
0.7639
57
Face
brick
Brick
109,486
130,000
0.8422
58
Face
brick
Brick
166,266
194,000
0.8570
59
Face
brick
Brick
154,550
177,600
0.8702
60
Face
brick
Brick
145,858
196,000
0.7442
TABLE
3.
(
continued)

FACID
Product
Product
(
basic)
1996
Production
Capacity
1996
Utilization
29
61
Face
brick
Brick
138,132
215,000
0.6425
62
Face
brick
Brick
95,292
170,000
0.5605
63
Structural
brick
Brick
27,230
148,920
0.1829
64
Brick
Brick
49,781
146,250
0.3404
65
Structural
brick
Brick
90,000
105,000
0.8571
66
Brick
Brick
60,800
86,000
0.7070
67
Face
brick
Brick
60,706
75,200
0.8073
68
Structural
brick
Brick
45,650
74,000
0.6169
69
Structural
brick
Brick
57,000
100,000
0.5700
70
Face
brick
Brick
135,036
199,028
0.6785
71
Face
brick
Brick
24,979
30,725
0.8130
72
Brick
(
fired
weight)
Brick
266,300
280,600
0.9490
73
Brick
Brick
202,620
262,322
0.7724
74
Brick
(
fired
weight)
Brick
92,070
100,160
0.9192
75
Brick
Brick
45,531
53,927
0.8443
76
Big
John
Brick
Brick
22,570
40,708
0.5544
76
King
Size
Brick
Brick
1,485
2,678
0.5545
76
Modular
brick
Brick
375
644
0.5823
77
Face
brick
Brick
48,588
162,996
0.8524
78
Face
brick
Brick
189,000
189,000
1.0000
79
Structural
brick
Brick
14,726
25,093
0.5869
80
Structural
clay
brick
Brick
30,810
38,268
0.8051
81
Brick
Brick
199,464
228,601
0.8725
82
Brick
Brick
127,743
138,621
0.9215
83
Structural
brick
Brick
36,422
65,600
0.5552
84
Structural
brick
Brick
77,000
84,000
0.9167
85
Face
brick
Brick
73,428
80,000
0.9179
86
Brick
Brick
87
Structural
clay
brick
Brick
53,330
75,000
0.7111
87
Fire
brick
Brick
4,900
8,000
0.6125
87
Clay
flue
liners
Structural
clay
products
1,680
2,800
0.6000
88
Structural
&
facing
brick
Brick
51,372
65,500
0.7843
89
Brick
Brick
6,567
50,000
0.1313
90
Face
brick
Brick
66,685
74,000
0.9011
91
Structural
brick
Brick
25,635
32,724
0.7834
92
Structural
brick
Brick
33,545
58,500
0.5734
TABLE
3.
(
continued)

FACID
Product
Product
(
basic)
1996
Production
Capacity
1996
Utilization
30
93
Structural
brick
Brick
34,830
35,000
0.9951
94
4
hole
builder
special
brick
Brick
29,541
64,000
0.4616
95
Structural
brick
Brick
136,406
150,000
0.9094
96
Structural
brick
Brick
85,000
104,500
0.8134
97
Brick
and
shapes
Brick
216,418
292,000
0.7412
98
Brick
Brick
98,858
243,398
1.0000
99
Structural
brick
Brick
99,573
99,573
1.0000
100
Brick
Brick
54,309
105,120
0.5166
101
Brick
Brick
186,268
360,000
0.7760
102
Brick
Brick
76,937
133,152
0.5778
103
Brick
Brick
198,592
275,940
0.7197
104
Structural
brick
Brick
25,651
32,000
0.8016
105
Vitrified
clay
pipe
flue
lining
Structural
clay
products
30,000
40,000
0.7500
106
Sewer
pipe
Structural
clay
products
18,000
25,000
0.7200
107
Sewer
pipe
Structural
clay
products
15,000
25,000
0.6000
108
Sewer
pipe
flue
liners
Structural
clay
products
18,000
25,000
0.7200
109
Flue
liners
and
sewage
pipe
Structural
clay
products
5,250
25,000
0.2100
110
Brick
Brick
22,500
27,000
0.8330
111
Brick
Brick
76,500
85,500
0.8947
112
Brick
Brick
288,000
290,250
0.9922
113
Structural
brick
Brick
28,020
45,990
0.6093
114
Structural
brick,
facing
brick
Brick
23,495
120,000
0.1958
115
Brick
Brick
27,200
34,000
0.8000
116
Fired
structural
brick
Brick
42,220
44,528
0.9482
117
Terra
cotta
Structural
clay
products
150
300
0.5000
117
Fireplace
throats
Structural
clay
products
100
200
0.5000
117
Pipe­
flue­
coping
Structural
clay
products
19,021
53,400
0.3562
118
Brick
Brick
113,319
113,319
1.0000
119
Brick
Brick
103,306
111,785
0.9241
120
Face
brick
Brick
30,000
38,000
0.7895
121
Face
brick
Brick
45,000
55,000
0.8182
122
Structural
brick
Brick
41,695
105,000
0.3971
TABLE
3.
(
continued)

FACID
Product
Product
(
basic)
1996
Production
Capacity
1996
Utilization
31
123
Manganese
compound
brick
Brick
485
1,000
0.4850
123
Roof
tile
Structural
clay
products
5,297
6,000
0.8828
123
Sewer
pipe
Structural
clay
products
20,364
40,000
0.5091
123
Terra
cotta
Structural
clay
products
918
1,100
0.8345
123
Chromium
compound
brick
Brick
131
1,000
0.1310
123
Red
brick
Brick
4,400
8,000
0.5500
124
Brick
Brick
64,000
70,000
0.9143
125
Brick
Brick
81,000
85,750
0.9446
126
Brick
Brick
71,851
84,136
0.8540
127
Structural
brick
Brick
52,366
90,000
0.5818
128
Brick
Brick
193,156
250,000
0.5788
129
Structural
brick
Brick
98,735
139,750
0.7065
130
Brick
Brick
31,500
40,500
0.7778
131
Brick
(
fired
weight)
Brick
122,491
135,289
0.9054
132
Face
brick
Brick
107,847
133,361
0.8087
133
Brick
Brick
315,600
340,900
0.9258
134
King
size
clay
brick
Brick
132,063
322,193
0.4099
135
Smooth
brick
Brick
24,700
42,700
0.5785
135
Solid
paving
brick
Brick
24,700
42,700
0.5785
135
Sand
Finish
Brick
Brick
65,900
113,900
0.5786
135
Scratch/
textured
brick
Brick
49,400
85,400
0.5785
136
Brick
Brick
16,780
25,000
0.6712
137
Structural
brick
Brick
313,202
572,904
0.6477
138
Brick
Brick
63,222
66,845
0.9458
139
Brick
Brick
31,000
50,000
0.6200
140
Face
brick
Brick
59,932
83,250
0.7199
141
Structural
clay
tile
or
brick
Structural
clay
products
35,000
40,000
0.8750
142
Clay
pipe
flue
liners
wall
coping
Structural
clay
products
43,480
60,000
0.7247
143
Structural
brick
Brick
168,269
186,700
0.9013
144
Face
brick
Brick
57,000
65,000
0.8769
145
Face
brick
Brick
38,250
49,980
0.7653
146
Clay
roofing
tile
Structural
clay
products
63,692
110,316
0.5774
147
Brick
Brick
36,000
43,000
0.8372
TABLE
3.
(
continued)

FACID
Product
Product
(
basic)
1996
Production
Capacity
1996
Utilization
32
148
Brick
Brick
92,228
120,000
0.7690
149
Fired
Tons­
Brick
Brick
103,740
111,300
0.9321
150
Brick
Brick
146,000
195,000
0.7487
151
Brick
(
round
plant)
Brick
105,642
110,000
0.9604
151
Brick
(
tunnel
plant)
Brick
120,000
120,000
1.0000
152
Brick
Brick
47,250
136,000
0.8438
152
Reject
crushing
Crushed
reject
brick
5,250
153
Structural
glazed
brick
Brick
4,594
4,680
0.9816
153
Unglazed
brick
Brick
2,014
2,052
0.9815
153
Structural
glazed
tile
Structural
clay
products
12,639
12,876
0.9816
153
Unglazed
tile
Structural
clay
products
565
576
0.9809
153
Fire
brick
Brick
5,986
6,098
0.9816
154
Brick
Brick
155
Structural
brick
&
brick
equivalents
Brick
79,310
110,000
0.7210
156
Brick
Brick
1,500
13,140
0.1140
157
Brick
Brick
136,000
210,240
0.6834
158
Clay
brick
Brick
42,471
54,032
0.7860
159
Brick
Brick
29,400
29,400
1.0000
160NR
Brick
Brick
161NR
Brick
Brick
24,700
25,866
0.9550
162NR
Brick
Brick
56,721
57,000
0.9950
163NR
Brick
Brick
10,918
39,630
0.2750
164NR
Brick
Brick
79,000
95,834
0.8240
165NR
Brick
Brick
60,000
60,000
1.0000
166NR
Brick
Brick
78,316
166,440
0.4710
167NR
Brick
Brick
115,000
122,600
0.9380
168NR
Brick
Brick
126,000
154,000
0.8180
169NR
Brick
Brick
96,120
141,912
0.6770
170NR
Brick
Brick
216,320
294,336
0.7350
171NR
Brick
Brick
95,000
217,248
0.4370
172NR
Brick
Brick
171,990
271,560
0.6330
173NR
Brick
Brick
92,110
146,292
0.6300
174NR
Brick
Brick
19,500
40,950
0.4760
175NR
Brick
Brick
176NR
Brick
Brick
90,000
90,000
1.0000
TABLE
3.
(
continued)

FACID
Product
Product
(
basic)
1996
Production
Capacity
1996
Utilization
33
177NR
Brick
Brick
178NR
Brick
Brick
179
Structural
brick
Brick
11,100
15,000
0.7400
180NR
Brick
Brick
181
Clay
roof
tile
Structural
clay
products
182NR
Brick
Brick
14,800
25,536
0.5800
183
tile
Structural
clay
products
16
16
1.0000
184
wall
tile
Structural
clay
products
120
120
1.0000
184
quarry
floor
tile
Structural
clay
products
70,642
87,600
0.8064
185
unglazed
floor
tile
Structural
clay
products
1,150
3,150
0.3651
185
Handmade
glazed
floor
tile
Structural
clay
products
900
2,700
0.3333
185
glazed
floor
tile
Structural
clay
products
200
600
0.3333
186
ceramic
floor
brick
Structural
clay
products
5,950
11,000
0.5409
186
ceramic
thin
brick
Structural
clay
products
1,550
2,800
0.5536
186
ceramic
floor
tile
Structural
clay
products
14,350
26,200
0.5477
187
Glazed
ceramic
Tile
Structural
clay
products
4,444
10,903
0.4076
187
Unglazed
Floor
Tile
Structural
clay
products
188
Quarry
Tile
Structural
clay
products
46,000
62,300
0.7384
189
Quarry
floor
tile
Structural
clay
products
52,351
53,000
0.9878
34
TABLE
4.
RAW
MATERIALS
AND
ADDITIVES
FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
1
Shale
p
112706
Yes
Shale
2
hematite
n
46
No
Colorant
2
manganese
oxide
ore
h
2
No
HAP
colorant
2
calcium
lignosulfonate
p
67
No
Binder
2
Company
Secret
h
89
No
HAP
colorant
2
shale
p
29300
No
Shale
3
clay
p
No
Clay
3
barium
carbonate
n
No
Colorant
4
clay
p
30000
No
Clay
4
barium
carbonate
n
60
No
Colorant
5
Upper
Blue
Shale
p
59520
No
Shale
5
Manganese
325
Mesh
h
46
No
HAP
colorant
5
Centerville
Clay
p
34160
No
Clay
5
Yellow
Shale
p
50510
No
Shale
5
Lower
Blue
Shale
p
20030
No
Shale
5
Hallmark
Fireclay
p
26180
No
Clay
5
Calcium
Lignosulfonate
p
51
No
Binder
6
Hallmark­
Lehigh
1
fireclay
(
wet
weight)
p
41290
No
Clay
6
Cordova
Clay­
Beaird
(
wet
weight)
p
680
No
Clay
6
Screw
(
Kaolin)
(
wet
weight)
p
76
No
Clay
6
Upper
blue
shale
(
wet
weight)
p
58870
No
Shale
6
Centerville
Fireclay
(
wet
weight)
p
14060
No
Clay
6
Lignosol
AM
(
wet
weight)
p
17
No
Binder
6
Calcium
Lignosulfonate
(
additiveA)
Wet
weight)
p
30
No
Binder
6
Lower
Blue
shale
(
wet
weight)
p
56320
No
Shale
6
Yellow
shale
(
wet
weight)
p
35070
No
Shale
7
clay
p
85000
No
Clay
7
sawdust
p
3600
No
Filler
7
manganese
h
50
No
HAP
colorant
8
dal
clay
tile
waste
material
p
4000
No
Clay
8
shale
p
17000
No
Shale
8
clay
lock
insulator
waste
material
p
3000
No
Clay
8
barium
carbonate
n
9.8
No
Colorant
8
manganese
h
6.7
No
HAP
colorant
10
Red
Sand
(
wet
weight)
p
70
No
Sand
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
35
10
Sand
(
wet
weight)
p
9300
No
Sand
10
clay
(
mostly
from
stockpile
#
2)(
wet
weight
p
122000
Noclay
10
calcium
lignosulfonate
(
additive
A)
p
No
Binder
11
Kaolin
(
wet
weight
p
24000
No
Clay
11
shale
(
wet
weight)
p
95000
No
Shale
12
manganese
dioxide
h
300
No
HAP
colorant
12
clay
p
53000
No
Clay
12
sawdust
p
4000
No
Filler
12
grog
(
crushed
recycled
brick)
n
5300
No
Grog
12
ball
clay
p
60000
No
Clay
13
Barium
Carbonate
(
dry
weight)
n
164
No
Colorant
13
Borders
Bottom
Clay
(
wet
weight)
p
4200
No
Clay
13
Manganese
dioxide
h
92
No
HAP
colorant
13
Kangerga
Clay
(
wet
weight)
p
26000
No
Clay
13
Ross
Clay
(
wet
weight)
p
42000
No
Clay
13
Bynum
Clay
(
wet
Weight)
p
44000
No
Clay
13
Scarbough
Clay
(
wet
weight)
p
5000
No
Clay
13
Kangerga
White
Sand
Clay
(
wet
weight)
p
6000
No
Clay
13
Hedge
Clay
(
wet
weight)
p
19000
No
Clay
13
Lignosulfonate
p
515
No
Binder
13
Grog
(
dry
weight)
n
11000
No
Grog
14
Manganese
dioxide
h
88
No
HAP
colorant
14
Iron
chromite
h
23
No
HAP
colorant
14
Shale/
Clay
p
29000
No
Clay/
shale
14
Barium
carbonate
n
11
No
Colorant
15
shale/
clay
p
26600
No
Clay/
shale
15
manganese
dioxide
h
44
No
HAP
colorant
15
barium
carbonate
n
62
No
Colorant
16
soda
ash
n
129
No
Colorant
16
manganese
compounds
h
0.5
No
HAP
colorant
16
shale
p
24063.5
No
Shale
16
schist
p
24063.5
No
Schist
17
soda
ash
n
236
No
Colorant
17
shale
p
53660
No
Shale
17
manganese
compounds
h
21.5
No
HAP
colorant
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
36
17
schist
p
53660
No
Schist
18
clay
p
72916.77
No
Clay
18
Barium
carbonate
n
161.425
No
Colorant
18
grog
n
3038
No
Grog
19
iron
oxide
n
52
No
Colorant
19
air
float
kaolin
p
7500
No
Clay
19
dolomite
n
265
No
Colorant
19
pyrophyllite
SiO2
Andalusite
p
300
No
Raw
ore
19
red
clay
p
260000
No
Clay
19
redart
clay
p
271
No
Clay
19
crushed
granite
n
9884
No
Additive
19
sand
n
1300
No
Sand
19
feldspar
p
64
No
Additive
19
bond
clay
p
175
No
Clay
19
k/
t
ball
clay
p
95
No
Clay
19
pyrophyllite
sericite
andalusite
p
35
No
Raw
ore
19
ferrous
sulfate
n
8
No
Colorant
20
extrusion
lubricants
p
49
No
Lubricant
20
additive­
a
clay
conditioner
(
lignosulfonate)
p
62.5
No
Binder
20
barium
carbonate
n
75
No
Colorant
20
manganese
oxide
h
70
No
HAP
colorant
20
iron
oxide
n
25
No
Colorant
20
common
clay
(
various
types)
p
56000
No
Clay
21
iron
oxide
n
38
No
Colorant
21
calcium
lignosulfonate
p
68
No
Binder
21
manganese
dioxide
h
8
No
HAP
colorant
21
clay
p
7739
No
Clay
21
barium
carbonate
n
18
No
Colorant
22
manganese
dioxide
h
No
HAP
colorant
22
clay
p
73000
No
Clay
23
crushed
brick
(
grog)
n
13035
No
Grog
23
calcium
lignosulfonate
p
700
No
Binder
23
barium
carbonate
n
87
No
Colorant
23
chromite
h
167
No
HAP
colorant
23
manganese
dioxide
h
131
No
HAP
colorant
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
37
23
kaolinite
clay
p
86798
No
Clay
24
manganese
dioxide
h
66.56
No
HAP
colorant
24
aluminum
n
6.44
No
Additive
24
barium
carbonate
n
22
No
Colorant
24
cobalt
oxide
h
0.91
No
HAP
colorant
24
iron
chromite
h
43
No
HAP
colorant
24
shale
p
7330
No
Shale
24
ball
clay
p
155
No
Clay
24
feldspar
p
366
No
Additive
24
kaolin
p
2308
No
Clay
24
fireclay
n
3630
No
Clay
24
alluvial
clay
p
1409
No
Clay
25
clay
p
54407
No
Clay
25
manganese
dioxide
h
245
No
HAP
colorant
25
shale
p
163221
No
Shale
26
shale
p
55291
No
Shale
26
manganese
dioxide
h
20
No
HAP
colorant
26
clay
p
27645
No
Clay
27
shale
p
29104
No
Shale
27
clay
p
47486
No
Clay
27
manganese
dioxide
h
144
No
HAP
colorant
28
clay
p
25857
No
Clay
28
manganese
dioxide
h
43.59
No
HAP
colorant
28
shale
p
42745
No
Shale
31
shale
p
No
Shale
31
kaolin
p
No
Clay
31
manganese
dioxide
h
No
HAP
colorant
32
shale
p
No
Shale
32
manganese
dioxide
h
No
HAP
colorant
32
kaolin
p
No
Clay
33
shale
p
19739
No
Shale
33
ashes
n
696
No
Cement
33
barium
carbonate
n
6.6
No
Colorant
33
manganese
h
9.3
No
HAP
colorant
33
clay
p
2389
No
Clay
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
38
34
shale
p
11382
No
Shale
34
clay
p
72001
No
Clay
35
shale
p
14588
No
Shale
35
sand
n
7294
No
Sand
35
clay
p
124003
No
Clay
35
extrusion
oil
p
18.7
No
Lubricant
36
extrusion
oil
p
11.2
No
Lubricant
36
sand
n
8228
No
Sand
36
clay
p
74053
No
Clay
37
calcium
lignosulfonate
p
96
No
Binder
37
sawdust
p
2562
No
Filler
37
water
n
160
No
Water
37
clay
p
61228
No
Clay
38
galisteo
clay
p
5700
No
Clay
38
scoria
(
lava
rock)
n
1630
No
Additive
38
hattie
clay
p
7200
No
Clay
39
calcium
lignosulonate
p
168.6
No
Binder
39
manganese
dioxide
h
43.4
No
HAP
colorant
39
clay
p
25316
No
Clay
39
iron
oxide
n
98.6
No
Colorant
40
red
iron
oxide
n
94
No
Colorant
40
sand
n
No
Sand
40
red
clay,
ball
clay
p
57309
No
Clay
40
manganese
dioxide
h
16
No
HAP
colorant
40
umber
p
350
No
Colorant
40
sawdust
p
No
Filler
41
fireclay
p
56394
No
Clay
41
ochre
n
245
No
Colorant
41
manganese
dioxide
h
53
No
HAP
colorant
41
calcium
lignosulfonate
and
proprietary
ingredients
p
532
No
Binder
41
shale
p
48330
No
Shale
41
sand
n
6671
No
Sand
41
limestone
p
4630
No
Colorant
41
diesel
oil
(
extrusion
lubricant)
p
0.75
No
Lubricant
41
sugar
p
23
No
Flashing
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
39
41
iron
chromite
h
612
No
HAP
colorant
41
synthetic
red
iron
oxide
n
18
No
Colorant
41
hydrated
lime
n
1.5
No
Colorant
42
shale
p
30000
No
Shale
42
manganese
dioxide
h
42.25
No
HAP
colorant
43
sodium
silicate
n
248.1
No
Cement
43
fuel
contaminated
soils
p
1627.45
No
Contaminated
soil
43
nash
brick
shale/
clay
p
49809
No
Clay/
shale
44
shale/
clay
p
20268
No
Clay/
shale
44
river
sand
n
2160
No
Sand
45
manganese
dioxide
h
56
No
HAP
colorant
45
barium
carbonate
n
15
No
Colorant
45
clay
and
shale
mixture
p
46581
Yes
Clay/
shale
45
epson
salts
n
6
No
Colorant
45
extrusion
oil
p
6.55
No
Lubricant
46
clay
p
42721
No
Clay
46
shale
p
50150
No
Shale
46
soda
ash
n
154
No
Colorant
46
manganese
h
37
No
HAP
colorant
47
manganese
dioxide
h
40
No
HAP
colorant
47
shales
p
32240
No
Shale
47
iron
chromite
h
60
No
HAP
colorant
47
Clays
p
22160
No
Clay
48
magnesium
sulfate
n
0.38
No
Colorant
48
Triassic
Shale
p
72574
No
Shale
48
hydrous
aluminum
silicate
p
5
No
Clay
48
copper
granules
n
6.5
No
Colorant
48
sodium
carbonate
n
3
No
Colorant
48
crushed
glass
n
3
No
Grog
48
calcium
lignosulfonate
p
284
No
Binder
48
aluminum
silicates
p
103.5
No
Clay
48
limestone
p
8.5
No
Colorant
49
copper
granules
n
1.5
No
Colorant
49
sodium
carbonate
n
9
No
Colorant
49
hydrous
aluminum
silicate
p
15
No
Clay
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
40
49
aluminum
silicates
p
310.5
No
Clay
49
crushed
glass
n
9
No
Grog
49
triassic
shale
p
197542
No
Shale
49
calcined
aluminum
silicate
clay,
feldspar,
quartz
n
8
No
Additive
49
magnesium
sulfate
n
1.125
No
Colorant
49
limestone
p
25.5
No
Colorant
49
calcium
lignosulfonate
p
455.4
No
Binder
50
chromite
h
No
HAP
colorant
50
Local
clay/
shale
p
15643
No
Clay/
shale
50
manganese
oxide
h
No
HAP
colorant
51
kaolin
(
wet
weight)
p
5400
No
Clay
51
black
shale
(
wet
weight)
p
1600
No
Shale
51
red
shale
(
wet
weight)
p
100000
No
Shale
51
red
clay
(
wet
weight)
p
100000
No
Clay
52
extrusion
oil
p
16
No
Lubricant
52
schist
p
121600
No
Schist
52
incinerated
sludge
ash
n
3634
No
Cement
52
shale
p
61700
No
Shale
53
shale
p
51000
No
Shale
53
incinerated
sludge
ash
n
7235
No
Cement
53
extrusion
oil
p
80.2
No
Lubricant
53
schist
p
108000
No
Schist
54
shale
p
195601
No
Shale
54
soda
ash
n
531
No
Colorant
54
extrusion
oil
p
134
No
Lubricant
55
extrusion
oil
p
16
No
Lubricant
55
shale
p
111388
No
Shale
56
clay
p
25935
No
Clay
56
shale
p
11115
No
Shale
56
brick
batts
n
1145
No
Grog
56
extrusion
oil
p
17.825
No
Lubricant
57
Soda
Ash
n
228
No
Colorant
57
extrusion
oil
p
62.4
No
Lubricant
57
Shale
p
109258
No
Shale
58
fire
clay
p
8898
No
Clay
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
41
58
shale
p
156462
Yes
Shale
58
sand
n
906
No
Sand
58
extrusion
oil
p
14.1
No
Lubricant
59
shale
p
154430
No
Shale
59
soda
ash
n
120
No
Colorant
59
extrusion
oil
p
18.6
No
Lubricant
60
extrusion
oil
p
57.9
No
Lubricant
60
soda
ash
n
312
No
Colorant
60
shale
p
145546
No
Shale
61
extrusion
oil
p
6.7
No
Lubricant
61
soda
ash
n
206
No
Colorant
61
shale
p
137926
No
Shale
62
shale
p
95167
No
Shale
62
soda
ash
n
125
No
Colorant
62
extrusion
oil
p
29
No
Lubricant
63
clay
p
32099
No
Clay
63
barium
carbonate
n
76
No
Colorant
63
manganese
ore
h
62
No
HAP
colorant
63
chromite
h
32
No
HAP
colorant
63
calcium
lignosulfonate
p
84
No
Binder
64
martinsburg
shale
p
49781
No
Shale
64
water
n
11062
No
Water
65
clay
p
9000
No
Clay
65
soda
ash
(
sodium
carbonate)
n
22
No
Colorant
65
JIP
(
calcium
sulfate)
n
44
No
Colorant
65
manganese
dioxide
h
112
No
HAP
colorant
65
shale
p
81000
No
Shale
66
shale
p
18619
Yes
Shale
66
fireclay
p
4143
Yes
Clay
66
clay
p
37238
No
Clay
66
chromite
h
11
No
HAP
colorant
66
manganese
h
55
No
HAP
colorant
66
calcium
lignosulfonate
p
343.5
No
Binder
67
clay
p
61000
No
Clay
68
clay
p
44150
No
Clay
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
42
68
sand
n
1500
No
Sand
69
clay
p
54000
No
Clay
69
sand
n
3000
No
Sand
70
clay
p
135000
No
Clay
70
recycled
lime
p
No
Colorant
71
Barium
carbonate
n
38.4
No
Colorant
71
Pleasant
View
clay
p
107
No
Clay
71
Wyoming
clay
p
5553
No
Clay
71
Clinton
clay
p
17145
No
Clay
71
manganese
h
48
No
HAP
colorant
71
Henefer
clay
p
7025
No
Clay
72
shale
(
wet
weight)
p
128600
No
Shale
72
Manganese
(
dry
weight)
h
23
No
HAP
colorant
72
Thomas
clay
(
wet
weight)
p
64120
No
Clay
72
Panther
Creek
clay
(
wet
weight)
p
128900
No
Clay
72
lignosulfonate
(
dry
weight)
n
640
No
Binder
73
calcium
lignosulfonate
p
400
No
Binder
73
rome
shale
(
wet
weight)
p
171000
No
Shale
73
altizer
schist
(
wet
weight)
p
84900
No
Schist
73
manganese
325
mesh
(
dry
weight)
h
7
No
HAP
colorant
74
masonry
sand
(
wet
weight)
n
5970
No
Sand
74
local
alluvial
clay
(
wet
weight)
p
130200
No
Clay
75
clay
p
42585
No
Clay
75
donnafil­
granit
fines
n
1125
No
Additive
75
light
weight
aggregate
n
1744
No
Additive
75
manganese
dioxide
h
36
No
HAP
colorant
75
calcium
lignosulfonate
p
213
No
Binder
75
sawdust
p
77
No
Filler
76
calcium
lignosulfonate
p
108.52
No
Binder
76
clay
p
24000
No
Clay
76
epsom
salt
n
29.17
No
Colorant
76
barium
carbonate
n
2.45
No
Colorant
77
clay
p
49000
No
Clay
78
shale
p
37800
No
Shale
78
clay
p
151200
No
Clay
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
43
79
brick
white
p
15
No
Colorant
79
manganese
ferrite
h
0.25
No
HAP
colorant
79
clay
p
14702
No
Clay
79
clay
and
sand
p
9
No
Clay
80
special
colorant
(
manganese
dioxide,
iron
oxide)
p
63
No
Colorant
80
iron
chromite
h
22
No
HAP
colorant
80
barium
carbonate
n
36
No
Colorant
80
manganese
dioxide
h
45
No
HAP
colorant
80
shale
p
6280
No
Shale
80
clay
p
32725
No
Clay
81
hallmark
fire
clay
p
3750
No
Clay
81
clay
p
197000
No
Clay
81
rome
shale
p
27200
No
Shale
81
mary
lee
grace
chapel
clay
p
1000
No
Clay
81
redart
clay
p
23.13
No
Clay
81
grog
n
10.8
No
Grog
81
lignosol
p
260
No
Binder
82
blue
shale
clay
(
wet
weight)
p
78007
No
Clay/
shale
82
barium
carbonate
(
dry
weight)
n
33.85
No
Colorant
82
P+
K
fire
clay
(
wet
weight)
p
18393
No
Clay
82
porter
fire
clay
(
wet
weight)
p
13343
No
Clay
82
yellow
shale
clay
(
wet
weight)
p
49736
No
Clay/
shale
83
kaolin
p
25484
No
Clay
83
grog
n
651
No
Grog
83
ball
clay
p
4723
No
Clay
83
sand
n
728
No
Sand
83
marble
dust
n
547
No
Colorant
83
shale
p
2017
No
Shale
83
manganese
dioxide
h
2272
No
HAP
colorant
84
clay
p
19250
No
Clay
84
petroleum
contaminated
soil
p
5000
No
Contaminated
soil
84
shale
p
52750
No
Shale
85
shale
p
50000
No
Shale
85
iron
ore
tailings
p
7350
No
Colorant
85
clay
p
16500
No
Clay
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
44
85
extrusion
oil
p
10.4
No
Lubricant
87
fireclays
p
34732
No
Clay
87
common
clays
p
21097
No
Clay
87
sand
n
1448
No
Sand
87
iron
chromite
h
348
No
HAP
colorant
87
iron
oxides
n
100
No
Colorant
87
grog
n
8228
No
Grog
87
manganese
dioxide
h
110
No
HAP
colorant
88
ball
clay
p
5.5
No
Clay
88
dextrose
p
7
No
Flashing
88
grog
n
6520
No
Grog
88
iron
chromite
h
2
No
HAP
colorant
88
common
clays
p
57940
No
Clay
88
manganese
dioxide
h
21
No
HAP
colorant
88
kaolin
clay
Purchased
p
14
No
Clay
88
barium
carbonate
n
196
No
Colorant
88
iron
oxides
n
5
No
Colorant
88
red
clays
purchased
p
18
Yes
Clay
88
bentonite
p
1
No
Clay
89
sand
n
32
No
Sand
89
iron
oxide
n
1.5
No
Colorant
89
fireclay
p
648
No
Clay
89
lignin
p
33
No
Binder
89
shale
p
5919
No
Shale
90
clay
p
69000
No
Clay
90
calcium
lignosulfonate
p
465
No
Binder
90
frit
n
0.58
No
Colorant
90
rouge
n
244
No
Colorant
90
manganese
dioxide
h
120
No
HAP
colorant
90
barium
carbonate
n
7.25
No
Colorant
91
clay
p
36620
Yes
Clay
91
sand
n
No
Sand
91
barium
carbonate
n
25.2
No
Colorant
91
red
iron
oxide
n
50.4
No
Colorant
92
clay
p
33500
No
Clay
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
45
92
manganese
h
No
HAP
colorant
93
manganese
h
No
HAP
colorant
93
clay
p
34800
No
Clay
94
clay
p
29500
No
Clay
94
manganese
h
No
HAP
colorant
95
manganese
h
No
HAP
colorant
95
clay
p
136400
No
Clay
96
manganese
h
No
HAP
colorant
96
clay
p
85000
No
Clay
97
manganese
h
No
HAP
colorant
97
clay
p
216400
No
Clay
97
chromite
h
No
HAP
colorant
98
clay
p
98900
No
Clay
98
manganese
h
No
HAP
colorant
98
chromite
h
No
HAP
colorant
99
clay
p
99500
No
Clay
99
manganese
h
No
HAP
colorant
100
petroleum
contaminated
soils
p
6407
No
Contaminated
soil
100
shale
p
47902
No
Shale
101
petroleum
contaminated
soils
p
32350
No
Contaminated
soil
101
raw
materials
(
clay,
silt,
shale,
etc.)
p
153918
No
Clay/
shale
102
raw
materials
(
clay,
shale,
silt,
etc.)
p
72246
No
Clay/
shale
102
petroleum
contaminated
soils
p
4691
No
Contaminated
soil
103
petroleum
contaminated
soil
p
0
No
Contaminated
soil
103
raw
materials
(
clay,
shale,
silt,
etc.)
p
198592
No
Clay/
shale
104
quarry
clay
p
25651
No
Clay
105
clay
p
30000
No
Clay
106
clay
p
18000
No
Clay
106
barium
carbonate
n
40.5
No
Colorant
107
clay
p
15000
No
Clay
107
barium
carbonate
n
34
No
Colorant
108
barium
carbonate
n
40.5
No
Colorant
108
clay
p
18000
No
Clay
109
barium
carbonate
n
12
No
Colorant
109
clay
p
5250
No
Clay
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
46
110
manganese
compound
h
112
No
HAP
colorant
110
#
5
A
Shale
p
23095
No
Shale
111
manganese
compound
h
302
No
HAP
colorant
111
#
4
shale
p
17057
Yes
Shale
111
#
4
clay
p
39595
No
Clay
111
#
3A
shale
p
27752
Yes
Shale
112
#
3A
shale
p
20944
Yes
Shale
112
manganese
compounds
h
997
No
HAP
colorant
112
#
4
shale
p
127958
Yes
Shale
112
#
4
clay
p
172399
Yes
Clay
112
#
5
clay
p
20572
Yes
Clay
112
chromium
compound
h
593
No
HAP
colorant
113
clay
and
sand
n
17
No
Clay
113
clay
p
27983
No
Clay
113
brickwhite
p
20
No
Colorant
114
grog
n
2426
No
Grog
114
sand
n
0.48
No
Sand
114
soda
ash
n
5
No
Colorant
114
clay
native
p
21000
No
Clay
114
limestone
flour
p
36.24
No
Colorant
114
manganese
dioxide
h
21.6
No
HAP
colorant
115
clay
p
34400
No
Clay
116
pyrolusite,
manganese
ore
h
82.25
No
HAP
colorant
116
iron
chromite
h
54.98
No
HAP
colorant
116
calcium
lignosulfonate
p
125.65
No
Binder
116
clay
p
42220
No
Clay
116
barium
carbonate
n
49.93
No
Colorant
117
fireclay
p
7820
No
Clay
117
grog
n
2232
No
Grog
118
Lignosulfonate
p
159
No
Binder
118
Raw
common
clay
p
130308
No
Clay
118
grog
(
recycled
crushed
brick)
n
12238
No
Grog
118
barium
carbonate
(
microflo)
n
134
No
Colorant
119
ball
clay
p
29224
No
Clay
119
manganese
compounds
h
115
No
HAP
colorant
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
47
119
loam
clay
p
44896
No
Clay
119
chromium
compounds
h
105
No
HAP
colorant
119
sand
n
7989
No
Sand
119
grog
n
7981
No
Grog
120
manganese
dioxide
h
2
No
HAP
colorant
120
clay
p
30000
No
Clay
120
vermiculite
n
1
No
Colorant
120
pyrotrol,
pyrophyllite
p
0.25
No
Raw
ore
121
clay/
shale
p
45000
No
Clay/
shale
121
epsom
salt
n
0.525
No
Colorant
121
iron
oxide
n
14400
No
Colorant
122
courtland
buff
clay
p
11461
No
Clay
122
amanole
5
manganese
dioxide
h
312
No
HAP
colorant
122
micro
flo
barium
carbonate
n
39
No
Colorant
122
die
lubricant
p
15.45
No
Lubricant
122
courtland
red
clay
p
7779
No
Clay
122
springfield
clay/
shale
p
12867
No
Clay/
shale
122
sleepy
eye
clay
T
p
11970
No
Clay
122
sleepy
eye
clay
kaolin
B
p
8523
No
Clay
123
colfax
shale
p
3568
No
Shale
123
clay
p
33124
No
Clay
123
terra
cotta
scrap
n
823
No
Grog
123
sewer
pipe
scrap
n
4310
No
Grog
123
custer
spar
p
169.7
No
Colorant
123
talc
p
10.1
No
Raw
ore
123
ione
sand
n
281
No
Sand
123
lignosite
p
102
No
Binder
123
manganese
dioxide
h
4.85
No
HAP
colorant
123
iron
chromite
h
7.85
No
HAP
colorant
123
sodium
carbonate
n
19.4
No
Colorant
123
barium
carbonate
n
68
No
Colorant
124
shale
p
64000
No
Shale
125
manganese
h
No
HAP
colorant
125
clay
p
81000
No
Clay
126
calcuim
lignosulfonate
p
No
Binder
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
48
126
clay
p
71800
No
Clay
126
manganese
h
No
HAP
colorant
127
clay
p
52000
No
Clay
127
manganese
h
No
HAP
colorant
128
manganese
h
No
HAP
colorant
128
clay
p
278000
No
Clay
129
clay
p
98700
No
Clay
129
manganese
h
No
HAP
colorant
130
#
4
clay
p
19484
Yes
Clay
130
#
3a
shale
p
2794
Yes
Shale
130
#
4
shale
p
15898
Yes
Shale
130
manganese
compound
h
182
No
HAP
colorant
131
lignosol
(
additive
a)
p
198
No
Binder
131
clay
p
128000
No
Clay
131
hallmark
fire
clay
p
894
No
Clay
131
kaolin
eufaula
p
227
No
Clay
131
rome
shale
p
11475
No
Shale
132
hallmark
fireclay
p
1200
No
Clay
132
clay
p
109300
No
Clay
132
kaolin
p
45
No
Clay
132
rome
shale
p
13390
No
Shale
132
manganese
h
7
No
HAP
colorant
132
calcium
lignosolfulnate
p
106
No
Binder
132
natural
iron
oxide
n
69
No
Colorant
133
sawdust
p
10000
No
Filler
133
merry
clay
(
wet
weight)
p
354300
No
Clay
133
manganese
h
No
HAP
colorant
133
fines
p
No
Additive
133
bond
kaolin
(
wet
weight)
p
9600
No
Clay
133
cordova
clay
(
wet
weight)
p
9700
No
Clay
133
marble
dust
n
No
Colorant
133
albion
kaolin
(
wet
weight)
p
13300
No
Clay
133
shale
(
wet
weight)
p
19100
No
Shale
135
pit
clay
p
140584
No
Clay
135
ceramic
product
n
1318
No
Grog
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
49
135
contaminated
clay
p
14117
No
Clay
135
garnet
n
6588
No
Colorant
135
bonding
clay
p
2745
No
Clay
135
firebrick
mortar
n
659
No
Cement
136
limestone
p
75.2
No
Colorant
136
iron
oxide
n
1
No
Colorant
136
manganese
dioxide
h
42
No
HAP
colorant
136
sand
shale
p
1160
No
Shale
136
clay
p
15497
No
Clay
136
rutile
p
1.5
No
Raw
ore
137
calcium
lignosulfonate
p
143.5
No
Binder
137
iron
oxide
n
11.2
No
Colorant
137
manganese
dioxide
h
22.8
No
HAP
colorant
137
shale
p
313202
No
Shale
138
iron
oxide
n
110
No
Colorant
138
manganese
h
35
No
HAP
colorant
138
clays
p
76000
No
Clay
139
manganese
oxide
h
12
No
HAP
colorant
139
barium
carbonate
n
20
No
Colorant
139
clay
&
shale
p
31000
No
Clay/
shale
140
barium
carbonate
n
61
No
Colorant
140
ochre
n
179
No
Colorant
140
red
art
clay
p
1.7
No
Clay
140
MnOx
h
270
No
HAP
colorant
140
goldart
clay
p
0.5
No
Clay
140
yellow
iron
oxide
n
0.13
No
Colorant
140
regency
blend
oxide
n
1
No
Colorant
140
red
iron
oxide
n
9.28
No
Colorant
140
synthetic
red
iron
oxide
n
0.013
No
Colorant
140
raw
material
clay
p
62702
No
Clay
140
umber
p
0.95
No
Colorant
141
clay
p
41000
Yes
Clay
141
shale
p
5000
Yes
Shale
141
barium
carbonate
n
130
No
Colorant
141
grog
&
feedstock
(
recycled
raw
materials
n
4000
No
Grog
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
50
142
clay
p
44000
No
Clay
143
manganese
h
No
HAP
colorant
143
iron
chromate
h
No
HAP
colorant
143
clay
p
168000
No
Clay
144
bottom
ash
n
2150
No
Cement
144
clay
p
90000
No
Clay
144
barium
carbonate
n
55
No
Colorant
144
iron
oxide
n
1
No
Colorant
144
sand
n
30
No
Sand
144
manganese
dioxide
h
1.5
No
HAP
colorant
144
grog
n
18000
No
Grog
145
white
plastic
clay
p
9843
No
Clay
145
dark
plastic
clay
p
9843
No
Clay
145
white
sand
clay
p
19687
No
Clay
145
manganese
dioxide
h
96
No
HAP
colorant
145
chromium
oxide
h
14
No
HAP
colorant
146
L.
L.
Sand
grog
wet
wt
n
4539
No
Grog
146
ac
clay
wet
wt
p
24306
Yes
Clay
146
B.
M.
C.
clay
wet
wt.
p
1731
Yes
Clay
146
C.
C.
clay
p
216
Yes
Clay
146
K.
F./
Oakdale
clay
wet
wt.
p
1831
Yes
Clay
146
acton
grog,
wet
wt.
n
6370
Yes
Grog
146
M.
C.
clay
wet
wt
p
15750
Yes
Clay
146
N.
Bond
Noble
clay
wet
wt.
p
19383
Yes
Clay
146
olive
old
crow
clay
wet
wt
p
1433
Yes
Clay
146
Olancha
pumas
grog
wet
wt.
n
2966
Yes
Grog
146
P.
C.
C.
clay
wet
wt
p
345
Yes
Clay
146
T.
C.
Clay
wet
wt
p
2428
Yes
Clay
146
3M
dust
wet
wt
p
2968
Yes
Additive
146
manganese
325
mesh
h
21
No
HAP
colorant
146
barium
carbonate
n
17
No
Colorant
147
manganese
ore
h
75
No
HAP
colorant
147
iron
chromite
h
15
No
HAP
colorant
147
barium
carbonate
n
40
No
Colorant
147
feldspar
p
No
Additive
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
51
147
clay
p
42000
No
Clay
149
shale
p
103740
No
Shale
149
manganese
h
0.25
No
HAP
colorant
149
ammonium
lignosulfonate
p
No
Binder
150
Clay
p
146000
No
Clay
151
manganese
h
No
HAP
colorant
151
clay
p
225642
No
Clay
152
iron
chromite
h
No
HAP
colorant
152
manganese
dioxide
h
No
HAP
colorant
152
Fe
HO2
548
ochre
n
No
Colorant
152
Quartz
548
ochre
n
No
Colorant
152
manganese
dioxide
548
ochre
h
No
HAP
colorant
153
fire
clay
p
18785
No
Clay
153
red
burning
surface
clay
p
3960
No
Clay
153
sand
n
1390
No
Sand
153
feldspar
p
1383
No
Additive
153
crushed,
fired
reject
brick
and
tile
n
667
No
Grog
153
calcined
fire
clay
n
2954
No
Additive
153
recycled
glaze
wash
p
No
Colorant
153
barium
carbonate
n
51
No
Colorant
153
crushed,
dry
reject
brick
and
tile
p
No
Grog
155
additive
A
(
liquid
lignin
sulfonate)
p
10
No
Binder
155
MnO2
(
manganese
dioxide)
h
200
No
HAP
colorant
155
BaCO3
(
barium
carbonate)
n
130
No
Colorant
155
FeCr2O3
(
iron
chromite)
h
63
No
HAP
colorant
155
clay
p
99498
No
Clay
157
sand
n
218000
No
Sand
157
chromite
compounds
h
45
No
HAP
colorant
157
clay
p
218000
No
Clay
157
manganese
compounds
h
65
No
HAP
colorant
157
additive
p
75
No
Binder
158
barium
carbonate­
body
additive/
surface
colorant
n
22.75
No
Colorant
158
manganese
dioxide­
body
additive/
surface
colorant
h
56.95
No
HAP
colorant
158
Calcium
lignosulfonate
p
164
No
Binder
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
52
158
silt­
clay
raw
material
p
2668
No
Clay
158
burgundy­
clay
raw
material
p
16563
No
Clay
158
Chromite­
body
additive/
surface
colorant
h
13.25
No
HAP
colorant
158
rose­
clay
raw
material
p
1487
No
Clay
158
ivory­
clay
raw
material
p
3436
No
Clay
158
buff­
clay
raw
material
p
11315
No
Clay
158
terracotta­
clay
raw
material
p
7002
No
Clay
158
silica
sand­
as
setting
sand/
surface
colorant
n
24.6
No
Sand
158
5151
stain­
surface
colorant
p
0.5
No
Colorant
158
EPK
kaolin­
surface
colorant
p
0.4
No
Colorant
159
Yellow
Shale
p
No
Shale
159
Blue
Shale
p
No
Shale
179
calcium
lignosulfonate
p
22.6
No
Binder
179
clay
p
11100
No
Clay
179
manganese
dioxide
h
0.47
No
HAP
colorant
183
clay
p
16
No
Clay
184
shale
p
24018
No
Shale
184
iron
chromite
h
636
No
HAP
colorant
184
fire
clay
p
45779
No
Clay
184
manganese
dioxide
h
212
No
HAP
colorant
185
fire
clay
p
460
No
Clay
185
manganese
dioxide
h
0.046
No
HAP
colorant
185
shale
p
1790
No
Shale
186
fire
clay
p
10409
No
Clay
186
manganese
dioxide
h
66.3
No
HAP
colorant
186
shale
p
11138.5
No
Shale
186
iron
chromite
ore
h
33.4
No
HAP
colorant
186
cobalt
oxide
h
1.6
No
HAP
colorant
187
M&
D
Clay
p
201
No
Clay
187
Frit
N
347
No
Colorant
187
Manganese
dioxide
H
107
No
HAP
colorant
187
Barium
Carbonate
N
7
No
Colorant
187
Shale
p
3486
No
Shale
188
Mary
Lee
Clay
p
23400
No
Clay
188
Fern
Springs
Clay
p
7400
No
Clay
TABLE
4.
(
continued)

FACID
Raw
material
HAP
status
Amount
Analysis
available
Category
53
188
Shale
p
8000
No
Shale
188
Kaolin
p
6000
No
Clay
188
Iron
Chromite
h
1000
No
HAP
colorant
188
Manganese
chloride
h
1.4
No
HAP
colorant
188
cobalt
chloride
h
1.225
No
HAP
colorant
189
iron
chromite
h
942
No
HAP
colorant
189
cobalt
oxide
h
246
No
HAP
colorant
189
manganese
dioxide
h
1864
No
HAP
colorant
189
Cobalt
Chloride
h
0.05
No
HAP
colorant
189
manganese
chloride
h
0.56
No
HAP
colorant
189
shale/
clay
p
48686
No
Clay/
shale
54
TABLE
5.
FLASHING
SUBSTANCES
FACID
Substance
Amount
Units
2
Natural
gas
5
Natural
gas
7
Natural
gas
7
Natural
gas
8
Natural
gas
9
No.
2
fuel
oil
10
Natural
gas
11
Natural
gas
12
Natural
gas
14
Natural
gas
15
Natural
gas
16
Natural
gas
17
Natural
gas
19
Natural
gas
cubic
feet
20
Natural
gas
22
Natural
gas
23
Natural
gas
24
Natural
gas
33
Coal
and
sawdust
34
Natural
gas
35
Natural
gas
15,391
mcf
36
Natural
gas
2,737
mcf
38
Natural
gas
39
Natural
gas
40
Natural
gas
42
Natural
gas
43
Sawdust
(
fuel)
44
Natural
gas
45
Natural
gas
51
Natural
gas
52
Natural
gas
53
Natural
gas
54
Coal
TABLE
5.
(
continued)

FACID
Substance
Amount
Units
55
55
Natural
gas
56
Natural
gas
57
Natural
gas
58
Natural
gas
60
Natural
gas
61
Natural
gas
62
Natural
gas
63
Natural
gas
64
Natural
gas
65
Natural
gas
2,400
mcf
66
Natural
gas
70
Natural
gas
72
Sawdust
NA
72
Natural
gas
NA
73
Natural
gas
74
Natural
gas
75
Natural
gas
78
Natural
gas
79
Oil
81
Natural
gas
81
Propane
(
back­
up
fuel)
82
Natural
gas
84
Natural
gas
85
Natural
gas
87
Natural
gas
88
Natural
gas
89
No.
2
oil
4,000
gal
90
Natural
gas
92
Natural
gas
93
Natural
gas
94
Natural
gas
95
Natural
gas
TABLE
5.
(
continued)

FACID
Substance
Amount
Units
56
96
Natural
gas
97
Natural
gas
98
Natural
gas
99
Natural
gas
100
Sawdust
in
kilns
1
and
2
101
Sawdust
in
kilns
1
and
2
101
Gas
in
kiln
3
(
for
1997)
102
Sawdust
in
kilns
1
and
2
103
Sawdust
in
kilns
3
­
8
110
Natural
gas
mcf
111
Gas
mcf
112
Zinc
12.6
tons
112
Gas
112
Coal
354
tons
112
Manganese
oxide
0.15
tons
113
Propane
236,344
gal
114
Natural
gas
116
Natural
gas
118
Natural
gas
119
Natural
gas
122
#
2
fuel
oil
122
Natural
gas
124
Natural
gas
125
Natural
gas
126
Natural
gas
127
Natural
gas
128
Natural
gas
129
Natural
gas
130
Gas
mcf
130
Coal
63
tons
131
Natural
gas
131
Propane
gas
back
up
fuel
TABLE
5.
(
continued)

FACID
Substance
Amount
Units
57
132
Natural
gas
132
Propane
gas
backup
fuel
133
Natural
gas
133
Sawdust
134
Natural
gas
136
Coal
137
Natural
gas
139
Natural
gas
140
Natural
gas
143
Natural
gas
146
Natural
gas
147
Natural
gas
148
Natural
gas
151
Natural
gas
154
Natural
gas
158
Natural
gas
159
Natural
gas
188
Cobalt
chloride
1.225
tons
188
Manganese
chloride
1.4
tons
189
Colbat
chloride
0.05
tons
189
Manganese
chloride
0.56
tons
58
TABLE
6.
GLAZES
AND
COLORANTS
FACID
Type
Product
96con
At
facility
Capacity
Utilization
ProdIDX
100
Colorant
Brick
No
100113
101
Colorant
No
101114
10
Coatings/
colorants
Brick
2185
No
1015
102
Colorant
Brick
No
102116
103
Colorant
Brick
No
103117
104
Colorant
Brick
9
No
9
100.00%
104115
110
Sand
coating
No
110118
11
Colorant/
coating
Brick
1441
No
1116
112
Colorant
Brick
No
112119
112
Dark
blue
glaze
Brick
0.136
No
112120
112
Clear
glaze
Brick
0.00181
No
112121
112
Red
glaze
Brick
0.476
No
112122
112
Brown
glaze
Brick
0.034
No
112123
112
Orange
glaze
Brick
0.163
No
112124
112
Green
glaze
Brick
0.19
No
112125
114
Surface
colorants
Structural
&
facing
brick
10
Yes
114126
115
Colorant
Colored
18
No
18
100.00%
115127
116
Colorant
Structural
brick
0.3
No
116129
116
Colorant
Structural
brick
0.3
No
116130
116
Colorant
Structural
brick
0.7
No
116131
116
Yellow
colorant
Structural
brick
0.45
No
116132
116
Brown
colorant
Structural
brick
0.75
No
116133
117
Glazes
Structural
clay
products
No
117134
118
Colorants
Face
brick
203
No
118135
121
Colorant
Face
brick
1.5
No
121136
12
Colorant/
coatings
Brick
180
No
1220
122
Black
sand
Structural
brick
35
Yes
500
7.00%
122137
123
Standard
glaze
Structural
wall
tile
53.05
No
75
70.73%
123138
124
Colorant
Brick
No
124139
131
Colorant/
coatings
Brick
179
No
131141
13
Colorant/
coating
Brick
2000
No
1317
132
Coatings/
colorant
Brick
957
No
132142
133
Colorant/
coatings
Brick
2500
No
133143
135
Colorant
Brown
sand
finish
brick
659
No
1139
57.86%
135144
137
Sand
coatings
Brick
No
137145
TABLE
6.
(
continued)

FACID
Type
Product
96con
At
facility
Capacity
Utilization
ProdIDX
59
137
Colorant/
coating
Brick
19
No
137146
138
Coating
Brick
19
No
138160
139
Glaze
Brick
65
Yes
125
52.00%
139147
140
Colorant
Face
brick
102.24
No
140148
141
Matt/
gloss/
semigloss
glaze
Structural
tile,
brick
940.14
Yes
1500
62.68%
141149
14
Coatings
Brick
1
Yes
1418
144
Colorant
Structural
brick
No
144152
145
Colorant
Face
brick
colored
60
Yes
75
80.00%
145153
145
Colorant
Face
brick
colored
72
Yes
75
96.00%
145154
145
Colorant
Face
brick
colored
75
Yes
80
93.75%
145155
145
Colorant
Face
brick
colored
62
Yes
75
82.67%
145156
146
Colorants
Clay
roofing
tile
2.7
No
3.4
79.41%
146157
147
Colorants
Brick
No
147158
150
Colorant
Brick
155
Yes
150159
15
Coating
Brick
0.1
Yes
1519
153
Glaze
Structural
glazed
brick
and
tile
246.8
Yes
390
63.28%
153161
158
Colorant
­
BI
Brick
Yes
3
158162
158
Colorant
­
CG
Brick
Yes
1
158163
158
Colorant
­
AAM
Brick
Yes
1
158164
159
Colorant
Brick
No
159165
1
Colorant
Face
brick
2210
Yes
4000
55.25%
18
181
Glaze
Roof
tile
No
181166
19
Colorant
Brick
150
No
1921
23
White
kaolin
clay
Brick
1.9379
Yes
129
15022.48%
2322
23
Target
slip
Brick
6.8064
Yes
929
0.75%
2323
23
Gray
engobe
Brick
0.6804
Yes
929
0.11%
2324
23
Engobe
S1­
102
Brick
6.5555
Yes
929
0.75%
2325
23
Brickox
Brick
0.2889
No
13
0.00%
2326
23
White
sand
(
21)
Brick
15.2848
Yes
1030
1.46%
2327
23
Black
sand
(
15)
Brick
6.7063
Yes
257
2.72%
2329
TABLE
6.
(
continued)

FACID
Type
Product
96con
At
facility
Capacity
Utilization
ProdIDX
60
23
Red
sand
GRM­
1
Brick
12.9956
Yes
515
2.52%
2330
23
Rose
sand
GRM­
2
Brick
9.7467
Yes
386
2.59%
2331
23
E01
White
powder
Brick
1.7223
Yes
129
1.55%
2332
23
White
SF­
48
Brick
0.4187
Yes
59
0.00%
2334
23
Sante
Fe
blue
Brick
0.2662
Yes
118
0.00%
2335
23
Santa
Fe
gray
Brick
0.3401
Yes
118
0.00%
2336
23
Gray
c­
123­
a
Brick
0.2295
Yes
118
0.00%
2338
23
Target
slip
Tile
1.138
Yes
706
0.14%
2339
23
Brickox
Tile
0.9315
No
64
1.56%
2340
23
White
sand
(
21)
Tile
37.3498
Yes
1150
3.22%
2341
23
Black
sand
(
15)
Tile
26.7878
Yes
287
9.44%
2342
23
Red
sand
GRM­
1
Tile
33.8214
Yes
575
5.91%
2343
23
Rose
sand
GRM­
2
Tile
25.366
Yes
431
5.80%
2344
23
Glaze
Glazed
tile
8.91
Yes
267
3.37%
2345
24
Engobe
Brick
pavers
0.08
No
2437
25
Colorant
Brick
No
2533
26
Colorant
No
2646
27
Colorant
Brick
No
2747
28
Colorant
Brick
No
2848
2
Colorant
Brick
No
29
29
Colorant
Brick
No
2950
30
Colorant
Brick
No
3051
33
Colorant
Brick
Yes
3352
34
Surface
colorant
Face
brick
2.03
Yes
3453
35
Coatings
Brick
No
3554
7
Glaze
Face
brick
4
Yes
3757
38
Colorant
Brick
No
3855
39
Colorant
Brick
No
3956
41
Slurry
Face
brick
126.24
Yes
164
76.83%
4161
43
Dry
sand
mix
Face
brick
Yes
4358
44
Colorant/
texture
Brick
12.75
No
4459
45
Colorants
dry
coatings
Brick
43.27
Yes
338
12.72%
4560
46
Coating
Structural
brick
702
Yes
4662
48
Zinc
oxide
Structural
brick
4.5
No
5.86
66.67%
4864
48
Manganese
dioxide
Structural
brick
5.63
No
7.24
85.71%
4865
48
Iron
oxide
Structural
brick
4.38
No
5.63
66.67%
4866
TABLE
6.
(
continued)

FACID
Type
Product
96con
At
facility
Capacity
Utilization
ProdIDX
61
48
Manganese
sulfate
Structural
brick
2.75
No
3.54
75.00%
4867
49
Zinc
oxide
Structural
brick
13.5
No
18.4
77.78%
4968
49
Manganese
dioxide
coloran
Structural
brick
16.9
No
23
73.91%
4969
49
Iron
oxide
colorant
Structural
brick
13.125
No
17.9
72.22%
4970
49
Manganese
sulfate
colorant
Structural
brick
8.25
No
11.25
72.73%
4971
5
Coatings/
colorants
Brick
3340
No
511
51
Colorant/
coating
Brick
4000
No
5172
52
Colorant
Face
brick
4000
Yes
6000
66.67%
5273
53
Colorant
Face
brick
1035
Yes
1500
69.00%
5374
54
Colorant
Face
brick
1895
Yes
2500
75.80%
5475
55
Colorant
Face
brick
1630
Yes
3500
46.57%
5576
56
Colorant
Face
brick
210
Yes
500
42.00%
5678
57
Colorant
Face
brick
1360
Yes
2000
68.00%
5777
58
Colorant
Face
brick
1240
Yes
1500
82.67%
5879
59
Colorant
Face
brick
1360
Yes
1600
85.00%
5980
60
Colorant
Face
brick
2840
Yes
4000
71.00%
6081
6
Coatings/
colorants
Brick
2086
No
612
61
Colorant
Face
brick
2140
Yes
3500
61.14%
6182
62
Colorant
Face
brick
840
Yes
2000
42.00%
6283
64
Surface
colorant
Brick
3.39
No
6484
65
Colorant
Structural
brick
44
No
50
88.00%
6585
65
Spinel
colorant
Structural
brick
2
No
6586
67
Colorant
Brick
No
67150
68
Colorant
Structural
brick
1
No
6887
68
Colorant
Structural
brick
1
No
6888
69
Colorant
Structural
brick
1
No
6989
69
Colorant
Structural
brick
1
No
6990
70
Colorant
Face
brick
No
7091
7
Colorant/
coatings
Brick
700
No
713
71
Colorant
Face
brick
52
No
7192
72
Colorant/
coating
Brick
3500
No
7293
73
Colorant/
coatings
Brick
2080
No
7394
74
Colorants/
coatings
Brick
800
No
7495
75
Colorant
Brick
3
Yes
5
60.00%
7596
75
Colorant
Brick
10
Yes
15
66.67%
7597
TABLE
6.
(
continued)

FACID
Type
Product
96con
At
facility
Capacity
Utilization
ProdIDX
62
76
Colorant
Brick
0.42
No
7698
77
Colorant
Face
brick
No
7799
78
Colorant
Brick
69
No
78100
81
Colorant/
coatings
Brick
1982
No
81101
8
Colorant/
coating
Brick
526
No
814
82
Coatings/
colorants
Brick
349
No
82102
83
Colorant
Brick
No
83103
84
Colorant
Brick
24
Yes
28
85.71%
84104
85
Colorant
Face
brick
715
Yes
1000
71.50%
85105
87
Colorant
Structural
brick
82
Yes
105
78.10%
87106
88
Surface
colorant
Structural
&
facing
brick
2
Yes
88107
88
Surface
colorant
Structural
&
facing
brick
8
Yes
88108
88
Surface
colorant
Structural
&
facing
brick
5
Yes
88109
88
Surface
colorant
Structural
&
facing
brick
2
Yes
88110
88
Surface
colorant
Structural
&
facing
brick
5
Yes
88111
90
Colorant
Face
brick
189.36
No
90112
63
TABLE
7.
GLAZE
INGREDIENTS
ProdIDX
Material
Low
High
Ave
HAP
Status
100113
MnO4
H
100113
Chromite
H
101114
Manganese
dioxide
H
101114
Frit
N
101114
Soda
lime
glass
N
1015
Ochre
9.85
P
1015
Calcium
carbonate
234.17
P
1015
Mangnese
dioxide
271.25
H
1015
Iron
chromite
ore
297
H
102116
Soda
lime
glass
N
102116
Manganese
dioxide
H
102116
Frit
N
103117
Frit
P
103117
Manganese
dioxide
H
104115
Iron
oxide
9
N
110118
Manganese
dioxide
0.135
H
1116
Manganese
6.9
H
1116
Ochre
13.8
P
112119
Slip
clay
1.68
P
112119
Wax
P
112120
Lead
0.022
H
112120
Cadmium
0.003
H
112120
Cobalt
0.001
H
112121
Lead
0.000362
H
112122
Lead
0.076
H
112122
Cadmium
0.014
H
112122
Selenium
0.005
H
112123
Lead
0.004
H
112123
Cadmium
0.001
H
112123
Chromium
compound
0.0007
H
112124
Lead
0.026
H
112124
Cadmium
0.00652
H
112124
Selenium
0.0016
H
112125
Lead
0.03
H
112125
Cadmium
0.006
H
112125
Chromium
compound
0.002
H
112125
Cobalt
0.002
H
114126
Sodium
hexameta
phosphate
0.08
N
TABLE
7.
(
continued)

ProdIDX
Material
Low
High
Ave
HAP
Status
64
114126
Sodium
calcium
borate
0.29
N
114126
Manganese
dioxide
0.71
H
114126
Iron
chromite
0.05
H
114126
Bentonite
0.08
P
114126
Kaolin
clays
1.62
P
114126
Red
clays
2.8
P
115127
Rc­
32
tennessee
ball
clay
2
P
115127
Barium
carbonate
16
N
116129
Iron
manganese
oxide
0.3
H
116130
Manganese
dioxide
0.3
H
116131
Iron
chromite
0.7
H
116132
Antimony
0.054
H
116132
Nickel
0.023
H
116133
Iron
chromite
0.23
H
117134
Frit
clear
2.5
N
117134
Feldspar
0.013
P
117134
White
china
clay
0.415
P
117134
Stain
1396
0.016
P
117134
Wollastonite
0.108
N
117134
Chromium
compounds
0.001
H
117134
Cobalt
compounds
0.00055
H
117134
Cobalt
nickel
spinel
P
118135
Manganese
dioxide
137.2
H
118135
Manganese
tetroxide
(
colormax)
63.1
H
118135
Iron
chromite
1
H
118135
Red
iron
oxide
1.25
N
121136
Manganese
dioxide
0.825
H
1220
Zinc
oxide
8.9
N
1220
Iron
oxide
red
3.4
N
1220
Manganese
alumina
pink
carurdum
0.69
H
1220
Iron
chromite
7.9
H
1220
Brikwhite
1.6
P
122137
Sand
34
N
122137
Amanora
manganese
dioxide
1
H
123138
Ball
clay
14.2
P
123138
Flint
8.2
P
123138
Feldspar
18.2
P
TABLE
7.
(
continued)

ProdIDX
Material
Low
High
Ave
HAP
Status
65
123138
Superpax
(
zirconium
silicate)
2.2
P
123138
Calcium
carbonate
4
P
123138
Barium
carbonate
2.1
N
123138
ZnO2
3.4
N
123138
Cobalt
oxide
0.0035
H
123138
Cobalt
carbonate
0.0075
H
123138
FeCrO4
0.099
H
123138
Manganese
dioxide
0.23
H
123138
NiO
0.006
H
123138
Brown
608
(
Cr,
Ni,
Sb)
0.1115
H
123138
Brown
1378
(
Cr)
0.005
H
123138
Black
K470
(
Cr)
0.0025
H
123138
Black
F3786
(
Cr)
0.061
H
123138
Blue
4053
(
Co)
0.0145
H
123138
Green
41708
(
Co,
Cr.)
0.107
H
123138
Green
1172
(
Co,
Cr)
0.0495
H
123138
Black
1117A
(
Cr)
0.0545
H
124139
Iron
oxides
N
124139
Manganese
dioxide
H
124139
Sand
N
131141
Zinc
oxide
0.45
N
131141
Manganese
dioxide
24.1
H
131141
Manganese
sulphate
0.9
H
131141
Iron
chromite
1.75
H
131141
Green
chromium
oxide
0.03
H
131141
Limestone
88.2
P
1317
Manganese
sulfate
1.5
H
1317
Nepheline
syenite
4.5
P
1317
Manganese
dioxide
95.5
H
132142
Gleason
ball
clay
8.55
P
132142
Green
chromium
oxide
0.44
H
132142
Ochre
68.88
N
132142
Manganese
dioxide
6.89
H
132142
Zinc
oxide
7.3
N
133143
Manganese
dioxide
10
H
133143
Ochre
0.7
N
133143
Chromium
oxide
green
0.2
H
TABLE
7.
(
continued)

ProdIDX
Material
Low
High
Ave
HAP
Status
66
133143
Chromite
2
H
133143
Lime
37
N
133143
Blue
stain
0.2
P
133143
Cobalt
carbonate
0.3
H
133143
Pink
stain
0.5
P
135144
Ball
clay
494.25
P
135144
Manganese
dioxide
32.95
H
137145
Umber
0.7
P
137145
Manganese
dioxide
0.85
H
137145
Iron
oxide
2.6
N
137145
Manganese
dioxide
5.3
H
137145
Manganese
sulfate
0.63
H
137145
Magnesium
sulfate
0.05
N
137145
Calcium
sulfate
0.008
N
137145
Water
0.07
N
138160
Manganese
dioxide
2
H
138160
Yellow
body
stain
0.1
P
139147
Lime
65
N
140148
Vitgobe
0.38
P
140148
Brickwhite
72.38
N
140148
Ferroussulfate
15.13
N
140148
Titanium
oxide
0.13
N
140148
Chromium
oxide
0.9
H
140148
Kelsan
0.09
P
140148
Sand
2.25
N
140148
Kaolin
0.2
P
140148
Feldspar
0.88
P
141149
Lead
alumina
bisilicate
4.1
H
141149
Lead
bisilicate
(
insoluble)
2.14
H
141149
Nickel
ferrite
brown
spinnel
0.06
P
141149
Chrome
alumina
pink
spinnel
0.14
H
141149
Iron
cobalt
chromite
black
spinnel
0.56
H
141149
Pigment
0.01
P
141149
Pigment
0.03
P
141149
Iron
cobalt
chromite
black
spinel
1.3
H
141149
Blue
spersastain
0.06
P
141149
Blue
spersastain
0.22
P
TABLE
7.
(
continued)

ProdIDX
Material
Low
High
Ave
HAP
Status
67
141149
Gray
spersastain
0.55
P
141149
Cobalt
chromite
blue
green
spinel
1.07
H
141149
Clays
929.9
P
1418
Manganese
dioxide
0.1
H
1418
Iron
chromite
0.1
H
144152
Manganese
dioxide
H
145153
White
cedar
heights,
clays
54
P
145153
Frit
1.5
N
145153
Feldspar
1.5
P
145153
Chromite
3
H
145154
Red
cedar
heights
clay
33.5
P
145154
Iron
oxide
16.7
N
145154
Black
sand
16.7
P
145154
Feldspar
3.3
P
145154
Frit
1.15
N
145155
White
sand
61.4
N
145155
Masonry
sand
10.2
N
145155
Manganese
dioxide
3.4
H
145156
Whitesand
54.8
N
145156
Cobalt
oxide
0.6
H
145156
Frit
3.3
N
145156
Feldspar
3.3
P
146157
3269
frit
1.68
N
146157
Yellow
stain
0.03
N
146157
Brown
stain
0.04
N
146157
Calcium
borate
0.72
N
146157
Iron
oxide
0.096
N
146157
Manganese
dioxide
0.12
H
146157
Gum
0.02
P
147158
Iron
oxide
N
147158
Sand
N
147158
Clay
P
150159
Chrom
oxide
0.53
H
150159
Manganese
dioxide
8.1
H
150159
Frit
0.89
P
1519
Manganese
dioxide
0.1
H
153161
Tennessee
Clay
9.902
P
TABLE
7.
(
continued)

ProdIDX
Material
Low
High
Ave
HAP
Status
68
153161
Texas
Kaolin
3.93
P
153161
Pb
2Si
O2
1.226
H
153161
Cedar
Clay
3.425
P
153161
Chromite
0.4
H
153161
Manganese
dioxide
0.25
H
153161
Brown
spersastain
0.101
H
153161
Crimson
spersastain
0.689
H
153161
Black
0.06
H
153161
Gray
spersastain
0.004
H
153161
Green
spersastain
0.251
H
153161
Pink
spersastain
0.001
H
153161
Green
spersastain
0.084
H
153161
Brown
0.098
H
153161
Tan
spersastain
0.219
H
153161
Brown
0.082
H
153161
Gray
spersastain
0.168
H
153161
Black
0.129
H
153161
Blue
0.202
H
153161
Brown
0.01
H
153161
Cobalt
aluminate
blue
spivel
0.247
H
153161
Chrome
alumina
pink
spivel
0.419
H
153161
Chrome
alumina
pink
spivel
0.419
H
153161
Zinc
iron
cronite
brown
spivel
0.026
H
153161
Lead
&
codmium
red
glaze
1.1
H
153161
Lead
&
codmium
yellow
glaze
0.108
H
153161
Black
spec
0.527
H
158162
Silica
sand
80
N
158162
5151
brown
stain
10
P
158162
Manganese
dioxide
10
H
158163
Chromite
2.5
H
158163
Barium
carbonate
2.5
N
158163
Ivory
clay
40
P
158163
EPK
kaolin
55
P
158164
Ivory
clay
33
P
158164
EPK
kaolin
65
P
158164
Barium
carbonate
2
N
159165
Sand
N
TABLE
7.
(
continued)

ProdIDX
Material
Low
High
Ave
HAP
Status
69
159165
Red
iron
oxide
N
159165
Manganese
dioxide
H
159165
Feldspar
P
159165
Kaolin
P
159165
Fire
clay
P
159165
Shale
P
18
Ball
clay
124
P
18
Fire
clay
22.2
P
18
Iron
chromite
144
H
18
Pyrophillite
56.7
P
18
Redart
clay
34.3
P
18
Manganese
oxide
7.3
H
18
Illmenite
5.7
P
18
Umber
2.1
P
181166
Chromium
7.24
H
181166
Manganese
4.62
H
181166
Cobalt
1
H
1921
Iron
chromite
10
H
1921
Manganese
dioxide
150
H
1921
Manganese
sulfate
H
2322
White
kaolin
1.9379
P
2323
Blue
kaolin
5.4451
P
2323
Albion
kaolin
1.3613
P
2324
White
kaolin
0.1335
P
2324
Blue
kaolin
0.5336
P
2324
Iron
chromite
0.0133
H
2325
White
kaolin
1.2981
P
2325
Blue
kaolin
5.1925
P
2325
Iron
chromite
0.0649
H
2326
Manganese
dioxide
0.2889
H
2327
Sand
9.6739
N
2327
White
kaolin
4.837
P
2327
Superpax
(
zirconium
silicate)
0.7739
P
2329
Sand
4.2988
N
2329
White
kaolin
2.1495
P
2329
Manganese
dioxide
0.129
H
2329
Iron
chromite
0.129
H
TABLE
7.
(
continued)

ProdIDX
Material
Low
High
Ave
HAP
Status
70
2330
Sand
8.4939
N
2330
White
kaolin
4.2469
P
2330
Red
iron
oxide
0.2548
N
2331
White
kaolin
3.2274
P
2331
Yellow
iron
oxide
0.0645
N
2331
Sand
6.4548
N
2332
Albion
kaolin
1.0334
P
2332
Blue
kaolin
0.3445
P
2332
Lithospar
0.3444
N
2334
Silica
flour
0.2093
N
2334
Albion
kaolin
0.2094
P
2335
Silica
flour
0.2605
N
2335
Cobalt
oxide
0.0052
H
2335
Manganese
dioxide
0.0005
H
2336
Silica
flour
0.3239
N
2336
Cobalt
oxide
0.0032
H
2336
Manganese
dioxide
0.013
H
2338
Lithospar
0.2186
N
2338
Cobalt
oxide
0.0022
H
2338
Manganese
dioxide
0.0087
H
2339
Blue
kaolin
0.9104
P
2339
Albion
kaolin
0.2276
P
2340
Manganese
dioxide
0.9315
H
2341
Sand
23.6391
N
2341
White
kaolin
11.8196
P
2341
Superpax
(
zirconium
silicate)
1.8911
P
2342
Sand
17.1717
N
2342
White
kaolin
8.5858
P
2342
Iron
Chromite
0.5152
H
2342
Manganese
Dioxide
0.5152
H
2343
Sand
22.1055
N
2343
White
Kaolin
11.0527
P
2343
Red
Iron
Oxide
0.6632
N
2344
Sand
16.7987
N
2344
White
Kaolin
8.3993
P
2344
Yellow
Iron
Oxide
0.168
N
2345
cm­
932
1.98
P
TABLE
7.
(
continued)

ProdIDX
Material
Low
High
Ave
HAP
Status
71
2345
cm­
933
2.91
P
2345
cm­
935
1.03
P
2345
cm­
937
1.08
P
2345
frit
3134­
2
0.402
N
2345
frit
cc261­
2
0.402
N
2345
EPK
kaolin
0.153
P
2345
Superpax
(
zirconium
silicate)
0.559
P
2345
Rutile
0.079
P
2345
Cobalt
oxide
0.022
H
2345
Chrome
oxide
0.02
H
2345
Chem
copp
75
0.031
P
2345
Red
iron
oxide
0.031
N
2345
Zinc
oxide
0.023
N
2345
Manganese
dioxide
0.073
H
2345
Pigment
c­
292
0.002
N
2345
Pigment
c­
416
0.005
N
2345
Pigment
c­
790
0.022
H
2345
Pigment
c­
892
0.014
N
2345
Pigment
c­
1802
0.05
H
2345
Pigment
f­
3794
0.022
H
2437
Manganese
dioxide
0.08
H
2533
Antimony
0.031
H
2533
Manganese
dioxide
15.162
H
2533
Cobalt
oxide
0.095
H
2533
Green
chromium
oxide
0.225
H
2533
Iron
chromite
0.4
H
2533
Yellowstain
Cr
0.003
H
2533
Yellowstain
Sb
0.158
H
2646
Manganese
dioxide
1.367
H
2747
Manganese
dioxide
8.93
H
2848
Manganese
dioxide
4.54
H
2950
Manganese
dioxide
H
3051
Manganese
dioxide
H
3051
Chromium
oxide
H
3352
Manganese
dioxide
2.3
H
3453
Manganese
dioxide
0.064
H
3453
Iron
chromate
0.645
H
TABLE
7.
(
continued)

ProdIDX
Material
Low
High
Ave
HAP
Status
72
3453
Manganese
alumina
corundum
1.322
H
3554
Manganese
dioxide
3
H
3554
Ochre
8
P
3554
Manganese
sulfate
8
H
3554
Iron
chromite
0.2
H
3757
Manganese
dioxide
4
H
3855
Manganese
dioxide
20
H
3855
Iron
chromite
0.25
H
3956
Manganese
dioxide
H
3956
Mn
Al203
H
4161
Manganese
dioxide
0.2
H
4161
Iron
oxide
0.5
P
4161
Iron
chromite
3.89
H
4358
Manganese
sulfate
2
H
4358
Manganous
oxide
2
H
4358
Soda
lime
glass
13
N
4358
Red
iron
oxide
1
N
4459
Brick
white
(
brikwhite)
10
P
4459
Manganese
dioxide
2
H
4459
Zinc
iron
chromite
0.75
H
4560
Manganese
dioxide
2.85
H
4662
Manganese
dioxide
8
H
4662
Buff
stain
0.25
P
4662
Olivine
sand
24
N
4864
Lead
0.0027
H
4864
Cadmium
0.0023
H
4864
Arsenic
0.0000045
H
4864
Manganese
0.0000045
H
4865
Manganese
dioxide
5.63
H
4866
Arsenic
0.000219
H
4866
Cadmium
0.0000219
H
4866
Nickel
0.000876
H
4866
Lead
0.000219
H
4867
Manganese
sulfate
2.75
H
4968
Lead
0.0081
H
4968
Cadmium
0.0068
H
4968
Arsenic
0.000013
H
TABLE
7.
(
continued)

ProdIDX
Material
Low
High
Ave
HAP
Status
73
4968
Manganese
0.0000135
H
4969
Manganese
dioxide
16.9
H
4970
Arsenic
0.000656
H
4970
Cadmium
0.0000656
H
4970
Nickel
0.00263
H
4970
Lead
0.000656
H
4971
Manganese
sulfate
8.25
H
511
Iron
chromite
11.5
H
511
Limestone
174.9
P
511
Ochre
­
#
548
dark
15.47
P
511
Manganese
325
mesh
36.15
H
511
Ball
clay
149.85
P
511
Calcium
carbonate
73.95
N
5172
Manganese
mineral
ore
0.15
H
5172
Ochre
0.3
P
5273
Soda
ash
265
N
5273
Sodium
silicate
0.7
N
5273
Feldspar
44.6
P
5273
Fire
clay
29.4
P
5273
Goldart
clay
10.5
P
5273
Kaolin
162
P
5273
Pyrophillite
8.2
P
5273
Redart
clay
32.7
P
5273
Iron
oxide
17
N
5273
Lime
9.6
N
5273
Manganese
oxide
5
H
5273
Ochre
15.2
P
5273
Rutile
6.5
P
5273
Silica
sand
56.8
N
5273
Charlotteville
sand
3590.8
N
5374
Frit
0.9
N
5374
Soda
ash
140
N
5374
Brick
white
41.4
P
5374
Sodium
silicate
0.2
N
5374
Empire
clay
49.6
P
5374
Feldspar
31.5
P
5374
Goldart
clay
16.8
P
TABLE
7.
(
continued)

ProdIDX
Material
Low
High
Ave
HAP
Status
74
5374
Iron
chromite
1.5
H
5374
Copper
specs
0.05
N
5374
Garnet
10.2
N
5374
Redart
clay
308
P
5374
Marble
dust
0.8
N
5374
Iron
oxide
4.3
N
5374
Lime
27.1
N
5374
Manganese
dioxide
1.6
H
5374
Ochre
13.3
P
5374
Rutile
2.7
P
5374
Zinx
oxide
0.1
N
5374
Silica
sand
384
N
5475
Frit
A
23.2
N
5475
Soda
ash
531
N
5475
Sodium
silicate
1.2
N
5475
Empire
clay
194
P
5475
Feldspar
5.5
P
5475
Goldart
clay
43.1
P
5475
Iron
chromite
63.6
H
5475
Pyrophillite
24.7
P
5475
Redart
clay
89.2
P
5475
Marble
dust
88.6
N
5475
Iron
oxide
3.9
N
5475
Lime
366
N
5475
Manganese
oxide
5.6
H
5475
Ochre
12.7
N
5475
Ilmenite
0.8
P
5475
Zinc
oxide
1
N
5475
Silica
sand
972
N
5576
Manganese
dioxide
445
H
5576
Frit
3.6
N
5576
Sodium
silicate
0.3
N
5576
Bell
clay
180
P
5576
Empire
clay
1.2
P
5576
Goldart
clay/
redart
clay
251
P
5576
Marble
dust
5.2
N
5576
Iron
oxide
78.5
N
TABLE
7.
(
continued)

ProdIDX
Material
Low
High
Ave
HAP
Status
75
5576
Lime
135
N
5576
Ochre
10
N
5576
Rutile
2.5
P
5576
Sand
528
N
5678
Manganese
dioxide
8
H
5678
Fire
clay
72
P
5678
Fire
brick
mortar
2
N
5678
Sand
105
N
5678
Frit
A
18
N
5678
Iron
oxide
6
N
5777
Frit
A
0.2
N
5777
Soda
ash
228.4
N
5777
Brick
white
189.5
P
5777
Bell
clay
3.5
P
5777
Fire
clay
15.3
P
5777
Goldart
clay
3.6
P
5777
Kaolin
91.7
P
5777
Iron
chromite
0.9
H
5777
Garnet
1.1
N
5777
Redart
clay
76.6
P
5777
Iron
oxide
4.7
N
5777
Lime
148.4
N
5777
Manganese
oxide
77.8
H
5777
Ochre
3.6
N
5777
Rutile
6.1
P
5777
Silica
sand
733
N
5879
Frit
A
3.4
N
5879
Barium
carbonate
40.8
N
5879
Brick
white
43.1
P
5879
Sodium
silicate
0.4
N
5879
Bell
clay
65.5
P
5879
Empire
clay
135
P
5879
Feldspar
17.5
P
5879
Fire
clay
18
P
5879
Goldart
clay
23.2
P
5879
Cordova
clay
8898
P
5879
Iron
chromite
33.1
H
TABLE
7.
(
continued)

ProdIDX
Material
Low
High
Ave
HAP
Status
76
5879
Iron
oxide
6.6
N
5879
Lime
387
N
5879
Manganese
oxide
93.4
H
5879
Rutile
4.8
P
5879
Zinc
oxide
1.2
N
5879
Silica
sand
352
N
5879
Redart
clay
15.3
P
5980
Frit
A
19.9
N
5980
Brick
white
1.7
P
5980
Soda
ash
120
N
5980
Sodium
silicate
0.2
N
5980
Bell
clay
33.6
P
5980
Empire
clay
38.5
P
5980
Feldspar
19.9
P
5980
Fire
clay
45.5
P
5980
Goldart
clay
37.6
P
5980
Cordova
clay
4
P
5980
Kaolin
4.5
P
5980
Copper
specs
0.2
N
5980
Redart
clay
51.2
P
5980
Marble
dust
118
P
5980
Iron
oxide
10.6
N
5980
Manganese
oxide
99.8
H
5980
Ochre
35.9
N
5980
Rutile
1.8
P
5980
Llminite
11.4
P
5980
Zinc
oxide
3
N
5980
Silica
sand
824
N
6081
Frit
A
5.4
N
6081
Soda
ash
312
N
6081
Sodium
silicate
6.1
N
6081
Bell
clay
11.6
P
6081
Empire
clay
12.7
P
6081
Feldspar
107
P
6081
Fire
clay
41.7
P
6081
Goldart
clay
28.1
P
6081
Iron
chromite
41.1
H
TABLE
7.
(
continued)

ProdIDX
Material
Low
High
Ave
HAP
Status
77
6081
Pyrophillite
6
P
6081
Garnet
45.3
N
6081
Redart
clay
41.2
P
6081
Marble
dust
168
P
6081
Iron
oxide
838
N
6081
Manganese
dioxide
84.2
H
6081
Ochre
54.9
N
6081
Rutile
20.9
P
6081
Zinc
oxide
0.1
N
6081
Silica
sand
2154
N
612
Iron
chromite
0.55
H
612
Ochre
#
528
Dark
17.05
P
612
Limestone
235
P
612
Ball
clay
7
P
612
Manganese
325
mesh
138.5
H
612
Calcium
carbonate
60
P
6182
Frit
A
2
N
6182
Soda
ash
206
N
6182
Bell
clay
3.5
P
6182
Feldspar
15.7
P
6182
Fire
clay
23.6
P
6182
Goldart
clay
18.5
P
6182
Kaolin
66.6
P
6182
Garnet
2.1
N
6182
Redart
clay
17.8
P
6182
Marble
dust
60.1
N
6182
Iron
oxide
12.3
P
6182
Lime
81.9
N
6182
Manganese
oxide
239
H
6182
Ochre
4.2
N
6182
Rutile
2
P
6182
Llmenite
0.6
P
6182
Zinc
oxide
1.9
N
6182
Silica
sand
1583
N
6182
Umber
1.2
P
6283
Frit
A
0.5
N
6283
Soda
ash
124.4
N
TABLE
7.
(
continued)

ProdIDX
Material
Low
High
Ave
HAP
Status
78
6283
Empire
clay
0.3
P
6283
Feldspar
16
P
6283
Fire
clay
16.3
P
6283
Kaolin
10.7
P
6283
Iron
chromite
13.2
H
6283
Redart
clay
5.9
P
6283
Iron
oxide
10.1
P
6283
Lime
17.4
N
6283
Manganese
dioxide
0.2
H
6283
Ochre
1.5
P
6283
Rutile
1.2
P
6283
Silica
sand
743.4
N
6484
Zinc
body
stain
2.13
N
6484
Zinc
dust
0.06
N
6484
Manganese
ore
1.2
H
6585
Fire
clay
37
P
6585
(
Al,
Mn)
2
O3
1
H
6585
Chromite
6
H
6585
Cobalt,
aluminum
spinel
1
H
6586
Cobalt
oxide
0.086
H
6586
Chromium
oxide
1.014
H
6586
Nickel
oxide
0.074
H
67150
Chromium
H
67150
Manganese
dioxide
H
6887
Chromium
oxide
0.5
H
6888
Manganese
dioxide
0.5
H
6989
Chromium
oxide
0.5
H
6990
Manganese
dioxide
0.5
H
7091
Manganese
dioxide
H
713
Manganese
dioxide
3
H
713
Ochre
0.3
N
713
Chromium
oxide
0.1
H
713
Chromite
0.8
H
713
Lime
5AFM
11
N
713
1513
blue
stain
0.1
H
713
Cobalt
carbonate
0.1
H
713
Organic
pigment/
frit
0.2
P
TABLE
7.
(
continued)

ProdIDX
Material
Low
High
Ave
HAP
Status
79
7192
Manganese
dioxide
1
H
7192
Manganese
compounds
4
H
7192
Iron
chromite
2.875
H
7293
Manganese
dioxide
21
H
7293
Manganese
sulfate
monohydrate
1.5
H
7293
Ochre
11
P
7293
Umber
8
P
7293
USG
lime
73
N
7293
Manganese
El
Paso
4
H
7394
Manganese
325
mesh
11
H
7394
Limestone
55
P
7394
Ochre
#
548
43
P
7495
Ochre
9
P
7495
Manganese
dioxide
3
H
7495
Manganese
alumina
corundum
6
H
7596
Fire
clay
2.15
P
7596
Rutile
0.32
N
7596
Zinc
oxide
0.11
N
7597
Fire
clay
8.5
P
7597
Manganese
dioxide
1.275
H
7698
Manganese
dioxide
0.42
H
7799
Manganese
dioxide
H
78100
Iron
chromite
9.5
H
78100
Black
iron
oxide
20
N
78100
Manganese
dioxide
39.5
H
81101
Iron
chromite
1.75
H
81101
Limestone
34.73
P
81101
Manganese
sulphate
0.15
H
81101
Manganese
325
mesh
2.58
H
81101
Ochre
548
dark
25.03
N
81101
Zinc
oxide
4.55
N
814
Manganese
dioxide
0.45
H
814
Iron
oxide
0.85
N
82102
Manganese
dioxide
8.78
P
82102
Soda
ash
30.93
N
82102
Red
iron
oxide
0.25
N
84104
Manganese
dioxide
24
H
TABLE
7.
(
continued)

ProdIDX
Material
Low
High
Ave
HAP
Status
80
85105
Soda
ash
6.4
N
85105
Brick
white
147
P
85105
Sodium
silicate
0.1
N
85105
Iron
chromite
15.9
H
85105
Red
art
clay
8.1
P
85105
Marble
dust
43.2
P
85105
Iron
oxide
8.3
N
85105
Lime
14.4
N
85105
Manganese
oxide
67.7
H
85105
Rutile
0.3
P
85105
Ilmenite
0.05
P
85105
Zinc
oxide
0.3
N
85105
Silica
sand
403.3
N
87106
Vitgobe
25
P
87106
Kaolin
clay
0.76
P
87106
Alumina/
chromium
compound
0.017
H
87106
Fire
clay
50
P
87106
Manganese
dioxide
0.25
H
87106
Iron
chromite
1
H
88107
Sodium
hexameta
phosphate
0.01
N
88107
Sodium
calcium
borate
0.15
N
88107
Ball
clays
0.4
P
88107
Kaolin
clays
0.2
P
88107
Iron
chromite
0.017
H
88108
Sodium
hexameta
phosphate
0.05
N
88108
Sodium
calcium
borate
0.73
N
88108
Ball
clays
1.5
P
88108
Kaolin
clays
1.5
P
88108
Iron
oxides
2
N
88108
Iron
chromite
0.4
H
88109
Sodium
hexameta
posphate
0.1
N
88109
Sodoium
calcium
baorate
1.45
N
88109
Ball
clays
1.5
P
88109
Kaolin
clays
1.5
P
88109
Manganese
oxide
0.055
H
88110
Brickote
mix
1.5
P
88110
Cobalt
oxide
0.038
H
TABLE
7.
(
continued)

ProdIDX
Material
Low
High
Ave
HAP
Status
81
88111
Sodium
calcium
borate
3.65
N
88111
Sodium
hexametaphosphate
0.25
N
88111
Manganese
dioxide
1.2
H
90112
Sand
26.25
N
90112
Red
art
clay
6
P
90112
Titanium
oxide
1.65
N
90112
Limestone
55
P
90112
Vitgobe
63
P
90112
Brick
white
10
P
90112
Synthetic
iron
oxide
0.65
N
90112
Kelsan
0.13
P
90112
Feldspar
26
P
90112
Goldart
clay
0.68
P
82
TABLE
8.
RAW
MATERIAL
PROCESSING
FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
1
CTA­
1
1CTA­
1
Color/
texture
application
Color/
texture
application
Sand,
manganese
oxide,
iron
chromite
BH­
2
No
1BH­
2
2
FW­
1
2FW­
1
extruder
extruding
shale,
manganese
3.4
FE­
7
No
2FE­
7
2
MW­
1
2MW­
1
mixer
mixing
shale,
manganese
3.4
FE­
6
No
2FE­
6
2
CTA­
1
2CTA­
1
color
applicator
color/
texture
manganese
FE­
8
No
2FE­
8
5
FW­
1
5FW­
1
extruder
extruding
clay,
shale,
manganese
FE­
4
No
5FE­
4
5
G­
1
5G­
1
grinder
grinding
clay,
shale
31
BHI­
1
No
5BHI­
1
5
S­
1
5S­
1
screens
screening
clay,
shale
31
BHI­
1
No
5BHI­
1
5
MW­
1
5MW­
1
mixer
mixing
clay,
shale,
manganese
FE­
3
No
5FE­
3
5
CR­
1
5CR­
1
crusher
crushing
clay,
shale
31
FE­
1
No
5FE­
1
6
CTA­
1
6CTA­
1
application
coloring/
texturing
coloring/
texturing
clay,
shale,
manganese
compounds,

chromium
compound
FE­
8
No
6FE­
8
7
MW­
1
7MW­
1
pugmill
mixing
manganese,
chromium,
cobalt,
chromite
FE­
5
No
7FE­
5
7
MD­
1
7MD­
1
surge
bin
dry
mix
clay
manganese
FE­
4
No
7FE­
4
7
FW­
1
7FW­
1
extruding
forming
manganese,
chromium,
cobalt,
chromite
FE­
6
No
7FE­
6
7
CR­
1
7CR­
1
roll
crusher
crushing
manganese
FE­
3
No
7FE­
3
7
CTA­
1
7CTA­
1
texturing
texturing
and
sand
coating
sand,
manganese
0.5
BHI­
1
No
7BHI­
1
8
MISC­
2
8MISC­
2
tray
loader/
unloader
and
brick
setter
load
and
unload
brick
trays
and
set
sand
mold
bric
clay,
shale,
sand
4
BH­
4
No
8BH­
4
8
MH­
1
8MH­
1
additive
feeders
feeding
manganese
0.03
BH­
1
No
8BH­
1
8
ST­
1
8ST­
1
storage
tank
storing
clay,
shale
16
BH­
1
No
8BH­
1
8
MISC­
1
8MISC­
1
cutting,
setting
brick
cut
and
set
clay,
shale,
manganese
compounds
BH­
4
No
8BH­
4
8
CTA­
1
8CTA­
1
coating
and
texturing
coating,
texturing,

coloring
brick
clay,
shale,
manganese
compounds
FE­
4
No
8FE­
4
8
FW­
1
TO
FW­
3
8FW­
1
TO
FW­
3
extruder,
sand,
mold
machine,

brick
hand
molds
extruding,
sand
mold
and
hand
mold
forming
clay,
shale,
sand
16
BH­
1,
BH­

4,
BH­
6
No
8BH­
1,
BH­
4,
BH­
6
8
G­
1
TO
G­
2
8G­
1
TO
G­

2
grinders
grinding
clay,
shale
16
BH­
1
TO
BH­
2
No
8BH­
1
TO
BH­
2
8
S­
1
TO
S­
6
8S­
1
TO
S­

6
screens
screening
clay,
shale
16
BH­
2
No
8BH­
2
8
MW­
1
TO
MW­
3
8MW­
1
TO
MW­
3
pug
mills
mixing
clay,
shale
16
BH­
1,
BH­

3,
BH­
4
No
8BH­
1,
BH­
3,
BH­
4
10
FW­
1
10FW­
1
wet
forming
extruding
clay,
shale
FE­
6
No
10FE­
6
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
83
10
CR­
1
10CR­
1
crusher
crushing
clay,
shale
FE­
1
No
10FE­
1
10
S­
1
10S­
1
screen
screening
clay,
shale
FE­
3
No
10FE­
3
10
MISC­
1
10MISC­
1
cutter
cutting
clay,
shale,
manganese
compounds
FE­
8
No
10FE­
8
10
CTA­
1
10CTA­
1
color/
texture
coloring/
texturing
brick
clay,
shale,
ochre,
calcium
carbonate,

manganese
compounds,
and
iron
chromite
FE­
7
No
10FE­
7
10
G­
1
10G­
1
grinder
grinding
clay,
shale
FE­
2
No
10FE­
2
10
RU­
1
10RU­
1
wet
mixer
mixing
clay,
shale
FE­
5
No
10FE­
5
11
CTA­
1
11CTA­
1
colorer/
texturer
coloring/
texturing
clay,
shale
manganese
FE­
9
No
11FE­
9
11
FW­
1
11FW­
1
extruder
extruding
clay,
shale
FE­
8
No
11FE­
8
11
G­
1
11G­
1
grinder
grinding
clay,
shale
FE­
4
No
11FE­
4
11
MD­
1
11MD­
1
sand
mixer
mixing
sand,
colorants
1
US­
4
No
11US­
4
11
MW­
1
11MW­
1
mixer
mixing
clay,
shale
FE­
7
No
11FE­
7
11
S­
1
11S­
1
screen
screening
clay,
shale
FE­
5
No
11FE­
5
11
CR­
1
11CR­
1
crusher
crushing
clay,
shale
FE­
2
No
11FE­
2
12
MH­
2
12MH­
2
feeder
additives
feeding
clay,
sawdust,
manganese
dioxide
FE­
8
No
12FE­
8
12
MH­
3
12MH­
3
hoppers
sand
loading
clay,
manganese
dioxide,
sawdust,
iron
chromite,
pink
body
stain
brik
white
FE­
21
No
12FE­
21
12
MISC­
3
12MISC­
3
roller
smooth
rolling
clay,
sawdust,
manganese
dioxide
FE­
6
No
12FE­
6
12
MISC­
1
12S­
1
grog
screen
screening
grog
FE­
18
No
12FE­
18
12
MW­
2
12MW­
2
mixer
wet
mixing
clay,
sawdust,
manganese
dioxide
FE­
10
No
12FE­
10
12
MW­
1
12MW­
1
mixer
wet
mixing
clay,
sawdust,
manganese
dioxide
FE­
9
No
12FE­
9
12
MISC­
5
12MISC­
5
cutter
cutting/
setting
clay,
sawdust,
manganese
dioxide
FE­
13
No
12FE­
13
12
CR­
1
12CR­
1
crusher
crushing
clay,
sawdust,
manganese
dioxide
FE­
2
No
12FE­
2
12
MH­
1
12MH­
1
feeder
raw
material
feeding
clay,
sawdust,
manganese
dioxide
FE­
4
No
12FE­
4
12
G­
2
12G­
2
disintegrator
disintegrating
clay,
sawdust,
manganese
dioxide
FE­
7
No
12FE­
7
12
G­
1
12G­
1
disintegrator
disintegrating
clay,
sawdust,
manganese
dioxide
FE­
5
No
12FE­

12
FW­
1
12FW­
1
extruder
extruding
clay,
sawdust,
manganese
dioxide
FE­
11
No
12FE­
11
12
CR­
2
12CR­
2
grog
crusher
crushing
grog
grog
FE­
17
No
12FE­
17
13
MD­
1
13MD­
1
mixer
sand
mixing
clay,
manganese
dioxide
FE­
46
No
13FE­
46
13
MW­
1
13MW­
1
pug
mill
mixing
clay,
manganese
dioxide
FE­
42
No
13FE­
42
13
CR­
5
13CR­
5
hammer
mill
grog
crushing
Batts
FE­
49
No
13FE­
49
13
FW­
1
13FW­
1
extruder
extruding
clay,
manganese
dioxide
FE­
43
No
13FE­
43
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
84
13
MISC­
2
13MISC­
2
cutter/
setter
cutting/
setting
clay,
manganese
dioxide
FE­
45
No
13FE­
45
14
CTA­
1
14CTA­
1
color/
texture
application
coloring
manganese
dioxide,
iron
chromite
FE­
6
No
14FE­
6
14
MW­
1
14MW­
1
mixer
mixing
shale,
clay,
manganese
dioxide,
iron
chromite
FE­
4
No
14FE­
4
15
MW­
1
15MW­
1
mixer
mixing
clay,
shale,
manganese
dioxide
FE­
5
No
15FE­
5
15
CTA­
1
15CTA­
1
color
applicator
coloring
manganese
dioxide
FE­
7
No
15FE­
7
16
MW­
1
16MW­
1
mixer
mixing
schist,
shale,
manganese
compounds
FE­
2
No
16FE­
2
17
MW­
1
17MW­
1
mixer
mixing
schist,
shale,
manganese
compounds
FE­
2
No
17FE­
2
19
CTA­
1
19CTA­
1
color
applicator
color
application
sand,
manganese,
chromium
compounds
BH­
1
TO
BH­
3
No
19BH­
1
TO
BH­
3
20
S­
1
TO
S­
3
20S­
1
TO
S­
3
screens
screening
common
clay
BH­
1
TO
BH­
3
No
20BH­
1
TO
BH­
3
20
RU­
1
TO
RU­
3
20RU­
1
TO
RU­
3
storage
bins
raw
clay
storage
common
clay
FE­
4
TO
FE­
6
No
20FE­
4
TO
FE­
6
20
MH­
1
TO
MH­
3
20MH­
1
TO
MH­
3
storage
bin
ground
clay,
storage
common
clay
BH­
1
TO
BH­
3
No
20BH­
1
TO
BH­
3
20
MISC­
1,

MISC­
2,

MISC­
3
20MISC­
1,

MISC­
2,

MISC­
3
brick
cutters
cutting
common
clay
FE­
1,
FE­
2
No
20FE­
1,
FE­
2
20
G­
1,
G­
2,

G­
3
20G­
1,
G­
2,

G­
3
hammermills
grinding
common
clay
BH­
1
TO
BH­
3
No
20BH­
1
TO
BH­
3
20
MW­
1
TO
MW­
3
20MW­
1
TO
MW­
3
brick
machines
mixing
common
clay,
additive
A,
water,
extrusion,

lubricants,
manganese
oxide
BH­
4
No
20BH­
4
21
MW­
1
21MW­
1
mixer
mixing
clay,
Mn
3
FE­
5
No
21FE­
5
21
MD­
1
21MD­
1
mixer
mixing
clay,
Mn
4
FE­
3
No
21FE­
3
21
S­
1
21S­
1
Universal
screen
screen
clay
to
5
mesh
clay
4
FE­
1
No
21FE­
1
21
G­
1
21G­
1
Mueller
roll
crusher
grind
clay
clay
4
FE­
1
No
21FE­
1
21
G­
2
21G­
2
Stedman
crusher
grind
clay
clay
3
FE­
1
No
21FE­
1
21
S­
2
21S­
2
Universal
screen
screen
clay
clay
3
FE­
1
No
21FE­
1
21
FW­
1
21FW­
1
Steele
30
pug
Forn
clay
Clay,
Mn
3
FE­
6
No
21FE­
6
21
FD­
1
21FD­
1
Berg
press
compress
and
form
clay
clay,
Mn
4
FE­
4
No
21FE­
4
22
FW­
1
22FW­
1
extruder
forming
clay,
manganese
compounds
8.3
FE­
5
No
22FW­
1
22
S­
1
22S­
1
screen
sizing
clay
8.3
BH­
1
No
22BH­
1
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
85
22
MH­
2
TO
MH­
4
22HM­
2
­

MH­
4
silos
storage
clay
8.3
BH­
1
No
22BH­
1
22
G­
1
22G­
1
mill
grinding
clay
8.3
BH­
1
No
22BH­
1
22
MW­
1
22MW­
1
pug
mill
mixing
clay,
manganese
compounds
8.3
BH­
1
No
22BH­
1
23
G­
3
23G­
3
hammer
mill
plant
#
1
grinding
clay
and
grog
15
FE­
5
No
23FE­
5
23
S­
2
23S­
2
plant
#
1
screen
screen
clay
and
grog
15
FE­
8
No
23FE­
8
23
G­
1
23G­
1
hammer
mill
plant
#
2­
3
grinding
clay
and
grog
40
FE­
2
No
23FE­
2
23
GZ­
1
23GZ­
1
spray
guns
double
disks
glazing
engobes
and
glazes
0.03
BH­
3
No
23BH­
3
23
S­
1
23S­
1
screen
plant
#
2­
3
screening
clay
and
grog
40
FE­
2
No
23FE­
2
23
G­
2
23G­
2
grog
grinder
grinding
grog
150
FE­
8
No
23FE­
8
23
CTA­
1
23CTA­
1
air
guns
and
syntrons
sand
coating
tile
sands
and
colorants
0.11
BH­
1
No
23BH­
1
23
CTA­
2
23CTA­
2
coating
machine
sand
coatings
brick
sand
and
colorants
0.15
BH­
2
No
23BH­
2
23
CR­
1
23CR­
1
grog
crusher
crush
brick
and
tile
for
gorg
brick
and
tile
150
FE­
7
No
23FE­
7
24
G­
2
24G­
2
disc
mill
grinding
clay,
shale
1
BH­
1
No
24BH­
1
24
G­
3
24G­
3
hammermill
grinding
rejects
0.6
BH­
1
No
24BH­
1
24
FW­
2
24FW­
2
extruder
forming
clay,
shale,
manganese
compounds,
cobalt
compounds,
chromium
compounds
1
FE­
10
No
24FE­
10
24
MW­
2
24MW­
2
mixer
mixing
clay,
shale,
manganese
compounds,
cobalt
compounds,
chromium
compounds
1
FE­
9
No
24FE­
9
24
FW­
1
24FW­
1
extruder
forming
clay,
shale,
manganese
compounds,
cobalt
compounds,
chromium
compounds
0.92
FE­
7
No
24FE­
7
24
MW­
1
24MW­
1
pug
mill
mixing
clay,
shale,
manganese
compounds,
cobalt
compounds,
chromium
compounds
0.92
FE­
6
No
24FE­
6
25
MH­
3
25MH­
3
storage
manganese
dioxide
FE­
6
No
25FE­
6
25
FW­
1
25FW­
1
brick
machine
forming
clay,
shale,
manganese
dioxide
26.8
FE­
10
No
25FE­
10
25
MW­
1
25MW­
1
pug
mill
mixing
clay,
shale,
manganese
dioxide
26.8
FE­
9
No
25FE­
9
25
MD­
1
25MD­
1
sand
mixer
sand,
manganese
compounds,
chromium
compounds,
cobalt
compounds,
Sb
0.1
FE­
8
No
25FE­
8
25
CTA­
1
25CTA­
1
color/
texture
ap.
sand,
manganese,
antimony,
cobalt
compounds,
chromium
compounds
26.8
FE­
11
No
25FE­
11
25
MW­
2
25MW­
2
mixer
mud,
slurry,
mixing
manganese
compounds,
antimony
0.06
FE­
12
No
25FE­
12
26
CTA­
2
26CTA­
2
color/
texture
sand,
manganese
compounds
FE­
7
No
26FE­
7
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
86
26
CTA­
1
26CTA­
1
color/
texture
sand,
manganese
compounds
BH­
1
No
26BH­
1
26
MD­
1
26MD­
1
mixer
sand
mixing
MnO2,
sand
BHI­
1
No
26BHI­
1
26
GS­
1
26GS­
1
screen.
Mill
grinding/
screen
clay,
shale
FE­
2
No
26FE­
2
26
FW­
1
26FW­
1
extruder
forming
shale,
clay
manganese
compounds
FE­
6
No
26FE­
6
26
MW­
1
26MW­
1
pugmill
mixing
shale,
clay
manganese
compounds
FE­
5
No
26FE­
5
27
CTA­
2
27CTA­
2
spray
color
application
manganese
dioxide
0.25
FE­
6
No
27FE­
6
27
MW­
1
27MW­
1
pugmill
mixing
clay,
shale,
manganese
compounds
9.4
FE­
4
No
27FE­
4
27
FW­
1
27FW­
1
brick
machine
forming
clay,
shale,
manganese
compounds
9.4
FE­
5
No
27FE­
5
27
CTA­
1
27CTA­
1
sand
application
color
application
sand,
manganese
dioxide
0.5
BH­
1
No
27BH­
1
28
CTA­
2
28CTA­
2
sand
blaster
color
application
manganese
dioxide,
sand
BH­
1
No
28BH­
1
28
FW­
1
28FW­
1
brick
machine
forming
clay,
shale,
manganese
compounds
8.5
FE­
6
No
28FE­
6
28
MW­
1
28MW­
1
pugmill
mixing
clay,
shale,
manganese
compounds
8.5
FE­
4
No
28FE­
4
28
CTA­
1
28CTA­
1
sprays
color
application
manganese
dioxide
FE­
7
No
28FE­
7
30
CTA­
1
30CTA­
1
coloring
coloring
sand,
manganese,
chromium
BH­
1
No
30BH­
1
33
FW­
1
33FW­
1
extrusion
machine
molding
shale,
clay,
manganese
31.29
FE­
3
No
33FE­
3
34
CTA­
1
34CTA­
1
color
applicator
coloring/
texturing
clay,
manganese
compounds,
chromium
compounds
FE­
6
No
34FE­
6
35
CTA­
1
35CTA­
1
color/
texture
application
coating
sands,
clays,
colorants
0.25
FE­
4
No
35FE­
4
35
MD­
1
35MD­
1
sand
mixer
coatings
sands,
clays,
colorants
0.25
FE­
5
No
35FE­
5
37
CTA­
1
37CTA­
1
color
application
coloring
manganese
dioxide
FE­
6
No
37FE­
6
38
CTA­
1
38CTA­
1
color
applicator
color
application
clay,
scoria,
manganese
compounds,

chromium
compounds
FE­
5
No
38FE­
5
39
MW­
1
39MW­
1
mixing
mixing
clay,
manganese
compounds,
iron
oxide
15
FE­
2
No
39FE­
2
39
CTA­
1
39CTA­
1
coloring
and
texturing
color/
texture
clay,
manganese
compounds,
iron
oxide
FE­
4
No
39FE­
4
39
FW­
1
39FW­
1
extruder
forming
clay,
manganese
compounds
15
FE­
3
No
39FE­
3
40
MW­
1
40MW­
1
mixer
mixing
manganese
dioxide,
clay,
sawdust,
umber
FE­
4
No
40FE­
4
41
MW­
1
41MW­
1
pug
mill
mixing
fireclay,
shale,
ochre,
manganese
dioxide,

iron
chromite
60
BH­
1
No
41BH­
1
41
MH­
7
41MH­
7
volumetric
feeder
feed
additive
manganese
dioxide,
iron
chromite
2
BH­
1
No
41BH­
1
41
MH­
2
TO
MH­
5
41MH­
2
TO
MH­
5
storage
bins
storage
fireclay,
shale
50
FE­
1
No
41FE­
1
41
S­
1
TO
S­
7
41S­
1
TO
S­
7
screens
screening
fireclay,
shale
50
FE­
1
No
41FE­
1
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
87
41
MD­
2
TO
MD­
6
41MD­
2
TO
MD­
6
mixers
coating
batching
manganese
dioxide,
iron
chromate
0.2
BH­
1
No
41BH­
1
41
MD­
1
41MD­
1
blending
screw
premixing
fireclay,
shale
60
FE­
1
No
41FE­
1
41
G­
1,
G­
2
41G­
1,
G­
2
muller
and
pan
grinders
grinding
fireclay,
shale
50
FE­
1
No
41FE­
1
41
CR­
1
41CR­
1
roller
crusher
crushing
fireclay,
shale
50
FE­
1
No
41FE­
1
42
S­
1
TO
S­
6
42S­
1
TO
S­
6
screens
screening
shale
100
FE­
2
No
42FE­
2
42
MW­
1
42MW­
1
brick
machine
mixing
manganese
dioxide
shale
70
FE­
4
No
42FE­
4
42
CR­
1
42CR­
1
crusher
crushing
shale
50
FE­
1
No
42FE­
1
42
FW­
1
42FW­
1
brick
machine
extruding
shale
manganese
dioxide
70
FE­
4
No
42FE­
4
42
G­
2
42G­
2
hammer
Mill
grinding
shale
25
FE­
2
No
42FE­
2
42
MH­
1
TO
MH­
2
42MH­
1
TO
MH­
2
storage
bins
storage
of
ground
shale
shale
50
FE­
3
No
42FE­
3
42
G­
1
42G­
1
grinder
grinding
shale
25
FE­
2
No
42FE­
2
43
CTA­
1
43CTA­
1
color/
texture
applicator
coloring
texturing
manganese
sulfate
monohydrate,

manganous
oxide
BH­
1
No
44
CTA­
1
44CTA­
1
color/
texture
application
coloring/
texturing
clay,
shale,
manganese
oxide,
brickwhite,

zinc
iron
chromite
FE­
4
No
44FE­
4
44
G­
1
44G­
1
dry
pan
grinding
clay
shale
15
US­
3
No
44US­
3
44
MW­
1
44MW­
1
pugmill
moulding
clay,
shale,
manganese
oxide
16
FE­
2
No
44FE­
2
44
S­
1
44S­
1
open
wall
screening
clay,
shale
15
US­
3
No
44US­
3
45
CTA­
1
45CTA­
1
engobe,
clay,
sand
spray
markings
coating
station
clay,
shale,
manganese
oxide
24
BHI­
1
No
45BHI­
1
45
MW­
1
45MW­
1
mixer
mixing
clay,
shale,
manganese
O2
24
FE­
3
No
45FE­
3
45
FW­
1
45FW­
1
pugmill
extrusion
clay,
shale,
manganese
oxide
24
FE­
4
No
45FE­
4
46
MW­
2
46MW­
2
mixer
mix
brick
clay
shale,
manganese
FE­
10
No
46FE­
10
46
MD­
1
46MD­
1
mixer
mix
coatings
sand,
manganese,
buff
superstain
0.5
FE­
17
No
46FE­
17
46
MW­
1
46MW­
1
mixer
mix
brick
clay,
shale,
manganese
FE­
9
No
46FE­
9
46
CTA­
1
46CTA­
1
color/
texture
application
apply
coloring/
coating
clay,
shale,
manganese,
buff
superstain
FE­
12
No
46
47
MW­
1
47MW­
1
mixer
mixing
clay,
shale,
manganese
compounds,

chromium
compounds
FE­
3
No
47FE­
3
47
FW­
1
47FW­
1
extruder
extruding
clay,
shale,
manganese
compounds,

chromium
compounds
FE­
4
No
47FE­
4
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
88
48
CR­
1
48CR­
1
primary
jaw
crusher
initial
size
reduction
of
raw
clay
triassic
shale
100
FE­
1
No
48FE­
1
48
CTA­
1
48CTA­
1
color/
techure
application
coloring/
testuring
shale,
manganese
compounds
FE­
5
No
48FE­
5
48
GS­
1
48GS­
1
crushing
and
grinding
final
sizing
of
raw
clay
triassic
shale
100
FE­
2
No
48FE­
2
49
CR­
1
49CR­
1
primary
jaw
crusher
initial
size
reduction
of
raw
clay
triassic
shale
180
FE­
1
No
49FE­
1
49
MW­
1
49MW­
1
mixer
mixing
shale
29
FE­
3
No
49FE­
3
49
CTA­
1
49CTA­
1
color
applicator
color
application
manganese
compounds,
As,
Cd,
Ni,.
Pb
compounds
29
FE­
4
No
49FE­
4
49
GS­
1
49GS­
1
crushing
and
grinding
final
sizing
of
raw
clay
triassic
shale
150
FE­
2
No
49FE­
2
49
FW­
1
49FW­
1
extruder
forming
shale
29
FE­
3
No
49FE­
3
50
FW­
1
50FW­
1
extruder
extruding
clay,
shale,
manganese
oxide,
chromite
FE­
3
No
50FE­
3
50
MW­
1
50MW­
1
pugmill
mixing
clay,
shale,
manganese
oxide,
chromite
FE­
2
No
50FE­
2
51
MISC­
5
51MISC­
5
hand
set
conveyor
belt
transfer
belt
for
dry
bricks
clay,
shale,
kaolin,
sand,
colorants,

manganese,
ochre
32
BH­
1
No
51BH­
1
51
CTA­
2
51CTA­
2
colorer
and
texturer
coloring,
texturing
ochre,
kaolin,
clay,
shale,
and
manganese
FE­
16
No
51FE­
16
51
MISC­
10,

MISC­
4
51MISC­
10,

MISC­
4
brick
rotation
conveyor
rotate
dry
bricks
90
degrees
clay,
shale,
kaolin,
sand
,
colorants,

manganese,
ochre
32
BHI­
1
No
51BHI­
1
51
CTA­
1
51CTA­
1
possey
machine
sand
coating
clay,
shale,
kaolin,
manganese
ochre
32
BH­
1
No
51BH­
1
51
MISC­
9,

MISC­
3
51MISC­
9,

MISC­
3
pallet
unloader
unload
dry
bricks
clay,
shale,
kaolin,
sand
,
colorants,

manganese,
ochre
32
BH­
1
No
51BH­
1
52
CC­
1
52CC­
1
coal
crusher
crushing
coal
0.65
FE­
12
No
52FE­
12
52
MH­
3
52MH­
3
storage
crushing
coal
FE­
13
No
52FE­
13
52
CTA­
1
TO
CTA­
2
52CTA­
1
TO
CTA­
2
sand
application
coloring
sand,
manganese
oxide
FE­
8
TO
FE­
9
No
52FE­
8
TO
FE­
9
53
CR­
2
53CR­
2
crusher
crushing
schist,
shale,
ash,
manganese,
chromium
FE­
11
No
53FE­
11
53
CTA­
1
53CTA­
1
color/
texturizer
color
application
manganese,
chromium,
sand,
clay
22.3
FE­
9
No
53FE­
9
54
CC­
1
54CC­
1
coal
crusher
crushing
coal
1.7
FE­
11
No
54FE­
11
54
CTA­
1
54CTA­
1
color
applier
color
application
sand,
chrome,
manganese,
water
FE­
4
No
54FE­
4
54
CTA­
2
54CTA­
2
color
applier
color
application
sand,
chrome,
manganese,
water
FE­
9
No
54FE­
9
54
MH­
3
54MH­
3
storage
coal
storage
coal
FE­
12
No
54FE­
12
55
CTA­
1
55CTA­
1
sand
application
sand,
manganese
BH­
2
No
55BH­
2
55
MD­
1
55MD­
1
mixer
sand
mixing
sand,
manganese
BH­
1
No
55BH­
1
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
89
56
FW­
1
56FW­
1
extruder
forming
clay,
shale,
manganese
FE­
6
No
56FE­
6
56
MW­
1
56MW­
1
pug
mill
mixing
clay,
shale
manganese
FE­
5
No
56FE­
5
57
CC­
1
57CC­
1
coal
crusher
crushing
coal
BH­
3
No
57BH­
3
57
CTA­
1
57CTA­
1
color
application
coloring
sand,
manganese
compounds,
chromium
compounds
BH­
2
No
57BH­
2
57
CTA­
2
57CTA­
2
color
application
coloring
sand,
manganese
compounds,
chromium
compounds
BH­
2
No
57BH­
2
57
MH­
3
57MH­
3
storage
coal
storage
coal
FE­
3
No
57FE­
3
58
CC­
1
58CC­
1
coal
crusher
crushing
coal
0.7
BH­
2
No
58BH­
2
58
CTA­
1,

CTA­
2
58CTA­
1,

CTA­
2
color
applier
coloring
sand,
clay,
manganese,
chromium
FE­
9,
FE­

10
No
58FE­
9,
FE­
10
58
MH­
3
58MH­
3
bin
storage
coal
BH­
2
No
58BH­
2
59
CTA­
1
TO
CTA­
2
59CTA­
1
TO
CTA­
2
colorer
coloring
sand,
manganese
FE­
1
TO
FE­
2
No
59FE­
1
TO
FE­
2
60
CTA­
2
60CTA­
2
color
application
coloring
sand,
manganese,
chromium,
engobe
BH­
2
No
60BH­
2
60
CTA­
1
60CTA­
1
color
application
coloring
sand,
manganese,
engobe
FE­
5
No
60FE­
5
60
MD­
1
60MD­
1
sand
mixer
mixing
sands
sand,
manganese,
chromium,
engobe
BH­
2
No
60BH­
2
61
CTA­
1
61CTA­
1
color
applier
coloring
sand,
manganese
BH­
1
No
61BH­
1
61
CTA­
2
61CTA­
2
color
applier
coloring
sand,
manganese
BH­
1
No
61BH­
1
62
CTA­
1
TO
CTA­
2
62CTA­
1
TO
CTA­
2
color
applier
coloring
sand,
manganese,
chromium
BH­
1
TO
BH­
2
No
62BH­
1
TO
BH­
2
63
MH­
1
63MH­
1
raw
material
storage
storage
clay,
manganese
compounds,
chromium
compounds
17.5
FE­
1
No
63FE­
1
63
FW­
1
63FW­
1
extruder
forming
clay,
manganese
compounds,
chromium
compounds
17.5
FE­
5
No
63FE­
5
63
MW­
2
63MW­
2
pugmill
mixing
clay,
manganese
compounds,
chromium
compounds
17.5
FE­
7
No
63BH­
2
63
MH­
3
63MH­
3
additive
hoppers
introduce
additives
to
clay
clay,
manganese
compounds,
chromium
compounds
17.5
FE­
4
No
63FE­
4
63
MW­
1
63MW­
1
pugmill
mixing
clay,
manganese
compounds,
chromium
compounds
17.5
BH­
1
No
63BH­
1
64
CTA­
1
64CTA­
1
color
application
coloring
manganese
compounds,
sand
FE­
6
No
64FE­
6
65
MW­
2
65MW­
2
mixer
mixing
clay,
shale,
manganese
12
FE­
6
No
65FE­
6
65
MH­
2
65MH­
2
storage
clay,
shale
FE­
4
No
65FE­
4
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
90
65
G­
1
65G­
1
hammer
mill
grinding
clay,
shale
24
FE­
1
No
65FE­
1
65
MW­
1
65MW­
1
mixer
mixing
clay,
shale,
manganese
12
FE­
5
No
65FE­
5
65
MH­
1
65MH­
1
storage
clay,
shale
FE­
2
No
65FE­
2
65
G­
2
65G­
2
dry
pan
grinder
grinding
clay,
shale
24
FE­
3
No
65FE­
3
65
FW­
2
65FW­
2
extruder
forming
clay,
shale,
manganese
12
FE­
8
No
65FE­
8
65
FW­
1
65FW­
1
extruder
forming
clay,
shale,
manganese
12
FE­
7
No
65FE­
7
65
CTA­
1
65CTA­
1
coloring
clay,
manganese,
chromium,
cobalt,
nickel
FE­
9
No
65FE­
9
66
FW­
1
66FW­
1
extruder
forming
clay,
shale,
manganese,
chromium
FE­
2
No
66FE­
2
66
CTA­
1
66CTA­
1
sand
blasting
coloring
sand,
clay,
iron
oxide
0.0035
BH­
1
No
66BH­
1
66
MW­
1
66MW­
1
pug
mill
mixing
clay,
shale,
chromium,
manganese
FE­
1
No
66FE­
1
67
CTA­
1
67CTA­
1
coloring
sand,
manganese,
chromium
BH­
1
No
67BH­
1
68
CTA­
1
68CTA­
1
sand
blaster
coloring
sand,
manganese,
chromium
BH­
1
No
68BH­
1
68
G­
1
68G­
1
ball
mill
grinding
clay
22
FE­
3
No
68FE­
3
68
MW­
1,
FW­

1
68MW­
1,

FW­
1
brick
machine
extruded
brick
clay
26.4
BH­
1
No
68BH­
1
68
CR­
1
68CR­
1
jaw
crusher
crushing
clay
22
FE­
1
No
68FE­
1
69
CTA­
1,

CTA­
2
69CTA­
1,

CTA­
2
sand
blasting
coloring
sand,
manganese,
chromium
BH­
1,
FE­

7
No
69BH­
1,
FE­
7
69
CR­
1
69CR­
1
jaw
crusher
crushing
clay
27
FE­
1
No
69FE­
1
69
G­
1
69G­
1
ball
mill
grinding
clay
27
FE­
3
No
69FE­
3
69
MW­
1,
FW­

1
69MW­
1,

FW­
1
molding
machine
brick
molding
wet
brick
16.2
BH­
1
No
69BH­
1
69
MW­
2,
FW­

2
69MW­
2,

FW­
2
molding
maching
brick
molding
wet
brick
16.2
FE­
5,6
No
69FE­
5,6
70
CTA­
1
70CTA­
1
color
application
manganese
15.4
FE­
7
No
70FE­
7
71
FW­
1
71FW­
1
extruder
extrusion
clay,
shale,
water,
manganese
dioxide
24.3
FE­
2
No
71FE­
2
71
G­
1
71G­
1
pan
grinder
grinding
clay,
shale
19.55
US­
4
No
71US­
4
71
MW­
1
71MW­
1
mixer
mixing
water,
clay,
shale
clay,
shale,
water,
manganese
dioxide
24.3
FE­
1
No
71FE­
1
71
CTA­
1
71CTA­
1
color/
texture
coloring
and
texturing
clay,
shale,
manganese
dioxide,
iron
chromite
24.3
FE­
3
No
71FE­
3
71
S­
1,
S­
2
71S­
1
screens
sizing
of
particles
clay,
shale
19.546
US­
4
No
71US­
4
72
MW­
2
72MW­
2
mill
room:
mixing
mixing
clay,
shale,
Mn
compounds
BH­
3
No
72BH­
3
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
91
72
CTA­
2
72CTA­
2
mill
room:
color/
texture
application
coloring/
texturing
clay,
shale,
manganese
dioxide,
ochre,

umber,
manganese
sulfate
manohydrate
1.28
BH­
3
No
72BH­
3
72
FW­
1
72FW­
1
mill
room:
extruding
forming
clay,
shale,
Mn
BH­
2
No
72BH­
2
72
FW­
2
72FW­
2
mill
room:
extruding
forming
clay,
shale,
Mn
BH­
3
No
72BH­
3
72
MD­
1
72MD­
1
sand
building
mixing
sand,
manganese
1.34
BH­
1
No
72BH­
1
72
MISC­
5
72MISC­
5
vacuum
kiln
car,
cleaning
system
shale,
clay,
manganese,
sand
0.013
BH­
4
No
72BH­
4
72
MW­
1
72MW­
1
mill
room:
mixing
mixing
clay,
shale,
Mn
compounds
BH­
2
No
72BH­
2
72
CTA­
1
72CTA­
1
mill
room:
color/
texture
application
coloring/
texturing
clay,
shale,
manganese
dioxide,
ochre,

umber,
manganese
sulfate
manohydrate
0.068
BH­
2
No
72BH­
2
73
FW­
1
73FW­
1
extruding
form
brick
clay,
shale,
manganese
compounds,

calcium
lignosulfonate
FE­
7
No
73FE­
7
73
MD­
1
73MD­
1
mixer
sand
and
slurry
mixing
Manganese
compound,
limestone,
sand
coatings,
and
ochre
CY­
1
No
73CY­
1
73
MW­
1
73MW­
1
pug
mill
mix
raw
materials
clay,
shale,
manganese
compounds,

calcium
lignosulfonate
FE­
6
No
73FE­
6
73
CTA­
1
73CTA­
1
color
application
coloring
and
texturing
manganese
compounds,
limestone,
ochre,

clay,
shale,
calcium
lignosulfonate
FE­
8
No
73FE­
8
74
CTA­
1
74CTA­
1
color/
texture
application
coloring
texturing
clay,
shale,
manganese
dioxide,
ochre,
and
manganese
aluminum
coroundum
FE­
7
No
74FE­
7
75
CR­
1
75CR­
1
crusher
primary
crushing
clay
20
FE­
1
No
75FE­
1
75
CTA­
1
75CTA­
1
pump
and
feeders
color
face
of
bricks
clay/
colorants
0.0325
FE­
6
No
75FE­
6
75
FW­
1
75FW­
1
extruder
shape
clay
body
clay
body
mix
35
FE­
8
No
75FE­
8
75
G­
1
75G­
1
hammermill
secondary
grinding
clay
body
mix
35
FE­
3
No
75FE­
3
75
G­
2
75G­
2
roller
mill
final
sizing
clay
body
mix
35
OC­
1
No
75OC­
1
75
MD­
1
75MD­
1
dry
mixer
blending
clay,
grog
35
FE­
2
No
75FE­
2
75
MW­
1
75MW­
1
pug
sealer
mix
clay
with
water
and
Additive
A
clay
body
mix
35
FE­
7
No
75FE­
7
75
S­
1
75S­
1
screens
screening
to
size
clay
body
mix
35
FE­
4
No
75FE­
4
76
CTA­
1
76CTA­
1
color
coating
coloring
sand,
manganese
compound
0.15
FE­
4
No
76FE­
4
77
CTA­
1
77CTA­
1
coloring
manganese
compounds
5.5
FE­
7
No
77FE­
7
78
MW­
1,

MW­
2
78MW­
1,

MW­
2
mixer
mixing
clay,
shale,
iron
chromite,
manganese
dioxide
34.4
FE­
6,
FE­
7
No
78FE­
6,
FE­
7
78
CTA­
1
78CTA­
1
color/
texture
application
coloring/
texturing
clay,
shale,
iron
chromite,
manganese
dioxide
68.7
FE­
1
No
78FE­
1
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
92
79
MW­
1
79MW­
1
pug
mill
mix
clay
clay,
manganese
ferrite
3.39
FE­
1
No
79FE­
1
79
WE­
1
79WE­
1
clay
feed
weigh
and
feed
clay,
manganese
ferrite
3.39
FE­
4
No
79FE­
4
80
CR­
2
80CR­
2
crusher
crushing
shale
FE­
2
No
80FE­
2
80
FW­
1
80FW­
1
extruder
forming
clay,
shale,
manganese,
chromium
FE­
9
No
80FE­
9
80
MH­
1
80MH­
1
blending
pile
mixing
and
blending
clay
FE­
11
No
80FE­
11
80
MW­
4
80MW­
4
wet
mixer
mixing
clay,
manganese
compounds,
shale,

chromium
compounds
FE­
8
No
80FE­
8
80
CR­
1
80CR­
1
crusher
crushing
clay
FE­
1
No
80FE­
1
80
S­
2
80S­
2
screen
screening
shale
FE­
5
No
80FE­
5
81
FD­
1
81FD­
1
sand
coating
and
forming
machines
wood­
mold,
brick
forming
clay,
sand,
coating
12
US­
10
No
81US­
10
81
FD­
2
81FD­
2
sand
coating
and
forming
machines
wood­
mold
brick
forming
clay,
sand,
coating
12
US­
10
No
81US­
10
81
CTA­
1
81CTA­
1
forming
line
coating,
texturing,

extruding
clay,
sand,
coating
35
BH­
1
No
81BH­
1
82
CTA­
1
82CTA­
1
color/
texture
adds
color/
texture
clay,
manganese
FE­
9
No
82FE­
9
82
CR­
1
82CR­
1
crusher
crushing
clay
FE­
2
No
82FE­
2
82
FW­
1
82FW­
1
extruder
extrusion
clay
FE­
8
No
82FE­
8
82
G­
1
82G­
1
grinder
grinding
clay
FE­
3
No
82FE­
3
82
S­
1
TO
S­
4
82S­
1
TO
S­
4
screen
screening
clay
FE­
4
No
82FE­
4
83
G­
1
83G­
1
hammermill
grinding
clay
25
FE­
1
No
83FE­
1
83
GF­
1
83GF­
1
rockface
line
scoring
brick?
fired
bricks
6.56
BH­
1
No
83BH­
1
83
CTA­
1
83CTA­
1
vibrators
spray
system
topical
coating
coloring
of
brick
column
sand
engobes
1
FE­
5
No
83FE­
5
83
MW­
1
83MW­
1
pugmill
mixing
clay
water
50
FE­
4
No
83FE­
4
83
RU­
1
TO
RU­
5
83RU­
1
TO
RU­
5
storage
bunkers
storage
clay
FE­
3
No
83FE­
3
83
S­
1
TO
S­
4
83S­
1
TO
S­
4
screens
product
size
classification
clay
25
FE­
2
No
83FE­
2
84
CTA­
1
84CTA­
1
sanding
box,
vibrators,
rollers,

etc.
topical
color/
of
brick
clay,
shale
1
BH­
2
No
84BH­
2
84
G­
1
84G­
1
hammermill
grinding
clay,
shale
80
FE­
2
No
84FE­
2
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
93
84
MW­
1
84MW­
1
pugmill
mixing
clay,
shale,
water,
lignin
50
FE­
5
No
84FE­
5
84
RU­
1,
RU­
2
84RU­
1,

RU­
2
ground
storage
bins
storage
clay,
shale
FE­
4
No
84FE­
4
84
S­
1
TO
S­
6
84S­
1
TO
S­
6
screens
product
size
classification
clay,
shale
80
FE­
3
No
84FE­
3
84
CR­
1
84CR­
1
primary
crusher
grinding
clay,
shale
80
FE­
1
No
84FE­
1
85
CTA­
1
85CTA­
1
colorer
coloring
sand,
manganese,
chromium
BH­
1
No
85BH­
1
85
MH­
2
85MH­
2
hopper
storage
sand,
manganese,
chromium
BH­
2
No
85BH­
2
86
G­
1
86G­
1
hammer
mill
clay
grinding
clay
20
BH­
1
No
86BH­
1
86
MD­
1
86MD­
1
cement
pad
clay
mixing
clay
40
FE­
1
No
86FE­
1
86
MH­
1
86MH­
1
clay
hopper
feed
clay
into
system
clay
20
BH­
1
No
86BH­
1
86
MW­
1
86MW­
1
pug
mill
and
extruder
extrude
pipe
clay
8
BH­
2
No
86BH­
2
86
MW­
2
86MW­
2
pug
mill
and
extruder
extrude
brick
clay
17
BH­
2
No
86BH­
2
86
CR­
1
86CR­
1
roller
crusher
clay
precrusher
clay
20
BH­
1
No
86BH­
1
86
S­
1,
S­
2
86S­
1,
S­
2
sifting
screens
clay
sifting
clay
20
BH­
1
No
86BH­
1
87
G­
1
87G­
1
grinder
sizing
clays,
fireclays,
sand,
grog,
scrap
clay
0.5
FE­
4
No
87FE­
4
87
MD­
1
87MD­
1
batching
mixing
clays,
fire
clays,
sand,
grog,
scrap
clay
0.5
FE­
2
No
87FE­
2
87
MW­
1
87MW­
1
slurry
mixers
slurry
mixing
vitgobe,
fire
clays,
water,
colorants,
kaolin
clay
0.08
FE­
13
No
87FE­
13
87
MW­
2
87MW­
2
pugmills
clay,
water,
colorant
mixing
clays,
water,
colorant
30
FE­
9
No
87FE­
9
87
S­
1
87S­
1
screening
sizing
clays,
fireclays,
sand,
grog,
scrap
clay
0.5
FE­
5
No
87FE­
5
87
CTA­
1
87CTA­
1
additive
feeders
dry
colorant
additions
to
clay
manganese,
chromium
colorants
0.57
FE­
3
No
87FE­
3
88
G­
1
88G­
1
clay
batching
grinding
&

screening
clay
mixing
&
sizing
clay,
cobalt
oxide,
iron
chromite,
MnO2
40
FE­
5
No
88FE­
5
88
MD­
1
88MD­
1
clay
mixer
clay
mixing
clay,
MnO2,
iron
chromite
FE­
2
No
88FE­
2
88
MW­
1
TO
MW­
2
88MW­
1
TO
MW­
2
slurry
mixers
mixing
slurry
clay
water,
clay,
cobalt
oxide,
iron
chromite,
MnO2
0.5
FE­
8
No
88FE­
8
88
MW­
3
TO
MW­
4
88MW­
3
TO
MW­
4
pugmills
clay,
water
colorant
mixing
clay,
water,
clay,
cobalt
oxide,
iron
chromite,
MnO2
40
FE­
9
No
88FE­
9
88
S­
1
88S­
1
screening
clay
mixing
and
sizing
clay,
cobalt
oxide,
iron
chromite,
MnO2
40
FE­
5
No
88FE­
5
88
WE­
1
88WE­
1
batching
weighing
and
mixing
clay,
MnO2,
iron
chromite
FE­
12
No
88FE­
12
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
94
89
FW­
1
89FW­
1
moulding
form
brick
shale,
water,
lignin
15
BH­
2
No
89BH­
2
89
CR­
1
89CR­
1
crusher
crushing
shale
15
FE­
2
No
89FE­
2
89
G­
1
89G­
1
rim
discharge
grinder
grinding
shale
15
BH­
1
No
89BH­
1
89
S­
1
89S­
1
screen
screening
shale
15
BH­
1
No
89BH­
1
89
MH­
1
89MH­
1
storage
storage
shale
15
US­
2
No
89US­
2
89
MW­
1
89MW­
1
mixer
wet
mixing
shale,
water,
lignin
15
FE­
3
No
89FE­
3
90
G­
1,
G­
2
90G­
1,
G­
2
rim
discharge
grinder
hammer
mills
(
2)
grinding/
crushing
clay
32.93
US­
5
No
90US­
5
90
CTA­
1
90CTA­
1
color/
texture
application
coloring/
texturing
clay,
manganese
FE­
1
No
90FE­
1
90
S­
1
90S­
1
screening
screening
of
clay
clay
32.93
US­
6
No
90US­
6
90
MW­
1
90MW­
1
brick
machines
mixing
of
clay
with
water
and
extruder
clay/
water
and
colorants
32.93
US­
8
No
90US­
8
90
WE­
1
90WE­
1
batching
storage
and
mixing
of
clay
clay,
manganese,
body
additives
32.93
US­
7
No
90US­
7
92
FW­
1
92FW­
1
extruder
forming
clay,
manganese
3.8
FE­
6
No
92FE­
6
92
MW­
1
92MW­
1
mixer
mixing
clay,
manganese
3.8
FE­
5
No
92FE­
5
93
FW­
1
93FW­
1
extruder
extruding
clay,
manganese
4
FE­
6
No
93FE­
6
93
MW­
1
93MW­
1
mixer
mixing
clay,
manganese
4
FE­
5
No
93FE­
5
94
FW­
1
94FW­
1
extruder
forming
clay,
manganese
3.2
FE­
1
No
94FE­
1
94
MW­
1
94MW­
1
mixer
mixing
clay,
manganese
3.2
FE­
2
No
94FE­
2
95
FW­
1
95FW­
1
extruder
forming
clay
manganese
compounds
15.6
FE­
6
No
95FE­
6
95
MW­
1
95MW­
1
mixer
mixing
clay,
manganese
compounds
15.6
FE­
5
No
95FE­
5
96
MW­
1
96MW­
1
mixer
mixing
clay,
manganese
9.7
FE­
3
No
96FE­
3
96
FW­
1
96FW­
1
extruder
forming
clay,
manganese
9.7
FE­
4
No
96FE­
4
97
CTA­
1
TO
CTA­
2
97CTA­
1
TO
CTA­
2
coloring
coloring
sand,
manganese,
chromium
BH­
1
No
97BH­
1
97
FW­
3
97FW­
3
extruder
forming
clay,
manganese
compounds,
chromium
compounds
FE­
12
No
97FE­
12
97
CTA­
3
97CTA­
3
coloring
coloring
sand,
manganese,
chromium
BH­
2
No
97BH­
2
97
FW­
1,
FW­

2
97FW­
1,

FW­
2
extruder
forming
clay,
manganese
compounds,
chromium
compounds
FE­
11
No
97FE­
11
97
MW­
1,

MW­
2
97MW­
1,

MW­
2
mixer
mixing
clay,
manganese
compounds,
chromium
compounds
FE­
5
No
97FE­
5
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
95
97
MW­
3
97MW­
3
mixer
mixing
clay,
manganese
compounds,
chromium
compounds
FE­
7
No
97FE­
7
98
FW­
1
98FW­
1
extruder
forming
clay,
manganese
compounds,
chromium
compounds
11.3
FE­
8
No
98FE­
8
98
MW­
1
98MW­
1
mixer
mixing
clay,
manganese
compounds,
chromium
compounds
11.3
FE­
8
No
98FE­
8
99
CTA­
1
99CTA­
1
coloring
coloring
sand,
manganese
BH­
1
No
99BH­
1
99
MW­
1
99MW­
1
mixer
mixing
clay,
manganese
compounds
11.3
BH­
1
No
99BH­
1
99
FW­
1
99FW­
1
extruder
forming
clay,
manganese
compounds
11.3
BH­
1
No
99BH­
1
100
CR­
1
100CR­
1
crusher
crushing
shale,
petroleum
contaminated
soils
26.7
FE­
4
No
100FE­
4
100
CTA­
1
100CTA­
1
texturizer
brick
forming
shale
color
additives,
manganese,

chromium,
petroleum
contaminated
soils
24
BH­
1
No
100BH­
1
100
G­
1
100G­
1
grinding
screen
grinding
shale,
petroleum
contaminated
soils
26.7
FE­
5
No
100FE­
5
101
CTA­
1
101CTA­
1
texturizer
brick
forming
shale/
color
additives,
manganese,

petroleum
contaminated
soils
13.7
FE­
24
No
101FE­
24
101
CR­
1
101CR­
1
crusher
crushing
shale/
clay,
petroleum
contaminated
soils
200
FE­
8
No
101FE­
8
101
CTA­
2
101CTA­
2
texturizer
brick
forming
shale/
color
additives,
manganese,

petroleum
contaminated
soils
27.4
FE­
25
No
101FE­
25
101
G­
2
101G­
2
grinding/
screen
grinding
shale/
clay,
petroleum
contaminated
soils
200
FE­
2
No
101FE­
2
102
CR­
1
102CR­
1
crusher
crushing
shale,
petroleum
contaminated
soils
75
FE­
4
No
102FE­
4
102
CTA­
1
102CTA­
1
texturizer
brick
forming
shale/
color
additives,
manganese,

petroleum
contaminated
soils
15.2
BH­
1
No
102BH­
1
102
G­
1
102G­
1
grinding/
screen
grinding
shale,
petroleum
contaminated
soils
75
FE­
5
No
102FE­
5
103
FW­
2
103FW­
2
extruder
forming
shale,
contaminated
soil
10.5
FE­
14
No
103FE­
14
103
CR­
1
103CR­
1
crusher
crushing
shale,
contaminated
soil
180
FE­
6
No
103FE­
6
103
CTA­
1
103CTA­
1
texturizer
brick
forming
shale/
color
additives,
contaminated
soil
21
BH­
1
No
103BH­
1
103
CTA­
2
103CTA­
2
texturizer
brick
forming
shale/
color
additives,
contaminated
soil
10.5
BH­
2
No
103BH­
2
103
FW­
1
103FW­
1
extruder
forming
shale,
contaminated
soil
21
FE­
13
No
103FE­
13
103
G­
3
103G­
3
grinding/
screen
grinding
shale,
contaminated
soil
180
FE­
7
No
103FE­
7
103
MH­
3
103MH­
3
pile
storage
shale,
contaminated
soil
FE­
8
No
103FE­
8
103
MW­
1
103MW­
1
mixer
mixing
shale,
contaminated
soil
21
FE­
11
No
103FE­
11
103
MW­
2
103MW­
2
mixer
mixing
shale,
contaminated
soil
10.5
FE­
12
No
103FE­
12
103
S­
3
103S­
3
screen
sizing
shale,
contaminated
soil
180
FE­
6
No
103FE­
6
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
96
103
S­
4
103S­
4
screen
sizing
shale,
contaminated
soil
180
FE­
7
No
103FE­
7
104
S­
1
104S­
1
screen
screening
clay
11.2
US­
4
No
104US­
4
104
CR­
1
104CR­
1
hammermill
crushing
clay
11.2
US­
4
No
104US­
4
110
CTA­
1
110CTA­
1
colorer
coloring
sand,
manganese
compound
BHI­
1
No
110BHI­
1
110
FW­
1
110FW­
1
extruder
forming
shale,
manganese
compounds
12.2
FE­
2
No
110FE­
2
110
MD­
1
110MD­
1
sand
mixer
mixing
sand,
manganese
compound
12.2
BHI­
1
No
110BHI­
1
110
MW­
1
110MW­
1
mixer
mixing
shale,
manganese
compounds
12.2
BHI­
1
No
110BHI­
1
110
WE­
1
110WE­
1
batcher
weighing
shale,
manganese
compounds
12.2
BHI­
1
No
110BHI­
1
111
FW­
1
111FW­
1
extruder
forming
clay,
shale,
manganese
compounds
BHI­
2
No
111BHI­
2
111
MW­
1
111MW­
1
mixer
mixing
shale,
manganese
compound,
clay
BHI­
2
No
111BHI­
2
111
WE­
1
111WE­
1
batching
weighing
shale,
manganese
compound,
clay
FE­
1
No
111FE­
1
112
FW­
4
112FW­
4
soft
mud
molds
forming
clay,
shale,
manganese
compound
FE­
14
No
112FE­
14
112
MW­
3
112MW­
3
mixer
mixing
clay,
shale,
manganese
compound,

chromium
compound
68
BHI­
11
No
112BHI­
11
112
GZ­
1
112GZ­
1
glazer
glazes
brick
fired
brick
3.66
FE­
12
No
112FE­
12
112
GZ­
2
112GZ­
2
spray
booth
waxing
wax,
fired
brick
2.25
FE­
13
No
112FE­
13
112
MW­
1
112MW­
1
mixer
mixing
clay,
shale,
manganese
compound
68
FE­
7
No
112FE­
7
112
MW­
2
112MW­
2
mixer
mixing
clay,
shale,
manganese
compound,

chromium
compound
60
BHI­
3
No
112BHI­
3
112
FW­
3
112FW­
3
extruder
forming
clay,
shale,
manganese
compound,

chromium
compound
68
BHI­
11
No
112BHI­
11
112
WE­
1
112WE­
1
scale
weighing
clay,
shale,
manganese
compound
68
FE­
4
No
112FE­
4
112
WE­
2
112WE­
2
scale
weighing
clay,
shale,
manganese
compound,

chromium
compound
60
BHI­
3
No
112BHI­
3
112
WE­
3
112WE­
3
scale
weighing
clay,
shale,
manganese
compound,

chromium
compound
68
BHI­
11
No
112BHI­
11
112
FW­
1
112FW­
1
extruder
forming
clay,
shale
,
manganese
compound
68
FE­
5
No
112FE­
5
112
FW­
2
112FW­
2
extruder
forming
clay,
shale,
manganese
compound,

chromium
compound
60
BHI­
3
No
112BHI­
3
114
MW­
2
114MW­
2
slurry
mix
tanks
mixing
slurry
coatings
clay,
water,
manganese
&
chromium
compounds,
iron
oxides,
limestone
flour
0.1
FE­
11
No
114FE­
11
114
CTA­
1
114CTA­
1
additive
feeder
add
dry
colorant
to
clay
manganese
compounds
0.08
FE­
8
No
114FE­
8
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
97
114
G­
1
114G­
1
grinding
batch
mix
grind
clay
materials
clays,
grog,
MnO2,
iron
chramite
35
FE­
2
No
114FE­
2
114
MD­
1
114MD­
1
mixer
batch
mixing
clays,
iron
chromite,
grog,
MnO2
35
FE­
5
No
114FE­
5
114
MW­
1
114MW­
1
pugmill
clay,
water,
colorant
mixing
clays,
water,
manganese
compound
20
FE­
6
No
114FE­
6
114
S­
1
TO
S­
2
114S­
1
TO
S­
2
screens
screening
clay
materials
clays,
MnO2,
grog,
iron
chromite
35
FE­
3
No
114FE­
3
115
G­
1
115G­
1
hammer
mill
grinding
clay
14.28
FE­
1
No
115FE­
1
116
CTA­
1
116CTA­
1
cloring
and
texturing
coloring
brick
surfaces
clay,
iron
manganese
oxide,
manganese
dioxide,
iron
chromite,
brown
and
yellow
colorant
FE­
10
No
116FE­
10
116
FW­
1
116FW­
1
brick
machine
mixing
and
forming
clay,
pyrolusite
ore,
iron
chromite
27
FE­
9
No
116FE­
9
118
CTA­
1
TO
CTA­
2
118CTA­
1
TO
CTA­
2
colorer/
texturer
coloring/
texturing
MnO2,
manganese
tetroxide,
iron
chromite
FE­
13
TO
FE­
14
No
118FE­
13
TO
FE­
14
119
G­
1
TO
G­
2
119G­
1
TO
G­
2
grinders
grinding
clay
BH­
1
No
119BH­
1
119
CR­
1
119CR­
1
crusher
crushing
clay
FE­
1
No
119FE­
1
119
CTA­
1
119CTA­
1
colorer/
texturer
cloring/
texturing
clay,
manganese,
chromium
compounds
FE­
5
No
119FE­
5
119
MW­
1
119MW­
1
pug
mill
mixing
clay,
manganese,
chromium
compounds
FE­
3
No
119FE­
3
119
S­
1
TO
S­
2
119S­
1
TO
S­
2
screens
screening
clay,
manganese,
chromium
compounds
BH­
1
No
119BH­
1
120
CR­
1
120CR­
1
crusher
crush
raw
material
clay,
manganese
FE­
1
No
120FE­
1
120
CTA­
1
120CTA­
1
texturing
add
texture
clay,
manganese
FE­
8
No
120FE­
8
120
FW­
1
120FW­
1
extruder
extrusion
clay,
manganese
FE­
7
No
120FE­
7
120
G­
1
120G­
1
grinder
grinding
clay,
manganese
FE­
2
No
120FE­
2
120
MISC­
1
120MDC­
1
cutter
to
cut
clay
FE­
9
No
120FE­
9
120
MW­
1
120MW­
1
mixer
mixing
clay,
manganese
FE­
6
No
120FE­
6
121
MW­
1
121MW­
1
wet
mixer
mixing
clay
shale
mix,
MnO2
FE­
5
No
121FE­
5
121
CR­
1
121CR­
1
crusher
crushing
clay/
shale
mix,
MnO2
FE­
1
No
121FE­
1
121
CTA­
1
121CTA­
1
coloring
texturing
coloring
texturing
MnO2
FE­
7
No
121FE­
7
121
G­
1
121G­
1
grinder
grinding
clay/
shale
mix,
MnO2
FE­
2
No
121FE­
2
122
CTA
­
1
122CTA
­
1
coloring
color
coating
manganese,
clay,
shale
FE­
6
No
122FE­
6
122
FW­
1
122FW­
1
extruder
forming
manganese,
clay,
shale
FE­
5
No
122FE­
5
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
98
122
MD­
1
122MD­
1
mixer
color
mixing
manganese,
sand
FE­
8
No
122FE­
8
122
MH­
1
122MH­
1
silo
storage
Mn
FE­
7
No
122FE­
7
122
MH­
2
122MH­
2
conveyor
handling
manganese
compounds
FE­
4
No
122FE­
4
122
MW­
1
122MW­
1
pugmill
mixing
manganese
compound,
clay,
shale
US­
6
No
122US­
6
123
FW­
2
123FW­
2
extruder
forming
clay,
manganese,
chromium
FE­
4
No
123FE­
4
123
GZ­
1
123GZ­
1
sprayer
glazing
glaze
0.026
SC­
1
No
123SC­
1
123
MW­
2
123MW­
2
pug
mill
mixing
clay,
manganese,
chromium
FE­
12
No
123FE­
12
123
0
123WE­
1
transfer
bins
batching
clay,
manganese,
chromium
45.6
FE­
6
No
123FE­
6
124
CTA­
1
124CTA­
1
sand
blaster
coloring
sand
manganese
iron
oxides
BH­
3
No
124BH­
3
124
DR­
1
124DR­
1
rotary
dryer
drying
sand,
manganese,
iron
oxides
BH­
3
No
124BH­
3
124
MD­
1
124MD­
1
sand
mixer
mixing
sand,
manganese,
iron
oxides
BH­
3
No
124BH­
3
124
MD­
2
124MD­
2
sand
mixer
mixing
sand,
manganese.
Iron
oxide
BH­
3
No
124BH­
3
125
FW­
1
125FW­
1
extruder
forming
clay
manganese
9.25
FE­
7
No
125FE­
7
125
MW­
1
125MW­
1
pugmill
mixing
clay,
manganese
9.25
FE­
6
No
125FE­
6
126
FW­
1
126FW­
1
extruder
forming
clay,
manganese
8.2
FE­
5
No
126FE­
5
126
MW­
1
126MW­
1
pugmill
mixing
clay,
manganese
8.2
FE­
4
No
126FE­
4
127
FW­
1
127FW­
1
extruder
forming
clay,
manganese
6
FE­
3
No
127FE­
3
127
MW­
1
127MW­
1
mixer
mixing
clay,
manganese
6
FE­
2
No
127FE­
2
128
CTA­
1
128CTA­
1
coloring
coloring
sand,
manganese
BH­
1
No
128BH­
1
128
FW­
1
128FW­
1
extruder
forming
clay,
manganese
32
BH­
1
No
128BH­
1
129
CTA­
1
129CTA­
1
coloring
coloring
sand,
manganese
BH­
1
No
129BH­
1
130
FW­
1
130FW­
1
extruder
&
cutter
extrude
&
cut
brick
column
manganese
clay
shale
42
FE­
5
No
130FE­
5
130
MW­
1
130MW­
1
mixer
mixes
clay
shale
manganese
42
FE­
4
No
130FE­
4
130
WE­
1
130WE­
1
bacher
weighs
clay
shale
manganese
42
FE­
3
No
130FE­
3
131
CTA­
1
131CTA­
1
color
texture
adds
color
and
texture
shale
clay
FE­
4
No
131FE­
4
131
MD­
1
131MD­
1
ball
mixer
screw
auger
rotary
mixer
mixing
and
material
prep
area
sand
recycled
brick
coatings
1
US­
1
TO
US­
2
No
131US­
1
TO
US­
2
132
FW­
1
TO
FW­
2
132FW­
1
TO
FW­
2
forming
and
sand
coarting
machines
wood
mold
brick
forming
exh.
Fans
intall
for
work
clay
sand
coating
15
US­
10
TO
US­
11
No
132US­
10
TO
US­
11
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
99
132
FW­
3
132FW­
3
special
shapes
hand
forming
area
hand
making
brick
shapes
(
exhaust
fan
installed
for
worker
comfort)
clay
sand
coating
2
FE­
15
No
132FE­
15
132
MISC­
1
132MISC­
1
brick
unloading
and
setting
machine
setting
brick
on
edge
(
exhaust
fan
installed
for
worker
comfort)
dried
brick
25
US­
12
No
132US­
12
133
MW­
1
TO
MW­
2
133MW­
1
TO
MW­
2
rotary
mixers
colorant
mixing
sand
colorants
0.75
US­
1
TO
US­
2
No
133US­
1
TO
US­
2
133
CTA­
1
133CTA­
1
surface
preparation
texturing
and
sand
coating
clay
shale
sand
colorants
0.15
BH­
1
No
133BH­
1
133
CTA­
2
133CTA­
2
surface
preparation
texturing
and
sand
coating
clay
shale
sand
colorants
0.45
BH­
2
No
133BH­
2
134
CTA­
1
134CTA­
1
dyeing
coloring
manganese,
sand
FE­
41
No
134FE­
41
135
FW­
2
135FW­
2
extruder
forming
clay,
manganese
11.25
FE­
11
No
135FE­
11
135
CR­
1
135CR­
1
crusher
crushing
clay,
contaminated
clay
other
info.
15
FE­
1
No
135FE­
1
135
CTA­
1
135CTA­
1
color
applier
color
application
clay,
manganese,
contaminated
clay
other
info.
15
FE­
6
No
135FE­
6
135
CTA­
2
135CTA­
2
color
applier
color
application
clay,
manganese
11.25
FE­
12
No
135FE­
12
135
FW­
1
135FW­
1
extruder
forming
clay,
manganese,
contaminated
clay
other
info.
15
FE­
5
No
135FE­
5
135
G­
1
135G­
1
hammermill
grinding
clay,
contaminated
clay
other
info.
15
FE­
2
No
135FE­
2
135
MW­
1
135MW­
1
mixer
mixing
clay,
manganese,
contaminated
clay
other
info.
15
FE­
4
No
135FE­
4
135
MW­
2
135MW­
2
mixer
mixing
clay,
manganese
11.25
FE­
10
No
135FE­
10
135
S­
1
TO
S­
2
135S­
1
TO
S­
2
screens
sorting
clay,
contaminated
clay
other
info.
15
FE­
3
No
135FE­
3
136
CR­
1
136CR­
1
roll
crusher
crushing
shale
11
US­
1
No
136US­
1
136
G­
1
136G­
1
hammermill
grinding
shale
11
BH­
1
No
136BH­
1
136
S­
1
136S­
1
screen
screening
shale
11
FE­
4
No
136FE­
4
137
FW­
2
137FW­
2
extruders
extruding
shale,
manganese
17.9
FE­
5
No
137FE­
5
137
CTA­
1
137CTA­
1
making
room
sand
equip
sand
application
shale
sands,
manganese
7.6
CY­
1
No
137CY­
1
137
CTA­
2
137CTA­
2
making
room
sand
equip.
sand
application
shale
sands,
manganese
4.2
CY­
2
No
137CY­
2
137
FW­
1
137FW­
1
extruders
forming
shale
manganese
14.4
FE­
4
No
137FE­
4
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
100
137
FW­
3
137FW­
3
extruders
forming
shale,
manganese
9.4
FE­
6
No
137FE­
6
137
MD­
1
137MD­
1
making
room
sand
equip.
sand
mix
shale
sands,
manganese
7.6
CY­
1
No
137CY­
1
137
MW­
1
137MW­
1
mixer
mixing
shale,
manganese
14.4
FE­
1
No
137FE­
1
137
MW­
2
137MW­
2
mixers
mixing
shale,
manganese
17.9
FE­
2
No
137FE­
2
137
MW­
3
137MW­
3
mixer
mixing
shale,
manganese
9.4
FE­
3
No
137FE­
3
138
MD­
1
138MD­
1
mixer
mixing
clay
and
additives
clay,
manganese
FE­
3
No
138FE­
3
138
CTA­
1
138CTA­
1
color/
texture
adds
color/
texture
clay,
manganese,
yellow
stain
FE­
7
No
138FE­
7
138
FW­
1
138FW­
1
extruder
extrusion
clay,
manganese
FE­
6
No
138FE­
6
138
G­
1
138G­
1
grinder
grinding
clay,
manganese
FE­
4
No
138FE­
4
138
MD­
2
138MD­
2
sand
mixer
mixing
sand,
manganese
FE­
10
No
138FE­
10
138
MW­
1
138MW­
1
mixer
mixing
clay,
manganese
FE­
5
No
138FE­
5
139
MW­
1
139MW­
1
mixer
mixing
clay,
shale,
manganese
FE­
2
No
139FE­
2
139
FW­
1
139FW­
1
extruder
forming
clay,
shale,
manganese
FE­
3
No
139FE­
3
140
CTA­
1
140CTA­
1
coloring/
texturing
coloring/
texturing
clay,
feldspar,
chromium
FE­
1
No
140FE­
1
140
G­
1
140G­
1
hammermills
2
grinding
clay
31.86
US­
4
No
140US­
4
140
MD­
1
140MD­
1
batching
plant
storage
and
mixing
of
clay
clay
31.86
US­
5
No
140US­
5
140
MW­
1
140MW­
1
brick
machines
mixing
of
clay
with
water
and
extrusion
clay,
water,
manganese
oxide
31.86
US­
5
No
140US­
5
140
S­
1
140S­
1
screening
screening
of
clay
clay
31.86
US­
4
No
140US­
4
141
GZ­
1
141GZ­
1
spray
booth
and
guns
glaze
coating
dry
tile
or
brick
and
colorant
20
FE­
5
No
141FE­
5
141
FW­
1
141FW­
1
pugmill
extruding
clay/
shale
body
mix
20
FE­
4
No
141FE­
4
141
CR­
1
141CR­
1
jaw
crusher
crushing
defective
brick
&
tile
10
US­
1
No
141US­
1
141
MW­
1
141MW­
1
ball
mill
mixing
and
milling
lead
alumina
bisilicate,
nickel
ferrite
brown
spinnel,
chrome
alumina
pink
spinnel,
iron
cobalt
chromite
black
spinnel,
blue
spersastain,
gray
spersastain,
cobalt
chromite
blue
green
spinnel
0.3
FE­
1
No
141FE­
1
141
GS­
1
141GS­
1
drypans
and
grinding
grinding
clay
and
shale
24
BH­
1
No
141BH­
1
143
FW­
1
TO
FW­
2
143FW­
1
TO
FW­
2
extruder
forming
clay,
manganese
FE­
1
TO
FE­
2
No
143FE­
1
TO
FE­
2
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
101
143
MW­
1
TO
MW­
2
143MW­
1
TO
MW­
2
mixer
mixing
clay,
manganese
FE­
3
TO
FE­
4
No
143FE­
3
TO
FE­
4
144
CR­
1
144CR­
1
crusher
crushing
clay,
grog,
bottom
ash,
recycled
material
BHI­
4
No
144BHI­
4
144
FW­
1
144FW­
1
extruder
extrusion
clay,
MnO2
BHI­
1
No
144BHI­
1
144
MH­
3
144MH­
3
Mn
feeder
belt
brick
additive
manganese
0.05
FE­
15
No
144FE­
15
144
MW­
1
144MW­
1
pugmill
clay
mixing
clay
MnO2
62.5
BH­
1
No
144BH­
1
144
S­
1
TO
S­
3
144S­
1
TO
S­
3
screens
screening
clay,
grog,
bottom
ash,
recycled
material
FE­
9
TO
FE­
11
No
144FE­
9
TO
FE­
11
145
S­
1
TO
S­
3
145S­
1
TO
S­
3
screens
sizing
shale,
clay
brick
24
US­
1
No
145US­
1
145
CTA­
1
145CTA­
1
coloring
texturing
sand,
chromium
compounds,
cobalt,

manganese
US­
2
No
145US­
2
145
FW­
1
145FW­
1
extruder
extruding
shale
clay
brick,
manganese
and
chrome
oxides
23.5
US­
2
No
145US­
2
145
G­
1
145G­
1
hammer
mill
grinding
shale
clay
brick
24
US­
1
No
145US­
1
145
MH­
1
TO
MH­
4
145MH­
1
TO
MH­
4
bins
storage
shale
clay
brick,
manganese
and
chrome
oxides
US­
2
No
145US­
2
145
MW­
1
145MW­
1
mixer
mixing
shale
clay
brick,
manganese
and
chrome
oxides
23.5
US­
2
No
145US­
2
146
CR­
1
146CR­
1
roller
crusher
crushing
clay
18.6
BH­
1
No
146BH­
1
146
FW­
1
TO
FW­
4
146FW­
1
TO
FW­
4
extruder
forming
clay,
manganese
FE­
55
TO
FE­
58
No
146FE­
55
TO
FE­
58
146
FW­
5
146FW­
5
press
forming
clay,
manganese
FE­
59
No
146FE­
59
146
G­
1
146G­
1
hammer
mill
grinding
clay
18.6
BH­
1
No
146BH­
1
146
MW­
1
TO
MW­
4
146MW­
1
TO
MW­
4
pugmill
mixing
clay,
manganese
FE­
51
TO
FE­
54
No
146FE­
51
TO
FE­
54
146
S­
1
TO
S­
5
146S­
1
TO
S­
5
screens
screening
clay
18.6
CY­
1
,
BH­

2
Yes
146CY­
1
,
BH­
2
147
CR­
2
147CR­
2
precrusher
primary
crushing
scrap
brick
and
raw
materials
15
FE­
2
No
147FE­
2
147
CR­
1
147CR­
1
jaw
crusher
primary
crushing
scrap
brick
4
FE­
1
No
147FE­
1
147
MISC­
2
147MISC­
2
brick
tumbler
tumbling
fired
brick
12
FE­
8
No
147FE­
8
147
CR­
3
147CR­
3
minicrusher
crushing
manganese,
chromium,
feldspar
scrap
brick
and
raw
materials
15
FE­
5
No
147FE­
5
147
FW­
1
147FW­
1
extruders
forming
manganese
chromium
feldspar
clay
30
FE­
6
No
147FE­
6
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
102
147
G­
1
147G­
1
hammermill
grinding
manganese,
chromium
compounds
feldspar
clay
20
BH­
1
No
147BH­
1
147
MW­
1
147MW­
1
mixer
mixing
manganese
chromium
feldspar
clay
FE­
25
No
147FE­
25
147
RU­
2
147RU­
2
soak
bins
mining
manganese
compounds
chromium
compounds
feldspar
clay
FE­
7
No
147FE­
7
147
S­
1
TO
S­
2
147S­
1
TO
S­
2
screens
2
screening
manganese,
chromium
compounds
feldspar
clay
20
BH­
1
No
147BH­
1
150
CTA­
1
TO
CTA­
2
150CTA­
1
TO
CTA­
2
color
application
color
application
manganese
dioxide,
chrome
oxide
SC­
1
No
150SC­
1
150
CTA­
3
150CTA­
3
color
application
color
application
manganese
dioxide,
chrome
oxide
BH­
1
No
150BH­
1
151
CTA­
1
151CTA­
1
coloring
coloring
sand,
manganese
BH­
1
No
151BH­
1
151
FW­
1
TO
FW­
2
151FW­
1
TO
FW­
2
extruder
forming
clay,
manganese
FE­
2
No
151FE­
2
151
MISC­
2
151MISC­
2
cutter
cutting
sand,
clay,
manganese
BH­
1
No
151BH­
1
151
MW­
1
TO
MW­
2
151MW­
1
TO
MW­
2
mixer
mixing
clay,
manganese
FE­
7
No
151FE­
7
152
FW­
1
152FW­
1
extruder
forming
manganese
compounds
6
FE­
7
No
152FE­
7
152
MW­
1
152MW­
1
pug
mill
mixing
manganese
compounds
6
FE­
6
No
152FE­
6
153
RU­
5
153RU­
5
storage
bin
storage
clay
fired
tile
scrap
glaze
solids
1
BH­
1
No
153BH­
1
153
G­
3
153G­
3
dry
pan
grinder
grinding
clay
fired
tile
scrap
glaze
solids
14.4
BH­
1
No
153BH­
1
153
GZ­
1
153GZ­
1
glaze
booth
spraying
glaze
0.09
FE­
9
No
153FE­
9
153
GZ­
10
153GZ­
10
glaze
booth
spraying
glaze
0.09
US­
5
No
153US­
5
153
GZ­
11
153GZ­
11
glaze
booth
spraying
glaze
0.09
US­
6
No
153US­
6
153
GZ­
2
153GZ­
2
glaze
booth
spraying
glaze
0.09
FE­
10
No
153FE­
10
153
GZ­
3
153GZ­
3
glaze
booth
spraying
glaze
0.09
FE­
11
No
153FE­
11
153
GZ­
4
153GZ­
4
glaze
booth
spraying
glaze
0.09
FE­
12
No
153FE­
12
153
GZ­
5
153GZ­
5
glaze
booth
spraying
glaze
0.09
FE­
13
No
153FE­
13
153
GZ­
6
153GZ­
6
glaze
booth
spraying
glaze
0.09
FE­
14
No
153FE­
14
153
GZ­
7
153GZ­
7
glaze
booth
spraying
glaze
0.09
FE­
15
No
153FE­
15
153
GZ­
8
153GZ­
8
glaze
booth
spraying
glaze
0.09
US­
3
No
153US­
3
153
GZ­
9
153GZ­
9
glaze
booth
spraying
glaze
0.09
US­
4
No
153US­
4
153
RU­
6
153RU­
6
storange
bin
storage
clay
fired
tile
scrap
glaze
solids
1
BH­
1
No
153BH­
1
153
S­
7
153S­
7
screen
screening
clay
fired
tile
scrap
glaze
solids
14.4
BH­
1
No
153BH­
1
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
103
154
CTA­
1
154CTA­
1
drip
slurry
color
application
No
154
FW­
1
TO
FW­
5
154FW­
1
TO
FW­
5
extruder
forming
clay,
shale,
MnO2,
iron
chromite
FE­
5,4,8,11,1
2
No
154FE­
5,4,8,11,12
154
MW­
1
TO
MW­
5
154MW­
1
TO
MW­
5
mixer
mixing
clay,
shale,
MnO2,
iron
chromite
FE­
2,3,9,10,

BH­
9
No
154FE­
2,3,9,10,
BH­
9
155
G­
1
155G­
1
reversible
inpactor
grinding
clay
15.75
BH­
1
No
155BH­
1
155
CR­
1
155CR­
1
crusher
crushing
clay
15.75
FE­
1
No
155FE­
1
155
CTA­
1
155CTA­
1
coating
applicator
coating/
surface
treatment
manganese
compounds,
chromium
compounds,
clay
15.75
BH­
1,
CY­

1
No
155BH­
1,
CY­
1
155
FW­
1
155FW­
1
pug
mill/
extruder
mills
&
extrudes
clay/
additive
mixture
15.75
BH­
1,
CY­

1
No
155BH­
1,
CY­
1
155
S­
1
155S­
1
screens
(
4)
sizing
clay
15.75
BH­
1
No
155BH­
1
155
G­
2
155G­
2
double
roll
hammermill
grinding
clay
15.75
BH­
1
No
155BH­
1
155
MH­
1
155MH­
1
surge
hopper
control
material
flow
clay
15.75
FE­
3
No
155FE­
3
155
MW­
1
155MW­
1
mixer
mix
in
additives
clay
additive
A
15.75
BH­
1,
CY­

1
No
155BH­
1,
CY­
1
155
WE­
1
155WE­
1
feeder
bins
add
additives
additives
15.75
FE­
2
No
155FE­
2
158
CSS­
1
158CSS­
1
storage
silos
clay
storage
clay
29
BH­
2
No
158BH­
2
158
GC­
1
158GC­
1
jaw
crusher
grinding
grog
brick
1.5
BH­
3
No
158BH­
3
158
GR­
1
TO
GR­
3
158GR­
1
TO
GR­
3
2
dry
pans
and
2
hammer
mills
grinding
clay
29
BH­
1
TO
BH­
2
No
158BH­
1
TO
BH­
2
158
S­
1
TO
S­
4
158S­
1
TO
S­
4
screens
screening
clay
29
BH­
1
TO
BH­
2
No
158BH­
1
TO
BH­
2
159
CR­
1
159CR­
1
rotary
crusher
initial
crushing
shale
30
US­
1
No
159US­
1
159
CTA­
1
159CTA­
1
color/
texture
application
deairing
clay
forming
shale,
Mn02
FE­
3
No
159FE­
3
159
FW­
1
159FW­
1
extruder
deairing
clay
forming
shale
20
FE­
2
No
159FE­
2
159
GR­
1
159GR­
1
hammer
mill
grinding
shale
30
US­
2
No
159US­
2
159
MW­
1
159MW­
1
pug
mill
water
add
mixing
shale
20
FE­
1
No
159FE­
1
159
S­
1
TO
S­
2
159S­
1
TO
S­
2
vibrating
screens
particle
size
reduction
shale
30
US­
3
No
159US­
3
183
FW­
1
183FW­
1
extruder
FE
No
183FE
183
MW­
1
183MW­
1
mixer
mixing
FE
No
183FE
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
104
184
MH­
3
184MH­
3
raw
material
storage
storage
BH­
2
No
184BH­
2
184
CR­
1
184CR­
1
crusher
primary
crushing
shale
0.6
BH­
1
No
184BH­
1
184
FW­
1
184FW­
1
extruder
FE
No
184FE
184
FW­
2
184FW­
2
extruder
FE
No
184FE
184
G­
1
TO
G­
2
184G­
1
TO
G­
2
grinding
pan
secondary
grinding
shale
12
BH­
2
No
184BH­
2
184
MH­
1
184MH­
1
truck
dump
receiving
ground
clay
clay
40
BH­
1
No
184BH­
1
184
MH­
2
184MH­
2
truck
dump
receiving
raw
shale
shale
60
BH­
1
No
184BH­
1
184
MH­
4
TO
MH­
7
184MH­
4
TO
MH­
7
raw
material
storage
storage
FE
No
184FE
184
MW­
1
184MW­
1
pug
mill
plasticising
shale
fire
clay
23
BH­
3
No
184BH­
3
184
MW­
2
184MW­
2
pug
mill
plasticising
shale
fire
clay
23
BH­
3
No
184BH­
3
184
S­
1
TO
S­
8
184S­
1
TO
S­
8
vibrating
screens
particle
sizing
shale
12
BH­
2
No
184BH­
2
185
MD­
1
185MD­
1
dry
mixer
dry
clay
mixing
shale,
clay,
MnO2
1
FE
No
185FE
185
FD­
1
185FD­
1
manual
hand
press
shale,
silica
sand
0.5
BH­
1
No
185BH­
1
185
FW­
1
185FW­
1
extruder
extruding
shale,
fire
clay
1
FE
No
185FE
185
MH­
1
TO
MH­
2
185MH­
1
TO
MH­
2
storage
FE
No
185FE
185
MW­
1
185MW1
roller
mill
(
mixer)
wet
clay
mixing
shale
0.5
FE
No
185FE
186
CR­
1
186CR­
1
crusher
raw
material
crushing
FE
No
186FE
186
FW­
1
TO
FW­
3
186FW­
1
TO
FW­
3
extruders
FE
No
186FE
186
G­
1
TO
G­
2
186G­
1
TO
G­
2
griders
raw
material
grinding
BH­
1
No
186BH­
1
186
GF­
1
TO
GF­
4
186GF­
1
TO
GF­
4
finish
grinder
BH­
2
TO
BH­
3
No
186BH­
2
TO
BH­
3
186
MH­
1
TO
MH­
4
186MH­
1
TO
MH­
4
raw
material
storage
storage
FE
No
186FE
186
S­
1
TO
S­
2
186S­
1
TO
S­
2
screens
screening
BH­
1
No
186BH­
1
187
MH­
1
187MH­
1
box
feeder
meter
shale
to
crusher
shale
3
BH­
1
No
187BH­
1
187
CR­
1
187CR­
1
impact
crusher
reduce
particle
size
of
shale
shale
3
BH­
1
No
187BH­
1
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
105
187
FW­
1
187FW­
1
handle
extruder
extruded
tile
body
body
blend
1.8
FE
No
187FE
187
FW­
2
TO
FW­
4
187FW­
2
TO
FW­
4
extruders
floor
tile
4.2
FE
No
187FE
187
G­
1
187G­
1
grind,
saw
&
size
by
air
separation
shale
3
BH­
2
No
187BH­
2
187
G­
2
187G­
2
dry
pan
reduce
shale
particle
size
shale
10
FE
No
187FE
187
MD­
1
187MD­
1
PK
blender
floor
tile
body
stains
BH­
8
No
187BH­
8
187
S­
1
187S­
1
screens
classify
shale
particle
size
shale
10
FE
No
187FE
187
MH­
15
187MH­
15
box
feeder
feed
shale
to
pan
shale
10
FE
No
187FE
187
MH­
18,

MH­
25
187MH­
18,

MH­
25
weight
and
volumetric
feeders
floor
tile
body
4.2
BH­
9,
BH­

10
No
187BH­
9
187
MH­
19
187MH­
19
box
feeder
feed
clay
clay
20
FE
No
187FE
187
MH­
3,
MH­

4
187MH­
3,

MH­
4
storage
bins
maintain
reserves
of
shale
shale
3
BH­
3
No
187BH­
3
187
MH­
5
187MH­
5
storage
bins
minor
constituent
powder
clay,
MnO2
frit
3
BH­
5
No
187BH­
5
187
MISC­
1
187MISC­
1
bag
dump
station
minor
constituent
powder
clay,
MnO2
frit
3
BH­
4
No
187BH­
4
187
MW­
1
187MW­
1
eirich
mixer
shear
mixer
powder
and
water
blending
body
blend
1.8
BH­
6
No
187BH­
6
187
WE­
1,
WE­

2
187WE­
1,

WE­
2
batch
weigh
hopper
1&
2
powder
blend
body
blend
clay
shale
MnO2
frit
1.8
BH­
6
No
187BH­
6
188
CR­
3
188CR­
3
fired
scrap
crusher
crushing
scrap
fired
scrap
14
BH­
3
No
188BH­
3
188
FW­
1
TO
FW­
2
188FW­
1
TO
FW­
2
extrusion
mills
clay/
shale
FE
No
188FE
188
G­
1
188G­
1
dry
pan
crusher/
grinding
clay/
shale
14
BH­
1
No
188BH­
1
188
G­
2
188G­
2
dry
pan
crusher/
grinding
clay/
shale
14
BH­
2
No
188BH­
2
188
MW­
1
TO
MW­
2
188MW­
1
TO
MW­
2
pug
mills
clay/
shale
FE
No
188FE
188
S­
1
188S­
1
screen
screening
clay/
shale
14
BH­
1
No
188BH­
1
188
S­
2
188S­
2
screen
screening
clay/
shale
14
BH­
2
No
188BH­
2
189
FW­
1
189FW­
1
extruder
extruding
clay/
shale,
additives
FE
No
189FE
TABLE
8.
(
continued)

FACID
Process
ProcID
Equipment
type
Purpose
Raw
material
Process
rate
APCD
Multiple
devices
APCDID
106
189
CR­
5
189CR­
5
fired
scrap
crusher
crushing
scrap
iron
chromite,
cobalt
oxide,
manganese
dioxide
US­
12
No
189US­
12
189
S­
4
189S­
4
screen
product
sizing
clay/
shale,
additives
7.5
BH­
3
No
189BH­
3
189
FW­
2
189FW­
2
extruder
extruding
clay/
shale,
additives
FE
No
189FE
189
FW­
3
189FW­
3
extruder
extruding
clay/
shale,
additives
FE
No
189FE
189
FW­
4
189FW­
4
extruder
extruding 
clay/
shale,
additives
FE
No
189FE
189
G­
1
189G­
1
dry
pan
crushing/
grinding
clay/
shale,
additives
8.1
BH­
1
No
189BH­
1
189
G­
2
189G­
2
dry
pan
crushing/
grinding
clay/
shale,
additives
7.2
BH­
1
No
189BH­
1
189
G­
3
189G­
3
dry
pan
crushing/
grinding
clay/
shale,
additives
9
BH­
2
No
189BH­
2
189
G­
4
189G­
4
dry
pan
crushing/
grinding
clay/
shale,
additives
9
BH­
3
No
189BH­
3
189
GR­
4
189GR­
4
grinder
grinding
iron
chromite,
cobalt
oxide,
manganese
dioxide
BH­
4
No
189BH­
4
189
GR­
5
189GR­
5
grinder
grinding
iron
chromite,
cobalt
oxide,
manganese
dioxide
BH­
4
No
189BH­
4
189
GR­
6
189GR­
6
grinder
grinding
iron
chromite,
cobalt
oxide,
manganese
dioxide
BH­
4
No
189BH­
4
189
MW­
1
189MW­
1
pug
mill
mixing
clay/
shale,
additives
5
BH­
1
No
189BH­
1
189
MW­
2
189MW­
2
pug
mill
mixing
clay/
shale,
additives
5
BH­
1
No
189BH­
1
189
MW­
3
189MW­
3
pug
mill
mixing
clay/
shale,
additives
4.5
BH­
2
No
189BH­
2
189
MW­
4
189MW­
4
pug
mill
mixing
clay/
shale,
additives
4.5
BH­
3
No
189BH­
3
189
S­
1
189S­
1
screen
product
sizing
clay/
shale,
additives
6.75
BH­
1
No
189BH­
1
189
S­
2
189S­
2
screen
product
sizing
clay/
shale,
additives
6
BH­
1
No
189BH­
1
189
S­
3
189S­
3
screen
product
sizing
clay/
shale,
additives
7.5
BH­
2
No
189BH­
2
189
GR­
1
189GR­
1
grinder
grinding
iron
chromite,
cobalt
oxide,
manganese
dioxide
BH­
4
No
189BH­
4
189
GR­
2
189GR­
2
grinder
grinding
iron
chromite,
cobalt
oxide,
manganese
dioxide
BH­
4
No
189BH­
4
189
GR­
3
189GR­
3
grinder
grinding
iron
chromite,
cobalt
oxide,
manganese
dioxide
BH­
4
No
189BH­
4
107
TABLE
9.
THERMAL
PROCESSING
FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
1
dc­
1
1dc­
1
Dryer
Dryer
Face
brick
400
waste
heat
7.6
us­
1
us
FALSE
1us­
1
1
dc­
2
1dc­
2
Dryer
Dryer
Face
brick
400
waste
heat
13.1
us­
3
us
FALSE
1us­
3
1
misc­
1
1misc­
1
pre­
dryer
Predryer
face
brick
150
Waste
heat
20.7
fe­
5
us
FALSE
1fe­
5
1
TK­
1
1TK­
1
Tunnel
kiln
Tunnel
kiln
Face
brick
1890
coal/
natural
gas
12.3
7.6
7.60
7.60
us­
2
us
FALSE
1us­
2
1
tk­
2
1tk­
2
tunnel
kiln
tunnel
kiln
face
brick
1880
coal/
natural
gas
26.1
13.1
18.00
18.00
dls­
1
dls
FALSE
1DLS­
1
10
dc­
1
10dc­
1
Dryer
Dryer
Brick
410
waste
heat
7.8
us­
1,­
2
us
FALSE
10us­
1,­
2
10
dc­
2
10dc­
2
Dryer
Dryer
Brick
410
waste
heat
7.8
us­
3,­
4
us
FALSE
10us­
3,­
4
10
tk­
1
10tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2150
natural
gas
31
7.6
10.10
8.33
us­
5
us
FALSE
10us­
5
10
tk­
2
10tk­
2
Tunnel
kiln
Tunnel
kiln
Brick
2150
natural
gas
31
7.6
10.10
8.33
us­
6
us
FALSE
10us­
6
100
dc­
1
100dc­
1
Dryer
Dryer
Brick
800
Waste
heat
3.1
us­
2
us
FALSE
100us­
2
100
dc­
2
100dc­
2
Dryer
Dryer
Brick
800
Waste
heat
3.1
us­
3
us
FALSE
100us­
3
100
ds­
1
100ds­
1
Sawdust
dryer
Sawdust
dryer
Sawdust
Waste
heat
us­
1
us
FALSE
100us­
1
100
tk­
1
100tk­
1
Tunnel
kiln/
sawdus
t
dryer
Tunnel
kiln/
sawdus
t
dryer
Brick
2000
Sawdust
3.1
6.00
6.00
ds­
1
us,
ds
FALSE
100ds­
1
100
tk­
2
100tk­
2
Tunnel
kiln/
sawdus
t
dryer
Tunnel
kiln/
sawdus
t
dryer
Brick
2000
Sawdust
3.1
6.00
6.00
ds­
1
us,
ds
FALSE
100ds­
1A
101
dc­
1
101dc­
1
Dryer
Dryer
Brick
800
Natural
gas
4.43
5.31
us­
1
us
FALSE
101us­
1
101
dc­
2
101dc­
2
Dryer
Dryer
Brick
800
Natural
gas
4.43
5.31
us­
2
us
FALSE
101us­
2
101
dc­
3
101dc­
3
Dryer
Dryer
Brick
800
Waste
heat
10.63
us­
3
us
FALSE
101us­
3
101
dc­
4
101dc­
4
Dryer
Dryer
Brick
800
Waste
heat
10.63
us­
4
us
FALSE
101us­
4
101
ds­
1
101ds­
1
Sawdust
dryer
w/

cyclone
Sawdust
dryer
Sawdust
Waste
heat
us­
6,­
7
us
FALSE
101us­
6,­

7
101
tk­
1
101tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2000
Natural
gas
25.9
10.63
13.70
13.70
us­
5
us
FALSE
101us­
5
101
tk­
2
101tk­
2
Tunnel
kiln/
sawdus
t
dryer
Tunnel
kiln/
sawdus
t
dryer
Brick
2000
Sawdust
20.3
10.63
13.70
13.70
ds­
1
us,
ds
FALSE
101ds­
1
101
tk­
3
101tk­
3
Tunnel
kiln/
sawdus
t
dryer
Tunnel
kiln/
sawdus
t
dryer
Brick
2000
Sawdust
20.3
10.63
13.70
13.70
ds­
1
us,
ds
FALSE
101ds­
1A
102
dc­
1
102dc­
1
Dryer
Dryer
Brick
800
Waste
heat
5.33
us­
2
us
FALSE
102us­
2
102
dc­
2
102dc­
2
Dryer
Dryer
Brick
800
Waste
heat
3.45
us­
3
us
FALSE
102us­
3
102
ds­
1
102ds­
1
Sawdust
dryer
Sawdust
dryer
Sawdust
Waste
heat
us­
1
us
FALSE
102us­
1
102
tk­
1
102tk­
1
Tunnel
Tunnel
Brick
2000
Sawdust
32.5
5.33
9.22
9.22
ds­
1
us,
ds
FALSE
102ds­
1
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
108
kiln/
sawdus
t
dryer
kiln/
sawdus
t
dryer
102
tk­
2
102tk­
2
Tunnel
kiln/
sawdus
t
dryer
Tunnel
kiln/
sawdus
t
dryer
Brick
2000
Sawdust
21.5
3.45
5.97
5.97
ds­
1
us,
ds
FALSE
102ds­
1A
103
dc­
1
103dc­
1
Dryer
Dryer
Brick
350
Waste
heat
3.78
us­
7
us
FALSE
103us­
7
103
dc­
2
103dc­
2
Dryer
Dryer
Brick
350
Waste
heat
3.78
us­
8
us
FALSE
103us­
8
103
dc­
3
103dc­
3
Dryer
Dryer
Brick
350
Waste
heat
3.78
us­
9
us
FALSE
103us­
9
103
dc­
4
103dc­
4
Dryer
Dryer
Brick
350
Waste
heat
3.78
us­
10
us
FALSE
103us­
10
103
dc­
5
103dc­
5
Dryer
Dryer
Brick
350
Waste
heat
3.78
us­
11
us
FALSE
103us­
11
103
dc­
6
103dc­
6
Dryer
Dryer
Brick
350
Waste
heat
3.78
us­
12
us
FALSE
103us­
12
103
ds­
1
103ds­
1
Drum
dryer
with
cyclone
sawdust
dryer
Sawdust
160
Waste
heat
us­
2,­
3
us
FALSE
103us­
2,­

3
103
ds­
2
103ds­
2
Drum
dryer
with
cyclone
sawdust
dryer
Sawdust
150
Waste
heat
us­
1
us
FALSE
103us­
1
103
tk­
1
103tk­
1
Tunnel
kiln/
sawdus
t
dryer
Tunnel
kiln/
sawdus
t
dryer
Brick
2000
Sawdust
16
3.78
5.25
5.25
ds­
2
us,
ds
FALSE
103ds­
2
103
tk­
2
103tk­
2
Tunnel
kiln/
sawdus
t
dryer
Tunnel
kiln/
sawdus
t
dryer
Brick
2000
Sawdust
16
3.78
5.25
5.25
ds­
2
us,
ds
FALSE
103ds­
2A
103
tk­
3
103tk­
3
Tunnel
kiln/
sawdus
t
dryer
Tunnel
kiln/
sawdus
t
dryer
Brick
2000
Sawdust
16
3.78
5.25
5.25
ds­
1
us,
ds
FALSE
103ds­
1
103
tk­
4
103tk­
4
Tunnel
kiln/
sawdus
t
dryer
Tunnel
kiln/
sawdus
t
dryer
Brick
2000
Sawdust
16
3.78
5.25
5.25
ds­
1
us,
ds
FALSE
103ds­
1A
103
tk­
5
103tk­
5
Tunnel
kiln/
sawdus
t
dryer
Tunnel
kiln/
sawdus
t
dryer
Brick
2000
Sawdust
16
3.78
5.25
5.25
ds­
1
us,
ds
FALSE
103ds­
1B
103
tk­
6
103tk­
6
Tunnel
kiln/
sawdus
t
dryer
Tunnel
kiln/
sawdus
t
dryer
Brick
2000
Sawdust
16
3.78
5.25
5.25
ds­
1
us,
ds
FALSE
103ds­
1C
104
dc­
1
104dc­
1
Dryer
Dryer
Structural
Brick
200
Waste
heat
3
us­
2
us
FALSE
104us­
2
104
tk­
1
104tk­
1
Tunnel
kiln
Tunnel
kiln
Structural
Brick
1995
Sawdust
17.4
3
3.74
3.74
us­
3
us
FALSE
104us­
3
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
109
105
dp­
1
105dp­
1
Dryer
Dryer
Clay
pipe
flue
lining
300
wood
0.8
us­
7
us
FALSE
105us­
7
105
dp­
2
105dp­
2
Dryer
Dryer
Clay
pipe
flue
lining
300
wood
0.8
us­
8
us
FALSE
105us­
8
105
dp­
3
105dp­
3
Dryer
Dryer
Clay
pipe
flue
lining
300
wood
0.8
us­
9
us
FALSE
105us­
9
105
dp­
4
105dp­
4
Dryer
Dryer
Clay
pipe
flue
lining
300
wood
0.8
us­
10
us
FALSE
105us­
10
105
dp­
5
105dp­
5
Dryer
Dryer
Clay
pipe
flue
lining
300
wood
0.8
us­
11
us
FALSE
105us­
11
105
dp­
6
105dp­
6
Dryer
Dryer
Clay
pipe
flue
lining
300
wood
0.8
us­
12
us
FALSE
105us­
12
105
dp­
7
105dp­
7
Dryer
Dryer
Clay
pipe
flue
lining
300
wood
0.8
us­
13
us
FALSE
105us­
13
105
dp­
8
105dp­
8
Dryer
Dryer
Clay
pipe
flue
lining
300
wood
0.8
us­
14
us
FALSE
105us­
14
105
pk­
1
105pk­
1
Periodic
kiln
Periodic
kiln
Clay
pipe
flue
lining
2000
Sawdust
20
0.225
0.25
0.25
us­
1
us
FALSE
105us­
1
105
pk­
2
105pk­
2
Periodic
kiln
Periodic
kiln
Clay
pipe
flue
lining
2000
Sawdust
20
0.225
0.25
0.25
us­
2
us
FALSE
105us­
2
105
pk­
3
105pk­
3
Periodic
kiln
Periodic
kiln
Clay
pipe
flue
lining
2000
Sawdust
20
0.225
0.25
0.25
us­
3
us
FALSE
105us­
3
105
pk­
4
105pk­
4
Periodic
kiln
Periodic
kiln
Clay
pipe
flue
lining
2000
Sawdust
20
0.225
0.25
0.25
us­
4
us
FALSE
105us­
4
105
pk­
5
105pk­
5
Periodic
kiln
Periodic
kiln
Clay
pipe
flue
lining
2000
Natural
gas
20
0.225
0.25
0.25
us­
5
us
FALSE
105us­
5
105
PK­
6
105PK­
6
Periodic
kiln­
idle
Periodic
kiln­
idle
Clay
pipe
flue
lining
Natural
gas
0
0.25
0.25
US­
15
us
FALSE
105US­
15
105
tk­
1
105tk­
1
Tunnel
kiln
Tunnel
kiln
Clay
pipe
flue
lining
2000
Sawdust
13.3
2.3
3.07
3.07
us­
6
us
FALSE
105us­
6
106
dp­
1
106dp­
1
Dryer
Dryer
Clay
pipe
230
Natural
gas
432
us­
1
us
FALSE
106us­
1
106
dp­
10
106dp­
10
Dryer
Dryer
Clay
pipe
230
Natural
gas
432
us­
10
us
FALSE
106us­
10
106
dp­
11
106dp­
11
Dryer
Dryer
Clay
pipe
230
Natural
gas
432
us­
11
us
FALSE
106us­
11
106
dp­
12
106dp­
12
Dryer
Dryer
Clay
pipe
230
Natural
gas
432
us­
12
us
FALSE
106us­
12
106
dp­
2
106dp­
2
Dryer
Dryer
Clay
pipe
230
Natural
gas
432
us­
2
us
FALSE
106us­
2
106
dp­
3
106dp­
3
Dryer
Dryer
Clay
pipe
230
Natural
gas
432
us­
3
us
FALSE
106us­
3
106
dp­
4
106dp­
4
Dryer
Dryer
Clay
pipe
230
Natural
gas
432
us­
4
us
FALSE
106us­
4
106
dp­
5
106dp­
5
Dryer
Dryer
Clay
pipe
230
Natural
gas
432
us­
5
us
FALSE
106us­
5
106
dp­
6
106dp­
6
Dryer
Dryer
Clay
pipe
230
Natural
gas
432
us­
6
us
FALSE
106us­
6
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
110
106
dp­
7
106dp­
7
Dryer
Dryer
Clay
pipe
230
Natural
gas
432
us­
7
us
FALSE
106us­
7
106
dp­
8
106dp­
8
Dryer
Dryer
Clay
pipe
230
Natural
gas
432
us­
8
us
FALSE
106us­
8
106
dp­
9
106dp­
9
Dryer
Dryer
Clay
pipe
230
Natural
gas
432
us­
9
us
FALSE
106us­
9
106
pk­
1
106pk­
1
Periodic
kiln
Periodic
kiln
Clay
pipe
2000
Natural
gas
720
0.514
0.71
0.71
us­
13,­

14
us
FALSE
106us­

13,­
14
106
pk­
2
106pk­
2
beehive
kiln
periodic
kiln
Clay
pipe
2000
Natural
gas
720
0.514
0.71
0.71
us­
15,­

16
us
FALSE
106us­

15,­
16
106
pk­
3
106pk­
3
beehive
kiln
periodic
kiln
Clay
pipe
2000
Natural
gas
720
0.514
0.71
0.71
us­
17,­

18
us
FALSE
106us­

17,­
18
106
pk­
4
106pk­
4
beehive
kiln
periodic
kiln
Clay
pipe
2000
Natural
gas
720
0.514
0.71
0.71
us­
19,­

20
us
FALSE
106us­

19,­
20
107
dp­
1
107dp­
1
Dryer
Dryer
Clay
pipe
230
Natural
gas
432
us­
1
us
FALSE
107us­
1
107
dp­
2
107dp­
2
Dryer
Dryer
Clay
pipe
230
Natural
gas
432
us­
2
us
FALSE
107us­
2
107
pk­
1
107pk­
1
Periodic
kiln
Periodic
kiln
Clay
pipe
2000
Natural
gas
120
720
0.856
1.43
1.43
us­
3
us
FALSE
107us­
3
107
pk­
2
107pk­
2
Periodic
kiln
Periodic
kiln
Clay
pipe
2000
Natural
gas
120
720
0.856
1.43
1.43
us­
4
us
FALSE
107us­
4
108
dp­
1
108dp­
1
Dryer
Dryer
Clay
pipe
230
Natural
gas
432
us­
1
us
FALSE
108us­
1
108
dp­
2
108dp­
2
Dryer
Dryer
Clay
pipe
230
Natural
gas
432
us­
2
us
FALSE
108us­
2
108
pk­
1
108pk­
1
Periodic
kiln
Periodic
kiln
Clay
pipe
2000
Natural
gas
720
0.14
0.14
0.14
us­
3
us
FALSE
108us­
3
108
PK­
10
108PK­
10
Periodic
kiln
Periodic
kiln
Clay
pipe
2000
Natural
gas
720
0.14
0.14
0.14
US­
10
us
FALSE
108US­
10
108
PK­
11
108PK­
11
Periodic
kiln­
idle
Periodic
kiln­
idle
Clay
pipe
Natural
gas
0
0.14
0.14
US­
11
us
FALSE
108US­
11
108
PK­
12
108PK­
12
Periodic
kiln­
idle
Periodic
kiln­
idle
Clay
pipe
Natural
gas
0
0.14
0.14
US­
12
us
FALSE
108US­
12
108
PK­
13
108PK­
13
Periodic
kiln­
idle
Periodic
kiln­
idle
Clay
pipe
Natural
gas
0
0.14
0.14
US­
13
us
FALSE
108US­
13
108
PK­
14
108PK­
14
Periodic
kiln­
idle
Periodic
kiln­
idle
Clay
pipe
Natural
gas
0
0.14
0.14
US­
14
us
FALSE
108US­
14
108
PK­
15
108PK­
15
Periodic
kiln­
idle
Periodic
kiln­
idle
Clay
pipe
Natural
gas
0
0.14
0.14
US­
15
us
FALSE
108US­
15
108
PK­
16
108PK­
16
Periodic
kiln­
idle
Periodic
kiln­
idle
Clay
pipe
Natural
gas
0
0.14
0.14
US­
16
us
FALSE
108US­
16
108
PK­
17
108PK­
17
Periodic
kiln­
idle
Periodic
kiln­
idle
Clay
pipe
Natural
gas
0
0.14
0.14
US­
17
us
FALSE
108US­
17
108
PK­
18
108PK­
18
Periodic
kiln­
idle
Periodic
kiln­
idle
Clay
pipe
Natural
gas
0
0.14
0.14
US­
18
us
FALSE
108US­
18
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
111
108
PK­
19
108PK­
19
Periodic
kiln­
idle
Periodic
kiln­
idle
Clay
pipe
Natural
gas
0
0.14
0.14
US­
19
us
FALSE
108US­
19
108
pk­
2
108pk­
2
Periodic
kiln
Periodic
kiln
Clay
pipe
2000
Natural
gas
720
0.14
0.14
0.14
us­
3
us
FALSE
108us­
3
108
PK­
20
108PK­
20
Periodic
kiln­
idle
Periodic
kiln­
idle
Clay
pipe
Natural
gas
0
0.14
0.14
US­
20
us
FALSE
108US­
20
108
PK­
21
108PK­
21
Periodic
kiln­
idle
Periodic
kiln­
idle
Clay
pipe
Natural
gas
0
0.14
0.14
US­
21
us
FALSE
108US­
21
108
pk­
3
108pk­
3
Periodic
kiln
Periodic
kiln
Clay
pipe
2000
Natural
gas
720
0.14
0.14
0.14
us­
4
us
FALSE
108us­
4
108
pk­
4
108pk­
4
Periodic
kiln
Periodic
kiln
Clay
pipe
2000
Natural
gas
720
0.14
0.14
0.14
us­
4
us
FALSE
108us­
4
108
pk­
5
108pk­
5
Periodic
kiln
Periodic
kiln
Clay
pipe
2000
Natural
gas
720
0.14
0.14
0.14
us­
5
us
FALSE
108us­
5
108
pk­
6
108pk­
6
Periodic
kiln
Periodic
kiln
Clay
pipe
2000
Natural
gas
720
0.14
0.14
0.14
us­
6
us
FALSE
108us­
6
108
pk­
7
108pk­
7
Periodic
kiln
Periodic
kiln
Clay
pipe
2000
Natural
gas
720
0.14
0.14
0.14
us­
7
us
FALSE
108us­
7
108
pk­
8
108pk­
8
Periodic
kiln
Periodic
kiln
Clay
pipe
2000
Natural
gas
720
0.14
0.14
0.14
us­
8
us
FALSE
108us­
8
108
PK­
9
108PK­
9
Periodic
kiln
Periodic
kiln
Clay
pipe
2000
Natural
gas
720
0.14
0.14
0.14
US­
9
us
FALSE
108US­
9
109
dp­
1
109dp­
1
Dryer
Dryer
Clay
pipe
flue
liners
230
Natural
gas
432
us­
1
us
FALSE
109us­
1
109
dp­
2
109dp­
2
Dryer
Dryer
Clay
pipe
flue
liners
230
Natural
gas
432
us­
2
us
FALSE
109us­
2
109
dp­
3
109dp­
3
Dryer
Dryer
Clay
pipe
flue
liners
230
Natural
gas
432
us­
3
us
FALSE
109us­
3
109
dp­
4
109dp­
4
Dryer
Dryer
Clay
pipe
flue
liners
230
Natural
gas
432
us­
4
us
FALSE
109us­
4
109
pk­
1
109pk­
1
Periodic
kiln
Periodic
kiln
Clay
pipe
flue
liners
2000
Natural
gas
720
0.2
0.57
0.57
us­
5
us
FALSE
109us­
5
109
pk­
2
109pk­
2
Periodic
kiln
Periodic
kiln
Clay
pipe
flue
liners
2000
Natural
gas
720
0.2
0.57
0.57
us­
5
us
FALSE
109us­
5
109
pk­
3
109pk­
3
Periodic
kiln
Periodic
kiln
Clay
pipe
flue
liners
2000
Natural
gas
720
0.2
0.57
0.57
us­
6
us
FALSE
109us­
6
109
PK­
4
109PK­
4
Periodic
kiln­
idle
Periodic
kiln­
idle
Clay
pipe
flue
liners
Natural
gas
0
0.57
0.57
US­
7
us
FALSE
109US­
7
109
PK­
5
109PK­
5
Periodic
Periodic
Clay
pipe
Natural
gas
0
0.57
0.57
US­
8
us
FALSE
109US­
8
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
112
kiln­
idle
kiln­
idle
flue
liners
11
dc­
1
11dc­
1
Tunnel
dryer
dryer
Brick
450
waste
heat
10.7
us­
1
us
FALSE
11us­
1
11
misc­
2
11misc­
2
Preheater
Predryer
Brick
250
waste
heat
10.7
us­
2
us
FALSE
11us­
2
11
tk­
1
11tk­
1
tunnel
kiln
tunnel
kiln
Brick
2030
natural
gas
29.4
10.7
11.64
11.64
us­
3
us
FALSE
11us­
3
110
dc­
1
110dc­
1
Brick
dryer
dryer
Brick
300
Waste
heat
2.88
us­
2
us
FALSE
110us­
2
110
tk­
1
110tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2000
Natural
gas
2.57
3.08
3.08
us­
1
us
FALSE
110us­
1
111
dc­
1
111dc­
1
Brick
dryer
dryer
Brick
250
waste
heat/
natural
gas
8.73
us­
1
to
us­
6
us
FALSE
111us­
1
to
us­
6
111
dr­
1
111dr­
1
Sand
dryer
Sand
dryer
Dry
sand
400
Natural
gas
bhi­
4
bh
FALSE
111bhi­
4
111
misc­
1
111misc­
1
Pre­
heater
Predryer
Brick
450
Waste
heat
8.73
us­
7
us
FALSE
111us­
7
111
tk­
1
111tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2000
Natural
gas
8.73
9.76
9.76
us­
8
us
FALSE
111us­
8
112
dc­
1
112dc­
1
Dryer
Dryer
Brick
400
waste
heat/
natural
gas
6.67
us­
3
to
us­
5
us
FALSE
112us­
3
to
us­
5
112
dc­
2
112dc­
2
Dryer
Dryer
Brick
400
sawdust/
nat
ural
gas
8.61
us­
6
us
FALSE
112us­
6
112
dc­
3
112dc­
3
Dryer
Dryer
Brick
400
waste
heat/
natural
gas
8.61
us­
7
us
FALSE
112us­
7
112
dc­
4
112dc­
4
Dryer
Dryer
Brick
350
waste
heat/
natural
gas
3.08
us­
14
us
FALSE
112us­
14
112
dc­
5
112dc­
5
Dryer
Dryer
Brick
350
waste
heat/
natural
gas
3.08
us­
15
us
FALSE
112us­
15
112
dc­
6
112dc­
6
Dryer
Dryer
Brick
350
waste
heat/
natural
gas
3.08
us­
16
us
FALSE
112us­
16
112
dr­
1
112dr­
1
Sand
dryer
Sand
dryer
Sand
400
Natural
gas
bh­
6
bh
FALSE
112bh­
6
112
misc­
1
112misc­
1
Pre­
heater
Predryer
Brick
400
Natural
gas
us­
17
us
FALSE
112us­
17
112
MISC­
2
112misc­
2
Mud
dryer
Mud
dryer
Brick
300
Natural
gas
3.33
bhi­
7
bh
FALSE
112bhi­
7
112
MISC­
3
112misc­
3
Mud
dryer
Mud
dryer
Brick
300
Natural
gas
3.33
bhi­
8
bh
FALSE
112bhi­
8
112
MISC­
4
112MISC­

4
Glaze
set
shuttle
kiln
Glaze
set
kiln
Brick
1200
Natural
gas
12
30
tons
us­
10,­

18
us
FALSE
112us­

10,­
18
112
pk­
1
112pk­
1
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
1
us
FALSE
112us­
1
112
pk­
10
112pk­
10
Periodic
Periodic
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
1
us
FALSE
112us­
1
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
113
kiln
kiln
112
pk­
11
112pk­
11
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
2
us
FALSE
112us­
2
112
pk­
12
112pk­
12
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
2
us
FALSE
112us­
2
112
pk­
13
112pk­
13
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
2
us
FALSE
112us­
2
112
pk­
14
112pk­
14
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
2
us
FALSE
112us­
2
112
pk­
15
112pk­
15
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
2
us
FALSE
112us­
2
112
pk­
16
112pk­
16
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
2
us
FALSE
112us­
2
112
pk­
17
112pk­
17
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
2
us
FALSE
112us­
2
112
pk­
18
112pk­
18
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
2
us
FALSE
112us­
2
112
pk­
19
112pk­
19
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
2
us
FALSE
112us­
2
112
pk­
2
112pk­
2
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
1
us
FALSE
112us­
1
112
pk­
20
112pk­
20
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
2
us
FALSE
112us­
2
112
pk­
3
112pk­
3
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
1
us
FALSE
112us­
1
112
pk­
4
112pk­
4
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
1
us
FALSE
112us­
1
112
pk­
5
112pk­
5
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
1
us
FALSE
112us­
1
112
pk­
6
112pk­
6
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
1
us
FALSE
112us­
1
112
pk­
7
112pk­
7
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
1
us
FALSE
112us­
1
112
pk­
8
112pk­
8
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
1
us
FALSE
112us­
1
112
pk­
9
112pk­
9
Periodic
kiln
Periodic
kiln
Brick
2000
Natural
gas
600
310
tons
0.321
0.32
0.32
us­
1
us
FALSE
112us­
1
112
tk­
1
112tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2000
Natural
gas
5.74
5.78
5.78
us­
8
us
FALSE
112us­
8
112
tk­
2
112tk­
2
Tunnel
kiln
Tunnel
kiln
Brick
2000
Natural
gas
5.74
5.78
5.78
us­
8
us
FALSE
112us­
8
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
114
112
tk­
3
112tk­
3
Tunnel
kiln
Tunnel
kiln
Brick
2000
Natural
gas
5.74
5.78
5.78
us­
9
us
FALSE
112us­
9
112
tk­
4
112tk­
4
Tunnel
kiln
Tunnel
kiln
Brick
2000
Natural
gas
3.08
3.48
3.48
us­
11
us
FALSE
112us­
11
112
tk­
5
112tk­
5
Tunnel
kiln
Tunnel
kiln
Brick
2000
Natural
gas
3.08
3.48
3.48
us­
12
us
FALSE
112us­
12
112
tk­
6
112tk­
6
Tunnel
kiln
Tunnel
kiln
Brick
2000
Natural
gas
3.08
3.48
3.48
us­
13
us
FALSE
112us­
13
113
dc­
1
113dc­
1
Brick
dryer
dryer
Structural
brick
350
Waste
heat
3.2
us­
2
us
FALSE
113us­
2
113
dp­
1
113dp­
1
Batch
dryer
dryer
Structural
brick
180
waste
heat/
natural
gas
1.4
12
150
tons
us­
3,­
4
us
FALSE
113us­
3,­

4
113
tk­
1
113tk­
1
Tunnel
kiln
Tunnel
kiln
Structural
brick
2050
Natural
gas
9.67
3.2
5.25
5.25
us­
1
us
FALSE
113us­
1
114
dc­
1
114dc­
1
Dryer
Dryer
Structural
and
facing
brick
160
Waste
heat
2.68
us­
2
us
FALSE
114us­
2
114
tk­
1
114tk­
1
Tunnel
kiln
Tunnel
kiln
Structural
&
facing
brick
1970
Natural
gas
8.9
2.68
13.69
13.69
us­
1
us
FALSE
114us­
1
115
dc­
1
115dc­
1
Dryer
Dryer
Structural
tile
350
Waste
heat
3.1
us­
2
us
FALSE
115us­
2
115
tk­
1
115tk­
1
Tunnel
kiln
Tunnel
kiln
Structural
brick
2000
Natural
gas
14.2
3.1
3.88
3.88
us­
1
us
FALSE
115us­
1
116
dc­
1
116dc­
1
Dryer
Dryer
Structural
brick
Waste
heat
4.8
us­
1,­
2
us
FALSE
116us­
1,­

2
116
pk­
1
116pk­
1
periodic
kiln­
idle
periodic
kiln­
idle
Brick
Natural
gas
0
0.04
0.04
us­
4
us
FALSE
116us­
4
116
PK­
2
116PK­
2
periodic
kiln­
idle
periodic
kiln­
idle
Brick
Natural
gas
0
0.04
0.04
US­
5
us
FALSE
116US­
5
116
PK­
3
116PK­
3
periodic
kiln­
idle
periodic
kiln­
idle
Brick
Natural
gas
0
0.04
0.04
US­
6
us
FALSE
116US­
6
116
PK­
4
116PK­
4
periodic
kiln­
idle
periodic
kiln­
idle
Brick
Natural
gas
0
0.04
0.04
US­
7
us
FALSE
116US­
7
116
PK­
5
116PK­
5
periodic
kiln­
idle
periodic
kiln­
idle
Brick
Natural
gas
0
0.04
0.04
US­
8
us
FALSE
116US­
8
116
PK­
6
116PK­
6
periodic
kiln­
idle
periodic
kiln­
idle
Brick
Natural
gas
0
0.04
0.04
US­
9
us
FALSE
116US­
9
116
PK­
7
116PK­
7
periodic
kiln­
idle
periodic
kiln­
idle
Brick
Natural
gas
0
0.04
0.04
US­
10
us
FALSE
116US­
10
116
tk­
1
116tk­
1
Tunnel
kiln
Tunnel
kiln
Structural
brick
2260
Natural
gas
4.8
4.80
4.80
us­
3
us
FALSE
116us­
3
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
115
117
dc­
1
117dc­
1
Dryer
Dryer
Structural
brick
280
other­
steam
us­
1,­
2
us
FALSE
117us­
1,­

2
117
dc­
2
117dc­
2
Dryer
Dryer
Structural
brick
280
other­
steam
us­
3,­
4
us
FALSE
117us­
3,­

4
117
dc­
3
117dc­
3
Dryer
Dryer
Structural
brick
280
steam
us­
5,­
6
us
FALSE
117us­
5,­

6
117
dc­
4
117dc­
4
Dryer
Dryer
Structural
brick
280
steam
us­
7,­
8
us
FALSE
117us­
7,­

8
117
dc­
5
117dc­
5
Dryer
Dryer
Structural
tile
280
steam
us­
9,­

10
us
FALSE
117us­
9,­

10
117
pk­
1
117pk­
1
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
15,­

16
us
FALSE
117us­

15,­
16
117
pk­
10
117pk­
10
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
27
us
FALSE
117us­
27
117
pk­
11
117pk­
11
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
28
us
FALSE
117us­
28
117
pk­
12
117pk­
12
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
19
us
FALSE
117us­
19
117
pk­
13
117pk­
13
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
30
us
FALSE
117us­
30
117
pk­
14
117pk­
14
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
31
us
FALSE
117us­
31
117
pk­
15
117pk­
15
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
32
us
FALSE
117us­
32
117
pk­
16
117pk­
16
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
33
us
FALSE
117us­
33
117
pk­
17
117pk­
17
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
34
us
FALSE
117us­
34
117
pk­
18
117pk­
18
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
35
us
FALSE
117us­
35
117
pk­
19
117pk­
19
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
36
us
FALSE
117us­
36
117
pk­
2
117pk­
2
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
17,­

18
us
FALSE
117us­

17,­
18
117
pk­
20
117pk­
20
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
37
us
FALSE
117us­
37
117
pk­
21
117pk­
21
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
38
us
FALSE
117us­
38
117
pk­
22
117pk­
22
Periodic
Periodic
Structural
1960
Natural
gas
0.051
0.11
0.11
us­
39
us
FALSE
117us­
39
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
116
kiln
kiln
brick
117
pk­
23
117pk­
23
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
40
us
FALSE
117us­
40
117
pk­
24
117pk­
24
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
41
us
FALSE
117us­
41
117
pk­
25
117pk­
25
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
42
us
FALSE
117us­
42
117
pk­
26
117pk­
26
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
43
us
FALSE
117us­
43
117
pk­
27
117pk­
27
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
44
us
FALSE
117us­
44
117
pk­
28
117pk­
28
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
45
us
FALSE
117us­
45
117
pk­
29
117pk­
29
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
46
us
FALSE
117us­
46
117
pk­
3
117pk­
3
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
19,­

20
us
FALSE
117us­

19,­
20
117
pk­
30
117pk­
30
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
47
us
FALSE
117us­
47
117
pk­
31
117pk­
31
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
48
us
FALSE
117us­
48
117
pk­
32
117pk­
32
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
49
us
FALSE
117us­
49
117
pk­
33
117pk­
33
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
50
us
FALSE
117us­
50
117
pk­
34
117pk­
34
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
51
us
FALSE
117us­
51
117
pk­
35
117pk­
35
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
tons
0.051
0.11
0.11
us­
52
us
FALSE
117us­
52
117
pk­
36
117pk­
36
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
53
us
FALSE
117us­
53
117
pk­
37
117pk­
37
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
54
us
FALSE
117us­
54
117
pk­
38
117pk­
38
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
55
us
FALSE
117us­
55
117
pk­
39
117pk­
39
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
56
us
FALSE
117us­
56
117
pk­
4
117pk­
4
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
21
us
FALSE
117us­
21
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
117
117
pk­
40
117pk­
40
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
57
us
FALSE
117us­
57
117
pk­
41
117pk­
41
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
58
us
FALSE
117us­
58
117
pk­
42
117pk­
42
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
59
us
FALSE
117us­
59
117
pk­
43
117pk­
43
Shuttle
kiln
periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
60
us
FALSE
117us­
60
117
pk­
5
117pk­
5
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
22
us
FALSE
117us­
22
117
pk­
6
117pk­
6
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
23
us
FALSE
117us­
23
117
pk­
7
117pk­
7
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
24
us
FALSE
117us­
24
117
pk­
8
117pk­
8
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
25
us
FALSE
117us­
25
117
pk­
9
117pk­
9
Periodic
kiln
Periodic
kiln
Structural
brick
1960
Natural
gas
0.051
0.11
0.11
us­
26
us
FALSE
117us­
26
118
dc­
1
118dc­
1
Dryer
Dryer
Face
brick
350
Waste
heat
2.43
us­
1
us
FALSE
118us­
1
118
dc­
2
118dc­
2
Dryer
Dryer
Face
brick
350
Waste
heat
7.04
us­
2
us
FALSE
118us­
2
118
dc­
3
118dc­
3
Dryer
Dryer
Face
brick
350
Waste
heat
3.64
us­
3
us
FALSE
118us­
3
118
tk­
1
118tk­
1
Tunnel
kiln
Tunnel
kiln
Face
brick
2030
Natural
gas
6.59
3.04
3.04
3.04
us­
4
us
FALSE
118us­
4
118
tk­
2
118tk­
2
Tunnel
kiln
Tunnel
kiln
Face
brick
2140
Natural
gas
17.1
7.04
7.04
7.04
us­
5
us
FALSE
118us­
5
118
tk­
3
118tk­
3
Tunnel
kiln
Tunnel
kiln
Face
brick
2030
Natural
gas
8.11
3.04
3.04
3.04
us­
6
us
FALSE
118us­
6
119
dc­
1
119dc­
1
Dryer
Dryer
Face
brick
450
Waste
heat
5.9
us­
1
us
FALSE
119us­
1
119
dc­
2
119dc­
2
Dryer
Dryer
Face
brick
450
Waste
heat
5.9
us­
2
us
FALSE
119us­
2
119
misc­
1
119misc­
1
Holding
room
predryer
Face
brick
100
Waste
heat
11.79
us­
3
us
FALSE
119us­
3
119
tk­
1
119tk­
1
Tunnel
kiln
Tunnel
kiln
Face
brick
2130
Natural
gas
63.071
11.79
12.00
12.00
us­
4
us
FALSE
119us­
4
12
dc­
1
12d­
1
Dryer
Dryer
Brick
450
waste
heat
2.53
us­
6,­
7
us
FALSE
12us­
6,­
7
12
dc­
2
12d2
Dryer
Dryer
Brick
450
waste
heat
2.53
us­
6,­
7
us
FALSE
12us­
6,­
7
12
dc­
3
12d­
3
Dryer
Dryer
Brick
450
waste
heat
2.53
us­
6,­
7
us
FALSE
12us­
6,­
7
12
dc­
4
12d­
4
Dryer
Dryer
Brick
450
waste
heat
2.53
us­
6,­
7
us
FALSE
12us­
6,­
7
12
dr­
1
12dr­
1
rotary
sand
dryer
Sand
dryer
sand
250
natural
gas
0.33
8
3
tons
us­
1
us
FALSE
12us­
1
12
misc­
6
12misc­
6
holding
room
predryer
brick
100
waste
heat
10.1
us­
2
to
us­
5
us
FALSE
12us­
2
to
us­
5
12
tk­
1
12tk­
1
tunnel
kiln
tunnel
kiln
brick
2100
natural
gas
14.7
5.05
6.67
6.67
us­
8
us
FALSE
12us­
8
12
tk­
2
12tk­
2
tunnel
kiln
tunnel
kiln
brick
2100
natural
gas
5.05
6.67
6.67
us­
9
us
FALSE
12us­
9
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
118
120
dc­
1
120dc­
1
Brick
dryer
dryer
Face
brick
400
Waste
heat
3.5
us­
2
us
FALSE
120us­
2
120
tk­
1
120tk­
1
Tunnel
kiln
Tunnel
kiln
Face
brick
2000
Natural
gas
15
3.5
4.43
4.43
us­
1
us
FALSE
120us­
1
121
dc­
1
121dc­
1
Brick
dryer
dryer
Face
brick
400
Waste
heat
5.4
us­
2
us
FALSE
121us­
2
121
tk­
1
121tk­
1
Tunnel
kiln
Tunnel
kiln
Face
brick
1800
Natural
gas
14
5.1
6.28
6.28
us­
1
us
FALSE
121us­
1
122
dc­
1
122dc­
1
Tunnel
dryer
dryer
Structural
brick
450
Waste
heat
4.76
us­
3,­
4
us
FALSE
122us­
3,­

4
122
dr­
1
122dr­
1
Rotary
dryer
Sand
dryer
Clay
650
#
2
fuel
oil
13.24
1
hr
8
tons/
hr
us­
1
us
FALSE
122us­
1
122
dr­
2
122dr­
2
Rotary
sand
dryer
Sand
dryer
Sand
550
Natural
gas
1
hr
1
ton/
hr
us­
2
us
FALSE
122us­
2
122
tk­
1
122tk­
1
Tunnel
kiln
Tunnel
kiln
Structural
brick
2040
Natural
gas
16.25
4.76
8.82
8.82
us­
5
us
FALSE
122us­
5
123
dp­
1
123dp­
1
Dryer
Dryer
Large
pipe
210
Waste
heat
264
us­
10
us
FALSE
123us­
10
123
dp­
2
123dp­
2
Dryer
Dryer
Large
pipe
210
Waste
heat
264
us­
10
us
FALSE
123us­
10
123
dp­
3a
123dp­
3a
Dryer
Dryer
Large
pipe
210
Waste
heat
144
us­
10
us
FALSE
123us­
10
123
dp­
3b
123dp­
3b
Dryer
Dryer
roof
tile,

brick,

small
pipe
210
Waste
heat
60
us­
10
us
FALSE
123us­
10
123
dp­
4
123dp­
4
Dryer
Dryer
large
210
Waste
heat
144
us­
10
us
FALSE
123us­
10
123
DP­
5
123dp­
5
Dryer
Dryer
large
pipe
210
Waste
heat
144
US­
10
us
FALSE
123US­
10
123
dp­
6
123dp­
6
Dryer
Dryer
roof
tile,

brick,

small
pipe
210
Waste
heat
60
us­
10
us
FALSE
123us­
10
123
dp­
7
123dp­
7
Dryer
Dryer
roof
tile,

brick,

small
pipe
210
Waste
heat
60
US­
10
us
FALSE
123US­
10
123
dp­
8
123dp­
8
Dryer
Dryer
roof
tile
brick
small
pipe
210
Waste
heat
60
24
tons
us­
10
us
FALSE
123us­
10
123
dp­
9
123dp­
9
Dryer
Dryer
glazed
terra
cotta
350
Natural
gas
4.8
0.22
us­
9
us
FALSE
123us­
9
123
pk­
1
123pk­
1
beehive
kiln
periodic
kiln
large
pipe
2000
Natural
gas
420
0.091
3
0.11
0.11
us­
1
us
FALSE
123us­
1
123
pk­
10
123pk­
10
beehive
kiln
periodic
kiln
large
pipe
2000
Natural
gas
120
720
0.091
3
0.11
0.11
us­
4
us
FALSE
123us­
4
123
pk­
11
123pk­
11
beehive
kiln
periodic
kiln
large
pipe
2000
Natural
gas
120
720
0.091
3
0.11
0.11
us­
4
us
FALSE
123us­
4
123
pk­
12
123pk­
12
beehive
kiln
periodic
kiln
large
pipe
2000
Natural
gas
120
720
0.091
3
0.11
0.11
us­
4
us
FALSE
123us­
4
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
119
123
pk­
13
123pk­
13
beehive
kiln
periodic
kiln
large
pipe
2000
Natural
gas
120
720
0.091
3
0.11
0.11
us­
4
us
FALSE
123us­
4
123
pk­
14
123pk­
14
shuttle
kiln
periodic
kiln
glazed
terra
cotta
2050
Natural
gas
14.28
36
0.1
0.13
0.13
us­
7
us
FALSE
123us­
7
123
pk­
15
123pk­
15
shuttle
kiln
periodic
kiln
roof
tile
2050
Natural
gas
8.64
0.6
0.68
0.68
us­
6
us
FALSE
123us­
6
123
pk­
2
123pk­
2
beehive
kiln
periodic
kiln
large
pipe
2000
Natural
gas
120
720
0.091
3
0.11
0.11
us­
1
us
FALSE
123us­
1
123
pk­
3
123pk­
3
beehive
kiln
periodic
kiln
large
pipe
2000
Natural
gas
120
720
0.091
3
0.11
0.11
us­
1
us
FALSE
123us­
1
123
pk­
4
123pk­
4
beehive
kiln
periodic
kiln
large
pipe
2000
Natural
gas
120
720
0.091
3
0.11
0.11
us­
2
us
FALSE
123us­
2
123
pk­
5
123pk­
5
beehive
kiln
periodic
kiln
large
pipe
2000
Natural
gas
120
720
0.091
3
0.11
0.11
us­
2
us
FALSE
123us­
2
123
pk­
6
123pk­
6
beehive
kiln
periodic
kiln
large
pipe
2000
Natural
gas
120
720
0.091
3
0.11
0.11
us­
2
us
FALSE
123us­
2
123
pk­
7
123pk­
7
beehive
kiln
periodic
kiln
large
pipe
2000
Natural
gas
120
720
0.091
3
0.11
0.11
us­
3
us
FALSE
123us­
3
123
pk­
8
123pk­
8
beehive
kiln
periodic
kiln
large
pipe
2000
Natural
gas
120
720
0.091
3
0.11
0.11
us­
3
us
FALSE
123us­
3
123
pk­
9
123pk­
9
beehive
kiln
periodic
kiln
large
pipe
2000
Natural
gas
120
720
0.091
3
0.11
0.11
us­
3
us
FALSE
123us­
3
123
tk­
1
123tk­
1
Tunnel
kiln
Tunnel
kiln
small
pipe,
brick
unglazed
roof
2000
Natural
gas
8.6
1.6
3.15
3.15
us­
5
us
FALSE
123us­
5
123
tk­
2
123tk­
2
Tunnel
kiln
Tunnel
kiln
small
pipe,
brick
unglazed
roof
2000
Natural
gas
3.5
0.29
0.57
0.57
us­
8
us
FALSE
123us­
8
123
tk­
3
123tk­
3
Tunnel
kiln­
idle
Tunnel
kiln­
idle
3.2
0
0.50
0.50
us­
11
us
FALSE
123us­
11
124
dc­
1
124dc­
1
Dryer
Dryer
Brick
340
Waste
heat
7.3
us­
2
us
FALSE
124us­
2
124
tk­
1
124tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
1860
Natural
gas
7.3
7.98
7.98
us­
3
us
FALSE
124us­
3
125
dc­
1
125dc­
1
Dryer
Dryer
Brick
300
Waste
heat
9.25
us­
1
us
FALSE
125us­
1
125
pk­
1
125pk­
1
round
kiln
Periodic
kiln
Brick
2100
Natural
gas
78
13.3
tons
1.85
1.96
1.96
us­
2
us
FALSE
125us­
2
125
pk­
2
125pk­
2
round
kiln
Periodic
kiln
Brick
2100
Natural
gas
78
13.3
tons
1.85
1.96
1.96
us­
3
us
FALSE
125us­
3
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
120
125
pk­
3
125pk­
3
round
kiln
Periodic
kiln
Brick
2100
Natural
gas
78
13.3
tons
1.85
1.96
1.96
us­
4
us
FALSE
125us­
4
125
pk­
4
125pk­
4
round
kiln
Periodic
kiln
Brick
2100
Natural
gas
78
13.3
tons
1.85
1.96
1.96
us­
5
us
FALSE
125us­
5
125
pk­
5
125pk­
5
round
kiln
Periodic
kiln
Brick
2100
Natural
gas
78
13.3
tons
1.85
1.96
1.96
us­
6
us
FALSE
125us­
6
126
dc­
1
126dc­
1
Dryer
Dryer
Brick
300
Waste
heat
8.2
us­
7
us
FALSE
126us­
7
126
misc­
1
126misc­
1
Holding
room
predryer
Brick
150
Waste
heat
8.2
us­
8
us
FALSE
126us­
8
126
pk­
1
126pk­
1
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
78
13.3
tons
1.367
1.60
1.60
us­
1
us
FALSE
126us­
1
126
pk­
2
126pk­
2
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
78
13.3
tons
1.367
1.60
1.60
us­
2
us
FALSE
126us­
2
126
pk­
3
126pk­
3
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
78
13.3
tons
1.367
1.60
1.60
us­
3
us
FALSE
126us­
3
126
pk­
4
126pk­
4
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
78
13.3
tons
1.367
1.60
1.60
us­
4
us
FALSE
126us­
4
126
pk­
5
126pk­
5
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
78
13.3
tons
1.367
1.60
1.60
us­
5
us
FALSE
126us­
5
126
pk­
6
126pk­
6
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
78
13.3
tons
1.367
1.60
1.60
us­
6
us
FALSE
126us­
6
127
dc­
1
127dc­
1
Dryer
Dryer
Brick
300
waste
heat/
natural
gas
6
us­
7,­
8
us
FALSE
127us­
7,­

8
127
pk­
1
127pk­
1
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
78
13.3
tons
0.996
1.71
1.71
us­
1
us
FALSE
127us­
1
127
pk­
2
127pk­
2
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
78
13.3
tons
0.996
1.71
1.71
us­
2
us
FALSE
127us­
2
127
pk­
3
127pk­
3
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
78
13.3
tons
0.996
1.71
1.71
us­
3
us
FALSE
127us­
3
127
pk­
4
127pk­
4
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
78
13.3
tons
0.996
1.71
1.71
us­
4
us
FALSE
127us­
4
127
pk­
5
127pk­
5
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
78
13.3
tons
0.996
1.71
1.71
us­
5
us
FALSE
127us­
5
127
pk­
6
127pk­
6
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
78
13.3
tons
0.996
1.71
1.71
us­
6
us
FALSE
127us­
6
128
dc­
1
128dc­
1
Dryer
Dryer
Brick
300
Waste
heat
11
us­
1
us
FALSE
128us­
1
128
dc­
2
128dc­
2
Dryer
Dryer
Brick
300
Waste
heat
11
us­
2
us
FALSE
128us­
2
128
misc­
1
128misc­
1
Holding
predryer
Brick
150
Waste
heat
11
fe­
1
us
FALSE
128fe­
1
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
121
room
128
misc­
2
128misc­
2
Holding
room
predryer
Brick
150
Waste
heat
11
fe­
2
us
FALSE
128fe­
2
128
tk­
1
128tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2100
Natural
gas
22.05
28.50
28.50
da­
1
da
FALSE
128da­
1
129
dc­
1
129dc­
1
Dryer
Dryer
Brick
300
Waste
heat
5.6
us­
2
us
FALSE
129us­
2
129
dc­
2
129dc­
2
Dryer
Dryer
Brick
300
Waste
heat
5.6
us­
3
us
FALSE
129us­
3
129
misc­
1
129misc­
1
Holding
room
predryer
Brick
150
Waste
heat
11.3
us­
1
us
FALSE
129us­
1
129
tk­
1
129tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2100
Natural
gas
11.3
15.99
15.99
us­
4
us
FALSE
129us­
4
13
dc­
1
13dc­
1
dryer
dryer
brick
400
waste
heat
4.45
us­
1
us
FALSE
13us­
1
13
dc­
2
13dc­
2
tunnel
dryer
dryer
brick
400
waste
heat
4.45
us­
2
us
FALSE
13us­
2
13
dc­
3
13dc­
3
tunnel
dryer
dryer
brick
400
waste
heat
4.45
us­
3
us
FALSE
13us­
3
13
dc­
4
13dc­
4
tunnel
dryer
dryer
brick
400
waste
heat
4.45
us­
4
us
FALSE
13us­
4
13
dr­
1
13dr­
1
rotary
sand
dryer
Sand
dryer
sand
250
natural
gas
1
1.5
us­
5
us
FALSE
13us­
5
13
tk­
1
13tk­
1
tunnel
kiln
tunnel
kiln
brick
2150
natural
gas
24.5
8.9
11.33
11.33
da­
1
da
FALSE
13da­
1
13
tk­
2
13tk­
2
tunnel
kiln
tunnel
kiln
brick
2150
natural
gas
24.5
8.9
11.33
11.33
da­
1
da
FALSE
13da­
1
130
dc­
1
130dc­
1
Brick
dryer
dryer
Brick
300
waste
heat/
natural
gas
3.6
us­
1,­
2
us
FALSE
130us­
1,­

2
130
tk­
1
130tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2000
Natural
gas
1.8
2.31
2.31
us­
3
us
FALSE
130us­
3
130
tk­
2
130tk­
2
Tunnel
kiln
Tunnel
kiln
Brick
2000
Natural
gas
1.8
2.31
2.31
us­
4
us
FALSE
130us­
4
131
dc­
1
131dc­
1
Dryer
Dryer
Brick
450
Waste
heat
3.6
us­
4
us
FALSE
131us­
4
131
dc­
2
131dc­
2
Dryer
Dryer
Brick
450
Waste
heat
3.6
us­
4
us
FALSE
131us­
4
131
dc­
3
131dc­
3
Dryer
Dryer
Brick
450
Waste
heat
3.6
us­
4
us
FALSE
131us­
4
131
dc­
4
131dc­
4
Dryer
Dryer
Brick
450
Waste
heat
3.6
us­
4
us
FALSE
131us­
4
131
dr­
1
131dr­
1
rotary
sand
dryer
Sand
dryer
sand
recycled
brick
395
natural
gas/
propane
0.33
6
2
bh­
1
bh
FALSE
131bh­
1
131
misc­
2
131misc­
2
Holding
room
predryer
Brick
100
Waste
heat
14.3
us­
3
us
FALSE
131us­
3
131
tk­
1
131tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2048
natural
gas/
propane
14.7
6.99
10.00
7.95
us­
6
us
FALSE
131us­
6
131
tk­
2
131tk­
2
Tunnel
kiln
Tunnel
kiln
Brick
2048
natural
gas/
propane
14.7
6.99
10.00
7.72
us­
7
us
FALSE
131us­
7
132
dc­
1
132dc­
1
initial
dryer
dryer
Brick
150
Waste
heat
15.3
us­
1
us
FALSE
132us­
1
132
dc­
2
132dc­
2
initial
dryer
dryer
Brick
150
Waste
heat
15.3
us­
2
us
FALSE
132us­
2
132
dc­
3
132dc­
3
initial
dryer
dryer
Brick
150
Waste
heat
15.3
us­
3
us
FALSE
132us­
3
132
dc­
4
132dc­
4
initial
dryer
dryer
Brick
150
Waste
heat
15.3
us­
4
us
FALSE
132us­
4
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
122
132
dc­
5
132dc­
5
initial
dryer
dryer
Brick
150
Waste
heat
15.3
us­
5
us
FALSE
132us­
5
132
dc­
6
132dc­
6
initial
dryer
dryer
Brick
150
Waste
heat
2.55
us­
6
us
FALSE
132us­
6
132
dc­
7
132dc­
7
special
shapes
dryer
dryer
Brick
140
Waste
heat
0.5
us­
8
us
FALSE
132us­
8
132
dc­
8
132dc­
8
special
shapes
dryer
dryer
Brick
140
Waste
heat
0.3
us­
9
us
FALSE
132us­
9
132
tk­
1
132tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2020
Natural
gas
41.96
12.3
15.20
15.20
us­
7
us
FALSE
132us­
7
133
dc­
1
133dc­
1
Dryer
Dryer
Brick
440
Waste
heat
2.1
us­
5
us
FALSE
133us­
5
133
dc­
2
133dc­
2
Dryer
Dryer
Brick
440
Waste
heat
2.1
us­
5
us
FALSE
133us­
5
133
dc­
3
133dc­
3
Dryer
Dryer
Brick
440
Waste
heat
2.1
us­
6
us
FALSE
133us­
6
133
dc­
4
133dc­
4
Dryer
Dryer
Brick
440
Waste
heat
2.1
us­
6
us
FALSE
133us­
6
133
dc­
5
133dc­
5
Dryer
Dryer
Brick
440
Waste
heat
2.1
us­
7
us
FALSE
133us­
7
133
dc­
6
133dc­
6
Dryer
Dryer
Brick
440
Waste
heat
2.1
us­
7
us
FALSE
133us­
7
133
dc­
7
133dc­
7
Dryer
Dryer
Brick
440
Waste
heat
2.1
us­
8
us
FALSE
133us­
8
133
dc­
8
133dc­
8
Dryer
Dryer
Brick
440
Waste
heat
2.1
us­
8
us
FALSE
133us­
8
133
dc­
9
133dc­
9
Dryer
Dryer
Brick
475
Waste
heat
19.5
us­
15
to
us­
17
us
FALSE
133us­
15
to
us­
17
133
dr­
1
133dr­
1
fluid
bed
dryer
fluid
bed
dryer
dried
clay
Natural
gas
0.0004
us­
3
us
FALSE
133us­
3
133
tk­
1
133tk­
1
Tunnel
kiln
Tunnel
kiln
brick
2060
sawdust/
nat
ural
gas
20.5
7.7
8.20
8.20
us­
11,­

12
us
FALSE
133us­

11,­
12
133
tk­
2
133tk­
2
Tunnel
kiln
Tunnel
kiln
Brick
2060
Natural
gas
37
9.3
11.30
11.30
us­
9,­

10
us
FALSE
133us­
9,­

10
133
tk­
3
133tk­
3
Tunnel
kiln
Tunnel
kiln
Brick
2005
sawdust/
nat
ural
gas
51.2
19.5
21.06
21.06
us­
18
us
FALSE
133us­
18
134
dc­
1
134dc­
1
Dryer
Dryer
Structural
Brick
Waste
heat
7.54
us­
1
us
FALSE
134us­
1
134
dc­
2
134dc­
2
Dryer
Dryer
Structural
Brick
Waste
heat
7.54
us­
2
us
FALSE
134us­
2
134
dc­
3
134dc­
3
Dryer
Dryer
Structural
Brick
Waste
heat
7.54
us­
3
us
FALSE
134us­
3
134
tk­
1
134tk­
1
Tunnel
kiln
Tunnel
kiln
Structural
Brick
2000
Natural
gas
30
7.54
12.26
12.26
us­
4
us
FALSE
134us­
4
134
tk­
2
134tk­
2
Tunnel
kiln
Tunnel
kiln
Structural
Brick
2000
Natural
gas
30
7.54
12.26
12.26
us­
5
us
FALSE
134us­
5
134
tk­
3
134tk­
3
Tunnel
kiln
Tunnel
kiln
Structural
Brick
2000
Natural
gas
30
7.54
12.26
12.26
us­
6
us
FALSE
134us­
6
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
123
135
dc­
1
135dc­
1
Dryer
Dryer
structural
brick
Waste
heat
7.5
us­
4
us
FALSE
135us­
4
135
dc­
2
135dc­
2
Dryer
Dryer
structural
brick
Waste
heat
7.5
us­
5
us
FALSE
135us­
5
135
dc­
3
135dc­
3
Dryer
Dryer
structural
brick
Waste
heat
11.25
us­
6
us
FALSE
135us­
6
135
tk­
1
135tk­
1
Tunnel
kiln
Tunnel
kiln
Structural
Brick
2040
Natural
gas
20
9.1
9.10
9.10
us­
1
us
FALSE
135us­
1
135
tk­
2
135tk­
2
Tunnel
kiln
Tunnel
kiln
structural
brick
2040
Natural
gas
20
9.1
9.10
9.10
us­
2
us
FALSE
135us­
2
135
tk­
3
135tk­
3
Tunnel
kiln
Tunnel
kiln
structural
brick
2040
Natural
gas
20.6
11.25
13.70
13.70
us­
3
us
FALSE
135us­
3
136
dc­
1
136dc­
1
Dryer
Dryer
Brick
350
Waste
heat
0.48
us­
2
us
FALSE
136us­
2
136
dc­
2
136dc­
2
Dryer
Dryer
Brick
350
Waste
heat
0.48
us­
2
us
FALSE
136us­
2
136
dc­
3
136dc­
3
Dryer
Dryer
Brick
350
Waste
heat
0.48
us­
3
us
FALSE
136us­
3
136
dc­
4
136dc­
4
Dryer
Dryer
Brick
350
Waste
heat
0.48
us­
3
us
FALSE
136us­
3
136
tk­
1
136tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2000
coal/
natural
gas
9.3
1.92
2.86
2.86
us­
4
us
FALSE
136us­
4
137
dc­
1
137dc­
1
Dryer
Dryer
pavers
Waste
heat
9.4
us­
4
us
FALSE
137us­
4
137
dc­
2
137dc­
2
Dryer
Dryer
Face
brick
850
Waste
heat
7.2
us­
6
us
FALSE
137us­
6
137
dc­
3
137dc­
3
Dryer
Dryer
Face
brick
850
Waste
heat
7.2
us­
7
us
FALSE
137us­
7
137
dc­
4
137dc­
4
Dryer
Dryer
Face
brick
850
Waste
heat
8.95
us­
8
us
FALSE
137us­
8
137
dc­
5
137dc­
5
Dryer
Dryer
Face
brick
850
Waste
heat
8.95
us­
5
us
FALSE
137us­
5
137
ds­
1
137ds­
1
sawdust
dryer
w/

cyclone
sawdust
dryer
sawdust
Waste
heat
us­
1
us
FALSE
137us­
1
137
ds­
2
137ds­
2
sawdust
dryer
w/

cyclone
sawdust
dryer
sawdust
Waste
heat
us­
2
us
FALSE
137us­
2
137
tk­
1
137tk­
1
Tunnel
kiln/
sawdus
t
dryer
Tunnel
kiln/
sawdus
t
dryer
Face
brick
1975
Sawdust
17.15
7.2
10.00
10.00
ds­
1
us,
ds
FALSE
137ds­
1
137
tk­
2
137tk­
2
Tunnel
kiln/
sawdus
t
dryer
Tunnel
kiln/
sawdus
t
dryer
Face
brick
1975
Sawdust
16.49
7.2
10.00
10.00
ds­
1
us,
ds
FALSE
137ds­
1A
137
tk­
3
137tk­
3
Tunnel
kiln
Tunnel
kiln
Face
brick
1975
Natural
gas
22.4
8.95
12.50
12.50
us­
4
us
FALSE
137us­
4
137
tk­
4
137tk­
4
Tunnel
kiln
Tunnel
kiln
Face
brick
1975
Natural
gas
19.54
8.95
12.50
12.50
us­
4
us
FALSE
137us­
4
137
tk­
5
137tk­
5
low
profile
fast
fire
kiln
tunnel
kiln
pavers
2030
Natural
gas
20.7
9.4
10.20
10.20
us­
3
us
FALSE
137us­
3
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
124
137
tk­
6
137tk­
6
Tunnel
kiln
Tunnel
kiln
Brick
Natural
gas
10.2
10.20
10.20
us­
9
us
FALSE
137us­
9
138
dc­
1
138dc­
1
tunnel
dryer
dryer
Brick
300
waste
heat/
natural
gas
2.53
us­
2
us
FALSE
138us­
2
138
dc­
2
138dc­
2
tunnel
dryer
dryer
Brick
300
waste
heat/
natural
gas
2.53
us­
3
us
FALSE
138us­
3
138
dc­
3
138dc­
3
tunnel
dryer
dryer
Brick
300
waste
heat/
natural
gas
2.53
us­
4
us
FALSE
138us­
4
138
dr­
1
138dr­
1
Rotary
dryer
Sand
dryer
raw
materials
300
Natural
gas
10.9
33.4
us­
1
us
FALSE
138us­
1
138
tk­
1
138tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2140
Natural
gas
14.5
7.2
7.63
7.63
us­
5
us
FALSE
138us­
5
139
dc­
1
139dc­
1
Dryer
Dryer
Brick
250
Waste
heat
3.54
us­
1
us
FALSE
139us­
1
139
tk­
1
139tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
1900
Natural
gas
11
3.54
5.71
5.71
us­
1
us
FALSE
139us­
1
14
dc­
1
14cd­
1
Dryer
Dryer
Brick
300
waste
heat
3.31
us­
1
us
FALSE
14us­
1
14
tk­
1
14tk­
1
tunnel
kiln
tunnel
kiln
brick
1900
natural
gas
7
3.31
4.50
4.50
us­
2
us
FALSE
14us­
2
140
dc­
1
140dc­
1
Dryer
Dryer
Face
brick
400
Natural
gas
3
7.16
us­
1
us
FALSE
140us­
1
140
dc­
2
140dc­
2
shapes
dryer
dryer
Face
brick
400
Natural
gas
0.5
0.06
us­
2
us
FALSE
140us­
2
140
tk­
1
140tk­
1
Tunnel
kiln
Tunnel
kiln
Face
brick
2000
Natural
gas
11
6.84
9.50
9.50
us­
3
us
FALSE
140us­
3
141
dc­
1
141dc­
1
chamber
dryer
dryer
brick
and
tile
310
Natural
gas
1.5
4
us­
3
us
FALSE
141us­
3
141
tk­
1
141tk­
1
Tunnel
kiln
Tunnel
kiln
structural
tile
or
brick
2060
Natural
gas
3
4
4.57
4.57
us­
4
us
FALSE
141us­
4
142
DP­
1
142dp­
1
Dryer
Dryer
clay
pipe
300
Natural
gas
us­
10
us
FALSE
142us­
10
142
DP­
2
142dp­
2
Dryer
Dryer
clay
pipe
300
Natural
gas
us­
11
us
FALSE
142us­
11
142
dp­
3
142dp­
3
Dryer
Dryer
clay
pipe
300
Natural
gas
us­
12
us
FALSE
142us­
12
142
dp­
4
142dp­
4
Dryer
Dryer
clay
pipe
300
Natural
gas
us­
13
us
FALSE
142us­
13
142
dp­
5
142dp­
5
Dryer
Dryer
clay
pipe
300
Natural
gas
us­
14
us
FALSE
142us­
14
142
misc­
2
142misc­
2
pre
heater
Predryer
clay
pipe
Natural
gas
2.8
us­
2
us
FALSE
142us­
2
142
pk­
1
142pk­
1
Periodic
kiln
Periodic
kiln
clay
pipe
2000
Natural
gas
72
148
85
tons
0.216
0.23
0.23
us­
3
us
FALSE
142us­
3
142
pk­
10
142pk­
10
Periodic
kiln
Periodic
kiln
clay
pipe
2000
Natural
gas
72
148
85
tons
0.216
0.23
0.23
us­
9
us
FALSE
142us­
9
142
PK­
11
142PK­
11
Periodic
kiln­
idle
Periodic
kiln­
idle
clay
pipe
Natural
gas
0
0.23
0.23
US­
10
us
FALSE
142US­
10
142
PK­
12
142PK­
12
Periodic
Periodic
clay
pipe
Natural
gas
0
0.23
0.23
US­
11
us
FALSE
142US­
11
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
125
kiln­
idle
kiln­
idle
142
PK­
13
142PK­
13
Periodic
kiln­
idle
Periodic
kiln­
idle
clay
pipe
Natural
gas
0
0.23
0.23
US­
12
us
FALSE
142US­
12
142
pk­
2
142pk­
2
Periodic
kiln
Periodic
kiln
clay
pipe
2000
Natural
gas
72
148
85
tons
0.216
0.23
0.23
us­
3
us
FALSE
142us­
3
142
pk­
3
142pk­
3
Periodic
kiln
Periodic
kiln
clay
pipe
2000
Natural
gas
72
148
85
tons
0.216
0.23
0.23
us­
4
us
FALSE
142us­
4
142
pk­
4
142pk­
4
Periodic
kiln
Periodic
kiln
clay
pipe
2000
Natural
gas
72
148
85
tons
0.216
0.23
0.23
us­
4
us
FALSE
142us­
4
142
pk­
5
142pk­
5
Periodic
kiln
Periodic
kiln
clay
pipe
2000
Natural
gas
72
148
85
tons
0.216
0.23
0.23
us­
5
us
FALSE
142us­
5
142
pk­
6
142pk­
6
Periodic
kiln
Periodic
kiln
clay
pipe
2000
Natural
gas
72
148
85
tons
0.216
0.23
0.23
us­
5
us
FALSE
142us­
5
142
pk­
7
142pk­
7
Periodic
kiln
Periodic
kiln
clay
pipe
2000
Natural
gas
72
148
85
tons
0.216
0.23
0.23
us­
6
us
FALSE
142us­
6
142
pk­
8
142pk­
8
Periodic
kiln
Periodic
kiln
clay
pipe
2000
Natural
gas
72
148
85
tons
0.216
0.23
0.23
us­
7
us
FALSE
142us­
7
142
pk­
9
142pk­
9
Periodic
kiln
Periodic
kiln
clay
pipe
2000
Natural
gas
72
148
85
tons
0.216
0.23
0.23
us­
8
us
FALSE
142us­
8
142
tk­
1
142tk­
1
Tunnel
kiln
Tunnel
kiln
clay
pipe
2000
Natural
gas
2.8
3.86
3.86
us­
1
us
FALSE
142us­
1
143
ca­
1
143ca­
1
Rotary
kiln
Calciner
Brick
Natural
gas
us­
6
us
FALSE
143us­
6
143
dc­
1
143dc­
1
Dryer
Dryer
Brick
Waste
heat
9.6
us­
3
us
FALSE
143us­
3
143
dc­
2
143dc­
2
Dryer
Dryer
Brick
Waste
heat
9.6
us­
4,­
5
us
FALSE
143us­
4,­

5
143
dr­
1
143dr­
1
Rotary
dryer
Sand
dryer
Sand
Waste
heat
us­
7
us
FALSE
143us­
7
143
tk­
1
143tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2100
Natural
gas
9.6
10.65
10.65
us­
1
us
FALSE
143us­
1
143
tk­
2
143tk­
2
Tunnel
kiln
Tunnel
kiln
Brick
2100
Natural
gas
9.6
10.65
10.65
us­
2
us
FALSE
143us­
2
144
dc­
1
144dc­
1
Brick
dryer
dryer
Face
brick
450
Waste
heat
6.51
us­
2
us
FALSE
144us­
2
144
tk­
1
144tk­
1
Tunnel
kiln
Tunnel
kiln
Face
brick
2000
Natural
gas
16.3
6.51
7.42
7.42
us­
1
us
FALSE
144us­
1
145
dc­
1
145dc­
1
Dryer
Dryer
Face
brick
400
Waste
heat
2.18
us­
3
us
FALSE
145us­
3
145
dc­
2
145dc­
2
Dryer
Dryer
Face
brick
400
Waste
heat
2.19
us­
3
us
FALSE
145us­
3
145
tk­
1
145tk­
1
Tunnel
kiln
Tunnel
kiln
Face
brick
2050
Natural
gas
4.37
5.71
5.71
us­
4
us
FALSE
145us­
4
145
tk­
2
145tk­
2
Tunnel
kiln­
idle
Tunnel
kiln­
idle
Face
brick
0
5.70
5.70
us­
5
us
FALSE
145us­
5
146
dc­
1
146dc­
1
Dryer
Dryer
clay
tile
250
Waste
heat
2
5.5
us­
1
us
FALSE
146us­
1
146
dc­
2
146dc­
2
Dryer
Dryer
clay
tile
280
Waste
heat
4.5
11
us­
2
us
FALSE
146us­
2
146
dc­
3
146dc­
3
Dryer
Dryer
clay
tile
250
Waste
heat
18
24
us­
3
us
FALSE
146us­
3
146
pk­
1
146pk­
1
shuttle
kiln
periodic
clay
tile
1880
Natural
gas
1.27
2.20
2.20
us­
5
us
FALSE
146us­
5
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
126
kiln
146
tk­
1
146tk­
1
Tunnel
kiln
Tunnel
kiln
clay
tile
1920
Natural
gas
14
1.5
2.60
2.60
us­
6
us
FALSE
146us­
6
146
tk­
2
146tk­
2
Tunnel
kiln
Tunnel
kiln
clay
tile
1920
Natural
gas
5
2
3.46
3.46
us­
7
us
FALSE
146us­
7
146
tk­
3
146tk­
3
Tunnel
kiln
Tunnel
kiln
clay
tile
1920
Natural
gas
18.8
2.5
4.33
4.33
us­
8
us
FALSE
146us­
8
147
dc­
1
147dc­
1
Dryer
Dryer
Structural
brick
400
Waste
heat
4.1
us­
2
us
FALSE
147us­
2
147
dr­
1
147dr­
1
Rotary
dryer
Sand
dryer
sand
250
Natural
gas
1
bh­
2
bh
FALSE
147bh­
2
147
tk­
1
147tk­
1
Tunnel
kiln
Tunnel
kiln
Structural
brick
2220
Natural
gas
4.1
4.90
4.90
us­
1
us
FALSE
147us­
1
148
dc­
1
148dc­
1
Dryer
Dryer
Brick
Waste
heat
10.53
us­
1
us
FALSE
148us­
1
148
tk­
1
148tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
Natural
gas
10.53
13.70
13.70
da­
1
da
FALSE
148da­
1
149
dc­
1
149dc­
1
Dryer
Dryer
Brick
Waste
heat
11.84
us­
3
us
FALSE
149us­
3
149
dc­
2
149dc­
2
Dryer­
idle
Dryer­
idle
Brick
Waste
heat
0
us­
4
us
FALSE
149us­
4
149
tk­
1
149tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2000
Natural
gas
23.51
11.84
12.71
12.71
us­
1
us
FALSE
149us­
1
15
dc­
1
15dc­
1
Dryer
Dryer
Brick
300
waste
heat
3
us­
1
us
FALSE
15us­
1
15
tk­
1
15tk­
1
tunnel
kiln
tunnel
kiln
brick
2000
natural
gas
10
3
4.79
4.79
us­
2
us
FALSE
15us­
2
150
dc­
1
150dc­
1
Dryer
Dryer
Brick
675
Waste
heat
8.33
us­
1
us
FALSE
150us­
1
150
dc­
2
150dc­
2
Dryer
Dryer
Brick
675
Waste
heat
8.33
us­
2
us
FALSE
150us­
2
150
dr­
1
150dr­
1
Tunnel
dryer
dryer
Colorants
300
Natural
gas
0.25
0.75
sc­
1
sc
FALSE
150sc­
1
150
misc­

1,
misc­
2
150misc­

1,
misc­
2
Holding
room
predryer
Brick
105
16.67
us­
3,­
4
us
FALSE
150us­
3,­

4
150
tk­
1
150tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
1960
Natural
gas
20.8
8.33
11.13
11.13
diff­
1
diff
FALSE
150diff­
1
150
tk­
2
150tk­
2
Tunnel
kiln
Tunnel
kiln
Brick
1960
Natural
gas
20.3
8.33
11.13
11.13
diff­
2
diff
FALSE
150diff­
2
151
dc­
1
151dc­
1
Dryer
Dryer
Brick
300
Waste
heat
13.69
us­
1
us
FALSE
151us­
1
151
dc­
2
151dc­
2
Dryer
Dryer
Brick
300
Waste
heat
6
us­
2
us
FALSE
151us­
2
151
dc­
3
151dc­
3
Dryer
Dryer
Brick
300
Waste
heat
6
us­
3
us
FALSE
151us­
3
151
misc­
1
151misc­
1
Preheater
Predryer
Brick
150
Waste
heat
13.69
us­
6
us
FALSE
151us­
6
151
PK­
1
151PK­
1
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
2
2.09
2.09
us­
7
us
FALSE
151us­
7
151
PK­
2
151PK­
2
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
2
2.09
2.09
US­
8
us
FALSE
151US­
8
151
PK­
3
151PK­
3
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
2
2.09
2.09
US­
9
us
FALSE
151US­
9
151
PK­
4
151PK­
4
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
2
2.09
2.09
US­
10
us
FALSE
151US­
10
151
PK­
5
151PK­
5
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
2
2.09
2.09
US­
11
us
FALSE
151US­
11
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
127
151
PK­
6
151PK­
6
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
2
2.09
2.09
US­
12
us
FALSE
151US­
12
151
tk­
1
151tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2100
Natural
gas
13.69
13.69
13.69
dls­
1
dls
FALSE
151dls­
1
152
dc­
1
152dc­
1
Dryer
Dryer
Brick
350
Waste
heat
2.7
us­
3
us
FALSE
152us­
3
152
dc­
2
152dc­
2
Dryer
Dryer
Brick
350
Waste
heat
2.7
us­
4
us
FALSE
152us­
4
152
tk­
1
152tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2200
Natural
gas
2.7
3.30
3.30
us­
1
us
FALSE
152us­
1
152
tk­
2
152tk­
2
Tunnel
kiln
Tunnel
kiln
Brick
2200
Natural
gas
9.1
9.10
9.10
da­
1
da
FALSE
152da­
1
153
dp­
1
153dp­
1
Dryer
Dryer
Structural
brick
and
tile
200
Natural
gas
3.06
96
hr
368
tons
us­
1,­
2
us
FALSE
153us­
1,­

2
153
dp­
2
153dp­
2
Dryer
Dryer
Fire
brick
250
Natural
gas
0.437
96
hr
92.25
tons
us­
11
us
FALSE
153us­
11
153
dp­
3
153dp­
3
Dryer
Dryer
Fire
brick
250
Natural
gas
0.437
96
hr
100.65
tons
us­
12
us
FALSE
153us­
12
153
dp­
4
153dp­
4
Dryer
Dryer
Fire
brick
250
Natural
gas
0.146
96
hr
12.58
tons
us­
13
us
FALSE
153us­
13
153
tk­
1
153tk­
1
Tunnel
kiln
Tunnel
kiln
Structural
brick
and
tile,
fire
brick
2100
Natural
gas
7.74
1.5
1.53
1.53
us­
7,­
8
us
FALSE
153us­
7,­

8
153
tk­
2
153tk­
2
Tunnel
kiln
Tunnel
kiln
Structural
brick
and
tile,
fire
brick
2100
Natural
gas
7.74
1.5
1.53
1.53
us­
9,­

10
us
FALSE
153us­
9,­

10
154
dc­
1
154dc­
1
Dryer
Dryer
Brick
360
Waste
heat
us­
1
us
FALSE
154us­
1
154
dc­
2
154dc­
2
Preheater
Predryer
Brick
350
Waste
heat
fe­
6,­
7
us
FALSE
154fe­
6,­
7
154
misc­
1
154misc­
1
Predryer
Predryer
Brick
215
Waste
heat
fe­
6
us
FALSE
154fe­
6
154
misc­
2
154misc­
2
Predryer
Predryer
Brick
215
Waste
heat
fe­
14
us
FALSE
154fe­
14
154
misc­
3
154misc­
3
Predryer
Predryer
Brick
160
Waste
heat
fe­
7
us
FALSE
154fe­
7
154
misc­
5
154misc­
5
Predryer
Predryer
Brick
120
Waste
heat
fe­
13
us
FALSE
154fe­
13
154
misc­
6
154misc­
6
Predryer
Predryer
Brick
120
Waste
heat
bh­
7
bh
FALSE
154bh­
7
154
tk­
1
154tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2100
Natural
gas
23.4
7.1
13.30
13.30
sc­
1
sc
FALSE
154sc­
1
154
tk­
2
154tk­
2
Tunnel
kiln
Tunnel
kiln
Brick
2100
Natural
gas
43.6
13.3
13.30
13.30
sc­
2
sc
FALSE
154sc­
2
155
dc­
1
155dc­
1
ceric
dryer
dryer
Structural
brick
375
natural
gas/
waste
heat
7.1
4.53
us­
1
us
FALSE
155us­
1
155
dc­
2
155dc­
2
lingl
dryer
dryer
Structural
brick
375
natural
gas/
waste
heat
7.1
4.53
us­
2
us
FALSE
155us­
2
155
tk­
1
155tk­
1
Tunnel
kiln
Tunnel
kiln
Structural
brick
2150
Natural
gas
20
9.05
12.55
12.55
dls­
1
dls
FALSE
155dls­
1
156
dc­
1
156dc­
1
Brick
dryer
dryer
Brick
Natural
gas
us­
2
us
FALSE
156us­
2
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
128
156
pk­
1
156pk­
1
Periodic
kiln
Periodic
kiln
Brick
Natural
gas
40
60
tons
0.171
1.50
1.50
us­
1
us
FALSE
156us­
1
157
dc­
1
157dc­
1
Tunnel
dryer
dryer
Brick
500
Waste
heat
7.8
us­
1
us
FALSE
157us­
1
157
dc­
2
157dc­
2
Tunnel
dryer
dryer
Brick
500
Waste
heat
7.8
us­
2
us
FALSE
157us­
2
157
dr­
1
157dr­
1
Rotary
dryer
Sand
dryer
Dried
clay/
sand
400
Natural
gas
20
0.67
sc­
2
sc
FALSE
157sc­
2
157
DR­
2
157DR­
2
rotary
calciner
(
dryer)
dryer
Dried
clay/
sand
400
Natural
gas
sc­
1
sc
FALSE
157sc­
1
157
tk­
1
157tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2200
natural
gas/
propane
7.8
12.00
12.00
us­
3
us
FALSE
157us­
3
157
tk­
2
157tk­
2
Tunnel
kiln
Tunnel
kiln
Brick
2200
natural
gas/
propane
7.8
12.00
12.00
us­
4
us
FALSE
157us­
4
158
dc­
1
158dc­
1
Tunnel
dryer
dryer
Brick
425
Waste
heat
4.85
us­
1,­
2
us
FALSE
158us­
1,­

2
158
tk­
1
158tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2130
Natural
gas
32.5
4.85
6.17
6.17
us­
3
us
FALSE
158us­
3
159
dc­
1
159dc­
1
Tunnel
dryer
dryer
Structural
brick
350
Waste
heat
1.12
us­
4
us
FALSE
159us­
4
159
dc­
2
159dc­
2
Tunnel
dryer
dryer
Structural
brick
350
Waste
heat
2.24
us­
5
us
FALSE
159us­
5
159
tk­
1
159tk­
1
Tunnel
kiln
Tunnel
kiln
Structural
brick
1900
Natural
gas
12.25
3.36
3.36
3.36
us­
6
us
FALSE
159us­
6
16
dc­
1
16dc­
1
tunnel
dryer
dryer
structural
brick
400
waste
heat
5.49
us­
1,­
2
us
FALSE
16us­
1,­
2
16
tk­
1
16tk­
1
tunnel
kiln
tunnel
kiln
structural
brick
2000
natural
gas
30
5.49
6.90
6.90
us­
3
us
FALSE
16us­
3
160NR
TK­
1
160NRT
K­
1
Tunnel
kiln
Tunnel
kiln
Brick
Default
prod
and
capacit
y
6.28
6.28
6.28
US­
1
us
FALSE
160NRU
S­
1
161NR
PK­
1
161NRP
K­
1
Periodic
kiln
Periodic
kiln
Brick
US­
3
us
FALSE
161NRU
S­
3
161NR
TK­
1
161NRT
K­
1
Tunnel
kiln
Tunnel
kiln
Brick
1.4
1.47
1.47
US­
1
us
FALSE
161NRU
S­
1
161NR
TK­
2
161NRT
K­
2
Tunnel
kiln
Tunnel
kiln
Brick
1.4
1.47
1.47
US­
2
us
FALSE
161NRU
S­
2
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
129
162NR
TK­
1
162NRT
K­
1
Tunnel
kiln
Tunnel
kiln
Brick
3.9
3.90
3.90
US­
1
us
FALSE
162NRU
S­
1
162NR
TK­
2
162NRT
K­
2
Tunnel
kiln
Tunnel
kiln
Brick
2.6
2.60
2.60
US­
2
us
FALSE
162NRU
S­
2
163NR
TK­
1
163NRT
K­
1
Tunnel
kiln
Tunnel
kiln
Brick
0.31
1.13
1.13
US­
1
us
FALSE
163NRU
S­
1
163NR
TK­
2
163NRT
K­
2
Tunnel
kiln
Tunnel
kiln
Brick
0.31
1.13
1.13
US­
2
us
FALSE
163NRU
S­
2
163NR
TK­
3
163NRT
K­
3
Tunnel
kiln
Tunnel
kiln
Brick
0.31
1.13
1.13
US­
3
us
FALSE
163NRU
S­
3
163NR
TK­
4
163NRT
K­
4
Tunnel
kiln
Tunnel
kiln
Brick
0.31
1.13
1.13
US­
4
us
FALSE
163NRU
S­
4
164NR
TK­
1
164NRT
K­
1
Tunnel
kiln
Tunnel
kiln
Brick
9.02
10.94
10.94
US­
1
us
FALSE
164NRU
S­
1
165NR
PK­
1
165NRP
K­
1
Periodic
kiln
Periodic
kiln
Brick
US­
4
us
FALSE
165NRU
S­
4
165NR
TK­
1
165NRT
K­
1
Tunnel
kiln
Tunnel
kiln
Brick
6.84
8.30
8.30
US­
1
us
FALSE
165NRU
S­
1
165NR
TK­
2
165NRT
K­
2
Tunnel
kiln­
idle
Tunnel
kiln­
idle
Brick
0
8.30
8.30
US­
2
us
FALSE
165NRU
S­
2
165NR
TK­
3
165NRT
K­
3
Tunnel
kiln­
idle
Tunnel
kiln­
idle
Brick
0
8.30
8.30
US­
3
us
FALSE
165NRU
S­
3
166NR
TK­
1
166NRT
K­
1
Tunnel
kiln
Tunnel
kiln
Brick
8.94
12.50
12.50
US­
1
us
FALSE
166NRU
S­
1
166NR
TK­
2
166NRT
K­
2
Tunnel
kiln­
idle
Tunnel
kiln­
idle
Brick
0
12.50
12.50
US­
2
us
FALSE
166NRU
S­
2
167NR
TK­
1
167NRT
K­
1
Tunnel
kiln
Tunnel
kiln
Brick
6.6
7.00
7.00
US­
1
us
FALSE
167NRU
S­
1
167NR
TK­
2
167NRT
K­
2
Tunnel
kiln
Tunnel
kiln
Brick
6.6
7.00
7.00
US­
2
us
FALSE
167NRU
S­
2
168NR
PK­
1
168NRP
K­
1
Periodic
kiln
Periodic
kiln
Brick
US­
2
us
FALSE
168NRU
S­
2
168NR
TK­
1
168NRT
K­
1
Tunnel
kiln
Tunnel
kiln
Brick
14.3
17.60
17.60
US­
1
us
FALSE
168NRU
S­
1
169NR
TK­
1
169NRT
K­
1
Tunnel
kiln
Tunnel
kiln
Brick
5.48
16.20
16.20
US­
1
us
FALSE
169NRU
S­
1
169NR
TK­
2
169NRT
K­
2
Tunnel
kiln
Tunnel
kiln
Brick
5.48
16.20
16.20
US­
2
us
FALSE
169NRU
S­
2
17
dc­
1
17dc­
1
Dryer
Dryer
Structural
400
waste
heat
10.02
us­
2
us
FALSE
17us­
2
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
130
tile
17
tk­
1
17tk­
1
tunnel
kiln
tunnel
kiln
structural
tile
2000
natural
gas
35
10.02
14.83
14.83
us­
3
us
FALSE
17us­
3
170NR
TK­
1
170NRT
K­
1
Tunnel
kiln
Tunnel
kiln
Brick
11.83
16.10
16.10
US­
1
us
FALSE
170NRU
S­
1
170NR
TK­
2
170NRT
K­
2
Tunnel
kiln
Tunnel
kiln
Brick
12.86
17.50
17.50
US­
2
us
FALSE
170NRU
S­
2
171NR
TK­
1
171NRT
K­
1
Tunnel
kiln
Tunnel
kiln
Brick
10.84
13.10
13.10
US­
1
us
FALSE
171NRU
S­
1
171NR
TK­
2
171NRT
K­
2
Tunnel
kiln­
idle
Tunnel
kiln­
idle
Brick
0
11.70
11.70
US­
2
us
FALSE
171NRU
S­
2
172NR
PK­
1
172NRP
K­
1
Shuttle
kiln
Periodic
kiln
Brick
0.25
0.25
US­
3
us
FALSE
172NRU
S­
3
172NR
TK­
1
172NRT
K­
1
Tunnel
kiln
Tunnel
kiln
Brick
5.7
11.24
9.00
US­
1
us
FALSE
172NRU
S­
1
172NR
TK­
2
172NRT
K­
2
Tunnel
kiln
Tunnel
kiln
Brick
9.75
19.76
15.40
US­
2
us
FALSE
172NRU
S­
2
173NR
TK­
1
173NRT
K­
1
Tunnel
kiln
Tunnel
kiln
Brick
10.51
16.70
16.70
US­
1
us
FALSE
173NRU
S­
1
173NR
TK­
2
173NRT
K­
2
Tunnel
kiln­
idle
Tunnel
kiln­
idle
Brick
0
16.70
16.70
US­
2
us
FALSE
173NRU
S­
2
174NR
TK­
1
174NRT
K­
1
Tunnel
kiln
Tunnel
kiln
Brick
2.89
2.89
2.89
us­
1
us
FALSE
174nrus­
1
174NR
TK­
2
174NRT
K­
2
Tunnel
kiln
Tunnel
kiln
Brick
1.78
1.78
1.78
US­
2
us
FALSE
174NRU
S­
2
175nr
tk­
1
175nrtk­
1
Tunnel
kiln
Tunnel
kiln
Brick
6
6.00
6.00
us­
1
us
FALSE
175nrus­
1
176NR
PK­
1
176NRP
K­
1
Periodic
kiln
Periodic
kiln
Brick
us­
4
us
FALSE
176NRU
S­
4
176NR
TK­
1
176NRtk­

1
Tunnel
kiln
Tunnel
kiln
Brick
2.57
2.57
2.57
us­
1
us
FALSE
176nrus­
1
176NR
TK­
2
176NRT
K­
2
Tunnel
kiln
Tunnel
kiln
Brick
2.57
2.57
2.57
US­
2
us
FALSE
176NRU
S­
2
176NR
TK­
3
176NRT
K­
3
Tunnel
kiln
Tunnel
kiln
Brick
5.14
5.14
5.14
US­
3
us
FALSE
176NRU
S­
3
177NR
tk­
1
177NRtk­

1
Tunnel
kiln
Tunnel
kiln
Brick
Default
prod
and
capacit
y
6.28
6.28
6.28
US­
1
us
FALSE
177NRU
S­
1
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
131
177NR
TK­
2
177NRT
K­
2
Tunnel
kiln
Tunnel
kiln
Brick
Default
prod
and
capacit
y
6.28
6.28
6.28
US­
2
us
FALSE
177NRU
S­
2
178NR
TK­
1
178NRT
K­
1
Tunnel
kiln
Tunnel
kiln
Brick
2.25
2.25
2.25
US­
1
us
FALSE
178NRU
S­
1
179
DC­
1
179DC­
1
Dryer
Dryer
Face
brick
248
Natural
gas
9
1.27
us­
4
us
FALSE
179us­
4
179
PK­
1
179PK­
1
Periodic
kiln
Periodic
kiln
Face
brick
2340
Natural
gas
5.2
0.317
0.43
0.43
us­
1
us
FALSE
179us­
1
179
PK­
2
179PK­
2
Periodic
kiln
Periodic
kiln
Face
brick
2440
Natural
gas
5.2
0.317
0.43
0.43
us­
2
us
FALSE
179US­
2
179
PK­
3
179PK­
3
Periodic
kiln
Periodic
kiln
Face
brick
2340
Natural
gas
5.2
0.317
0.43
0.43
US­
3
us
FALSE
179US­
3
179
PK­
4
179PK­
4
Periodic
kiln
Periodic
kiln
Face
brick
2440
Natural
gas
5.2
0.317
0.43
0.43
US­
2
us
FALSE
179US­
2
18
dc­
1
18dc­
1
Dryer
Dryer
Brick
270
waste
heat
4.34
us­
2
us
FALSE
18us­
2
18
dc­
2
18dc­
2
Dryer
Dryer
Brick
270
waste
heat
4.33
us­
3
us
FALSE
18us­
3
18
tk­
1
18tk­
1
tunnel
kiln
tunnel
kiln
brick
1850
natural
gas
8.67
14.70
14.70
us­
1
us
FALSE
18us­
1
180NR
pk­
1
180nrpk­
1
Periodic
kiln
Periodic
kiln
Brick
da­
1
da
FALSE
180NRda­

1
181
DC­
1
181DC­
1
ware
dryer
dryer
roof
tile
Natural
gas
us­
4
us
FALSE
181us­
4
181
DC­
2
181DC­
2
ware
dryer
dryer
roof
tile
Natural
gas
US­
5
us
FALSE
181US­
5
181
DC­
3
181DC­
3
ware
dryer
dryer
roof
tile
Natural
gas
US­
6
us
FALSE
181US­
6
181
DC­
4
181DC­
4
ware
dryer
dryer
roof
tile
Natural
gas
US­
7
us
FALSE
181US­
7
181
DC­
5
181DC­
5
ware
dryer
dryer
roof
tile
Natural
gas
US­
8
us
FALSE
181US­
8
181
DC­
6
181DC­
6
ware
dryer
dryer
roof
tile
Natural
gas
US­
9
us
FALSE
181US­
9
181
DC­
7
181DC­
7
ware
dryer
dryer
roof
tile
Natural
gas
US­
10
us
FALSE
181US­
10
181
pk­
1
181pk­
1
Periodic
kiln
Periodic
kiln
roof
tile
Natural
gas
us­
2
us
FALSE
181us­
2
181
pk­
2
181pk­
2
Periodic
kiln
Periodic
kiln
roof
tile
Natural
gas
us­
3
us
FALSE
181us­
3
181
tk­
1
181tk­
1
Tunnel
kiln
Tunnel
kiln
roof
tile
Natural
gas
7.78
7.78
us­
1
us
FALSE
181us­
1
182NR
TK­
1
182NRT
K­
1
Tunnel
kiln
Tunnel
kiln
Brick
1.69
2.92
2.92
US­
1
us
FALSE
182NRU
S­
1
183
pk­
1
183pk­
1
Periodic
kiln
periodic
kiln
tile
2000
Natural
gas
0.002
0.00
0.00
us­
1
us
FALSE
183us­
1
184
dc­
1
184dc­
1
Dryer
dryer
quarry
floor
tile
248
Natural
gas
3
7
us­
1
us
FALSE
184us­
1
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
132
184
dc­
2
184dc­
2
Dryer
dryer
quarry
floor
tile
248
Natural
gas
3
3.5
us­
2
us
FALSE
184us­
2
184
pk­
1
184pk­
1
intermittent
kiln
periodic
kiln
wall
tile
2100
Natural
gas
0.425
24
0.1
0.000
63
0.00
0.00
us­
6
us
FALSE
184us­
6
184
pk­
2
184pk­
2
intermittent
kiln
periodic
kiln
wall
tile
2100
Natural
gas
3
24
2
0.012
5
0.01
0.01
us­
4
us
FALSE
184us­
4
184
pk­
3
184pk­
3
intermittent
kiln
periodic
kiln
wall
tile
2100
Natural
gas
0.425
24
0.1
0.000
63
0.00
0.00
us­
5
us
FALSE
184us­
5
184
tk­
1
184tk­
1
Tunnel
kiln
tunnel
kiln
quarry
floor
tile
2100
Natural
gas
11.2
2.69
3.33
3.33
us­
3
us
FALSE
184us­
3
184
tk­
2
184tk­
2
Tunnel
kiln
tunnel
kiln
quarry
floor
tile
2100
Natural
gas
11.2
2.69
3.33
3.33
us­
3
us
FALSE
184us­
3
184
tk­
3
184tk­
3
Tunnel
kiln
tunnel
kiln
quarry
floor
tile
2100
Natural
gas
11.2
2.69
3.33
3.33
us­
3
us
FALSE
184us­
3
184
tk­
4
184tk­
4
Tunnel
kiln
tunnel
kiln
quarry
floor
tile
2.69
3.33
3.33
us­
3
us
FALSE
184us­
3
185
dc­
1
185dc­
1
dryer
continuous
dryer
floor
tile
125
Waste
heat
0.5
fe
us
FALSE
185fe
185
dp­
2
185dp­
2
Dryer
dryer
floor
tile
250
Natural
gas
8
10
us­
1
us
FALSE
185us­
1
185
pk­
1
185pk­
1
Periodic
kiln
periodic
kiln
floor
tile
2000
Natural
gas
156
40
0.25
0.25
0.25
us­
2,­
7
us
FALSE
185us­
2,­

7
185
pk­
2
185pk­
2
Periodic
kiln
periodic
kiln
floor
tile
2000
Natural
gas
156
15
0.096
0.10
0.10
us­
3,­
8
us
FALSE
185us­
3,­

8
185
pk­
3
185pk­
3
shuttle
kiln
periodic
kiln
floor
tile
2100
Natural
gas
36
2.5
0.069
0.07
0.07
us­
5
us
FALSE
185us­
5
185
pk­
4
185pk­
4
shuttle
kiln
periodic
kiln
floor
tile
2100
Natural
gas
36
1.5
0.042
0.04
0.04
us­
6
us
FALSE
185us­
6
185
tk­
1
185tk­
1
Tunnel
kiln
tunnel
kiln
floor
tile
2100
Natural
gas
0.16
0.28
0.28
us­
4
us
FALSE
185us­
4
186
dc­
1
186dc­
1
Dryer
dryer
tile,
brick
180
Waste
heat
0.7
us­
1
us
FALSE
186us­
1
186
dc­
2
186dc­
2
Dryer
dryer
tile,
brick
180
Waste
heat
0.7
us­
2
us
FALSE
186us­
2
186
dc­
3
186dc­
3
Dryer
dryer
tile,
brick
180
Waste
heat
0.7
us­
3
us
FALSE
186us­
3
186
dc­
4
186dc­
4
Dryer
dryer
tile,
brick
180
Waste
heat
0.7
us­
4
us
FALSE
186us­
4
186
dc­
5
186dc­
5
Dryer
dryer
tile,
brick
180
Waste
heat
0.7
us­
5
us
FALSE
186us­
5
186
dc­
6
186dc­
6
Dryer
dryer
tile,
brick
180
Waste
heat
0.7
us­
6
us
FALSE
186us­
6
186
dc­
7
186dc­
7
Dryer
dryer
tile,
brick
180
Waste
heat
0.7
us­
7
us
FALSE
186us­
7
186
dc­
8
186dc­
8
Dryer
dryer
tile,
brick
180
Waste
heat
0.7
us­
8
us
FALSE
186us­
8
186
tk­
1
186tk­
1
Tunnel
kiln
tunnel
kiln
tile,
brick
1925
Natural
gas
7.5
0.6
1.11
1.11
us­
9
us
FALSE
186us­
9
186
tk­
2
186tk­
2
Tunnel
kiln
tunnel
kiln
tile,
brick
1925
Natural
gas
7.5
0.67
1.24
1.24
us­
10
us
FALSE
186kus­
10
186
tk­
3
186tk­
3
Tunnel
kiln
tunnel
kiln
tile,
brick
1925
Natural
gas
7.5
0.6
1.11
1.11
us­
11
us
FALSE
186us­
11
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
133
186
tk­
4
186tk­
4
Tunnel
kiln
tunnel
kiln
tile,
brick
1925
Natural
gas
7.5
0.6
1.11
1.11
us­
12
us
FALSE
186us­
12
187
dc­
1
187dc­
1
car
dryer
dryer
glazed
tile
350
Natural
gas,
waste
heat
1.75
us­
1
us
FALSE
187us­
1
187
dc­
2
187dc­
2
tray
dryer
dryer
glazed
tile
350
Natural
gas
1.75
fe
us
FALSE
187fe
187
dc­
3
187dc­
3
waste
heat
dryer
dryer
floor
tile
270
waste
heat
2.2
us­
3
us
FALSE
187us­
3
187
dc­
4
187dc­
4
waste
heat
dryer
dryer
floor
tile
270
waste
heat
2.2
us­
4
us
FALSE
187us­
4
187
dc­
5
187dc­
5
waste
heat
dryer
dryer
floor
tile
270
waste
heat
2.2
us­
5
us
FALSE
187us­
5
187
rk­
1
187rk­
1
roller
kiln
tunnel
kiln
glazed
tile
2015
Natural
gas
0.51
1.24
1.24
us­
2
us
FALSE
187us­
2
187
tk­
1
187tk­
1
Tunnel
kiln
tunnel
kiln
floor
tile
1875
Natural
gas
7.5
2.14
5.22
5.22
us­
6
us
FALSE
187us­
6
187
tk­
2
187tk­
2
Tunnel
kiln­
idle
tunnel
kilnidle
floor
tile
0
5.00
5.00
us­
7
us
FALSE
187us­
7
187
tk­
3
187tk­
3
Tunnel
kiln
tunnel
kiln
floor
tile
1875
Natural
gas
7.2
1.84
4.49
4.49
us­
8
us
FALSE
187us­
8
188
dp­
1
188dp­
1
storage
dryer
dryer
quarry
tile
225
Waste
heat
38
9.4
us­
3
us
FALSE
188us­
3
188
dp­
10
188dp­
10
storage
dryer
dryer
quarry
tile
225
Waste
heat
38
9.4
us­
4
us
FALSE
188us­
4
188
dp­
11
188dp­
11
storage
dryer
dryer
quarry
tile
225
Waste
heat
38
9.4
us­
4
us
FALSE
188us­
4
188
dp­
12
188dp­
12
storage
dryer
dryer
quarry
tile
225
Waste
heat
38
9.4
us­
4
us
FALSE
188us­
4
188
dp­
13
188dp­
13
storage
dryer
dryer
quarry
tile
225
Waste
heat
38
9.4
us­
5
us
FALSE
188us­
5
188
dp­
14
188dp­
14
storage
dryer
dryer
quarry
tile
225
Waste
heat
38
9.4
us­
5
us
FALSE
188us­
5
188
dp­
15
188dp­
15
storage
dryer
dryer
quarry
tile
225
Waste
heat
38
9.4
us­
5
us
FALSE
188kus­
5
188
dp­
16
188dp­
16
storage
dryer
dryer
quarry
tile
225
Waste
heat
38
9.4
us­
5
us
FALSE
188us­
5
188
dp­
17
188dp­
17
storage
dryer
dryer
quarry
tile
225
Waste
heat
38
9.4
us­
5
us
FALSE
188us­
5
188
dp­
18
188dp­
18
storage
dryer
dryer
quarry
tile
225
Waste
heat
38
9.4
us­
5
us
FALSE
188us­
5
188
dp­
2
188dp­
2
storage
dryer
dryer
quarry
tile
225
Waste
heat
38
9.4
us­
3
us
FALSE
188us­
3
188
dp­
3
188dp­
3
storage
dryer
quarry
tile
225
Waste
heat
38
9.4
us­
3
us
FALSE
188us­
3
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
134
dryer
188
dp­
4
188dp­
4
storage
dryer
dryer
quarry
tile
225
Waste
heat
38
9.4
us­
3
us
FALSE
188us­
3
188
dp­
5
188dp­
5
storage
dryer
dryer
quarry
tile
225
Waste
heat
38
9.4
us­
3
us
FALSE
188us­
3
188
dp­
6
188dp­
6
storage
dryer
dryer
quarry
tile
225
Waste
heat
38
9.4
us­
3
us
FALSE
188us­
3
188
dp­
7
188dp­
7
storage
dryer
dryer
quarry
tile
225
Waste
heat
38
9.4
us­
4
us
FALSE
188us­
4
188
dp­
8
188dp­
8
storage
dryer
dryer
quarry
tile
225
Waste
heat
38
9.4
us­
4
us
FALSE
188us­
4
188
dp­
9
188dp­
9
storage
dryer
dryer
quarry
tile
225
Waste
heat
38
9.4
us­
4
us
FALSE
188us­
4
188
tk­
1
188tk­
1
Tunnel
kiln
tunnel
kiln
quarry
tile
2250
Natural
gas
12.9
2.6
3.56
3.56
us­
7,­
8
us
FALSE
188us­
7,­

8
188
tk­
2
188tk­
2
Tunnel
kiln
tunnel
kiln
quarry
tile
2250
Natural
gas
12.9
2.6
3.56
3.56
us­
8,­
9
us
FALSE
188us­
8,­

9
189
dc­
1
189dc­
1
chamber
dryer
dryer
quarry
tile
175
Waste
heat
1.4
us­
1
us
FALSE
189us­
1
189
dc­
2
189dc­
2
chamber
dryer
dryer
quarry
tile
175
Waste
heat
1.2
us­
2
us
FALSE
189us­
2
189
dc­
3
189dc­
3
mangle
dryer
dryer
quarry
tile
180
Waste
heat,

natural
gas
0.25
0.6
us­
3
us
FALSE
189us­
3
189
dc­
4
189dc­
4
mangle
dryer
dryer
quarry
tile
180
Waste
heat,

natural
gas
0.25
0.6
us­
3
us
FALSE
189us­
3
189
dc­
5
189dc­
5
mangle
dryer
dryer
quarry
tile
180
Waste
heat,

natural
gas
0.25
0.6
us­
3
us
FALSE
189us­
3
189
dc­
6
189dc­
6
mangle
dryer
dryer
quarry
tile
180
Waste
heat,

natural
gas
0.25
0.6
us­
4
us
FALSE
189us­
4
189
dc­
7
189dc­
7
mangle
dryer
dryer
quarry
tile
180
Waste
heat,

natural
gas
0.25
0.6
us­
4
us
FALSE
189us­
4
189
dc­
8
189dc­
8
mangle
dryer
dryer
quarry
tile
180
Waste
heat,

natural
gas
0.25
0.6
us­
4
us
FALSE
189us­
4
189
dp­
1
189dp­
1
chamber
dryer
dryer
quarry
tile
180
Natural
gas
0.25
24
1200
us­
13
us
FALSE
189us­
13
189
misc­
4
189misc­
4
preheater
predryer
quarry
tile
300
Waste
heat
0.25
1.4
fe
us
FALSE
189fe
189
misc­
5
189misc­
5
preheater
predryer
quarry
tile
300
Waste
heat
0.25
1.2
fe
us
FALSE
189fe
189
misc­
6
189misc­
6
preheater
predryer
quarry
tile
300
Waste
heat
0.25
1.7
fe
us
FALSE
189fe
189
misc­
7
189misc­
7
preheater
predryer
quarry
tile
300
Waste
heat
0.25
1.8
fe
us
FALSE
189fe
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
135
189
tk­
1
189tk­
1
Tunnel
kiln
tunnel
kiln
quarry
tile
2100
Natural
gas
9.6
1.4
1.40
1.40
us­
8
us
FALSE
189us­
8
189
tk­
2
189tk­
2
Tunnel
kiln
tunnel
kiln
quarry
tile
2100
Natural
gas
9.6
1.2
1.20
1.20
us­
9
us
FALSE
189us­
9
189
tk­
3
189tk­
3
Tunnel
kiln
tunnel
kiln
quarry
tile
2150
Natural
gas
12
1.7
1.70
1.70
us­
10
us
FALSE
189us­
10
189
tk­
4
189tk­
4
Tunnel
kiln
tunnel
kiln
quarry
tile
2000
Natural
gas
10
1.8
1.80
1.80
us­
11
us
FALSE
189us­
11
19
dc­
1
19dc­
1
Dryer
Dryer
Brick
400
waste
heat
3.03
us­
1
us
FALSE
19us­
1
19
dc­
2
19dc­
2
Dryer
Dryer
Brick
400
waste
heat
3.03
us­
2
us
FALSE
19us­
2
19
dc­
3
19dc­
3
Dryer
Dryer
Brick
400
waste
heat
7.12
us­
3
us
FALSE
19us­
3
19
dc­
4
19dc­
4
Dryer
Dryer
Brick
400
waste
heat
7.12
us­
4
us
FALSE
19us­
4
19
tk­
1
19tk­
1
tunnel
kiln
tunnel
kiln
brick
2100
otherlandfill
gas
20
3.03
3.62
3.62
us­
5
us
FALSE
19us­
5
19
tk­
2
19tk­
2
tunnel
kiln
tunnel
kiln
brick
2100
otherlandfill
gas
20
3.03
3.62
3.62
us­
6
us
FALSE
19us­
6
19
tk­
3
19tk­
3
tunnel
kiln
tunnel
kiln
brick
2100
natural
gas
23
7.12
11.75
8.51
us­
7
us
FALSE
19us­
7
19
tk­
4
19tk­
4
tunnel
kiln
tunnel
kiln
brick
2100
natural
gas
23
7.12
11.75
8.51
us­
8
us
FALSE
19us­
8
2
dc­
1
2dc­
1
Dryer
Dryer
Brick
350
waste
Heat
3.4
us­
1
us
FALSE
2us­
1
2
tk­
1
2tk­
1
tunnel
Kiln
tunnel
Kiln
brick
1950
Natural
gas
3.4
3.40
3.40
us­
2
us
FALSE
2us­
2
20
dc­
1
20dc­
1
tunnel
dryer
dryer
structural
brick
300
natural
gas
6
6.4
us­
3
to
us­
5
us
FALSE
20us­
3
to
us­
5
20
dc­
2
20dc­
2
roller
kiln
dryer
Dryer
structural
brick
300
natural
gas
6
0
us­
11
to
us­
18
us
FALSE
20us­
11
to
us­
18
20
tk­
1
20tk­
1
tunnel
kiln
tunnel
kiln
structural
brick
1930
natural
gas
40
6.4
10.40
6.40
us­
1,­
2
us
FALSE
20us­
1,­
2
20
tk­
2
20tk­
2
roller
kiln
tunnel
kilnidle
structural
brick
1930
natural
gas
17.4
0
3.97
3.97
us­
7
to
us­
9
us
FALSE
20us­
7
to
us­
9
21
misc­
1
to
misc­
4
21misc­
1
to
misc­
4
drying
room
predryer
tile
brick
180
natural
gas
fe­
2
us
FALSE
21fe­
2
21
pk­
1
21pk­
1
periodic
kiln
periodic
kiln
tile,
brick
1650
natural
gas
3.9
144
450
tons
0.142
0.19
0.19
us­
1
us
FALSE
21us­
1
21
pk­
2
21pk­
2
periodic
kiln
periodic
kiln
tile,
brick
1650
natural
gas
3.9
144
450
tons
0.142
0.19
0.19
us­
2
us
FALSE
21us­
2
21
pk­
3
21pk­
3
periodic
kiln
periodic
kiln
tile,
brick
1650
natural
gas
3.9
144
450
tons
0.142
0.19
0.19
us­
3
us
FALSE
21us­
3
21
pk­
4
21pk­
4
periodic
kiln
periodic
kiln
tile,
brick
1650
natural
gas
3.9
144
450
tons
0.142
0.19
0.19
us­
4
us
FALSE
21us­
4
21
pk­
5
21pk­
5
periodic
kiln
periodic
kiln
tile,
brick
1650
natural
gas
3.9
144
450
tons
0.142
0.19
0.19
us­
5
us
FALSE
21us­
5
21
pk­
6
21pk­
6
periodic
kiln
periodic
kiln
tile,
brick
1650
natural
gas
3.9
144
450
tons
0.142
0.19
0.19
us­
6
us
FALSE
21us­
6
22
dc­
1
22dc­
1
Dryer
Dryer
Face
brick
350
waste
heat
6.65
us­
3
us
FALSE
22us­
3
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
136
22
dc­
2
22dc­
2
Dryer
Dryer
Face
brick
350
waste
heat
1.7
us­
4
us
FALSE
22us­
4
22
tk­
1
22tk­
1
tunnel
kiln
tunnel
kiln
face
brick
1900
natural
gas
6.65
9.34
9.34
us­
1
us
FALSE
22us­
1
22
tk­
2
22tk­
2
tunnel
kiln
tunnel
kiln
face
brick
1900
natural
gas
1.7
2.39
2.39
us­
2
us
FALSE
22us­
2
23
dc­
1
23dc­
1
Dryer
Dryer
brick
and
tile
350
Waste
heat
3.41
us­
13
us
FALSE
23us­
13
23
dc­
2
23dc­
2
Dryer
Dryer
brick
and
tile
350
Waste
heat
3.41
us­
15
us
FALSE
23us­
15
23
dc­
3
23dc­
3
dryer
dryer
brick
and
tile
350
Waste
heat
3.41
us­
14
us
FALSE
23us­
14
23
MISC­
1
23MISC­
1
Roller
kiln
(
Glaze
set
kiln)
Glaze
set
kiln
glazed
brick
and
tile
2000
natural
gas
1.7
1.2
us­
12
us
FALSE
23us­
12
23
pk­
1
23pk­
1
periodic
kiln­
idle
periodic
kiln­
idle
brick
2200
natural
gas
6.25
288
100
tons
0
1.20
1.20
us­
4
us
FALSE
23us­
4
23
pk­
2
23pk­
2
periodic
kiln­
idle
periodic
kiln­
idle
brick
2200
natural
gas
6.25
288
100
tons
0
1.20
1.20
us­
5
us
FALSE
23us­
5
23
pk­
3
23pk­
3
periodic
kiln­
idle
periodic
kiln­
idle
brick
2200
natural
gas
6.25
288
100
tons
0
1.20
1.20
us­
6
us
FALSE
23us­
6
23
pk­
4
23pk­
4
periodic
kiln­
idle
periodic
kiln­
idle
brick
2200
natural
gas
12.5
288
200
tons
0
1.20
1.20
us­
7
us
FALSE
23us­
7
23
pk­
5
23pk­
5
periodic
kiln­
idle
periodic
kiln­
idle
brick
2200
natural
gas
12.5
288
200
tons
0
1.20
1.20
us­
7
us
FALSE
23us­
7
23
pk­
6
23pk­
6
periodic
kiln­
idle
periodic
kiln­
idle
brick
2200
natural
gas
6.25
288
100
ton
0
1.20
1.20
us­
8
us
FALSE
23us­
8
23
pk­
7
23pk­
7
periodic
kiln­
idle
periodic
kiln­
idle
brick
2200
natural
gas
6.25
288
100
tons
0
1.20
1.20
us­
9
us
FALSE
23us­
9
23
pk­
8
23pk­
8
periodic
kiln­
idle
periodic
kiln­
idle
brick
2200
natural
gas
6.25
288
100
tons
0
1.20
1.20
us­
10
us
FALSE
23us­
10
23
pk­
9
23pk­
9
periodic
kiln­
idle
periodic
kiln­
idle
brick
2200
natural
gas
6.25
288
100
tons
0
1.20
1.20
us­
11
us
FALSE
23us­
11
23
tk­
1
23tk­
1
tunnel
kiln
tunnel
kiln
brick
and
tile
2200
natural
gas
13.5
3.83
6.40
6.40
us­
1
us
FALSE
23us­
1
23
tk­
2
23tk­
2
tunnel
kiln
tunnel
kiln
brick
and
tile
2200
natural
gas
13.5
3.83
6.40
6.40
us­
2
us
FALSE
23us­
2
23
tk­
3
23tk­
3
tunnel
kiln
tunnel
kiln
brick
and
tile
2200
natural
gas
13.5
3.83
6.40
6.40
us­
3
us
FALSE
23us­
3
24
dc­
1
24dc­
1
tunnel
dryer
dryer
brick
pavers
600
waste
heat
0.92
us­
1
us
FALSE
24us­
1
24
dc­
2
24dc­
2
tunnel
dryer
dryer
quarry
302
waste
heat
1
us­
3
us
FALSE
24us­
3
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
137
tile,
brick
coping
24
tk­
1
24tk­
1
tunnel
kiln
tunnel
kiln
brick
pavers
2040
natural
gas
0.85
0.90
0.90
us­
2
us
FALSE
24us­
2
24
tk­
2
24tk­
2
tunnel
kiln
tunnel
kiln
quarry
tile,
brick
coping
2102
natural
gas
0.95
1.00
1.00
us­
4
us
FALSE
24us­
4
25
dc­
1
25dc­
1
Dryer
Dryer
Brick
400
waste
heat
3.3
us­
1
us
FALSE
25us­
1
25
dc­
2
25dc­
2
Dryer
Dryer
Brick
400
waste
heat
3.3
us­
2
us
FALSE
25us­
2
25
dc­
3
25dc­
3
Dryer
Dryer
Brick
400
waste
heat
4
us­
3
us
FALSE
25us­
3
25
dc­
4
25dc­
4
Dryer
Dryer
Brick
400
waste
heat
5.7
us­
4
us
FALSE
25us­
4
25
dc­
5
25dc­
5
Dryer
Dryer
Brick
400
waste
heat
5.7
us­
5
us
FALSE
25us­
5
25
dr­
1
25dr­
1
rotary
dryer
Sand
dryer
sand
waste
heat
0.42
SC­

1,
US­

11
sc
FALSE
25SC­

1,
US­
11
25
tk­
1
25tk­
1
tunnel
kiln
tunnel
kiln
Brick
1960
natural
gas
3.3
4.40
4.40
us­
10
us
FALSE
25us­
10
25
tk­
2
25tk­
2
tunnel
kiln
tunnel
kiln
brick
1960
natural
gas
3.3
4.40
4.40
us­
9
us
FALSE
25us­
9
25
tk­
3
25tk­
3
tunnel
kiln
tunnel
kiln
brick
1960
natural
gas
4
5.33
5.33
us­
8
us
FALSE
25us­
8
25
tk­
4
25tk­
4
tunnel
kiln
tunnel
kiln
brick
1960
natural
gas
5.7
7.60
7.60
us­
7
us
FALSE
25us­
7
25
tk­
5
25tk­
5
tunnel
kiln
tunnel
kiln
brick
1960
natural
gas
5.7
7.60
7.60
us­
6
us
FALSE
25us­
6
25
tk­
6
25tk­
6
tunnel
kiln
tunnel
kiln
brick
natural
gas
45.6
18.2
22.80
da­
1
da
FALSE
25da­
1
26
dc­
1
26dc­
1
Dryer
Dryer
Face
brick
450
waste
heat
11.2
us­
1
us
FALSE
26us­
1
26
dr­
1
26dr­
1
rotary
dryer
Sand
dryer
sand
natural
gas
us­
3
us
FALSE
26us­
3
26
tk­
1
26tk­
1
tunnel
kiln
tunnel
kiln
face
brick
1950
natural
gas
11.2
13.45
13.45
us­
2
us
FALSE
26us­
2
27
dc­
1
27dc­
1
Dryer
Dryer
Brick
290
waste
heat
7.7
us­
1
us
FALSE
27us­
1
27
tk­
1
27tk­
1
tunnel
kiln
tunnel
kiln
brick
2000
natural
gas
7.7
10.50
8.40
us­
2
us
FALSE
27us­
2
27
tk­
2
27tk­
2
tunnel
kiln
tunnel
kiln
brick
natural
gas
10.5
10.50
us
us
FALSE
27us
28
dc­
1
28dc­
1
Dryer
Dryer
Brick
320
waste
heat
6.9
us­
2
us
FALSE
28us­
2
28
tk­
1
28tk­
1
tunnel
kiln
tunnel
kiln
brick
1950
natural
gas
6.9
8.24
8.24
us­
1
us
FALSE
28us­
1
29
dc­
1
29dc­
1
Dryer
Dryer
Brick
375
waste
heat
5
us­
2
us
FALSE
29us­
2
29
tk­
1
29tk­
1
tunnel
kiln
tunnel
kiln
brick
1970
natural
gas
5
5.00
5.00
us­
1
us
FALSE
29us­
1
3
dc­
1
3dc­
1
Dryer­
idle
Dryer­
idle
common
brick
300
Waste
heat
0
us­
1
us
FALSE
3us­
1
3
tk­
1
3tk­
1
tunnel
kilnidle
tunnel
kilnidle
common
brick
1950
natural
gas
0
9.90
9.90
us­
2
us
FALSE
3us­
2
30
dc­
1
30dc­
1
Dryer
Dryer
Brick
375
waste
heat
5.9
us­
3
us
FALSE
30us­
3
30
dc­
2
30dc­
2
Dryer
Dryer
Brick
375
waste
heat
7.8
us­
4
us
FALSE
30us­
4
30
tk­
1
30tk­
1
tunnel
kiln
tunnel
kiln
brick
1970
natural
gas
5.9
5.96
5.96
us­
1
us
FALSE
30us­
1
30
tk­
2
30tk­
2
tunnel
kiln
tunnel
kiln
brick
1970
natural
gas
7.8
7.87
7.87
us­
2
us
FALSE
30us­
2
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
138
31
dc­
1
31dc­
1
Dryer
Dryer
Brick
400
waste
heat
4.75
us­
1
us
FALSE
31us­
1
31
dc­
2
31dc­
2
Dryer
Dryer
Brick
400
waste
heat
4.75
us­
2
us
FALSE
31us­
2
31
dc­
3
31dc­
3
Dryer
Dryer
Brick
400
waste
heat
4.75
us­
3
us
FALSE
31us­
3
31
dc­
4
31dc­
4
Dryer
Dryer
Brick
400
waste
heat
4.75
us­
4
us
FALSE
31us­
4
31
dc­
5
31dc­
5
Dryer
Dryer
Brick
400
waste
heat
4.75
us­
7
us
FALSE
31us­
7
31
dc­
6
31dc­
6
Dryer
Dryer
Brick
400
waste
heat
4.75
us­
8
us
FALSE
31us­
8
31
dc­
7
31dc­
7
Dryer
Dryer
Brick
400
waste
heat
4.75
us­
9
us
FALSE
31us­
9
31
dc­
8
31dc­
8
Dryer
Dryer
Brick
400
waste
heat
4.75
us­
10
us
FALSE
31us­
10
31
tk­
1
31tk­
1
tunnel
kiln
tunnel
kiln
brick
1900
Coal
9.5
11.30
11.30
us­
5
us
FALSE
31us­
5
31
tk­
2
31tk­
2
tunnel
kiln
tunnel
kiln
brick
1900
Coal
9.5
11.30
11.30
us­
6
us
FALSE
31us­
6
31
tk­
3
31tk­
3
tunnel
kiln
tunnel
kiln
brick
1900
natural
gas
9.5
11.30
11.30
da­
1
da
FALSE
31da­
1
31
tk­
4
31tk­
4
tunnel
kiln
tunnel
kiln
brick
1900
natural
gas
9.5
11.30
11.30
da­
1
da
FALSE
31da­
1
32
dc­
1
32dc­
1
Dryer
Dryer
Brick
400
waste
heat
1.93
us­
1
us
FALSE
32us­
1
32
dc­
2
32dc­
2
Dryer
Dryer
Brick
400
waste
heat
1.93
us­
2
us
FALSE
32us­
2
32
dc­
3
32dc­
3
Dryer
Dryer
Brick
400
waste
heat
1.93
us­
3
us
FALSE
32us­
3
32
dc­
4
32dc­
4
Dryer
Dryer
Brick
400
waste
heat
1.93
us­
4
us
FALSE
32us­
4
32
dc­
5
32dc­
5
Dryer
Dryer
Brick
400
waste
heat
1.93
us­
5
us
FALSE
32us­
5
32
dc­
6
32dc­
6
Dryer
Dryer
Brick
400
waste
heat
1.93
us­
6
us
FALSE
32us­
6
32
dc­
7
32dc­
7
Dryer
Dryer
Brick
400
waste
heat
1.93
us­
7
us
FALSE
32us­
7
32
dc­
8
32dc­
8
Dryer
Dryer
Brick
400
waste
heat
1.93
us­
8
us
FALSE
32us­
8
32
tk­
1
32tk­
1
tunnel
kiln
tunnel
kiln
brick
1900
natural
gas
4.63
7.77
7.77
us­
9
us
FALSE
32us­
9
32
tk­
2
32tk­
2
tunnel
kiln
tunnel
kiln
brick
1900
natural
gas
5.4
9.06
9.06
us­
10
us
FALSE
32us­
10
32
tk­
3
32tk­
3
tunnel
kiln
tunnel
kiln
brick
1900
natural
gas
5.4
9.06
9.06
us­
11
us
FALSE
32us­
11
33
dc­
1
33dc­
1
Dryer
Dryer
Brick
waste
heat
fe­
4,

us­
7
us
FALSE
33fe­
4,

us­
7
33
pk­
1
33pk­
1
periodic
kiln
periodic
kiln
brick
1850
coal/
sawdu
st
176
208
116
tons
0.237
0.26
0.26
us­
1
us
FALSE
33us­
1
33
pk­
10
33pk­
10
periodic
kiln
periodic
kiln
brick
1850
coal/
sawdu
st
176
208
116
tons
0.237
0.26
0.26
us­
5
us
FALSE
33us­
5
33
pk­
11
33pk­
11
periodic
kiln
periodic
kiln
brick
1850
coal/
sawdu
st
176
208
116
tons
0.237
0.26
0.26
us­
6
us
FALSE
33us­
6
33
pk­
2
33pk­
2
periodic
kiln
periodic
kiln
brick
1850
coal/
sawdu
st
176
208
116
tons
0.237
0.26
0.26
us­
1
us
FALSE
33us­
1
33
pk­
3
33pk­
3
periodic
kiln
periodic
kiln
brick
1850
coal/
sawdu
st
176
208
116
tons
0.237
0.26
0.26
us­
2
us
FALSE
33us­
2
33
pk­
4
33pk­
4
periodic
kiln
periodic
kiln
brick
1850
coal/
sawdu
st
176
208
116
tons
0.237
0.26
0.26
us­
2
us
FALSE
33us­
2
33
pk­
5
33pk­
5
periodic
kiln
periodic
kiln
brick
1850
coal/
sawdu
st
176
208
116
tons
0.237
0.26
0.26
us­
3
us
FALSE
33us­
3
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
139
33
pk­
6
33pk­
6
periodic
kiln
periodic
kiln
brick
1850
coal/
sawdu
st
176
208
116
tons
0.237
0.26
0.26
us­
3
us
FALSE
33us­
3
33
pk­
7
33pk­
7
periodic
kiln
periodic
kiln
brick
1850
coal/
sawdu
st
176
208
116
tons
0.237
0.26
0.26
us­
4
us
FALSE
33us­
4
33
pk­
8
33pk­
8
periodic
kiln
periodic
kiln
brick
1850
coal/
sawdu
st
176
208
116
tons
0.237
0.26
0.26
us­
4
us
FALSE
33us­
4
33
pk­
9
33pk­
9
periodic
kiln
periodic
kiln
brick
1850
coal/
sawdu
st
176
208
116
tons
0.237
0.26
0.26
us­
5
us
FALSE
33us­
5
34
dc­
1
34dc­
1
Brick
dryer
dryer
Face
brick
350
waste
heat
3.8
us­
1
us
FALSE
34us­
1
34
DC­
2
34DC­
2
Brick
dryer
dryer
Face
brick
350
Waste
heat
3.8
US­
2
us
FALSE
34US­
2
34
dc­
3
34dc­
3
Brick
dryer
dryer
Face
brick
350
waste
heat
7
us­
3,­
4
us
FALSE
34us­
3,­
4
34
tk­
1
34tk­
1
tunnel
kiln
tunnel
kiln
face
brick
2130
natural
gas
3.3
3.30
3.30
us­
5,­
6
us
FALSE
34us­
5,­
6
34
tk­
2
34tk­
2
tunnel
kiln
tunnel
kiln
face
brick
2130
natural
gas
6.1
6.10
6.10
us­
7,­
8
us
FALSE
34us­
7,­
8
34
tk­
3
34tk­
3
tunnel
kiln
tunnel
kiln
face
brick
natural
gas
14.6
18.30
DA­
1
da
FALSE
34da­
1
35
dc­
1
35dc­
1
Dryer
Dryer
Face
brick
400
waste
heat
8.33
us­
3
us
FALSE
35us­
3
35
dc­
2
35dc­
2
Dryer
Dryer
Face
brick
400
waste
heat
8.33
us­
4
us
FALSE
35us­
4
35
tk­
1
35tk­
1
tunnel
kiln
tunnel
kiln
face
brick
2000
natural
gas
23.5
8.33
8.57
8.57
us­
1
us
FALSE
35us­
1
35
tk­
2
35tk­
2
tunnel
kiln
tunnel
kiln
face
brick
2000
natural
gas
23.5
8.33
8.57
8.57
us­
2
us
FALSE
35us­
2
36
dc­
1
36dc­
1
Dryer
Dryer
Face
brick
400
waste
heat
2.35
us­
1
us
FALSE
36us­
1
36
dc­
2
36dc­
2
Dryer
Dryer
Face
brick
400
waste
heat
2.35
us­
2
us
FALSE
36us­
2
36
dc­
3
36dc­
3
Dryer
Dryer
Face
brick
400
waste
heat
2.35
us­
3
us
FALSE
36us­
3
36
dc­
4
36dc­
4
Dryer
Dryer
Face
brick
400
waste
heat
2.35
us­
4
us
FALSE
36us­
4
36
tk­
1
36tk­
1
Tunnel
kiln
Tunnel
kiln
Face
brick
2050
Natural
gas
21.33
9.39
10.00
10.00
US­
5
us
FALSE
36US­
5
36
tk­
2
36tk­
2
Tunnel
kiln
Tunnel
kiln
Face
brick
Natural
gas
9.39
10.00
DA­
1
da
FALSE
36da­
1
37
dc­
1
37dc­
1
Dryer
Dryer
Face
brick
400
waste
heat
7.31
us­
1
us
FALSE
37us­
1
37
tk­
1
37tk­
1
tunnel
kiln
tunnel
kiln
face
brick
2000
natural
gas
18
7.31
7.79
7.79
us­
2
us
FALSE
37us­
2
38
DP­
1
38DP­
1
Dryer
Dryer
Brick
165
Natural
gas
72
68
tons
US­
1
us
FALSE
38US­
1
38
DP­
2
38DP­
2
Dryer
Dryer
Brick
165
Natural
gas
72
68
tons
US­
1
us
FALSE
38US­
1
38
DP­
3
38DP­
3
Dryer
Dryer
Brick
165
Natural
gas
72
68
tons
US­
1
us
FALSE
38US­
1
38
DP­
4
38DP­
4
Dryer
Dryer
Brick
165
Natural
gas
72
68
tons
US­
1
us
FALSE
38US­
1
38
pk­
1
38pk­
1
periodic
kiln
periodic
kiln
brick
1975
natural
gas
42
57
tons
0.66
0.66
0.66
us­
2
us
FALSE
38us­
2
38
pk­
2
38pk­
2
periodic
kiln
periodic
kiln
brick
1975
natural
gas
52
215
tons
0.66
0.66
0.66
us­
3
us
FALSE
38us­
3
38
pk­
3
38pk­
3
Periodic
kiln­
idle
Periodic
kiln­
idle
Brick
Natural
gas
0
0.66
0.66
US­
4
us
FALSE
38us­
4
39
dc­
1
39dc­
1
Dryer
Dryer
Structural
tile
400
waste
heat
2.9
us­
1,­
2
us
FALSE
39us­
1,­
2
39
tk­
1
39tk­
1
tunnel
kiln
tunnel
kiln
structural
2120
natural
gas
10
2.9
3.09
3.09
us­
3
us
FALSE
39us­
3
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
140
tile
4
dc­
1
4dc­
1
tunnel
dryer
dryer
common
brick
250
waste
heat
3.42
us­
1
us
FALSE
4us­
1
4
misc­
1
­

misc­
9
4misc­
1
­

misc­
9
drying
room
predryer
common
brick
130
natural
gas
36­
240
1600
tons
fe­
6
­

fe­
14
us
FALSE
4fe­
6
­
fe­

14
4
tk­
1
4tk­
1
tunnel
kiln
tunnel
kiln
common
brick
1900
natural
gas
3.42
6.84
6.84
us­
2
us
FALSE
4us­
2
40
dc­
1
40dc­
1
Dryer
Dryer
Structural
tile
400
waste
heat
3.88
us­
1,­
2
us
FALSE
40us­
1,­
2
40
ds­
1
40ds­
1
sawdust
dryer
sawdust
dryer
sawdust
200
Waste
heat
us­
4
us
FALSE
40us­
4
40
tk­
1
40tk­
1
Tunnel
kiln/
partial
sd
Tunnel
kiln
structural
tile
2000
sawdust/
nat
ural
gas
3.88
3.88
3.88
us­

3,
dps­
1
us,
dps
FALSE
40us­

3,
dps­
1
41
dc­
1
41dc­
1
Dryer
Dryer
Face
brick
340
waste
heat/
natural
gas
1.48
5.97
us­
1
us
FALSE
41us­
1
41
dc­
2
41dc­
2
Dryer
Dryer
Face
brick
340
waste
heat/
natural
gas
1.48
5.98
us­
2
us
FALSE
41us­
2
41
tk­
1
41tk­
1
tunnel
kiln
tunnel
kiln
face
brick
1930
natural
gas
20.2
11.95
15.53
15.53
us­
3
us
FALSE
41us­
3
41
tk­
2
41tk­
2
tunnel
kiln
tunnel
kiln
face
brick
natural
gas
4.27
15.96
us
us
FALSE
41us
42
dc­
1
42dc­
1
tunnel
dryer
dryer
structural
brick
325
waste
heat/
natural
gas
3.42
us­
1
us
FALSE
42us­
1
42
tk­
1
42tk­
1
tunnel
kiln
tunnel
kiln
structual
brick
1900
natural
gas
3.42
12.00
12.00
us­
2
us
FALSE
42us­
2
43
dc­
1
43dc­
1
tunnel
dryer
dryer
face
brick
350
waste
heat
4.97
us­
1
us
FALSE
43us­
1
43
dr­
1
43dr­
1
rotary
dryer
Sand
dryer
sand/
dirt/
c
lay/
shale
350
natural
gas
15
hr/
wk
0.7
hr
us­
4
us
FALSE
43us­
4
43
ds­
1
43ds­
1
dryer/
cyclo
ne
sawdust
dryer
sawdust
450
Waste
heat
us­
3
us
FALSE
43us­
3
43
tk­
1
43tk­
1
Tunnel
kiln/
partial
sd
Tunnel
kiln
face
brick
1950
sawdust/
nat
ural
gas
33.73
4.97
6.69
6.69
us­

2,
dps­
1
us,
dps
FALSE
43us­

2,
dps­
1
44
dc­
1
44dc­
1
Dryer
Dryer
structural
brick
375
waste
heat
2.4
us­
1
us
FALSE
44us­
1
44
tk­
1
44tk­
1
tunnel
kiln
tunnel
kiln
structural
brick
1920
natural
gas
5.6
2.4
2.48
2.48
us­
2
us
FALSE
44us­
2
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
141
45
dc­
1
45dc­
1
Dryer
Dryer
Brick
350
waste
heat
5.32
us­
1
us
FALSE
45us­
1
45
tk­
1
45tk­
1
tunnel
kiln
tunnel
kiln
brick
1875
natural
gas
9.375
2.66
3.78
3.78
us­
2
us
FALSE
45us­
2
45
tk­
2
45tk­
2
tunnel
kiln
tunnel
kiln
brick
1875
natural
gas
9.375
2.66
3.78
3.78
us­
3
us
FALSE
45us­
3
46
dc­
1
46dc­
1
Brick
dryer
dryer
shale,
clay
400
waste
heat
2.85
us­
2
us
FALSE
46us­
2
46
dc­
2
46dc­
2
Brick
dryer
dryer
shale
clay
400
waste
heat
2.85
us­
3
us
FALSE
46us­
3
46
dc­
3
46dc­
3
Brick
dryer
dryer
shale,
clay
400
waste
heat
2.85
us­
4
us
FALSE
46us­
4
46
dr­
1
46dr­
1
sand
dryer
sand
dryer
sand,
clay,

shale
natural
gas
us­
5
us
FALSE
46us­
5
46
ds­
1
46ds­
1
sawdust
dryer
sawdust
dryer
sawdust
520
Waste
heat
2.57
us­
6
us
FALSE
46us­
6
46
tk­
1
46tk­
1
Tunnel
kiln/
partial
sd
Tunnel
kiln
structural
brick
2000
sawdust
8.55
9.79
9.79
us­

1,
dps­
1
us,
dps
FALSE
46us­

1,
dps­
1
47
dc­
1
47dc­
1
dryer
dryer
brick
320
waste
heat
3.47
us­
1
us
FALSE
47us­
1
47
dc­
3
47dc­
3
Dryer
Dryer
brick
waste
heat
3.47
us­
2
us
FALSE
47us­
2
47
tk­
1
47tk­
1
tunnel
kiln
tunnel
kiln
brick
2050
natural
gas
3.47
4.40
4.40
da­
1
da
FALSE
47da­
1
47
tk­
3
47tk­
3
tunnel
kiln
tunnel
kiln
brick
natural
gas
3.47
3.47
3.47
da­
1
da
FALSE
47da­
1
48
dc­
1
48dc­
1
Dryer
Dryer
brick
drying
350
waste
heat
7.82
us­
1
us
FALSE
48us­
1
48
tk­
1
48tk­
1
tunnel
kiln
tunnel
kiln
brick
firing
2000
natural
gas
16
7.82
10.06
10.06
us­
2
us
FALSE
48us­
2
49
dc­
1
49dc­
1
Dryer
Dryer
brick
drying
350
waste
heat
10.64
us­
1
us
FALSE
49us­
1
49
dc­
2
49dc­
2
Dryer
Dryer
brick
drying
350
waste
heat
10.64
us­
3
us
FALSE
49us­
3
49
dr­
1
49dr­
1
sand
dryer
sand
dryer
drying
sand
natural
gas
fe­
5
us
FALSE
49fe­
5
49
tk­
1
49tk­
1
Tunnel
kiln
Tunnel
kiln
brick
firing
2000
natural
gas
21.4
10.64
14.50
14.50
us­
2
us
FALSE
49us­
2
49
tk­
2
49tk­
2
Tunnel
kiln
Tunnel
kiln
brick
firing
2000
natural
gas
21.4
10.64
14.50
14.50
us­
4
us
FALSE
49us­
4
49
tk­
3
49tk­
3
Tunnel
kiln
Tunnel
kiln
brick
natural
gas
24
24.00
24.00
us­
5
us
FALSE
49US­
5
5
dc­
1
5dc­
1
Dryer
Dryer
Brick
475
waste
heat
10.26
us­
2
us
FALSE
5us­
2
5
dc­
2
5dc­
2
Dryer
Dryer
Brick
475
waste
heat
10.26
us­
3
us
FALSE
5us­
3
5
misc­
2
5misc­
2
holding
room
predryer
brick
110
waste
heat
20.5
us­
1
us
FALSE
5us­
1
5
tk­
1
5tk­
1
tunnel
kiln
tunnel
kiln
brick
2000
natural
gas
25.6
10.26
12.51
12.51
us­
4
us
FALSE
5us­
4
5
tk­
2
5tk­
2
tunnel
kiln
tunnel
kiln
brick
2000
natural
gas
25.6
10.26
12.51
12.51
us­
5
us
FALSE
5us­
5
50
dc­
1
50dc­
1
Dryer
Dryer
brick
400
waste
heat
1.79
us­
1,­
2
us
FALSE
50us­
1,­
2
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
142
pavers
50
tk­
1
50tk­
1
tunnel
kiln
tunnel
kiln
brick
pavers
1980
natural
gas
1.79
3.13
3.13
us­
3
to
us­
5
us
FALSE
50us­
3
to
us­
5
51
dc­
1
51dc­
1
soft
mud
tunnel
dryer
dryer
brick
300
waste
heat/
natural
gas
11.8
6.63
us­
2
us
FALSE
51us­
2
51
dc­
2
51dc­
2
tunnel
dryer
dryer
brick
400
waste
heat
5.04
us­
7
us
FALSE
51us­
7
51
dc­
3
51dc­
3
tunnel
dryer
dryer
brick
400
waste
heat
5.04
us­
8
us
FALSE
51us­
8
51
dp­
1
51dp­
1
Batch
shapes
dryer
dryer
Brick
175
natural
gas
0.291
36
us­
5
us
FALSE
51us­
5
51
dr­
1
51dr­
1
rotary
sand
dryer
Sand
dryer
sand
250
natural
gas
1
1.5
cy­
1
cy
FALSE
51cy­
1
51
dr­
2
51dr­
2
rotary
sand
dryer
Sand
dryer
sand
250
natural
gas
0.4
1
us­
10
us
FALSE
51us­
10
51
misc­
2
51misc­
2
holding
room
predryer
brick
100
waste
heat
6.63
us­
1
us
FALSE
51us­
1
51
misc­
6
51misc­
6
preheater
Predryer
brick
250
waste
heat
6.63
us­
3
us
FALSE
51us­
3
51
misc­
8
51misc­
8
holding
room
predryer
brick
100
waste
heat
10.08
us­
6
us
FALSE
51us­
6
51
tk­
1
51tk­
1
tunnel
kiln
tunnel
kiln
brick
2050
natural
gas
20
6.63
8.05
8.05
us­
4
us
FALSE
51us­
4
51
tk­
2
51tk­
2
tunnel
kiln
tunnel
kiln
brick
2050
natural
gas
27
10.08
11.88
11.88
us­
9
us
FALSE
51us­
9
52
dc­
1
52dc­
1
dryer
dryer
Face
brick
350
waste
heat
8.82
us­
1
us
FALSE
52us­
1
52
dc­
2
52dc­
2
dryer
dryer
Face
brick
350
waste
heat
8.82
us­
2
us
FALSE
52us­
2
52
misc­
1
to
misc­
2
52misc­
1
to
misc­
2
predryer
predryer
face
brick
waste
heat
17.65
fe­
10,­

11
us
FALSE
52fe­
10,­

11
52
tk­
1
52tk­
1
tunnel
kiln
tunnel
kiln
face
brick
2000
coal/
natural
gas
18.9
8.82
12.27
12.27
bh­
1
bh
FALSE
52bh­
1
52
tk­
2
52tk­
2
tunnel
kiln
tunnel
kiln
face
brick
2000
coal/
natural
gas
18.9
8.82
12.27
12.27
bh­
2
bh
FALSE
52bh­
2
53
dc­
1
53dc­
1
Dryer
Dryer
Face
brick
400
waste
heat
15.59
us­
1
us
FALSE
53us­
1
53
misc­
1
53misc­
1
predryer
predryer
face
brick
200
Waste
heat
15.59
fe­
13
us
FALSE
53fe­
13
53
tk­
1
53tk­
1
tunnel
kiln
tunnel
kiln
face
brick
2050
coal/
natural
gas
35
15.59
21.69
21.69
bh­
1
bh
FALSE
53bh­
1
54
dc­
1
54dc­
1
Dryer
Dryer
Face
brick
350
waste
heat
11.59
us­
1
us
FALSE
54us­
1
54
dc­
2
54dc­
2
Dryer
Dryer
Face
brick
350
waste
heat
10.8
us­
3
us
FALSE
54us­
3
54
misc­
1
54misc­
1
predryer
predryer
face
brick
Waste
heat
11.59
fe­
5
us
FALSE
54fe­
5
54
misc­
2
54misc­
2
predryer
predryer
face
brick
Waste
heat
10.8
fe­
10
us
FALSE
54fe­
10
54
tk­
1
54tk­
1
tunnel
kiln
tunnel
kiln
face
brick
1880
coal/
natural
24.9
11.59
14.77
14.77
us­
2
us
FALSE
54us­
2
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
143
gas
54
tk­
2
54tk­
2
tunnel
kiln
tunnel
kiln
face
brick
1880
coal/
natural
gas
23.2
10.8
13.77
13.77
us­
4
us
FALSE
54us­
4
55
dc­
1
55dc­
1
Dryer
Dryer
face
brick
350
waste
heat
5.48
us­
3
us
FALSE
55us­
3
55
dc­
2
55dc­
2
Dryer
Dryer
Face
brick
350
waste
heat
7.24
us­
4
us
FALSE
55us­
4
55
misc­
1
55misc­
1
predryer
predryer
face
brick
waste
heat
fe­
8
us
FALSE
55fe­
8
55
tk­
1
55tk­
1
tunnel
kiln
tunnel
kiln
face
brick
1900
Natural
gas
25
5.48
10.75
10.75
us­
1
us
FALSE
55us­
1
55
tk­
2
55tk­
2
tunnel
kiln
tunnel
kiln
face
brick
1900
Natural
gas
25
7.24
14.20
14.20
us­
2
us
FALSE
55us­
2
56
dc­
1
56dc­
1
Dryer
Dryer
Face
brick
350
waste
heat
4.36
us­
2
us
FALSE
56us­
2
56
tk­
1
56tk­
1
tunnel
kiln
tunnel
kiln
face
brick
2000
Natural
gas
29.1
4.36
5.71
5.71
us­
1
us
FALSE
56us­
1
56
tk­
2
56tk­
2
Tunnel
kiln­
idle
Tunnel
kiln­
idle
Face
brick
0
4.00
4.00
us­
3
us
FALSE
56us­
3
57
dc­
1
57dc­
1
Dryer
Dryer
Face
brick
350
waste
heat
5.8
us­
1
us
FALSE
57us­
1
57
dc­
2
57dc­
2
Dryer
Dryer
Face
brick
350
waste
heat
6.9
us­
2
us
FALSE
57us­
2
57
tk­
1
57tk­
1
tunnel
kiln
tunnel
kiln
face
brick
1890
coal/
natural
gas
13.5
5.8
6.89
6.89
us­
3
us
FALSE
57us­
3
57
tk­
2
57tk­
2
tunnel
kiln
tunnel
kiln
face
brick
1940
coal/
natural
gas
18.8
6.9
8.19
8.19
us­
4
us
FALSE
57us­
4
58
dc­
1
58dc­
1
Dryer
Dryer
Face
brick
350
waste
heat
6.3
us­
1
us
FALSE
58us­
1
58
dc­
2
58dc­
2
Dryer
Dryer
Face
brick
350
waste
heat
12.5
us­
2
us
FALSE
58us­
2
58
tk­
1
58tk­
1
tunnel
kiln
tunnel
kiln
face
brick
2000
natural
gas
14.1
6.3
7.35
7.35
us­
3
us
FALSE
58us­
3
58
tk­
2
58tk­
2
tunnel
kiln
tunnel
kiln
face
brick
1940
coal/
natural
gas
22
12.5
14.59
14.59
bh­
3
bh
FALSE
58bh­
3
59
dc­
1
59dc­
1
Dryer
Dryer
Face
brick
waste
heat
6.18
us­
3
us
FALSE
59us­
3
59
dc­
2
59dc­
2
Dryer
Dryer
Face
brick
waste
heat
11.5
us­
4
us
FALSE
59us­
4
59
tk­
1
59tk­
1
tunnel
kiln
tunnel
kiln
face
brick
1825
coal/
natural
gas
11.9
6.18
7.10
7.10
us­
1
us
FALSE
59us­
1
59
tk­
2
59tk­
2
tunnel
kiln
tunnel
kiln
face
brick
1860
coal/
natural
gas
22
11.5
13.22
13.22
us­
2
us
FALSE
59us­
2
6
dc­
1
6dc­
1
Dryer
Dryer
Brick
400
waste
heat
4.78
us­
3
us
FALSE
6us­
3
6
dc­
2
6dc­
2
Dryer
Dryer
Brick
400
waste
heat
4.78
us­
4
us
FALSE
6us­
4
6
dc­
3
6dc­
3
Dryer
Dryer
Brick
400
waste
heat
4.78
us­
5
us
FALSE
6us­
5
6
dc­
4
6dc­
4
Dryer
Dryer
Brick
400
waste
heat
4.78
us­
6
us
FALSE
6us­
6
6
misc­
3
6misc­
3
holding
room
predryer
brick
110
waste
heat
19.1
us­
1,­
2
us
FALSE
6us­
1,­
2
6
tk­
1
6tk­
1
tunnel
kiln
tunnel
kiln
brick
1910
natural
gas
28.4
9.55
11.75
11.75
us­
7
us
FALSE
6us­
7
6
tk­
2
6tk­
2
tunnel
kiln
tunnel
kiln
brick
1910
natural
gas
28.4
9.55
11.75
11.75
us­
8
us
FALSE
6us­
8
60
dc­
1
60dc­
1
Dryer
Dryer
Face
brick
350
waste
heat
2.74
us­
1
us
FALSE
60us­
1
60
dc­
2
60dc­
2
Dryer
Dryer
face
brick
350
waste
heat
2.74
us­
2
us
FALSE
60us­
2
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
144
60
dc­
3
60dc­
3
Dryer
Dryer
Brick
350
waste
heat
11.18
us­
3
us
FALSE
60us­
3
60
misc­
1
60misc­
1
preheater
Predryer
brick
150
waste
heat
11.18
fe­
6
us
FALSE
60fe­
6
60
tk­
1
60tk­
1
tunnel
kiln
tunnel
kiln
face
brick
2000
coal/
natural
gas
6.4
2.74
3.68
3.68
us­
4
us
FALSE
60us­
4
60
tk­
2
60tk­
2
tunnel
kiln
tunnel
kiln
face
brick
2000
coal/
natural
gas
6.4
2.74
3.68
3.68
us­
5
us
FALSE
60us­
5
60
tk­
3
60tk­
3
tunnel
kiln
tunnel
kiln
face
brick
2000
coal/
natural
gas
24.2
11.18
15.02
15.02
us­
6
us
FALSE
60us­
6
61
dc­
1
61dc­
1
Dryer
Dryer
Face
brick
350
waste
heat
4.14
us­
1
us
FALSE
61us­
1
61
dc­
2
61dc­
2
Dryer
Dryer
Face
brick
350
waste
heat
4.14
us­
2
us
FALSE
61us­
2
61
dc­
3
61dc­
3
Dryer
Dryer
Face
brick
350
waste
heat
7.51
us­
3
us
FALSE
61us­
3
61
tk­
1
61tk­
1
tunnel
kiln
tunnel
kiln
face
brick
1900
Natural
gas
13.4
4.14
6.44
6.44
us­
4
us
FALSE
61us­
4
61
tk­
2
61tk­
2
tunnel
kiln
tunnel
kiln
face
brick
1900
Natural
gas
13.4
4.14
6.44
6.44
us­
5
us
FALSE
61us­
5
61
tk­
3
61tk­
3
tunnel
kiln
tunnel
kiln
face
brick
1900
Natural
gas
24.2
7.51
11.69
11.69
us­
6
us
FALSE
61us­
6
62
dc­
1
62dc­
1
Dryer
Dryer
Face
brick
350
waste
heat
5.44
us­
1
us
FALSE
62us­
1
62
dc­
2
62dc­
2
Dryer
Dryer
Face
brick
350
waste
heat
5.44
us­
2
us
FALSE
62us­
2
62
tk­
1
62tk­
1
tunnel
kiln
tunnel
kiln
face
brick
2000
natural
gas
18.1
5.44
9.70
9.70
us­
3
us
FALSE
62us­
3
62
tk­
2
62tk­
2
tunnel
kiln
tunnel
kiln
face
brick
2000
natural
gas
18.1
5.44
9.70
9.70
us­
4
us
FALSE
62us­
4
63
dc­
1
63dc­
1
Dryer
Dryer
Brick
350
waste
heat
3.1
us­
1
us
FALSE
63us­
1
63
tk­
1
63tk­
1
Tunnel
kiln
Tunnel
kiln
brick
2000
natural
gas
3.44
1.55
8.48
8.48
us­
2
us
FALSE
63us­
2
63
tk­
2
63tk­
2
Tunnel
kiln
Tunnel
kiln
brick
2000
natural
gas
2.58
1.55
8.48
8.48
us­
3
us
FALSE
63us­
3
64
dc­
1
64dc­
1
tunnel
dryer
dryer
brick
450
waste
heat
2.84
us­
3
us
FALSE
64us­
3
64
dc­
2
64dc­
2
Dryer
Dryer
Brick
450
waste
heat
2.84
us­
4
us
FALSE
64us­
4
64
dc­
3
64dc­
3
tunnel
dryer­
idle
dryer­
idle
brick
450
Waste
heat
0
us­
5
us
FALSE
64us­
5
64
dc­
4
64dc­
4
tunnel
dryer­
idle
dryer­
idle
brick
450
Waste
heat
0
us­
6
us
FALSE
64us­
6
64
tk­
1
64tk­
1
tunnel
kiln
tunnel
kiln
brick
2100
coal/
natural
gas
5.68
8.35
8.35
us­
1
us
FALSE
64­
us­
1
64
tk­
2
64tk­
2
tunnel
kilnidle
tunnel
kilnidle
brick
2100
Natural
gas
0
8.35
8.35
us­
2
us
FALSE
64us­
2
65
dc­
1
65dc­
1
tunnel
dryer
dryer
structural
brick
300
waste
heat
1.3
3.42
us­
4,­
5
us
FALSE
65us­
4,­
5
65
dc­
2
65dc­
2
tunnel
dryer
dryer
structural
brick
300
waste
heat
1.3
3.42
us­
6,­
7
us
FALSE
65us­
6,­
7
65
dc­
3
65dc­
3
tunnel
dryer
dryer
structural
brick
300
waste
heat
1.3
3.42
us­
8,­
9
us
FALSE
65us­
8,­
9
65
tk­
1
65tk­
1
tunnel
kiln
tunnel
kiln
structural
brick
2000
natural
gas
13.9
3.42
3.99
3.99
us­
1
us
FALSE
65us­
1
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
145
65
tk­
2
65tk­
2
tunnel
kiln
tunnel
kiln
structural
brick
2000
natural
gas
13.9
3.42
3.99
3.99
us­
2
us
FALSE
65us­
2
65
tk­
3
65tk­
3
tunnel
kiln
tunnel
kiln
structural
brick
2000
natural
gas
13.9
3.42
3.99
3.99
us­
3
us
FALSE
65us­
3
66
dc­
1
66dc­
1
Dryer
Dryer
Brick
350
waste
heat
6.95
us­
1
us
FALSE
66us­
1
66
tk­
1
66tk­
1
tunnel
kiln
tunnel
kiln
brick
2000
natural
gas
34.2
6.95
9.83
9.83
us­
2
us
FALSE
66us­
2
67
dc­
1
67dc­
1
Dryer
Dryer
Face
brick
350
waste
heat
6.93
us­
1
us
FALSE
67us­
1
67
tk­
1
67tk­
1
tunnel
kiln
tunnel
kiln
face
brick
1900
natural
gas
6.93
8.58
8.58
us­
2,­
3
us
FALSE
67us­
2,­
3
68
dc­
1
68dc­
1
Dryer
Dryer
Brick
300
waste
heat
5.42
us­
1
us
FALSE
68us­
1
68
dr­
1
68dr­
1
sand
dryer
sand
dryer
dried
sand
400
natural
gas
1
1
bh­
2
bh
FALSE
68bh­
2
68
tk­
1
68tk­
1
tunnel
kiln
tunnel
kiln
structural
brick
1970
natural
gas
26
5.42
8.44
8.44
us­
2
us
FALSE
68us­
2
69
dc­
1
69dc­
1
Dryer
Dryer
structural
brick
300
natural
gas
4
3.38
us­
1
us
FALSE
69us­
1
69
dc­
2
69dc­
2
Dryer
Dryer
structural
brick
300
natural
gas
4
3.38
us­
2
us
FALSE
69us­
2
69
dr­
1
69dr­
1
sand
dryer
sand
dryer
sand
400
natural
gas
1
2
bh­
2
bh
FALSE
69bh­
2
69
tk­
1
69tk­
1
tunnel
kiln
tunnel
kiln
structural
brick
1970
natural
gas
26
6.51
6.77
6.77
us­
3
us
FALSE
69us­
3
69
TK­
2
69TK­
2
Tunnel
kiln­
idle
Tunnel
kiln­
idle
Brick
1970
Natural
gas
26
0
4.65
4.65
us­
4
us
FALSE
69US­
4
7
dc­
1
7dc­
1
Dryer
Dryer
brick
500
waste
heat
3
us­
2
us
FALSE
7us­
2
7
dc­
2
7dc­
2
Dryer
Dryer
Brick
500
waste
heat
3
us­
3
us
FALSE
7us­
3
7
dc­
3
7dc­
3
Dryer
Dryer
Brick
500
waste
heat
3
us­
4
us
FALSE
7us­
4
7
dc­
4
7dc­
4
Dryer
Dryer
Brick
500
waste
heat
3
US­
5
us
FALSE
7us­
5
7
dc­
5
7dc­
5
Dryer
Dryer
Brick
500
waste
heat
3
us­
6
us
FALSE
7us­
6
7
dc­
6
7dc­
6
Dryer
Dryer
brick
500
waste
heat
3
us­
7
us
FALSE
7us­
7
7
misc­
2
7misc­
2
holding
room
predryer
brick
100
waste
heat
18
US­
1
us
FALSE
7US­
1
7
tk­
1
7tk­
1
tunnel
kiln
tunnel
kiln
brick
2050
natural
gas
25.9
9
9.00
9.00
us­
8
us
FALSE
7us­
8
7
tk­
2
7tk­
2
tunnel
kiln
tunnel
kiln
brick
2050
natural
gas
25.9
9
9.00
9.00
us­
9
us
FALSE
7US­
9
70
dc­
1
70dc­
1
Dryer
Dryer
Face
brick
350
waste
heat
7.7
us­
1
us
FALSE
70us­
1
70
dc­
2
70dc­
2
Dryer
Dryer
Face
brick
350
waste
heat
7.7
us­
2
us
FALSE
70us­
1
70
tk­
1
70tk­
1
tunnel
kiln
tunnel
kiln
face
brick
1900
natural
gas
7.7
11.35
11.35
diff­
1
diff
FALSE
70diff­
1
70
tk­
2
70tk­
2
tunnel
kiln
tunnel
kiln
face
brick
1900
natural
gas
7.7
11.35
11.35
diff­
2
diff
FALSE
70diff­
2
71
dc­
1
71dc­
1
Dryer
Dryer
Face
brick
430
waste
heat
2.85
us­
1
us
FALSE
71us­
1
71
tk­
1
71tk­
1
tunnel
kiln
tunnel
kiln
face
brick
2050
natural
gas
9.1
2.85
3.51
3.51
us­
2,­
3
us
FALSE
71us­
2,­
3
72
dc­
1
72dc­
1
Brick
dryer
dryer
Brick
150
waste
heat
8.48
us­
15
us
FALSE
72us­
15
72
dc­
3
72dc­
3
Brick
dryer
dryer
Brick
150
waste
heat
10.96
us­
18,­
us
FALSE
72us­
18,­
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
146
19
19
72
dc­
4
72dc­
4
Brick
dryer
dryer
Brick
150
waste
heat
10.96
us­
20,­

21
us
FALSE
72us­
20,­

21
72
dr­
1
72dr­
1
rotary
dryer
Sand
dryer
sand
400
natural
gas
10
4.7
bh­
5
bh
FALSE
72bh­
5
72
ds­
1
72ds­
1
rotary
wood
dryer
Sawdust
dryer
sawdust
160
natural
gas
2.3
us­
22
us
FALSE
72ds­
1
72
ds­
2
72ds­
2
rotary
wood
dryer
Sawdust
dryer
sawdust
160
natural
gas
3.5
us­
23
us
FALSE
72ds­
2
72
misc­
3
72misc­
3
brick
warm
room
predryer
brick
100
waste
heat
8.48
us­
5
to
us­
8
us
FALSE
72us­
5
to
us­
8
72
misc­
4
72misc­
4
brick
warm
room
predryer
brick
100
waste
heat
21.92
us­
9
to
us­
14
us
FALSE
72us­
9
to
us­
14
72
tk­
1
72tk­
1
Tunnel
kiln/
partial
sd
Tunnel
kiln
brick
2015
sawdust/
nat
ural
gas
40
8.48
8.94
8.94
us­
1,­

2,
dps­
1
us,
dps
FALSE
72us­
1,­

2,
dps­
1
72
tk­
2
72tk­
2
Tunnel
kiln/
partial
sd
Tunnel
kiln
brick
2040
sawdust/
nat
ural
gas
80
21.92
23.10
23.10
us­
3,­

4,
dps­
2
us,
dps
FALSE
72us­
3,­

4,
dps­
2
73
dc­
1
73dc­
1
Dryer
Dryer
brick
450
waste
heat
11.56
us­
2
us
FALSE
73us­
2
73
dc­
2
73dc­
2
Dryer
Dryer
Brick
450
waste
heat
11.56
us­
3
us
FALSE
73us­
3
73
misc­
1
73misc­
1
holding
room
predryer
brick
140
waste
heat
23.13
us­
1
us
FALSE
73us­
1
73
tk­
1
73tk­
1
tunnel
kiln
tunnel
kiln
brick
1980
natural
gas
29.1
11.56
14.97
14.97
us­
4
us
FALSE
73us­
4
73
tk­
2
73tk­
2
tunnel
kiln
tunnel
kiln
brick
1980
natural
gas
29.1
11.56
14.97
14.97
us­
5
us
FALSE
73us­
5
74
dc­
1
74dc­
1
Dryer
Dryer
brick
500
waste
heat
11
us­
1
us
FALSE
74us­
1
74
misc­
2
74misc­
2
holding
room
predryer
brick
waste
heat
11
fe­
9
us
FALSE
74fe­
9
74
tk­
1
74tk­
1
tunnel
kiln
tunnel
kiln
brick
2100
natural
gas
25
10.5
11.40
11.40
us­
2
us
FALSE
74us­
2
75
dc­
1
75dc­
1
Dryer
Dryer
Brick
400
waste
heat/
natural
gas
5.2
us­
1
us
FALSE
75us­
1
75
PK­
1
75PK­
1
periodic
kiln­
idle
periodic
kiln­
idle
brick
natural
gas
0
0.04
0.04
us­
3
us
FALSE
75US­
3
75
PK­
2
75PK­
2
periodic
kiln­
idle
periodic
kiln­
idle
brick
natural
gas
0
0.04
0.04
US­
4
us
FALSE
75US­
4
75
PK­
3
75PK­
3
periodic
kiln­
idle
periodic
kiln­
idle
brick
natural
gas
0
0.04
0.04
US­
5
us
FALSE
75US­
5
75
PK­
4
75PK­
4
periodic
kiln­
idle
periodic
kiln­
idle
brick
natural
gas
0
0.04
0.04
US­
6
us
FALSE
75US­
6
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
147
75
tk­
1
75tk­
1
tunnel
kiln
tunnel
kiln
brick
2100
natural
gas
11.7
5.2
6.00
6.00
us­
2
us
FALSE
75us­
2
76
dc­
1
76dc­
1
Dryer
Dryer
brick
350
waste
heat
2.79
us­
2
us
FALSE
76us­
2
76
misc­
1
76misc­
1
holding
room
predryer
brick
waste
heat
2.79
fe­
5
us
FALSE
76fe­
5
76
tk­
1
76tk­
1
tunnel
kiln
tunnel
kiln
brick
2000
natural
gas
2.79
5.03
5.03
us­
1
us
FALSE
76us­
1
77
dc­
1
77dc­
1
Dryer
Dryer
face
brick
350
waste
heat
2.75
us­
3
us
FALSE
77us­
3
77
dc­
2
77dc­
2
Dryer
Dryer
face
brick
350
waste
heat
2.75
us­
4
us
FALSE
77us­
4
77
tk­
1
77tk­
1
tunnel
kiln
tunnel
kiln
face
brick
1900
natural
gas
5.5
6.45
6.45
us­
5
us
FALSE
77us­
5
77
TK­
2
77TK­
2
Tunnel
kiln
Tunnel
kiln
Brick
Natural
gas
12.1
12.10
12.10
DLS­
1
DLS
FALSE
77DLS­
1
78
dc­
1
78dc­
1
tunnel
dryer
dryer
brick
400
waste
heat
10.2
us­
1
us
FALSE
78us­
1
78
dc­
2
78dc­
2
tunnel
dryer
dryer
brick
400
waste
heat
11.4
us­
2
us
FALSE
78us­
2
78
tk­
1
78tk­
1
tunnel
kiln
tunnel
kiln
face
brick
2020
natural
gas
10.2
13.10
13.10
us­
3
us
FALSE
78us­
3
78
tk­
2
78tk­
2
tunnel
kiln
tunnel
kiln
face
brick
2030
natural
gas
11.4
13.10
13.10
us­
4
us
FALSE
78us­
4
79
dc­
1
79dc­
1
Brick
dryer
dryer
structural
brick
350
waste
heat
1.68
us­
2
us
FALSE
79us­
2
79
tk­
1
79tk­
1
tunnel
kiln
tunnel
kiln
structural
brick
1900
other­
No.
4
fuel
oil
12.8
1.68
2.86
2.86
us­
1
us
FALSE
79us­
1
8
dc­
1
8dc­
1
predryer
predryer
sand­
mold
brick
100
waste
heat
2.84
us­
1
us
FALSE
8us­
1
8
dc­
2
8dc­
2
Dryer
Dryer
Brick
300
waste
heat
2.84
us­
2
us
FALSE
8us­
2
8
dr­
1
8dr­
1
rotary
sand
dryer
Sand
dryer
sand
natural
gas
8
hr
bhi­
1
bh
FALSE
8bhi­
1
8
tk­
1
8tk­
1
tunnel
kiln
tunnel
kiln
brick
1980
natural
gas
11.91
2.84
4.80
4.80
us­
3
us
FALSE
8us­
3
8
TK­
2
8TK­

2
T
unnel
kiln­
idle
Tunnel
kiln­
idle
Brick
0
4.80
4.80
us­
4
us
FALSE
8us­
4
80
DC­
1
80dc­
1
Dryer
Dryer
structural
brick
275
Waste
heat
3.52
US­
4
us
FALSE
80us­
4
80
TK­
1
80TK­
1
Tunnel
kiln
Tunnel
kiln
structural
brick
2100
Natural
gas
1.17
1.45
1.45
US­
1
us
FALSE
80US­
1
80
tk­
2
80tk­
2
Tunnel
kiln
Tunnel
kiln
Structural
brick
2100
Natural
gas
1.17
1.45
1.45
us­
2
us
FALSE
80us­
2
80
tk­
3
80tk­
3
Tunnel
kiln
Tunnel
kiln
structural
brick
2100
Natural
gas
1.17
1.45
1.45
us­
3
us
FALSE
80us­
3
81
dc­
1
81dc­
1
initial
dryer
dryer
Brick
300
Waste
heat
1.16
us­
1
us
FALSE
81us­
1
81
dc­
2
81dc­
2
initial
dryer
dryer
Brick
300
Waste
heat
1.16
us­
2
us
FALSE
81us­
2
81
dc­
3
81dc­
3
initial
dryer
dryer
Brick
300
Waste
heat
1.16
us­
3
us
FALSE
81us­
3
81
dc­
4
81dc­
4
initial
dryer
dryer
Brick
300
Waste
heat
1.16
us­
4
us
FALSE
81us­
4
81
dc­
5
81dc­
5
finish
dryer
dryer
Brick
460
Waste
heat
9.02
us­
5
us
FALSE
81us­
5
81
dc­
6
81dc­
6
Dryer
Dryer
Brick
300
Waste
heat
3.44
us­
7
us
FALSE
81us­
7
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
148
81
dc­
7
81dc­
7
Dryer
Dryer
Brick
300
Waste
heat
3.44
us­
7
us
FALSE
81us­
7
81
dc­
8
81dc­
8
Dryer
Dryer
Brick
300
Waste
heat
3.44
us­
7
us
FALSE
81us­
7
81
dc­
9
81dc­
9
Dryer
Dryer
Brick
300
Waste
heat
3.44
us­
7
us
FALSE
81us­
7
81
tk­
1
81tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2080
Natural
gas
23.8
9.02
10.34
10.34
us­
6
us
FALSE
81us­
6
81
tk­
5
81tk­
5
Tunnel
kiln
Tunnel
kiln
Brick
2040
Natural
gas
41.7
6.88
11.20
7.89
us­
8
us
FALSE
81us­
8
81
tk­
6
81tk­
6
Tunnel
kiln
Tunnel
kiln
Brick
2040
Natural
gas
41.7
6.88
11.20
7.72
us­
9
us
FALSE
81us­
9
82
dc­
1
82dc­
1
Dryer
Dryer
Brick
300
Waste
heat
7.5
us­
2
us
FALSE
82us­
2
82
dc­
2
82dc­
2
Dryer
Dryer
Brick
300
Waste
heat
7.5
us­
2
us
FALSE
82us­
2
82
misc­
3
82misc­
3
Holding
room
predryer
Brick
100
30.2
us­
1
us
FALSE
82us­
1
82
tk­
1
82tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
1900
Natural
gas
26.15
14.6
15.80
15.80
us­
3
us
FALSE
82us­
3
83
dc­
1
83dc­
1
Dryer
Dryer
Brick
380
Waste
heat
2.08
us­
1
us
FALSE
83us­
1
83
dc­
2
83dc­
2
Dryer
Dryer
Brick
380
Waste
heat
2.08
us­
1
us
FALSE
83us­
1
83
tk­
1
83tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2270
Natural
gas
4.16
7.49
7.49
us­
2
us
FALSE
83us­
2
84
dc­
1
84dc­
1
Dryer
Dryer
structural
brick
380
Waste
heat
8.79
us­
1
us
FALSE
84us­
1
84
dr­
1
84dr­
1
sand
dryer
sand
dryer
sand
dryer
250
Natural
gas
2.8
2
fe­
6
us
FALSE
84fe­
6
84
tk­
1
84tk­
1
Tunnel
kiln
Tunnel
kiln
structural
brick
1980
coal/
natural
gas
23
8.79
11.00
9.59
us­
2
us
FALSE
84us­
2
85
dc­
1
85dc­
1
Dryer
Dryer
Face
brick
300
Waste
heat
8.7
us­
1
us
FALSE
85us­
1
85
misc­
1
85misc­
1
preheater
Predryer
Face
brick
150
Waste
heat
8.7
fe­
1
us
FALSE
85fe­
1
85
tk­
1
85tk­
1
Tunnel
kiln
Tunnel
kiln
Face
brick
1890
coal/
natural
gas
13.5
8.38
9.13
9.13
cy­
1
cy
FALSE
85cy­
1
86
dc­
1
86dc­
1
Dryer
Dryer
Brick
500
Waste
heat
5
us­
2
us
FALSE
86us­
2
86
dp­
1
86dp­
1
Dryer
Dryer
clay
flue
pipe
200
Natural
gas
4.3
33
48
tons
us­
4
us
FALSE
86us­
4
86
misc­
4
86misc­
4
Holding
room
predryer
Brick
100
Natural
gas
us­
1
us
FALSE
86us­
1
86
misc­
5
86misc­
5
preheat
Predryer
clay
flue
pipe
400
Natural
gas
4.3
33
48
tons
us­
5
us
FALSE
86us­
5
86
misc­
6
86misc­
6
preheat
Predryer
Brick
900
Natural
gas
12.3
5
us­
3
us
FALSE
86us­
3
86
pk­
1
86pk­
1
Periodic
kiln
Periodic
kiln
clay
flue
pipe
1650
Natural
gas
39.7
16
48
tons
us­
6
us
FALSE
86us­
6
86
tk­
1
86tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2100
Natural
gas
15.4
5
7.78
7.78
us­
3
us
FALSE
86us­
3
87
dc­
1
87dc­
1
continuous
dryer
dryer
structural
brick
and
fire
brick
375
Waste
heat
6.7
us­
1
us
FALSE
87us­
1
87
dp­
1
87dp­
1
Batch
dryer
dryer
clay
flue
liners
375
Natural
gas
71
us­
2
us
FALSE
87us­
2
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
149
87
misc­
2
87misc­
2
Holding
room
predryer
structural
brick
and
fire
brick
70
Natural
gas
6.7
fe­
9
us
FALSE
87fe­
9
87
pk­
1
87pk­
1
Periodic
kiln
Periodic
kiln
clay
flue
liners
2000
Natural
gas
7.8
71
0.19
0.32
0.32
us­
4
us
FALSE
87us­
4
87
tk­
1
87tk­
1
Tunnel
kiln
Tunnel
kiln
structural
brick
and
firebrick
2125
Natural
gas
24.8
6.6
9.47
9.47
us­
3
us
FALSE
87us­
3
88
dc­
1
88dc­
1
Dryer
Dryer
structural
brick
350
Waste
heat
2.95
us­
1
us
FALSE
88us­
1
88
dc­
2
88dc­
2
Dryer
Dryer
structural
brick
350
Waste
heat
2.95
us­
1
us
FALSE
88us­
1
88
tk­
1
88tk­
1
tunnel
kiln
tunnel
kiln
structural
brick
2000
Natural
gas
17.8
5.9
7.52
7.52
us­
2
us
FALSE
88us­
2
89
dp­
1
89dp­
1
Dryer
Dryer
Brick
300
Natural
gas
6.25
24
84
tons
us­
3
us
FALSE
89us­
3
89
dp­
2
89dp­
2
Dryer
Dryer
Brick
300
Natural
gas
6.25
24
84
tons
us­
4
us
FALSE
89us­
4
89
tk­
1
89tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
1850
Natural
gas
15.6
0.75
5.71
5.71
us­
5,­
6
us
FALSE
89us­
5,­
6
9
dc­
1
9dc­
1
Dryer
Dryer
Brick
Waste
heat
9
us­
3
us
FALSE
9us­
3
9
dc­
2
9dc­
2
Dryer
Dryer
Brick
Waste
heat
9
us­
4
us
FALSE
9us­
4
9
tk­
1
9tk­
1
tunnel
kiln
tunnel
kiln
brick
2050
Natural
gas
9
11.83
11.83
DA­
1
da
FALSE
9DA­
1
9
tk­
2
9tk­
2
tunnel
kiln
tunnel
kiln
brick
2050
Natural
gas
9
11.83
11.83
DA­
1
da
FALSE
9DA­
1
90
dc­
1
90dc­
1
Dryer
Dryer
Face
brick
400
Natural
gas
0.4
3.91
us­
1
us
FALSE
90us­
1
90
dc­
2
90dc­
2
Dryer
Dryer
Face
brick
400
Waste
heat
3.91
us­
2
us
FALSE
90us­
2
90
tk­
1
90tk­
1
Tunnel
kiln
Tunnel
kiln
Face
brick
2000
Natural
gas
14
3.91
4.34
4.34
us­
3
us
FALSE
90us­
3
90
tk­
2
90tk­
2
Tunnel
kiln
Tunnel
kiln
Face
brick
2000
Natural
gas
16
3.91
4.34
4.34
us­
4
us
FALSE
90us­
4
90
tk­
3
90tk­
3
Tunnel
kiln
Tunnel
kiln
Face
brick
Natural
gas
10.1
12.60
da­
1
da
FALSE
90da­
1
91
dc­
1
91dc­
1
Brick
dryer
dryer
structural
brick
200
Other­
No.
2
oil
30
us­
5
us
FALSE
91us­
5
91
pk­
1
91pk­
1
Periodic
kiln
Periodic
kiln
structural
brick
1860
Coal
192
167
tons
0.366
0.47
0.47
us­
1
us
FALSE
91us­
1
91
pk­
2
91pk­
2
Periodic
kiln
Periodic
kiln
structural
brick
1860
Coal
192
167
tons
0.366
0.47
0.47
us­
1
us
FALSE
91us­
1
91
pk­
3
91pk­
3
Periodic
kiln
Periodic
kiln
structural
brick
1860
Coal
192
167
tons
0.366
0.47
0.47
us­
2
us
FALSE
91us­
2
91
pk­
4
91pk­
4
Periodic
kiln
Periodic
kiln
structural
brick
1860
Coal
192
167
tons
0.366
0.47
0.47
us­
2
us
FALSE
91us­
2
91
pk­
5
91pk­
5
Periodic
kiln
Periodic
kiln
structural
brick
1860
Coal
192
167
tons
0.366
0.47
0.47
us­
3
us
FALSE
91us­
3
91
pk­
6
91pk­
6
Periodic
Periodic
structural
1860
Coal
192
167
tons
0.366
0.47
0.47
us­
3
us
FALSE
91us­
3
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
150
kiln
kiln
brick
91
pk­
7
91pk­
7
Periodic
kiln
Periodic
kiln
structural
brick
1860
Coal
192
167
tons
0.366
0.47
0.47
us­
4
us
FALSE
91us­
4
91
pk­
8
91pk­
8
Periodic
kiln
Periodic
kiln
structural
brick
1860
Coal
192
167
tons
0.366
0.47
0.47
us­
4
us
FALSE
91us­
4
92
dp­
1
92dp­
1
Dryer
Dryer
Brick
300
Waste
heat
3.8
us­
2
us
FALSE
92us­
2
92
tk­
1
92tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2100
Natural
gas
3.8
6.63
6.63
us­
1
us
FALSE
92us­
1
93
dc­
1
93dc­
1
Dryer
Dryer
Brick
300
Waste
heat
4
us­
2
to
us­
4
us
FALSE
93us­
2
to
us­
4
93
tk­
1
93tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2100
Natural
gas
4
4.02
4.02
us­
1
us
FALSE
93us­
1
94
dc­
1
94dc­
1
Dryer
Dryer
Brick
300
Waste
heat
0.84
us­
1
us
FALSE
94us­
1
94
dc­
2
94dc­
2
Dryer
Dryer
Brick
300
Waste
heat
0.84
us­
2
us
FALSE
94us­
2
94
dc­
3
94dc­
3
Dryer
Dryer
Brick
300
Waste
heat
0.84
us­
3
us
FALSE
94us­
3
94
dc­
4
94dc­
4
Dryer
Dryer
Brick
300
Waste
heat
0.84
us­
4
us
FALSE
94us­
4
94
pk­
1
94pk­
1
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
1.1
2.38
2.38
us­
5
us
FALSE
94us­
5
94
pk­
2
94pk­
2
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
1.1
2.38
2.38
us­
6
us
FALSE
94us­
6
94
pk­
3
94pk­
3
Periodic
kiln
Periodic
kiln
Brick
2100
Natural
gas
1.1
2.38
2.38
us­
7
us
FALSE
94us­
7
95
dc­
1
95dc­
1
Dryer
Dryer
Structural
tile
300
Waste
heat
7.8
us­
2
us
FALSE
95us­
2
95
dc­
2
95dc­
2
Dryer
Dryer
Structural
tile
300
Waste
heat
7.8
us­
3
us
FALSE
95us­
3
95
tk­
1
95tk­
1
Tunnel
kiln
Tunnel
kiln
Structural
tile
2100
Natural
gas
15.6
17.15
17.15
us­
1
us
FALSE
95us­
1
96
dc­
1
96dc­
1
Dryer
Dryer
structural
brick
300
Waste
heat
4.85
us­
2
us
FALSE
96us­
2
96
dc­
2
96dc­
2
Dryer
Dryer
structural
brick
300
Waste
heat
4.85
us­
3
us
FALSE
96us­
3
96
tk­
1
96tk­
1
Tunnel
kiln
Tunnel
kiln
2100
Natural
gas
9.7
11.93
11.93
us­
1
us
FALSE
96us­
1
97
ca­
1
97ca­
1
Calciner
Calciner
Calcined
clay
us­
1
us
FALSE
97us­
1
97
dc­
1
97dc­
1
Dryer
Dryer
bricks
and
shapes
300
Waste
heat
8.2
us­
4
to
us­
6
us
FALSE
97us­
4
to
us­
6
97
dc­
2
97dc­
2
Dryer
Dryer
bricks
and
shapes
300
Waste
heat
8.2
us­
7
to
us­
9
us
FALSE
97us­
7
to
us­
9
97
dc­
3
97dc­
3
Dryer
Dryer
bricks
and
shapes
300
Waste
heat
8.2
us­
10
to
us­
12
us
FALSE
97us­
10
to
us­
12
TABLE
9.
(
CONTINUED)

FACID
Process
ProcID
Equiptype
Generic
Equiptype
Prodtype
Op
temp
Fuel
Heat
input
Batch
time
Batch
range
Capacity
Units
Prod.

rate
Kiln
Capacity
tph
Pre­
Proposal
Kiln
Capacity
APCD
APCD
Type
Multi
Devices
APCDID
151
97
misc­
1
97misc­
1
Holding
room
predryer
bricks
and
shapes
150
Waste
heat
8.2
us­
2,­
3
us
FALSE
97us­
2,­
3
97
misc­
2
97misc­
2
Holding
room
predryer
bricks
and
shapes
150
Waste
heat
8.2
us­
2,­
3
us
FALSE
97us­
2,­
3
97
misc­
3
97misc­
3
Holding
room
predryer
bricks
and
shapes
150
Waste
heat
8.2
us­
2,­
3
us
FALSE
97us­
2,­
3
97
tk­
1
97tk­
1
Tunnel
kiln
Tunnel
kiln
bricks
and
shapes
2100
Natural
gas
8.2
11.06
11.06
us­
13
us
FALSE
97us­
13
97
tk­
2
97tk­
2
Tunnel
kiln
Tunnel
kiln
bricks
and
shapes
2100
Natural
gas
8.2
11.06
11.06
us­
14
us
FALSE
97us­
14
97
tk­
3
97tk­
3
Tunnel
kiln
Tunnel
kiln
bricks
and
shapes
2100
Natural
gas
8.2
11.06
11.06
us­
15
us
FALSE
97us­
15
98
CA­
1
98CA­
1
Calciner
Calciner
Calcined
clay
US­
4
us
FALSE
97US­
4
98
dc­
1
98dc­
1
Dryer
Dryer
Brick
300
Waste
heat
11.3
us­
1,­
2
us
FALSE
98us­
1,­
2
98
dc­
2
98dc­
2
Dryer
Dryer
Brick
300
Waste
heat
11.3
us­
1,­
2
us
FALSE
98us­
1,­
2
98
dc­
3
98dc­
3
Dryer
Dryer
Brick
300
Waste
heat
11.3
us­
1,­
2
us
FALSE
98us­
1,­
2
98
dc­
4
98dc­
4
Dryer
Dryer
Brick
300
Waste
heat
11.3
us­
1,­
2
us
FALSE
98us­
1,­
2
98
misc­
1
98misc­
1
Holding
room
predryer
Brick
150
Waste
heat
11.3
us­
1,­
2
us
FALSE
98us­
1,­
2
98
tk­
1
98tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2100
Natural
gas
11.3
11.30
11.30
us­
3
us
FALSE
98us­
3
98
tk­
2
98tk­
2
Tunnel
kiln
Tunnel
kiln
Brick
Natural
gas
16.5
16.50
16.50
us­
5
us
FALSE
98us­
5
99
dc­
1
99dc­
1
Dryer
Dryer
Brick
300
Waste
heat
5.7
us­
3
us
FALSE
99us­
3
99
dc­
2
99dc­
2
Dryer
Dryer
Brick
300
Waste
heat
5.7
us­
4
us
FALSE
99us­
4
99
misc­
1
to
misc­
2
99misc­
1
to
misc­
2
Holding
room
predryer
Brick
150
Waste
heat
5.7
us­
5,­
6
us
FALSE
99us­
5,­
6
99
tk­
1
99tk­
1
Tunnel
kiln
Tunnel
kiln
Brick
2100
Natural
gas
5.7
5.70
5.70
us­
1
us
FALSE
99us­
1
99
tk­
2
99tk­
2
Tunnel
kiln
Tunnel
kiln
Brick
2100
Natural
gas
5.7
5.70
5.70
us­
2
us
FALSE
99us­
2
152
TABLE
10.
PROCESS
RATE
MONITORING
FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
1
Tunnel
kiln
TK­
1
­
TK­
2
Yes
Record
production
and
fuel
usage
See
summary
Daily
NA
NA
3
tunnel
kiln
TK­
1
Yes
production
records
production
records
continuous
not
established
4
drying
DC­
1,
MISC­
1
­

MISC­
9
Yes
Production
records
production
records
continuous
not
established
4
tunnel
kiln
TK­
1
Yes
Production
records
production
records
continuous
not
established
5
dryer
DC­
1
TO
DC­
2
Yes
Plant
records
number
of
cars
in
the
dryers
to
ensure
ample
supply
for
tunnel
kiln
production
records
continuous
5
grinding
&

screening
G­
1,
S­
1
Yes
Plant
records
amount
of
clay
and
shale
delivered
and
uses
weigh
feeders
to
determine
amount
used.
production
records
continuous
Annually
5
holding
room
MISC­
2
Yes
Plant
records
number
of
cars
in
the
holding
room
to
ensure
ample
supply
for
tunnel
kiln.
production
records
continuous
5
tunnel
kiln
TK­
1
TO
TK­
2
Yes
Plant
records
push
schedule,
fired
brick
weight,
and
the
number
of
brick
per
kiln
car.
process
rate
calculated
as
pushes
per
hour
times
brick
per
car
times
brick
weight.
production
records
continuous
6
dryers
DC­
1
TO
DC­
4
Yes
Plant
records
number
of
cars
in
the
dyers
to
ensure
ample
supply
for
tunnel
kiln.
continuous
not
established
6
kilns
TK­
1
TO
TK­
2
Yes
Plant
records
push
schedule,
fired
brick
weight,
and
the
number
of
brick
per
kiln
car.
Process
rate
is
then
calculated
as
cars
per
day
and
can
be
converted
to
Standard
Brick
Equivalents.
continuous
6
holding
room
MISC­
3
Yes
Plant
records
number
of
cars
in
the
holding
room
to
ensure
ample
supply
for
tunnel
kiln
see
summary
continuous
not
established
7
holding
room
MISC­
2
Yes
Plant
records
number
of
cars
in
the
holding
room
to
ensure
ample
supply
for
tunnel
kiln
daily
7
dryer
DC­
1
TO
DC­
6
Yes
Plant
records
number
of
cars
in
the
dryer
to
ensure
ample
supply
for
tunnel
kiln
daily
7
tunnel
kiln
TK­
1,
TK­
2
Yes
Plant
records
push
schedule,
fired
brick
weight,
number
of
bricks
per
kiln
car.
Process
rate
is
calculated
as
cars
per
day
time
bricks
per
car
times
fired
brick
weight.
continuous
7
texturing
and
sand
coating
CTA­
1
No
not
applicable
8
dryer
DC­
2
No
8
tunnel
kiln
TK­
1
Yes
Plant
records
push
schedule,
brick
weight,
and
number
of
brick
per
kiln
car.
Process
rate
is
then
calculated
as
cars
per
day
and
can
be
converted
to
standard
brick
equivalents.
see
summary
continuous
not
established
not
appl.

8
pre­
dryer
DC­
1
No
8
sand
dryer
DR­
1
No
TABLE
10.
(
continued)

FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
153
10
Tunnel
kiln
TK­
1
TO
TK­
2
Yes
Plant
records
push
schedule,
fired
brick
weight,
and
the
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
brick
per
car
times
brick
weight
continuous
10
brick
dryer
DC­
1
TO
DC­
2
Yes
Plant
records
push
schedule,
fired
brick
wieght,
and
the
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hous
times
brick
per
car
times
brick
weight
continuous
11
tunnel
kiln
TK­
1
Yes
Plant
records
kiln
push
schedule,
fired
brick
weight,
and
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
number
of
brick
per
kiln
car
times
fired
brick
weight.
continuous
11
sand
mixer
MD­
1
No
11
tunnel
dryer
DC­
1
Yes
Plant
production
records
indicating
the
number
of
cars
of
brick
set
per
day
with
the
corresponding
brick
size.
daily
11
preheater
MISC­
2
Yes
Plant
records
kiln
push
schedule,
fired
brick
weight,
and
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
number
of
brick
per
kiln
car
times
fired
brick
weight.
continuous
12
holding
room
MISC­
6
Yes
Plant
records
number
of
cars
in
the
holding
room
to
ensure
amply
supply
for
tunnel
kiln
see
summary
daily
not
established
12
tunnel
kiln
TK­
1,
TK­
2
Yes
Plant
records
push
schedule,
fired
brick
weight,
and
number
of
brick
per
kiln
car.
Process
rate
is
then
calculated
as
cars
per
day
and
can
be
converted
to
tons/
d
or
a
Standard
Brick
Equivalent
(
SBE)
See
summary
continuous
not
established
12
dryer
DC­
1
TO
DC­
4
Yes
Plant
records
number
of
cars
in
the
dryers
to
ensure
ample
supply
for
tunnel
kiln
see
summary
daily
not
established
12
sand
dryer
DR­
1
No
13
Tunnel
kiln
TK­
1
TO
TK­
2
Yes
Plant
records
push
schedule,
fired
brick
wieght
and
number
of
bricks
per
kiln
car.
Process
rate
is
calculated
as
cars
per
day
times
bricks
per
car
times
fired
brick
wieight
continuous
13
tunnel
dryer
DC­
1
TO
DC­
4
Yes
Plant
records
number
of
cars
in
the
dryer
to
ensure
ample
supply
for
tunnel
kiln
daily
13
Sand
Dryer
DR­
1
No
14
dryer
DC­
1
Yes
production
records
production
records
continuous
14
Kiln
TK­
1
Yes
production
records
production
records
continuous
15
tunnel
kiln
TK­
1
Yes
production
records
production
records
continuous
15
dryer
DC­
1
Yes
production
records
production
records
continuous
16
dryer
DC­
1
Yes
production
records
production
records
daily/
weekly
16
tunnel
kiln
TK­
1
Yes
production
records
production
records
daily/
weekly
17
tunnel
kiln
TK­
1
Yes
production
records
production
records
daily/
weekly
17
dryer
DC­
1
Yes
production
records
production
records
daily/
weekly
TABLE
10.
(
continued)

FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
154
18
kiln
TK­
1
Yes
production
records
in
SBE
daily
19
Tunnel
kiln
TK­
3
Yes
Amount
of
brick
per
kiln
car
and
#
of
cars
pushed
per
day
daily
19
tunnel
kiln
TK­
2
Yes
amount
of
brick
per
kiln
car
and
#
of
cars
pushed
per
day
daily
19
tunnel
kiln
TK­
1
Yes
Amount
of
brick
per
kiln
car
and
#
of
cars
pushed
per
day
daily
19
Tunnel
kiln
TK­
4
Yes
Amount
of
brick
per
kiln
car
and
#
of
cars
pushed
per
day
daily
20
kilns
and
dryers
TK­
1,
TK­
2,

DC­
1,
DC­
2
Yes
Plant
records
push
schedule,
green
brick,
weight,
and
the
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
brick
per
car
times
brick
weight
see
summary
daily
0.5
20
hammermills,

screens,
brick
machines
G­
1,
G­
2,
S­
1,

S­
2,
S­
3,
MW­
1,

MW­
2,
FW­
1,

FW­
2,
MISC­
1,

MISC­
2,
RU­
1
TO
RU­
3
No
21
periodic
beehive
kilns
PK­
1
TO
PK­
6
Yes
Plant
records
units
movement
of
all
tile
and
brick
from
production,

to
dryer,
to
kiln.
Process
rate
is
calculated
by
counting
units
continuously
see
sumary
continuous
5%

23
glaze
line
GZ­
1
Yes
Production
records
keep
track
of
number
of
units
glazed.
Weight
of
glaze
per
unit
is
known.
Process
rate
=
number
of
units
X
weight
of
units
production
records
daily
23
Plant
#
2
tunnel
kiln
2
TK­
2
Yes
Production
records
keep
track
of
the
number
of
units
going
through
the
kiln.
The
weight
per
unit
is
known.
Process
rate
=
number
of
units
x
weight
per
unit
production
records
daily
23
Plant
#
1
periodic
kiln1,2
4­
10
PK­
1
TO
PK­
9
No
Currently,
not
in
operation
23
grog
crusher
CR­
1
Yes
Grog
pile
is
measured
yearly.
13%
of
yearly
raw
material
is
grog.

Process
rate
=
change
is
pile
size
+
13%
of
yearly
production
tonnage.

23
Plant
#
1
raw
mat.

Grinding
G­
3
No
Currently,
not
in
operation
23
Plant
#
1
raw
mat.

screening
S­
2
No
currently,
not
in
operation
23
roller
hearth
glaze
kiln
MISC­
1
Yes
Production
records
keep
track
of
number
of
units
through
the
kiln.

The
weight
of
the
units
is
known.
Process
rate
=
number
of
units
x
weight
of
units
prodcution
records
daily
23
plant
number
three
tunnel
kiln
TK­
3
Yes
Production
records
keep
track
of
the
number
of
units
going
through
the
kiln.
The
weight
per
unit
is
known.
Process
rate
=
number
of
untis
toimes
weights
per
unit.
production
records
Daily
TABLE
10.
(
continued)

FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
155
23
sand
coating
brick
CTA­
2
Yes
Production
records
keep
track
of
the
number
of
brick
manufactured.

The
weight
of
coatings
per
brick
is
known.
Process
rate
=
#
of
brick
x
weight
of
coatings
per
brick
production
records
daily
23
sand
coating
tile
CTA­
1
Yes
production
records
keep
track
of
the
number
of
square
feet
manufactured.
The
weight
of
coatings/
sq.
ft.
is
known.
Process
rate
=#
of
sq.
ft.
x
weight
of
coatings
per
sq.
ft.
production
records
daily
23
Plant
2&
3
raw
mat.

screening
S­
1
Yes
Production
records
keep
track
of
the
number
of
brick
manufactured
and
the
weight
of
each
brick.
The
tonnage
screened
is
th
same
as
the
tonnage
manufactured
production
records
daily
23
plant
2&
3
raw
material
grindin
G­
1
Yes
production
records
keep
track
of
the
number
of
brick
manufactured
and
the
weight
of
each
brick.
The
tonnage
ground
is
the
same
as
the
tonnage
manufactured
production
records
daily
23
Plant
#
2
tunnel
kiln
1
TK­
1
Yes
Production
records
keep
track
of
the
number
of
units
going
through
the
kiln.
The
weight
per
unit
is
known.
Process
rate
=
number
of
units
x
weight
per
unit
production
records
daily
24
tunnel
kiln
TK­
1
Yes
Production
records
see
summary
continuous
not
known
n/
a
24
tunnel
dryer
DC­
1
Yes
Production
records
see
summary
continuous
n/
a
n/
a
24
tunnel
dryer
DC­
2
Yes
Production
records
see
summary
continuous
not
known
n/
a
24
tunnel
kiln
TK­
2
Yes
Production
records
see
summary
continuous
not
known
n/
a
33
extruder
machine
FW­
1
Yes
Production
records
production
records
daily
in
SBE
not
established
33
kilns
PK­
1
TO
PK­
11
Yes
production
records
production
records
daily
in
SBE
not
established
34
brick
dryer
DC­
3
Yes
see
production
records
see
production
records
daily
not
determined
34
brick
dryer
DC­
2
Yes
see
production
records
see
production
records
daily
not
determined
34
brick
dryer
DC­
1
Yes
see
production
records
see
production
records
daily
not
determined
34
tunnel
kiln
TK­
1
Yes
see
production
records
see
production
records
daily
not
determined
34
tunnel
kiln
TK­
2
Yes
see
production
records
see
production
records
daily
not
determined
35
tunnel
kiln
TK­
1,
TK­
2
Yes
production
records
base
on
standard
brick
equivalent
see
summary
daily
not
established
35
dryers
DC­
1,
DC­
2
Yes
production
records
base
on
standard
brick
equivalent
see
summary
daily
not
established
36
tunnel
kiln
TK­
1
Yes
Production
records
based
on
SBE
see
summary
daily
36
dryer
DC­
1
TO
DC­
4
Yes
Production
records
based
on
SBE
see
summary
daily
38
dryers
(
4)
DP­
1
TO
DP­
4
Yes
Production
reports­­
computer
controller
to
adjust
temp.
according
to
schedule.
Supervision
with
hourly
charting
see
summary
continuous
not
established
TABLE
10.
(
continued)

FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
156
38
periodic
kiln
PK­
1
Yes
Production
reports­­
computer
controller
to
adjust
temp.
according
to
schedule.
Supervision
with
hourly
charting
see
summary
continuous
not
established
38
periodic
kiln
PK­
2
Yes
Production
reports­­
computer
controller
to
adjust
temp.
according
to
schedule.
Supervision
with
hourly
charting
see
summary
continuous
not
established
39
tunnel
kiln
TK­
1
Yes
production
records
production
records
daily
not
established
39
brick
dryer
DC1
Yes
production
records
production
records
daily
not
established
41
tunnel
kiln
TK­
1
Yes
production
rcords
production
records
daily
not
established
42
tunnel
kiln
TK­
1
Yes
production
records
production
records
continuous
42
crusher
CR­
1
Yes
Production
records
production
recrods
continuous
42
mixing/
extruding
MW­
1,
FW­
1
Yes
production
records
production
records
continuous
42
brick
dryer
DC­
1
Yes
production
records
production
records
continuous
42
grinder
G­
1
Yes
production
records
production
records
continuous
42
screening
S­
1
TO
S­
6
Yes
production
records
production
records
continuous
42
raw
material
storage
MH­
1
TO
MH­
2
Yes
Production
records
production
records
continuous
42
Hamer
Mill
G­
2
Yes
Production
records
production
records
continuous
43
brick
production
MW­
1,
MW­

1,
FW­
2
No
none
established
43
grinding
plant
S­
1,
G­
1,
S­
2,
G­
2
No
none
established
43
tunnel
kiln
TK­
1
Yes
plant
records
charge
time
of
kiln
cars
pen
and
paper
every
car
charged
43
twin
tunnel
dryer
DC­
1
Yes
plant
records
charge
time
of
kiln
cars
pen
and
paper
every
car
charged
44
brick
dryer
DC­
1
Yes
push
schedule,
green
brick
with
#
brick/
car,
pushes/
HR
x
brick
per
car
x
weight
brick
production
recrods
weekly
44
firing
TK­
1
Yes
push
schedule,
dry
brick
with
#
brick/
car,
pushes/
HR
x
brick
per
car
x
weight
brick
production
records
weekly
45
tunnel
kiln
#
2
TK­
2
Yes
Production
records
using
SBE
as
basis
production
records
daily
45
engobe,
clay,
sand
spray
machi
BHI­
1
Yes
production
records
using
SBE
as
basis
production
records
daily
45
tunnel
kiln
#
1
TK­
1
Yes
Production
records
using
SBE
as
basis
production
records
daily
46
sand
dryer
DR­
1
No
46
tunnel
kiln
TK­
1
Yes
production
rercords
(
push
schedule,
bricks
per
car)
production
records
daily
46
coating
mixer
MD­
1
No
46
sawdust
dryer
DS­
1
No
production
records
47
tunnel
kiln
TK­
2
Yes
production
records
production
records
weekly
TABLE
10.
(
continued)

FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
157
47
tunnel
dryer
DC­
1
Yes
production
records
production
records
weekly
47
tunnel
kiln
TK­
1
Yes
production
records
production
records
weekly
47
tunnel
dryer
DC­
2
Yes
production
records
production
records
weekly
48
tunnel
kiln
TK­
1
Yes
production
records
production
records
daily
49
tunnel
kiln
TK­
2
Yes
production
records
production
records
daily
49
tunnel
kiln
TK­
1
Yes
production
records
production
records
daily
51
possey
machines
FW­
1
CTA­
1
Yes
Plant
production
records
indicating
the
number
of
dryer
cars
produced
and
the
corresponding
brick
size
daily
51
sand
mixing
MD­
1
No
51
Pallet
unloader
MISC­
3,
MISC­

9
Yes
Plant
production
records
indicating
the
number
of
dryer
cars
unloaded
with
the
brick
size
daily
51
Hand
set
conveyor
belt
MISC­
5
Yes
Plant
production
records
indicating
the
number
of
cars
of
brick
set
per
day
with
the
corresponding
brick
size
daily
51
Holding
room
MISC­
2,
MISC­

8
Yes
Plant
production
records
indicating
the
number
and
size
of
brick
produced
at
the
forming
department
daily
51
preheater
MISC­
6
Yes
Plant
records
kiln
push
schedule,
fired
brick
weight,
and
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
number
of
brick
per
kiln
car
times
fired
brick
wieght
continuous
51
Tunnel
kiln
TK­
1,
TK­
2
Yes
Plant
records
kiln
push
schedule,
fired
brick
weight,
and
number
of
brick
per
kiln
car.
Process
rate
calclated
as
pushes
per
hour
times
number
of
brick
per
kiln
car
times
fired
brich
weight.
continuous
51
Tunnel
dryer
DC­
1
TO
DC­
3
Yes
Plant
production
records
indicating
the
number
of
cars
processed
with
the
size
and
number
of
brick
per
car.
daily
51
sand
dryer
DR­
1
TO
DR­
2
No
51
batch
shapes
dryer
DP­
1
No
52
tunnel
kiln
TK­
2
Yes
daily
record
of
production
and
fuel
usage
52
tunnel
kiln
TK­
1
Yes
daily
record
of
production
and
fuel
usage
53
tunnel
kiln
TK­
1
Yes
daily
record
of
production
and
fuel
usage
54
tunnel
kiln
TK­
1
Yes
daily
record
of
production
and
fuel
usage
54
tunnel
kiln
TK­
2
Yes
daily
record
of
producation
and
fuel
usage
55
tunnel
kiln
TK­
1
Yes
daily
record
of
production
and
fuel
usage
55
tunnel
kiln
TK­
2
Yes
daily
record
of
production
and
fuel
usage
56
tunnel
kiln
TK­
1
Yes
daily
record
of
production
and
fuel
usage
57
tunnel
kiln
TK­
1
TO
TK­
2
Yes
Daily
record
of
production
and
fuel
usage.

58
tunnel
kiln
TK­
1,
TK­
2
Yes
daily
record
of
production
and
fuel
usage
TABLE
10.
(
continued)

FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
158
59
tunnel
kiln
TK­
1
TO
TK­
2
Yes
daily
record
of
production
and
fuel
usage
60
tunnel
kiln
TK­
1
TO
TK­
3
Yes
daily
production
record
and
fuel
usage
61
tunnel
kiln
TK­
1
TO
TK­
3
Yes
daily
record
of
production
and
fuel
usage
62
tunnel
kiln
TK­
1
TO
TK­
2
Yes
daily
record
of
production
fuel
usage
63
additive
hoppers
MH­
3
Yes
tons
processed
per
day
63
kilns
TK­
1,
TK­
2
Yes
continuous
gas
flow
meter
see
summary
continuous,

(
monthly
reading)
once
every
3
years
64
tunnel
kiln
TK­
1
Yes
production
records
production
records
daily
64
dryer
DC1
Yes
production
records
production
records
daily
64
dryer
DC­
2
Yes
production
records
production
records
daily
65
secondary
storage
MH­
2
No
65
primary
storage
MH­
1
No
65
Primary
Grinding
G­
1
No
65
brick
dryers
DC­
1
TO
DC­
3
Yes
Plant
records
push
schedule,
green
brick
weight
and
the
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
brick
per
car
times
brick
weight.
continuous
0.5
65
brick
kilns
TK­
1
TO
TK­
3
Yes
Plant
records
push
schedule,
green
brick
weight
and
the
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
brick
per
car
times
brick
weight.
continuous
0.5
65
secondary
grinding
G­
2
No
65
production
FW­
1,
FW­
2
No
66
brick
tunnel
kiln
TK­
1
Yes
Plant
records
push
schedule,
green
brick
weight,
number
of
brick/
car.
continuous
68
tunnel
kiln
TK­
1
Yes
Process
rate
is
calcualted
as
(
brick/
car)(
cars/
d)(
wt/
brick)
see
summary
continuous
69
tunnel
kiln
TK­
1,
TK­
2
Yes
Process
rate
is
calculated
as
(
bricks/
car)(
cars/
day)(
wt/
brick)
see
summary
continuous
71
screens
S­
1,
S­
2
No
What
goes
into
grinder
goes
to
screens
71
tunnel
kiln
TK­
1
Yes
Plant
records
push
schedule
green
brick
wt,
dry
brick
wt,
and
brick
per
car
and
pushes
per
hour
x
brick
per
car
x
brick
wt.
continuous
.5
71
dryer
DC­
1
Yes
Plant
records
push
schedule
green
brick
wt,
dry
brick
wt,
and
brick
per
car
and
pushes
per
hour
x
brick
per
car
x
brick
wt.
continuous
.5
71
grinder
G­
1
Yes
Frontend
loader
buckets
per
hour
are
counted
and
recorded
per
shift
ave.
wt.
per
bucket
is
multiplied
by
number
of
buckets.
see
summary
continuous
2
one
bucket
of
clay
weighed
four
to
six
times
per
year
TABLE
10.
(
continued)

FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
159
72
rotary
sand
dryer
DR­
1
No
72
sand
building
MD­
1
No
72
tunnel
kiln
TK­
1,
TK­
2
Yes
Plant
records
push
schedule.
Process
rate
calculated
as
number
of
kiln
cars
leaving
kiln
per
day
see
summary
continuous
not
established
not
applicable
72
brick
warm
room
MISC­
3
­

MISC­
4
Yes
Plant
records
number
of
cars
in
the
warming
room
to
ensure
ample
supply
for
tunnel
kiln
see
summary
daily
not
established
not
applicable
72
kiln
car
cleaning
system
MISC­
5
No
72
brick
dryer
DC­
1,
DC­
3,

DC­
4
Yes
Plant
records
number
of
cars
in
the
dryer
to
ensure
ample
supply
for
tunnel
kiln
see
summary
daily
not
established
not
applicable
72
mill
room
MW­
1,
FW­
1,

CTA­
1,
MW­
2,

FW­
2,
CTA­
2
No
72
rotary
wood
dryer
DS­
1
­
DS­
2
No
73
dryer
DC­
1,
DC­
2
Yes
Plant
records
number
of
cars
in
the
dryers
to
ensure
ample
supply
for
tunnel
kiln.
see
summary
daily
not
established
73
holding
room
MISC­
1
Yes
Plant
records
number
of
cars
in
the
holding
room
to
ensure
ample
supply
for
tunnel
kiln
see
summary
daily
not
established
73
tunnel
kiln
TK­
1,
TK­
2
Yes
Plant
records
push
schedule,
fired
brick
weight,
number
of
bricks
per
kiln
car.
Process
rate
is
calculated
as
cars
per
day
times
brick
per
car
times
fired
brick
weight.
See
summary
continuous
not
established
73
sand
and
slurry
mixer
MD­
1
No
74
dryer
DC­
1
Yes
Plant
records
number
of
cars
in
the
dryers
to
ensure
ample
supply
for
tunnel
kiln.
see
summary
daily
not
established
74
tunnel
kiln
TK­
1
Yes
Plant
records
push
schedule,
fired
brick
weight,
number
of
bricks
per
kiln
car.
Process
rate
is
calculated
as
cars
per
day
times
brick
per
car
times
fired
brick
weight.
see
summary
continuous
not
established
75
pumps
and
feeders
CTA­
1
No
75
dryer
DC­
1
Yes
Records
of
push
schedule,
count
of
brick
on
cars,
weight
of
brick
See
summary
daily
0.2%
6
months
75
kiln
TK­
1
Yes
Records
of
push
schedule,
count
of
brick
on
cars,
weight
of
brick
see
summary
daily
0.2%
6
months
75
roller
mill
G­
2
Yes
Plant
production
records
in
standard
brick
equivalents
per
day,

weight
of
brick
produced.
see
summary
daily
0.5%

76
brick
dryer
DC­
1
Yes
Production
reports
production
records
Continuous
not
established
76
holding
room
MISC­
1
Yes
Production
records
production
records
continuous
not
established
76
tunnel
kiln
TK­
1
Yes
Production
records
production
records
continuous
not
established
TABLE
10.
(
continued)

FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
160
78
tunnel
kiln
TK­
2
Yes
production
records
sbe
daily
not
established
78
brick
dryer
DC­
2
Yes
Production
records
SBE
daily
not
established
78
tunnel
kiln
TK­
1
Yes
production
records
sbe
daily
not
established
78
brick
dryer
DC­
1
Yes
Production
records
SBE
daily
not
established
79
brick
dryer
DC­
1
No
79
Tunnel
kiln
TK­
1
Yes
production
records
production
records
daily
not
established
80
brick
dryer
DC­
1
Yes
Production
record
production
record
Continuous
not
established
80
tunnel
kiln
3
TK­
3
Yes
push
schedule,
kiln
record
production
records
Continuous
not
established
80
tunnel
kiln
1
TK­
1
Yes
push
schedule,
kiln
record
production
records
Continuous
not
established
80
tunnel
kiln
2
TK­
2
Yes
push
schedule,
kiln
record
production
records
Continuous
not
established
81
forming
&
sand
coating
FW­
1,
FW­
2
No
81
Tunnel
kiln
TK­
5,
TK­
6
Yes
Plant
records
push
schedule,
fired
brick
weight
averages,
and
number
of
brick
per
kiln
car.
Process
rate
is
then
calculated
as
cars
per
day
and
can
be
converted
to
tons/
day
or
Standard
Brick
Equivalent
(
SBE).
Daily
81
coating
&
texturing
FW­
3,
CTA­
3
No
81
Tunnel
kiln
TK­
1
Yes
Plant
records
push
schedule,
fired
brick
weight
averages,
and
number
of
brick
per
kiln
car.
Process
rate
is
then
calculated
as
cars
per
day
and
can
be
converted
to
tons/
day
or
Standard
Brick
Equivalent
(
SBE).
Daily
81
finish
dryers
DC­
5
Yes
Plant
records
number
of
cars
in
the
finish
dryers
to
ensure
ample
supply
for
tunnel
kiln.
Daily
81
Dryer
DC­
6
TO
DC­
9
Yes
Plant
records
number
of
cars
in
the
dryers
to
ensure
ample
supply
for
tunnel
kiln.
Daily
81
initial
dryer
DC­
1
TO
DC­
4
Yes
Plant
records
number
of
cars
in
the
initial
dryers
to
ensure
ample
supply
for
tunnel
kiln.
Daily
82
Holding
room
MISC­
3
Yes
Daily
production
records
and
plant
kiln
office
records
the
number
of
cars
in
the
holding
room
to
ensure
ample
supply
for
tunnel
kiln
production
records
Daily
not
established
82
Dryer
DC­
1
TO
DC­
2
Yes
Plant
records
the
number
of
cars
in
the
dryers
to
ensure
ample
supply
for
tunnel
kiln
production
records
periodic
not
established
82
Tunnel
kiln
TK­
1
Yes
Plant
records
push
schedule,
brick
weight,
and
the
number
of
brick
per
kiln
car.
Process
rate
is
then
calculated
as
cars
per
day
and
can
be
converted
to
tons/
d
or
Standard
Brick
Equivalents
(
SBE's).
Production
records
periodic
not
established
83
Tunnel
kiln
TK­
1
Yes
Production
records
Production
records
Daily
TABLE
10.
(
continued)

FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
161
84
Brick
dryer
DC­
1
Yes
Plant
records
push
schedule,
green
brick
weight,
and
the
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
brick
per
car
times
brick
weight.
see
summary,

production
record
Daily
2
84
Tunnel
kiln
TK­
1
Yes
Plant
records
push
schedule,
green
brick
weight,
and
the
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
brick
per
car
times
brick
weight.
see
summary,

production
record
Daily
2
85
Tunnel
kiln
TK­
1
Yes
Daily
record
of
production
and
fuel
usage.

86
clay
hopper
MH­
1
No
86
sifting
screens
S­
1,
S­
2
No
86
roll
crusher
CR­
1
No
86
kiln
PK­
1
No
86
kiln
TK­
1
Yes
Daily
log
is
made
of
production
cars
and
tons
of
material
through
system.
see
summary
Daily
86
Dryer
DC­
1
Yes
Daily
log
is
made
of
production
cars
through
system.
see
summary
Daily
86
cement
mixing
MD­
1
No
86
preheat
MISC­
5
No
86
Holding
room
MISC­
4
No
86
brick
pug­
extruder
FW­
2
Yes
Product
cars
loaded
per
hour
as
a
production
progress
tracking
tool.

Not
recorded
86
hammer
mill
CR­
2
No
86
pipe
pug­
extruder
FW­
1
Yes
Product
cars
loaded
per
hour
as
a
production
progress
tracking
tool.

Not
recorded
87
pugmills
MW­
2
Yes
plant
records,
production
data,
weights,
piece
counts
Continuous
.2
87
additive
feeders
CTA­
1
Yes
plant
records,
production
data,
car
counts,
belt
scale,
totalizer
piece
counts,
ect.
Continuous
.05
87
clay
prep
batching
grinding
sc
MD­
1,
G­
1,
S­
1
Yes
Visible
inspections
for
dust.
Plant
records,
production
data,
batch
counts,
loader
weights
Hourly
.05
87
slurry
mixers
MW­
1
Yes
plant
records,
production
data,
weights,
piece
counts
Continuous
10
87
Tunnel
kiln
TK­
1
Yes
Plant
records,
push
sched.,
weights,
car
counts,
gas
meter
readings
Continuous
.5
87
Periodic
kiln
PK­
1
Yes
Plant
records,
weights,
piece
counts,
gas
meter
readings
Continuous
.5
88
slurry
mixers
MW­
1
TO
MW­

2
Yes
Plant
records,
production
data,
weights,
piece
counts
see
summary
Continuous
10
88
pugmills
MW­
3
TO
MW­

4
Yes
Plant
records,
production
data,
weights,
piece
counts
see
summary
Continuous
.5
88
Tunnel
kiln
TK­
1
Yes
Plant
records
push
schedule,
weights,
car
counts,
and
gas
meter
readings
see
summary
Continuous
.5
TABLE
10.
(
continued)

FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
162
88
clay
prep
batch.

Grind.
Screen
WE­
1,
CR­
1,
G­

1,
S­
1
Yes
production
data
loader
weights
batch
counts
see
summary
Continuous
88
Dryer
DC­
1
Yes
based
on
amount
of
brick
needed
to
fill
a
kiln
see
summary
Continuous
88
Dryer
DC­
2
Yes
based
on
amount
of
brick
needed
to
fill
a
kiln
see
summary
Continuous
89
Tunnel
kiln
TK­
1
Yes
SBE
basis
for
production
records
production
records
Hourly
Not
Established
90
Tunnel
kiln
TK­
2
Yes
production
records
Daily
not
established
90
brick
dryer
DC­
1
Yes
production
records
Daily
not
established
90
Tunnel
kiln
TK­
1
Yes
production
records
Daily
not
established
90
brick
dryer
DC­
2
Yes
production
records
Daily
not
established
91
kilns
PK­
1
TO
PK­
8
Yes
Number
of
bricks
production
records
production
records
Daily
not
established
91
brick
dryer
DC­
1
No
100
sawdust
kilns
1&
2
TK­
1
TO
TK­
2
Yes
Plant
records
push
schedule,
green
brick
weight,
and
the
number
of
brick
per
kiln
caar.
Process
rate
calculated
as
pushes
per
hour
times
brick
per
car
times
brick
weight
actual
production
Daily
1.0
100
brick
dryer
DC­
1
TO
DC­
2
Yes
plant
records
push
schedule,
green
brick
weight,
and
the
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
brick
per
cart
times
brick
weight
actual
production
Daily
1.0
100
texturizer
CTA­
1
No
101
texturizer
CTA­
2
No
101
sawdust
kilns
1
and
2
TK­
2,
TK­
3
Yes
Plant
record
push
schedule,
green
brick
weight,
and
the
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
brick
per
car
times
brick
weight.
actual
production
Daily
1
101
brick
dryers
DC­
3,
DC­
4
Yes
Plant
record
push
schedule,
green
brick
weight,
and
the
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
brick
per
car
times
brick
weight.
actual
production
Daily
1
101
gas
kiln
TK­
1
Yes
Plant
record
push
schedule,
green
brick
weight,
and
the
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
brick
per
car
times
brick
weight.
actual
production
Daily
1
101
brick
dryer
DC­
1,
DC­
2
Yes
Plant
record
push
schedule,
green
brick
weight,
and
the
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
brick
per
car
times
brick
weight.
actual
production
Daily
1
101
texturizer
CTA­
1
No
102
sawdust
kilns
1
and
2
TK­
1,
TK­
2
Yes
Plant
records
push
schedule,
green
brick
weight,
and
the
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
brick
per
car
times
brick
weight
actual
production
Daily
1
TABLE
10.
(
continued)

FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
163
102
brick
dryer
DC­
1,
DC­
2
Yes
Plant
records
push
schedule,
green
brick
weight,
and
the
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
brick
per
car
times
brick
weight
actual
production
Daily
1
102
texturizer
CTA­
1
No
103
sawdust
kilns
3­
8
TK­
1
TO
TK­
6
Yes
Plant
records
push
schedule,
green
brick
weight,
and
the
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
brick
per
car
times
brick
weight
actual
production
Daily
1
103
texturizer
CTA­
2
No
103
texturizer
CTA­
1
No
104
Dryer
DC­
1
Yes
production
rate
sets
push
schedule.
Currently
at
20
car
schedule/
24
hours,
or
1
car
every
1
hour
and
12
min.
production
records
Continuous
0.5
104
Tunnel
kiln
TK­
1
Yes
production
rate
sets
push
schedule.
Currently
at
20
car
schedule/
24
hours,
or
1
car
every
1
hr.
and
12
min.
production
recrods
Continuous
0.5
110
Tunnel
kiln
TK­
1
Yes
production
records
production
records
Daily
not
est.

110
sand
mixer
MD­
1
Yes
production
records
production
records
Daily
not
est.

110
extruder/
cuter
FW­
1
Yes
production
records
production
records
Daily
not
est.

110
crusher
grinder
screens
GS­
1
Yes
production
records
production
records
Daily
not
est.

110
brick
dryer
DC­
1
Yes
production
records
production
records
Daily
not
est.

111
crusher
grinder
screens
CR­
1,
G­
1,
S­

1,
MH­
1
Yes
production
records
production
records
Daily
not
est.

111
Tunnel
kiln
TK­
1
Yes
production
records
production
records
Daily
not
est.

111
brick
dryer
DC­
1
Yes
production
records
production
records
Daily
not
est.

111
pre­
heater
MISC­
1
Yes
production
records
production
records
Daily
not
est.

111
sand
dryer
DR­
1
Yes
production
records
production
records
Daily
not
est.

112
brick
dryer
DC­
1
Yes
production
records
production
records
Daily
not
est.

112
3
tunnel
kilns
TK­
4
TO
TK­
6
Yes
production
records
production
records
Daily
not
est.

112
3
brick
dryers
DC­
4
TO
DC­
6
Yes
production
records
production
records
Daily
not
est.

112
shuttle
kilns
PK­
21
Yes
production
records
production
records
Daily
not
est.

112
crusher
grinder
screens
CR­
3,
G­
3,
S­
3
Yes
production
records
production
records
Daily
not
est.

112
extruder
cutter
FW­
3
Yes
production
records
produciton
records
Daily
not
est.

112
glaze
line
GZ­
1
Yes
production
records
production
records
Daily
not
est.

112
waxer
GZ­
2
Yes
produciton
records
production
records
Daily
not
est.

112
pre
heater
MISC­
1
Yes
production
records
production
records
Daily
not
est.
TABLE
10.
(
continued)

FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
164
112
sand
dryer
DR­
1
Yes
production
records
production
records
Daily
not
est.

112
crusher
grinder
screens
CR­
2,
G­
2,
S­
2
Yes
production
records
production
records
Daily
not
est.

112
extruder
cutter
FW­
2
Yes
production
records
production
records
Daily
not
est.

112
3
tunnel
kilns
TK­
1
TO
TK­
3
Yes
production
records
production
records
Daily
not
est.

112
2
brick
dryers
DC­
2
TO
DC­
3
Yes
production
records
production
records
Daily
not
est.

112
2
soft
mud
dryers
DR­
2
TO
DR­
3
Yes
production
records
production
records
Daily
not
est.

112
crusher
grinder
screens
CR­
1,
G­
1,
S­
1
Yes
production
records
production
records
Daily
not
est.

112
exruder
cutter
FW­
1
Yes
production
records
production
records
Daily
not
est.

112
20
periodic
kilns
PK­
1
TO
PK­
20
Yes
production
records
production
records
Daily
not
est.

113
Tunnel
kiln
TK­
1
Yes
production
records
production
records
Daily
not
est.

113
brick
dryer
DC­
1
No
113
continous
dryer
DP­
1
Yes
estimated
by
how
much
brick
fits
on
cars
estimate
Daily
not
est.

114
slurry
mixers
MW­
2
Yes
production
data
piece
counts
weights.
Plant
records
see
summary
Continuous
10
114
Tunnel
kiln
TK­
1
Yes
plant
records,
push
schedule
gas
meter
readings,
car
counts
plece
weights,
production
data
see
summary
Continuous
.5
114
Dryer
DC­
1
Yes
based
on
how
much
brick
needed
to
fill
kiln
see
summary
114
additive
feeder
CTA­
1
Yes
production
data,
piece
counts
weights
plant
records
see
summary
Continuous
.5
114
pugmill
MW­
1
Yes
production
data
piece
counts
weights
Plant
records
see
summary
Continuous
.5
114
clay
prep
grinding
&

screening
G­
1.
S­
1
Yes
plant
records,
production
data
piece
counts,
weights
see
summary
Continuous
.5
114
storage
RU­
2
Yes
plant
records,
production
data
piece
counts,
weights
see
summary
Continuous
.5
114
mixing
MD­
1
Yes
plant
arecords,
production
data
piece
counts,
weights
see
summary
Continuous
.5
115
Tunnel
kiln
TK­
1
Yes
raw
materials
consumption
and
daily
production
recorded
in
log
book
log
book
Daily
115
Dryer
DC­
1
Yes
raw
materials
consumption
and
daily
production
recorded
in
log
book
log
book
Daily
116
Tunnel
kiln
TK­
1
Yes
Production
records
SBE
Daily
not
established
118
Tunnel
kiln
TK­
1
Yes
production
records
production
records
Daily
not
established
118
Tunnel
kiln
TK­
2
Yes
production
records
production
records
Daily
not
established
118
Tunnel
kiln
TK­
3
Yes
prodcuton
records
production
records
Daily
not
established
119
Tunnel
kiln
TK­
1
Yes
operator
monitors
and
adjust
temperatures
see
that
the
kiln
cans
are
moved
correctly
and
timely.
Records
ID
of
kiln
cars
operation
records
Hourly
TABLE
10.
(
continued)

FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
165
119
dryers
DC­
1
TO
DC­
2
Yes
Operator
monitors
and
adjust
temperatures
see
that
the
kiln
cars
are
moved
correctly
&
timely.
Records
ID
of
kiln
cars.
operation
records
Hourly
119
Holding
room
MISC­
1
Yes
Operator
monitors
and
adjust
temperatures
see
thathe
kiln
cars
are
moved
correctly
and
atimely.
Records
ID
of
kiln
cars
operation
records
Hourly
120
brick
dryer
DC­
1
Yes
production
records
production
records
Continuous
not
est.

120
Tunnel
kiln
TK­
1
Yes
production
records
production
records
Continuous
not
est.

121
brick
dryer
DC­
1
Yes
production
records
production
records
Continuous
not
est.

121
Tunnel
kiln
TK­
1
Yes
production
records
production
records
Continuous
not
est.

122
sand
dryer
DR­
2
No
122
tunnel
dryer
DC­
1
Yes
production
records
cars
per
day
production
records
Continuous
not
established
122
Tunnel
kiln
TK­
1
Yes
production
records
cars
per
day
production
records
Continuous
not
established
122
clay
dryer
DR­
1
No
130
brick
dryer
DC­
1
Yes
production
records
production
records
Daily
not
est.

130
crusher
grinder
screens
GS­
1
Yes
production
records
production
records
Daily
not
est.

130
extruder
cutter
FW­
1
Yes
production
records
production
records
Daily
not
est.

130
2
tunnel
kilns
TK­
1
TO
TK­
2
Yes
production
records
production
records
Daily
not
est.

131
sand
dryer
DR­
1
No
131
sand
mixing
area
MD­
1
No
131
Holding
room
MISC­
2
Yes
plant
records
number
of
cars
in
the
holding
room
to
ensure
ample
supply
for
tunnel
kiln
Daily
not
est.

131
Dryer
DC­
1
TO
DC­
4
Yes
plant
records
number
of
cars
in
th
dryers
to
ensure
ample
supply
for
tunnel
kiln
Daily
not
est.

131
Tunnel
kiln
TK­
1
TO
TK­
2
Yes
plant
records
push
schedule,
fired
brick
weight
average,
and
number
of
brick
per
kiln
car.
Process
rate
is
then
calculated
as
cars
per
day
and
can
be
multiplied
by
fired
brick
weight
&
converted
to
tons/
day
or
standard
brick
equivalents
Continuous
not
est.

132
Tunnel
kiln
TK­
1
Yes
plant
records
push
schedule,
fired
brick
wieght
averages,
and
number
of
bricks
per
kiln
car.
Process
ratre
is
then
calculated
as
cars
per
day
(
which
can
be
multiplied
by
wieghts
and
converted
to
tons/
day
or
sbe)
Continuous
132
forming
and
sand
coating
FW­
1
TO
FW­
2
No
132
setting
machine
MISC­
1
No
132
hand
forming
and
coating
FW­
3
No
TABLE
10.
(
continued)

FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
166
132
initial
dryers
6
DC­
1
TO
DC­
6
Yes
plant
records
number
of
cars
in
the
dryers
to
ensure
ample
supply
of
tunnel
kiln
Continuous
132
special
shapes
dryer
DC­
7
TO
DC­
8
Yes
plant
records
the
number
of
rack
cars
in
the
specital
shapes
dryer
to
ensure
the
special
shapes
are
later
fired
with
similar
bricks
Continuous
133
sand
coater
CTA­
2
No
133
sand
coater
CTA­
1
No
133
Tunnel
kiln
TK­
2
Yes
Plant
records
push
schedule,
fired
brick
weight,
number
of
bricks
per
kiln
car.
Process
rate
is
calculated
as
cars
per
day
times
bricks
per
car
converted
to
SBE
per
day
see
summary
Continuous
133
Dryer
DC­
1
TO
DC­
8
Yes
process
rate
determined
by
the
kiln
see
summary
Daily
not
established
133
Tunnel
kiln
TK­
3
Yes
plant
records
push
schedule,
fired
brick
weight,
number
of
bricks
per
kiln
car.
Process
reate
is
calculated
as
cars
per
day
times
bricks
per
car
converted
to
SBE
per
day
see
summary
Continuous
not
established
133
Dryer
DC­
9
Yes
Process
rate
determined
by
the
kiln
see
summary
Daily
not
established
133
Tunnel
kiln
TK­
1
Yes
plant
records
push
schedule,
fired
brick
weight,
number
of
bricks
per
kiln
car.
Process
rate
is
calculated
as
cars
per
day
times
bricks
per
car
converted
to
SBE
per
day
see
summary
Continuous
133
rotary
mixer
MW­
1
TO
MW­

2
No
134
Tunnel
kiln
TK­
1
Yes
Plant
records
push
schedule,
green
brick
weight,
and
the
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
brick
per
car
times
brick
weight
see
summary
Continuous
unknown
134
Tunnel
kiln
TK­
2
Yes
Plant
records
push
schedule,
green
brick
weight,
and
the
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
brick
per
car
times
brick
weight
see
summary
Continuous
unknown
134
Tunnel
kiln
TK­
3
Yes
Plant
records
push
schedule,
green
brick
weight,
and
the
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
brick
per
car
times
brick
weight
see
summary
Continuous
unknown
135
screens
S­
1
TO
S­
4
Yes
production
records
production
records
production
records
not
established
135
kilns
TK­
1
TO
TK­
3
Yes
production
records
production
records
production
records
not
established
135
hammer
mill
G­
1
TO
G­
2
Yes
production
records
production
records
production
records
not
established
135
crushers
CR­
1
TO
CR­
2
Yes
production
records
production
records
production
records
not
established
136
Tunnel
kiln
TK­
1
Yes
based
on
SBE
production
records
production
records
Hourly
not
established
TABLE
10.
(
continued)

FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
167
137
sand
mixer
4
applicators
MD­
1,
CTA­
1
Yes
production
records
production
records
sbe
Daily
not
estab.

137
sand
applicator
CTA­
2
Yes
production
records
production
records
sbe
Daily
not
estab.

137
Tunnel
kiln
TK­
1
Yes
production
records
production
records
sbe
Daily
not
estab.

137
Tunnel
kiln
TK­
2
Yes
production
records
production
records
sbe
Daily
not
estab.

137
Tunnel
kiln
TK­
3
Yes
production
records
prod.
Records
sbe
Daily
not
est.

137
Tunnel
kiln
TK­
4
Yes
produciton
records
prod.
Records
sbe
Daily
not
est.

137
Tunnel
kiln
TK­
5
Yes
production
records
prod.
Records
sbe
Daily
not
est.

138
tunnel
dryer
DC­
1
TO
DC­
3
Yes
plant
production
records
indicating
the
number
of
cars
of
brick
set
per
day
with
the
corresponding
brick
size
see
summary
Daily
not
est.

138
Tunnel
kiln
TK­
1
Yes
plant
records
kiln
push
schedule,
fired
brick
weight,
and
number
of
brick
per
kiln
car.
Process
rate
calculated
as
pushes
per
hour
times
number
of
brick
per
kiln
car
times
fired
brick
weight.
see
summary
Continuous
not
est.

138
Rotary
dryer
DR­
1
No
138
sand
mixer
MD­
2
No
139
Tunnel
kiln
TK­
1
Yes
production
records
production
records
Continuous
not
est.

139
Dryer
DC­
1
Yes
production
records
production
records
Continuous
not
est.

140
brick
dryer
DC­
1
Yes
production
records
see
summary
Daily
not
est.

140
special
shapes
dryer
DC­
2
Yes
production
records
see
summary
Daily
not
est.

140
Tunnel
kiln
TK­
1
Yes
production
records
see
summary
Daily
not
est.

141
Tunnel
kiln
TK­
1
Yes
maintain
monthly
records
of
clay
mixed
used
in
kiln
see
summary
Continuous
+
­
.5
141
Dryer
DC­
1
Yes
noted
by
how
much
brick
is
extruded
see
summary
Continuous
+
­
.5
144
brick
dryer
DC­
1
Yes
production
records
production
records
Continuous
not
est.
not
applicable
144
Tunnel
kiln
TK­
1
Yes
production
records
production
records
Continuous
not
established
not
applicable
144
Mn
feeder
belt
MH­
3
Yes
additive
usage,
purchasing
records
purchasing
records
Annually
not
established
not
applicable
144
extruder
and
pugmill
FW­
1
Yes
production
records
production
records
Continuous
not
established
not
applicable
145
brick
dryer
DC­
1
TO
DC­
2
Yes
plant
kiln
schedules
process
rate=
kiln
cars/
day
times
brick/
car
times
weight/
green
brick
as
per
summary
Daily
na
na
TABLE
10.
(
continued)

FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
168
145
kiln
TK­
1
Yes
plant
schedule
process
rate=
kiln
cars/
day,
times
brick/
car,
times
weight/
fired
brick
as
per
summary
Daily
na
na
146
Tunnel
kiln
TK­
1
TO
TK­
3
Yes
plant
records
push
schedule,
green
tile
and
the
number
of
tile
per
kiln.
Process
rate
calculated
as
number
of
tile
per
hour
x
tile
weight
production
records
Continuous
not
established
na
146
Dryer
DC­
2
TO
DC­
3
Yes
plant
records
push
schedule,
green
tile
weight
and
number
of
tile
per
dryer
car.
Process
rate
calculated
as
cars
per
hour
x
tile
per
x
tile
per
car
production
records
Continuous
not
est.
na
146
grinding
and
screening
GR­
1G­
1S­
1TO
S­
4
Yes
plant
records
of
clay
delivered
and
using
number
of
scoops
x
weight
per
scoop
production
records
Continuous
not
est.
na
148
Brick
Kiln
TK­
1
Yes
Push
schedule,
green
brick
weight,
number
of
brick/
car
see
summary
Continuous
153
Structural
brick
and
tile
dryer
DP­
1
Yes
This
is
a
batch
dry
system;
the
length
of
the
drying
cycle
is
countrolled.
personal
computer
Continuous
unknown
NA
153
Tunnel
kiln
TK­
2
Yes
The
push
rate
and
frequency
is
monitored.
The
fired
weight
is
recorded
periodicaly.
Tons
of
product
is
recorded
monthly.
personal
computer
Continuous
unknown
NA
153
Fire
brick
dryer
DP­
2
No
153
Fire
brick
dryer
DP­
3
No
153
Fire
brick
dryer
DP­
4
No
153
Tunnel
kiln
TK­
1
Yes
The
push
rate
and
frequency
is
monitored.
The
fired
weight
is
recorded
periodically.
Tons
of
product
is
recorded
monthly.
personal
computer
Continuous
unknown
NA
154
Tunnel
kiln
TK­
1
TO
TK­
2
Yes
production
records
production
records
Continuous
not
established
NA
154
Tunnel
kiln
TK­
3
Yes
production
records
production
records
Continuous
not
established
NA
154
Tunnel
kiln
TK­
4
Yes
production
records
production
records
Continuous
not
established
NA
155
brick
dryer
DC­
1,
DC­
2
Yes
Plant
records
monthly
brick
production
and
natural
gas
usage
see
summary
Continuous
+
0.5
NA
155
Tunnel
kiln
TK­
1
Yes
Plant
records
monthly
brick
production
and
natural
gas
usage
see
summary
Continuous
+
0.5
NA
158
Tunnel
kiln
TK­
1
Yes
Plant
records
push
schedule
and
number
of
brick
per
kiln
car.
see
summary
Continuous
1
NA
158
hammer
mill
dry
pan
grinders
GR­
1
TO
GR­
3
No
NA
NA
NA
NA
NA
158
storage
silos
MH­
1
No
NA
NA
NA
NA
NA
158
jaw
crusher
CR­
2
No
NA
NA
NA
NA
NA
158
tunnel
dryer
DC­
1
Yes
Plant
records
push
schedule
and
number
of
brick
per
car.
see
summary
Continuous
1
NA
159
Brick
Dryers
DC­
1
TO
DC­
2
Yes
Plant
records
push
schedule,
green
brick
weight,
number
of
brick
per
car.
Process
rate
calculated
as
pushes/
hr
x
brick/
car
see
summary
Continuous
0.5
NA
159
Brick
Kiln
TK­
1
Yes
Plant
records
push
schedule,
green
brick
weight,
number
of
brick
per
car.
Process
rate
calculated
as
pushes/
hr
x
brick/
car
see
summary
Continuous
0.5
NA
159
Crusher
CR­
1
Yes
Plant
monitors
running
time
required
to
fill
storage
tanks.
see
summary
Daily
5
NA
159
Grinder
GR­
1
Yes
Plant
monitors
running
time
required
to
fill
storage
tanks.
see
summary
Daily
5
NA
TABLE
10.
(
continued)

FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
169
159
Screens
S­
1
TO
S­
2
Yes
Plant
monitors
running
time
required
to
fill
storage
tanks.
see
summary
Daily
5
NA
179
Brick
kiln
PK­
3
Yes
Plant
records
input
and
output
from
brick
kiln
see
summary
Continuous
1%
NA
179
Brick
dryer
DC­
1
Yes
Plant
records
quantity
of
green
brick
removed
from
the
brick
dryer
see
summary
Continuous
1%
NA
179
Brick
kiln
PK­
1
Yes
Plant
records
input
and
output
from
brick
kiln
see
summary
Continuous
1%
NA
179
Brick
kiln
PK­
2
Yes
Plant
records
input
and
output
from
brick
kiln
see
summary
Continuous
1%
NA
179
Brick
kiln
PK­
4
Yes
Plant
records
input
and
output
from
brick
kiln
see
summary
Continuous
1%
NA
183
Periodic
kiln
PK­
1
No
184
grinding
pan
G­
1
TO
G­
2
Yes
daily
throughput
from
inventory
(
tons)
production
records
Daily
not
established
n/
a
184
truck
dump
MH­
1
TO
MH­
2
Yes
tons
received
production
records
Daily
not
established
n/
a
184
crusher
CR­
1
Yes
tons
received
(
production
records)
production
records
Daily
not
established
n/
a
184
intermittent
kiln
PK­
1
TO
PK­
3
Yes
scheduled
firing
prduction
records
Daily
not
established
n/
a
184
vibrating
screens
S­
1
TO
S­
8
Yes
daily
throughput
from
inventory
(
tons)
production
records
Daily
not
established
n/
a
184
pugmill
MW­
1
TO
MW­

2
Yes
daily
throughput
(
tons
production
records
Daily
not
established
n/
a
184
Dryer
DC­
1
TO
DC­
2
Yes
scheduled
throughput
(
kiln
cars
per
day)
production
records
Daily
not
established
n/
a
184
Tunnel
kiln
TK­
1
TO
TK­
4
Yes
scheduled
throughput
(
kiln
cars
per
day)
production
records
Daily
not
established
n/
a
185
bee
hive
kiln
PK­
1
Yes
manually
record
shelves
filled
convert
to
sq.
ft.
batch
+­
10
185
dry
mixer
MD­
1
Yes
batch
mixer,
tons
per
mix
no
recording
as
needed
none
none
n/
a
n/
a
185
wet
mixer
MW­
1
Yes
batch
mixer,
pounds
per
mix
no
recording
as
needed
none
none
no
no
185
Dryer
DC­
1
Yes
conveyor
recorded
in
feet
travedled
converted
to
sq.
ft.
roller
chart
Daily
+­
10
none
185
bee
hive
kiln
PK­
2
Yes
manually
record
shelves
filled
convert
to
sq.
ft.
batch
+­
10
185
Tunnel
kiln
TK­
1
Yes
manually
record
cars
filled
convert
to
sq.
ft.
notepad
Hourly
+­
5
185
shuttle
kiln
PK­
3
Yes
manually
record
kiln
filled
convert
to
sq.
ft.
batch
+­
5
185
shuttle
kiln
PK­
4
Yes
manually
record
kiln
filled
convert
to
sq.
ft.
batch
+­
5
187
extruder
FW­
3
Yes
limited
by
fixed
number
of
kiln
cars
required
per
day
number
of
kiln
cars
Daily
+­
10%
n/
a
187
Tunnel
kiln
TK­
1
Yes
limited
by
fixed
number
of
kiln
cars
required
per
day
number
of
kiln
cars
every
3
hr
+­
10%
n/
a
187
Tunnel
kiln
TK­
3
Yes
limited
by
fixed
number
of
kiln
cars
required
per
day
number
of
kiln
cars
every
3
hours
+­
10%
n/
a
187
pk
blender
MD­
1
Yes
record
number
of
batches
daily
each
batch
weighed
Daily
+­
2%
twice
annually
187
feeder
MH­
18
Yes
Limited
by
fixed
number
of
kiln
cars
required
per
day
number
of
kiln
cars
Daily
+­
10%
n/
a
187
feeder
MH­
25
Yes
limited
by
fixed
number
of
kiln
cars
required
per
day
number
of
kiln
cars
Daily
+­
10%
n/
a
187
extruder
#
1
FW­
2
Yes
limited
by
fixed
number
of
kiln
cars
required
per
day
number
of
kiln
cars
Daily
+­
10%
n/
a
187
ball
mills
MISC­
1
TO
MISC­
3
Yes
count
of
batches
recorded
manually
Daily
n/
a
n/
a
TABLE
10.
(
continued)

FACID
Source
type
Equipment
Mon.
Procedures
Monitoring
type
Monitoring
frequency
Monitoring
accuracy
Calibration
frequency
170
187
dryer
#
1
DC­
3
Yes
limited
by
fixed
number
of
kiln
cars
required
per
day
number
of
kiln
cars
every
3
hours
+­
10%
n/
a
187
dryer
#
3
DC­
5
Yes
limited
by
fixed
number
of
kiln
cars
required
per
day
number
of
kiln
cars
every
3
hours
+­
10%
n/
a
187
cursher
CR­
1
Yes
number
of
truck
loads
recorded
daily
physical
count
Daily
+­
5%
n/
a
187
storage
MH­
2
Yes
number
of
truck
loads
recorded
daily
physical
count
Daily
+­
5%
n/
a
187
grinding
pfiefer
G­
1
Yes
number
of
truck
loads
recorded
daily
physical
count
Daily
+­
5%
n/
a
187
storage
silos
1
&
2
MH­
3,
MH­
4
Yes
number
of
truck
loads
recorded
daily
physical
count
Daily
+­
5%
n/
a
187
eirich
mixer
MW­
1
Yes
batch
count,
each
batch
weighed
weigh
hopper
each
batch
+­.
5%
semiannually
187
exruder
FW­
1
Yes
count
of
square
feet
extruded
counted
daily
by
shift
+­.
1%
n/
a
187
Dryer
DC­
1
Yes
count
of
square
footage
counter
daily
by
shift
+­.
1%
n/
a
187
glaze
machine
GZ­
1
Yes
count
of
square
feet
produced
counter
daily
by
shift
n/
a
n/
a
187
after
glaze
dryer
DC­
2
Yes
count
of
square
feet
produced
counter
daily
by
shift
n/
a
n/
a
187
minor
constituent
bins
MH­
5
Yes
controlled
by
batches
through
eirich
batch
count
Daily
+­.
5%
semiannually
187
kiln
#
4
RK­
1
Yes
count
of
square
feet
produced
counter
daily
by
shift
n/
a
n/
a
188
Tunnel
kiln
TK­
1
TOTK­
2
Yes
continuous
process
feed
rate
as
cars/
day
regulated
cycle
timer
on
car
pusher
5
min
+­
2.0
n/
a
188
dry
pan
G­
1
TO
G­
2
Yes
feed
rate
of
apron
feeders
verified
weekly.
Timers
record
feed
time.

Total
tons
processed
is
calculated
at
the
end
of
each
shift
timer
Continuous
+­
1
n/
a
188
chemical
flashing
MISC­
1
TO
MISC­
2
Yes
spray
nozzles
are
calibrated
at
the
start
of
each
production
run
and
as
required
to
maintain
proper
spray
pattern
graduated
cylinder
start
of
each
production
run
+­
1.0
n/
a
189
screen
S­
4
No
189
flash
booth
MISC­
1
TO
MISC­
3
No
189
dry
pan
G­
3
Yes
use
number
of
minutes
raw
material
is
fed
to
dry
pan
timer
Hourly
+­
5.0
Monthly
189
Tunnel
kiln
TK­
1
TO
TK­
4
Yes
manual
count
of
number
of
kiln
cars
entering
kiln
manual
count
&

manually
logged
every
kiln
push
(
85min)
+­
0.0
n/
a
189
pug
mill
MW­
1
TO
MW­

4
Yes
manual
count
of
pieces
produced
(
cut)
per
minute
manual
count
every
half
hour
+­
1.0
n/
a
189
dry
pan
G­
4
Yes
use
number
of
minutes
raw
material
is
fed
to
dry
pan
timer
Hourly
+­
5.0
Monthly
189
screen
S­
3
No
171
TABLE
11.
SUMMARY
FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
1
tunnel
kiln
tk­
2
tk
1
dls­
1
True
No
1
dryer
dc­
1
dc
1
us­
1
False
No
1
dryer
dc­
2
dc
1
us­
3
False
No
1
predryer
misc­
1
predryer
1
fe­
5
False
No
1
extruder
fw­
1
extruder
1
fe­
4
False
No
1
tunnel
kiln
tk­
1
tk
1
US­
2
True
No
1
pug
mill
mw­
1
mw
1
fe­
3
False
No
1
Reclaimer
MH­
1
mh
1
fe­
2
False
No
1
Screens
(
8)
S­
1
s
8
bh­
1
False
No
1
Grinders
G­
1
g
1
bh­
1
False
No
1
Primary
crusher
cr­
1
cr
1
fe­
6
False
No
1
color/
texture
applicator
cta­
1
cta
1
bh­
2
False
No
1
Coal
storage
bin
misc­
2
misc
1
bh­
3
False
No
1
Coal
pulverizing
system
cc­
1
cc
1
bh­
3
False
No
2
dryer
dc­
1
dc
1
us­
1
False
No
2
extruder
fw­
1
extruder
1
fe­
7
False
No
2
color/
texture
cta­
1
cta
1
fe­
8
False
No
2
kiln
tk­
1
tk
1
us­
2
False
No
2
mixing
mw­
1
mw
1
fe­
6
False
No
2
storage
mh­
2
mh
1
fe­
5
False
No
2
storage
mh­
1
mh
1
fe­
2
False
No
2
screen
s­
1
s
1
fe­
1
False
No
2
screen
s­
2
s
1
fe­
4
False
No
2
grinder
g­
1
g
1
fe­
3
False
No
3
extruder
fw­
1,
fw­
2
extruder
2
fe­
3,
fe­
4
False
No
3
mixer
mw­
1,
mw­
2
mw
2
fe­
1,
fe­
2
False
No
3
tunnel
kiln
tk­
1
tk
1
us­
2
False
No
3
screen
s­
1
to
s­
8
s
8
bh­
1
False
No
3
crusher
cr­
1
cr
1
bh­
1
False
No
3
dryer
dc­
1
dc
1
us­
1
False
No
3
grinder
g­
1,
g­
2
g
2
bh­
1
False
No
4
crusher
cr­
1
cr
1
fe­
1
False
No
4
tunnel
kiln
tk­
1
tk
1
us­
2
False
No
4
pug
mill
mw­
1
mw
1
fe­
5
False
No
4
screen
s­
1
s
1
fe­
3
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
172
4
grinder
g­
1
g
1
fe­
2
False
No
4
extruder
fw­
1
extruder
1
fe­
4
False
No
4
dryer
dc­
1
dc
1
us­
1
False
No
4
drying
room
misc­
1
­
misc­
9
predryer
9
fe­
6
­
fe­
14
False
No
5
dryer
dc­
2
dc
1
us­
3
False
No
5
tunnel
kiln
tk­
2
tk
1
us­
5
False
No
5
tunnel
kiln
tk­
1
tk
1
us­
4
False
No
5
holding
room
misc­
2
predryer
1
us­
1
False
No
5
dryer
dc­
1
dc
1
us­
2
False
No
5
crushing
cr­
1
cr
1
fe­
1
False
No
5
cutting
misc­
1
misc
1
fe­
6
False
No
5
color/
texturing
cta­
1
cta
1
fe­
5
False
No
5
storage
bins
ru­
1
ru
1
fe­
2
False
No
5
mixing
mw­
1
mw
1
fe­
3
False
No
5
extruding
fw­
1
extruder
1
fe­
4
False
No
5
grinder
g­
1
g
1
bhi­
1
False
No
5
screens
s­
1
s
1
bhi­
1
False
No
6
wet
mixing
mw­
1
mw
1
fe­
6
False
No
6
dryer
dc­
2
dc
1
us­
4
False
No
6
dryer
dc­
4
dc
1
us­
6
False
No
6
dryer
dc­
3
dc
1
us­
5
False
No
6
dryer
dc­
1
dc
1
us­
3
False
No
6
tunnel
kiln
tk­
2
tk
1
us­
8
False
No
6
tunnel
kiln
tk­
1
tk
1
us­
7
False
No
6
cutting
misc­
2
misc
1
fe­
9
False
No
6
holding
room
misc­
3
predryer
1
us­
1
to
us­
2
False
No
6
coloring/
texture
cta­
1
cta
1
fe­
8
False
No
6
storage
bins
ru­
1
ru
1
fe­
5
False
No
6
screening
s­
1
s
1
fe­
4
False
No
6
crushing
cr­
1
cr
1
fe­
2
False
No
6
extruding
fw­
1
extruder
1
fe­
7
False
No
6
grinding
g­
1
g
1
fe­
3
False
No
7
extruding
fw­
1
extruder
1
fe­
6
False
No
7
pug
mill
mw­
1
mw
1
fe­
5
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
173
7
dryer
dc­
3
dc
1
us­
4
False
No
7
dryer
dc­
2
dc
1
us­
3
False
No
7
dryer
dc­
1
dc
1
us­
2
False
No
7
dryer
dc­
4
dc
1
us­
5
False
No
7
surge
bin
md­
1
md
1
fe­
4
False
No
7
texturing
and
sand
coating
cta­
1
cta
1
bhi­
1
False
No
7
roll
crusher
cr­
1
cr
1
fe­
3
False
No
7
sawdust
clay
feeder
mh­
1
mh
1
fe­
2
False
No
7
covered
stock
pile
ru­
1
ru
1
fe­
1
False
No
7
holding
room
misc­
2
predryer
1
us­
1
False
No
7
holding
room
misc­
1
predryer
1
fe­
7
False
No
7
dryer
dc­
5
dc
1
us­
6
False
No
7
dryer
dc­
6
dc
1
us­
7
False
No
7
tunnel
kiln
tk­
2
tk
1
us­
9
False
No
7
tunnel
kiln
tk­
1
tk
1
us­
8
False
No
8
storage
tank
st­
1
s
1
bh­
1
False
No
8
tunnel
kiln­
idle
tk­
2
tk­
idle
1
us­
4
False
No
8
dryer
dc­
2
dc
1
us­
2
False
No
8
grinders
g­
1
to
g­
2
g
2
bh­
1,
bh­
2
False
No
8
clay
storage
ru­
1
ru
1
fe­
3
False
No
8
cutting/
setting
misc­
1
misc
1
fe­
5
False
No
8
color
and
texture
cta­
1
cta
1
fe­
4
False
No
8
clay
storage
st­
1
s
1
bh­
1
False
No
8
crushing
cr­
1
cr
1
fe­
2
False
No
8
stock
piling
ru­
1
ru
1
fe­
1
False
No
8
tunnel
kiln
tk­
1
tk
1
us­
3
False
No
8
screens
s­
1
to
s­
6
s
6
bh­
2
False
No
8
pre­
dryer
dc­
1
dc
1
us­
1
False
No
8
sand
dryer
dr­
1
dr­
sand
1
bhi­
1
False
No
8
hand­
pressed
shapes
fw­
3
molding
1
bh­
5
False
No
8
brick
tray
loading/
unloading/
setting
misc­
2
misc
1
bh­
4
False
No
8
extruding
fw­
1
extruder
1
bh­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
174
8
pug
mills
mw­
1
to
mw­
3
mw
3
bh­
1,
bh­
3,
bh­

4
False
No
8
sand
mold
machine
fw­
2
molding
1
bh­
4
False
No
8
additive
feeders
mh­
1
mh
1
bh­
1
False
No
9
crusher
cr­
1
cr
1
fe­
1
False
No
9
tunnel
kiln
tk­
1
tk
1
da­
1
True
No
9
tunnel
kiln
tk­
2
tk
1
da­
1
True
No
9
screens
s­
1
to
s­
2
s
2
fe­
3
False
No
9
extruder
fw­
1
extruder
1
fe­
6
False
No
9
dryer
DC­
1
dc
1
US­
3
False
No
9
dryer
dc­
2
dc
1
us­
4
False
No
9
color
application
cta­
1
cta
1
fe­
7
False
No
9
storage
mh­
1
mh
1
fe­
4
False
No
9
mixer
mw­
1
mw
1
fe­
5
False
No
9
grinder
g­
1
g
1
fe­
2
False
No
10
cutting
misc­
1
misc
1
fe­
8
False
No
10
screening
s­
1
s
1
fe­
3
False
No
10
wet
mixing
mw­
1
mw
1
fe­
5
False
No
10
storage
ru­
1
ru
1
fe­
4
False
No
10
grinding
g­
1
g
1
fe­
2
False
No
10
crushing
cr­
1
cr
1
fe­
1
False
No
10
dryer
dc­
2
dc
1
us­
3
to
us­
4
False
No
10
extruding
fw­
1
extruder
1
fe­
6
False
No
10
dryer
dc­
1
dc
1
us­
1
to
us­
2
False
No
10
tunnel
kiln
tk­
1
tk
1
us­
5
False
No
10
tunnel
kiln
tk­
2
tk
1
us­
6
False
No
10
coloring
and
texturing
cta­
1
cta
1
fe­
7
False
No
11
grinding
g­
1
g
1
fe­
4
False
No
11
setting
misc­
1
misc
1
fe­
10
False
No
11
coloring/
texturing
cta­
1
cta
1
fe­
9
False
No
11
extruding
fw­
1
extruder
1
fe­
8
False
No
11
mixing
mw­
1
mw
1
fe­
7
False
No
11
ground
material
storage
ru­
3
ru
1
fe­
6
False
No
11
screening
s­
1
s
1
fe­
5
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
175
11
tunnel
dryer
dc­
1
dc
1
us­
1
False
No
11
raw
material
storage
ru­
2
ru
1
fe­
3
False
No
11
crushing
cr­
1
cr
1
fe­
2
False
No
11
stock
pile
ru­
1
ru
1
fe­
1
False
No
11
sand
mixer
md­
1
md
1
us­
4
False
No
11
tunnel
kiln
tk­
1
tk
1
us­
3
True
No
11
preheater
misc­
2
predryer
1
us­
2
False
No
12
add/
coating
storage
ru­
3
ru
1
fe­
20
False
No
12
grog
crusher
cr­
2
grog
cr
1
fe­
17
False
No
12
holding
room
misc­
6
predryer
1
us­
2
to
us­
5
False
No
12
dryer
dc­
1
dc
1
us­
6,
us­
7
False
No
12
tunnel
kiln
tk­
1
tk
1
us­
8
False
No
12
tunnel
kiln
tk­
2
tk
1
us­
9
False
No
12
dryer
dc­
2
dc
1
us­
6,
us­
7
False
No
12
dryer
dc­
3
dc
1
us­
6,
us­
7
False
No
12
dryer
dc­
4
dc
1
us­
6,
us­
7
False
No
12
clay
unloading
ru­
1
ru
1
fe­
1
False
No
12
crushing
cr­
1
cr
1
fe­
2
False
No
12
covered
stack
piles
ru­
2
ru
1
fe­
3
False
No
12
raw
material
feeder
mh­
1
mh
1
fe­
4
False
No
12
disintegrating
g­
1
g
1
fe­
5
False
No
12
off
spec.
brick
storage
ru­
5
ru
1
fe­
15
False
No
12
sand
storage
ru­
4
ru
1
fe­
22
False
No
12
hoppers
mh­
3
mh
1
fe­
21
False
No
12
sawdust
unload
ru­
6
ru
1
fe­
19
False
No
12
grog
screen
misc­
1
misc
1
fe­
18
False
No
12
sand
dryer
dr­
1
dr­
sand
1
us­
1
False
No
12
apron
feeder
mh­
4
mh
1
fe­
16
False
No
12
cutting/
setting
misc­
5
misc
1
fe­
13
False
No
12
smooth
rolling
misc­
3
misc
1
fe­
6
False
No
12
disintegrating
g­
2
g
1
fe­
7
False
No
12
additives
feeder
mh­
2
mh
1
fe­
8
False
No
12
wet
mixer
mw­
1
mw
1
fe­
9
False
No
12
wet
mixer
mw­
2
mw
1
fe­
10
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
176
12
extruder
fw­
1
extruder
1
fe­
11
False
No
12
color/
texturing
cta­
1
cta
1
fe­
12
False
No
13
texturing/
coloring
cta­
1
cta
1
fe­
44
False
No
13
weigh
feeders
mh­
1
to
mh­
14
mh
15
fe­
13
to
fe­
26
False
No
13
screens
s­
1
to
s­
6
s
6
fe­
31
to
fe­
36
False
No
13
tunnel
kiln
tk­
1
tk
1
da­
1
True
No
13
storage
bins
ru­
14
to
ru­
20
ru
7
fe­
50
to
fe­
56
False
No
13
grog
crusher
cr­
5
grog
cr
1
fe­
49
False
No
13
brick
batts
mh­
17
mh
1
fe­
48
False
No
13
holding
room
misc­
3
predryer
1
fe­
47
False
No
13
sand
mixing
md­
1
md
1
fe­
46
False
No
13
cutting/
setting
misc­
2
misc
1
fe­
45
False
No
13
front
end
loader
misc­
1
misc
1
fe­
12
False
No
13
extruding
fw­
1
extruder
1
fe­
43
False
No
13
pug
mill
mw­
1
mw
1
fe­
42
False
No
13
additive
feeder
cta­
1
cta
1
fe­
41
False
No
13
ground
stroage
bins
ru­
10
to
ru­
13
ru
4
fe­
37
to
fe­
40
False
No
13
crusher
cr­
1
to
cr­
2
cr
2
fe­
1
to
fe­
2
False
No
13
Hammer
Mills
g­
1,
g­
2
g
2
fe­
29
to
fe­
30
False
No
13
suge
bins
mh­
15
to
mh­
16
mh
2
fe­
27
to
fe­
28
False
No
13
Tunnel
Dryer
dc­
4
dc
1
us­
4
False
No
13
raw
material
storage
ru­
1
to
ru­
9
ru
9
fe­
3
to
fe­
11
False
No
13
Tunnel
dryer
dc­
1
dc
1
us­
1
False
No
13
Sand
dryer
dr­
1
dr­
sand
1
us­
5
False
No
13
Tunnel
Dryer
dc­
2
dc
1
us­
2
True
No
13
Tunnel
Dryer
dc­
3
dc
1
us­
3
False
No
13
tunnel
kiln
tk­
2
tk
1
da­
1
True
No
14
mixer
mw­
1
mw
1
fe­
4
False
No
14
dryer
dc­
1
dc
1
us­
1
False
No
14
crusher
cr­
1
cr
1
fe­
1
False
No
14
grinding
room
gs­
1
gs
1
fe­
2
False
No
14
tunnel
kiln
tk­
1
tk
1
us­
2
False
No
14
color
application
cta­
1
cta
1
fe­
6
False
No
14
extruder
fw­
1
extruder
1
fe­
5
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
177
14
storage
mh­
1
mh
1
fe­
3
False
No
15
dryer
dc­
1
dc
1
us­
1
False
No
15
tunnel
kiln
tk­
1
tk
1
us­
2
False
No
15
crusher
cr­
1
cr
1
fe­
1
False
No
15
grinder
g­
1
g
1
fe­
2
False
No
15
screen
s­
1
s
1
fe­
3
False
No
15
storage
mh­
1
mh
1
fe­
4
False
No
15
mixer
mw­
1
mw
1
fe­
5
False
No
15
extruder
fw­
1
extruder
1
fe­
6
False
No
15
color
application
cta­
1
cta
1
fe­
7
False
No
16
tunnel
kiln
tk­
1
tk
1
us­
3
True
No
16
hammermill
g­
1
g
1
fe­
1
False
No
16
extruder
fw­
1
extruder
1
fe­
3
False
No
16
mixer
mw­
1
mw
1
fe­
2
False
No
16
coating
application
cta­
1
cta
1
bh­
1
False
No
16
holding
room
misc­
1
predryer
1
us­
4
False
No
16
dryer
dc­
1
dc
1
us­
1
to
us­
2
False
No
17
tunnel
kiln
tk­
1
tk
1
us­
3
True
No
17
crusher
cr­
1
cr
1
fe­
1
False
No
17
hammermill
g­
1
g
1
bh­
1
False
No
17
mixer
mw­
1
mw
1
fe­
2
False
No
17
extruder
fw­
1
extruder
1
fe­
3
False
No
17
coating
applicator
cta­
1
cta
1
bh­
2
False
No
17
holding
room
misc­
1
predryer
1
us­
1
False
No
17
dryer
dc­
1
dc
1
us­
2
False
No
18
dryer
dc­
1
dc
1
us­
2
False
No
18
dryer
dc­
2
dc
1
us­
3
False
No
18
extruder
fw­
1
extruder
1
fe­
3
False
No
18
mixer
mw­
1
mw
1
fe­
2
False
No
18
kiln
tk­
1
tk
1
us­
1
False
No
18
screen
s­
1
s
1
bh­
1
False
No
18
storage
mh­
1
mh
1
fe­
1
False
No
18
grinding
g­
1
g
1
bh­
1
False
No
19
dryer
dc­
2
dc
1
us­
2
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
178
19
cutter/
setting
misc­
1
misc
1
fe­
10
False
No
19
color/
texture
applicator
cta­
1
cta
1
bh­
1
to
bh­
3
False
No
19
dryer
dc­
4
dc
1
us­
4
False
No
19
mixer
mw­
1
mw
1
fe­
8
False
No
19
storage
mh­
1
to
mh­
8
mh
8
fe­
6
to
fe­
7
False
No
19
extruder
fw­
1
extruder
1
fe­
9
False
No
19
grinding
g­
1
to
g­
2
g
2
fe­
2
to
fe­
5
False
No
19
crushing
cr­
1
cr
1
fe­
1
False
No
19
screens
s­
1
to
s­
5
s
5
fe­
2
to
fe­
5
False
No
19
dryer
dc­
3
dc
1
us­
3
False
No
19
brick
kiln
tk­
4
tk
1
us­
8
False
No
19
dryer
dc­
1
dc
1
us­
1
False
No
19
brick
kiln
tk­
2
tk
1
us­
6
False
No
19
brick
kiln
tk­
1
tk
1
us­
5
False
No
19
brick
kiln
tk­
3
tk
1
us­
7
False
No
20
grinders
g­
1
to
g­
2
g
2
bh­
1
to
bh­
2
False
No
20
raw
material
storage
piles
os­
1
misc
1
ws­
1
False
No
20
raw
clay
feed
bins
ru­
1
to
ru­
3
ru
3
fe­
4
to
fe­
6
False
No
20
brick
machine­­
extruder
fw­
1
to
fw­
2
extruder
2
fe­
7,
fe­
8
False
No
20
brick
cutting
misc­
1,
misc­
2
misc
2
fe­
1,
fe­
2
False
No
20
brick
machine­­
extruder
fw­
3
extruder
1
fe­
9
False
No
20
tunnel
kiln
dryer
dc­
1
dc
1
us­
3
to
us­
5
False
No
20
roller
kiln
tk­
2
tk
1
us­
7
to
us­
9
False
No
20
screen
s­
3
s
1
bh­
3
False
No
20
holding
room
misc­
4
predryer
1
us­
6
False
No
20
grinder
g­
3
g
1
bh­
3
False
No
20
ground
clay
storage
bins
mh­
1
to
mh­
2
mh
2
bh­
1
to
bh­
2
False
No
20
brick
machine­­
mixer
mw­
3
mw
1
bh­
3
False
No
20
ground
clay
storage
bins
mh­
3
mh
1
bh­
3
False
No
20
brick
machine
mixer
mw­
1
to
mw­
2
mw
2
bh­
4
False
No
20
screens
s­
1
to
s­
2
s
2
bh­
1
to
bh­
2
False
No
20
tunnel
kiln
tk­
1
tk
1
us­
1,
us­
2
False
No
20
roller
kiln
dryer
dc­
2
dc
1
us­
11
to
us­
18
False
No
20
brick
cutting
misc­
5
misc
1
fe­
3
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
179
21
forming
fw­
1
extruder
1
fe­
6
False
No
21
screen
s­
1
s
1
fe­
1
False
No
21
periodic
kiln
pk­
1
pk
1
us­
1
False
No
21
periodic
kiln
pk­
2
pk
1
us­
2
False
No
21
periodic
kiln
pk­
3
pk
1
us­
3
False
No
21
periodic
kiln
pk­
4
pk
1
us­
4
False
No
21
periodic
kiln
pk­
5
pk
1
us­
5
False
No
21
periodic
kiln
pk­
6
pk
1
us­
6
False
No
21
drying
room
misc­
1
to
misc­
4
predryer
4
fe­
2
False
No
21
mixer
md­
1
md
1
fe­
3
False
No
21
press
fd­
1
fd
1
fe­
4
False
No
21
grinder
g­
2
g
1
fe­
1
False
No
21
screen
s­
2
s
1
fe­
1
False
No
21
mixer
mw­
1
mw
1
fe­
5
False
No
21
grinding
g­
1
g
1
fe­
1
False
No
22
pug
mill
mw­
1
mw
1
bh­
1
False
No
22
crusher
cr­
1
cr
1
fe­
1
False
No
22
storage
mh­
1
mh
1
fe­
2
False
No
22
grinder
g­
1
g
1
bh­
1
False
No
22
screen
s­
1
s
1
bh­
1
False
No
22
silos
mh­
2
to
mh­
4
mh
3
bh­
1
False
No
22
storage
tank
st­
1
s
1
fe­
3
False
No
22
extrusion
fw­
1
extruder
1
fe­
5
False
No
22
spray
booth
cta­
1
cta
1
fe­
4
False
No
22
dryer
dc­
1
dc
1
us­
3
False
No
22
dryer
dc­
2
dc
1
us­
4
False
No
22
kiln
tk­
1
tk
1
us­
1
False
No
22
kiln
tk­
2
tk
1
us­
2
False
No
23
grinding
g­
1
g
1
fe­
2
False
No
23
screening
s­
1
s
1
fe­
2
False
No
23
sand
coating
tile
cta­
1
cta
1
bh­
1
False
No
23
sand
coating
brick
cta­
2
cta
1
bh­
2
False
No
23
tunnel
kiln
2­
1
tk­
1
tk
1
us­
1
False
No
23
tunnel
kiln
2­
2
tk­
2
tk
1
us­
2
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
180
23
tunnel
kiln
3
tk­
3
tk
1
us­
3
True
No
23
grinding
g­
3
g
1
fe­
5
False
No
23
screening
s­
2
s
1
fe­
6
False
No
23
periodic
kiln­
idle
pk­
1
pk
1
us­
4
False
No
23
grog
crusher
cr­
1
grog
cr
1
fe­
7
False
No
23
grog
crusher
generator
misc
misc
1
fe­
8
False
No
23
glazing
line
gz­
1
gz
1
bh­
3
False
No
23
roller
hearth
kiln
(
glaze
set
kiln)
misc­
1
glaze
set
kiln
1
us­
12
False
No
23
storage/
handling
mh­
1
mh
1
fe­
1
False
No
23
storage
mh­
2
mh
1
fe­
4
False
No
23
storage
mh­
3
mh
1
fe­
9
False
No
23
dryers
dc­
1
dc
1
us­
13
False
No
23
dryer
dc­
2
dc
1
us­
15
False
No
23
dryer
dc­
3
dc
1
us­
14
False
No
23
periodic
kiln­
idle
pk­
2
pk
1
us­
4
False
No
23
periodic
kiln­
idle
pk­
3
pk
1
us­
5
False
No
23
periodic
kiln­
idle
pk­
4
pk
1
us­
6
False
No
23
periodic
kiln­
idle
pk­
5
pk
1
us­
7
False
No
23
periodic
kiln­
idle
pk­
6
pk
1
us­
8
False
No
23
periodic
kiln­
idle
pk­
7
pk
1
us­
9
False
No
23
periodic
kiln­
idle
pk­
8
pk
1
us­
10
False
No
23
periodic
kiln­
idle
pk­
9
pk
1
us­
11
False
No
24
disc
mill
g­
2
g
1
bh­
1
False
No
24
grinding
g­
1
g
1
fe­
3
False
No
24
tunnel
kiln
tk­
1
tk
1
us­
2
False
No
24
tunnel
dryer
dc­
1
dc
1
us­
1
False
No
24
screen
s­
3
s
1
bh­
1
False
No
24
tunnel
dryer
dc­
2
dc
1
us­
3
False
No
24
tunnel
kiln
tk­
2
tk
1
us­
4
False
No
24
crusher
cr­
1
cr
1
fe­
1
False
No
24
storage
mh­
1
­
mh­
5
mh
5
fe­
2,
fe­
5,
fe­
8
False
No
24
hammer
mill
g­
3
g
1
bh­
1
False
No
24
screen
s­
1,
s­
2
s
2
fe­
4
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
181
24
mixing
mw­
1,
mw­
2
mw
2
fe­
6,
fe­
9
False
No
24
extruders
fw­
1,
fw­
2
extruder
2
fe­
7,
fe­
10
False
No
25
dryer
dc­
2
dc
1
us­
2
False
No
25
dryer
dc­
3
dc
1
us­
3
False
No
25
dryer
dc­
4
dc
1
us­
4
False
No
25
dryer
dc­
1
dc
1
us­
1
False
No
25
dryer
dc­
5
dc
1
us­
5
False
No
25
kiln
tk­
1
tk
1
us­
10
False
No
25
kiln
tk­
2
tk
1
us­
9
False
No
25
kiln
tk­
3
tk
1
us­
8
False
No
25
kiln
tk­
4
tk
1
us­
7
False
No
25
kiln
tk­
5
tk
1
us­
6
False
No
25
crusher
cr­
1
cr
1
fe­
1
False
No
25
storage
mh­
1
mh
1
fe­
2
False
No
25
grinding
g­
1
g
1
fe­
3
False
No
25
screening
s­
1
s
1
fe­
4
False
No
25
storage
mh­
2
mh
1
fe­
5
False
No
25
storage
mh­
3
mh
1
fe­
6
False
No
25
mixing
mw­
1
mw
1
fe­
9
False
No
25
extruder
fw­
1
extruder
1
fe­
10
False
No
25
color/
texture
cta­
1
cta
1
fe­
11
False
No
25
rotary
dryer
dr­
1
dr­
sand
1
sc­
1,
us­
11
False
No
25
mixer
mw­
2
mw
1
fe­
12
False
No
25
mixer
md­
1
md
1
fe­
8
False
No
25
grinder
g­
2
g
1
fe­
13
False
No
26
color/
texture
cta­
1
cta
1
bh­
1
False
No
26
grinding/
screening
gs­
1
gs
1
fe­
2
False
No
26
storage
mh­
2
mh
1
fe­
3
False
No
26
storage
mh­
3
mh
1
fe­
4
False
No
26
mixing
mw­
1
mw
1
fe­
5
False
No
26
mixing
md­
1
md
1
bhi­
1
False
No
26
forming
fw­
1
extruder
1
fe­
6
False
No
26
storage
mh­
1
mh
1
fe­
1
False
No
26
color/
texture
cta­
2
cta
1
fe­
7
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
182
26
rotary
dryer
dr­
1
dr­
sand
1
us­
3
False
No
26
hammermill
g­
2
g
1
fe­
8
False
No
26
dryer
dc­
1
dc
1
us­
1
False
No
26
kiln
tk­
1
tk
1
us­
2
False
No
26
screens
s­
1
s
7
fe­
2
False
No
27
storage
mh­
1
mh
1
fe­
1
False
No
27
grinders/
screen
gs­
1
gs
1
fe­
2
False
No
27
pug
mill
mw­
1
mw
1
fe­
4
False
No
27
brick
machine
fw­
1
extruder
1
fe­
5
False
No
27
color
application
cta­
1
cta
1
bh­
1
False
No
27
color
application
cta­
2
cta
1
fe­
6
False
No
27
mixer
md­
1
md
1
bh­
1
False
No
27
dryer
dc­
1
dc
1
us­
1
False
No
27
kiln
tk­
1
tk
1
us­
2
False
No
27
storage
mh­
2
mh
1
fe­
3
False
No
28
storage
mh­
1
mh
1
fe­
2
False
No
28
grinder/
screen
gs­
1
gs
1
fe­
3
False
No
28
mixer
mw­
1
mw
1
fe­
4
False
No
28
brick
machine
fw­
1
extruder
1
fe­
6
False
No
28
crusher
cr­
1
cr
1
fe­
1
False
No
28
mixer
md­
1
md
1
fe­
5
False
No
28
sand
blaster
cta­
2
cta
1
bh­
1
False
No
28
color
application
cta­
1
cta
1
fe­
7
False
No
28
kiln
tk­
1
tk
1
us­
1
False
No
28
dryer
dc­
1
dc
1
us­
2
False
No
29
extruder
fw­
1
extruder
1
fe­
3
False
No
29
kiln
tk­
1
tk
1
us­
1
False
No
29
dryer
dc­
1
dc
1
us­
2
False
No
29
crusher
cr­
1
cr
1
fe­
1
False
No
29
grinder/
screen
gs­
1
gs
1
fe­
1
False
No
29
color
application
cta­
1
cta
1
fe­
1
False
No
29
mixer
md­
1
md
1
fe­
1
False
No
29
mixer
mw­
1
mw
1
fe­
2
False
No
30
color
application
cta­
1
cta
1
bh­
1
False
Yes
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
183
30
extruder
fw­
1
extruder
1
fe­
5
False
No
30
sand
colorant
mixer
md­
1
md
1
bh­
1
False
No
30
screen
s­
1
s
1
fe­
2
False
No
30
mixer
mw­
1
mw
1
fe­
4
False
No
30
dryer
dc­
2
dc
1
us­
4
False
No
30
dryer
dc­
1
dc
1
us­
3
False
No
30
grind/
screen
gs­
1
gs
1
bh­
1
False
No
30
conveyor
mh­
1
mh
1
fe­
3
False
No
30
crusher
cr­
2
cr
1
bh­
1
False
No
30
kiln
tk­
2
tk
1
us­
2
False
No
30
crusher
cr­
1
cr
1
fe­
1
False
No
30
kiln
tk­
1
tk
1
us­
1
False
No
31
dryer
dc­
6
dc
1
us­
8
False
No
31
dryer
dc­
5
dc
1
us­
7
False
No
31
dryer
dc­
7
dc
1
us­
9
False
No
31
slurry
applicator
cta­
5
to
cta­
6
cta
2
fe­
32
to
fe­
33
False
No
31
grind/
screen
gs­
3
gs
1
fe­
29
False
No
31
dryer
dc­
8
dc
1
us­
10
False
No
31
blending
md­
2
md
1
fe­
28
False
No
31
storage
mh­
6
to
mh­
7
mh
2
fe­
26
to
fe­
27
False
No
31
sand
applicator
cta­
7
to
cta­
8
cta
2
fe­
34
to
fe­
35
False
No
31
silo
ru­
1
ru
1
fe­
30
False
No
31
mixer
mw­
3
to
mw­
4
mw
2
fe­
36
to
fe­
37
False
No
31
mixer
md­
3
md
1
fe­
40
False
No
31
crusher
cr­
3
cr
1
fe­
25
False
No
31
hopper
mh­
8
mh
1
fe­
31
False
No
31
tunnel
kiln
tk­
4
tk
1
da­
1
True
No
31
tunnel
kiln
tk­
3
tk
1
da­
1
False
No
31
extruder
fw­
3
to
fw­
4
extruder
2
fe­
38
to
fe­
39
False
No
31
dryer
dc­
1
dc
1
us­
1
False
No
31
hoppers
mh­
4
to
mh­
5
mh
2
fe­
9
to
fe­
10
False
No
31
tunnel
kiln
tk­
1
tk
1
us­
5
True
No
31
extruder
fw­
1
to
fw­
2
extruder
2
fe­
23
to
fe­
24
False
No
31
mixer
mw­
1
to
mw­
2
mw
2
fe­
21
to
fe­
22
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
184
31
crusher
cr­
1
to
cr­
2
cr
2
fe­
1
to
fe­
2
False
No
31
storage
mh­
1
to
mh­
2
mh
2
fe­
3
to
fe­
4
False
No
31
blending
md­
1
md
1
fe­
5
False
No
31
grinding/
screening
gs­
1
to
gs­
2
gs
2
fe­
6
to
fe­
7
False
No
31
storage
mh­
3
mh
1
fe­
8
False
No
31
dryer
dc­
4
dc
1
us­
4
False
No
31
slurry
applictor
cta­
1
to
cta­
2
cta
2
fe­
11
to
fe­
12
False
No
31
sand
applicator
cta­
3
to
cta­
4
cta
2
fe­
13
to
fe­
14
False
No
31
predryers
misc­
1
to
misc­
6
predryer
6
fe­
15
to
fe­
20
False
No
31
dryer
dc­
3
dc
1
us­
3
False
No
31
dryer
dc­
2
dc
1
us­
2
False
No
31
tunnel
kiln
tk­
2
tk
1
us­
6
False
No
32
crusher
cr­
1
cr
1
fe­
3
False
No
32
storage
mh­
3
mh
1
fe­
4
False
No
32
storage
mh­
4,
mh­
5
mh
2
fe­
6,
fe­
7
False
No
32
hopper
mh­
1,
mh­
2
mh
2
fe­
1,
fe­
2
False
No
32
brick
machine
fw­
1,
fw­
2
extruder
2
fe­
31,
fe­
32
False
No
32
grinding/
screening
gs­
1
gs
1
fe­
5
False
No
32
texturing
cta­
3,
cta­
4
cta
2
fe­
11
to
fe­
12
False
No
32
dryer
dc­
1
dc
1
us­
1
False
No
32
dryer
dc­
2
dc
1
us­
2
False
No
32
dryer
dc­
3
dc
1
us­
3
False
No
32
dryer
dc­
4
dc
1
us­
4
False
No
32
dryer
dc­
5
dc
1
us­
5
False
No
32
dryer
dc­
6
dc
1
us­
6
False
No
32
dryer
dc­
7
dc
1
us­
7
False
No
32
dryer
dc­
8
dc
1
us­
8
False
No
32
predryer
misc­
1
to
misc­
16
predryer
16
fe­
15
to
fe­
30
False
No
32
texturing
cta­
5,
cta­
6
cta
2
fe­
13,
fe­
14
False
No
32
hopper
mh­
6,
mh­
7
mh
2
fe­
8,
fe­
9
False
No
32
hopper
mh­
8
mh
1
fe­
10
False
No
32
tunnel
kiln
tk­
3
tk
1
us­
11
True
No
32
tunnel
kiln
tk­
1
tk
1
us­
9
True
No
32
tunnel
kiln
tk­
2
tk
1
us­
10
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
185
33
periodic
kiln
pk­
4
pk
1
us­
2
False
No
33
periodic
kiln
pk­
5
pk
1
us­
3
False
No
33
periodic
kiln
pk­
1
pk
1
us­
1
False
No
33
extrusion
machine
fw­
1
extruder
1
fe­
3
False
No
33
periodic
kiln
pk­
7
pk
1
us­
4
False
No
33
periodic
kiln
pk­
6
pk
1
us­
3
False
No
33
periodic
kiln
pk­
2
pk
1
us­
1
False
No
33
periodic
kiln
pk­
8
pk
1
us­
4
False
No
33
storage
mh­
1
mh
1
fe­
1
False
No
33
coal
store
mh­
1
mh
1
fe­
5
False
No
33
periodic
kiln
pk­
11
pk
1
us­
6
False
No
33
periodic
kiln
pk­
10
pk
1
us­
5
False
No
33
periodic
kiln
pk­
9
pk
1
us­
5
False
No
33
dryer
dc­
1
dc
1
fe­
4,
us­
7
False
No
33
grinder
gs­
1
gs
1
fe­
2
False
No
33
periodic
kiln
pk­
3
pk
1
us­
2
False
No
34
kiln
tk­
2
tk
1
us­
7,
us­
8
False
No
34
extruder
fw­
1
extruder
1
fe­
5
False
No
34
mixer
mw­
1
mw
1
fe­
4
False
No
34
grinder/
screen
gs­
1
gs
1
fe­
2
False
No
34
crusher
cr­
1
cr
1
fe­
1
False
No
34
color
application
cta­
1
cta
1
fe­
6
False
No
34
kiln
tk­
1
tk
1
us­
5,
us­
6
False
No
34
dryer
dc­
3
dc
1
us­
3,
us­
4
False
No
34
dryer
dc­
2
dc
1
us­
2
False
No
34
dryer
dc­
1
dc
1
us­
1
False
No
34
storage
mh­
1
mh
1
fe­
3
False
No
35
mixer
mw­
1
mw
1
fe­
8
False
No
35
extruder
fw­
1
extruder
1
fe­
9
False
No
35
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
35
tunnel
kiln
tk­
2
tk
1
us­
2
False
No
35
dryer
dc­
1
dc
1
us­
3
False
No
35
dryer
dc­
2
dc
1
us­
4
False
No
35
testing
cta­
1
cta
1
fe­
4
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
186
35
sand
mixer
md­
1
md
1
fe­
5
False
No
35
crusher
cr­
2
cr
1
fe­
6
False
No
35
crusher
cr­
1
cr
1
fe­
1
False
No
35
screens
s­
1
to
s­
3
s
3
fe­
2
False
No
35
storage
mh­
1
to
mh­
3
mh
3
fe­
3
False
No
35
grinder
g­
1
g
1
fe­
7
False
No
36
tunnel
kiln
tk­
1
tk
1
us­
5
False
No
36
dryer
dc­
1
dc
1
us­
1
False
No
36
dryer
dc­
2
dc
1
us­
2
False
No
36
dryer
dc­
4
dc
1
us­
4
False
No
36
crusher
cr­
1
cr
1
fe­
1
False
No
36
grinder
g­
1
g
1
fe­
2
False
No
36
screen
s­
1
to
s­
3
s
3
fe­
3
False
No
36
storage
mh­
1
mh
1
fe­
4
False
No
36
texturing
cta­
1
cta
1
fe­
5
False
No
36
mixer
mw­
1
mw
1
fe­
6
False
No
36
extruder
fw­
1
extruder
1
fe­
7
False
No
36
dryer
dc­
3
dc
1
us­
3
False
No
37
tunnel
kiln
tk­
1
tk
1
us­
2
False
No
37
dryer
dc­
1
dc
1
us­
1
False
No
37
mining
mn­
1
misc
1
fe­
1
False
No
37
grinding
g­
1
g
1
fe­
2
False
No
37
screening
s­
1
to
s­
4
s
4
fe­
2
False
No
37
storage
mh­
1
to
mh­
4
mh
4
fe­
3
False
No
37
mixing
mw­
1
mw
1
fe­
2
False
No
37
extruding
fw­
1
extruder
1
fe­
5
False
No
38
periodic
kiln­
idle
pk­
3
pk
1
us­
4
False
No
38
color
application
cta­
1
cta
1
fe­
5
False
No
38
forming
fw­
1
extruder
1
fe­
4
False
No
38
dryer
DP­
4
dp
1
US­
1
False
No
38
dryers
dp­
1
dp
1
us­
1
False
No
38
dryer
DP­
3
dp
1
US­
1
False
No
38
periodic
kiln
pk­
1
pk
1
us­
2
False
No
38
storage
mh­
1
mh
1
fe­
2
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
187
38
mixing
mw­
1
mw
1
fe­
3
False
No
38
dryer
DP­
2
dp
1
US­
1
False
No
38
grinder/
screen
gs­
1
gs
1
fe­
1
False
No
38
periodic
kiln
pk­
2
pk
1
us­
3
False
No
39
tunnel
kiln
tk­
1
tk
1
us­
3
False
No
39
grinder/
screen
g­
1,
s­
1,
s­
2
g
3
fe­
1
False
No
39
pugmill
mw­
1
mw
1
fe­
2
False
No
39
coloring
and
texturing
cta­
1
cta
1
fe­
4
False
No
39
brick
dryer
dc­
1
dc
1
us­
1,
us­
2
False
No
39
crushing
cr­
1
cr
1
fe­
1
False
No
39
extruder
fw­
1
extruder
1
fe­
3
False
No
39
storage
mh­
1
to
mh­
4
mh
4
fe­
1
False
No
40
storage
mh­
1
mh
1
fe­
3
False
No
40
sawdust
storage
mh­
3
mh
1
fe­
9
False
No
40
storage
os­
1
misc
1
fe­
1
False
No
40
grinding/
screening
gs­
1
gs
1
fe­
2
False
No
40
mixing
mw­
1
mw
1
fe­
4
False
No
40
extruding
fw­
1
extruder
1
fe­
5
False
No
40
dryer
dc­
1
dc
1
us­
1,
us­
2
False
No
40
tunnel
kiln
tk­
1
tk
1
us­
3
ds­
1
False
No
40
sawdust
storage
ru­
1
ru
1
fe­
6
False
No
40
sawdust
storage
mh­
2
mh
1
fe­
8
False
No
40
sawdust
dryer
ds­
1
ds
1
us­
4
False
No
40
sawdust
grinding
and
screening
misc­
2
misc
1
bh­
1
False
No
40
sawdust
screen
misc­
1
s
1
fe­
7
False
No
41
coloring/
texturing
cta­
1
cta
1
fe­
2
False
No
41
dryer
dc­
2
dc
1
us­
2
False
No
41
tunnel
kiln
tk­
1
tk
1
us­
3
False
No
41
crusher
cr­
1
cr
1
fe­
1
False
No
41
grinders
g­
1,
g­
2
g
2
fe­
1
False
No
41
screens
s­
1
to
s­
7
s
7
fe­
1
False
No
41
storage
mh­
1
to
mh­
6
mh
6
fe­
1
False
No
41
premixing
md­
1
md
1
fe­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
188
41
metering
feeder
mh­
7
mh
1
bh­
1
False
No
41
mixing
mw­
1
mw
1
bh­
1
False
No
41
batch
mixers
(
colors)
md­
2
to
md­
6
md
5
bh­
1
False
No
41
sand
transfer
system
mh­
8
mh
1
oc­
1
(
homemade
bubbler)
False
No
41
dryer
dc­
1
dc
1
us­
1
False
No
41
extruding
fw­
1
extruder
1
fe­
3
False
No
42
hammer
mill
g­
2
g
1
fe­
2
False
No
42
crusher
cr­
1
cr
1
fe­
1
False
No
42
grinder
g­
1
g
1
fe­
2
False
No
42
color/
texture
cta­
1
cta
1
bh­
1
False
No
42
screens
s­
1
to
s­
6
s
6
fe­
2
False
No
42
storage
bins
mh­
1
to
mh­
2
mh
2
fe­
3
False
No
42
brick
machine
mw­
1,
fw­
1
extruder
1
fe­
4
False
No
42
tunnel
kiln
tk­
1
tk
1
us­
2
False
No
42
tunnel
dryer
dc­
1
dc
1
us­
1
False
No
43
grinder
g­
1
g
1
fe­
4
False
No
43
dryer
dc­
1
dc
1
us­
1
False
No
43
tunnel
kiln
tk­
1
tk
1
us­
2
ds­
1
False
No
43
conveyor
belts
mh­
1
to
mh­

5,
mh­
7
mh
6
fe­
2,
fe­
5,
fe­
7
to
fe­

9,
fe­
12
False
No
43
primary
crusher
cr­
1
cr
1
fe­
1
False
No
43
scalping
screen
s­
1
s
1
fe­
3
False
No
43
extruding
fw­
1
extruder
1
fe­
15
False
No
43
finishing
screens
s­
2
s
4
fe­
6
False
No
43
hammermill
g­
2
g
1
fe­
10
False
No
43
storage
mh­
6
mh
1
fe­
11
False
No
43
mixing
mw­
1
to
mw­
2
mw
2
fe­
13
to
fe­
14
False
No
43
sawdust
dryer
ds­
1
ds
1
us­
3
False
No
43
sand
blasting/
coloring,

texturing
cta­
1
cta
1
bh­
1
False
No
43
green
storage
misc­
1
misc
1
fe­
16
False
No
43
sand
dryer
dr­
1
dr­
sand
1
us­
4
False
No
43
sand
hammermill
g­
3
g
1
fe­
17
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
189
44
storage
ru­
2
ru
1
us­
4
False
No
44
raw
material
storage
ru­
1
ru
1
fe­
1
False
No
44
grinding
g­
1
g
1
us­
3
False
No
44
screening
s­
1
s
1
us­
3
False
No
44
color/
texture
application
cta­
1
cta
1
fe­
4
False
No
44
pugmill
mw­
1
mw
1
fe­
2
False
No
44
dryer
dc­
1
dc
1
us­
1
False
No
44
tunnel
kiln
tk­
1
tk
1
us­
2
False
No
44
cutting
misc­
1
misc
1
fe­
5
False
No
44
extruder
fw­
1
extruder
1
fe­
3
False
No
45
storage
mh­
1
mh
1
fe­
2
False
No
45
mixer
mw­
1
mw
1
fe­
3
False
No
45
screens
s­
1
to
s­
2
s
2
bh­
1
False
No
45
tunnel
kiln
tk­
1
tk
1
us­
2
False
No
45
engobe,
clay
sand
spray
machines
cta­
1
cta
1
bhi­
1
False
No
45
grinder
g­
1
g
1
bh­
1
False
No
45
extruding
fw­
1
extruder
1
fe­
4
False
No
45
crushing
cr­
1
cr
1
fe­
1
False
No
45
dryer
dc­
1
dc
1
us­
1
False
No
45
tunnel
kiln
tk­
2
tk
1
us­
3
False
No
46
rotary
dryer
dr­
1
dr­
sand
1
us­
5
False
No
46
brick
dryer
dc­
1
dc
1
us­
2
False
No
46
brick
dryer
dc­
2
dc
1
us­
3
False
No
46
brick
dryer
dc­
3
dc
1
us­
4
False
No
46
screening
s­
5
to
s­
6
s
2
fe­
14
to
fe­
15
False
No
46
tunnel
kiln
tk­
1
tk
1
us­
1
ds­
1
True
No
46
sawdust
dryer
w/
cyclone
ds­
1
ds
1
us­
6
True
No
46
sand
dryer
dr­
1
dr­
sand
1
fe­
16
False
No
46
coating
mixer
md­
1
md
1
fe­
17
False
No
46
crushing
cr­
1
cr
1
fe­
1
False
No
46
grinding
g­
1
g
1
fe­
2
False
No
46
screening
s­
1
to
s­
4
s
4
fe­
3
to
fe­
6
False
No
46
grinding
g­
2
g
1
fe­
7
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
190
46
storage
ru­
1
to
ru­
2
ru
2
fe­
8
False
No
46
mixer
mw­
1
to
mw­
2
mw
2
fe­
9
to
fe­
10
False
No
46
extruding
fw­
1
extruder
1
fe­
11
False
No
46
color/
texture
application
cta­
1
cta
1
fe­
12
False
No
46
cutting/
setting
misc­
1
misc
1
fe­
13
False
No
47
dryer
dc­
1
dc
1
us­
1
False
No
47
dryer
dc­
3
dc
1
us­
2
False
No
47
color/
texture
cta­
1
cta
1
fe­
5
False
No
47
crushing/
screen
gs­
1
gs
1
fe­
1
False
No
47
extruder
fw­
1
extruder
1
fe­
4
False
No
47
tunnel
kiln
tk­
3
tk
1
da­
1
False
No
47
tunnel
kiln
tk­
1
tk
1
da­
1
True
No
47
mixer
mw­
1
mw
1
fe­
3
False
No
47
storage
mh­
1
mh
1
fe­
2
False
No
48
grinder/
screen
gs­
1
gs
1
fe­
2
False
No
48
crusher
cr­
1
cr
1
fe­
1
False
No
48
dryer
dc­
1
dc
1
us­
1
False
No
48
mixer
mw­
1
mw
1
fe­
3
False
No
48
extruder
fw­
1
extruder
1
fe­
4
False
No
48
color/
texture
cta­
1
cta
1
fe­
5
False
No
48
tunnel
kiln
tk­
1
tk
1
us­
2
True
No
49
tunnel
kiln
tk­
3
tk
1
us­
5
False
No
49
tunnel
kiln
tk­
2
tk
1
us­
4
True
No
49
tunnel
kiln
tk­
1
tk
1
us­
2
True
No
49
dryer
dc­
1
dc
1
us­
1
False
No
49
dryer
dc­
2
dc
1
us­
3
False
No
49
mixing
mw­
1
mw
1
fe­
3
False
No
49
crushing
cr­
1
cr
1
fe­
1
False
No
49
grinder
g­
1
g
1
fe­
2
False
No
49
sand
dryer
dr­
1
dr­
sand
1
fe­
5
False
No
49
screens
s­
1
s
3
fe­
2
False
No
49
extruder
fw­
1
extruder
1
fe­
3
False
No
49
color
application
cta­
1
cta
1
fe­
4
False
No
50
primary
crusher
cr­
1
cr
1
fe­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
191
50
grinder
g­
1
g
1
fe­
1
False
No
50
screens
s­
1
to
s­
4
s
4
fe­
1
False
No
50
storage
bins
mh­
1
to
mh­
4
mh
4
fe­
1
False
No
50
pug
mill
mw­
1
mw
1
fe­
2
False
No
50
extruding
fw­
1
extruder
1
fe­
3
False
No
50
dryer
dc­
1
dc
1
us­
1
to
us­
2
False
No
50
tunnel
kiln
tk­
1
tk
1
us­
3
to
us­
5
False
No
51
sand
stockpile
ru­
3,
ru­
6
ru
2
fe­
8,
fe­
21
False
No
51
sand
dryer
dr­
1
dr­
sand
1
cy­
1
False
No
51
tunnel
kiln
tk­
2
tk
1
us­
9
True
No
51
stock
piles
ru­
1,
ru­
4
ru
2
fe­
1,
fe­
9
False
No
51
sand
mixing
md­
2
md
1
fe­
22
False
No
51
sand
dryer
dr­
2
dr­
sand
1
us­
10
False
No
51
cutting/
setting
misc­
7
misc
1
fe­
17
False
No
51
texturing/
coloring
cta­
2
cta
1
fe­
16
False
No
51
extruding
fw­
2
extruder
1
fe­
15
False
No
51
batch
shapes
dryer
dp­
1
dp
1
us­
5
False
No
51
loading
cars
misc­
1
misc
1
fe­
7
False
No
51
mixing
mw­
1,
mw­
2
mw
2
fe­
6,
fe­
14
False
No
51
storage
ru­
2,
ru­
5
ru
2
fe­
5,
fe­
13
False
No
51
screening
s­
1
to
s­
3
s
3
fe­
4,
fe­
12,
fe­
20
False
No
51
grinding
g­
1
to
g­
3
g
3
fe­
3,
fe­
11,
fe­
19
False
No
51
crushing
cr­
1
to
cr­
3
cr
3
fe­
2,
fe­
10,
fe­
18
False
No
51
tunnel
kiln
tk­
1
tk
1
us­
4
True
No
51
possey
machine
fw­
1
molding
1
bh­
1
False
No
51
tunnel
dryer
dc­
3
dc
1
us­
8
False
No
51
possey
machine
cta­
1
cta
1
bh­
1
False
No
51
preheater
misc­
6
predryer
1
us­
3
False
No
51
holding
room
misc­
2,
misc­
8
predryer
2
us­
1,
us­
6
False
No
51
tunnel
dryers
dc­
2
dc
1
us­
7
False
No
51
tunnel
dryer
dc­
1
dc
1
us­
2
False
No
51
hand
set
conveyor
misc­
5
misc
1
bh­
1
False
No
51
brick
rotation
conveyor
misc­
4
,
misc­
10
misc
2
bhi­
1
False
No
51
sand
mixing
md­
1
md
1
bh­
3
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
192
51
Pallet
unloader
misc­
3,
misc­
9
misc
2
bh­
1
False
No
52
storage
mh­
1
to
mh­
2
mh
2
fe­
1,
fe­
3
False
No
52
mixer
mw­
1
to
mw­
2
mw
2
fe­
4
to
fe­
5
False
No
52
coal
crusher
cc­
1
cc
1
fe­
12
False
No
52
grinder
/
screen
gs­
1
gs
1
fe­
2
False
No
52
extruder
fw­
1
to
fw­
2
extruder
2
fe­
6
to
fe­
7
False
No
52
colorer
cta­
1
to
cta­
2
cta
2
fe­
8
to
fe­
9
False
No
52
predryer
misc­
1
to
misc­
2
predryer
2
fe­
10
to
fe­
11
False
No
52
coal
storage
mh­
3
mh
1
fe­
13
False
No
52
dryer
dc­
1
dc
1
us­
1
False
No
52
dryer
dc­
2
dc
1
us­
2
False
No
52
kiln
tk­
1
tk
1
bh­
1
False
No
52
kiln
tk­
2
tk
1
bh­
2
True
No
53
mixer
mw­
1
mw
1
fe­
7
False
No
53
grinding
g­
2
g
1
fe­
4
False
No
53
crusher
cr­
1
cr
1
fe­
1
False
No
53
crusher
cr­
2
cr
1
fe­
11
False
No
53
storage
mh­
1
mh
1
fe­
2
False
No
53
storage
mh­
2
mh
1
fe­
6
False
No
53
storage
mh­
3
mh
1
fe­
14
False
No
53
grinding
g­
1
g
1
fe­
3
False
No
53
dryer
dc­
1
dc
1
us­
1
False
No
53
screen
s­
1
s
12
fe­
5
False
No
53
extruder
fw­
1
extruder
1
fe­
8
False
No
53
texturizer
cta­
1
cta
1
fe­
9
False
No
53
mixer
mw­
2
mw
1
fe­
10
False
No
53
drying
room
misc­
1
predryer
1
fe­
13
False
No
53
tunnel
kiln
tk­
1
tk
1
bh­
1
False
No
54
tunnel
kiln
tk­
1
tk
1
us­
2
False
No
54
extruder
fw­
1
to
fw­
2
extruder
2
fe­
3,
fe­
8
False
No
54
dryer
dc­
1
dc
1
us­
1
False
No
54
dryer
dc­
2
dc
1
us­
3
False
No
54
predryer
misc­
1
predryer
1
fe­
5
False
No
54
predryer
misc­
2
predryer
1
fe­
10
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
193
54
colorer
cta­
1
to
cta­
2
cta
2
fe­
4,
fe­
9
False
No
54
tunnel
kiln
tk­
2
tk
1
us­
4
False
No
54
mixer
mw­
1
to
mw­
2
mw
2
fe­
2,
fe­
7
False
No
54
storage
mh­
1,
mh­
2
mh
2
fe­
1,
fe­
6
False
No
54
coal
crusher
cc­
1
cc
1
fe­
11
False
No
54
coal
storage
mh­
3
mh
1
fe­
12
False
No
54
grinders/
screens
gs­
1
gs
1
bh­
1
False
No
55
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
55
sand
applicator
cta­
1
cta
1
bh­
2
False
No
55
tunnel
kiln
tk­
2
tk
1
us­
2
False
No
55
dryer
dc­
1
dc
1
us­
3
False
No
55
dryer
dc­
2
dc
1
us­
4
False
No
55
predryer
misc­
1
predryer
1
fe­
8
False
No
55
sand
mixer
md­
1
md
1
bh­
1
False
No
55
wet
mixer
mw­
1
mw
1
fe­
6
False
No
55
extruder
fw­
1
extruder
1
fe­
7
False
No
55
screen
s­
1
s
6
fe­
5
False
No
55
grinder
g­
1
g
1
fe­
3
False
No
55
hammer
mill
g­
2
g
1
fe­
4
False
No
55
crusher
cr­
1
cr
1
fe­
2
False
No
55
storage
mh­
1
mh
1
fe­
1
False
No
56
tunnel
kiln
no.
1
tk­
1
tk
1
us­
1
False
No
56
storage
mh­
2
mh
1
fe­
4
False
No
56
dryer
dc­
1
dc
1
us­
2
False
No
56
extruder
fw­
1
extruder
1
fe­
6
False
No
56
mixer
mw­
1
mw
1
fe­
5
False
No
56
storage
mh­
1
mh
1
fe­
1
False
No
56
grinders/
screens
gs­
1
gs
1
fe­
3
False
No
56
crusher
cr­
1
cr
1
fe­
2
False
No
56
tunnel
kiln­
idle
tk­
2
tk­
idle
1
us­
3
False
No
57
coal
crusher
cc­
1
cc
1
bh­
3
False
No
57
storage
mh­
1
to
mh­
3
mh
3
fe­
1
to
fe­
3
False
No
57
extruder
fw­
1
extruder
1
fe­
5
False
No
57
screens
(
5)
s­
1
s
5
bh­
1
True
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
194
57
sand
silo
mh­
4
mh
1
bh­
4
False
No
57
color
applier
cta­
1
cta
1
bh­
2
False
No
57
tunnel
kiln
tk­
2
tk
1
us­
4
False
No
57
extruder
fw­
2
extruder
1
fe­
6
False
No
57
grinder
g­
1
g
2
bh­
1
True
No
57
tunnel
kiln
tk­
1
tk
1
us­
3
True
No
57
color
applier
cta­
2
cta
1
bh­
2
False
No
57
dryer
dc­
2
dc
1
us­
2
False
No
57
dryer
dc­
1
dc
1
us­
1
True
No
57
mixer
mw­
1
to
mw­
2
mw
2
fe­
4
False
No
58
grinder/
screen
gs­
1
gs
1
bh­
1
False
No
58
tunnel
kiln
tk­
1
tk
1
us­
3
False
No
58
storage
mh­
1
to
mh­
2
mh
2
fe­
1
to
fe­
2
False
No
58
mixer
mw­
1
to
mw­
2
mw
2
fe­
5
to
fe­
6
False
No
58
weigher
we­
1
to
we­
2
we
2
fe­
3
to
fe­
4
False
No
58
coal
processing
cc­
1,
mh­
3
cc
2
bh­
2
False
No
58
extruder
fw­
1
to
fw­
2
extruder
2
fe­
7
to
fe­
8
False
No
58
colorizer
cta­
1to
cta­
2
cta
2
fe­
9
to
fe­
10
False
No
58
dryer
dc­
2
dc
1
us­
2
False
No
58
dryer
dc­
1
dc
1
us­
1
False
No
58
tunnel
kiln
tk­
2
tk
1
bh­
3
True
No
59
dryer
dc­
2
dc
1
us­
4
False
No
59
extruder
fw­
1
to
fw­
2
extruder
2
fe­
3
to
fe­
4
False
No
59
mixer
mw­
1
to
mw­
2
mw
2
fe­
5
to
fe­
6
False
No
59
color
application
cta­
1
to
cta­
2
cta
2
fe­
1
to
fe­
2
False
No
59
storage
mh­
1
mh
1
fe­
9
False
No
59
grinder/
screen
gs­
1
gs
1
bh­
1
False
No
59
batcher
we­
1
to
we­
2
we
2
fe­
7
to
fe­
8
False
No
59
tunnel
kiln
tk­
2
tk
1
us­
2
False
No
59
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
59
dryer
dc­
1
dc
1
us­
3
False
No
60
mud
machine
fw­
1
extruder
1
fe­
4
False
No
60
dryer
dc­
1
dc
1
us­
1
False
No
60
dryer
dc­
2
dc
1
us­
2
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
195
60
dryer
dc­
3
dc
1
us­
3
False
No
60
mixer
mw­
1
mw
1
fe­
3
False
No
60
tunnel
kiln
tk­
3
tk
1
us­
6
True
No
60
sand
mixer
md­
1
md
1
bh­
2
False
No
60
scalping
screen
s­
2
s
1
fe­
10
False
No
60
screens
s­
1
s
6
bh­
1
False
No
60
batcher
we­
1
we
1
fe­
2
False
No
60
batcher
we­
2
we
1
fe­
9
False
No
60
coal
storage
mh­
2
mh
1
bh­
3
False
No
60
storage
mh­
1
mh
1
fe­
1
False
No
60
grinder
g­
1
g
2
bh­
1
False
No
60
pre
heater
misc­
1
predryer
1
fe­
6
False
No
60
coal
crusher
cc­
1
cc
1
bh­
3
False
No
60
color
application
cta­
1
cta
1
fe­
5
False
No
60
tunnel
kiln
tk­
2
tk
1
us­
5
True
No
60
color
application
cta­
2
cta
1
bh­
2
False
No
60
tunnel
kiln
tk­
1
tk
1
us­
4
False
No
60
mixer
mw­
2
mw
1
fe­
8
False
No
60
forming
fw­
2
extruder
1
fe­
7
False
No
61
dryer
dc­
3
dc
1
us­
3
False
No
61
tunnel
kiln
tk­
1
tk
1
us­
4
False
No
61
tunnel
kiln
tk­
2
tk
1
us­
5
False
No
61
tunnel
kiln
tk­
3
tk
1
us­
6
False
No
61
dryer
dc­
1
dc
1
us­
1
False
No
61
dryer
dc­
2
dc
1
us­
2
False
No
61
grinder/
screen
gs­
1
gs
1
fe­
2
False
No
61
color
applier
cta­
1
to
cta­
2
cta
2
bh­
1
to
bh­
2
False
No
61
extruder
fw­
1
to
fw­
2
extruder
2
fe­
3
to
fe­
4
False
No
61
mixer
mw­
1
to
mw­
2
mw
2
fe­
5
to
fe­
6
False
No
61
batcher
we­
1
to
we­
2
we
2
fe­
7
to
fe­
8
False
No
61
storage
mh­
1
mh
1
fe­
1
False
No
62
tunnel
kiln
tk­
2
tk
1
us­
4
False
No
62
batcher
we­
1
to
we­
2
we
2
fe­
3,
fe­
4
False
No
62
mixer
mw­
1
to
mw­
2
mw
2
fe­
5,
fe­
6
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
196
62
storage
mh­
1
mh
1
fe­
2
False
No
62
grinding/
screening
gs­
1
gs
1
fe­
1
False
No
62
tunnel
kiln
tk­
1
tk
1
us­
3
False
No
62
dryer
dc­
2
dc
1
us­
2
False
No
62
extruder
fw­
1
to
fw­
2
extruder
2
fe­
7,
fe­
8
False
No
62
color
application
cta­
1
to
cta­
2
cta
2
bh­
1
to
bh­
2
False
No
62
dryer
dc­
1
dc
1
us­
1
False
No
63
kiln
tk­
2
tk
1
us­
3
False
No
63
additive
hoppers
mh­
3
mh
1
fe­
4
False
No
63
screen
s­
1
s
1
bh­
1
False
No
63
screen
s­
2
s
1
fe­
2
False
No
63
storage
tank
st­
1
s
1
fe­
6
False
No
63
pug
mill
mw­
1
mw
1
bh­
1
False
No
63
extruder
fw­
1
extruder
1
fe­
5
False
No
63
mills
g­
1,
g­
2
g
2
bh­
1
False
No
63
pugmill
mw­
2
mw
1
fe­
7
False
No
63
storage
mh­
1,
mh­
2
mh
2
fe­
1,
fe­
3
False
No
63
dryer
dc­
1
dc
1
us­
1
False
No
63
kiln
tk­
1
tk
1
us­
2
False
No
64
extruding
fw­
1
extruder
1
fe­
5
False
No
64
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
64
grinder
g­
1
g
1
fe­
1
False
No
64
screen
s­
1
s
1
fe­
2
False
No
64
storage
mh­
1
mh
1
fe­
3
False
No
64
mixer
mw­
1
mw
1
fe­
4
False
No
64
dryer
dc­
4
dc
1
us­
6
False
No
64
color
application
cta­
1
cta
1
fe­
6
False
No
64
predryer
misc­
1
predryer
1
fe­
7
False
No
64
kiln
tk­
2
tk
1
us­
2
False
No
64
coal
crusher
cc­
1
cc
1
fe­
8
False
No
64
dryer
dc­
2
dc
1
us­
4
False
No
64
dryer
dc­
3
dc
1
us­
5
False
No
64
dryer
dc­
1
dc
1
us­
3
False
No
65
mixing
mw­
1
mw
1
fe­
5
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
197
65
storage
mh­
2
mh
1
fe­
4
False
No
65
grinding
g­
1
g
1
fe­
1
False
No
65
kiln
6
tk­
3
tk
1
us­
3
False
No
65
forming
fw­
2
extruder
1
fe­
8
False
No
65
grinding
g­
2
g
1
fe­
3
False
No
65
forming
fw­
1
extruder
1
fe­
7
False
No
65
color
application
cta­
1
cta
1
fe­
9
False
No
65
storage
mh­
1
mh
1
fe­
2
False
No
65
kiln
5
tk­
2
tk
1
us­
2
True
No
65
kiln
4
tk­
1
tk
1
us­
1
False
No
65
dryer
dc­
3
dc
1
us­
8,
us­
9
False
No
65
mixing
mw­
2
mw
1
fe­
6
False
No
65
grinding
(
follows
mining)
cr­
1
cr
1
fe­
10
False
No
65
dryer
dc­
2
dc
1
us­
6,
us­
7
False
No
65
dryer
dc­
1
dc
1
us­
4,
us­
5
False
No
66
screen
s­
1
s
1
fe­
3
False
No
66
colorer
cta­
1
cta
1
bh­
1
False
No
66
tunnel
kiln
tk­
1
tk
1
us­
2
False
No
66
dryer
dc­
1
dc
1
us­
1
False
No
66
extruder
fw­
1
extruder
1
fe­
2
False
No
66
mixer
mw­
1
mw
1
fe­
1
False
No
66
storage
mh­
1
mh
1
fe­
1
False
No
66
crusher
cr­
1
cr
1
fe­
5
False
No
66
grinder
g­
1
g
1
fe­
3
False
No
67
dryer
dc­
1
dc
1
us­
1
False
No
67
color/
texture
cta­
1
cta
1
bh­
1
False
No
67
kiln
tk­
1
tk
1
us­
3,
us­
2
False
No
67
mixer
mw­
1
mw
1
fe­
5
False
No
67
grinder
g­
1
g
1
fe­
2
False
No
67
extruder
fw­
1
extruder
1
fe­
6
False
No
67
crusher
cr­
1
cr
1
fe­
1
False
No
67
storage
mh­
1
mh
1
fe­
4
False
No
67
screening
s­
1
s
1
fe­
3
False
No
68
sand
blaster
cta­
1
cta
1
bh­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
198
68
mixer
mw­
1
mw
1
bh­
1
False
No
68
grinder
g­
1
g
1
fe­
3
False
No
68
storage
mh­
1
mh
1
fe­
2
False
No
68
crusher
cr­
1
cr
1
fe­
1
False
No
68
extruder
fw­
1
extruder
1
bh­
1
False
No
68
dryer
dc­
1
dc
1
us­
1
False
No
68
sand
dryer
dr­
1
dr­
sand
1
bh­
2
False
No
68
storage
tank
mh­
2
mh
1
fe­
4
False
No
68
tunnel
kiln
tk­
1
tk
1
us­
2
False
No
69
extruder
fw­
1
extruder
1
bh­
1
False
No
69
sand
blaster
cta­
1
cta
1
bh­
1
False
No
69
sand
dryer
dr­
1
dr­
sand
1
bh­
2
False
No
69
extruder
fw­
2
extruder
1
fe­
6
False
No
69
sand
blaster
cta­
2
cta
1
fe­
7
False
No
69
mixer
mw­
1
mw
1
bh­
1
False
No
69
dryer
dc­
2
dc
1
us­
2
False
No
69
dryer
dc­
1
dc
1
us­
1
False
No
69
tunnel
kiln
tk­
1
tk
1
us­
3
False
No
69
tunnel
kiln
tk­
2
tk
1
us­
4
False
No
69
mixer
mw­
2
mw
1
fe­
5
False
No
69
grinder
g­
1
g
1
fe­
3
False
No
69
storage
mh­
2
mh
1
fe­
4
False
No
69
storage
mh­
1
mh
1
fe­
2
False
No
69
crusher
cr­
1
cr
1
fe­
1
False
No
70
tunnel
kiln
tk­
2
tk
1
diff­
2
True
No
70
tunnel
kiln
tk­
1
tk
1
diff­
1
True
No
70
dryer
dc­
1
dc
1
us­
1
False
No
70
dryer
dc­
2
dc
1
us­
2
False
No
70
color
appl.
cta­
1
cta
1
fe­
7
False
No
70
extruder
fw­
1
extruder
1
fe­
6
False
No
70
mixing
mw­
1
mw
1
fe­
5
False
No
70
screen
s­
1
s
1
fe­
3
False
No
70
storage
mh­
1
mh
1
fe­
4
False
No
70
crusher
cr­
1
cr
1
fe­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
199
70
grinder
g­
1
g
1
fe­
2
False
No
71
grinder
g­
1
g
1
us­
4
False
No
71
dryer
dc­
1
dc
1
us­
1
False
No
71
kiln
tk­
1
tk
1
us­
2,
us­
3
False
No
71
screens
s­
1,
s­
2
s
2
us­
4
False
No
71
mixing
mw­
1
mw
1
fe­
1
False
No
71
extruder
fw­
1
extruder
1
fe­
2
False
No
71
storage
ru­
1toru­
3
ru
3
us­
5
False
No
71
cutting
misc­
1
misc
1
fe­
4
False
No
71
color
and
texture
applications
cta­
1
cta
1
fe­
3
False
No
72
brick
dryer
dc­
4
dc
1
us­
20
­
us­
21
False
No
72
rotary
wood
dryer
ds­
1
ds
1
us­
22
False
No
72
screening
and
grinding
gs­
1
gs
1
fe­
11
False
No
72
silo
ru­
5
ru
1
cy­
1
False
No
72
mill
room:
mixing
mw­
2
mw
1
bh­
3
False
No
72
mill
room:
mixing
mw­
1
mw
1
bh­
2
False
No
72
sand
building
md­
1
md
1
bh­
1
False
No
72
rotary
wood
dryer
ds­
2
ds
1
us­
23
True
No
72
clay
storage
ru­
6
ru
1
fe­
9
False
No
72
sawdust
shaker
screen
misc­
8
misc
1
bh­
2
False
No
72
dry
storage
silo
ru­
3
to
ru­
4
ru
2
fe­
7
to
fe­
8
False
No
72
sawdust
hammer
mill
misc­
6
misc
1
cy­
1
False
No
72
sawdust
shaker
screen
misc­
7
misc
1
fe­
4
False
No
72
sawdust
storage
silo
ru­
1,
ru­
2
ru
2
fe­
5
to
fe­
6
False
No
72
wood
hog
misc­
2
misc
1
cy­
2
False
No
72
sawdust
pile
os­
1
misc
1
fe­
1
False
No
72
dump
pit
misc­
1
misc
1
fe­
3
False
No
72
front
end
loader
mh­
1
mh
1
fe­
2
False
No
72
mill
room:
color/
texturing
cta­
2
cta
1
bh­
3
False
No
72
tunnel
kiln
tk­
1
tk
1
us­
1
­
us­
2
ds­
1
False
No
72
mill
room:
extrusion
fw­
2
extruder
1
bh­
3
False
No
72
mill
room:
color/
texture
cta­
1
cta
1
bh­
2
False
No
72
mill
room:
extrusion
fw­
1
extruder
1
bh­
2
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
200
72
rotary
sand
dryer
dr­
1
dr­
sand
1
bh­
5,
cy­
1
False
No
72
tunnel
kiln
tk­
2
tk
1
us­
3
­
us­
4
ds­
2
True
No
72
brick
dryer
dc­
3
dc
1
us­
18
­
us­
19
False
No
72
kiln
car
cleaning
system
misc­
5
misc
1
bh­
4
cy­
1
False
No
72
brick
dryer
dc­
1
dc
1
us­
15
False
No
72
brick
warm
room
misc­
4
predryer
1
us­
9
­
us­
14
False
No
72
brick
warm
room
misc­
3
predryer
1
us­
5
­
us­
8
False
No
72
crusher
cr­
1
cr
1
fe­
10
False
No
73
storage
mh­
3
mh
1
fe­
9
False
No
73
sand
and
slurry
mixing
md­
1
md
1
cy­
1
False
No
73
holding
room
misc­
1
predryer
1
us­
1
False
No
73
dryer
dc­
1
dc
1
us­
2
False
No
73
tunnel
kiln
tk­
1
tk
1
us­
4
True
No
73
crusher
cr­
1
cr
1
fe­
1
False
No
73
storage
mh­
1,
mh­
2
mh
2
fe­
2,
fe­
5
False
No
73
tunnel
kiln
tk­
2
tk
1
us­
5
True
No
73
grinder
g­
1
g
1
fe­
3
False
No
73
screen
s­
1
s
1
fe­
4
False
No
73
mixer
mw­
1
mw
1
fe­
6
False
No
73
extruder
fw­
1
extruder
1
fe­
7
False
No
73
color
application
cta­
1
cta
1
fe­
8
False
No
73
dryer
dc­
2
dc
1
us­
3
False
No
74
color/
texture
application
cta­
1
cta
1
fe­
7
False
No
74
dryer
dc­
1
dc
1
us­
1
False
No
74
tunnel
kiln
tk­
1
tk
1
us­
2
False
No
74
raw
material
storage
ru­
1
ru
1
fe­
1
False
No
74
extruder
fw­
1
extruder
1
fe­
6
False
No
74
holding
room
misc­
2
predryer
1
fe­
9
False
No
74
setting
misc­
1
misc
1
fe­
8
False
No
74
smooth
roll
crusher
cr­
1
cr
1
fe­
3
False
No
74
pressed
dryer
storage
ru­
2
ru
1
fe­
4
False
No
74
pug
mill
mw­
1
mw
1
fe­
5
False
No
74
wet
pan
grinding
g­
1
g
1
fe­
2
False
No
75
roller
mill
g­
2
g
1
oc­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
201
75
tunnel
kiln
tk­
1
tk
1
us­
2
False
No
75
pumps
and
feeders
cta­
1
cta
1
fe­
6
False
No
75
screen
s­
1
s
1
fe­
4
False
No
75
mixer
md­
1
md
1
fe­
2
False
No
75
crushing
cr­
1
cr
1
fe­
1
False
No
75
periodic
kiln­
idle
pk­
4
pk
1
us­
6
False
No
75
extruder
fw­
1
extruder
1
fe­
8
False
No
75
grinder
g­
1
g
1
fe­
3
False
No
75
periodic
kiln­
idle
pk­
2
pk
1
us­
4
False
No
75
periodic
kiln­
idle
pk­
3
pk
1
us­
5
False
No
75
dryer
dc­
1
dc
1
us­
1
False
No
75
mixer
mw­
1
mw
1
fe­
7
False
No
75
periodic
kiln­
idle
pk­
1
pk
1
us­
3
False
No
76
holding
room
misc­
1
predryer
1
fe­
5
False
No
76
color
coating
cta­
1
cta
1
fe­
4
False
No
76
extruder
fw­
1
extruder
1
fe­
3
False
No
76
dryer
dc­
1
dc
1
us­
2
False
No
76
grinder
g­
1
g
1
fe­
1
False
No
76
kiln
tk­
1
tk
1
us­
1
False
No
76
mixer
mw­
1
mw
1
fe­
2
False
No
77
tunnel
kiln
tk­
2
tk
1
dls­
1
False
No
77
crushing
cr­
1
cr
1
fe­
1
False
No
77
extruder
fw­
1
extruder
1
fe­
6
False
No
77
tunnel
kiln
tk­
1
tk
1
us­
5
True
No
77
dryer
dc­
1
dc
1
us­
3
False
No
77
dryer
dc­
2
dc
1
us­
4
False
No
77
color/
texture
cta­
1
cta
1
fe­
7
False
No
77
storage
mh­
1
mh
1
fe­
4
False
No
77
screen
s­
1
s
1
fe­
3
False
No
77
mixer
mw­
1
mw
1
fe­
5
False
No
77
grinding
g­
1
g
1
fe­
2
False
No
78
extruder
fw­
1
extruder
1
fe­
8
False
No
78
color/
texture
application
cta­
1
cta
1
fe­
9
False
No
78
cutting
misc­
1
misc
1
fe­
10
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
202
78
grinders
g­
1,
g­
2
g
2
fe­
2,
fe­
5
False
No
78
tunnel
kiln
tk­
1
tk
1
us­
3
False
No
78
dryer
dc­
2
dc
1
us­
2
False
No
78
dryer
dc­
1
dc
1
us­
1
False
No
78
mixers
mw­
1,
mw­
2
mw
2
fe­
6,
fe­
7
False
No
78
crusher
cr­
1
cr
1
fe­
1
False
No
78
storage
ru­
1,
ru­
2
ru
2
fe­
3,
fe­
4
False
No
78
tunnel
kiln
tk­
2
tk
1
us­
4
False
No
79
dryer
dc­
1
dc
1
us­
2
False
No
79
pug
mill
mw­
1
mw
1
fe­
1
False
No
79
extruder
fw­
1
extruder
1
fe­
2
False
No
79
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
79
clay
feeder
we­
1
we
1
fe­
4
False
No
79
setting
misc­
1
misc
1
fe­
5
False
No
79
disintergrating
crusher
cr­
1
cr
1
fe­
3
False
No
80
dryer
dc­
1
dc
1
us­
4
False
No
80
clay
blending/
layering
mh­
1
mh
1
fe­
11
False
No
80
bin
(
clay)
ru­
1
ru
1
fe­
6
False
No
80
extruding
FW­
1
extruder
1
fe­
9
False
No
80
bin
(
shale)
ru­
2
ru
1
fe­
7
False
No
80
tunnel
kiln
tk­
2
tk
1
us­
2
False
No
80
tunnel
kiln
tk­
3
tk
1
us­
3
False
No
80
crusher
(
clay)
cr­
1
cr
1
fe­
1
False
No
80
crusher
(
shale)
cr­
2
cr
1
fe­
2
False
No
80
grinder
(
shale)
g­
1
g
1
fe­
3
False
No
80
screen
(
clay)
s­
1
s
1
fe­
4
False
No
80
mixing
(
wet)
mw­
1
mw
1
fe­
8
False
No
80
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
80
screen
(
shale)
s­
2
s
1
fe­
5
False
No
81
grinder
g­
1,
g­
2
g
2
fe­
3,
fe­
13
False
No
81
crusher
cr­
1,
cr­
2
cr
2
fe­
2,
fe­
12
False
No
81
storage
mh­
2,
mh­
6
mh
2
fe­
15,
fe­
5
False
No
81
apron
feeder
mh­
1,
mh­
4,
mh­

5,
mh­
8
mh
4
fe­
1,
fe­
7,
fe­
9,
fe­

17
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
203
81
dryer
dc­
6
dc
1
us­
7
False
No
81
tunnel
kiln
tk­
5
tk
1
us­
8
False
No
81
dryer
dc­
4
dc
1
us­
4
False
No
81
dryer
dc­
7
dc
1
us­
7
False
No
81
dryer
dc­
8
dc
1
us­
7
False
No
81
dryer
dc­
9
dc
1
us­
7
False
No
81
tunnel
kiln
tk­
6
tk
1
us­
9
False
No
81
extruder
fw­
3
extruder
1
fe­
27
False
No
81
tunnel
kiln
tk­
1
tk
1
us­
6
False
No
81
finish
dryer
dc­
5
dc
1
us­
5
False
No
81
initial
dryer
dc­
1
dc
1
us­
1
False
No
81
coating
and
texturing
cta­
3
cta
1
bh­
1
False
No
81
forming
and
sand
coating
fw­
1,
fw­
2
molding
2
us­
10
False
No
81
hopper
mh­
3,
mh­
7
mh
2
fe­
6,
fe­
16
False
No
81
mixer
mw­
1
to
mw­
3
mw
3
fe­
18,
fe­
8,
fe­
26
False
No
81
screen
s­
1
to
s­
6
s
6
fe­
4
False
No
81
dryer
dc­
3
dc
1
us­
3
False
No
81
dryer
dc­
2
dc
1
us­
2
False
No
81
screen
s­
7
to
s­
12
s
6
fe­
14,
fe­
21
to
fe­
25
False
No
82
grinder
g­
1
g
1
fe­
3
False
No
82
wet
mixer
MW­
1
mw
1
FE­
11
False
No
82
screen
s­
1
to
s­
4
s
4
fe­
4
False
No
82
crusher
cr­
1
cr
1
fe­
2
False
No
82
holding
room
misc­
3
predryer
1
us­
1
False
No
82
dryer
dc­
1
dc
1
us­
2
False
No
82
tunnel
kiln
tk­
1
tk
1
us­
3
False
No
82
cutting/
setting
misc­
2
misc
1
fe­
10
False
No
82
hopper
mh­
3
mh
1
fe­
6
False
No
82
storage
(
clay)
mh­
2
mh
1
fe­
5
False
No
82
extruder
fw­
1
extruder
1
fe­
8
False
No
82
color/
texture
cta­
1
cta
1
fe­
9
False
No
82
feeders
(
2)
mh­
1,
mh­
4
mh
2
fe­
1,
fe­
7
False
No
83
dryer
dc­
2
dc
1
us­
1
False
No
83
dryer
dc­
1
dc
1
us­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
204
83
coloring/
texturing
cta­
1
cta
1
fe­
5
False
No
83
extruding
fw­
1
extruder
1
fe­
6
False
No
83
mixing
mw­
1
mw
1
fe­
4
False
No
83
storage
ru­
1
to
ru­
5
ru
5
fe­
3
False
No
83
screening
s­
1
to
s­
4
s
4
fe­
2
True
No
83
grinding
g­
1
g
1
fe­
1
True
No
83
tunnel
kiln
tk­
1
tk
1
us­
2
False
No
83
rockface
line
gr­
1
gr
1
bh­
1
False
No
84
extruder
fw­
1
extruder
1
fe­
7
False
No
84
dryer
dc­
1
dc
1
us­
1
False
No
84
coloring/
texturing
cta­
1
cta
1
bh­
2
cy­
1
False
No
84
crusher
cr­
1
cr
1
fe­
1
False
No
84
grinder
g­
1
g
1
fe­
2
False
No
84
tunnel
kiln
tk­
1
tk
1
us­
2
True
No
84
mixer
mw­
1
mw
1
fe­
5
False
No
84
rotary
sand
dryer
dr­
1
dr­
sand
1
fe­
6
False
No
84
screens
s­
1
to
s­
6
s
6
fe­
3
False
No
84
storage
ru­
1
to
ru­
2
ru
2
fe­
4
False
No
84
coal
crushing
cc­
1
cc
1
bh­
1
False
No
85
preheater
misc­
1
predryer
1
fe­
1
False
No
85
colorer
cta­
1
cta
1
bh­
1
False
No
85
forming
fw­
1
extruder
1
fe­
6
False
No
85
coal
storage
mh­
3
mh
1
bh­
3
False
No
85
mixer
mw­
1
mw
1
fe­
5
False
No
85
batcher
we­
1
we
1
fe­
4
False
No
85
grinder/
screen
gs­
1
gs
1
fe­
2
False
No
85
colorant
storage
mh­
2
mh
1
bh­
2
False
No
85
storage
mh­
1
mh
1
fe­
3
False
No
85
dryer
dc­
1
dc
1
us­
1
True
No
85
sand
mixer
md­
1
md
1
bh­
1
False
No
85
tunnel
kiln
tk­
1
tk
1
cy­
1
True
No
86
dryer
dc­
1
dc
1
us­
2
False
No
86
periodic
kiln
pk­
1
pk
1
us­
6
True
No
86
color/
texturer
cta­
1
cta
1
fe­
8
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
205
86
clay
stockpiles
ru­
1
ru
1
fe­
2
False
No
86
flue
clay
liners
ru­
2
ru
1
fe­
3
False
No
86
clay
storage
ru­
3
ru
1
fe­
4
False
No
86
brick
clay
storage
ru­
4
ru
1
fe­
5
False
No
86
cutters
misc­
1,
misc­
2
misc
2
fe­
6,
fe­
7
False
No
86
cutters
misc­
3
misc
1
fe­
9
False
No
86
dryer
dp­
1
dp
1
us­
4
False
No
86
wet
mixer
mw­
2
mw
1
bh­
2
False
No
86
holding
room
misc­
4
predryer
1
us­
1
False
No
86
pipe
pug
fw­
1
extruder
1
fe­
11
False
No
86
brick
pug
fw­
2
extruder
1
fe­
10
False
No
86
hammer
mill
g­
1
g
1
bh­
1
False
No
86
screens
s­
1,
s­
2
s
2
bh­
1
False
No
86
roll
crusher
cr­
1
cr
1
bh­
1
False
No
86
clay
hopper
mh­
1
mh
1
bh­
1
False
No
86
mixing
area
md­
1
md
1
fe­
1
False
No
86
preheat
misc­
5
predryer
1
us­
5
False
No
86
kiln
tk­
1
tk
1
us­
3
True
No
86
wet
mixer
mw­
1
mw
1
bh­
2
False
No
87
pugmills
mw­
2
mw
1
fe­
9
False
No
87
clay
mixing
md­
1
md
1
fe­
2
False
No
87
vibrating
screen
s­
1
s
1
fe­
4
False
No
87
dry
pan
grinding
g­
1
g
1
fe­
5
False
No
87
clay
storage
ru­
1
ru
1
fe­
1
False
No
87
extruder
fw­
1
extruder
1
fe­
10
False
No
87
additive
feeders
cta­
1
cta
1
fe­
3
False
No
87
conveyors
mh­
1
mh
1
fe­
7
False
No
87
storage
bins
ru­
2
ru
1
fe­
6
False
No
87
additive
feeder
we­
1
we
1
fe­
3
False
No
87
slurry
mixers
mw­
1
mw
1
fe­
13
False
No
87
periodic
kiln
pk­
1
pk
1
us­
4
False
No
87
tunnel
kiln
tk­
1
tk
1
us­
3
False
No
87
feed
hoppers
we­
1
we
1
fe­
14
False
No
87
dryers
dc­
1
dc
1
us­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
206
87
holding
room
misc­
2
predryer
1
fe­
12
False
No
87
wire
cutting
misc­
1
misc
1
fe­
11
False
No
87
dry
press
fd­
1
fd
1
fe­
8
False
No
87
grog
crusher
cr­
1
grog
cr
1
us­
5
False
No
87
dryers
dp­
1
dp
1
us­
2
False
No
88
vibrating
screens
s­
1
s
1
fe­
5
False
No
88
dryers
dc­
1
dc
1
us­
1
False
No
88
dryer
dc­
2
dc
1
us­
1
False
No
88
clay
batching
we­
1
we
1
fe­
12
False
No
88
compression
extruder
fw­
1
to
fw­
2
extruder
2
fe­
10
False
No
88
conveyor
belts
mh­
1
mh
1
fe­
7
False
No
88
storage
bins
ru­
2
ru
1
fe­
6
False
No
88
wire
cutting
misc­
1
misc­
2
misc
2
fe­
11
False
No
88
dry
pan
grinder
g­
1
g
1
fe­
4
False
No
88
ore
crusher
cr­
1
cr
1
fe­
3
False
No
88
clay
mixing
md­
1
md
1
fe­
2
False
No
88
clay
storage
ru­
1
ru
1
fe­
1
False
No
88
pugmills
mw­
3
to
mw­
4
mw
2
fe­
9
False
No
88
keller
tunnel
kiln
tk­
1
tk
1
us­
2
True
No
88
slurry
mixers
mw­
1
to
mw­
2
mw
2
fe­
8
False
No
89
tunnel
kiln
tk­
1
tk
1
us­
5,
us­
6
False
No
89
crusher
cr­
1
cr
1
fe­
2
False
No
89
grinder
g­
1
g
1
bh­
1
False
No
89
screen
s­
1
s
1
bh­
1
False
No
89
storage
mh­
1
mh
1
us­
2
False
No
89
mixer
mw­
1
mw
1
fe­
3
False
No
89
color/
texture
cta­
1
cta
1
fe­
1
False
No
89
dryer
dp­
2
dp
1
us­
4
False
No
89
dryer
dp­
1
dp
1
us­
3
False
No
89
moulding
fw­
1
molding
1
bh­
2
False
No
90
screening
s­
1
s
1
us­
6
False
No
90
batcher
we­
1
we
1
us­
7
False
No
90
brick
machine
mw­
1
mw
1
us­
8
False
No
90
dryer
dc­
1
dc
1
us­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
207
90
grinding
g­
1,
g­
2
g
2
us­
5
False
No
90
dryer
dc­
2
dc
1
us­
2
False
No
90
tunnel
kiln
tk­
1
tk
1
us­
3
False
No
90
tunnel
kiln
tk­
2
tk
1
us­
4
False
No
90
coloring/
texturing
application
cta­
1
cta
1
fe­
1
False
No
90
forming
fw­
1
extruder
1
fe­
2
False
No
91
periodic
kiln
pk­
6
pk
1
us­
3
False
No
91
periodic
kiln
pk­
2
pk
1
us­
1
False
No
91
periodic
kiln
pk­
3
pk
1
us­
2
False
No
91
periodic
kiln
pk­
4
pk
1
us­
2
False
No
91
periodic
kiln
pk­
5
pk
1
us­
3
False
No
91
periodic
kiln
pk­
1
pk
1
us­
1
False
No
91
periodic
kiln
pk­
7
pk
1
us­
4
False
No
91
periodic
kiln
pk­
8
pk
1
us­
4
False
No
91
dryer
dc­
1
dc
1
us­
5
False
No
91
crusher
cr­
1
cr
1
fe­
1
False
No
91
grinder
g­
1
g
1
fe­
2
False
No
91
screen
s­
1
s
1
fe­
3
False
No
91
storage
mh­
1
mh
1
fe­
4
False
No
91
mixer
mw­
1
mw
1
fe­
5
False
No
91
extruder
fw­
1
extruder
1
fe­
6
False
No
91
color/
texture
cta­
1
cta
1
fe­
7
False
No
91
cutter
misc­
1
misc
1
fe­
8
False
No
92
sand
coloring
cta­
1
cta
1
fe­
7
False
No
92
grinder
g­
1
g
1
fe­
2
False
No
92
screen
s­
1
s
1
fe­
3
False
No
92
storage
mh­
1
mh
1
fe­
4
False
No
92
mixer
mw­
1
mw
1
fe­
5
False
No
92
extruder
fw­
1
extruder
1
fe­
6
False
No
92
crusher
cr­
1
cr
1
fe­
1
False
No
92
dryer
dp­
1
dp
1
us­
2
False
No
92
kiln
tk­
1
tk
1
us­
1
False
No
93
grinder
g­
1
g
1
fe­
2
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
208
93
screen
s­
1
s
1
fe­
3
False
No
93
mixer
mw­
1
mw
1
fe­
5
False
No
93
crusher
cr­
1
cr
1
fe­
1
False
No
93
storage
mh­
1
mh
1
fe­
4
False
No
93
extruder
fw­
1
extruder
1
fe­
6
False
No
93
sand
colorer
cta­
1
cta
1
fe­
7
False
No
93
dryer
dc­
1
dc
1
us­
2
to
us­
4
False
No
93
kiln
tk­
1
tk
1
us­
1
False
No
94
dryer
dc­
4
dc
1
us­
4
False
No
94
Periodic
kiln
pk­
1
pk
1
us­
5
False
No
94
Periodic
kiln
pk­
2
pk
1
us­
6
False
No
94
Periodic
kiln
pk­
3
pk
1
us­
7
False
No
94
storage
mh­
1
mh
1
fe­
5
False
No
94
shredder
cr­
1
cr
1
fe­
8
False
No
94
conveyor
mh­
2
mh
1
fe­
9
False
No
94
dryer
dc­
3
dc
1
us­
3
False
No
94
grog
crusher
cr­
2
grog
cr
1
fe­
7
False
No
94
hammermill
g­
1
g
1
fe­
6
False
No
94
grinding
room
gs­
1
gs
1
fe­
4
False
No
94
sand
dryer
dr­
1
dr­
sand
1
fe­
1
False
No
94
mixer
mw­
1
mw
1
fe­
2
False
No
94
extruder
fw­
1
extruder
1
fe­
1
False
No
94
dryer
dc­
1
dc
1
us­
1
False
No
94
dryer
dc­
2
dc
1
us­
2
False
No
95
dryer
dc­
2
dc
1
us­
3
False
No
95
grinder
g­
1
g
1
fe­
2
False
No
95
screen
s­
1
s
1
fe­
3
False
No
95
storage
mh­
1
mh
1
fe­
4
False
No
95
mixing
mw­
1
mw
1
fe­
5
False
No
95
extruder
fw­
1
extruder
1
fe­
6
False
No
95
colorer
cta­
1
cta
1
fe­
7
False
No
95
dryer
dc­
1
dc
1
us­
2
False
No
95
kiln
tk­
1
tk
1
us­
1
False
No
95
crusher
cr­
1
cr
1
fe­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
209
96
grinding
g­
1
g
1
bh­
1
False
No
96
screen
s­
1
s
1
bh­
1
False
No
96
storage
mh­
1
mh
1
fe­
2
False
No
96
mixing
mw­
1
mw
1
fe­
3
False
No
96
extruding
fw­
1
extruder
1
fe­
4
False
No
96
sand
color
cta­
1
cta
1
fe­
5
False
No
96
dryer
dc­
1
dc
1
us­
2
False
No
96
crusher
cr­
1
cr
1
fe­
1
False
No
96
dryer
dc­
2
dc
1
us­
3
False
No
96
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
97
mixers
mw­
3
mw
1
fe­
7
False
No
97
crusher
cr­
2
cr
1
fe­
2
False
No
97
crusher
cr­
3
cr
1
fe­
10
False
No
97
storage
mh­
1,
mh­
2
mh
2
fe­
3,
fe­
5
False
No
97
calciner
ca­
1
Ca
1
us­
1
False
No
97
grinder
g­
1,
g­
2
g
2
fe­
4
False
No
97
screens
s­
1,
s­
2
s
2
fe­
4
False
No
97
mixers
mw­
1,
mw­
2
mw
2
fe­
5
False
No
97
extruders
fw­
1,
fw­
2
extruder
2
fe­
11
False
No
97
extruders
fw­
3
extruder
1
fe­
12
False
No
97
coloring
cta­
1,
cta­
2
cta
2
bh­
1
False
No
97
coloring
cta­
3
cta
1
bh­
2
False
No
97
crusher
cr­
1
cr
1
fe­
1
False
No
97
mixers
mw­
4
mw
1
fe­
8
False
No
97
mixers
md­
1
md
1
fe­
9
False
No
97
holding
room
misc­
1,
to
­
3
predryer
3
us­
2,
us­
3
False
No
97
dryer
dc­
1
dc
1
us­
4
to
­
6
False
No
97
dryer
dc­
2
dc
1
us­
7
to
­
9
False
No
97
dryer
dc­
3
dc
1
us­
10
to
­
12
False
No
97
kiln
tk­
1
tk
1
us­
13
False
No
97
kiln
tk­
2
tk
1
us­
14
False
No
97
kiln
tk­
3
tk
1
us­
15
False
No
98
storage
mh­
1
to
mh
­
3
mh
3
fe­
2
to
fe­
4
False
No
98
bins
mh­
4,
­
5
mh
2
bh­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
210
98
crusher
cr­
1
cr
1
fe­
1
False
No
98
calciner
ca­
1
Ca
1
us­
4
False
No
98
grinders
g­
1
to
g­
3
g
3
fe­
5
False
No
98
screens
s­
1
to
s­
9
s
9
fe­
6
False
No
98
mixer
md­
1
to
md­
6
md
6
fe­
7
False
No
98
mixer
mw­
1
mw
1
fe­
8
False
No
98
Slurry
mixer
mw­
2
mw
1
bh­
2
False
No
98
extruder
fw­
1
extruder
1
fe­
8
False
No
98
texturing
cta­
1
cta
1
bh­
2
False
No
98
holding
room
misc­
1
predryer
1
us­
1,
us­
2
False
No
98
dryer
dc­
1
dc
1
us­
1
False
No
98
kiln
tk­
1
tk
1
us­
3
False
No
98
dryer
dc­
2
dc
1
us­
1
False
No
98
dryer
dc­
3
dc
1
us­
2
False
No
98
dryer
dc­
4
dc
1
us­
2
False
No
98
tunnel
kiln
tk­
2
tk
1
us­
5
False
No
99
holding
room
misc­
1
predryer
1
us­
5
False
No
99
mixer
mw­
1
mw
1
fe­
2
False
No
99
extruder
fw­
1
extruder
1
fe­
3
False
No
99
dryer
dc­
1
dc
1
us­
3
False
No
99
dryer
dc­
2
dc
1
us­
4
False
No
99
grinding
room
gs­
1
gs
1
fe­
1
False
No
99
holding
room
misc­
2
predryer
1
us­
6
False
No
99
kiln
tk­
1
tk
1
us­
2
False
No
99
kiln
tk­
2
tk
1
us­
1
False
No
99
coloring
cta­
1
cta
1
bh­
1
False
No
100
silo
mh­
2
mh
1
fe­
2
False
No
100
brick
dryer
dc­
2
dc
1
us­
3
False
No
100
sawdust
kiln
2
tk­
2
tk
1
ds­
1
False
No
100
sawdust
kiln
1
tk­
1
tk
1
ds­
1
False
No
100
extruder
fw­
1
extruder
1
fe­
10
False
No
100
mixer
mw­
1
mw
1
fe­
9
False
No
100
batcher
we­
1
we
1
fe­
8
False
No
100
screen
s­
3
s
1
fe­
5
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
211
100
crusher
cr­
1
cr
1
fe­
4
False
No
100
grinding
g­
1
g
1
fe­
5
False
No
100
sawdust
hammermill
w/
cyclone
misc­
2
misc
1
fe­
3
False
No
100
sawdust
screen
misc­
1
misc
1
fe­
7
False
No
100
sawdust
dryer
w/
cyclone
ds­
1
ds
1
us­
1
False
No
100
stockpile
mh­
1,
mh­
3
mh
2
fe­
1,
fe­
6
False
No
100
screen
s­
2
s
1
fe­
4
False
No
100
brick
dryer
1
dc­
1
dc
1
us­
2
False
No
100
texturizer
1
cta­
1
cta
1
bh­
1
False
No
101
mixer
mw­
1
mw
1
fe­
21
False
No
101
mixer
mw­
2,
mw­
3
mw
2
fe­
12,­
13
False
No
101
extruder
fw­
1
extruder
1
fe­
20
False
No
101
sand
dryer
dr­
1
dr­
sand
1
fe­
17
False
No
101
sawdust
kiln
no.
1
tk­
3
tk
1
ds­
1
True
No
101
mill
g­
2
g
1
fe­
7
False
No
101
batcher
we­
2,
­
3
we
2
fe­
10,11
False
No
101
sawdust
dryer
with
cyclone
ds­
1
ds
1
us­
6,
us­
7
True
No
101
brick
dryer
dc­
3
dc
1
us­
3
False
No
101
brick
dryer
2
dc­
4
dc
1
us­
4
False
No
101
brick
dryer
1
for
kiln
3
dc­
1
dc
1
us­
1
False
No
101
brick
dryer
2
for
kiln
3
dc­
2
dc
1
us­
2
False
No
101
texturizer
1
cta­
2
cta
1
bh­
1
False
No
101
texturizer
2
cta­
1
cta
1
bh­
2
False
No
101
sawdust
screen
misc­
4
misc
1
fe­
4
False
No
101
sawdust
grinder
misc­
5
misc
1
fe­
5
False
No
101
screen
s­
2,
s­
3
s
2
fe­
6,
fe­
8
False
No
101
sawdust
kiln
2
tk­
2
tk
1
ds­
1
True
No
101
crusher
cr­
1
cr
1
fe­
8
False
No
101
gas
kiln
NO.
3
tk­
1
tk
1
us­
5
False
No
101
extruder
fw­
2,
fw­
3
extruder
2
fe­
14,
fe­
15
False
No
101
storage
pile
mh­
3
mh
1
fe­
9
False
No
101
storage
mh­
3
mh
1
fe­
23
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
212
101
silo
mh­
1,
mh­
2
mh
2
fe­
1,
fe­
3
False
No
101
holding
room
misc­
3
predryer
1
fe­
16
False
No
101
holding
room
misc­
2,
­
1
predryer
2
fe­
18,
­
17
False
No
102
grinder
g­
1
g
1
fe­
5
False
No
102
extruder
fw­
1
extruder
1
fe­
9
False
No
102
sawdust
screen
misc­
1
misc
1
fe­
10
False
No
102
batcher
we­
1
we
1
fe­
7
False
No
102
crusher
cr­
1
cr
1
fe­
4
False
No
102
sawdust
hammermill
with
cyclone
misc­
2
misc
1
fe­
3
False
No
102
mixer
mw­
1
mw
1
fe­
8
False
No
102
sawdust
kiln
1
tk­
1
tk
1
ds­
1
False
No
102
sawdust
kiln
2
tk­
2
tk
1
ds­
1
False
No
102
brick
dryer
1
dc­
1
dc
1
us­
2,
us­
3
False
No
102
storage
mh­
1
to
­
3
mh
3
fe­
1,
fe­
2,
fe­
6
False
No
102
drum
dryer
with
cyclone
ds­
1
ds
1
us­
1
False
No
102
texturizer
cta­
1
cta
1
bh­
1
False
No
102
screen
s­
1,
s­
2
s
2
fe­
4,
fe­
5
False
No
103
dryer
dc­
1
dc
1
us­
7
False
No
103
texturizer
2
cta­
1
cta
1
bh­
1
False
No
103
extruder
fw­
1,
fw­
2
extruder
2
fe­
13,
fe­
14
False
No
103
dryer
dc­
4
dc
1
us­
10
False
No
103
predryer
misc­
1,
misc­
2
predryer
2
fe­
15,
fe­
16
False
No
103
mixer
mw­
1,
mw­
2
mw
2
fe­
11,
fe­
12
False
No
103
dryer
dc­
6
dc
1
us­
12
False
No
103
sawdust
screen
misc­
3
misc
1
fe­
16
False
No
103
dryer
dc­
2
dc
1
us­
8
False
No
103
dryer
dc­
3
dc
1
us­
9
False
No
103
sawdust
screen
with
cyclone
misc­
4
misc
1
fe­
5
False
No
103
texturizer
1
cta­
2
cta
1
bh­
2
False
No
103
sawdust
kiln
6
tk­
4
tk
1
ds­
1
False
No
103
grinder
g­
3
g
1
fe­
7
False
No
103
silo
mh­
1
mh
1
fe­
17
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
213
103
silo
mh­
2
mh
1
fe­
18
False
No
103
storage
mh­
3
mh
1
fe­
8
False
No
103
sawdust
dryer
with
cyclone
ds­
1
ds
1
us­
2,
us­
3
False
No
103
sawdust
dryer
with
cyclone
ds­
2
ds
1
us­
1
False
No
103
screen
s­
3
s
4
fe­
6
False
No
103
crusher
cr­
1
cr
1
fe­
6
False
No
103
sawdust
kiln
8
tk­
6
tk
1
ds­
1
False
No
103
sawdust
kiln
No.
5
tk­
3
tk
1
ds­
1
False
No
103
sawdust
kiln
No.
4
tk­
2
tk
1
ds­
2
False
No
103
sawdust
kiln
3
tk­
1
tk
1
ds­
2
False
No
103
sawdust
kiln
7
tk­
5
tk
1
ds­
1
False
No
103
screen
s­
4
s
4
fe­
7
False
No
103
sawdust
hammermill
with
cyclone
misc­
5
misc
1
fe­
1
False
No
103
dryer
dc­
5
dc
1
us­
11
False
No
103
sawdust
hammermill
with
cyclone
misc­
6
misc
1
fe­
4
False
No
104
sand
storage
ru­
2
ru
1
fe­
3
False
No
104
sawdust
crushing
misc­
2
misc
1
bh­
1
False
No
104
sawdust
screens
misc­
3
misc
1
bh­
1
False
No
104
unloading/
storage
ru­
4
ru
1
fe­
6
False
No
104
sodium
siliconate
water
spray
misc­
1
misc
1
fe­
2
False
No
104
dryer
dc­
1
dc
1
us­
2
False
No
104
sawdust
silo
ru­
3
ru
1
bh­
2
False
No
104
dry
pressing
fd­
1
fd
1
us­
1
False
No
104
screening
s­
1
s
1
us­
4
False
No
104
crushing
cr­
1
cr
1
us­
4
False
No
104
clay
storage
ru­
1
ru
1
fe­
1
False
No
104
tunnel
kiln
tk­
1
tk
1
us­
3
False
No
104
coloring
brick
cta­
1
cta
1
fe­
4
False
No
105
dryer
dp­
4
dp
1
us­
10
False
No
105
dryer
dp­
5
dp
1
us­
11
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
214
105
dryer
dp­
6
dp
1
us­
12
False
No
105
dryer
dp­
7
dp
1
us­
13
False
No
105
dryer
dp­
8
dp
1
us­
14
False
No
105
periodic
kiln
pk­
1
pk
1
us­
1
False
No
105
periodic
kiln
pk­
2
pk
1
us­
2
False
No
105
periodic
kiln
pk­
3
pk
1
us­
3
False
No
105
periodic
kiln
pk­
4
pk
1
us­
4
False
No
105
periodic
kiln
pk­
5
pk
1
us­
5
False
No
105
kiln
tk­
1
tk
1
us­
6
False
No
105
periodic
kiln­
idle
pk­
6
pk
1
us­
15
False
No
105
storage
mh­
1
mh
1
fe­
1
False
No
105
mixing
mw­
1
mw
1
fe­
2
False
No
105
forming
fw­
1
extruder
1
fe­
3
False
No
105
sizing
gs­
1
gs
1
bh­
1
to
bh­
2
False
No
105
wood
dust
handling
misc­
1
misc
1
fe­
4
False
No
105
dryer
dp­
3
dp
1
us­
9
False
No
105
dryer
dp­
1
dp
1
us­
7
False
No
105
dryer
dp­
2
dp
1
us­
8
False
No
106
dryers
dp­
1
dp
1
us­
1
False
No
106
dryers
dp­
7
dp
1
us­
7
False
No
106
dryers
dp­
4
dp
1
us­
4
False
No
106
dryers
dp­
3
dp
1
us­
3
False
No
106
dryers
dp­
2
dp
1
us­
2
False
No
106
mixing
mw­
1
mw
1
bh­
3
False
No
106
sizing
gs­
1
gs
1
bh­
1
to
bh­
2
False
No
106
storage
mh­
1
mh
1
fe­
1
False
No
106
dryers
dp­
5
dp
1
us­
5
False
No
106
dryers
dp­
6
dp
1
us­
6
False
No
106
extruder
fw­
1
extruder
1
fe­
2
False
No
106
dryers
dp­
9
dp
1
us­
9
False
No
106
dryers
dp­
12
dp
1
us­
12
False
No
106
periodic
kiln
pk­
1
pk
1
us­
13
to
us­
14
False
No
106
dryers
dp­
11
dp
1
us­
11
False
No
106
periodic
kiln
pk­
3
pk
1
us­
17
to
us­
18
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
215
106
dryers
dp­
10
dp
1
us­
10
False
No
106
dryers
dp­
8
dp
1
us­
8
False
No
106
periodic
kiln
pk­
2
pk
1
us­
15
to
us­
16
False
No
106
periodic
kiln
pk­
4
pk
1
us­
19
to
us­
20
False
No
107
stockpile
mh­
1
mh
1
fe­
1
False
No
107
grinding
screen
gs­
1
gs
1
bh­
1
False
No
107
mixer
mw­
1
mw
1
fe­
3
False
No
107
extruder
fw­
1
extruder
1
fe­
2
False
No
107
dryer
dp­
1
dp
1
us­
1
False
No
107
dryer
dp­
2
dp
1
us­
2
False
No
107
periodic
kiln
pk­
1
pk
1
us­
3
False
No
107
periodic
kiln
pk­
2
pk
1
us­
4
False
No
107
surge
tank
mh­
2
mh
1
bh­
1
False
No
108
stockpile
mh­
1
mh
1
fe­
1
False
No
108
periodic
kiln­
idle
pk­
16
pk
1
us­
16
False
No
108
sizing
gs­
1
gs
1
fe­
2
False
No
108
periodic
kiln­
idle
pk­
21
pk
1
us­
21
False
No
108
periodic
kiln­
idle
pk­
20
pk
1
us­
20
False
No
108
batching
we­
1
we
1
fe­
3
False
No
108
mixing
mw­
1
mw
1
fe­
4
False
No
108
forming
fw­
1
extruder
1
fe­
5
False
No
108
dryers
dp­
1
dp
1
us­
1
False
No
108
periodic
kiln­
idle
pk­
19
pk
1
us­
19
False
No
108
dryers
dp­
2
dp
1
us­
2
False
No
108
periodic
kiln
pk­
1
pk
1
us­
3
False
No
108
periodic
kiln
pk­
2
pk
1
us­
3
False
No
108
periodic
kiln
pk­
3
pk
1
us­
4
False
No
108
periodic
kiln
pk­
4
pk
1
us­
4
False
No
108
periodic
kiln
pk­
5
pk
1
us­
5
False
No
108
periodic
kiln­
idle
pk­
18
pk
1
us­
18
False
No
108
periodic
kiln­
idle
pk­
17
pk
1
us­
17
False
No
108
periodic
kiln
pk­
6
pk
1
us­
6
False
No
108
periodic
kiln­
idle
pk­
15
pk
1
us­
15
False
No
108
periodic
kiln­
idle
pk­
13
pk
1
us­
13
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
216
108
periodic
kiln­
idle
pk­
12
pk
1
us­
12
False
No
108
periodic
kiln­
idle
pk­
14
pk
1
us­
14
False
No
108
periodic
kiln
pk­
8
pk
1
us­
8
False
No
108
periodic
kiln
pk­
7
pk
1
us­
7
False
No
108
periodic
kiln­
idle
pk­
11
pk
1
us­
11
False
No
108
periodic
kiln
pk­
10
pk
1
us­
10
False
No
108
periodic
kiln
pk­
9
pk
1
us­
9
False
No
109
dryer
dp­
2
dp
1
us­
2
False
No
109
mixer
mw­
1
mw
1
fe­
4
False
No
109
dryer
dp­
4
dp
1
us­
4
False
No
109
periodic
kiln
pk­
3
pk
1
us­
6
False
No
109
periodic
kiln
pk­
1
pk
1
us­
5
False
No
109
periodic
kiln
pk­
2
pk
1
us­
5
False
No
109
dryer
dp­
1
dp
1
us­
1
False
No
109
periodic
kiln­
idle
pk­
4
pk
1
us­
7
False
No
109
extruder
fw­
1
extruder
1
fe­
5
False
No
109
periodic
kiln­
idle
pk­
5
pk
1
us­
8
False
No
109
dryer
dp­
3
dp
1
us­
3
False
No
109
storage
mh­
1
mh
1
fe­
1
False
No
109
sizing
gs­
1
gs
1
fe­
2
False
No
109
batching
we­
1
we
1
fe­
3
False
No
110
extruder/
cutter
fw­
1
extruder
1
fe­
2
False
No
110
storage
mh­
1
mh
1
fe­
1
False
No
110
sand
mixer
md­
1
md
1
bhi­
1
False
No
110
mixer
mw­
1
mw
1
bhi­
1
False
No
110
batcher
(
HAP
processor)
we­
1
we
1
bhi­
1
False
No
110
grinding
plant
gs­
1
gs
1
fe­
1
False
No
110
brick
dryer
dc­
1
dc
1
us­
2
False
No
110
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
110
colorer
cta­
1
cta
1
bhi­
1
False
No
111
soft
mud
forming
fw­
1
molding
1
bhi­
2
False
No
111
brick
dryer
dc­
1
dc
1
us­
1
to
us­
6
False
No
111
mixer
mw­
1
mw
1
bhi­
2
False
No
111
batcher
we­
1
we
1
fe­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
217
111
storage
mh­
2
mh
1
fe­
3
False
No
111
storage
mh­
1
mh
1
bhi­
1
False
No
111
screens
s­
1
s
1
bhi­
1
False
No
111
grinding
g­
1
g
1
bhi­
1
False
No
111
sand
dryer
dr­
1
dr­
sand
1
bhi­
4
False
No
111
pre­
heater
misc­
1
predryer
1
us­
7
False
No
111
setting
misc­
2
misc
1
bhi­
3
False
No
111
tunnel
kiln
tk­
1
tk
1
us­
8
True
No
111
crushing
cr­
1
cr
1
bhi­
1
False
No
112
extruder
fw­
1
extruder
1
fe­
5
False
No
112
periodic
kiln
pk­
8
pk
1
us­
1
True
No
112
color
applier
cta­
2
cta
1
bhi­
3
False
No
112
dryer
dc­
1
dc
1
us­
3
to
us­
5
False
No
112
dryer
dc­
2
dc
1
us­
6
False
No
112
glaze
set
shuttle
kiln
misc­
4
glaze
set
kiln
1
us­
10,
us­
18
False
No
112
crusher
cr­
1
cr
1
fe­
1
False
No
112
periodic
kiln
pk­
16
pk
1
us­
2
True
No
112
crusher
cr­
2
cr
1
bhi­
1,2,4,5
False
No
112
crusher
cr­
3
cr
1
bhi­
9
to
bhi­

10
True
No
112
grinder
g­
1
g
1
fe­
2
False
No
112
grinder
g­
2
g
2
bhi­
1,2,4,5
False
No
112
grinder
g­
3
g
3
bhi­
9
to
10
True
No
112
storage
mh­
1
mh
1
fe­
3
False
No
112
storage
mh­
2
mh
1
bhi­
1,3,4,5
False
No
112
storage
mh­
3
mh
1
bhi­
11
False
No
112
scales
we­
1
we
1
fe­
4
False
No
112
dryer
dc­
4
dc
1
us­
14
True
No
112
dryer
dc­
5
dc
1
us­
15
True
No
112
dryer
dc­
6
dc
1
us­
16
True
No
112
Mud
dryer
misc­
3
misc
1
bhi­
8
False
No
112
kiln
tk­
6
tk
1
us­
13
True
No
112
kiln
tk­
5
tk
1
us­
12
True
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
218
112
kiln
tk­
4
tk
1
us­
11
True
No
112
kiln
tk­
3
tk
1
us­
9
True
No
112
kiln
tk­
2
tk
1
us­
9
True
No
112
kiln
tk­
1
tk
1
us­
8
True
No
112
periodic
kiln
pk­
20
pk
1
us­
2
True
No
112
periodic
kiln
pk­
19
pk
1
us­
2
True
No
112
periodic
kiln
pk­
18
pk
1
us­
2
True
No
112
periodic
kiln
pk­
17
pk
1
us­
2
True
No
112
pre
heater
misc­
1
predryer
1
us­
17
False
No
112
periodic
kiln
pk­
1
pk
1
us­
1
True
No
112
periodic
kiln
pk­
2
pk
1
us­
1
True
No
112
periodic
kiln
pk­
3
pk
1
us­
1
True
No
112
periodic
kiln
pk­
4
pk
1
us­
1
True
No
112
periodic
kiln
pk­
5
pk
1
us­
1
True
No
112
periodic
kiln
pk­
6
pk
1
us­
1
True
No
112
periodic
kiln
pk­
7
pk
1
us­
1
True
No
112
periodic
kiln
pk­
9
pk
1
us­
1
True
No
112
periodic
kiln
pk­
10
pk
1
us­
1
True
No
112
extruder
fw­
2
extruder
1
bhi­
3
False
No
112
periodic
kiln
pk­
15
pk
1
us­
2
True
No
112
periodic
kiln
pk­
13
pk
1
us­
2
True
No
112
periodic
kiln
pk­
14
pk
1
us­
2
True
No
112
color
applier
cta­
1
cta
1
fe­
6
False
No
112
extruder
fw­
3
extruder
1
bhi­
11
False
No
112
Mud
dryer
misc­
2
misc
1
bhi­
7
False
No
112
screens
(
11)
s­
3
s
11
bhi­
9,
­
10
False
No
112
screen
s­
2
s
6
bhi­
1,
2,
4,
6
False
No
112
screen
s­
1
s
1
fe­
2
False
No
112
mixer
mw­
3
mw
1
bhi­
11
False
No
112
mixer
mw­
2
mw
1
bhi­
3
False
No
112
mixer
mw­
1
mw
1
fe­
7
False
No
112
scales
(
HAP
processing)
we­
3
we
1
bhi­
11
False
No
112
scales
(
HAP
processing)
we­
2
we
1
bhi­
3
False
No
112
waxer
gz­
2
gz
1
fe­
13
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
219
112
glaze
gz­
1
gz
1
fe­
12
False
No
112
periodic
kiln
pk­
12
pk
1
us­
2
True
No
112
periodic
kiln
pk­
11
pk
1
us­
2
True
No
112
dryer
dc­
3
dc
1
us­
7
False
No
113
batch
dryer
dp­
1
dp
1
us­
3
to
us­
4
False
No
113
dryer
dc­
1
dc
1
us­
2
False
No
113
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
113
crusher
cr­
1
cr
1
fe­
3
False
No
113
pug
mill
mw­
1
mw
1
fe­
4
False
No
113
sand
feeder
we­
1,
we­
3
we
2
fe­
1
to
fe­
2
False
No
113
extruding
fw­
2
extruder
1
fe­
6
False
No
113
clay
feeder
we­
2
we
1
fe­
7
False
No
113
pug
mill
mw­
2
mw
1
fe­
5
False
No
113
wet
forming
fw­
1
extruder
1
fe­
10
False
No
113
pug
mill
mw­
3
mw
1
fe­
11
False
No
113
crushers
cr­
2,
cr­
3
cr
2
fe­
8
to
fe­
9
False
No
114
slurry
mixers
mw­
2
mw
1
fe­
11
False
No
114
additive
feeder
cta­
1
cta
1
fe­
8
False
No
114
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
114
batching
grinding
g­
1
g
1
fe­
2
False
No
114
screening
s­
1
s
1
fe­
3
False
No
114
pug
mill
mw­
1
mw
1
fe­
6
False
No
114
stroage
ru­
2
ru
1
fe­
4
False
No
114
dry
mixing
md­
1
md
1
fe­
5
False
No
114
clay
storage
ru­
1
ru
1
fe­
1
False
No
114
cutting
misc­
1
misc
1
fe­
9
False
No
114
drying
dc­
1
dc
1
us­
2
False
No
114
extruding
fw­
1
extruder
1
fe­
7
False
No
115
hammer
mill
g­
1
g
1
fe­
2
False
No
115
vibrating
screens
s­
1,
s­
2
s
2
fe­
3
to
fe­
4
False
No
115
front
end
loader
md­
1
md
1
fe­
1
False
No
115
pug
mill
mw­
1
mw
1
fe­
6
False
No
115
extruder
fw­
1
extruder
1
fe­
7
False
No
115
hopper
we­
1
we
1
fe­
5
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
220
115
cutting
misc­
1
misc
1
fe­
9
False
No
115
holding
room
misc­
2
predryer
1
us­
3
False
No
115
coloring
cta­
1
cta
1
fe­
8
False
No
115
dryer
dc­
1
dc
1
us­
2
False
No
115
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
116
tunnel
kiln
tk­
1
tk
1
us­
3
False
No
116
cutting/
setting
misc­
1
misc
1
fe­
11
False
No
116
color/
texturer
cta­
1
cta
1
fe­
10
False
No
116
dryer
dc­
1
dc
1
us­
1,
us­
2
False
No
116
mixet
(
wet)
mw­
1
mw
1
fe­
8
False
No
116
storage
ru­
1,
ru­
2
ru
2
fe­
6,
fe­
7
False
No
116
extruder
fw­
1
extruder
1
fe­
9
False
No
116
grinder
g­
1
g
1
fe­
2
False
No
116
crusher
cr­
1
cr
1
fe­
1
False
No
116
screens
s­
1
to
s­
3
s
3
fe­
3
to
fe­
5
False
No
116
periodic
kiln­
idle
pk­
2
pk
1
us­
5
False
No
116
periodic
kiln­
idle
pk­
3
pk
1
us­
6
False
No
116
periodic
kiln­
idle
pk­
1
pk
1
us­
4
False
No
116
periodic
kiln­
idle
pk­
7
pk
1
us­
10
False
No
116
periodic
kiln­
idle
pk­
4
pk
1
us­
7
False
No
116
periodic
kiln­
idle
pk­
5
pk
1
us­
8
False
No
116
periodic
kiln­
idle
pk­
6
pk
1
us­
9
False
No
117
storage
ru­
2
to
ru­
6
ru
5
fe­
9
to
fe­
13
False
No
117
storage
ru­
1
ru
1
fe­
2
False
No
117
mixer
(
wet)
mw­
1
mw
1
fe­
14
False
No
117
extruder
fw­
1
extruder
1
fe­
15
False
No
117
dryer
dc­
3
dc
1
us­
5
to
us­
6
False
No
117
dryer
dc­
1
dc
1
us­
1
to
us­
2
False
No
117
dryer
dc­
2
dc
1
us­
3
to
us­
4
False
No
117
gas
fired
boilers
misc­
1
to
misc­
4
misc
4
us­
11
to
us­
14
False
No
117
dryer
dc­
4
dc
1
us­
7
to
us­
8
False
No
117
dryer
dc­
5
dc
1
us­
9
to
us­
10
False
No
117
periodic
kiln
pk­
2
pk
1
us­
17
tous­
18
False
No
117
glaze
gz­
1
gz
1
us­
61
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
221
117
periodic
kiln
pk­
1
pk
1
us­
15
to
us­
16
False
No
117
periodic
kiln
pk­
5
pk
1
us­
22
False
No
117
periodic
kiln
pk­
3
pk
1
us­
19
to
us­
20
False
No
117
periodic
kiln
pk­
4
pk
1
us­
21
False
No
117
periodic
kiln
pk­
8
pk
1
us­
25
False
No
117
periodic
kiln
pk­
6
pk
1
us­
23
False
No
117
periodic
kiln
pk­
7
pk
1
us­
24
False
No
117
periodic
kiln
pk­
11
pk
1
us­
28
False
No
117
periodic
kiln
pk­
9
pk
1
us­
26
False
No
117
periodic
kiln
pk­
10
pk
1
us­
27
False
No
117
periodic
kiln
pk­
14
pk
1
us­
31
False
No
117
periodic
kiln
pk­
12
pk
1
us­
29
False
No
117
periodic
kiln
pk­
13
pk
1
us­
30
False
No
117
periodic
kiln
pk­
17
pk
1
us­
34
False
No
117
periodic
kiln
pk­
15
pk
1
us­
32
False
No
117
periodic
kiln
pk­
16
pk
1
us­
33
False
No
117
periodic
kiln
pk­
21
pk
1
us­
38
False
No
117
periodic
kiln
pk­
19
pk
1
us­
36
False
No
117
periodic
kiln
pk­
20
pk
1
us­
37
False
No
117
periodic
kiln
pk­
25
pk
1
us­
42
False
No
117
periodic
kiln
pk­
23
pk
1
us­
40
False
No
117
periodic
kiln
pk­
24
pk
1
us­
41
False
No
117
periodic
kiln
pk­
28
pk
1
us­
45
False
No
117
periodic
kiln
pk­
26
pk
1
us­
43
False
No
117
periodic
kiln
pk­
27
pk
1
us­
44
False
No
117
periodic
kiln
pk­
31
pk
1
us­
48
False
No
117
periodic
kiln
pk­
29
pk
1
us­
46
False
No
117
periodic
kiln
pk­
30
pk
1
us­
47
False
No
117
periodic
kiln
pk­
34
pk
1
us­
51
False
No
117
periodic
kiln
pk­
32
pk
1
us­
49
False
No
117
periodic
kiln
pk­
33
pk
1
us­
50
False
No
117
periodic
kiln
pk­
37
pk
1
us­
54
False
No
117
periodic
kiln
pk­
35
pk
1
us­
52
False
No
117
periodic
kiln
pk­
36
pk
1
us­
53
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
222
117
periodic
kiln
pk­
40
pk
1
us­
57
False
No
117
periodic
kiln
pk­
38
pk
1
us­
55
False
No
117
periodic
kiln
pk­
39
pk
1
us­
56
False
No
117
periodic
kiln
pk­
43
pk
1
us­
60
False
No
117
periodic
kiln
pk­
41
pk
1
us­
58
False
No
117
periodic
kiln
pk­
42
pk
1
us­
59
False
No
117
screen
s­
1
to
s­
5
s
5
fe­
4
to
fe­
8
False
No
117
periodic
kiln
pk­
22
pk
1
us­
39
False
No
117
grinder
g­
1
g
1
fe­
3
False
No
117
crusher
cr­
1
cr
1
fe­
1
False
No
117
periodic
kiln
pk­
18
pk
1
us­
35
False
No
118
storage
ru­
1
to
ru­
2
ru
2
fe­
7
to
fe­
8
False
No
118
tunnel
kiln
A
tk­
1
tk
1
us­
4
False
No
118
tunnel
kiln
B
tk­
2
tk
1
us­
5
False
No
118
tunnel
kiln
C
tk­
3
tk
1
us­
6
False
No
118
crushing
cr­
1
to
cr­
2
cr
2
fe­
1
to
fe­
2
False
No
118
grinding
g­
1
to
g­
2
g
2
fe­
3
to
fe­
4
False
No
118
screening
s­
1
to
s­
2
s
2
fe­
5
to
fe­
6
False
No
118
dryer
dc­
3
dc
1
us­
3
False
No
118
pug
mill
mw­
1
to
mw­
2
mw
2
fe­
9
to
fe­
10
False
No
118
extruding
fw­
1
to
fw­
2
extruder
2
fe­
11
to
fe­
12
False
No
118
color/
texture
cta­
1
to
cta­
2
cta
2
fe­
13
to
fe­
14
False
No
118
cutting
misc­
1
misc
1
fe­
15
False
No
118
dryer
dc­
1
dc
1
us­
1
False
No
118
dryer
dc­
2
dc
1
us­
2
False
No
119
screens
s­
1
to
s­
2
s
2
bh­
1
False
No
119
tunnel
kiln
tk­
1
tk
1
us­
4
False
No
119
crusher
cr­
1
cr
1
fe­
1
False
No
119
grinders
g­
1
to
g­
2
g
2
bh­
1
False
No
119
dryer
dc­
2
dc
1
us­
2
False
No
119
storage
ru­
1
ru
1
fe­
2
False
No
119
pug
mill
mw­
1
mw
1
fe­
3
False
No
119
extruder
fw­
1
extruder
1
fe­
4
False
No
119
colorer/
texturer
cta­
1
cta
1
fe­
5
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
223
119
cutting
misc­
1
misc
1
fe­
6
False
No
119
dryer
dc­
1
dc
1
us­
1
False
No
119
holding
room
misc­
1
predryer
1
us­
3
False
No
120
mixer
mw­
1
mw
1
fe­
6
False
No
120
storage
ru­
1
ru
1
fe­
5
False
No
120
screen
s­
2
s
1
fe­
4
False
No
120
extruder
fw­
1
extruder
1
fe­
7
False
No
120
texture
cta­
1
cta
1
fe­
8
False
No
120
grinder
g­
1
g
1
fe­
2
False
No
120
crusher
cr­
1
cr
1
fe­
1
False
No
120
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
120
brick
dryer
dc­
1
dc
1
us­
2
False
No
120
cutter
misc­
1
misc
1
fe­
9
False
No
120
screen
s­
1
s
1
fe­
3
False
No
121
wet
mixer
mw­
1
mw
1
fe­
5
False
No
121
crusher
cr­
1
cr
1
fe­
1
False
No
121
grinder
g­
1
g
1
fe­
2
False
No
121
screens
s­
1
to
s­
2
s
2
fe­
3,
fe­
9
False
No
121
storage
ru­
1
ru
1
fe­
4
False
No
121
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
121
extruder
fw­
1
extruder
1
fe­
6
False
No
121
color
texture
cta­
1
cta
1
fe­
7
False
No
121
cutting
misc­
1
misc
1
fe­
8
False
No
121
dryer
dc­
1
dc
1
us­
2
False
No
122
tunnel
dryer
dc­
1
dc
1
us­
3
to
us­
4
False
No
122
tunnel
kiln
tk­
1
tk
1
us­
5
False
No
122
color
coating
cta­
1
cta
1
fe­
6
False
No
122
sand
dryer
dr­
2
dr­
sand
1
us­
2
False
No
122
stockpile
os­
1
misc
1
fe­
1
False
No
122
pre
screen
s­
1
s
1
fe­
2
False
No
122
grinder
g­
1
g
1
fe­
2
False
No
122
finish
screening
s­
2
s
1
fe­
2
False
No
122
storage
bins
ru­
1
ru
1
fe­
3
False
No
122
put
tubs
mw­
1
mw
1
us­
6
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
224
122
body
additive
storage
mh­
1
mh
1
fe­
7
False
No
122
conveyor
mh­
2
mh
1
fe­
4
False
No
122
extruder
fw­
1
extruder
1
fe­
5
False
No
122
color
mixing
md­
1
md
1
fe­
8
False
No
122
clay
dryer
dr­
1
dr­
clay
1
us­
1
False
No
123
grinders
gr­
1
gr
1
bh­
4
False
No
123
clay
stock
pile
mh­
1
mh
1
fe­
10
False
No
123
crusher
cr­
1
cr
1
fe­
9
False
No
123
crusher
cr­
2
cr
1
ws­
1
False
No
123
storage
bins
mh­
2
to
mh­
3
mh
2
bh­
1
to
bh­
2
False
No
123
storage
bins
mh­
4
mh
1
fe­
7
False
No
123
grinder
g­
1
to
g­
3
g
3
bh­
1
to
bh­
2
False
No
123
screens
s­
1
to
s­
2
s
2
bh­
1
to
bh­
2
False
No
123
tower
bins
we­
1
we
1
fe­
6
False
No
123
pug
mills
mw­
1
to
mw­
3
mw
3
fe­
11
to
fe­
13
False
No
123
extruders
fw­
1
to
fw­
3
extruder
3
fe­
3
to
fe­
5
False
No
123
dryers
dp­
2
dp
1
us­
10
False
No
123
dryers
dp­
3
dp
1
us­
10
False
No
123
dryers
dp­
4
dp
1
us­
10
False
No
123
dryers
dp­
5
dp
1
us­
10
False
No
123
dryers
dp­
6
dp
1
us­
10
False
No
123
dryers
dp­
7
dp
1
us­
10
False
No
123
dryers
dp­
8
dp
1
us­
10
False
No
123
dry
finish
cta­
1
cta
1
bh­
3
False
No
123
glazing
gz­
1
gz
1
sc­
1
False
No
123
tunnel
kiln
tk­
1
tk
1
us­
5
True
No
123
tunnel
kiln
tk­
2
tk
1
us­
8
True
No
123
periodic
kiln
pk­
1
pk
1
us­
1
False
No
123
periodic
kiln
pk­
14
pk
1
us­
7
False
No
123
periodic
kiln
pk­
15
pk
1
us­
6
False
No
123
periodic
kiln
pk­
13
pk
1
us­
4
False
No
123
grinders
g­
2
g
1
bh­
4
False
No
123
periodic
kiln
pk­
2
pk
1
us­
1
False
No
123
periodic
kiln
pk­
3
pk
1
us­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
225
123
periodic
kiln
pk­
4
pk
1
us­
2
False
No
123
periodic
kiln
pk­
5
pk
1
us­
2
False
No
123
periodic
kiln
pk­
6
pk
1
us­
2
False
No
123
periodic
kiln
pk­
7
pk
1
us­
3
False
No
123
periodic
kiln
pk­
8
pk
1
us­
3
False
No
123
periodic
kiln
pk­
9
pk
1
us­
3
False
No
123
periodic
kiln
pk­
10
pk
1
us­
4
False
No
123
periodic
kiln
pk­
11
pk
1
us­
4
False
No
123
periodic
kiln
pk­
12
pk
1
us­
4
False
No
123
Prouty
kiln
(
tk)­
idle
tk­
3
tk­
idle
1
us­
11
False
No
124
mixing
mw­
1
mw
1
fe­
2
False
No
124
crusher
cr­
1
cr
1
us­
1
False
No
124
grinding
g­
1
g
1
bh­
1
to
bh­
2
False
No
124
screen
s­
1
s
1
bh­
2
False
No
124
storage
mh­
1
mh
1
fe­
1
False
No
124
rotary
dryer
dr­
1
dr­
sand
1
bh­
3
False
No
124
extruder
fw­
1
extruder
1
bh­
3
False
No
124
coloring
cta­
1
cta
1
bh­
3
False
No
124
dryer
dc­
1
dc
1
us­
2
False
No
124
kiln
tk­
1
tk
1
us­
3
False
No
124
sand
mixer
md­
1
md
1
bh­
3
False
No
124
sand
mixer
md­
2
md
1
bh­
3
False
No
125
periodic
kiln
pk­
5
pk
1
us­
6
False
No
125
periodic
kiln
pk­
3
pk
1
us­
4
False
No
125
periodic
kiln
pk­
4
pk
1
us­
5
False
No
125
pugmill
mw­
1
mw
1
fe­
6
False
No
125
crusher
cr­
1
cr
1
fe­
1
False
No
125
screen
s­
1,
s­
2
s
2
fe­
2,
fe­
4
False
No
125
grinder
g­
1
g
1
fe­
3
False
No
125
storage
mh­
1
mh
1
fe­
5
False
No
125
periodic
kiln
pk­
2
pk
1
us­
3
False
No
125
extruder
fw­
1
extruder
1
fe­
7
False
No
125
coating
cta­
1
cta
1
fe­
8
False
No
125
dryer
dc­
1
dc
1
us­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
226
125
periodic
kiln
pk­
1
pk
1
us­
2
False
No
126
screen
s­
1
s
1
fe­
2
False
No
126
decinerator
g­
1
g
1
fe­
1
False
No
126
periodic
kiln
pk­
6
pk
1
us­
6
False
No
126
storage
mh­
1
mh
1
fe­
3
False
No
126
pugmill
mw­
1
mw
1
fe­
4
False
No
126
extruder
fw­
1
extruder
1
fe­
5
False
No
126
sand
coating
cta­
1
cta
1
fe­
6
False
No
126
holding
room
misc­
1
predryer
1
us­
8
False
No
126
dryer
dc­
1
dc
1
us­
7
False
No
126
periodic
kiln
pk­
1
pk
1
us­
1
False
No
126
periodic
kiln
pk­
2
pk
1
us­
2
False
No
126
periodic
kiln
pk­
3
pk
1
us­
3
False
No
126
periodic
kiln
pk­
4
pk
1
us­
4
False
No
126
periodic
kiln
pk­
5
pk
1
us­
5
False
No
127
screen
s­
1
to
s­
2
s
2
fe­
1
False
No
127
feeder
mh­
1
mh
1
fe­
1
False
No
127
dry
pan
g­
1
g
1
fe­
1
False
No
127
periodic
kiln
pk­
2
pk
1
us­
2
False
No
127
feeder
mh­
2
mh
1
fe­
1
False
No
127
extruder
fw­
1
extruder
1
fe­
3
False
No
127
dryer
dc­
1
dc
1
us­
7
to
us­
8
True
No
127
periodic
kiln
pk­
1
pk
1
us­
1
False
No
127
mixer
mw­
1
mw
1
fe­
2
False
No
127
periodic
kiln
pk­
3
pk
1
us­
3
False
No
127
periodic
kiln
pk­
4
pk
1
us­
4
False
No
127
periodic
kiln
pk­
5
pk
1
us­
5
False
No
127
periodic
kiln
pk­
6
pk
1
us­
6
True
No
128
mixer
mw­
1
mw
1
fe­
5
False
No
128
grinder
g­
1
g
1
fe­
3
False
No
128
screen
s­
1
s
1
fe­
4
False
No
128
dryer
dc­
1
dc
1
us­
1
True
No
128
extruder
fw­
1
extruder
1
fe­
6
False
No
128
holding
room
misc­
1
predryer
1
fe­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
227
128
holding
room
misc­
2
predryer
1
fe­
2
False
No
128
dryer
dc­
2
dc
1
us­
2
False
No
128
kiln
tk­
1
tk
1
da­
1
True
No
128
coloring
cta­
1
cta
1
bh­
1
False
No
129
dryer
dc­
2
dc
1
us­
3
False
No
129
holding
room
misc­
1
predryer
1
us­
1
False
No
129
grinding
room
gs­
1
gs
1
fe­
1
False
No
129
kiln
tk­
1
tk
1
us­
4
True
No
129
dryer
dc­
1
dc
1
us­
2
True
No
129
coloring
cta­
1
cta
1
bh­
1
False
No
129
extruder
fw­
1
extruder
1
fe­
3
False
No
129
mixer
mw­
1
mw
1
fe­
2
False
No
130
grinding
plant
gs­
1
gs
1
fe­
1
False
No
130
extruder/
cutter
fw­
1
extruder
1
fe­
5
False
No
130
tunnel
kiln
tk­
1
tk
1
us­
3
False
No
130
brick
dryer
dc­
1
dc
1
us­
1
to
us­
2
False
No
130
tunnel
kiln
tk­
2
tk
1
us­
4
False
No
130
storage
mh­
1
mh
1
fe­
2
False
No
130
batching
we­
1
we
1
fe­
3
False
No
130
mixing
mw­
1
mw
1
fe­
4
False
No
131
primary
crusher
cr­
1
cr
1
fe­
6
False
No
131
dryer
dc­
1
dc
1
us­
4
False
No
131
dryer
dc­
3
dc
1
us­
5
False
No
131
tunnel
kiln
tk­
1
tk
1
us­
6
True
No
131
tunnel
kiln
tk­
2
tk
1
us­
7
False
No
131
sand
dryer
dr­
1
dr­
sand
1
bh­
1
False
No
131
sand
mixing
area
md­
1
md
1
us­
1
to
us­
2
False
No
131
holding
room
misc­
2
predryer
1
us­
3
False
No
131
dryer
dc­
4
dc
1
us­
5
False
No
131
screen
s­
1
s
1
fe­
12
False
No
131
grinder
g­
1
g
1
fe­
13
False
No
131
cutter/
setter
misc­
1
misc
1
fe­
5
False
No
131
coating/
texture
cta­
1
cta
1
fe­
4
False
No
131
extruder
fw­
1
extruder
1
fe­
3
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
228
131
mixer
mw­
1
mw
1
fe­
1
False
No
131
mixer
mw­
2
mw
1
fe­
2
False
No
131
disintegrating
g­
2
g
1
fe­
9
False
No
131
disintegrating
g­
3
g
1
fe­
11
False
No
131
hopper
mh­
1
mh
1
fe­
15
False
No
131
smooth
rolling
misc­
3
misc
1
fe­
10
False
No
131
feeder
mh­
3,
mh­
6
mh
2
fe­
8,
fe­
16
False
No
131
additive/
coating
mh­
5
mh
1
fe­
17
False
No
131
sand
storage
mh­
4
mh
1
fe­
14
False
No
131
dryer
dc­
2
dc
1
us­
4
False
No
132
hopper
mh­
5
mh
1
fe­
9
False
No
132
kiln
tk­
1
tk
1
us­
7
False
No
132
storage
mh­
3
mh
1
fe­
5
False
No
132
hopper
mh­
1
mh
1
fe­
4
False
No
132
feeder
mh­
2
mh
1
fe­
3
False
No
132
pug
mills
2
mw­
1
to
mw­
2
mw
2
fe­
2
to
fe­
19
False
No
132
forming/
coating
fw­
1
to
fw­
3
extruder
3
us­
10,
us­
11,
us­
13
False
No
132
holding
misc­
2
predryer
1
fe­
1
False
No
132
dryers
dc­
1
dc
1
us­
1
False
No
132
setting
misc­
1
misc
1
us­
12
False
No
132
dryer
dc­
2
dc
1
us­
2
False
No
132
dryer
dc­
3
dc
1
us­
3
False
No
132
dryer
dc­
4
dc
1
us­
4
False
No
132
dryer
dc­
5
dc
1
us­
5
False
No
132
dryer
dc­
6
dc
1
us­
6
False
No
132
storage
mh­
4
mh
1
fe­
8
False
No
132
feeder
mh­
6
mh
1
fe­
10
False
No
132
pug
mill
3
mw­
3
mw
1
fe­
11
False
No
132
pug
mill
mw­
4
mw
1
fe­
12
False
No
132
pug
mill
mw­
5
mw
1
fe­
13
False
No
132
extruder
fw­
4
extruder
1
fe­
14
False
No
132
special
dryer
2
dc­
7
dc
1
us­
8
False
No
132
special
dryer
2
dc­
8
dc
1
us­
9
False
No
133
dryer
dc­
1
dc
1
us­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
229
133
sand
coater
cta­
1
cta
1
bh­
1
False
No
133
tunnel
kiln
plant
3
tk­
1
tk
1
us­
11,
us­
12
False
No
133
tunnel
kiln
plant
3
tk­
2
tk
1
us­
9,
us­
10
True
No
133
tunnel
kiln
plant
5
tk­
3
tk
1
us­
18
True
No
133
dryer
dc­
9
dc
1
us­
15
to
us­
17
False
No
133
sand
coater
cta­
2
cta
1
bh­
2
False
No
133
rotary
mixer
2
mw­
1
to
mw­
2
mw
2
us­
1
to
us­
2
False
No
133
fluid
bed
dryer
1
dr­
1
dr­
clay
1
us­
3
False
No
133
feeders
28
mh­
1
to
mh­
28
mh
28
fe­
1
to
fe­
28
False
No
133
hoppers
8
mh­
29
to
mh­
36
mh
8
fe­
29
to
fe­
36
False
No
133
storage
bins
44
ru­
1
to
ru­
44
ru
44
fe­
37
to
fe­
80
False
No
133
pug
mill
6
mw­
3
to
mw­
8
mw
6
fe­
81
to
fe­
86
False
No
133
crushers
7
cr­
1
to
cr­
7
cr
7
fe­
87
to
fe­
93
False
No
133
extruders
5
fw­
1
to
fw­
5
extruder
5
fe­
94
to
fe­
98
False
No
133
mills
3
g­
1
to
g­
3
g
3
fe­
99
to
fe­
101
False
No
133
screens
9
s­
1
to
s­
9
s
9
fe­
102
to
fe­
110
False
No
133
dryer
dc­
2
dc
1
us­
2
False
No
133
dryer
dc­
3
dc
1
us­
3
False
No
133
dryer
dc­
4
dc
1
us­
4
False
No
133
dryer
dc­
5
dc
1
us­
5
False
No
133
dryer
dc­
6
dc
1
us­
6
False
No
133
dryer
dc­
7
dc
1
us­
7
False
No
133
dryer
dc­
8
dc
1
us­
8
False
No
134
extruder
fw­
1
extruder
1
fe­
40
False
No
134
wet
pan
grinder
g­
1
g
1
ws­
1
False
No
134
screens
s­
1
to
s­
2
s
2
fe­
36
to
fe­
37
False
No
134
tank
mw­
1
mw
1
fe­
38
False
No
134
mixer
mw­
2
mw
1
fe­
39
False
No
134
blue/
brown
separator
misc­
1
misc
1
fe­
34
False
No
134
dyeing
cta­
1
cta
1
fe­
41
False
No
134
tunnel
kiln
tk­
1
tk
1
us­
4
False
No
134
tunnel
kiln
tk­
2
tk
1
us­
5
False
No
134
tunnel
kiln
tk­
3
tk
1
us­
6
False
No
134
tunnel
dryer
dc­
1
dc
1
us­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
230
134
tunnel
dryer
dc­
2
dc
1
us­
2
False
No
134
tunnel
dryer
dc­
3
dc
1
us­
3
False
No
134
conveyors
mh­
4
to
mh­
27
mh
24
fe­
7
to
fe­
30
False
No
134
front
end
loaders
mh­
1
to
mh­
3
mh
3
fe­
4
to
fe­
6
False
No
134
storage
os­
1
to
os­
2
misc
2
fe­
1
to
fe­
2
False
No
134
crusher
cr­
1
cr
1
fe­
2
False
No
134
crusher
cr­
2
cr
1
fe­
33
False
No
134
storage
os­
3
misc
1
fe­
35
False
No
135
dryers
dc­
1
dc
1
us­
4
False
No
135
color
application
cta­
1
to
cta­
2
cta
2
fe­
6,
fe­
12
False
No
135
crusher
cr­
2
cr
1
fe­
7
False
No
135
mixers
mw­
1
to
mw­
2
mw
2
fe­
4,
fe­
10
False
No
135
dryer
dc­
2
dc
1
us­
5
False
No
135
dryer
dc­
3
dc
1
us­
6
False
No
135
screens
s­
3
to
s­
4
s
2
fe­
9
False
No
135
kiln
1
tk­
1
tk
1
us­
1
True
No
135
extruder
fw­
1
to
fw­
2
extruder
2
fe­
5,
fe­
11
False
No
135
crusher
cr­
1
cr
1
fe­
1
False
No
135
screens
s­
1
to
s­
2
s
2
fe­
3
False
No
135
hammermill
g­
1
g
1
fe­
2
False
No
135
kiln
3
tk­
3
tk
1
us­
3
True
No
135
kiln
2
tk­
2
tk
1
us­
2
True
No
135
hammermill
g­
2
g
1
fe­
8
False
No
136
mixer
mw­
1
mw
1
fe­
2
False
No
136
screen
s­
1
s
1
fe­
4
False
No
136
color/
texture
cta­
1
cta
1
bh­
1
False
No
136
extruder
fw­
1
extruder
1
fe­
3
False
No
136
storage
mh­
1
mh
1
fe­
1
False
No
136
setting
misc­
1
misc
1
bh­
1
False
No
136
dryer
dc­
1
dc
1
us­
2
False
No
136
arch
grinder
gr­
1
gr
1
bh­
3
False
No
136
tunnel
kiln
tk­
1
tk
1
us­
4
False
No
136
grinder
g­
1
g
1
bh­
1
False
No
136
coal
prep
cc­
1
cc
1
bh­
2
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
231
136
crusher
cr­
1
cr
1
us­
1
False
No
136
dryer
dc­
2
dc
1
us­
2
False
No
136
dryer
dc­
3
dc
1
us­
3
False
No
136
dryer
dc­
4
dc
1
us­
3
False
No
137
brick
packing
misc­
1
misc
1
cy­
3
False
No
137
sand
applicator
cta­
2
cta
1
cy­
2
False
No
137
tunnel
kiln
tk­
1
tk
1
ds­
1
True
No
137
tunnel
kiln
tk­
2
tk
1
ds­
1
True
No
137
tunnel
kiln
tk­
3
tk
1
us­
4
True
No
137
sand
mixer
app.
cta­
1
cta
1
cy­
1
False
No
137
tunnel
kiln
low
profile,

fast
fire
tk­
5
tk
1
us­
3
True
No
137
mixer
mw­
1
to
mw­
3
mw
3
fe­
1
to
fe­
3
False
No
137
extruder
fw­
1
to
fw­
3
extruder
3
fe­
4
to
fe­
6
False
No
137
sawdust
dryer
w/
cydone
ds­
1
ds
1
us­
1
False
No
137
sawdust
dryer
w/
cydone
ds­
2
ds
1
us­
2
False
No
137
tunnel
kiln
tk­
4
tk
1
us­
4
True
No
137
storage
mh­
1
mh
1
fe­
7
False
No
137
crusher
cr­
1
cr
1
fe­
8
False
No
137
crusher
cr­
2
cr
1
fe­
9
False
No
137
grinders
(
4)
g­
1
g
4
fe­
10
False
No
137
storage
mh­
2
mh
1
fe­
4
False
No
137
dryers
dc­
1
dc
1
us­
5
False
No
137
dryers
dc­
2
dc
1
us­
6
False
No
137
dryers
dc­
3
dc
1
us­
7
False
No
137
screens
(
16)
s­
1
s
16
fe­
10
False
No
137
tunnel
kiln
tk­
6
tk
1
us­
9
False
No
137
dryers
dc­
4
dc
1
us­
8
False
No
137
mixer
md­
1
md
1
cy­
1
False
No
138
mixer
dry
md­
1
md
1
fe­
3
False
No
138
tunnel
kiln
tk­
1
tk
1
us­
5
True
No
138
dryer
tunnel
dc­
2
dc
1
us­
3
False
No
138
dryer
tunnel
dc­
3
dc
1
us­
4
False
No
138
raw
storage
mh­
1
mh
1
fe­
2
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
232
138
mixer
sand
md­
2
md
1
fe­
10
False
No
138
grinder
g­
1
g
1
fe­
4
False
No
138
mixer
wet
mw­
1
mw
1
fe­
5
False
No
138
extruder
fw­
1
extruder
1
fe­
6
False
No
138
color/
texture
cta­
1
cta
1
fe­
7
False
No
138
crusher
cr­
2
cr
1
fe­
9
False
No
138
setting
misc­
1
misc
1
fe­
8
False
No
138
tunnel
dryer
dc­
1
dc
1
us­
2
False
No
138
rotary
dryer
dr­
1
dr­
sand
1
us­
1
False
No
138
crusher
cr­
1
cr
1
fe­
1
False
No
139
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
139
screening
s­
1
s
1
oc­
1
False
No
139
storage
mh­
1
mh
1
fe­
1
False
No
139
storage
mh­
2
mh
1
fe­
4
False
No
139
mixer
mw­
1
mw
1
fe­
2
False
No
139
extruder
fw­
1
extruder
1
fe­
3
False
No
139
dryer
dc­
1
dc
1
us­
1
False
No
139
crushing
2
cr­
1
cr
2
oc­
1
False
No
140
screening
s­
1
s
1
us­
4
False
No
140
mixing
md­
1
md
1
us­
5
False
No
140
brick
machine
mw­
1
mw
1
us­
5
False
No
140
dryer
dc­
1
dc
1
us­
1
False
No
140
shapes
dryer
dc­
2
dc
1
us­
2
False
No
140
hammermills
2
g­
1
g
2
us­
4
False
No
140
tunnel
kiln
tk­
1
tk
1
us­
3
False
No
140
color/
texture
cta­
1
cta
1
fe­
1
False
No
141
clay
grinding
and
screening
gs­
1
gs
1
bh­
1
False
No
141
raw
materials
storage
ru­
1
ru
1
us­
2
False
No
141
glaze
mixing
mw­
1
mw
1
fe­
1
False
No
141
glaze
grinding
g­
1
g
1
fe­
2
False
No
141
grog
crusher
cr­
1
grog
cr
1
us­
1
False
No
141
clay
crushing
cr­
2
cr
1
bh­
1
False
No
141
tunnel
kiln
tk­
1
tk
1
us­
4
True
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
233
141
pug
mill
mw­
2
mw
1
fe­
3
False
No
141
extrusion
fw­
1
extruder
1
fe­
4
False
No
141
glazing
gz­
1
gz
1
fe­
5
False
No
141
dryer
dc­
1
dc
1
us­
3
False
No
142
periodic
kiln­
idle
pk­
11
pk
1
us­
10
False
No
142
mill
g­
1
g
1
fe­
1
False
No
142
storage
mh­
1
mh
1
fe­
3
False
No
142
screen
s­
1
s
1
fe­
2
False
No
142
periodic
kiln
pk­
1
pk
1
us­
3
False
No
142
kiln
tk­
1
tk
1
us­
1
False
No
142
periodic
kiln
pk­
6
pk
1
us­
5
False
No
142
scale
we­
1
we
1
fe­
4
False
No
142
mixer
mw­
1
mw
1
fe­
5
False
No
142
forming
fw­
1
extruder
1
fe­
6
False
No
142
dryers
dp­
1
dp
1
us­
10
False
No
142
dryers
dp­
2
dp
1
us­
11
False
No
142
dryers
dp­
3
dp
1
us­
12
False
No
142
dryers
dp­
4
dp
1
us­
13
False
No
142
periodic
kiln
pk­
9
pk
1
us­
8
False
No
142
periodic
kiln
pk­
10
pk
1
us­
9
False
No
142
periodic
kiln­
idle
pk­
12
pk
1
us­
11
False
No
142
periodic
kiln­
idle
pk­
13
pk
1
us­
12
False
No
142
periodic
kiln
pk­
7
pk
1
us­
6
False
No
142
periodic
kiln
pk­
3
pk
1
us­
4
False
No
142
periodic
kiln
pk­
5
pk
1
us­
5
False
No
142
periodic
kiln
pk­
4
pk
1
us­
4
False
No
142
dryers
dp­
5
dp
1
us­
14
False
No
142
periodic
kiln
pk­
2
pk
1
us­
3
False
No
142
periodic
kiln
pk­
8
pk
1
us­
7
False
No
142
pre
heater
misc­
2
predryer
1
us­
2
False
No
143
kiln
tk­
2
tk
1
us­
2
True
No
143
grinding
gs­
1
gs
1
fe­
11
False
No
143
dryer
dc­
2
dc
1
us­
4
to
us­
5
True
No
143
kiln
tk­
1
tk
1
us­
1
True
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
234
143
extruder
fw­
1
to
fw­
2
extruder
2
fe­
1
to
fe­
2
False
No
143
mixer
mw­
1,
mw­
2
mw
2
fe­
3
to
fe­
4
False
No
143
dryer
dc­
1
dc
1
us­
3
False
No
143
crusher
cr­
1
to
cr­
2
cr
2
fe­
12
to
fe­
13
False
No
143
rotary
kiln
ca­
1
ca
1
us­
6
sc­
1
True
No
143
rotary
dryer
dr­
1
dr­
sand
1
sc­
1
False
No
143
material
handling
mh­
1
to
mh­
6
mh
6
fe­
5
to
fe­
10
False
No
144
extruder
fw­
1
extruder
1
bh­
1
False
No
144
tunnel
kiln
tk­
1
tk
1
us­
1
True
No
144
Mn
feeder
belt
mh­
3
mh
1
fe­
15
False
No
144
brick
dryer
dc­
1
dc
1
us­
2
True
No
144
holding
room
misc­
2
predryer
1
fe­
14
False
No
144
storage
pils
os­
1
to
os­
6
misc
6
fe­
1
to
fe­
6
False
No
144
screens
s­
1
to
s­
3
s
3
fe­
9
to
fe­
11
False
No
144
tank
conveyor
mh­
2
mh
1
fe­
16
False
No
144
cutter
misc­
1
misc
1
fe­
12
False
No
144
sand
feeder
mh­
4
mh
1
bhi­
2
False
No
144
tusture
cta­
1
cta
1
fe­
13
False
No
144
clay
hopper
mh­
1
mh
1
fe­
7
False
No
144
manganese
loader
mh­
5
to
mh­
7
mh
3
bhi­
3
False
No
144
white
tank
misc­
3
misc
1
fe­
8
False
No
144
crusher
cr­
1
cr
1
bhi­
4
False
No
144
pug
mill
mw­
1
mw
1
bhi­
1
False
No
144
ted
tank
misc­
4
misc
1
fe­
17
False
No
145
bins
4
mh­
1
to
mh­
4
mh
4
us­
2
False
No
145
grinder
g­
1
g
1
us­
1
False
No
145
tunnel
kiln­
idle
tk­
2
tk­
idle
1
us­
5
False
No
145
kiln
tk­
1
tk
1
us­
4
False
No
145
dryer
dc­
2
dc
1
us­
3
False
No
145
dryer
dc­
1
dc
1
us­
3
False
No
145
coloring/
texturer
cta­
1
cta
1
us­
2
False
No
145
extruder
fw­
1
extruder
1
us­
2
False
No
145
mixer
mw­
1
mw
1
us­
2
False
No
145
mixer
md­
1
md
1
fe­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
235
145
screens
3
s­
1
to
s­
3
s
3
us­
1
False
No
146
cutters
misc­
1
to
misc­
2
misc
2
fe­
49
to
fe­
50
False
No
146
pug
mills
mw­
1
to
mw­
4
mw
4
fe­
51
to
fe­
54
False
No
146
press
(
follows
extruder)
fw­
5
misc
1
fe­
59
False
No
146
hopper
mh­
1
mh
1
fe­
60
False
No
146
feeders
mh­
2
to
mh­
3
mh
2
fe­
61,
fe­
62
False
No
146
grouping
belts
mh­
4
to
mh­
5
mh
2
fe­
63
to
fe­
64
False
No
146
silos
ru­
15
to
ru­
17
ru
3
bh­
2
cy­
1
False
No
146
magnetic
seperators
mh­
6
to
mh­
11
mh
6
fe­
30
to
fe­
35
False
No
146
conveyors
mh­
22
to
mh­
51
mh
29
fe­
1
to
fe­
29
False
No
146
periodic
kiln
pk­
1
pk
1
us­
5
False
No
146
dryer
dc­
1
dc
1
us­
1
False
No
146
dryer
dc­
3
dc
1
us­
3
False
No
146
dryer
dc­
2
dc
1
us­
2
False
No
146
tunnel
kiln
tk­
1
tk
1
us­
6
False
No
146
tunnel
kiln
tk­
2
tk
1
us­
7
False
No
146
tunnel
kiln
tk­
3
tk
1
us­
8
False
No
146
conveyor
belts
mh­
11
to
mh­
21
mh
11
bh­
2
cy­
1
False
No
146
screens
s­
1
to
s­
5
s
5
bh­
2
cy­
1
False
No
146
hammer
mill
g­
1
g
1
bh­
1
False
No
146
crusher
cr­
1
cr
1
bh­
1
False
No
146
extruders
fw­
1
to
fw­
4
extruder
4
fe­
55
to
fe­
58
False
No
147
coatings
cta­
1
cta
1
bh­
2
False
No
147
jaw
crusher
cr­
1
cr
1
fe­
1
False
No
147
precursher
cr­
2
cr
1
fe­
2
False
No
147
screens
s­
1
to
s­
2
s
2
bh­
1
True
No
147
storage
bins
ru­
1
ru
1
fe­
4
False
No
147
minicrusher
cr­
3
cr
1
fe­
5
False
No
147
sand
dryer
dr­
1
dr­
sand
1
bh­
2
False
No
147
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
147
brick
tumbler
misc­
2
misc
1
fe­
8
False
No
147
conveyors
17
mh­
1
to
mh­
17
mh
17
fe­
8
to
fe­
24
False
No
147
dryer
dc­
1
dc
1
us­
2
False
No
147
soak
bins
ru­
2
ru
1
fe­
7
True
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
236
147
hammer
mill
g­
1
g
1
bh­
1
True
No
147
extruder
fw­
1
extruder
1
fe­
6
False
No
147
premixer
mw­
1
mw
1
bh­
1
True
No
147
clay
stock
pile
os­
1
misc
1
fe­
3
False
No
148
crusher
cr­
1
cr
1
fe­
1
False
No
148
dryer
dc­
1
dc
1
us­
1
False
No
148
color
application
cta­
1
cta
1
bh­
2
True
No
148
extruder
feed
mh­
2
mh
1
bh­
2
True
No
148
mixer
mw­
1
mw
1
fe­
3
False
No
148
storage
mh­
1
mh
1
fe­
2
False
No
148
grinding
g­
1
g
2
bh­
1
True
No
148
screening
s­
1
s
4
bh­
1
True
No
148
Tunnel
kiln
tk­
1
tk
1
da­
1
True
No
149
grinders
g­
1
to
g­
2
g
2
fe­
2
to
fe­
3
False
No
149
screens
s­
1
to
s­
5
s
5
fe­
4
to
fe­
8
False
No
149
storage
mh­
1
mh
1
fe­
9
False
No
149
reclaimer
mh­
2
mh
1
fe­
13
False
No
149
sand
mixer
md­
1
md
1
fe­
10
bh­
1
False
No
149
tunnel
kiln
tk­
1
tk
1
us­
1
True
No
149
dryer
dc­
1
dc
1
us­
3
False
No
149
crusher
cr­
1
cr
1
fe­
1
False
No
149
dryer
dc­
2
dc
1
us­
4
False
No
150
extruder
fw­
1
to
fw­
3
extruder
3
fe­
10
to
fe­
12
False
No
150
grinding
plant
gs­
1
gs
1
fe­
3
False
No
150
plant
1
splitting
tower
mh­
1
mh
1
fe­
4
False
No
150
30­
50
splitting
tower
mh­
2
mh
1
fe­
5
False
No
150
diversion
tower
mh­
3
mh
1
fe­
6
False
No
150
30
pug
mill
mw­
1
mw
1
fe­
7
False
No
150
50
pug
mill
mw­
2
mw
1
fe­
8
False
No
150
90
pug
mill
mw­
3
mw
1
fe­
9
False
No
150
crusher
cr­
1
cr
1
fe­
2
False
No
150
color
addition
cta­
1
to
cta­
2
cta
2
sc­
1
False
No
150
color
additon
cta­
3
cta
1
bh­
1
False
No
150
colorant
mixer
md­
1
to
md­
2
md
2
sc­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
237
150
colorant
dryer
dr­
1
dr­
sand
1
sc­
1
False
No
150
holding
room
misc­
1
to
misc­
2
predryer
2
us­
3
to
us­
4
False
No
150
dryer
dc­
1
dc
1
us­
1
False
No
150
dryer
dc­
2
dc
1
us­
2
False
No
150
tunnel
kiln
tk­
1
tk
1
diff­
1
False
No
150
tunnel
kiln
tk­
2
tk
1
diff­
2
True
No
150
crusher
stockpile
os­
1
misc
1
fe­
1
False
No
151
dryer
dc­
3
dc
1
us­
3
False
No
151
periodic
kiln
pk­
2
pk
1
us­
8
False
No
151
periodic
kiln
pk­
3
pk
1
us­
9
False
No
151
extruding
fw­
2
extruder
1
fe­
2
False
No
151
grinding/
screening
gs­
2
gs
1
fe­
1
False
No
151
coloring
cta­
1
cta
1
bh­
1
True
No
151
cutting
misc­
2
misc
1
bh­
1
True
No
151
stockpiling
mh­
1,
mh­
3
mh
2
fe­
6,
fe­
8
False
No
151
grinding/
screens
gs­
1
gs
1
bh­
2
True
No
151
storage
mh­
2
mh
1
fe­
4
False
No
151
mixing
mw­
1
mw
1
fe­
7
False
No
151
extruding
fw­
1
extruder
1
fe­
2
False
No
151
slurry
cta­
1
cta
1
fe­
3
False
No
151
holding
room
misc­
1
predryer
1
us­
6
True
No
151
drying
dc­
1
dc
1
us­
1
True
No
151
kiln
tk­
1
tk
1
dls­
1
True
No
151
dryer
dc­
2
dc
1
us­
2
False
No
151
periodic
kiln
pk­
1
pk
1
us­
7
False
No
151
mixing
mw­
2
mw
1
fe­
7
False
No
151
periodic
kiln
pk­
4
pk
1
us­
10
False
No
151
periodic
kiln
pk­
5
pk
1
us­
11
False
No
151
periodic
kiln
pk­
6
pk
1
us­
12
False
No
152
extruder
fw­
1
extruder
1
fe­
7
False
No
152
mixing
md­
1
md
1
fe­
2
False
No
152
grinding
g­
1
g
1
fe­
3
False
No
152
screening
s­
1
s
1
fe­
4
False
No
152
storage
mh­
2
mh
1
fe­
5
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
238
152
mixing
mw­
1
mw
1
fe­
6
False
No
152
storage
mh­
1
mh
1
fe­
1
False
No
152
dryer
dc­
1
dc
1
us­
3
False
No
152
dryer
dc­
2
dc
1
us­
4
False
No
152
crusher
cr­
1
cr
1
fe­
8
False
No
152
tunnel
kiln
tk­
1
tk
1
us­
1
True
No
152
tunnel
kiln
tk­
2
tk
1
us­
2
True
No
153
sizing
gr­
1
gr
1
bh­
3
False
No
153
tunnel
kiln
tk­
2
tk
1
us­
9
to
us­
10
False
No
153
mixing
mw­
1
mw
1
bh­
2
cy­
1
False
No
153
glaze
prep
mw­
2
to
mw­
6
mw
5
fe­
8
False
No
153
screen
s­
7
s
1
bh­
1
False
No
153
storage
bin
ru­
5
to
ru­
6
ru
2
bh­
1
False
No
153
fire
brick
dryer
dp­
3
dp
1
us­
12
False
No
153
dry
pan
crusher
g­
3
g
1
bh­
1
False
No
153
tunnel
kiln
tk­
1
tk
1
us­
7
to
us­
8
False
No
153
fire
brick
dryer
dp­
2
dp
1
us­
11
False
No
153
tile
dryer
dp­
1
dp
1
us­
1
to
us­
2
False
No
153
glaze
booth
gz­
8
to
gz­
11
gz
4
us­
3
to
us­
6
False
No
153
glazing
gz­
1
to
gz­
7
gz
7
fe­
9
to
fe­
15
False
No
153
presses
fd­
1
to
fd­
2
fd
2
fe­
6
False
No
153
crushing
cr­
1
cr
1
fe­
1
False
No
153
fire
brick
dryer
dp­
4
dp
1
us­
13
False
No
153
extruder
fw­
1
extruder
1
fe­
7
False
No
153
storage
ru­
1
to
ru­
4
ru
4
fe­
5
False
No
153
screens
s­
1
to
s­
6
s
6
fe­
4
False
No
153
grinding
g­
1
to
g­
2
g
2
fe­
3
False
No
153
storage
ru­
7
ru
1
fe­
2
False
No
154
storage
mh­
1
mh
1
bh­
4
False
No
154
raw
material
stroage
piles
os­
1
misc
1
fe­
18
False
No
154
screen
s­
1
s
1
bh­
2
to
bh­
3
False
No
154
loader
material
mixing
ru­
1
ru
1
fe­
17
False
No
154
crusher
cr­
1
cr
1
bh­
1
False
No
154
grinder
g­
1
g
1
bh­
2
to
bh­
3
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
239
154
drip
slurry
cta­
1
cta
1
fe­
16
False
No
154
storage
mh­
2
mh
1
fe­
1
False
No
154
storage
mh­
3
to
mh­
4
mh
2
bh­
5,­
7,­
9
False
No
154
mixer
mw­
1
to
mw­
2
mw
2
fe­
2
to
fe­
3
False
No
154
mixer
mw­
3
to
mw­
4
mw
2
fe­
9
to
fe­
10
False
No
154
mixer
mw­
5
mw
1
bh­
9
False
No
154
extruder
fw­
1
to
fw­
2
extruder
2
fe­
4
to
fe­
5
False
No
154
extruder
fw­
3
extruder
1
fe­
8
False
No
154
extruder
fw­
4
to
fw­
5
extruder
2
fe­
11
to
fe­
12
False
No
154
predryer
misc­
1
predryer
1
fe­
6
False
No
154
predryer
misc­
2
predryer
1
fe­
14
False
No
154
predryer
misc­
3
predryer
1
fe­
7
False
No
154
predryer
misc­
5
predryer
1
fe­
13
False
No
154
predryer
misc­
6
predryer
1
bh­
7
False
No
154
dryer
dc­
1
dc
1
us­
1
False
No
154
preheater
misc­
4
predryer
1
bh­
6
to
bh­
10
False
No
154
tunnel
kiln
tk­
1
tk
1
sc­
1
True
No
154
tunnel
kiln
tk­
2
tk
1
sc­
2
True
No
155
Sizing
Screens
s­
1(
4)
s
4
bh­
1
False
No
155
Tel­
Smith
Primary
Crusher
cr­
1
cr
1
fe­
1
False
No
155
Pennsylvania
Reversible
Impactor
g­
1
g
1
bh­
1
False
No
155
Basic
Double
Roll
Hammermill
g­
2
g
1
bh­
1
False
No
155
Lingl
Dryer
dc­
2
dc
1
us­
2
False
No
155
Additive
Station
we­
1
we
1
fe­
2
False
No
155
Surge
Hopper
and
conveyors
mh­
1
to
mh5
mh
5
fe­
3
False
No
155
Mixer
mw­
1
mw
1
bh­
2
cy­
1
False
No
155
Pug
Mill/
Extruder
fw­
1
extruder
1
bh­
2
cy­
1
False
No
155
Coating
Application/
Surface
Treatment
cta­
1
cta
1
bh­
2
cy­
1
False
No
155
Cutting
Slugs
misc
misc
1
fe
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
240
155
Cutting
Bricks
misc
misc
1
fe
False
No
155
Ceric
Dryer
dc­
1
dc
1
us­
1
False
No
155
Holding
Room
misc­
1
predryer
1
fe­
7
False
No
155
Tunnel
Kiln
tk­
1
tk
1
dls­
1
False
No
155
Feeder
Bins
ru­
4,
ru­
5
ru
2
fe­
4
False
No
155
Storage
Bins
ru­
2,
ru­
3
ru
2
fe­
5
False
No
155
Inside
Storage
ru­
1
ru
1
fe­
6
False
No
156
ground
storage
os­
1
misc
1
fe­
1
False
No
156
mixing
mw­
1
mw
1
fe­
2
False
No
156
hand
molding
fw­
1
molding
1
fe­
3
False
No
156
dryer
dc­
1
dc
1
us­
2
False
No
156
periodic
kiln
pk­
1
pk
1
us­
1
False
No
157
dryer
#
1
dc­
1
dc
1
us­
1
False
No
157
primary
crusher
cr­
1
cr
1
fe­
1
False
No
157
grinding
screening
gs­
1
gs
1
fe­
2
False
No
157
rotary
dryer
dr­
1
dr­
clay/
sand
1
sc­
2
False
No
157
conveyor
mh­
1
mh
1
fe­
3
False
No
157
dryer
#
2
dc­
2
dc
1
us­
2
False
No
157
tunnel
kiln
#
1
tk­
1
tk
1
us­
3
False
No
157
tunnel
kiln
#
2
tk­
2
tk
1
us­
4
False
No
157
rotary
calciner
(
dryer)
dr­
2
dr­
clay/
sand
1
sc­
1
False
No
157
storage
piles
os­
1
misc
1
fe­
4
False
No
158
Pug
mill
mw­
1
mw
1
fe­
2
False
No
158
grinders
g­
1
to
g­
3
g
3
bh­
1
to
bh­
2
False
No
158
clay
storage
silos
mh­
1
mh
1
bh­
2
False
No
158
tunnel
dryer
dc­
1
dc
1
us­
1
to
us­
2
False
No
158
tunnel
kiln
tk­
1
tk
1
us­
3
False
No
158
grog
crusher
cr­
2
grog
cr
1
bh­
3
False
No
158
primary
crusher
cr­
1
cr
1
fe­
1
False
No
158
extruder
fw­
1
extruder
1
fe­
3
False
No
158
color/
texture
application
cta­
1
cta
1
fe­
4
False
No
158
screens
s­
1
to
s­
4
s
4
bh­
1
to
bh­
2
False
No
159
screens
s­
1
to
s­
2
s
2
us­
3
False
No
159
crusher
cr­
1
cr
1
us­
1
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
241
159
grinder
g­
1
g
1
us­
2
False
No
159
color/
texture
app
cta­
1
cta
1
fe­
4
False
No
159
dryer
dc­
1
dc
1
us­
4
False
No
159
kiln
tk­
1
tk
1
us­
6
True
No
159
dryer
dc­
2
dc
1
us­
5
False
No
159
storage
mh­
1
to
mh­
2
mh
2
fe­
1
False
No
159
mixer
mw­
1
mw
1
fe­
2
False
No
159
extruder
fw­
1
extruder
1
fe­
3
False
No
160NR
Tunnel
kiln
TK­
1
tk
1
US­
1
False
No
161NR
Tunnel
kiln
TK­
1
tk
1
US­
1
False
No
161NR
Tunnel
kiln
TK­
2
tk
1
us­
2
False
No
161NR
Periodic
kiln
PK­
1
pk
1
us­
3
False
No
162NR
Tunnel
kiln
TK­
2
tk
1
us­
2
False
No
162NR
Tunnel
kiln
TK­
1
tk
1
us­
1
False
No
163NR
Tunnel
kiln
TK­
1
tk
1
us­
1
False
No
163NR
Tunnel
kiln
TK­
2
tk
1
us­
2
False
No
163NR
Tunnel
kiln
TK­
3
tk
1
us­
3
False
No
163NR
Tunnel
kiln
TK­
4
tk
1
us­
4
False
No
164NR
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
165NR
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
165NR
tunnel
kiln­
idle
tk­
2
tk­
idle
1
us­
2
False
No
165NR
tunnel
kiln­
idle
tk­
3
tk­
idle
1
us­
3
False
No
165NR
periodic
kiln
pk­
1
pk
1
us­
4
False
No
166NR
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
166NR
tunnel
kiln­
idle
tk­
2
tk­
idle
1
us­
2
False
No
167NR
tunnel
kiln
tk­
2
tk
1
us­
2
False
No
167NR
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
168NR
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
168NR
periodic
kiln
pk­
1
pk
1
us­
2
False
No
169NR
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
169NR
tunnel
kiln
tk­
2
tk
1
us­
2
False
No
170NR
tunnel
kiln
tk­
2
tk
1
us­
2
False
No
170NR
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
171NR
tunnel
kiln­
idle
tk­
2
tk­
idle
1
us­
2
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
242
171NR
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
172NR
periodic
kiln
pk­
1
pk
1
us­
3
False
No
172NR
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
172NR
tunnel
kiln
tk­
2
tk
1
us­
2
False
No
173NR
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
173NR
tunnel
kiln­
idle
tk­
2
tk­
idle
1
us­
2
False
No
174NR
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
174NR
tunnel
kiln
tk­
2
tk
1
us­
2
False
No
175NR
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
176NR
Tunnel
kiln
TK­
2
tk
1
us­
2
False
No
176NR
Tunnel
kiln
TK­
1
tk
1
us­
1
False
No
176NR
Tunnel
kiln
TK­
3
tk
1
us­
3
False
No
176NR
Periodic
kiln
PK­
1
pk
1
us­
4
False
No
177NR
tunnel
kiln
tk­
2
tk
1
us­
2
False
No
177NR
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
178NR
Tunnel
kiln
TK­
1
tk
1
US­
1
False
No
179
mixing
mw­
1
mw
1
fe­
2
False
No
179
periodic
kiln
pk­
4
pk
1
us­
2
True
No
179
moulding
fw­
1
molding
1
fe­
3
False
No
179
storage
mh­
1
mh
1
fe­
1
False
No
179
periodic
kiln
pk­
2
pk
1
us­
2
True
No
179
periodic
kiln
pk­
1
pk
1
us­
1
True
No
179
brick
dryer
dc­
1
dc
1
us­
4
False
No
179
periodic
kiln
pk­
3
pk
1
us­
3
True
No
180NR
Periodic
kiln
pk­
1
pk
1
da­
1
False
No
181
ware
dryer
dc­
3
dc
1
us­
6
False
No
181
tunnel
kiln
tk­
1
tk
1
us­
1
True
No
181
shuttle
kiln
pk­
1
pk
1
us­
2
False
No
181
envelope
kiln
pk­
2
pk
1
us­
3
False
No
181
ware
dryer
dc­
1
dc
1
us­
4
False
No
181
ware
dryer
dc­
2
dc
1
us­
5
False
No
181
ware
dryer
dc­
4
dc
1
us­
7
False
No
181
ware
dryer
dc­
5
dc
1
us­
8
False
No
181
ware
dryer
dc­
6
dc
1
us­
9
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
243
181
ware
dryer
dc­
7
dc
1
us­
10
False
No
181
glaze
booths
gz­
1
to
gz­
8
gz
8
us­
11
to
us­
18
False
No
182NR
tunnel
kiln
tk­
1
tk
1
us­
1
False
No
183
mixer
mw­
1
mw
1
fe
False
No
183
extruder
fw­
1
extruder
1
fe
False
No
183
periodic
kiln
pk­
1
pk
1
us­
1
False
No
184
extruders
fw­
1
to
fw­
2
extruder
2
fe
False
No
184
crusher
cr­
1
cr
1
bh­
1
False
No
184
dryer
dc­
1
dc
1
us­
1
False
No
184
dryer
dc­
2
dc
1
us­
2
False
No
184
tunnel
kiln
tk­
1
tk
1
us­
3
True
No
184
tunnel
kiln
tk­
2
tk
1
us­
3
True
No
184
tunnel
kiln
tk­
3
tk
1
us­
3
True
No
184
tunnel
kiln
tk­
4
tk
1
us­
3
True
No
184
raw
material
storage
mh­
3
mh
1
bh­
2
False
No
184
grinding
pan
g­
1
to
g­
2
g
2
bh­
2
False
No
184
vibrating
screens
s­
1
to
s­
8
s
8
bh­
2
False
No
184
truck
dump
mh­
1
mh
1
bh­
1
False
No
184
truck
dump
mh­
2
mh
1
bh­
1
False
No
184
pug
mills
mw­
1
to
mw­
2
mw
2
bh­
3
False
No
184
raw
material
storage
mh­
4
to
mh­
7
mh
4
fe
False
No
184
intermittent
kiln
pk­
1
pk
1
us­
6
False
No
184
intermittent
kiln
pk­
2
pk
1
us­
4
False
No
184
intermittent
kiln
pk­
3
pk
1
us­
5
False
No
185
manual
hand
press
fd­
1
fd
1
bh­
1
False
No
185
dry
mixer
md­
1
md
1
fe
False
No
185
roller
mill
(
mixer)
mw­
1
mw
1
fe
False
No
185
extruder
fw­
1
extruder
1
fe
False
No
185
continuous
dryer
dc­
1
dc
1
fe
False
No
185
storage
mh­
1,
mh­
2
mh
2
fe
False
No
185
periodic
kiln
pk­
1
pk
1
us­
2,
us­
7
False
No
185
periodic
kiln
pk­
2
pk
1
us­
3,
us­
8
False
No
185
shuttle
kiln
pk­
3
pk
1
us­
5
False
No
185
shuttle
kiln
pk­
4
pk
1
us­
6
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
244
185
tunnel
kiln
tk­
1
tk
1
us­
4
False
No
185
periodic
dryer
dp­
2
dp
1
us­
1
False
No
186
crusher
cr­
1
cr
1
fe
False
No
186
screens
s­
1
to
s­
2
s
2
bh­
1
False
No
186
finish
grinders
gr­
1
to
gr­
4
gr
4
bh­
2
to
bh­
3
False
No
186
raw
material
storage
mh­
1
to
mh­
4
mh
4
fe
False
No
186
grinders
g­
1
to
g­
2
g
2
bh­
1
False
No
186
extruders
fw­
1
to
fw­
3
extruder
3
fe
False
No
186
dryers
dc­
5
to
dc­
8
dc
4
us­
5
to
us­
8
False
No
186
dryers
dc­
1
to
dc­
4
dc
4
us­
1
to
us­
4
False
No
186
tunnel
kiln
tk­
1
tk
1
us­
9
True
No
186
tunnel
kiln
tk­
2
tk
1
us­
10
True
No
186
tunnel
kiln
tk­
3
tk
1
us­
11
False
No
186
tunnel
kiln
tk­
4
tk
1
us­
12
False
No
187
grinding
g­
1
g
1
bh­
2
False
No
187
crusher
cr­
1
cr
1
bh­
1
False
No
187
box
feeder
mh­
1
mh
1
bh­
1
False
No
187
extruder
fw­
1
extruder
1
fe
False
No
187
eirich
mixer
mw­
1
mw
1
bh­
6
False
No
187
grinding
finish
gr­
1
to
gr­
3
gr
3
bh­
11
to
bh­

13
False
No
187
storage
silos
mh­
3,
mh­
4
mh
2
bh­
3
False
No
187
tunnel
kiln
tk­
1
tk
1
us­
6
False
No
187
waste
heat
dryers
dc­
3
to
dc­
5
dc
3
us­
3
to
us­
5
False
No
187
clay
box
feeder
mh­
19
mh
1
fe
False
No
187
screens
s­
1
s
1
fe
False
No
187
dry
pan
g­
2
g
1
fe
False
No
187
shale
box
feeder
mh­
15
mh
1
fe
False
No
187
extruders
fw­
2
to
fw­
4
extruder
3
fe
False
No
187
weight
&
volumeteric
feeders
mh­
18,
mh­
25
mh
2
bh­
9,
bh­
10
False
No
187
pk
blender
md­
1
md
1
bh­
8
False
No
187
tunnel
kiln­
idle
tk­
2
tk
1
us­
7
False
No
187
tunnel
kiln
tk­
3
tk
1
us­
8
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
245
187
car
dryer
dc­
1
dc
1
us­
1
False
No
187
tray
dryer
dc­
2
dc
1
fe
False
No
187
roller
kiln
rk­
1
tk
1
us­
2
False
No
187
loading/
car
storage
mh­
22,
mh­
23
mh
2
fe
False
No
187
glaze
line
gz­
1
gz
1
sc­
1
False
No
187
weigh
hoppers
we­
1,
we­
2
we
2
bh­
6
False
No
187
extruder
feed
mh­
25
mh
1
bh­
9
to
bh­
10
False
No
187
storage
bin
mh­
5
mh
1
bh­
5
False
No
187
shale/
clay
storage
mh­
17,
mh­
20
mh
2
fe
False
No
187
bag
dump
misc­
1
misc
1
bh­
4
False
No
188
fired
scrap
crusher
cr­
3
grog
cr
1
bh­
3
False
No
188
dry
pan
g­
1
g
1
bh­
1
False
No
188
dry
pan
g­
2
g
1
bh­
2
True
No
188
screen
s­
1
s
1
bh­
1
False
No
188
screen
s­
2
s
1
bh­
2
True
No
188
tunnel
kiln
tk­
2
tk
1
us­
8
to
us­
9
False
No
188
pug
mills
mw­
1,
mw­
2
mw
2
fe
False
No
188
extrusion
mills
fw­
1,
fw­
2
extruder
2
fe
False
No
188
storage
dryers
dp­
1
to
dp­
18
dp
18
us­
3
to
us­
5
False
No
188
tunnel
kiln
tk­
1
tk
1
us­
7
to
us­
8
False
No
189
dry
pan
g­
4
g
1
bh­
3
False
No
189
dry
pan
g­
1
to
g­
2
g
2
bh­
1
False
No
189
screen
s­
1
to
s­
2
s
2
bh­
1
False
No
189
dry
pan
g­
3
g
1
bh­
2
False
No
189
screen
s­
3
s
1
bh­
2
False
No
189
mangle
dryers
dc­
3
to
dc­
8
dc
6
us­
3,
us­
4
False
No
189
screen
s­
4
s
1
bh­
3
False
No
189
grinders
gr­
1
to
gr­
6
gr
6
bh­
4
False
No
189
fired
scrap
crusher
cr­
5
grog
cr
1
us­
12
False
No
189
pug
mills
mw­
1
to
mw­
2
mw
2
bh­
1
False
No
189
pug
mill
mw­
3
mw
1
bh­
2
False
No
189
pug
mill
mw­
4
mw
1
bh­
3
False
No
189
extruders
fw­
1
to
fw­
4
extruder
4
fe
False
No
189
chamber
dryer
dc­
1
to
dc­
2
dc
2
us­
1
to
us­
2
False
No
TABLE
11.
(
continued)

FACID
Source
Equipment
ID
Equipment
type
Pieces
Uncontrolled
Fabric
filter
DIFilter
Scrubber
Other1
Data
available
Building
control
246
189
chamber
dryer
dp­
1
dp
1
us­
13
False
No
189
preheaters
misc­
4
to
misc­
7
predryer
4
fe
False
No
189
tunnel
kiln
tk­
1
tk
1
us­
8
False
No
189
tunnel
kiln
tk­
2
tk
1
us­
9
False
No
189
tunnel
kiln
tk­
3
tk
1
us­
10
False
No
189
tunnel
kiln
tk­
4
tk
1
us­
11
False
No
247
TABLE
12.
EMISSION
POINTS
FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
1
US­
2
No
uncontrolled
stack
tk­
1
face
brick
35
7.5
3.09
1US­
2
1
DLS­
1
No
dry
lime
scrubber
tk­
2
face
brick
60
10.6
3.67
1DLS­
1
3
US­
2
No
uncontrolled
stack
tk­
1
brick
14
12.6
4.01
3US­
2
4
FE­
6
TO
FE­
8
No
uncontrolled
stack
misc­
1
­
misc­
3
brick
25
7.1
4FE­
6
­
FE­
8
4
FE­
9
TO
FE­
14
No
fugitive
emissions
misc­
4
­
misc­
9
brick
0
7.1
4FE­
9
­
FE­
14
4
US­
2
No
uncontrolled
stack
tk­
1
brick
25
12.6
4.01
4US­
2
5
US­
3
No
uncontrolled
stack
dc­
2
brick
25
19.6
5.00
5US­
3
5
US­
5
No
uncontrolled
stack
tk­
2
brick
25
12.6
4.01
5US­
5
5
BHI­
1
No
baghouse
g­
1,
s­
1
brick
5BHI­
1
5
US­
2
No
uncontrolled
stack
dc­
1
brick
25
19.6
5.00
5US­
2
5
US­
1
No
uncontrolled
stack
misc­
2
brick
12
4.4
5US­
1
5
US­
4
No
uncontrolled
stack
tk­
1
brick
25
12.6
4.01
5US­
4
6
US­
1
TO
US­
2
No
uncontrolled
stack
misc­
3
brick
32
8.7
6US­
1
TO
US­
2
6
US­
3
No
uncontrolled
stack
dc­
1
brick
32
4.9
2.50
6US­
3
6
US­
5
No
uncontrolled
stack
dc­
3
brick
32
4.9
2.50
6US­
5
6
US­
7
No
uncontrolled
stack
tk­
1
brick
32
8.7
3.33
6US­
7
6
US­
6
No
uncontrolled
stack
dc­
4
brick
32
4.9
2.50
6US­
6
6
US­
4
No
uncontrolled
stack
dc­
2
brick
32
4.9
2.50
6US­
4
6
US­
8
No
uncontrolled
stack
tk­
2
brick
32
8.7
3.33
6US­
8
7
BHI­
1
No
baghouse
cta­
1
texturing
and
sand
coatings
7BHI­
1
7
US­
1
No
uncontrolled
stack
misc­
2
brick
7US­
1
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
248
7
US­
2
TO
US­
7
No
uncontrolled
stack
dc­
1
to
dc­
6
brick
7US­
2
TO
US­
7
7
US­
8
No
uncontrolled
stack
tk­
1
brick
30
9
3.39
7US­
8
7
US­
9
No
uncontrolled
stack
tk­
2
brick
30
7US­
9
8
US­
3
No
uncontrolled
stack
tk­
1
brick
32
4.9
2.50
8US­
3
8
US­
2
No
uncontrolled
stack
dc­
2
brick
34
10.3
3.62
8US­
2
8
BH­
4
No
baghouse
mw­
2,
fw­
2,
misc­
2
clay,
shale
4.3
3.2
8BH­
4
8
BH­
2
No
baghouse
g­
2,
s­
1
to
s­
6
clay,
shale
15
7.8
3.15
8BH­
2
8
BH­
1
No
baghouse
g­
1,
st­
1,
fw­
1,
mh­

1,
mw­
1
clay,
shale
25
6.6
2.90
8BH­
1
8
BH­
3
No
baghouse
mw­
3
clay,
shale
21.6
7.6
8BH­
3
8
BH­
5
No
baghouse
fw­
3
clay,
shale
43.7
0.91
8BH­
5
8
BHI­
1
No
baghouse
dr­
1
sand
8BHI­
1
8
US­
1
No
uncontrolled
stack
dc­
1
brick
23.4
4.6
2.42
8US­
1
9
DA­
1
No
dry
limestone
adsorber
tk­
1
and
tk­
2
brick
9DA­
1
10
US­
6
No
uncontrolled
stack
tk­
2
brick
30
8.7
3.33
10US­
6
10
US­
1
No
uncontrolled
stack
dc­
1
brick
30
15.9
4.50
10US­
1
10
US­
5
No
uncontrolled
stack
tk­
1
brick
30
8.7
3.33
10US­
5
10
US­
4
No
uncontrolled
stack
dc­
2
brick
30
15.9
4.50
10US­
4
10
US­
3
No
uncontrolled
stack
dc­
2
brick
30
15.9
4.50
10US­
3
10
US­
2
No
uncontrolled
stack
dc­
1
brick
30
15.9
4.50
10US­
2
11
US­
1
No
uncontrolled
stack
dc­
1
brick
29.5
42.2
7.33
11US­
1
11
US­
4
No
uncontrolled
stack
md­
1
sand
colorants
17.5
0.35
11US­
4
11
US­
2
No
uncontrolled
stack
misc­
2
brick
30.5
12.6
11US­
2
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
249
11
US­
3
No
uncontrolled
stack
tk­
1
brick
41.5
21.01
5.17
11US­
3
12
US­
2,
US­

3
No
uncontrolled
stack
misc­
6
brick
28
3.1
12US­
2,
US­
3
12
US­
8
No
uncontrolled
stack
tk­
1
brick
31.5
8.3
3.25
12US­
8
12
US­
9
No
uncontrolled
stack
tk­
2
brick
27
7
2.99
12US­
9
12
US­
1
No
uncontrolled
stack
dr­
1
sand
23
0.3
0.62
12US­
1
12
US­
6,
US­

7
No
uncontrolled
stack
dc­
1
to
dc­
4
brick
31
7
2.99
12US­
6,
US­
7
12
US­
4,
US­

5
No
uncontrolled
stack
misc­
6
brick
35
3.1
12US­
4,
US­
5
13
DA­
1
No
dry
scrubber
tk­
2
brick
97
27.8
5.95
13DA­
1A
13
US­
3
No
uncontrolled
stack
dc­
3
brick
36.5
7.3
3.05
13US­
3
13
US­
4
No
uncontrolled
stack
dc­
4
brick
36.5
7.3
3.05
13US­
4
13
US­
1
No
uncontrolled
stack
dc­
1
brick
36.5
7.3
3.05
13US­
1
13
US­
2
No
uncontrolled
stack
dc­
2
brick
36.5
7.3
3.05
13US­
2
13
US­
5
No
uncontrolled
stack
rd­
1
brick
25
1.4
13US­
5
13
DA­
1
No
dry
scrubber
tk­
1
brick
97
27.8
5.95
13DA­
1
14
US­
1
No
uncontrolled
stack
tk­
1
brick
40
10.6
3.67
14US­
1
14
US­
2
No
uncontrolled
stack
dc­
1
brick
40
8.8
3.35
14US­
2
15
US­
1
No
uncontrolled
stack
dc­
1
brick
30
3.1
1.99
15US­
1
15
US­
2
No
uncontrolled
stack
tk­
1
brick
30
3.1
1.99
15US­
2
16
US­
2
No
uncontrolled
stack
dc­
1
brick
30
6.86
2.96
16US­
2
16
US­
3
No
uncontrolled
stack
tk­
1
brick
31.5
9.07
3.40
16US­
3
16
US­
1
No
uncontrolled
stack
dc­
1
brick
30
6.86
2.96
16US­
1
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
250
17
US­
3
No
uncontrolled
stack
tk­
1
brick
48.5
4.9
2.50
17US­
3
17
US­
2
No
uncontrolled
stack
dc­
1
brick
43
10.3
3.62
17US­
2
19
US­
6
No
uncontrolled
stack
tk­
2
brick
42
19US­
6
19
US­
5
No
uncontrolled
stack
tk­
1
brick
42
19US­
5
19
US­
7
TO
US­
8
No
uncontrolled
stack
tk­
3
to
tk­
4
brick
52
19US­
7
TO
US­
8
20
US­
1
No
uncontrolled
stack
tk­
1
structural
brick
91.5
12.25
3.95
20US­
1
20
US­
3
TO
US­
5
No
uncontrolled
stack
dc­
1
structural
brick
29.5
2.19
1.67
20US­
3
TO
US­
5
20
US­
11
TO
US­
18
No
uncontrolled
stack
dc­
2
structural
brick
22.1
3.46
2.10
20US­
11
TO
US­
18
20
US­
2
No
uncontrolled
stack
tk­
1
structural
brick
31.5
12.25
3.95
20US­
2
21
US­
1
TO
US­
6
No
uncontrolled
stack
pk­
1
to
pk­
6
tile
and
brick
40
7
2.99
21US­
1
TO
US­
6
22
US­
1
No
uncontrolled
stack
tk­
1
brick
56
22US­
1
22
US­
2
No
uncontrolled
stack
tk­
2
brick
56
22US­
2
23
US­
4
No
uncontrolled
stack
pk­
1
brick
30
5.3
2.60
23US­
4
23
US­
11
No
uncontrolled
stack
pk­
9
brick
30
10.2
3.60
23US­
11
23
US­
8
No
uncontrolled
stack
pk­
6
brick
30
3.8
2.20
23US­
8
23
US­
12
No
uncontrolled
stack
misc­
1
glazed
brick
and
tile
35
4.2
23US­
12
23
US­
10
No
uncontrolled
stack
pk­
8
brick
30
5.3
2.60
23US­
10
23
BH­
1
No
baghouse
cta­
1
tile
14
0.5
23BH­
1
23
FE­
8
No
g­
2
brick
and
tile
7
0.1
0.36
23FE­
8
23
US­
1
No
uncontrolled
stack
tk­
1
brick
and
tile
40
7
2.99
23US­
1
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
251
23
US­
2
No
uncontrolled
stack
tk­
2
brick
and
tile
40
7
2.99
23US­
2
23
US­
7
No
uncontrolled
stack
pk­
4
to
pk­
5
brick
30
12.6
4.01
23US­
7
23
US­
3
No
uncontrolled
stack
tk­
3
brick
and
tile
40
7
2.99
23US­
3
23
US­
5
No
uncontrolled
stack
pk­
2
brick
30
5.3
2.60
23US­
5
23
US­
6
No
uncontrolled
stack
pk­
3
brick
30
5.3
2.60
23US­
6
23
BH­
2
No
baghouse
cta­
2
brick
30
0.5
23BH­
2
23
FE­
7
No
cr­
1
brick
and
tile
23FE­
7
23
US­
9
No
uncontrolled
stack
pk­
7
brick
30
3.8
2.20
23US­
9
23
BH­
3
No
baghouse
gz­
1
brick
and
tile
25
1.1
23BH­
3
24
US­
4
No
uncontrolled
stack
tk­
2
tile,
coping
30
11
3.74
24US­
4
24
US­
2
No
uncontrolled
stack
tk­
1
brick
pavers
35
4.9
2.50
24US­
2
24
US­
1
No
uncontrolled
stack
dc­
1
brick
pavers
25
3
1.95
24US­
1
24
BH­
1
No
fabric
filter
g­
2,
g­
3,
s­
3
clay,
scrap
brick
7
3.6
2.14
24BH­
1
24
US­
3
No
uncontrolled
stack
dc­
2
tile,
coping
30
4.3
2.34
24US­
3
25
US­
6
No
uncontrolled
stack
tk­
5
brick
25US­
6
25
US­
8
No
uncontrolled
stack
tk­
3
25US­
8
25
US­
9
No
uncontrolled
stack
tk­
2
25US­
9
25
US­
10
No
uncontrolled
stack
tk­
1
25US­
10
25
US­
7
No
uncontrolled
stack
tk­
4
25US­
7
26
BH­
1
No
baghouse
cta­
1
brick
26BH­
1
26
US­
2
No
uncontrolled
stack
tk­
1
brick
26US­
2
27
BH­
1
No
fabric
filter
cta­
1,
md­
1
brick
27BH­
1
27
US­
1
No
uncontrolled
stack
tk­
1
brick
27US­
1
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
252
28
US­
1
Yes
uncontrolled
stack
tk­
1
brick
28US­
1
28
BH­
1
No
baghouse
cta­
2
brick
28BH­
1
29
US­
1
No
uncontrolled
stack
tk­
1
brick
7
29US­
1
30
US­
2
No
uncontrolled
stack
tk­
2
brick
14
30US­
2
30
US­
1
No
uncontrolled
stack
tk­
1
brick
27
30US­
1
31
US­
6
No
uncontrolled
tk­
2
brick
31US­
6
31
DA­
1
No
dry
limestone
adsorber
tk­
4
brick
31DA­
1A
31
DA­
1
No
dry
limestone
adsorber
tk­
3
brick
31DA­
1
31
US­
5
No
uncontrolled
tk­
1
brick
31US­
5
32
US­
10
No
uncontrolled
tk­
2
brick
32US­
10
32
US­
11
No
uncontrolled
tk­
3
brick
32US­
11
32
US­
9
No
uncontrolled
stack
tk­
1
brick
32US­
9
33
US­
1
TO
US­
6
No
uncontrolled
stack
pk­
1
to
pk­
11
brick
40
25
5.64
33US­
1
TO
US­
6
34
US­
6
No
uncontrolled
stack
tk­
1
face
brick
35
3.5
2.11
34US­
6
34
US­
8
No
uncontrolled
stack
tk­
2
face
brick
35
3
1.95
34US­
8
34
US­
5
No
uncontrolled
stack
tk­
1
face
brick
35
3.5
2.11
34US­
5
34
US­
7
No
uncontrolled
stack
tk­
2
face
brick
35
3
1.95
34US­
7
35
US­
1
No
uncontrolled
stack
tk­
1
face
brick
36
7.33
3.06
35US­
1
35
US­
2
No
uncontrolled
stack
tk­
2
face
brick
36
8.37
3.26
35US­
2
36
US­
5
No
uncontrolled
stack
tk­
1
brick
45.5
9
3.39
36US­
5
39
US­
3
No
uncontrolled
stack
tk­
1
brick
26
6.3
2.83
39US­
3
39
US­
2
No
uncontrolled
stack
dc­
1
brick
27
5.6
2.67
39US­
2
39
US­
1
No
uncontrolled
stack
dc­
1
brick
27
5.6
2.67
39US­
1
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
253
41
US­
1
No
uncontrolled
stack
dc­
1
brick
41US­
1
41
US­
3
No
uncontrolled
stack
tk­
1
brick
40
11.67
3.85
41US­
3
41
US­
2
No
uncontrolled
stack
dc­
2
brick
41US­
2
42
US­
1
No
uncontrolled
stack
dc­
1
brick
29
20
5.05
42US­
1
42
US­
2
No
uncontrolled
stack
tk­
1
brick
32
12
3.91
42US­
2
43
US­
1
No
uncontrolled
stack
dc­
1
face
brick
13.5
19.6
5.00
43US­
1
43
US­
4
No
uncontrolled
stack
dr­
1
sand
4.6
3.14
2.00
43US­
4
43
US­
2,
DS­
1
No
uncontrolled
stack
tk­
1
face
brick
30.5
13.64
4.17
43US­
2,
DS­
1
44
US­
1
No
uncontrolled
stack
tk­
1
brick
48
4
2.26
44US­
1
45
BHI­
1
No
dust
collector
cta­
1
brick
0.35
45BHI­
1
45
US­
3
No
uncontrolled
stack
tk­
2
brick
29
4
2.26
45US­
3
45
US­
2
No
uncontrolled
stack
tk­
1
brick
22
4
2.26
45US­
2
46
US­
1,
DS­
1
No
uncontrolled
stack
tk­
1
brick
46.5
10.5
3.66
46US­
1,
DS­
1
47
US­
3
No
uncontrolled
stack
tk­
1
brick
30
4.9
2.50
47US­
3
47
US­
4
No
uncontrolled
stack
tk­
2
brick
30
4
2.26
47US­
4
48
US­
2
No
uncontrolled
stack
tk­
1
structural
brick
28
7.07
3.00
48US­
2
49
US­
2
No
uncontrolled
stack
tk­
1
structural
brick
57.5
49US­
2
49
US­
4
No
uncontrolled
stack
tk­
2
structural
brick
57.5
49US­
4
51
US­
1
No
uncontrolled
stack
misc­
2
brick
37.5
9
51US­
1
51
CY­
1
No
cyclone
dr­
1
sand
25
0.34
0.66
51CY­
1
51
US­
10
No
uncontrolled
stack
dr­
2
sand
7
1.1
1.18
51US­
10
51
US­
4
No
uncontrolled
stack
tk­
1
brick
28.5
10.6
3.67
51US­
4
51
US­
5
No
uncontrolled
stack
dp­
1
brick
25.3
18
4.79
51US­
5
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
254
51
US­
6
No
uncontrolled
stack
misc­
8
brick
25.5
3.14
51US­
6
51
US­
7
No
uncontrolled
stack
dc­
2
brick
32.75
9.4
3.46
51US­
7
51
US­
2
No
uncontrolled
stack
dc­
1
brick
37.5
74
9.71
51US­
2
51
BH­
1
No
baghouse
dust
collector
misc­
3,
misc­
9,
fw­

1,
cta­
1,
misc­
5
sand
coatings
17
4.26
51BH­
1
51
BHI­
1
No
cartridge
dust
collector
misc­
4,
misc­
10
sand
coatings
51BHI­
1
51
BH­
3
No
baghouse
dust
collector
md­
1
sand
coatings
9.6
1.2
51BH­
3
51
US­
9
No
uncontrolled
stack
tk­
2
brick
37.5
10.03
3.57
51US­
9
51
US­
3
No
uncontrolled
stack
misc­
6
brick
28
4.9
51US­
3
51
US­
8
No
uncontrolled
stack
dc­
3
brick
32.75
9.4
3.46
51US­
8
52
BH­
2
No
baghouse
tk­
2
face
brick
44
4.3
2.34
52BH­
2
52
BH­
1
No
baghouse
tk­
1
face
brick
44
4.3
2.34
52BH­
1
52
US­
2
No
uncontrolled
stack
dc­
2
face
brick
19.64
52US­
2
53
BH­
1
No
baghouse
tk­
1
face
brick
44
5.2
2.57
53BH­
1
54
BH­
1
No
baghouse
gs­
1
brick
54BH­
1
54
US­
2
No
uncontrolled
stack
tk­
1
face
brick
40
9.4
3.46
54US­
2
54
US­
4
No
uncontrolled
stack
tk­
2
face
brick
85
1.6
1.43
54US­
4
55
US­
2
No
uncontrolled
stack
tk­
2
face
brick
35
13.2
4.10
55US­
2
55
US­
1
No
uncontrolled
stack
tk­
1
face
brick
35
10.2
3.60
55US­
1
56
US­
1
No
uncontrolled
stack
tk­
1
face
brick
40
8.7
3.33
56US­
1
57
BH­
1
No
baghouse
gs­
1
face
brick
12
6.75
2.93
57BH­
1
57
US­
2
No
uncontrolled
stack
dc­
2
brick
38
7
2.99
57US­
2
57
US­
1
No
uncontrolled
stack
dc­
1
brick
30
4.9
2.50
57US­
1
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
255
57
US­
4
No
uncontrolled
stack
tk­
2
face
brick
44
7.1
3.01
57US­
4
57
US­
3
No
uncontrolled
stack
tk­
1
face
brick
27
4.2
2.31
57US­
3
57
BH­
3
No
baghouse
cc­
1
coal
20
1.19
57BH­
3
58
US­
2
No
uncontrolled
stack
dc­
2
brick
56
11.1
3.76
58US­
2
58
BH­
2
No
baghouse
cc­
1,
mh­
3
coal
28
2.6
58BH­
2
58
BH­
3
No
baghouse
tk­
2
face
brick
58
7.1
3.01
58BH­
3
58
US­
1
No
uncontrolled
stack
dc­
1
brick
30
9
3.39
58US­
1
58
US­
3
No
uncontrolled
stack
tk­
1
face
brick
32
5.7
2.69
58US­
3
58
BH­
1
No
baghouse
gs­
1
face
brick
15
7.6
3.11
58BH­
1
59
US­
2
No
uncontrolled
stack
tk­
2
face
brick
35
7.1
3.01
59US­
2
59
BH­
1
No
baghouse
gs­
1
face
brick
8
6.6
2.90
59BH­
1
59
US­
1
No
uncontrolled
stack
tk­
1
face
brick
24
4
2.26
59US­
1
60
BH­
2
No
baghouse
we­
2,
mw­
2,
mw­
3,
fw­

2,
fw­
3,
cta­
2
brick
20
2.56
60BH­
2
60
US­
6
No
uncontrolled
stack
tk­
3
face
brick
36
7.1
3.01
60US­
6
60
BH­
1
No
baghouse
gs­
1
brick
20
5.29
2.60
60BH­
1
60
BH­
3
No
baghouse
cc­
1,
mh­
2
coal
65
2.08
60BH­
3
60
US­
4
No
uncontrolled
stack
tk­
1
face
brick
30
6.5
2.88
60US­
4
60
US­
5
No
uncontrolled
stack
tk­
2
face
brick
30
6.5
2.88
60US­
5
61
BH­
1
No
baghouse
we­
1,
mw­
1,
fw­
1,
cta­
1
brick
13
2.72
61BH­
1
61
BH­
2
No
baghouse
we­
2,
mw­
2,
fw­
2,
cta­
2
brick
18
1.69
61BH­
2
61
US­
4
No
uncontrolled
stack
tk­
1
face
brick
48
7.1
3.01
61US­
4
61
US­
5
No
uncontrolled
stack
tk­
2
face
brick
48
7.1
3.01
61US­
5
61
US­
6
No
uncontrolled
stack
tk­
3
face
brick
35
19.6
5.00
61US­
6
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
256
62
US­
3
No
uncontrolled
stack
tk­
1
face
brick
35
19.6
5.00
62US­
3
62
US­
4
No
uncontrolled
stack
tk­
2
face
brick
35
19.6
5.00
62US­
4
63
US­
2
No
uncontrolled
stack
tk­
1
brick
63US­
2
63
US­
3
No
uncontrolled
stack
tk­
2
brick
63US­
3
65
US­
3
No
uncontrolled
stack
tk­
3
brick
51
9.1
3.40
65US­
3
65
US­
2
No
uncontrolled
stack
tk­
2
brick
51
9.1
3.40
65US­
2
65
US­
1
No
uncontrolled
stack
tk­
1
brick
51
9.1
3.40
65US­
1
66
US­
2
No
uncontrolled
stack
tk­
1
brick
20.6
9.17
3.42
66US­
2
67
US­
3
No
uncontrolled
stack
tk­
1
brick
67US­
3
68
US­
2
No
uncontrolled
stack
tk­
1
brick
37
16
4.51
68US­
2
69
US­
4
No
uncontrolled
stack
TK­
2
brick
19
6.7
2.92
69US­
4
69
US­
3
No
uncontrolled
stack
tk­
1
brick
19
6.6
2.90
69US­
3
70
DIFF­
2
No
dry
injection
fabric
filter
tk­
2
face
brick
70DIFF­
2
70
DIFF­
1
No
dry
injection
fabric
filter
tk­
1
face
brick
70DIFF­
1
71
US­
2
No
uncontrolled
stack
tk­
1
brick
13
2.64
1.83
71US­
2
71
US­
1
No
uncontrolled
stack
dc­
1
brick
14
7.07
3.00
71US­
1
71
US­
3
No
uncontrolled
stack
tk­
1
brick
15
3.47
2.10
71US­
3
72
US­
8
No
uncontrolled
stack
misc­
3
brick
12
12.6
72US­
8
72
US­
18
No
uncontrolled
stack
dc­
2
brick
39
9
3.39
72US­
18
72
BH­
2
No
baghouse
cta­
1,
s­
2,
fw­
1,
mw­
1
brick
forming
72BH­
2
72
BH­
3
No
baghouse
fw­
2,
cta­
2,
mw­
2
brick
forming
72BH­
3
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
257
72
BH­
4
No
baghouse
misc­
5
kiln
cleaning
system
72BH­
4
72
BH­
5
No
baghouse
dr­
1
sand
72BH­
5
72
BH­
1
No
baghouse
md­
1
sand
72BH­
1
72
US­
1,
US­

2,
DS­
1
No
uncontrolled
stacks
tk­
1
brick
32
18
4.79
72US­
1,
US­
2,

DS­
1
72
US­
10
No
uncontrolled
stack
misc­
4
brick
24
4.6
72US­
10
72
US­
11
No
uncontrolled
stack
misc­
4
brick
24
3.9
72US­
11
72
US­
12
No
uncontrolled
stack
misc­
4
brick
28
4.6
72US­
12
72
US­
13
No
uncontrolled
stack
misc­
4
brick
28
4.6
72US­
13
72
US­
14
No
uncontrolled
stack
misc­
4
brick
16
3.5
72US­
14
72
US­
15
No
uncontrolled
stack
dc­
1
brick
28
20
5.05
72US­
15
72
US­
7
No
uncontrolled
stack
misc­
3
brick
28
26
72US­
7
72
US­
20
No
uncontrolled
stack
dc­
4
brick
32
9
3.39
72US­
20
72
US­
21
No
uncontrolled
stack
dc­
4
brick
36
14.1
4.24
72US­
21
72
US­
3,

US­
4,
DS­
2
No
uncontrolled
stack
tk­
2
brick
25
18.49
4.85
72US­
3,
US­
4,

DS­
2
72
US­
5
No
uncontrolled
stack
misc­
3
brick
27
4.1
72US­
5
72
US­
6
No
uncontrolled
stack
misc­
3
brick
27
7.9
72US­
6
72
US­
9
No
uncontrolled
stack
misc­
4
brick
22
7.8
72US­
9
73
CY­
1
No
cyclone
md­
1
texturing
and
sand
coatings
73CY­
1
73
US­
1
No
uncontrolled
stack
misc­
1
brick
73US­
1
73
US­
2
No
uncontrolled
stack
dc­
1
brick
73US­
2
73
US­
3
No
uncontrolled
stack
dc­
2
brick
73US­
3
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
258
73
US­
4
No
uncontrolled
stack
tk­
1
brick
45
10.8
3.71
73US­
4
73
US­
5
No
uncontroled
stack
tk­
2
brick
45
10.8
3.71
73US­
5
74
US­
1
No
uncontrolled
stack
dc­
1
green
brick
74US­
1
74
US­
2
No
uncontrolled
stack
tk­
1
brick
40
74US­
2
75
US­
2
No
uncontrolled
stack
tk­
1
brick
20
7.1
3.01
75US­
2
76
US­
1
No
uncontrolled
stack
tk­
1
brick
76US­
1
76
US­
2
No
uncontrolled
stack
dc­
1
brick
76US­
2
77
US­
5
No
uncontrolled
stack
tk­
1
face
brick
77US­
5
78
US­
4
No
uncontrolled
stack
tk­
2
brick
9.62
78US­
4
78
US­
1
No
uncontrolled
stack
dc­
1
brick
28.3
78US­
1
78
US­
2
No
uncontrolled
stack
dc­
2
brick
28.3
78US­
2
78
US­
3
No
uncontrolled
stack
tk­
1
brick
9.62
78US­
3
79
US­
1
No
uncontrolled
stack
tk­
1
brick
34.5
4
2.26
79US­
1
80
US­
1
No
uncontrolled
stack
tk­
1
brick
24
2.9
1.92
80US­
1
80
US­
2
No
uncontrolled
stack
tk­
2
brick
24
2.9
1.92
80US­
2
80
US­
3
No
uncontrolled
stack
tk­
3
brick
24
2.9
1.92
80US­
3
81
US­
5
No
uncontrolled
stack
dc­
5
brick
40
7.95
3.18
81US­
5
81
US­
6
No
uncontrolled
stack
tk­
1
brick
40
7.95
3.18
81US­
6
81
BH­
1
No
baghouse
cta­
3
brick,
sand,

coatings
30
1
81BH­
1
81
US­
1
No
uncontrolled
stack
dc­
1
brick
33
7.95
3.18
81US­
1
81
US­
2
No
uncontrolled
stack
dc­
2
brick
33
7.95
3.18
81US­
2
81
US­
3
No
uncontrolled
stack
dc­
3
brick
33
7.95
3.18
81US­
3
81
US­
4
No
uncontrolled
stack
dc­
4
brick
33
7.95
3.18
81US­
4
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
259
81
US­
9
No
uncontrolled
stack
tk­
6
brick
38
7.95
3.18
81US­
9
81
US­
7
No
uncontrolled
stack
dc­
6
to
dc­
9
brick
33
7.95
3.18
81US­
7
81
US­
8
No
uncontrolled
stack
tk­
5
brick
38
7.95
3.18
81US­
8
82
US­
1
No
uncontrolled
stack
misc­
3
brick
24.33
5.8
82US­
1
82
US­
2
No
uncontrolled
stack
dc­
1,
dc­
2
brick
35
10.1
3.59
82US­
2
82
US­
3
No
uncontrolled
stack
tk­
1
brick
40
10.17
3.60
82US­
3
83
US­
2
No
uncontrolled
stack
tk­
1
brick
83US­
2
84
US­
1
No
uncontrolled
stack
dc­
1
brick
35
9
3.39
84US­
1
84
US­
2
No
uncontrolled
stack
tk­
1
brick
35
9
3.39
84US­
2
85
BH­
3
No
baghouse
cc­
1,
mh­
3
coal
35
0.35
85BH­
3
85
BH­
1
No
baghouse
cta­
1,
fw­
1,
mw­
1,
we­

1
face
brick
24
1.13
85BH­
1
85
BH­
2
No
baghouse
mh­
2
face
brick
40
0.83
85BH­
2
85
US­
1
No
uncontrolled
stack
dc­
1
brick
12.25
85US­
1
85
CY­
1
No
multiclone
tk­
1
face
brick
50
9.8
3.53
85CY­
1
86
US­
5
No
uncontrolled
stack
misc­
5
flue
pipe
8
12.6
86US­
5
86
US­
2
No
uncontrolled
stack
dc­
1
brick
21
10.5
3.66
86US­
2
86
BH­
1
No
fabric
filter
s­
1,
s­
2,
cr­
1,
cr­
2,
mh­

1
brick,
pipe
16
3.14
2.00
86BH­
1
86
BH­
2
No
baghouse
mw­
1,
mw­
2
brick
and
pipe
15
0.35
86BH­
2
86
US­
1
No
uncontrolled
stack
misc­
4
brick
10
3.14
86US­
1
86
US­
4
No
uncontrolled
stack
dp­
1
flue
pipe
8
12.6
4.01
86US­
4
86
US­
6
No
uncontrolled
stack
pk­
1
flue
pipe
13.5
38
6.96
86US­
6
86
US­
3
No
uncontrolled
stack
tk­
1
brick
26
5.6
2.67
86US­
3
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
260
88
US­
2
No
uncontrolled
stack
tk­
1
brick
7.54
88US­
2
89
US­
5
No
uncontrolled
stack
tk­
1
brick
30
5.78
2.71
89US­
5
90
US­
3
No
uncontrolled
stack
tk­
1
face
brick
33
16
4.51
90US­
3
90
US­
4
No
uncontrolled
stack
tk­
2
face
brick
33
16
4.51
90US­
4
90
US­
1
No
uncontrolled
stack
dc­
1
face
brick
33
16
4.51
90US­
1
90
US­
2
No
uncontrolled
stack
dc­
2
face
brick
33
16
4.51
90US­
2
91
US­
3
No
uncontrolled
stack
pk­
5,
pk­
6
brick
22
12.6
4.01
91US­
3
91
US­
4
No
uncontrolled
stack
pk­
7,
pk­
8
brick
22
12.6
4.01
91US­
4
91
US­
1
No
uncontrolled
stack
pk­
1,
pk­
2
brick
22
12.6
4.01
91US­
1
91
US­
2
No
uncontrolled
stack
pk­
3,
pk­
4
brick
22
12.6
4.01
91US­
2
100
US­
3
No
uncontrolled
stack
dc­
2
brick
65
8.81
3.35
100US­
3
100
BH­
1
No
bagfilter
cta­
1
brick
100BH­
1
100
US­
2
No
uncontrolled
stack
dc­
1
brick
65
8.81
3.35
100US­
2
100
DS­
1
No
uncontrolled
stack
tk­
1
brick
45
5.03
2.53
100DS­
1
100
DS­
1
No
uncontrolled
stack
tk­
2
brick
45
5.03
2.53
100DS­
1A
101
US­
4
No
uncontrolled
stack
dc­
3,
dc­
4
brick
24
5.56
2.66
101US­
4
101
DS­
1
No
uncontrolled
stack
tk­
2
brick
65
4.91
2.50
101DS­
1
101
BH­
2
No
bag
filter
cta­
1
brick
20
0.785
101BH­
2
101
BH­
1
No
bag
filter
cta­
2
brick
20
0.785
101BH­
1
101
US­
5
No
uncontrolled
stack
tk­
1
brick
30
12.6
4.01
101US­
5
101
US­
1,

US­
2
No
uncontrolled
stack
dc­
1,
dc­
2
brick
35
19.6
5.00
101US­
1,
US­
2
101
DS­
1
No
uncontrolled
stack
tk­
3
brick
65
4.91
2.50
101DS­
1A
102
BH­
1
No
bag
filter
cta­
1
brick
102BH­
1
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
261
102
US­
2
No
uncontrolled
stack
dc­
1
brick
102US­
2
102
DS­
1
No
uncontrolled
stack
tk­
1
brick
66
102DS­
1
102
DS­
1
No
uncontrolled
stack
tk­
2
brick
66
102DS­
1A
103
DS­
1
No
uncontrolled
stack
tk­
6
brick
60
4.01
2.26
103DS­
1C
103
BH­
2
No
bag
filter
cta­
2
brick
20
0.785
103BH­
2
103
DS­
2
No
uncontrolled
stack
tk­
2
brick
50
4.91
2.50
103DS­
2A
103
BH­
1
No
bag
filter
cta­
1
brick
20
0.785
103BH­
1
103
DS­
2
No
uncontrolled
stack
tk­
1
brick
50
4.91
2.50
103DS­
2
103
DS­
1
No
uncontrolled
stack
tk­
3
brick
60
4.01
2.26
103DS­
1
103
DS­
1
No
uncontrolled
stack
tk­
4
brick
60
4.01
2.26
103DS­
1A
103
DS­
1
No
uncontrolled
stack
tk­
5
brick
60
4.01
2.26
103DS­
1B
103
US­
3
No
uncontrolled
stack
ds­
1,
tk­
3
to
­
6
brick
60
4.01
2.26
103US­
3
104
US­
2
No
uncontrolled
stack
dc­
1
brick
20
7.1
3.01
104US­
2
104
US­
1
No
uncontrolled
stack
fd­
1
steam
25
0.4
104US­
1
104
US­
4
No
uncontrolled
process
enclosure
s­
1,
cr­
1
clay
104US­
4
104
US­
3
No
uncontrolled
stack
tk­
1
brick
25
10.2
3.60
104US­
3
105
US­
6
No
uncontrolled
stack
tk­
1
clay
pipe
and
flue
lining
35
4.9
2.50
105US­
6
105
US­
1
TO
US­
5
No
uncontrolled
stack
pk­
1
to
pk­
5
clay
pipe
and
flue
lining
20
19.6
5.00
105US­
1
TO
US­
5
111
BHI­
4
No
baghouse
dr­
1
brick
111BHI­
4
111
US­
7
No
uncontrolled
stack
misc­
1
brick
47
8.5
111US­
7
111
BHI­
2
No
baghouse
mw­
1,
fw­
1
brick
111BHI­
2
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
262
111
BHI­
3
No
baghouse
misc­
2
brick
111BHI­
3
111
US­
1
TO
US­
6
No
uncontrolled
stack
(
each)
dc­
1
brick
42
6.7
2.92
111US­
1
TO
US­
6
111
US­
8
No
uncontrolled
stack
tk­
1
brick
60
13.44
4.14
111US­
8
111
BHI­
1
No
baghouse
cr­
1,
g­
1,
s­
1,
mh­
1
brick
111BHI­
1
112
US­
3
No
uncontrolled
stack
dc­
1
brick
40
20
5.05
112US­
3
112
US­
1
No
uncontrolled
stack
pk­
1
to
pk­
10
brick
110
34.84
6.66
112US­
1
112
US­
17
No
uncontrolled
stack
misc­
1
brick
64
3.14
112US­
17
112
US­
2
No
uncontrolled
stack
pk­
11
to
pk­
20
brick
110
34.84
6.66
112US­
2
112
US­
19
No
uncontrolled
stack
gz­
1
brick
26
1.77
112US­
19
112
US­
18
No
uncontrolled
stack
misc­
4
brick
28
4
2.26
112US­
18
112
US­
20
No
uncontrolled
stack
gz­
2
brick
24
0.79
112US­
20
112
BHI­
7
No
baghouse
misc­
2
brick
112BHI­
7
112
US­
14
No
uncontrolled
stack
dc­
4
brick
41
17.72
4.75
112US­
14
112
US­
6
No
uncontrolled
stack
dc­
2
brick
72
19.63
5.00
112US­
6
112
US­
7
No
uncontrolled
stack
dc­
3
brick
74
19.63
5.00
112US­
7
112
US­
8
No
uncontrolled
stack
tk­
1
brick
77
14.06
4.23
112US­
8
112
US­
9
No
uncontrolled
stack
tk­
2
to
tk­
3
brick
78
24.17
5.55
112US­
9
112
US­
16
No
uncontrolled
stack
dc­
6
brick
27
17.72
4.75
112US­
16
112
US­
13
No
uncontrolled
stack
tk­
6
brick
28
32.11
6.39
112US­
13
112
US­
12
No
uncontrolled
stack
tk­
5
brick
47
15.11
4.39
112US­
12
112
US­
11
No
uncontrolled
stack
tk­
4
brick
47
15.11
4.39
112US­
11
112
US­
10
No
uncontrolled
stack
misc­
4
brick
28
4
2.26
112US­
10
112
BHI­
10
No
baghouse
cr­
3,
g­
3,
s­
3
brick
112BHI­
10
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
263
112
BHI­
9
No
baghouse
cr­
3,
g­
3,
s­
3
brick
112BHI­
9
112
BHI­
8
No
baghouse
misc­
3
brick
112BHI­
8
112
BHI­
1
No
baghouse
cr­
2,
g­
2,
s­
2,
mh­
2
brick
112BHI­
1
112
BHI­
5
No
baghouse
cr­
2,
g­
2,
s­
2,
mh­
2
brick
112BHI­
5
112
BHI­
4
No
baghouse
cr­
2,
g­
2,
s­
2,
mh­
2
brick
112BHI­
4
112
BHI­
3
No
baghouse
we­
2,
mw­
2,
fw­
2,

cta­
2
brick
112BHI­
3
112
BHI­
2
No
baghouse
cr­
2,
g­
2,
s­
2,
mh­
2
brick
112BHI­
2
112
BHI­
11
No
baghouse
mh­
3,
we­
3,
mw­
3,
fw­

3
brick
112BHI­
11
112
US­
4
No
uncontrolled
stack
dc­
1
brick
40
112US­
4
112
BH­
6
No
baghouse
dr­
1
brick
52
2.36
1.73
112BH­
6
112
US­
15
No
uncontrolled
stack
dc­
5
brick
36
17.72
4.75
112US­
15
113
US­
1
No
uncontrolled
stack
tk­
1
brick
40
4.91
2.50
113US­
1
114
US­
1
No
uncontrolled
stack
tk­
1
brick
28
6.3
2.83
114US­
1
116
US­
3
No
uncontrolled
stack
tk­
1
brick
20
8
3.19
116US­
3
118
US­
5
No
uncontrolled
stack
tk­
2
brick
35
25
5.64
118US­
5
118
US­
4
No
uncontrolled
stack
tk­
1
brick
35
4.9
2.50
118US­
4
118
US­
6
No
uncontrolled
stack
tk­
3
brick
35
9
3.39
118US­
6
120
US­
2
No
uncontrolled
stack
dc­
1
brick
120US­
2
120
US­
1
No
uncontrolled
stack
tk­
1
brick
120US­
1
121
US­
1
No
uncontrolled
stack
tk­
1
brick
121US­
1
121
US­
2
No
uncontrolled
stack
dc­
1
brick
121US­
2
122
US­
5
No
uncontrolled
stack
tk­
1
brick
32
20.25
5.08
122US­
5
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
264
122
US­
1
No
uncontrolled
stack
dr­
1
clay
10
3.1
1.99
122US­
1
122
US­
2
No
uncontrolled
stack
dr­
2
sand
20
0.4
0.71
122US­
2
122
US­
3
No
uncontrolled
stack
dc­
1
brick
30
12.5
3.99
122US­
3
122
US­
4
No
uncontrolled
stack
dc­
1
brick
1
4
2.26
122US­
4
123
US­
6
No
uncontrolled
stack
pk­
15
roof
tile
123US­
6
123
BHI­
2
No
baghouse
mh­
2­
3,
g­
1­
3,
s­
1­
2
brick
terra
cotta
pipe
rooftile
123BHI­
2
123
US­
3
No
uncontrolled
stack
pk­
7
to
pk­
9
sewer
pipe
123US­
3
123
US­
4
No
uncontrolled
stack
pk­
10
to
pk­
13
sewer
pipe
123US­
4
123
US­
1
No
uncontrolled
stack
pk­
1
to
pk­
3
sewer
pipe
123US­
1
123
US­
5
No
uncontrolled
tack
tk­
1
sewer
pipe
123US­
5
123
BH­
1
No
baghouse
mh­
2
­
3,
g­
1­
3,
s­
1­
2
brick
terra
cotta
pipe,
tooftile
123BH­
1
123
US­
8
No
uncontrolled
stack
tk­
2
terra
cotta
123US­
8
123
SC­
1
No
scrubber
gz­
1
roof
tile
terra
cotta
0
2.2
123SC­
1
123
US­
2
No
uncontrolled
stack
pk­
4
to
pk­
6
sewer
pipe
123US­
2
123
BH­
4
No
baghouse
gr­
1
to
gr­
2
brick,
terra
cotta,

pipe,
rooftile
123BH­
4
123
US­
7
No
uncontrolled
stack
pk­
14
terra
cotta
123US­
7
126
US­
1
TO
US­
6
No
uncontrolled
stack
pk­
1
to
pk­
6
brick
126US­
1
TO
US­
6
127
US­
6
No
uncontrolled
stack
pk­
6
brick
127US­
6
127
US­
7
No
uncontrolled
stack
dc­
1
brick
127US­
7
127
US­
8
No
uncontrolled
stack
dc­
1
brick
127US­
8
128
DA­
1
No
packed
bed
tower
tk­
1
brick
72
12
3.91
128DA­
1
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
265
128
US­
1
No
uncontrolled
stack
dc­
1
brick
65
19.6
5.00
128US­
1
129
US­
2
No
uncontrolled
stack
dc­
1
brick
129US­
2
129
US­
4
No
uncontrolled
stack
tk­
1
brick
129US­
4
130
US­
3
No
uncontrolled
stack
tk­
1
brick
31
4.69
2.44
130US­
3
130
US­
4
No
uncontrolled
stack
tk­
2
brick
18
11.08
3.76
130US­
4
131
US­
6
No
uncontrolled
stack
tk­
1
brick
31
8.3
3.25
131US­
6
131
US­
1
No
uncontrolled
stack
md­
1
sand
recycled
brick
coatings
15
9.6
131US­
1
131
US­
3
No
uncontrolled
stack
misc­
2
brick
28
3.1
131US­
3
131
US­
5
No
uncontrolled
stack
dc­
3,
dc­
4
brick
31
7
131US­
5
131
BH­
1
No
baghouse
dr­
1
sand
recycled
brick
9.5
1.2
1.24
131BH­
1
131
US­
7
No
uncontrolled
stack
tk­
2
brick
31
8.3
3.25
131US­
7
131
US­
4
No
uncontrolled
stack
dc­
1,
dc­
2
brick
31
7
2.99
131US­
4
131
US­
2
No
uncontrolled
stack
md­
1
sand
recycled
brick
coatings
19
7.1
131US­
2
132
US­
13
No
uncontrolled
stack
fw­
3
clay
sand
coating
22
0.8
132US­
13
132
US­
6
No
uncontrolled
stack
dc­
6
brick
20
8.03
3.20
132US­
6
132
US­
7
No
uncontrolled
stack
tk­
1
brick
36
13.6
4.16
132US­
7
132
US­
3
No
uncontrolled
stack
dc­
3
brick
20
8.03
3.20
132US­
3
132
US­
2
No
uncontrolled
stack
dc­
2
brick
20
8.03
3.20
132US­
2
132
US­
11
No
uncontrolled
stack
fw­
2
clay
sand
coatings
3.5
2.25
132US­
11
132
US­
10
No
uncontrolled
stack
fw­
1
clay
sand
coating
3.5
2.25
132US­
10
132
US­
1
No
uncontrolled
stack
dc­
1
brick
20
8.03
3.20
132US­
1
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
266
132
US­
4
No
uncontrolled
stack
dc­
4
brick
20
8.03
3.20
132US­
4
132
US­
12
No
uncontrolled
stack
misc­
1
brick
10
7.1
132US­
12
132
US­
8
No
uncontrolled
stack
dc­
7
brick
20
3.1
1.99
132US­
8
132
US­
5
No
uncontrolled
stack
dc­
5
brick
20
8.03
3.20
132US5
132
US­
9
No
uncontrolled
stack
dc­
8
brick
20
3.1
1.99
132US­
9
133
US­
18
No
uncontrolled
stack
tk­
3
brick
46
28.27
6.00
133US­
18
133
US­
5
TO
US­
8
No
uncontrolled
stack
dc­
1
to
dc­
8
brick
30
133US­
5
TO
US­
8
133
US­
1
TO
US­
2
No
uncontrolled
stack
mw­
1
to
mw­
2
colorants
133US­
1
TO
US­
2
133
BH­
2
No
uncontrolled
stack
cta­
2
brick
133BH­
2
133
BH­
1
No
fabric
filter
cta­
1
brick
133BH­
1
133
US­
3
No
uncontrolled
stack
dr­
1
brick
133US­
3
133
US­
15
TO
US­
17
No
uncontrolled
stack
dc­
9
brick
55
133US­
15
TO
US­

17
133
US­
11,

US­
12
No
uncontrolled
stack
tk­
1
brick
40.5
133US­
11,
US­
12
133
US­
9,
US­

10
No
uncontrolled
stack
tk­
2
brick
45
133US­
9,
US­
10
134
US­
6
No
uncontrolled
stack
tk­
3
brick
40
8.8
3.35
134US­
6
134
US­
4
No
uncontrolled
stack
tk­
1
brick
29
7.1
3.01
134US­
4
134
US­
5
No
uncontrolled
stack
tk­
2
brick
29
7.1
3.01
134US­
5
135
US­
3
No
uncontrolled
stack
tk­
3
brick
45
7.07
3.00
135US­
3
135
US­
1
No
uncontrolled
stack
tk­
1
brick
60
7.07
3.00
135US­
1
135
US­
4
No
uncontrolled
stack
dc­
1
brick
60
7.07
3.00
135US­
4
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
267
135
US­
2
No
uncontrolled
stack
tk­
2
brick
45
7.07
3.00
135US­
2
135
US­
5
No
uncontrolled
stack
dc­
2
brick
50
7.07
3.00
135US­
5
136
US­
4
No
uncontrolled
stack
tk­
1
brick
25
3.01
1.96
136US­
4
137
CY­
3
No
twin
cyclones
misc­
1
brick
46
10.47
137CY­
3
137
DS­
1
No
uncontrolled
stack
tk­
1
brick
71
6.2
2.81
137DS­
1
137
CY­
1
No
twin
cyclones
md­
1,
cta­
1
brick
44
9.6
137CY­
1
137
DS­
1
No
uncontrolled
stack
tk­
2
brick
71
6.2
2.81
137DS­
1A
137
US­
3
No
uncontrolled
stack
tk­
5
red
pavers
30
9.62
3.50
137US­
3
137
US­
4
No
uncontrolled
stack
tk­
3
brick
110
12.05
3.92
137US­
4
137
CY­
2
No
twin
cyclones
cta­
2
brick
38
7.1
137CY­
2
137
US­
4
No
uncontrolled
stack
tk­
4
brick
110
12.05
3.92
137US­
4A
138
US­
5
Yes
uncontrolled
stack
tk­
1
brick
90
4.9
2.50
138US­
5
140
US­
3
No
uncontrolled
stack
tk­
1
face
brick
35
115
12.10
140US­
3
140
US­
1
No
uncontrolled
stack
dc­
1
face
brick
30
191
15.59
140US­
1
140
US­
2
No
uncontrolled
stack
dc­
2
face
brick
30
59
8.67
140US­
2
141
US­
4
No
uncontrolled
stack
tk­
1
tile
and
brick
40
8.5
3.29
141US­
4
142
US­
1
No
uncontrolled
stack
tk­
1
clay
pipe
142US­
1
143
US­
1
No
uncontrolled
stack
tk­
1
brick
143US­
1
143
US­
2
No
uncontrolled
stack
tk­
2
brick
143US­
2
143
SC­
1
No
scrubber
dr­
1
sand
143SC­
1
143
US­
4
TO
US­
5
No
uncontrolled
stack
dc­
2
brick
143US­
4
TO
US­
5
143
US­
6
No
uncontrolled
stack
ca­
1
brick
143US­
6
144
US­
1
No
uncontrolled
stack
tk­
1
brick
25
4.83
2.48
144US­
1
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
268
144
US­
2
No
uncontrolled
stack
dc­
1
brick
23
12
3.91
144US­
2
146
US­
6
No
uncontrolled
stack
tk­
1
clay
roofing
tile
10.5
3.9
2.23
146US­
6
146
US­
7
No
uncontrolled
stack
tk­
2
clay
roofing
tile
146US­
7
146
US­
3
No
uncontrolled
stack
dc­
3
clay
roofing
tile
7.75
24.5
5.59
146US­
3
146
US­
8
No
uncontrolled
stack
tk­
3
clay
roofing
tile
6.25
146US­
8
146
US­
5
No
uncontrolled
stack
pk­
1
clay
roofing
tile
146US­
5
147
US­
1
No
stack
tk­
1
brick
175
7.1
3.01
147US­
1
148
DA­
1
No
limestone
scrubber
tk­
1
brick
80
148DA­
1
149
US­
1
No
uncontrolled
stack
tk­
1
43
8.7
3.33
149US­
1
150
BH­
1
No
baghouse
cta­
3
brick
3.56
150BH­
1
150
DIFF­
2
No
dry
injection
fabric
filter
tk­
2
brick
60
8.3
3.25
150DIFF­
2
150
SC­
1
No
scrubber
cta­
1,
cta­
2,
md­
1,

md­
2,
dr­
1
brick
150SC­
1
150
DIFF­
1
No
dry
injection
fabric
filter
tk­
1
brick
60
8.3
3.25
150DIFF­
1
151
BH­
2
No
dust
collector
gs­
1
brick
7
5.3
2.60
151BH­
2
151
DLS­
1
No
dry
lime
scrubber
tk­
1
brick
86
14
4.22
151DLS­
1
151
US­
1
No
uncontrolled
stack
dc­
1
brick
37
7
2.99
151US­
1
151
US­
6
No
uncontrolled
stack
misc­
1
brick
41
7
151US­
6
151
BH­
1
No
dust
collector
mw­
1,
fw­
1
brick
6
1.8
151BH­
1
152
US­
1
No
uncontrolled
stack
tk­
1
brick
20
4.83
2.48
152US­
1
153
BH­
3
No
dry
bag
house
gr­
1
glazed
tile
16
1.75
153BH­
3
153
US­
10
No
uncontrolled
stack
tk­
2
glazed
tile
fire
brick
22
1.76
1.50
153US­
10
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
269
153
US­
3
No
uncontrolled
stack
gz­
8
glazed
tile
8.58
1.76
153US­
3
153
BH­
2
No
dry
bag
house
mw­
1
glazed
tile
10
1.75
153BH­
2
153
BH­
1
No
dry
bag
house
s­
7
fire
brick
19
7.06
3.00
153BH­
1
153
US­
4
No
uncontrolled
stack
gz­
9
glazed
tile
8.75
1.76
153US­
4
153
US­
5
No
uncontrolled
stack
gz­
10
glazed
tile
4
1.76
153US­
5
153
US­
6
No
uncontrolled
stack
gz­
11
glazed
tile
10
1.76
153US­
6
153
US­
7
No
uncontrolled
stack
tk­
1
glazed
tile
firebrick
22
0.54
0.83
153US­
7
153
US­
8
No
uncontrolled
stack
tk­
1
glazed
tile
fire
brick
27
1.76
1.50
153US­
8
153
US­
9
No
uncontrolled
stack
tk­
2
glazed
tile
fire
brick
16.67
1
1.13
153US­
9
154
SC­
1
No
wet
scrubber
tk­
1
brick
55
16
4.51
154SC­
1
154
SC­
2
No
wet
scrubber
tk­
2
brick
80
100
11.28
154SC­
2
155
DLS­
1
No
dry
lime
scrubber
tk­
1
brick
49.4
12.6
4.01
155DLS­
1
155
BH­
1
No
baghouse
g­
1,
g­
2,
s­
1
brick
15
12.5
3.99
155BH­
1
155
BH­
2
No
cyclone/
baghouse
cta­
7,
mw­
1,
fw­
1
brick
15
1.8
155BH­
2
158
US­
3
No
uncontrolled
stack
tk­
1
brick
34
6.3
2.83
158US­
3
158
US­
1
No
uncontrolled
stack
dc­
1
brick
30
7.1
3.01
158US­
1
159
US­
5
No
dc­
2
brick
30
9.6
3.50
159US­
5
159
US­
6
No
tk­
1
brick
30
8.4
3.27
159US­
6
159
US­
4
No
dc­
1
brick
30
7
2.99
159US­
4
184
BH­
1
No
fabric
filter
mh­
1
to
mh­
2,
cr­
1
quarry
floor
tile
0.00
184BH­
1
184
BH­
3
No
fabric
filter
mw­
1
to
mw­
2
quarry
floor
tile
0.00
184BH­
3
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
270
184
US­
1
No
uncontrolled
stack
dc­
1
quarry
floor
tile
11.1
0.00
184US­
1
184
US­
3
No
uncontrolled
stack
tk­
1
to
tk­
4
quarry
floor
tile
19.63
0.00
184US­
3
184
US­
4
No
uncontrolled
stack
pk­
2
wall
tile
24
1.4
0.00
184US­
4
184
BH­
2
No
fabric
filter
s­
1
to
s­
8,
g­
1
to
g­
2
quarry
floor
tile
0.00
184BH­
2
184
US­
5
No
uncontrolled
stack
pk­
3
wall
tile
19
0.54
0.00
184US­
5
184
US­
6
No
uncontrolled
stack
pk­
1
wall
tile
17
0.35
0.00
184US­
6
185
US­
3
No
uncontrolled
stack
pk­
2
floor
tile
25
9
0.00
185US­
3
185
US­
4
No
uncontrolled
stack
tk­
1
floor
tile
25
4
0.00
185US­
4
185
US­
5
No
uncontrolled
stack
pk­
3
floor
tile
22
6
0.00
185US­
5
185
US­
6
No
uncontrolled
stack
pk­
4
floor
tile
26
6
0.00
185US­
6
185
US­
1
No
uncontrolled
stack
dp­
2
floor
tile
4
6
0.00
185US­
1
185
US­
2
No
uncontrolled
stack
pk­
1
floor
tile
25
9
0.00
185US­
2
186
BH­
1
No
fabric
filter
g­
1,
g­
2,
s­
1,
s­
2
clay,
shale
26.5
5.33
0.00
186BH­
1
186
BH­
2
No
fabric
filter
gr­
1,
gr­
2
tile,
brick
29
1.88
0.00
186BH­
2
186
BH­
3
No
cartridge
filter
g­
3,
g­
4
tile,
brick
15
1.6
0.00
186BH­
3
186
US­
10
No
uncontrolled
stack
tk­
2
tile,
brick
29
2.63
0.00
186US­
10
186
US­
11
No
uncontrolled
stack
tk­
3
tile,
brick
34
2.63
0.00
186US­
11
186
US­
12
No
uncontrolled
stack
tk­
4
tile,
brick
44.33
2.63
0.00
186US­
12
186
US­
9
No
uncontrolled
stack
tk­
1
tile,
brick
29.25
6.56
0.00
186US­
9
187
BH­
5
No
fabric
filter
mh­
5
minor
constituents
62
0.73
0.00
187BH­
5
187
BH­
10
No
fabric
filter
mh­
25
floor
tile
14.1
1
0.00
187BH­
10
187
BH­
11
No
fabric
filter
gr­
1
floor
tile
40
16
0.00
187BH­
11
187
BH­
12
No
fabric
filter
gr­
2
floor
tile
40
16
0.00
187BH­
12
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
271
187
BH­
13
No
fabric
filter
gr­
3
floor
tile
40
16
0.00
187BH­
13
187
BH­
2
No
fabric
filter
g­
1
shale
58
0.92
0.00
187BH­
2
187
BH­
3
No
fabric
filter
mh­
3,
mh­
4
shale
55.6
0.78
0.00
187BH­
3
187
BH­
4
No
fabric
filter
misc­
1
minor
constituents
7
0.63
0.00
187BH­
4
187
BH­
1
No
fabric
filter
mh­
2,
cr­
1
shale
60.3
0.84
0.00
187BH­
1
187
BH­
6
No
fabric
filter
we­
1
to
we­
2,
mw­
1
tile
body
50.5
0.78
0.00
187BH­
6
187
BH­
8
No
fabric
filter
md­
1
floor
tile
8
0.42
0.00
187BH­
8
187
US­
2
No
uncontrolled
stack
rk­
1
glaze
tile
24.33
5.24
0.00
187US­
2
187
US­
3
No
uncontrolled
stack
dc­
3
floor
tile
27.3
7.1
0.00
187US­
3
187
US­
4
No
uncontrolled
stack
dc­
4
floor
tile
0.00
187US­
4
187
US­
5
No
uncontrolled
stack
dc­
5
floor
tile
32
5.6
0.00
187US­
5
187
US­
6
No
uncontrolled
stack
tk­
1
floor
tile
32.3
5.6
0.00
187US­
6
187
US­
7
No
uncontrolled
stack
tk­
2
floor
tile
0.00
187US­
7
187
BH­
9
No
fabric
filter
mh­
18
floor
tile
14.1
1
0.00
187BH­
9
187
US­
1
No
uncontrolled
stack
dc­
1
glazed
tile
21.3
1.76
0.00
187US­
1
187
US­
8
No
uncontrolled
stack
tk­
3
floor
tile
29.5
5.7
0.00
187US­
8
188
US­
8
No
uncontrolled
stack
tk­
1
,
tk­
2
quarry
tile
60
7.1
0.00
188US­
8
188
BH­
1
No
baghouse
s­
1,
g­
1
quarry
tile
40
3.5
0.00
188BH­
1
188
BH­
2
No
baghouse
s­
2,
g­
2
quarry
tile
40
3.5
0.00
188BH­
2
189
US­
8
No
uncontrolled
stack
tk­
1
quarry
floor
tile
30
3.14
0.00
189US­
8
189
US­
6
No
uncontrolled
stack
misc­
2
quarry
floor
tile
12
0.8
0.00
189US­
6
189
US­
9
No
uncontrolled
stack
tk­
2
quarry
floor
tile
30
3.14
0.00
189US­
9
189
US­
5
No
uncontrolled
stack
misc­
1
quarry
floor
tile
12
0.8
0.00
189US­
5
TABLE
12.
(
continued)

FACID
APCD
Multiple
devices
APCD
type
Sources
Product
type
Stack
height
Stack
area
Stack
diameter
APCD
ID
272
189
BH­
2
No
baghouse
g­
3,
s­
3,
mw­
3
quarry
floor
tile
30
3.14
0.00
189BH­
2
189
BH­
1
No
baghouse
g­
1,
g­
2,
s­
1,
s­
2,

mw­
1,
mw­
2
quarry
floor
tile
35
7.1
0.00
189BH­
1
189
US­
7
No
uncontrolled
stack
misc­
3
quarry
floor
tile
9
0.8
0.00
189US­
7
189
US­
11
No
uncontrolled
stack
tk­
4
quarry
floor
tile
35
4.9
0.00
189US­
11
189
US­
10
No
uncontrolled
stack
tk­
3
quarry
floor
tile
35
4.9
0.00
189US­
10
189
BH­
3
No
baghouse
g­
4,
s­
4,
mw­
4
quarry
floor
tile
20
3.14
0.00
189BH­
3
273
TABLE
13.
INLET
GAS
PARAMETERS
APCDID
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Inlet
ID
1DLS­
1
30734
18856
450
0.95
lb/
ton
Test
data
1DLS­
12
7US­
8
29249
15257
18
558.5
7US­
811
9DA­
1
9DA­
159
13US­
1
115
13US­
15
13DA­
1A
2.4
475
13DA­
1A4
13DA­
1
2.4
475
13DA­
14
13US­
2
115
13US­
26
13US­
3
115
13US­
37
13US­
4
115
13US­
48
31DA­
1
31DA­
152
31DA­
1A
31DA­
1A52
59BH­
1
18471
3
20
70
59BH­
112
72BH­
1
41480
72BH­
113
72BH­
2
4600
72BH­
214
72BH­
3
41480
72BH­
315
72BH­
4
1100
72BH­
416
72BH­
5
5345
72BH­
517
85BH­
3
140
85BH­
318
101BH­
2
1000
980
101BH­
219
104US­
4
0.0033
lb/
ton
Emission
factor
104US­
420
111BHI­
1
38500
64
111BHI­
122
111BHI­
2
4440
64
111BHI­
223
111BHI­
3
35000
64
111BHI­
324
111BHI­
4
4440
150
111BHI­
421
112BHI­
1
23798
64
112BHI­
131
112BHI­
2
50705
64
112BHI­
228
112BHI­
3
11508
64
112BHI­
326
112BHI­
4
68943
64
112BHI­
430
TABLE
13.
(
continued)

APCDID
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Inlet
ID
274
112BHI­
5
22845
64
112BHI­
529
112BH­
6
5843
100
112BH­
627
112BHI­
7
9955
64
112BHI­
732
112BHI­
8
6005
64
112BHI­
833
112BHI­
9
18000
64
112BHI­
934
114US­
1
200
114US­
137
128DA­
1
375
128DA­
138
131BH­
1
6000
5100
1
120
131BH­
139
137CY­
1
21152
137CY­
140
137DS­
1
150
137US­
142
137CY­
2
16430
137CY­
241
141US­
4
20000
10000
141US­
443
143SC­
1
600
143SC­
145
148DA­
1
30000
17661
4.3
17.5
322
0.15
lb/
ton
Test
data
148DA­
146
150BH­
1
6200
150BH­
149
150DIFF­
1
150DIFF­
147
150SC­
1
7800
150SC­
150
150DIFF­
2
28525
13270
9.1
16.8
624
150DIFF­
248
151DLS­
1
30000
17500
7.8
17
345
0.81
lb/
ton
Test
data
151DLS­
151
154SC­
1
15.3
500.1
0.11
lb/
ton
Test
data
154SC­
153
154SC­
2
59400
25835
16.9
489
154SC­
254
155DLS­
1
31103
16970
7.79
17.5
101
0.18
lb/
ton
Test
data
155DLS­
157
155BH­
1
68
155BH­
155
155BH­
2
68
155BH­
256
112BHI­
10
21000
64
112BHI­
1035
112BHI­
11
21000
64
112BHI­
1136
112US­
11
15800
425
112US­
1125
275
TABLE
14.
INLET
GAS
HAP
Inlet
ID
Inlet
Gas
HAP
Amount
Units
HAP
basis
1DLS­
12
HF
­­
Hydrogen
fluoride
0.88
lb/
ton
Test
data
13DA­
1A4
HF
­­
Hydrogen
fluoride
0.69
lb/
ton
Test
data
13DA­
14
HF
­­
Hydrogen
fluoride
0.69
lb/
ton
Test
data
9DA­
159
HF
­­
Hydrogen
fluoride
0.763
lb/
ton
Test
data
9DA­
159
HCl
­­
Hydrochloric
acid
0.097
lb/
ton
Test
data
31DA­
1A52
HF
­­
Hydrogen
fluoride
0.49
lb/
ton
Test
data
(
prior
to
control
device
installation)

31DA­
152
HF
­­
Hydrogen
fluoride
0.451
lb/
ton
Mass
balance
148DA­
146
HF
­­
Hydrogen
fluoride
0.406
lb/
ton
Test
data
148DA­
146
HCl
­­
Hydrochloric
acid
0.434
lb/
ton
Test
data
150DIFF­
147
HF
­­
Hydrogen
fluoride
0.51
lb/
ton
Test
data
150BH­
149
Manganese
Compounds
3.5
ton/
yr
Mass
balance
150BH­
149
Chromium
Compounds
1
ton/
yr
Mass
balance
150SC­
150
Chromium
Compounds
2
ton/
yr
Mass
balance
150SC­
150
Manganese
Compounds
2.2
ton/
yr
Mass
balance
150DIFF­
248
HF
­­
Hydrogen
fluoride
0.51
lb/
ton
Test
data
151DLS­
151
HCl
­­
Hydrochloric
acid
0.2
lb/
ton
Test
data
151DLS­
151
HF
­­
Hydrogen
fluoride
0.35
lb/
ton
Test
data
154SC­
153
HF
­­
Hydrogen
fluoride
2.1
lb/
ton
Test
data
154SC­
254
HF
­­
Hydrogen
fluoride
0.753
lb/
ton
Test
data
155DLS­
157
HF
­­
Hydrogen
fluoride
1.035
lb/
ton
Test
data
155DLS­
157
HCl
­­
Hydrochloric
acid
0.19
lb/
ton
Test
data
276
TABLE
15.
OUTLET
GAS
PARAMETERS
APCD
ID
Outlet
No.
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Outlet
ID
1DLS­
1
3
24280
17486
5
17
230
0.004
lb/
ton
Test
data
1DLS­
13
1US­
2
2
8782
4900
6
15
410
0.93
lb/
ton
0.06
lb/
ton
Test
data
Test
data
1US­
22
5US­
1
5
12856
110
5US­
15
5US­
2
6
26000
200
5US­
26
5US­
3
230
26000
200
5US­
3230
5US­
4
7
36950
550
5US­
47
5US­
5
8
36950
550
5US­
58
6US­
1
TO
US­
2
9
12856
110
6US­
1
TO
US­
29
6US­
3
10
26000
200
6US­
310
6US­
4
11
26000
200
6US­
411
6US­
5
12
26000
200
6US­
512
6US­
6
13
26000
200
6US­
613
6US­
7
14
36950
550
6US­
714
6US­
8
15
36950
550
6US­
815
7US­
8
132
0.292
lb/
ton
Test
data
7US­
8132
8US­
3
16
9800
300
8US­
316
10US­
1
254
105
10US­
1
10US­
2
255
105
10US­
2
10US­
3
256
105
10US­
3
10US­
4
19
105
10US­
419
10US­
5
20
330
10US­
520
10US­
6
21
330
10US­
621
11US­
1
22
115
11US­
122
11US­
2
23
100
11US­
223
11US­
3
24
41193
28912
5.44
21
256
11US­
324
11US­
4
258
68
11US­
4258
TABLE
15.
(
continued)

APCD
ID
Outlet
No.
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Outlet
ID
277
12US­
1
39
250
12US­
139
12US­
2,
US­
3
40
85
12US­
2,
US­
340
12US­
6,
US­
7
41
30000
21000
45
20.5
115
12US­
6,
US­
741
12US­
8
42
18000
9400
4.4
550
12US­
842
12US­
9
43
18000
9400
4.4
550
12US­
943
13DA­
1
25
39350
21445
6.2
16.5
440
0.4
lb/
ton
0.65
lb/
ton
Test
data
Test
data
13DA­
125
13DA­
1A
377
39350
21445
6.2
16.5
440
0.4
lb/
ton
0.65
lb/
ton
Test
data
Test
data
13DA­
1A25
13US­
1
26
21200
18500
5.7
20.9
110
13US­
126
13US­
2
27
21200
18500
5.7
20.9
110
13US­
227
13US­
3
28
21200
18500
5.7
20.9
110
13US­
328
13US­
4
29
21200
18500
5.7
20.9
110
13US­
429
14US­
1
30
18700
350
14US­
130
14US­
2
31
30840
90
14US­
231
15US­
1
32
20000
90
15US­
132
15US­
2
33
17600
400
15US­
233
16US­
1
35
10230
115
16US­
135
16US­
2
36
10230
115
16US­
236
16US­
3
34
30500
410
16US­
334
17US­
2
38
32000
120
17US­
238
17US­
3
37
18734
358
17US­
337
19US­
5
47
19US­
547
19US­
6
48
19US­
648
19US­
7
TO
US­
8
49
19US­
7
TO
US­
849
TABLE
15.
(
continued)

APCD
ID
Outlet
No.
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Outlet
ID
278
20US­
1
44
25185
379
0.96
lb/
ton
0.024
lb/
ton
AP­
42
emission
factor
AP­
42
emission
factor
20US­
144
20US­
2
45
38432
593
0.96
lb/
ton
0.024
lb/
ton
AP­
42
emission
factor
AP­
42
emission
factor
20US­
245
20US­
3
TO
US­
5
46
130
0.187
lb/
ton
0.43
lb/
ton
AP­
42
emission
factor
Mass
balance
20US­
3
TO
US­
546
23BH­
1
55
600
68
23BH­
155
23US­
1
57
21200
320
23US­
157
23US­
2
58
21200
350
23US­
258
23BH­
2
56
1500
68
23BH­
256
23BH­
3
72
2350
68
23BH­
372
23US­
3
59
21200
400
23US­
359
23US­
4
60
400
23US­
460
23US­
5
61
400
23US­
561
23US­
6
62
400
23US­
662
23US­
7
63
400
23US­
763
23FE­
8
69
1140
840
23FE­
869
23US­
8
64
400
23US­
864
23US­
9
65
400
23US­
965
24BH­
1
50
13000
3
68
24BH­
150
24US­
1
51
100
24US­
151
24US­
2
52
425
24US­
252
24US­
3
53
100
24US­
353
24US­
4
54
617
24US­
454
TABLE
15.
(
continued)

APCD
ID
Outlet
No.
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Outlet
ID
279
25US­
6
261
25US­
6261
25US­
7
74
25US­
774
25US­
8
71
25US­
871
25US­
9
70
25US­
970
26BH­
1
262
2800
26BH­
1262
26US­
2
75
26US­
275
27BH­
1
263
68
27BH­
1263
27US­
1
77
27US­
177
28BH­
1
79
1400
68
28BH­
179
28US­
1
78
28US­
178
29US­
1
80
2100
149
29US­
180
30US­
1
81
7610
411
30US­
181
30US­
2
82
8220
435
30US­
282
31DA­
1A
387
25000
15000
460
31DA­
1A188
31DA­
1
88
25000
15000
460
31DA­
1188
31US­
5
86
31US­
586
31US­
6
87
31US­
687
32US­
9
83
32US­
983
41US­
1
97
20828
18247
7.86
20.4
100
0.11
lb/
ton
0.076
lb/
ton
Test
data
Test
data
41US­
197
41US­
2
98
19765
17228
8
20.4
99.7
0.056
lb/
ton
0.042
lb/
ton
Test
data
Test
data
41US­
298
41US­
3
96
30835
17403
5.19
18.1
436
0.87
lb/
ton
0.074
lb/
ton
Test
data
Test
data
41US­
396
42US­
1
90
120
42US­
190
42US­
2
91
375
42US­
291
43US­
1
94
36150
125
43US­
194
43US­
4
93
140
43US­
493
47US­
3
101
15622
7655
474
47US­
3101
TABLE
15.
(
continued)

APCD
ID
Outlet
No.
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Outlet
ID
280
48US­
2
102
22500
11500
9.1
16.4
482
48US­
2102
49US­
2
103
28600
15000
7.6
16.6
488
49US­
2103
49US­
4
104
28600
15000
7.6
16.6
488
49US­
4104
51BH­
1
113
15500
51BH­
1113
51US­
1
111
90
51US­
1111
51BHI­
1
114
1000
51BHI­
1114
51US­
2
105
105
51US­
2105
51BH­
3
115
2930
51BH­
3115
51US­
4
106
16440
9986
8.49
16.83
320
51US­
4106
51US­
5
107
105
51US­
5107
51US­
6
112
27000
90
51US­
6112
51US­
7
108
19690
105
51US­
7108
51US­
8
116
19690
105
51US­
8116
51US­
9
109
29095
15024
10.14
17
436
51US­
9109
52US­
2
118
44837
41571
3.2
19.8
94
0.018
lb/
ton
Test
data
52US­
2118
52BH­
2
117
17660
13128
4.2
15.8
242
0.04
lb/
ton
Test
data
52BH­
2117
53BH­
1
119
25250
400
53BH­
1119
54BH­
1
122
13300
60
54BH­
1122
54US­
2
120
15176
9
17
160
0.93
lb/
ton
0.08
lb/
ton
Emission
factor
54US­
2120
54US­
4
121
14000
9
17
375
0.93
lb/
ton
0.08
lb/
ton
Emission
factor
54US­
4121
55US­
1
123
13950
475
55US­
1123
55US­
2
124
19800
350
55US­
2124
56US­
1
131
56US­
1131
57BH­
1
130
18500
2
68
0.0072
lb/
ton
Test
data
57BH­
1130
TABLE
15.
(
continued)

APCD
ID
Outlet
No.
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Outlet
ID
281
57US­
1
125
17800
14500
7
19
145
0.032
lb/
ton
Test
data
(
Method
25A)
57US­
1125
57US­
2
126
18500
15000
7
19
145
0.032
lb/
ton
Test
data
(
DC­
1)
57US­
2126
57BH­
3
127
2600
2336
5
130
0.4
ton/
yr
Emission
factor
57BH­
3127
57US­
3
128
7300
4350
10
335
0.67
lb/
ton
0.04
lb/
ton
Test
data
Test
data
57US­
3128
57US­
4
129
18500
15000
7
145
0.67
lb/
ton
0.04
lb/
ton
Test
data
(
TK­
1)
Test
data
(
TK­
1)
57US­
4129
58BH­
1
135
22500
22500
2
68
58BH­
1135
58US­
1
136
17800
14500
7
145
58US­
1136
58BH­
2
138
4350
3700
6
130
58BH­
2138
58US­
2
137
25000
22500
7
130
58US­
2137
58US­
3
133
13300
7900
7
13
380
58US­
3133
58BH­
3
134
28000
18000
6
13
300
0.04
lb/
ton
Test
data
58BH­
3134
59BH­
1
141
18471
3
20
70
59BH­
1141
59US­
1
139
14552
7
14
170
1.09
lb/
ton
Engineering
judgment
59US­
1139
59US­
2
140
29517
7
14
171
1.09
lb/
ton
Engineering
judgment
59US­
2140
60BH­
1
145
21500
68
60BH­
1145
60BH­
2
146
9500
68
60BH­
2146
60BH­
3
147
2180
120
60BH­
3147
60US­
4
142
5365
5
16
377
0.25
lb/
ton
Test
data
60US­
4142
60US­
5
143
5365
5
16
377
0.25
lb/
ton
Test
data
60US­
5143
60US­
6
144
9561
5
16
362
0.56
lb/
ton
Test
data
60US­
6144
61BH­
1
151
6500
68
61BH­
1151
TABLE
15.
(
continued)

APCD
ID
Outlet
No.
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Outlet
ID
282
61BH­
2
152
8500
68
61BH­
2152
61US­
4
148
23500
430
61US­
4148
61US­
5
149
23500
430
61US­
5149
61US­
6
150
33000
260
61US­
6150
62US­
3
153
260
62US­
3153
62US­
4
154
260
62US­
4154
63US­
2
155
0.02
lb/
ton
South
Coast
AQMDs
AB
2588
Emission
inventory
63US­
2155
63US­
3
156
0.02
lb/
ton
South
Coast
AQMDs
AB
2588
Emission
inventory
63US­
3156
65US­
1
157
28000
19
590
0.08
lb/
ton
0.08
lb/
ton
AP­
42
AP­
42
65US­
1157
65US­
2
158
28000
19
590
65US­
2158
65US­
3
159
28000
19
590
0.08
lb/
ton
0.08
lb/
ton
AP­
42
AP­
42
65US­
3159
66US­
2
160
38392
400
66US­
2160
67US­
3
161
67US­
3161
68US­
2
162
20500
12600
4
20
370
0.37
lb/
ton
0.024
lb/
ton
AP­
42
AP­
42
68US­
2162
69US­
3
163
22500
12600
4
18
450
0.37
lb/
ton
0.024
lb/
ton
AP­
42
AP­
42
69US­
3163
69US­
4
311
19870
12110
4
20
375
0.37
lb/
ton
0.024
lb/
ton
AP­
42
AP­
42
69US­
4311
70DIFF­
1
164
16200
9208
9.4
13.5
413
0.253
lb/
hr
Test
data
70DIFF­
1164
70DIFF­
2
165
17583
10380
9.1
14
413
0.293
lb/
hr
Test
data
70DIFF­
2165
72BH­
1
166
41480
72BH­
1166
72BH­
2
167
4600
72BH­
2167
TABLE
15.
(
continued)

APCD
ID
Outlet
No.
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Outlet
ID
283
72BH­
3
168
41480
72BH­
3168
72BH­
4
169
1100
72BH­
4169
72BH­
5
173
5345
72BH­
5173
73US­
4
174
14.4
513
0.45
lb/
ton
0.73
lb/
ton
Test
data
Test
data
73US­
4174
73US­
5
175
0.53
lb/
ton
0.73
lb/
ton
Test
data
Test
data
73US­
5175
75US­
2
176
345
75US­
2176
76US­
1
177
420
76US­
1177
76US­
2
178
105
76US­
2178
77US­
5
180
77US­
5180
78US­
1
181
68000
78US­
1181
78US­
2
182
62000
78US­
2182
78US­
3
184
37000
78US­
3184
78US­
4
183
27000
78US­
4183
79US­
1
185
79US­
1185
80US­
1
186
80US­
1186
80US­
2
187
80US­
2187
80US­
3
188
80US­
3188
82US­
2
348
12700
180
82US­
2348
82US­
3
349
25400
2.8
395
82US­
3349
84US­
1
342
110
84US­
1342
84US­
2
189
31521
14935
7.4
16.5
533
84US­
1189
85US­
1
194
35165
26908
20
178
0.56
lb/
ton
Test
data
85US­
1194
85BH­
1
192
3700
68
0.65
ton/
yr
Engineering
judgment
85BH­
1192
85CY­
1
190
10106
5647
6.18
18
423
0.52
lb/
ton
Test
data
85CY­
1190
85BH­
2
191
605
68
85BH­
2191
TABLE
15.
(
continued)

APCD
ID
Outlet
No.
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Outlet
ID
284
85BH­
3
193
934
5
130
85BH­
3193
86US­
2
195
15
21.9
110
86US­
2195
86US­
3
196
13.7
610
86US­
3196
86US­
6
197
86US­
6197
88US­
2
207
35088.7
19374.4
5.7
18
438.1
0.678
tpy
0.088
tpy
Emission
factor
Emission
factor
88US­
2207
89US­
5
198
23603
11305
5.2
20.9
500
89US­
5198
90US­
1
203
25120
27488
98
90US­
1203
90US­
2
204
19216
19201
108
90US­
2204
90US­
3
205
59873
380
90US­
3205
90US­
4
206
88200
420
90US­
4206
91US­
1
199
7314
91US­
1199
91US­
2
200
7314
91US­
2200
91US­
3
201
7314
91US­
3201
91US­
4
202
7314
91US­
4202
100DS­
1
208
16725
13750
160
100DS­
1208
100DS­
1A
378
16725
13750
160
100DS­
1A208
100US­
2
209
160
100US­
2209
100US­
3
210
160
100US­
3210
101US­
1,
US­
2
216
80000
72770
100
101US­
1,

US­
2216
101DS­
1A
384
8000
6680
150
101DS­
1A213
101BH­
1
212
1000
980
68
101BH­
1212
101DS­
1
213
8000
6680
150
101DS­
1213
101BH­
2
211
1000
980
68
101BH­
2211
101US­
4
215
50000
45480
100
101US­
4215
TABLE
15.
(
continued)

APCD
ID
Outlet
No.
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Outlet
ID
285
101US­
5
214
46500
28900
360
101US­
5214
102BH­
1
345
68
102BH­
13445
102DS­
1A
385
102DS­
1A221
102DS­
1
221
102DS­
1221
102US­
2
222
100
102US­
2222
103DS­
1A
381
12500
10270
160
103DS­
1A224
103DS­
1B
382
12500
10270
160
103DS­
1B224
103DS­
1C
383
12500
10270
160
103DS­
1C224
103BH­
1
229
1000
980
68
103BH­
1229
103DS­
1
224
12500
10270
160
103DS­
1224
103DS­
2
223
8000
6680
150
103DS­
2223
103DS­
2A
380
8000
6680
150
103DS­
2A223
103BH­
2
227
1000
980
68
103BH­
2227
104US­
1
218
87
200
104US­
1218
104US­
2
217
5440
130
104US­
2217
104US­
3
220
5173
340
104US­
3220
104US­
4
219
0.0002
lb/
ton
Emission
factor
104US­
4219
105US­
1
TO
US­
5
226
450
105US­
1
TO
US­
5226
105US­
6
228
80
105US­
6228
111US­
1
TO
US­
6
232
3175
100
111US­
1
TO
US­
6232
111US­
7
233
2500
140
111US­
7233
111US­
8
231
22000
230
0.79
lb/
ton
Test
data
111US­
8231
112US­
1
245
25000
400
112US­
1245
TABLE
15.
(
continued)

APCD
ID
Outlet
No.
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Outlet
ID
286
112US­
2
236
25000
400
112US­
2236
112US­
3
237
9000
140
112US­
3237
112US­
6
246
35000
95
112US­
6246
112BH­
6
244
7000
76
112BH­
6244
112US­
7
247
35000
95
112US­
7247
112US­
8
248
23000
300
112US­
8248
112US­
9
239
49000
440
0.62
lb/
ton
Test
data
112US­
9239
113US­
1
252
113US­
1252
114US­
1
253
0.021
lb/
ton
Emission
factor
114US­
1253
122US­
1
264
2516
122US­
1264
122US­
3
266
4700
210
122US­
3266
122US­
5
265
22913
350
122US­
5265
123US­
1
272
123US­
1272
123BH­
1
268
41000
123BH­
1268
123SC­
1
278
10000
123SC­
1278
123US­
2
273
123US­
2273
123BHI­
2
269
17200
123BHI­
2269
123US­
3
274
123US­
3274
123BH­
4
267
9000
123BH­
4267
123US­
4
275
123US­
4275
123US­
5
270
123US­
5270
123US­
6
277
123US­
6277
123US­
7
276
123US­
7276
123US­
8
271
123US­
8271
TABLE
15.
(
continued)

APCD
ID
Outlet
No.
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Outlet
ID
287
126US­
1
TO
US­
6
279
126US­
1
TO
US­
6279
127US­
6
282
13746
4.9
19
577
127US­
6282
127US­
7
280
6496
4
21
120
127US­
7280
127US­
8
281
40317
4.6
21
110
127US­
8281
128DA­
1
283
47900
7.85
18
281
0.23
lb/
ton
Test
data
128DA­
1283
128US­
1
284
67100
5.53
21
108
128US­
1284
129US­
2
286
30800
3.26
21
88
129US­
2286
129US­
4
285
30990
7.15
18.75
374
129US­
4285
130US­
3
287
13000
425
130US­
3287
130US­
4
288
13000
375
1.28
lb/
ton
Test
data
130US­
4288
131BH­
1
289
120
131BH­
1289
131US­
3
290
85
131US­
3290
131US­
4
291
115
131US­
4291
131US­
5
323
115
131US­
5323
131US­
6
292
550
131US­
6292
131US­
7
293
131US­
7293
132US­
7
294
132US­
7294
134US­
4
330
445
134US­
4330
134US­
5
331
445
134US­
5331
134US­
6
332
445
134US­
6332
135US­
1
300
21700
12275
6.2
17
400.7
135US­
1300
135US­
2
298
21700
12275
6.2
17.9
400.7
135US­
2298
135US­
3
297
21700
12275
6.2
17.9
400.7
135US­
3297
135US­
4
301
9500
6175
4.7
18.8
298
135US­
4301
135US­
5
299
9500
6175
4.7
18.8
298
135US­
5299
TABLE
15.
(
continued)

APCD
ID
Outlet
No.
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Outlet
ID
288
136US­
4
302
13700
8699
4.37
17.5
330
136US­
4302
137DS­
1A
379
16737
13469
1.3
lb/
ton
0.18
lb/
ton
Test
data
Test
data
137DS­
1A303
137DS­
1
303
16737
13469
1.3
lb/
ton
0.18
lb/
ton
Test
data
Test
data
137DS­
1303
137CY­
3
305
24888
137CY­
3305
137US­
3
306
22673
11398
479
137US­
3306
137US­
4
304
23727
14213
12.6
15.5
292
137US­
4304
137US­
4A
386
23727
14213
12.6
15.5
292
137US­
4A304
138US­
5
307
13114
7129
11.4
15.9
138US­
5307
140US­
1
308
37000
120
140US­
1308
140US­
2
309
5000
300
140US­
2309
140US­
3
310
11000
500
140US­
3310
141US­
4
312
19400
8930
6.2
16.5
595
2.95
lb/
ton
141US­
4312
142US­
1
313
142US­
1313
143US­
1
316
18113
11.97
16.5
410
143US­
1316
143US­
2
315
31501
6.46
19
353
143US­
2315
143US­
4
TO
US­
5
314
52763
2.89
20
74.3
143US­
4
TO
US­
5314
143US­
6
317
12942
21.57
15.5
329
143US­
6317
144US­
1
318
20500
11100
7.3
17
400
0.27
lb/
ton
0.057
lb/
ton
Test
data
Test
data
144US­
1318
144US­
2
319
23800
20200
8
21
100
0.19
lb/
ton
0.28
lb/
ton
Test
data
Test
data
144US­
2319
146US­
3
327
42481
17.9
84.2
146US­
3327
146US­
5
324
146US­
5324
146US­
6
325
16.6
437.8
146US­
6325
146US­
7
326
146US­
7326
146US­
8
328
8824.3
19.7
301
146US­
8328
147US­
1
329
20000
10
210
147US­
1329
TABLE
15.
(
continued)

APCD
ID
Outlet
No.
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Outlet
ID
289
148DA­
1
333
30000
18577
4.8
18.5
302
0.15
lb/
ton
Test
data
148DA­
1333
149US­
1
334
20165
13769
6.42
16.2
261
149US­
1334
150DIFF­
1
337
150DIFF­
1337
150BH­
1
339
150BH­
1339
150SC­
1
340
150SC­
1340
150DIFF­
2
338
24350
16243
14.7
15.8
299
150DIFF­
2338
151US­
1
357
14000
12600
2.1
21
102
0.021
lb/
ton
0.047
lb/
ton
Test
data
Test
data
151US­
1357
151BH­
1
353
6350
5900
1.2
21
86
0.056
lb/
hr
Test
data
151BH­
1353
151DLS­
1
355
31300
19900
9.4
17
277
0.73
lb/
ton
0.8
lb/
ton
Test
data
Test
data
151DLS­
1355
151BH­
2
352
12000
11100
2
21
84
0.288
lb/
hr
Test
data
151BH­
2352
151US­
6
354
20300
18400
3.4
21
93
0.046
lb/
ton
0.047
lb/
ton
Test
data
Test
data
151US­
6354
152US­
1
358
9.73
16.4
425
0.502
lb/
ton
Test
data
152US­
1358
153BH­
1
375
68
153BH­
1375
153BH­
2
367
68
153BH­
2367
153BH­
3
366
68
153BH­
3366
153US­
3
359
68
153US­
3359
153US­
4
360
68
153US­
4360
153US­
5
361
68
153US­
5361
153US­
6
362
68
153US­
6362
153US­
7
376
68
153US­
7376
153US­
8
363
650
153US­
8363
153US­
9
364
200
153US­
9364
154SC­
1
368
18840
28353
250
0.11
lb/
ton
0.15
lb/
ton
Test
data
Test
data
154SC­
1368
154SC­
2
369
43800
28350
16.1
131
0.7
lb/
ton
0.17
lb/
ton
Test
data
Test
data
154SC­
2369
155DLS­
1
371
32347
18833
8.1
17.8
94
0.072
lb/
ton
Test
data
155DLS­
1371
155BH­
2
370
9600
155BH­
2370
TABLE
15.
(
continued)

APCD
ID
Outlet
No.
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Outlet
ID
290
159US­
4
372
21
100
159US­
4372
159US­
5
373
21
100
159US­
5373
159US­
6
374
7560
0
240
159US­
6374
184BH­
1
402
4500
184BH­
1402
184US­
1
406
21032
18387
5.18
21
107
184US­
1406
184BH­
2
403
28000
184BH­
2403
184US­
3
405
53741
34561
5.82
304
184US­
3405
184BH­
3
404
14000
184BH­
3404
186US­
9
407
18.5
300
186US­
9407
187US­
2
413
300
187US2413
187US­
6
411
300
187US­
6411
187US­
8
412
300
187US8412
188BH­
1
399
17000
188BH­
1399
188BH­
2
400
17000
188BH­
2400
188US­
8
401
33000
500
188US­
8401
189BH­
1
395
15000
189BH­
1395
189BH­
2
397
9000
189BH­
2397
189BH­
3
398
9000
189BH­
3398
189US­
5
392
800
189US­
5392
189US­
6
393
800
189US­
6393
189US­
7
394
800
189US­
7394
189US­
8
388
5000
325
189US­
8388
189US­
9
389
5000
350
189US­
9389
20US­
11
TO
US­
18
259
130
20US­
11
TO
US­
18259
23US­
10
66
400
23US­
1066
TABLE
15.
(
continued)

APCD
ID
Outlet
No.
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Outlet
ID
291
23US­
11
68
400
23US­
1168
23US­
12
73
23688
450
23US­
1273
25US­
10
67
25US­
1067
32US­
10
84
32US­
1084
32US­
11
85
32US­
1185
43US­
2,
DS­
1
92
40725
240
43US­
2,
DS­
192
46US­
1,
DS­
1
99
31791
20210
10.5
17
276
46US­
1,
DS­
199
51US­
10
110
225
51US­
10110
112US­
10
249
2500
500
112US­
10249
112US­
11
351
15800
425
112US­
11351
112US­
12
234
15800
425
2.12
lb/
ton
Test
data
112US­
12234
112US­
13
235
16700
490
0.89
lb/
ton
Test
data
112US­
13235
112US­
14
238
63000
90
112US­
14238
112US­
15
241
63000
90
112US­
15241
112US­
16
242
63000
90
112US­
16242
112US­
17
240
1000
100
112US­
17240
112US­
18
250
2500
500
112US­
18250
112US­
19
243
8000
50
112US­
19243
112US­
20
251
1000
50
112US­
20251
133US­
18
296
96363
57542
6.9
18
423
0.18
lb/
ton
Test
data
133US­
18296
153US­
10
365
550
153US­
10365
186US­
10
408
18.5
300
186US­
10408
186US­
11
409
300
186US­
11409
186US­
12
410
18.5
300
186US­
12410
189US­
10
390
5000
400
189US­
10390
189US­
11
391
5000
400
189US­
11391
TABLE
15.
(
continued)

APCD
ID
Outlet
No.
Actual
flow
Standard
flow
Moisture
content
O2
content
Temperature
PM
PM
units
VOC
VOC
units
PM
basis
VOC
basis
Outlet
ID
292
72US­
3,
US­
4,
DS­

2
170
76111
53165
7.72
17
216
0.965
lb/
ton
Test
data
72US­
3,
US­
4,

DS­
2170
133US­
9,
US­
10
295
0.065
lb/
ton
Test
data­­
1
of
2
stacks
133US­
9,

US­
10295
293
TABLE
16.
OUTLET
GAS
HAPS
Outlet
ID
Outlet
gas
HAP
Amount
Units
HAP
basis
1DLS­
13
HF
­­
Hydrogen
fluoride
0.003
lb/
ton
Test
data
1US­
22
HF
­­
Hydrogen
fluoride
0.165
lb/
ton
Test
data
5US­
47
HF
­­
Hydrogen
fluoride
0.82
lb/
ton
Mass
balance
5US­
58
HF
­­
Hydrogen
fluoride
0.82
lb/
ton
Mass
balance
51US­
4106
HCl
­­
Hydrochloric
acid
0.04
lb/
ton
Test
data
51US­
4106
HF
­­
Hydrogen
fluoride
0.401
lb/
ton
Test
data
51US­
9109
HF
­­
Hydrogen
fluoride
0.568
lb/
ton
Test
data
51US­
9109
HCl
­­
Hydrochloric
acid
0.045
lb/
ton
Test
data
6US­
714
HF
­­
Hydrogen
fluoride
0.72
lb/
ton
Mass
balance
6US­
815
HF
­­
Hydrogen
fluoride
0.72
lb/
ton
Mass
balance
7US­
8132
HF
­­
Hydrogen
fluoride
0.282
lb/
ton
Test
data
10US­
520
HCl
­­
Hydrochloric
acid
0.117
lb/
ton
Mass
balance
10US­
520
HF
­­
Hydrogen
fluoride
0.5747
lb/
ton
Mass
balance
10US­
621
HF
­­
Hydrogen
fluoride
0.5747
lbs/
ton
Mass
balance
10US­
621
HCl
­­
Hydrochloric
acid
0.117
lbs/
ton
Mass
balance
11US­
324
HCl
­­
Hydrochloric
acid
0.689
lb/
ton
Test
data
12US­
842
HF
­­
Hydrogen
fluoride
1.11
lb/
ton
Mass
balance
12US­
943
HF
­­
Hydrogen
fluoride
1.11
lb/
ton
Mass
balance
13DA­
1A25
HF
­­
Hydrogen
fluoride
0.053
lb/
ton
Test
data
13DA­
125
HF
­­
Hydrogen
fluoride
0.053
lb/
ton
Test
data
19US­
547
HF
­­
Hydrogen
fluoride
0.4368
lb/
ton
70%
mass
balance
19US­
648
HF
­­
Hydrogen
fluoride
0.4368
lb/
ton
70%
mass
balance
19US­
7
TO
US­
849
HF
­­
Hydrogen
fluoride
0.4368
lb/
ton
70%
mass
balance
20US­
3
TO
US­
546
Naphthalene
0.00094
lb/
ton
AP­
42
emission
factor
23US­
359
HF
­­
Hydrogen
fluoride
0.23492
lb/
ton
Ellis
test
data
25US­
774
HF
­­
Hydrogen
fluoride
0.66
lb/
ton
Mass
balance
25US­
871
HF
­­
Hydrogen
fluoride
0.66
lb/
ton
Mass
balance
25US­
970
HF
­­
Hydrogen
fluoride
0.66
lb/
ton
Mass
balance
25US­
1067
HF
­­
Hydrogen
fluoride
0.66
lb/
ton
Mass
balance
25US­
6261
HF
­­
Hydrogen
fluoride
0.66
lb/
ton
Mass
balance
26US­
275
HF
­­
Hydrogen
fluoride
0.51
lb/
ton
Mass
balance
27US­
177
HF
­­
Hydrogen
fluoride
0.4
lb/
ton
Mass
balance
28US­
178
HF
­­
Hydrogen
fluoride
1.16
lb/
ton
Mass
balance
30US­
181
HF
­­
Hydrogen
fluoride
0.4335
lb/
ton
Emission
factor
30US­
282
HF
­­
Hydrogen
fluoride
0.167
lb/
ton
Emission
factor
31US­
586
HF
­­
Hydrogen
fluoride
0.194
lb/
ton
Test
data
31US­
687
HF
­­
Hydrogen
fluoride
0.194
lb/
ton
Test
data
32US­
983
HF
­­
Hydrogen
fluoride
0.539
lb/
ton
Test
data
TABLE
16.
(
continued)

Outlet
ID
Outlet
gas
HAP
Amount
Units
HAP
basis
294
32US­
1084
HF
­­
Hydrogen
fluoride
0.499
lb/
ton
Test
data
32US­
1185
HF
­­
Hydrogen
fluoride
0.499
lb/
ton
Test
data
46US­
1,
DS­
199
HF
­­
Hydrogen
fluoride
0.297
lb/
ton
Test
data
47US­
3101
HF
­­
Hydrogen
fluoride
0.373
lb/
ton
Test
data
48US­
2102
HF
­­
Hydrogen
fluoride
0.328
lb/
ton
Test
data
49US­
2103
Manganese
Compounds
0.0000846
lb/
ton
Test
data
49US­
2103
HF
­­
Hydrogen
fluoride
0.315
lb/
ton
Test
data
49US­
2103
Antimony
Compounds
0.0000638
lb/
ton
Test
data
49US­
2103
Cobalt
Compounds
0.00000427
lb/
ton
Test
data
49US­
2103
HCl
­­
Hydrochloric
acid
0.18
lb/
ton
Test
data
49US­
2103
Mercury
Compounds
0.00001
lb/
ton
Test
data
49US­
2103
Selenium
Compounds
0.0000428
lb/
ton
Test
data
49US­
2103
Chromium
Compounds
0.0000209
lb/
ton
Test
data
49US­
2103
Nickel
Compounds
0.0000128
lb/
ton
Test
data
49US­
2103
Arsenic
Compounds
0.000023
lb/
ton
Test
data
49US­
2103
Cadmium
Compounds
0.00000576
lb/
ton
Test
data
49US­
4104
Nickel
Compounds
0.0000128
lb/
ton
Test
data
49US­
4104
Manganese
Compounds
0.0000846
lb/
ton
Test
data
49US­
4104
Cobalt
Compounds
0.00000427
lb/
ton
Test
data
49US­
4104
HF
­­
Hydrogen
fluoride
0.315
lb/
ton
Test
data
49US­
4104
HCl
­­
Hydrochloric
acid
0.18
lb/
ton
Test
data
49US­
4104
Chromium
Compounds
0.0000209
lb/
ton
Test
data
49US­
4104
Cadmium
Compounds
0.00000576
lb/
ton
Test
data
49US­
4104
Arsenic
Compounds
0.0000229
lb/
ton
Test
data
49US­
4104
Selenium
Compounds
0.0000428
lb/
ton
Test
data
49US­
4104
Antimony
Compounds
0.0000638
lb/
ton
Test
data
49US­
4104
Mercury
Compounds
0.00001
lb/
ton
Test
data
54US­
2120
HF
­­
Hydrogen
fluoride
0.165
lb/
ton
Emission
factor
54US­
4121
HF
­­
Hydrogen
fluoride
0.165
lb/
ton
Emission
factor
56US­
1131
HF
­­
Hydrogen
fluoride
0.79
lb/
ton
Mass
balance
57US­
3128
Manganese
Compounds
0.000047
lb/
ton
Test
data
57US­
3128
HF
­­
Hydrogen
fluoride
0.13
lb/
ton
Test
data
57US­
3128
Chromium
Compounds
0.000078
lb/
ton
Test
data
57US­
4129
HF
­­
Hydrogen
fluoride
0.13
lb/
ton
Test
data
(
tk­
1)
57US­
4129
Chromium
Compounds
0.000078
lb/
ton
Test
data
(
tk­
1)
57US­
4129
Manganese
Compounds
0.000047
lb/
ton
Test
data
(
tk­
1)
65US­
1157
HCl
­­
Hydrochloric
acid
0.025
lb/
ton
AP­
42
TABLE
16.
(
continued)

Outlet
ID
Outlet
gas
HAP
Amount
Units
HAP
basis
295
65US­
2158
HCl
­­
Hydrochloric
acid
0.025
lb/
ton
AP­
42
65US­
2158
HF
­­
Hydrogen
fluoride
1.053
lb/
ton
Test
data
65US­
3159
HCl
­­
Hydrochloric
acid
0.025
lb/
ton
AP­
42
66US­
2160
HF
­­
Hydrogen
fluoride
6
ton/
yr
Engineering
judgment
66US­
2160
HCl
­­
Hydrochloric
acid
3.2
ton/
yr
Engineering
judgment
67US­
3161
HF
­­
Hydrogen
fluoride
0.2
lb/
ton
Mass
balance
68US­
2162
HF
­­
Hydrogen
fluoride
0.37
lb/
ton
AP­
42
68US­
2162
HCl
­­
Hydrochloric
acid
0.17
lb/
ton
AP­
42
69US­
3163
HF
­­
Hydrogen
fluoride
0.37
lb/
ton
AP­
42
69US­
3163
HCl
­­
Hydrochloric
acid
0.17
lb/
ton
AP­
42
69US­
4311
HF
­­
Hydrogen
fluoride
0.37
lb/
ton
AP­
42
69US­
4311
HCl
­­
Hydrochloric
acid
0.17
lb/
ton
AP­
42
70DIFF­
1164
HF
­­
Hydrogen
fluoride
0.000504
lb/
ton
Test
data
70DIFF­
2165
HF
­­
Hydrogen
fluoride
0.000533
lb/
ton
Test
data
72US­
3,
US­
4,
DS­
2170
HF
­­
Hydrogen
fluoride
0.258
lb/
ton
Test
data
72US­
3,
US­
4,
DS­
2170
HCl
­­
Hydrochloric
acid
0.052
lb/
ton
Test
data
73US­
4174
HF
­­
Hydrogen
fluoride
0.57
lb/
ton
Test
data
73US­
5175
HF
­­
Hydrogen
fluoride
0.37
lb/
ton
Test
data
75US­
2176
HF
­­
Hydrogen
fluoride
0.672
lb/
ton
Mass
balance
76US­
1177
HF
­­
Hydrogen
fluoride
0.38
lb/
ton
AP­
42
77US­
5180
HF
­­
Hydrogen
fluoride
0.33
lb/
ton
Test
data
78US­
3184
HF
­­
Hydrogen
fluoride
1.04
lb/
ton
Mass
balance
78US­
4183
HF
­­
Hydrogen
fluoride
0.84
lb/
ton
Mass
balance
79US­
1185
HF
­­
Hydrogen
fluoride
1.34
lb/
ton
Mass
balance
80US­
1186
HF
­­
Hydrogen
fluoride
2.18
ton/
yr
Engineering
judgment
80US­
2187
HF
­­
Hydrogen
fluoride
2.18
ton/
yr
Engineering
judgment
80US­
3188
HF
­­
Hydrogen
fluoride
2.18
ton/
yr
Engineering
judgment
84US­
1189
HF
­­
Hydrogen
fluoride
0.46
lb/
ton
Test
data
85CY­
1190
HF
­­
Hydrogen
fluoride
0.84
lb/
ton
Test
data
85US­
1194
HF
­­
Hydrogen
fluoride
0.25
lb/
ton
Test
data
86US­
3196
HF
­­
Hydrogen
fluoride
0.324
lb/
ton
Test
data
86US­
3196
HCl
­­
Hydrochloric
acid
0.17
lb/
ton
AP­
42
86US­
6197
HCl
­­
Hydrochloric
acid
0.17
lb/
ton
AP­
42
86US­
6197
HF
­­
Hydrogen
fluoride
0.188
lb/
ton
Test
data
88US­
2207
HF
­­
Hydrogen
fluoride
29.22
tpy
Test
data
89US­
5198
HF
­­
Hydrogen
fluoride
0.8
lb/
ton
Mass
balance
91US­
1199
HF
­­
Hydrogen
fluoride
0.58
lb/
ton
Mass
balance
TABLE
16.
(
continued)

Outlet
ID
Outlet
gas
HAP
Amount
Units
HAP
basis
296
91US­
2200
HF
­­
Hydrogen
fluoride
0.58
lb/
ton
Mass
balance
91US­
3201
HF
­­
Hydrogen
fluoride
0.58
lb/
ton
Mass
balance
91US­
4202
HF
­­
Hydrogen
fluoride
0.58
lb/
ton
Mass
balance
100DS­
1A208
HF
­­
Hydrogen
fluoride
0.23
lb/
ton
Emission
factor
100DS­
1208
HF
­­
Hydrogen
fluoride
0.23
lb/
ton
Emission
factor
101DS­
1A213
HF
­­
Hydrogen
fluoride
0.23
lb/
ton
Test
data
101DS­
1213
HF
­­
Hydrogen
fluoride
0.23
lb/
ton
Test
data
102DS­
1221
HF
­­
Hydrogen
fluoride
0.23
lb/
ton
Emission
factor
from
Moncure
102DS­
1A221
HF
­­
Hydrogen
fluoride
0.23
lb/
ton
Emission
factor
from
Moncure
103DS­
1A224
HF
­­
Hydrogen
fluoride
0.23
lb/
ton
Emission
factor
from
Moncure
103DS­
1B224
HF
­­
Hydrogen
fluoride
0.23
lb/
ton
Emission
factor
from
Moncure
103DS­
1C224
HF
­­
Hydrogen
fluoride
0.23
lb/
ton
Emission
factor
from
Moncure
103DS­
1224
HF
­­
Hydrogen
fluoride
0.23
lb/
ton
Emission
factor
from
Moncure
103DS­
2223
HF
­­
Hydrogen
fluoride
0.23
lb/
ton
Emission
factor
from
Moncure
103DS­
2A223
HF
­­
Hydrogen
fluoride
0.23
lb/
ton
Emission
factor
from
Moncure
104US­
2217
HF
­­
Hydrogen
fluoride
0.0008
lb/
ton
Mass
balance
104US­
2217
HCl
­­
Hydrochloric
acid
0.0058
lb/
ton
Mass
balance
111US­
8231
HF
­­
Hydrogen
fluoride
0.44
lb/
ton
Test
data
112US­
2236
HF
­­
Hydrogen
fluoride
0.72
lb/
ton
Test
data
112US­
9239
HF
­­
Hydrogen
fluoride
0.58
lb/
ton
Test
data
112US­
12234
HF
­­
Hydrogen
fluoride
0.95
lb/
ton
Test
data
112US­
12234
HCl
­­
Hydrochloric
acid
0.89
lb/
ton
Test
data
112US­
13235
HCl
­­
Hydrochloric
acid
0.27
lb/
ton
Test
data
112US­
13235
HF
­­
Hydrogen
fluoride
0.88
lb/
ton
Test
data
113US­
1252
HF
­­
Hydrogen
fluoride
1.11
lb/
ton
Mass
balance
114US­
1253
HF
­­
Hydrogen
fluoride
0.078
lb/
ton
Mass
balance
122US­
5265
HF
­­
Hydrogen
fluoride
0.39
lb/
ton
Mass
balance
123US­
1272
HCl
­­
Hydrochloric
acid
0.17
lb/
ton
AP­
42
123US­
1272
HF
­­
Hydrogen
fluoride
0.196
lb/
ton
Emission
factor
123US­
2273
HCl
­­
Hydrochloric
acid
0.17
lb/
ton
AP­
42
123US­
2273
HF
­­
Hydrogen
fluoride
0.196
lb/
ton
Emission
factor
123US­
3274
HCl
­­
Hydrochloric
acid
0.17
lb/
ton
AP­
42
TABLE
16.
(
continued)

Outlet
ID
Outlet
gas
HAP
Amount
Units
HAP
basis
297
123US­
3274
HF
­­
Hydrogen
fluoride
0.196
lb/
ton
Emission
factor
123US­
4275
HF
­­
Hydrogen
fluoride
0.196
lb/
ton
Emission
factor
123US­
4275
HCl
­­
Hydrochloric
acid
0.17
lb/
ton
AP­
42
123US­
5270
HCl
­­
Hydrochloric
acid
0.17
lb/
ton
AP­
42
123US­
5270
HF
­­
Hydrogen
fluoride
0.135
lb/
ton
Test
data
123US­
6277
HCl
­­
Hydrochloric
acid
0.17
lb/
ton
AP­
42
123US­
6277
HF
­­
Hydrogen
fluoride
0.34
lb/
ton
Emission
factor
123US­
7276
HCl
­­
Hydrochloric
acid
0.17
lb/
ton
AP­
42
123US­
7276
HF
­­
Hydrogen
fluoride
0.34
lb/
ton
Emission
factor
123US­
8271
Chromium
Compounds
0.000003
lb/
ton
123US­
8271
HCl
­­
Hydrochloric
acid
0.17
lb/
ton
AP­
42
123US­
8271
Manganese
Compounds
0.000055
lb/
ton
123US­
8271
HF
­­
Hydrogen
fluoride
0.496
lb/
ton
Test
data
126US­
1
TO
US­
6279
HF
­­
Hydrogen
fluoride
17.756
tpy
127US­
6282
HF
­­
Hydrogen
fluoride
2.316
lb/
hr
Test
data
127US­
7280
HF
­­
Hydrogen
fluoride
0.077
lb/
hr
Test
data
127US­
8281
HF
­­
Hydrogen
fluoride
0.0449
lb/
hr
Test
data
128DA­
1283
HF
­­
Hydrogen
fluoride
0.004
lb/
hr
Test
data
128US­
1284
HF
­­
Hydrogen
fluoride
0.00056
lb/
hr
Test
data
129US­
2286
HF
­­
Hydrogen
fluoride
0.83
ton/
yr
Test
data
129US­
2286
HCl
­­
Hydrochloric
acid
0.37
ton/
yr
Test
data
129US­
4285
HCl
­­
Hydrochloric
acid
9.4
ton/
yr
Test
data
129US­
4285
HF
­­
Hydrogen
fluoride
15
ton/
yr
Test
data
130US­
4288
HF
­­
Hydrogen
fluoride
0.96
lb/
ton
Test
data
130US­
4288
HCl
­­
Hydrochloric
acid
0.91
lb/
ton
Test
data
131US­
6292
HF
­­
Hydrogen
fluoride
0.61
lb/
ton
Mass
balance
131US­
7293
HF
­­
Hydrogen
fluoride
0.61
lb/
ton
Mass
balance
132US­
7294
HF
­­
Hydrogen
fluoride
0.78
lb/
ton
Mass
balance
133US­
9,
US­
10295
HF
­­
Hydrogen
fluoride
0.015
lb/
ton
Test
data­
1
of
2
stacks
133US­
18296
HF
­­
Hydrogen
fluoride
0.89
lb/
ton
Test
data
133US­
18296
HCl
­­
Hydrochloric
acid
0.43
lb/
ton
Test
data
135US­
1300
HF
­­
Hydrogen
fluoride
0.328
lb/
ton
Test
data
135US­
2298
HF
­­
Hydrogen
fluoride
0.328
lb/
ton
Test
data
135US­
3297
HF
­­
Hydrogen
fluoride
0.455
lb/
ton
Test
data
135US­
4301
HF
­­
Hydrogen
fluoride
0.127
lb/
ton
Test
data
135US­
5299
HF
­­
Hydrogen
fluoride
0.127
lb/
ton
Test
data
137DS­
1A303
HF
­­
Hydrogen
fluoride
0.18
lb/
ton
Test
data
TABLE
16.
(
continued)

Outlet
ID
Outlet
gas
HAP
Amount
Units
HAP
basis
298
137DS­
1A303
Manganese
Compounds
0.00048
lb/
ton
Test
data
137DS­
1303
HF
­­
Hydrogen
fluoride
0.18
lb/
ton
Test
data
137DS­
1303
Manganese
Compounds
0.00048
lb/
ton
Test
data
137US­
3306
HCl
­­
Hydrochloric
acid
0.07
lb/
ton
Test
data
137US­
3306
HF
­­
Hydrogen
fluoride
0.29
lb/
ton
Test
data
137US­
4304
Manganese
Compounds
0.013
lb/
ton
Test
data
137US­
4304
HF
­­
Hydrogen
fluoride
0.59
lb/
ton
Test
data
138US­
5307
HF
­­
Hydrogen
fluoride
0.63
lb/
ton
Test
data
140US­
3310
HF
­­
Hydrogen
fluoride
0.88
lb/
ton
Mass
balance
142US­
1313
HF
­­
Hydrogen
fluoride
0.37
lb/
ton
AP­
42
142US­
1313
HCl
­­
Hydrochloric
acid
0.17
lb/
ton
AP­
42
143US­
1316
HCl
­­
Hydrochloric
acid
2.1
ton/
yr
Test
data
143US­
1316
HF
­­
Hydrogen
fluoride
143US­
2315
HF
­­
Hydrogen
fluoride
8.6
ton/
yr
Test
data
143US­
2315
HCl
­­
Hydrochloric
acid
2.4
ton/
yr
Test
data
143US­
6317
HF
­­
Hydrogen
fluoride
0.097
ton/
yr
Test
data
143US­
4
TO
US­
5314
HF
­­
Hydrogen
fluoride
0.3
ton/
yr
Test
data
144US­
1318
HF
­­
Hydrogen
fluoride
0.53
lb/
ton
Test
data
144US­
1318
HCl
­­
Hydrochloric
acid
0.16
lb/
ton
Test
data
144US­
2319
HCl
­­
Hydrochloric
acid
0.0094
lb/
ton
Test
data
144US­
2319
HF
­­
Hydrogen
fluoride
0.15
lb/
ton
Test
data
146US­
5324
HF
­­
Hydrogen
fluoride
0.29
lb/
ton
Mass
balance
146US­
6325
HF
­­
Hydrogen
fluoride
0.29
lb/
ton
Mass
balance
146US­
7326
HF
­­
Hydrogen
fluoride
0.29
lb/
ton
Mass
balance
146US­
8328
HF
­­
Hydrogen
fluoride
0.29
lb/
ton
Mass
balance
147US­
1329
HCl
­­
Hydrochloric
acid
0.55
lb/
ton
Mass
balance
148DA­
1333
HCl
­­
Hydrochloric
acid
0.354
lb/
ton
Test
data
148DA­
1333
HF
­­
Hydrogen
fluoride
0.027
lb/
ton
Test
data
149US­
1334
HF
­­
Hydrogen
fluoride
0.54
lb/
ton
Test
data
149US­
1334
HCl
­­
Hydrochloric
acid
0.032
lb/
ton
Test
data
150DIFF­
1337
HF
­­
Hydrogen
fluoride
0.0011
lb/
ton
Test
data
150BH­
1339
Manganese
Compounds
0.1
ton/
yr
Engineering
judgment
150BH­
1339
Chromium
Compounds
0.1
ton/
yr
Engineering
judgment
150SC­
1340
Manganese
Compounds
0.1
ton/
yr
Engineering
judgment
150SC­
1340
Chromium
Compounds
0.1
ton/
yr
Engineering
judgment
150DIFF­
2338
HF
­­
Hydrogen
fluoride
0.0011
lb/
ton
Test
data
151DLS­
1355
HF
­­
Hydrogen
fluoride
0.00018
lb/
ton
Test
data
TABLE
16.
(
continued)

Outlet
ID
Outlet
gas
HAP
Amount
Units
HAP
basis
299
151DLS­
1355
HCl
­­
Hydrochloric
acid
0.0037
lb/
ton
Test
data
151US­
1357
HF
­­
Hydrogen
fluoride
0.00026
lb/
hr
Test
data
152US­
1358
HF
­­
Hydrogen
fluoride
0.504
lb/
ton
Test
data
153US­
8363
HF
­­
Hydrogen
fluoride
0.144
lb/
ton
Mass
balance
153US­
10365
HF
­­
Hydrogen
fluoride
0.144
lb/
ton
Mass
balance
154SC­
1368
HF
­­
Hydrogen
fluoride
0.0013
lb/
ton
Test
data
154SC­
2369
HF
­­
Hydrogen
fluoride
0.188
lb/
ton
Test
data
155DLS­
1371
HCl
­­
Hydrochloric
acid
0.068
lb/
ton
Test
data
155DLS­
1371
HF
­­
Hydrogen
fluoride
0.068
lb/
ton
Test
data
159US­
6374
HF
­­
Hydrogen
fluoride
1.47
lb/
ton
Mass
balance
300
TABLE
17.
FABRIC
FILTERS
FACID
APCD
Filter
type
Install
date
Manufacturer
Bags
Filter
Filter
weight
Bag
life
Ac
ratio
Cleaning
1
BH­
1
b
Carter
Day
376
Polypropylene
24
4.2
Pulse
jet
1
BH­
2
b
81
Polypropylene
24
4.9
Pulse
jet
1
BH­
3
b
1985
Polyester
24
5.1
Pulse
jet
100
BH­
1
b
1994
Donaldson/
Torit
24
Cotton
1.5
Pulse
jet
101
BH­
1
b
1993
Donaldson/
Torit
Cotton
1.7
Air
pulse
101
BH­
2
b
1993
Donaldson/
Torit
Cotton
1.7
Air
pulse
102
BH­
1
b
1993
Donaldson/
Torit
12
1.5
Air
pulse
103
BH­
1
b
1986
Pneumafil
Paper/
cellulose
1.1
Air
pulse
103
BH­
2
b
1986
Pneumafil
Paper/
cellulose
1.1
Air
pulse
104
BH­
1
b
1991
Mac
Equipment
44
Dacron
polyester
16
60
11
Pulse
jet
104
BH­
2
b
1991
Mac
Equipment
44
Dacron
polyester
12
75
11
Pulse
jet
105
BH­
1
b
1960
Polypropylene
2.21
Shaking
105
BH­
2
b
1970
Polypropylene
8.53
Shaking
106
BH­
1
b
Canvas
Self
cleaning
106
BH­
2
b
Canvas
Self
cleaning
106
BH­
3
b
Canvas
Self
cleaning
111
BHI­
1
b
1980
Griffin
Pulse
jet
111
BHI­
2
b
1980
DCE
Pulse
jet
111
BHI­
3
b
1987
DCE
Pulse
jet
111
BHI­
4
b
1980
DCE
Pulse
jet
112
BH­
6
1990
DCE
Pulse
jet
112
BHI­
1
b
1964
Sly
Shaking
112
BHI­
10
1994
DCE
Pulse
jet
112
BHI­
11
b
1974
Carborundum
Shaking
112
BHI­
2
b
1964
Sly
Shaking
112
BHI­
3
b
1979
Carborundum
Shaking
112
BHI­
4
b
1964
Sly
Shaking
112
BHI­
5
b
1964
Sly
Shaking
112
BHI­
7
b
1964
Sly
Shaking
112
BHI­
8
b
1978
Carborundum
Shaking
112
BHI­
9
b
1956
Sly
Shaking
119
BH­
1
b
1973
Flex­
Kleen
256
Polyester
2.29
12
7.813
Pulse
jet
123
BH­
1
b
Panghorn
3.16
123
BH­
4
b
Torit
2.39
TABLE
17.
(
continued)

FACID
APCD
Filter
type
Install
date
Manufacturer
Bags
Filter
Filter
weight
Bag
life
Ac
ratio
Cleaning
301
123
BHI­
2
b
American
Wheelabrator
3.08
131
BH­
1
b
1998
Dust
Control
Equip.,
Inc.
70
Nomex
zylon
bags
0.11
5.3
Pulse
jet
133
BH­
1
c
1994
Donaldson
torrit
modet
dft2­
8
8
Ultra
web
3
Air
down
flow
133
BH­
2
b
1979
Hi
Vac
12
Coated
bag
nylon
36
136
BH­
1
c
1996
Dust
Hog
18
12
2.2
Pulse
jet
136
BH­
2
b
1988
Staclean
28
Singed
polyester
16
12
3.17
Pulse
jet
136
BH­
3
b
1979
WW
Sly
16
Polyester
16
24
3.41
Shaking
141
BH­
1
144
BHI­
1
b
1990
Halliburton
13
Cotton
12
2.5
Air
shaker
144
BHI­
3
b
1989
Halliburton
19
Poly­
felt
16
12
9.3
Pulse
jet
146
BH­
1
b
1985
Research
Cottrell
30
Cotton
polyester
60
146
BH­
2
b
1985
Draco
Midel
M860
180
Cotton
polyester
60
147
BH­
1
b
1996
Sly
Dyna
Clone
100
Cloth
36
Pulse
jet
147
BH­
2
b
1989
Pangborn
404
80
Pulse
jet
148
BH­
1
b
Pangborn
Double
"
CT"
2.1
148
BH­
2
b
Torit
TD970
2.1
150
BH­
1
b
Aget
Napped
cotton
sateen
3.4
Shaking
153
BH­
1
b
1966
Pangborn
130
Cotton
Shaking
153
BH­
2
b
1973
Sly
192
Cotton
Shaking
153
BH­
3
b
1993
W.
W.
Sly
36
Polyester
felt
16
4.4
Pulse
air
155
BH­
1
c
1999
Farr
1.55
Pulse
jet
155
BH­
2
c
1998
Farr
6
1.8
Pulse
jet
158
BH­
1
b
1979
CE
Air
Preheater
150
Polypropylene
16
Reverse
air
158
BH­
2
b
1978
Fabripulse
216
Polypropylene
16
Reverse
air
158
BH­
3
b
1979
Air
Preheater
90
Polyester
Pulse
jet
16
BH­
1
b
Panghorn
Cotton
3.9
17
BH­
1
Micro­
Pulsair
Polyester
felt
4.95
17
BH­
2
Donaldson
Polyester
felt
5.94
18
BH­
1
b
Dust­
hog
Pulse
jet
184
BH­
1
b
1993
Mikropul
64
Polyester
Pulse
jet
184
BH­
2
b
1995
Wheelabrator
65
Paper
Pulse
jet
184
BH­
3
b
1993
Mikropul
180
Cloth
48
6.5
Pulse
jet
185
BH­
1
b
1997
National
Turbine
3
Pulse
jet
TABLE
17.
(
continued)

FACID
APCD
Filter
type
Install
date
Manufacturer
Bags
Filter
Filter
weight
Bag
life
Ac
ratio
Cleaning
302
186
BH­
1
b
1956
Sly
Sateen
60
Shaking
186
BH­
2
b
1956
Pangborn
208
Sateen
24
Shaking
186
BH­
3
c
1986
Bact
9
Polyester
24
2.3
Pulse
jet
187
BH­
1
b
1984
Beth
Pulse
36
PE600
24
9.56
Pulse
jet
187
BH­
10
b
1989
WWSLY
28
Polypropylene
16
24
5.6
Pulse
jet
187
BH­
11
b
1969
Pangborn
30
Sateen
12
Shaking
187
BH­
12
b
1969
Pangborn
30
Sateen
12
Shaking
187
BH­
2
b
1984
Beth
Pulse
56
Peal
601/
75
24
9.01
Pulse
jet
187
BH­
3
b
1984
Beth
Pulse
12
PE
600
24
11.03
Pulse
jet
187
BH­
4
b
1984
Chicago
Pneumatic
12
Synthetic
felt
24
12.5
Pulse
jet
187
BH­
5
c
1984
Chicago
Pneumatic
9
Synthetic
felt
24
12
Pulse
jet
187
BH­
6
b
1984
Beth
Pulse
28
Pe
600
24
12
Pulse
jet
187
BH­
7
b
1985
DCF
Volks
1
Synthetic
felt
24
10
Pulse
jet
187
BH­
8
b
1985
DCE
Volks
1
Synthetic
felt
24
10
Pulse
jet
187
BH­
9
b
1989
WWSLY
28
Polypropylene
16
24
5.6
Pulse
jet
188
BH­
1
b
1980
American
Air
Filter
132
Polypropylene
16
12
5
Pulse
jet
188
BH­
2
b
1980
American
Air
filter
132
Polypropylene
16
12
5
Pulse
jet
188
BH­
3
b
189
BH­
1
b
1964
Pang
Born
600
Cotton
18
24
3.6
Pulse
jet
189
BH­
2
b
1968
Pang
Born
376
Cotton
18
24
3.4
Pulse
jet
189
BH­
3
b
1968
Pang
Born
450
Cotton
18
24
2.9
Pulse
jet
19
BH­
1
TO
BH­
3
b
BACT
Engineering
20
BH­
1
b
1980
Ultra
Industries
64
Pulse
jet
20
BH­
2
b
1980
Ultra
Industries
25
Pulse
jet
20
BH­
3
b
1986
Peabody
25
Pulse
jet
20
BH­
4
b
1997
Ultra
Industries
25
6.51
Pulse
jet
22
BH­
1
b
1955
Sly
23
BH­
1
b
1990
Aget
40
Napped
cotton
sateen
10
60
2
Shaking
23
BH­
2
b
1995
Aget
64
Napped
cotton
sateen
10
60
2.3
Shaking
23
BH­
3
b
1996
Ecosystem
srl
42
Cotton
16
6.5
Pulse
jet
24
BH­
1
b
1986
Fuller
168
Polyester
16
48
5.9
Pulse
jet
TABLE
17.
(
continued)

FACID
APCD
Filter
type
Install
date
Manufacturer
Bags
Filter
Filter
weight
Bag
life
Ac
ratio
Cleaning
303
26
BH­
1
b
Pangborn
Polyester
felt
16
3.5
Electric
vibrator
27
BH­
1
b
Dustex
42
Polyester
dacron
6.97
Pulse
jet
28
BH­
1
b
Polyester
felt
16
3.9
3
BH­
1
b
Johnson­
March
Polypropylene
Air
jet
30
BH­
1
b
Polyester
6.25
Pulse
jet
41
BH­
1
b
1990
Torrit
1
Poly/
wool
36
Vibration
42
BH­
1
b
43
BH­
1
b
1957
Pang
Born
9
Nylon
3.5
Mechanical
45
BHI­
1
b
1968
W.
W.
Sly
Mfg.
Co.
34
Cotton
sateen
10
24
2
Bag
shaking
5
BHI­
1
c
1990
Steel
Craft
Corporation
320
Polyester
media
16
40
7.41
Pulse
jet
51
BH­
1
b
1993
Mac
144
Polyester
16
12
7.1
Pulse
jet
51
BH­
3
b
1993
Dustex
42
Polyester
16
12
7.1
Pulse
jet
51
BHI­
1
c
1989
Torit
8
Fiberglass
12
Pulse
jet
52
BH­
1
b
1981
C­
E
240
Fiberglass
18.6
12
5.8
Pulse
jet
52
BH­
2
b
1981
C­
E
240
Fiberglass
18.6
12
5.8
Pulse
jet
53
BH­
1
b
1981
C­
E
264
Fiberglass
18.6
12
6.4
Pulse
jet
54
BH­
1
b
Polyethylene
4.17
Pulse
jet
57
BH­
1
b
1984
Wheelabrator
Frye
150
8.7
Pulse
jet
57
BH­
2
c
1994
Gulf
United
32
1.3
57
BH­
3
b
1984
Ultra
65
3.8
Pulse
jet
57
BH­
4
b
1987
Ultra
16
6
Pulse
jet
58
BH­
1
b
1978
Wheelabrator
Frye
150
10.6
Pulse
jet
58
BH­
2
b
1979
Carter
Day
5.1
Low
pressure
58
BH­
3
b
1979
C­
E
240
Fiberglass
18.6
12
7.8
Pulse
jet
59
BH­
1
b
Joy/
Flex­
Kleen
60
BH­
1
b
Wheelabrator
Polyester
10
Pulse
jet
60
BH­
2
b
Wheelabrator
Polyester
7.5
Pulse
jet
60
BH­
3
b
Carter
Day
Polyester
4.5
Pulse
jet
61
BH­
1
Enviro
systems
Polyester
7.5
Pulse
jet
61
BH­
2
Enviro
Systems
Polyester
5
Pulse
jet
63
BH­
1
b
1962
Norblo
216
Cotton­
sateen
9
100
5
Air
shakers
7
BHI­
1
c
1994
Torrit
Model
DF
T2­
8
8
72
BH­
1
b
1994
Mac
Environmental
Dacron
8
Reverse
air
72
BH­
2
b
1989
Staclean
Polyester
6.1
Pulse
jet
TABLE
17.
(
continued)

FACID
APCD
Filter
type
Install
date
Manufacturer
Bags
Filter
Filter
weight
Bag
life
Ac
ratio
Cleaning
304
72
BH­
3
b
1994
Mac
Environmental
Dacron
8
Pulse
jet
72
BH­
4
b
1990
Hoffman
Clean
Air
Systems
3
Pulse
jet
72
BH­
5
b
1994
Mac
Environmental
8.38
Reverse
air
8
BH­
1
b
1967
Pangborn
80
Polyfelt
Shaking
8
BH­
2
b
1982
Mikropul
480
Polyfelt
16
5.7
Pulse
jet
8
BH­
3
b
1988
Aeropulse
180
Polyfelt
16
Pulse
jet
8
BH­
4
b
1982
Mikropul
220
Polyfelt
16
5.76
Pulse
jet
8
BH­
5
b
1979
Pangborn
9
Polyfelt
Shaking
8
BHI­
1
c
1983
Mikropul/
Tenkay
24
Cartridge
5.88
Pulse
jet
81
BH­
1
b
1992
Rexon
Associates,
Inc.
36
Glazed
polyester
5.3
Empty
collector
83
BH­
1
b
Micropul
Polyester
4.5
Air
pulse
84
BH­
1
b
1992
Bha
48
8
Pulse
jet
84
BH­
2
b
1982
Manual
85
BH­
1
b
Wheelabrator
Polypropylene
16
6.8
85
BH­
2
b
Ultra
16
Polyester
5
85
BH­
3
b
Ultra
24
Felted
polyester
16
3.12
Pulse
jet
86
BH­
1
c
1986
CEA­
Carter­
Day
72
Polyester
felt
12
Pulse
jet
86
BH­
2
c
1976
Sly
16
Polyester
felt
60
Shaking
89
BH­
1
c
1978
Pangborn
Pulse
jet
89
BH­
2
b
1971
Rees
Ind.
Clean
Air
Polyester
16
6
4.2
Pulse
jet
305
TABLE
18.
INJECTION
FILTERS
FACID
APCD
APCDID
Install
date
Manufacturer
Sorbent
Injection
rate
Bags
Filter
Filter
weight
Bag
life
Ac
ratio
Cleaning
1
DLS­
1
1DLS­
1
1996
Procedaire
Hydrated
lime
160
507
Nomex
24
2.85
Pulse
jet
70
DIFF­
1
70DIFF­
1
1993
Slaked
lime
Gore­
tex
mem/

pelt
6
Pulse
jet
70
DIFF­
2
70DIFF­
2
1993
Slaked
lime
Gore­
tex
mem/

pelt
6
Pulse
jet
77
DLS­
1
77DLS­
1
1999
Procedaire
Hydrated
lime
124
DIFF­
1
124DIFF­
1
2000
Ohlmann
86%
lime,

14%
sodium
bicarb.
119
560
P­
84
14
3.07
150
DIFF­
2
150DIFF­
2
1994
BACT
Eng.,
Inc.
Hydrated
lime
165
204
Ryton
16
4.87
Pulse
jet
150
DIFF­
1
150DIFF­
1
1993
BACT
Eng.,
Inc.
Hydrated
lime
165
204
Ryton
16
4.87
Pulse
jet
151
DLS­
1
151DLS­
1
1995
Procedaire
Hydrated
lime
90
14
2.7
Pulse
jet
155
DLS­
1
155DLS­
1
1998
Interel
Limestone
80
1203
Ryton
24
3.3
Pulse
jet
306
TABLE
19.
SCRUBBERS
FACID
APCD
APCDID
Install
date
Manufacturer
Scrub
type
Scrub
liquid
Pressure
drop
Lg
ratio
Additive
Rate
Units
9
DA­
1
9DA­
1
1998
Ohlmann
Dry
limestone
adsorber
None
2
Granular
limestone
13
DA­
1
13DA­
1
1993
Ohlmann
Dry
Limestone
1.6
Limestone
570
lb/
hr
25
SC­
1
25SC­
1
Impingement
wet
spray
31
DA­
1
31DA­
1
1998
Ohlmann
Dry
limestone
adsorber
None
2
Limestone
1
tpd
limestone
consumption
47
DA­
1
47DA­
1
2000
Hellmich
Dry
limestone
adsorber
None
Limestone
28
lb/
hr?

123
SC­
1
123SC­
1
Tri
Mer
Water
128
DA­
1
128DA­
1
BACT
Engineering,

Inc.
Dry
granular
lime
stone
5
Limestone
143
SC­
1
143SC­
1
Water
0.07
10.07
148
DA­
1
148DA­
1
1994
Hellmich
Dry
cascade
limestone
chip
3
Limestone
high
purity
CaCO3
50
tons
per
year
added
150
SC­
1
150SC­
1
1993
Tri­
Mer
Corp
Cyclonic
Water
8
None
152
DA­
1
152DA­
1
2000
Hellmich
Dry
limestone
adsorber
None
Limestone
154
SC­
1
154SC­
1
1995
Carbo­
Tech
Wet
with
5ft
packing
Water
2
10.67
Soda
ash
7
gpm
154
SC­
2
154SC­
2
1982
Interstate
brick
Wet
Water
2
3.3
Soda
ash
5
gpm
157
SC­
2
157SC­
2
American
Air
Filter
Co.
Wet
centrifugal
dust
collector
Water
2.5
None
157
SC­
1
157SC­
1
American
Air
Filter
Co.
Wet
centrifugal
dust
collector
Water
2.5
None
180NR
DA­
1
180NRDA­
1
Ohlmann
Dry
limestone
adsorber
None
Limestone
307
TABLE
20.
OTHER
AIR
POLLUTION
CONTROL
DEVICES
FACID
Type
APCD
APCDID
Install
date
Manufacturer
Other
par1
Other
par2
Other
par3
20
Water
truck
and
water
sprinklers
WS­
1
20WS­
1
1980
water
usage,
gal
per
month
=
155000
46
Cyclone
CY­
1
46CY­
1
1981
Bruning
and
Federle
Purpose:
collect
sawdust
from
dryer
72
Cyclone
CY­
2
72CY­
2
1965
Heil
acfm,
20,000
65%
efficiency
72
Cyclone
CY­
1
72CY­
1
1965
Heil
acfm
15,000
65%
efficiency
73
Cyclone
CY­
1
73CY­
1
1986
Harzell
Ventilating
Fan
Co
Mod
1000
acfm
75
Dust
suppression
(
foam)
OC­
1
75OC­
1
1997
Deter
84
Cyclone
CY­
1
84CY­
1
85
Multiclone
CY­
1
85CY­
1
1980
Zurn
pressure
drop
3"
137
Twin
cyclone
CY­
2
137CY­
2
1986
Carolina
Blower
95%
efficiency
4"
H20
68
degrees
137
Twin
cyclones
CY­
1
137CY­
1
1986
Carolina
Blower
95%
efficiency
4.0
in.
H20
68
degrees
139
Hydroclone
OC­
1
139OC­
1
146
Cyclone
CY­
1
146CY­
1
1985
6
feet
diameter
13
feet
height
155
Cyclone
CY­
1
155CY­
1
308
TABLE
21.
POLLUTION
PREVENTION
ACTIVITIES
FACID
Practices
1
°
"
Spent"
lime
from
scrubber
cannot
be
recycled
and
is
being
landfilled.
°
All
other
waste
raw
material,
additives,
colorants,
etc.,
are
re­
cycled
back
into
raw
material.
°
All
broken
or
reject
brick
are
crushed
into
landscape
mulch.
2
°
All
extruder
waste
recycled
to
shale
stockpile
for
regrind
and
reuse.
°
All
cutter
waste
recycled
to
extruder
for
reuse.
°
All
face
colorant
overflow
recycled
to
shale
stockpile
for
use
in
new
brick.
°
All
waste
fired
brick
crushed
for
sale
as
landscaping
material
or
recycled
to
grinding
for
use
in
new
brick.
4
°
All
floor
sweepings
are
added
back
to
the
clay
body
raw
material.
5
°
Recycles
waste
heat
from
the
kiln
to
heat
the
dryers
and
to
a
lesser
degree
the
holding
room.
°
Recycles
green
brick
into
the
brick
body.
6
°
Recycles
green
brick
back
into
the
brick
body.
°
Recycles
waste
heat
from
the
kiln
to
heat
the
dryers
and
to
a
lesser
degree,
the
holding
room.
7
°
Reuses
waste
heat
from
the
kiln
to
heat
the
dryers
(
and
to
a
lesser
degree,
the
holding
room).
°
Recycles
scrap/
waste
clay
back
into
the
brick
body.
°
Recycles
green
brick
back
into
the
brick
body.
8
°
Reuses
waste
heat
from
the
kiln
to
heat
the
dryers
(
and
to
a
lesser
degree,
the
holding
rooms).
°
Recycles
floor
sweepings
and
scrap/
waste
clay
back
into
the
brick
body.
°
Recycles
material
collected
from
baghouses
back
into
the
brick
body.
°
Recycles
green
brick
back
into
the
brick
body.
10
°
Recycled
off­
spec
brick
(
grog)
into
the
brick
body.
°
Recycles
waste
heat
from
the
kiln
to
heat
the
dryers.
11
°
Green
waste
recycled
back
into
brick
body.
°
Sand
coatings
recycled
into
brick
body.
°
Potential
HF
emissions
calculated
are
1.21
lb/
ton
from
mass
balance
emission
factor
and
test
data.
12
°
Reuses
waste
heat
from
the
kiln
to
heat
the
dryers
(
and
to
a
lesser
degree,
the
holding
rooms).
°
Recycles
floor
sweepings
and
scrap/
waste
clay
back
into
the
brick
body.
°
Recycles
green
brick
back
into
the
brick
body.
°
Recycles
off­
spec
brick
(
grog)
back
into
the
brick
body
13
°
Recycle
brick
batts
by
crushing
into
gorg
and
putting
back
into
brick
body.
°
Recycle
green
waste
(
trimmings
)
at
brick
machine
back
into
body.
°
Recycle
waste
heat
from
the
kiln
to
heat
the
dryers.
TABLE
21.
(
continued)

FACID
Practices
309
14
°
All
floor
sweepings
are
reintroduced
to
the
brick
body.
°
All
unfired
waste
is
reintroduced
to
the
brick
body.
°
All
processes
with
Manganese
oxide,
iron
chromite,
and
barium
carbonate
are
enclosed
buildings.
15
°
All
floor
sweepings
are
reintroduced
to
the
brick
body.
°
All
unfired
waste
is
reintroduced
to
the
brick
body.
°
All
processes
with
manganese
oxide
and
barium
carbonate
are
enclosed
in
buildings.
20
°
Recycle
used
brick
and
material
collected
by
baghouse
back
into
process.
°
Send
solvents
and
oils
to
off­
site
recycler/
waste
disposal
company.
°
Water
down
any
open
storage
piles
and
unpaved
areas.
21
°
Prepared
clay
that
is
rejected
during
forming
is
reground
and
reused
to
make
brick
and
tile
23
°
Waste
brick
and
tile
is
crushed
and
reintroducted
into
the
raw
material
as
gorg.
°
Waste
raw
materials
such
as
floor
sweepings,
waste
clay,
and
baghouse
fines
are
reintroduced
into
the
raw
material
stream.
24
°
Rejects
are
ground
and
added
to
the
body.
°
Ground
rejects
have
also
been
marketed
as
a
top
dressing
for
landscaping
and
sports
fields.
°
Dust
collector
fines
are
addedback
to
the
body.
°
Efforts
are
made
to
reduce
the
generation
of
scrap
clay,
but
when
it
accumulates
a
special
run
is
made
and
sold
at
a
reduced
price.
33
°
We
collect
all
ash
resulting
from
combustion
process
and
all
sweepings
from
the
plant
and
kiln
floors
and
mix
them
with
the
raw
clay,
thus
incorporating
them
into
the
brick
38
°
Rejected
brick
(
grog)
reprocessed
as
part
of
the
brick
body.
°
Grinding
plant
fines
reprocessed
as
part
of
the
brick
body.
39
°
MW­
1,
FW­
1,
CTA­
1,
are
in
an
enclosed
building.
°
Dust
is
swept
up
off
the
floor
and
recycled.
41
°
Limestone
added
to
brick
body
for
SO2
reduction;
may
reduce
HF
also.
°
We
reuse
reject
and
discarded
materials
to
reduce
solid
waste.
42
°
Floor
sweeping
are
place
into
raw
materials
water
drained
from
air
compressors
and
vacuum
pumps
are
used
in
pogmill
mixing
water.
°
Unfired
rejects
are
re
used
in
raw
material.
°
Fired
rejects
are
used
as
gravel.
TABLE
21.
(
continued)

FACID
Practices
310
43
°
All
green
scrap
is
reprocessed
back
into
product.
°
All
fired
scrap
is
reprocessed
or
used
or
sold
for
backfill.
°
Dust
collector
fines
are
reprocessed
back
into
raw
material.
°
All
floor
sweepings
from
grinding
plant
are
reprocessed
back
into
the
raw
material.
44
°
Recycle
of
rejected
materials.
45
°
Reuse
of
cutter
shavings
and
scraper
shavings
in
pugmill.
°
Use
of
extra
engobe
liquid
in
pugmill.
°
Reuse
of
dust
collector
(
bh­
2)
fines
in
coatings
46
°
In
the
making
room
trim
scraps
and
end­
cut
scraps
feed
back
to
the
pug
mill.
°
Green
brick
losses
go
back
to
the
grinding
plant.
°
Brick
bats
are
crushed
and
sold
as
chet.
°
Coarse
sawdust
is
sold
as
mulch.
°
Metal
scraps
from
equipment
repair
are
sold
to
scrap
dealer.
47
°
Chipped,
broken
and
off
color
brick
are
crushed
and
reused
as
raw
material
51
°
Green
brick
recycle
back
into
brick
body.
°
Sand
coating
recycle
back
into
brick
body.
°
Mold
wash
water
recycled
through
settling
chamber.
°
Brick
batts
chipped
up
for
sale
to
landscaper.
52
°
Particulate
collected
by
baghouses
is
re­
cycled
into
raw
materials.
°
All
waste
ran
material
additive,
and
colorants
are
also
re­
cycled.
°
All
broken
and
reject
brick
are
crushed
into
landscape
mulch.
53
°
Particulate
collected
by
baghouse
is
re­
cycled
into
raw
material.
°
All
waste
raw
material,
additive
and
colorants
are
also
re­
cycled.
°
All
broken
and
reject
brick
are
crushed
into
landscape
mulch.
56
°
All
waste
raw
material,
additive,
colorant,
etc.,
is
recycled
back
into
raw
material.
°
All
broken
or
reject
brick
are
crushed
into
grog
and
added
to
raw
material.
57
°
All
waste
raw
material,
additive,
colorant,
etc.
is
recycled
back
into
raw
material.
°
All
broken
or
reject
brick
are
crushed
into
landscape
mulch.
58
°
All
collected
particulate,
waste
raw
material,
additive,
colorants,
etc.,
is
recycled
back
into
raw
material
59
°
All
waste
raw
material,
additive,
colorant,
etc.
is
re­
cycled
back
into
raw
material.
°
All
broken
and
reject
brick
are
crushed
into
landscape
mulch.
TABLE
21.
(
continued)

FACID
Practices
311
60
°
All
waste
raw
material,
additive,
colorant,
etc.,
is
re­
cycled
back
into
raw
material.
°
All
broken
and
reject
brick
are
crushed
into
landscape
mulch.
61
°
All
waste
raw
material,
additive,
colorant,
etc.,
is
re­
cycled
back
into
raw
material.
°
All
broken
and
reject
brick
are
crushed
into
landscape
mulch.
62
°
All
waste
raw
material,
additive,
colorant,
etc.,
is
re­
cycled
back
into
raw
material.
°
All
broken
and
reject
brick
are
crushed
into
landscape
mulch.
63
°
Raw
material
storage:
watering
storage
piles
to
prevent
fugitive
dust.
°
Kilns:
utilize
natural­
gas
fuel,
waste
heat
used
to
heat
dryer.
65
°
If
at
all
possible
all
discarded
or
rejected
materials
are
re­
used.
°
No
APCDs
such
as
baghouses
are
used.
66
°
Throughout
the
plant,
at
each
manufacturing
phase,
conveyor
belts
exist
to
convey
scrap.
°
Scrap
is
either
returned
and
reprocessed
immediately,
or
used
to
build
roads,
berms,
or
control
stormwater
runoff.
71
°
Grinding
­
if
dust
becomes
visible,
we
add
H2O
and
close
doors
in
buildings.
72
°
Reuses
waste
heat
from
the
kiln
to
heat
the
dryers
(
and
to
a
lesser
degree,
the
holding
rooms).
°
Recycles
floor
sweepings
and
scrap/
waste
clay
back
into
the
brick
body.
°
Solids,
collected
in
the
air
pollution
control
devices,
are
returned
to
the
process.
73
°
Reuses
waste
heat
from
the
kiln
to
heat
the
dryers
(
and
to
a
lesser
degree,
the
holding
room).
°
Recycles
scrap/
waste
clay
back
into
the
brick
body.
°
Recycles
green
brick
back
into
the
brick
body.
°
Recycles
waste
slurry
back
into
the
brick
body.
74
°
Reuses
waste
heat
from
the
kiln
to
heat
the
dryer
(
and
to
a
lesser
degree,
the
holding
room).
°
Recycles
scrap/
waste
clay
back
into
the
brick
body.
°
Recycles
green
brick
back
into
the
brick
body.
°
Recycles
waste
slurry
back
into
the
brick
body.
75
°
Using
foam
suppression
system
holds
fire
clay
and
additives
in
the
process
stream
rather
than
collecting
the
dust
in
baghouses.
79
°
Waste
brick
are
ground
into
brick
chips
for
sale.
TABLE
21.
(
continued)

FACID
Practices
312
81
°
Reuses
waste
heat
from
the
kiln
to
heat
the
dryers
(
and
to
a
lesser
degree,
the
holding
rooms).
°
Recycles
floor
sweepings
and
scrap/
waste
clay
back
into
the
brick
body.
°
Recycles
green
brick
back
into
the
brick
body.
°
Recycles
off­
spec
brick
(
grog)
back
into
the
brick
body.
82
°
Recycles
waste
heat
from
the
kiln
to
heat
the
dryers
and
to
a
lesser
degree,
the
holding
room.
°
Recycles
floor
sweepings
and
scrap/
waste
clay
into
the
brick
body.
°
Recycles
green
brick
into
the
brick
body.
°
Recycles
waste
slurry
into
the
brick
body.
°
Recycles
off
spec
brick
(
grog)
into
the
brick
body.
°
Recycles
sand
coating
into
the
brick
body.
°
Recycles
wash
water
into
the
brick
body.
83
°
Recycled
brick
bats
ground
into
grog
and
recycled
into
brick
mix.
84
°
Recycled
unfired
clay
to
reduce
land
application.
°
Recycled
fired
brick
into
landscaping
brick
nuggets.
See
air
permit.
°
Recycled
petroleum
contaminated
soil
into
building
brick.
See
air
permit.
°
Recycled
ceramic
tile
into
road
ballast
and
grog.
85
°
All
collected
particulate,
waste
raw
material,
additive,
colorants,
etc.,
are
recycled
back
into
raw
material.
°
All
broken
or
reject
brick
are
crushed
into
landscape
mulch.
86
°
All
solid
clay
waste
is
reground
and
used
as
part
of
the
mixes.
87
°
Scrap
clay
recycle
­
reused
in
new
products.
°
Wastewater
recycle
­
water
from
slurry,
steam
cleaning
and
oil/
water
separators
used
to
pub
brick
(
process
water).
89
°
Floor
sweeping
and
all
mill
scrap
is
reused
as
brick
raw
material.
90
°
Haul
roads
from
mine
to
grinding
plant
are
watered
to
reduce
or
eliminate
dust.
°
Diesel
fuel
was
eliminated
as
a
backup
fuel;
instead
propane
is
now
used
for
a
backup
fuel.
100
°
All
materials
collected
in
the
texturizing
area
are
recycled
and
utilized
in
the
brick
manufacturing
process.
°
CSG
utilizes
the
heat
(
1800
°
F­
2000
°
F)
from
the
kiln
zone
to
dry
wet
wood
received
as
fuel
for
the
kilns;
HF
is
absorbed
into
the
wood;
the
wood
is
then
fired
in
the
kiln
as
fuel.
°
CSG
used
the
heat
from
kiln's
cooling
zone
to
provide
al
heat
for
brick
dryers,
thereby
eliminating
any
need
for
fuel
use
at
these
sources.
TABLE
21.
(
continued)

FACID
Practices
313
101
°
All
materials
collected
in
the
texturizing
area
are
recycled
and
utilized
in
the
brick
manufacturing
process.
°
CSG
utilizes
the
heat
(
1800
°
F)
from
the
kiln
zone
to
dry
wet
wood
received
as
fuel
for
the
kilns;
HF
is
absorbed
into
the
wood;
the
wood
is
then
fired
in
the
kiln
as
fuel.
°
For
the
sawdust
kiln
systems,
CSG
uses
the
heat
from
kiln's
cooling
zone
to
provide
all
heat
for
brick
dryers,
thereby
eliminating
any
need
for
fuel
use
at
the
brick
dryers.
102
°
All
materials
collected
in
the
texturizing
area
are
recycled
and
utilized
in
the
brick
manufacturing
process.
°
CSG
utilizes
the
heat
(
1800
°
F­
2000
°
F)
from
the
kiln
zone
to
dry
wet
wood
received
as
fuel
for
the
kilns;
HF
is
absorbed
into
the
wood;
the
wood
is
then
fired
in
the
kiln
as
fuel.
°
CSG
used
the
heat
from
kiln's
cooling
zone
to
provide
all
heat
for
brick
dryers,
thereby
eliminating
any
need
for
fuel
use
at
these
sources.
103
°
All
materials
collected
in
the
texturizing
area
are
recycled
and
utilized
in
the
brick
manufacturing
process.
°
CSG
utilizes
the
heat
(
1800
°
F­
2000
°
F)
from
the
kiln
zone
to
dry
wet
wood
received
as
fuel
for
the
kilns;
HF
is
absorbed
into
the
wood;
the
wood
is
then
fired
in
the
kiln
as
fuel.
°
CSG
uses
the
heat
from
kiln's
cooling
zone
to
provide
all
heat
for
brick
dryers,
thereby
eliminating
any
need
for
fuel
use
at
these
sources.
104
°
Reuse
baghouse
waste
from
saw­
dust
system.
°
Reuse
discarded/
rejected
materials
before
firing
118
°
Off
spec
brick
is
reused
as
grog.
°
Raw
clay
mix
optimized
to
reduce
emissions.
°
Spilled
raw
materials,
colorants,
texturants,
and
floor
sweepings
recycled
into
process.
120
°
Broken
fired
ware
and
unfired
reject
greenware
are
added
into
the
raw
material
feed.
121
°
Broken
fired
ware
and
unfired
reject
greenware
are
added
into
the
raw
material
feed.
122
°
The
body
composition
at
this
time
is
composed
of
10%
fired
brick
for
production
purposes.
123
TABLE
21.
(
continued)

FACID
Practices
314
131
°
Reuses
waste
heat
from
the
kiln
to
heat
the
dryers
(
and
to
a
lesser
degree,
the
holding
rooms).
°
Recycles
floor
sweepings
and
scrap/
waste
clay
back
into
the
brick
body;
recycles
green
brick
back
into
the
brick
body.
°
Recycles
off
spec
brick
(
grog)
back
into
the
brick
body.
132
°
Recycles
waste
heat
from
the
kiln
to
heat
the
dryers
and
to
a
lesser
degree,
the
holding
rooms.
°
Recycles
floor
sweepings
and
scrap/
waste
clay
into
the
brick
body.
°
Recycles
green
brick
into
the
body.
°
Recycles
off
spec
brick
(
grog)
into
the
brick
body.
°
Recycles
sand
coating
into
the
brick
body.
°
Recycles
wash
water
into
the
body.
133
°
Reuses
waste
heat
from
the
kiln
to
heat
the
dryers
(
and
to
a
lesser
degree,
the
holding
rooms.
°
Recycles
scrap/
waste
clay
back
into
the
brick
body.
°
Recycles
green
brick
back
into
the
brick
body;
recycles
waste
powders
and
filter
material
back
into
brick
body.
135
°
sweeping
floors.
136
°
All
sweepings
and
mill
scrap
are
reused
as
brick
raw
material.
137
°
The
materials
collected
from
the
various
cyclones
are
recycled
into
the
brick
body
mix.
138
°
Reuses
waste
heat
from
the
kiln
to
heat
the
dryers.
°
Recycles
green
waste
back
into
the
brick
body.
°
Recycles
waste
slurry
back
into
the
brick
body.
°
Recycles
floor
sweepings
back
into
the
brick
body.
140
°
Waste
slugs
of
clay
are
reused
in
pug
mill
to
minimize
any
return
of
material
to
value.
°
Haul
roads
from
mine
to
plant
are
altered
to
minimize
dust.
°
Diesel
fuel
was
eliminated
as
a
back
up
fuel;
instead,
propane
is
now
used
as
backup
fuel
when
natural
gas
is
curtailed.
141
°
All
bh­
1
material
is
recycled
back
into
the
process.
°
Clay/
shale
avg.
moisture
content
of
6%
for
dust
control.
°
All
green,
dry,
fired
scrap
is
recycled
in
process.
°
Quality
of
the
raw
materials
(
clay,
shale
and
others)
monitored
continuously
in
ceramic
engineering
lab
to
reduce
emissions.
°
Record
keeping
practices
(
logs)
and
maintenance
procedures
followed
for
best
operating
system
parameters
and
controls.
144
°
Broken
fired
ware
and
unfired
reject
greenware
are
added
into
the
raw
material
feed.
TABLE
21.
(
continued)

FACID
Practices
315
146
°
Fired
tile
is
sold
and
shipped.
°
Green
rejected
tile
is
recycled
to
become
part
of
the
mixture
for
the
next
run.
°
Rejected
fired
tile
is
crushed,
by
another
company,
into
a
surface
covering
for
baseball
diamond
infield.
148
°
Throughout
the
plant
at
each
manufacturing
phase,
conveyor
belts
exist
to
convey
scrap.
°
Scrap
is
either
returned
and
reprocessed
immediately,
or
transferred
to
a
holding
area
where
it
is
reprocessed
later.
°
Fired
brick
waste
is
used
to
build
roads,
berms,
or
control
stormwater
runoff.
149
°
Throughout
the
plant,
at
each
manufacturing
phase,
conveyor
belts
exist
to
convey
scrap.
°
Scrap
is
either
returned
and
reprocessed
immediately,
or
transferred
to
a
holding
area
where
it
is
reprocessed
later.
°
We
attempt
to
recycle
100%
of
all
brick
waste.
°
Material
that
is
not
reprocessed
is
used
to
build
roads,
berms,
or
control
water
(
stormwater)
runoff.
153
°
Rejected
brick
and
tile
are
crushed
and
reused
resulting
in
a
reduction
of
tons
mined.
°
Curtains
help
control
air
movement
in
the
grinding
and
screening
area.
°
The
moisture
content
of
clay
is
kept
at
the
highest
rate
possible.
154
°
Interstate
incorporates
10
baghouses
for
the
pupose
of
reclaiming
pollution.
°
The
original
flat
roof
of
kiln#
4
was
replaced
with
an
arched
one.
°
Line
#
4
scrubber
will
be
replaced
with
a
scrubber
similar
to
Line
#
3
this
year.
155
°
Off
spec
brick
material
is
recycled
back
into
process
(
sweepings,
no
waste
material).
°
Wetting
to
control
fugitive
dust
at
various
locations.
°
Recycle
process
waste
water
for
use
in
wetting
to
control
fugitive
dust.
°
Deter
microforam
dust
control
at
grinding
building.
158
°
Production
operations
currently
reuse
5%
fired
material.
The
fired
material
is
mixed
in
with
the
raw
material
during
the
grinding
operations.
°
Green
(
unfired)
scrap
clay
is
currently
not
reused,
but
plans
are
in
progress
to
find
ways
of
reducing
and
reusing
all
green
clay
and
thus
eliminate
one
of
the
solid
material
waste
streams.
184
°
Reuse
of
all
clay
scraps.
°
Dust
collector
fines
recycled
from
all
baghouses.
°
Reuse
of
fired
scrap
into
raw
material
for
product.
185
°
Recycles
all
waste
glaze
and
glaze
clean­
up
water
back
into
the
body
of
the
tile
at
the
point
of
extrusion.
TABLE
21.
(
continued)

FACID
Practices
316
186
°
Fired
rejects
are
recycled
as
road
base
building
material.
°
Unfired
rejects
are
recycled
back
into
new
production.
187
°
All
unfired
scrap
tile
is
recycled.
°
All
glazed
solid
waste
is
used
as
a
flux
in
floor
tile.
°
All
glazed
water
is
used
for
extrution
or
recycled
for
wash
up.
°
No
water
leaves
the
plant.
°
Fired
glazed
tile
is
used
as
foundation
fill.
°
Fired
scrap
is
crushed
and
used
as
road
fill
(
gravel
replacement
or
curshed,
ground)
screened
and
used
as
grog.
188
°
Recycle
reclaim
waste
heat
from
TKs
to
dryers.
°
Recycle
waste
bisque
tile.
°
Recycle
waste
fired
tile.
189
°
Recycle
off­
spec
bisque.
°
Recycle
off­
spec
fired
tile.
°
Recycle/
reclaim
waste
heat.
317
TABLE
22.
CONTROL
DEVICE
MONITORING
FACID
APCD
Parameter
monitoring
Monitoring
frequency
Device
Record
Equipment
other
monitoring
APCD
other
monitoring
1
DLS­
1
Temperature
of
inlet
and
outlet
Continuous
Thermocouple
Computer
program
hourly
average
None
required
Computer
program
fault
alarms;
routine
inspection
(
±
daily)

1
DLS­
1
Lime
feed
Continuous
Load
cell
Computer
program
hourly
average
None
required
Computer
program
­
fault
alarms;
routine
inspection
(
±
daily)

1
BH­
1
Routine
inspection
1
DLS­
1
Pressure
drop
Continuous
Gauge
Computer
program
hourly
average
None
required
Computer
program
­
fault
alarms;
routine
inspection
(
±
daily)

1
BH­
2
Routine
inspection
1
BH­
3
Routine
inspection
3
BH­
1
Pressure
drop
Pressure
gauge
5
BHI­
1
Pressure
drop
Daily
Pressure
gauge
Manual
Maintenance
as
needed
Periodic
visual
inspection
and
maintenance
as
needed
7
BH­
1
Periodic
inspection
and
maintenance
Periodic
inspection
and
maintenance
8
BH­
1
Periodic
visual
inspection
and
maintenance
as
needed
8
BHI­
1
Periodic
visual
inspection
and
maintenance
as
needed
8
BH­
5
Periodic
visual
inspection
and
maintenance
as
needed
8
BH­
2
Periodic
visual
inspection
and
maintenance
as
needed
8
BH­
4
Periodic
visual
inspection
and
maintenance
as
needed
TABLE
22.
(
continued)

FACID
APCD
Parameter
monitoring
Monitoring
frequency
Device
Record
Equipment
other
monitoring
APCD
other
monitoring
318
8
BH­
3
Periodic
visual
inspection
and
maintenance
as
needed
13
DA­
1
Pressure
drop
Daily
Pressure
gauge
Manual
Visual
inspection
of
scrubber
(
monthly)
13
DA­
1
Opacity
Daily
Visual
Grease
bearings,
check
fans
(
monthly)
other
maintenance
as
needed
20
BH­
1
TO
BH­
4
Opacity
Daily
during
normal
production
days
Visible
readings
by
certified
opacity
readers
Manually
recorded
in
log
book
Recertified
every
6
months
20
BH­
1
TO
BH­
4
Pressure
drop
2
times/
week
Pressure
gauge
Manually
recorded
in
log
book
Calibrate
(
annually)
Visual
inspection
of
baghouse
structure
(
annually)
20
WS­
1
Apparent
wetness
of
storage
piles
Daily
Visible
reading
by
plant
supervisor
Regular
maintenance
of
water
truck
and
sprinkler
system
22
BH­
1
Pressure
drop
Daily
Pressure
gauge
23
BH­
3
Pressure
drop
Daily
Manometer
Manual
Bags
are
visually
inspected
once/
mo.
Record
of
the
inspection
is
kept
manually
23
BH­
1
BH­
1
is
cleaned
and
visually
inspected
after
each
day
it
is
in
use.
23
BH­
2
BH­
2
is
cleaned
and
visually
inspected
after
each
day
it
is
in
use.
24
BH­
1
Opacity
Daily
Visual
None
Check
for
defective
bags
if
dust
is
visible
24
BH­
1
Pressure
drop
Daily
Pressure
gauge
None
Pulse
bags
when
less
than
0.1
27
BH­
1
Bags
cleaned
and
dried
every
6
months
TABLE
22.
(
continued)

FACID
APCD
Parameter
monitoring
Monitoring
frequency
Device
Record
Equipment
other
monitoring
APCD
other
monitoring
319
30
BH­
1
Opacity
Opacity
monitor
41
BH­
1
Visual
inspection
of
baghouse
structure
43
BH­
1
Internal
structural
inspection
(
annual)
45
BHI­
1
Semiannual
Visual
inspection
Manual
Clean
bags
an
average
of
3
times/
shift
Visual
inspection
of
bags
semi­
annually
change
bags
with
hole
as
required
46
CY­
1
Annual
internal
inspection
and
logbook
kept.
51
BH­
1
Pressure
drop
Daily
Pressure
gauge
Manual
Calibrate
yearly
Periodic
visual
inspection
51
BH­
3
Pressure
drop
Daily
Pressure
gauge
Manual
Calibrate
yearly
Periodic
visual
inspection
51
CY­
1
Periodic
visual
inspection
51
BHI­
1
Pressure
drop
Daily
Pressure
gauge
Manual
Calibrate
yearly
Periodic
visual
inspection
52
BH­
1
Pressure
drop
Daily
Gauge
Manual
Daily
visual
inspection
or
baghouse
and
stack
52
BH­
2
Pressure
drop
Daily
Gauge
Manual
Daily
visual
inspection
of
baghouse
and
stack
52
BH­
1
Temperature
Daily
Thermocouple
Manual
Daily
visual
inspection
of
baghouse
and
stack
52
BH­
1
Motor
amps
Daily
Meter
Manual
Daily
visual
inspection
of
baghouse
and
stack
52
BH­
2
Motor
amps
Daily
Meter
Manual
Daily
visual
inspection
of
baghouse
and
stack
52
BH­
2
Temperature
Daily
Thermocouple
Manual
Daily
visual
inspection
of
baghouse
and
stack
53
BH­
1
Pressure
drop
Daily
Gauge
Manual
Daily
visual
inspection
of
baghouse
and
stack
TABLE
22.
(
continued)

FACID
APCD
Parameter
monitoring
Monitoring
frequency
Device
Record
Equipment
other
monitoring
APCD
other
monitoring
320
53
BH­
1
Motor
amps
Daily
Meter
Manual
Daily
visual
inspection
of
baghouse
and
stack
53
BH­
1
Temperature
Daily
Thermocouple
Manual
Daily
visual
inspection
of
baghouse
and
stack
58
BH­
3
Pressure
drop
Periodic
Gauge
Malfunctions
only
Daily
visual
observation
for
correct
operation
58
BH­
3
Opacity
Periodic
Ve
reading
Malfunctions
only
63
BH­
1
Filter
media
Monthly
Manually
Manually
logged;
inspection
Visual
inspection
of
exhaust
stack;
check
filter
media
for
leaks,
torn
media,
or
improper
installation
63
BH­
1
Opacity
Semiannual
Ringlemann
chart
Manually
log
inspection
Visual
inspection
of
exhaust
stack;
check
filter
media
for
leaks,
torn
media,
or
improper
installation
63
BH­
1
Pressure
drop
Quarterly
Magnehelic
pressure
gauge
Manually
logged
Visual
inspection
of
exhaust
stack;
check
filter
media
for
leaks,
torn
media,
or
improper
installation
72
BH­
3
Visual
inspection
of
baghouse
structure
periodic
72
CY­
2
Visual
inspection
of
cyclone
structure
periodic
72
BH­
1
Visual
inspection
of
baghouse
structure
periodic
72
BH­
2
Visual
inspection
of
baghouse
structure
periodic
72
BH­
5
Visual
inspection
of
baghouse
structure
periodic
72
BH­
4
Visual
inspection
of
baghouse
structure
periodic
TABLE
22.
(
continued)

FACID
APCD
Parameter
monitoring
Monitoring
frequency
Device
Record
Equipment
other
monitoring
APCD
other
monitoring
321
72
CY­
1
Visual
inspeciton
of
cyclone
structrue
periodic
73
CY­
1
Routine
inspection
and
maintenance
Routine
inspection
and
maintenance
75
OC­
1
Opacity
Daily
Visual
observation
Daily
visual
inspection
of
pump
and
mixing
system
81
BH­
1
None
Periodic
visual
inspections
and
maintenance
as
needed
83
BH­
1
Visual
Periodic
Log
book
recording
Bags,
mortars
Visual,
periodic
84
CY­
1
None
Periodic
Visual
Log
book
recording,
per
a/
q
permit
Visual
and
periodic
maintenance
84
BH­
1
Coal
fines
in
processed
coal
Periodic
Visual
Log
book
recording
pe
a/
q
permit
Rotary
air
lock
inspections
should
coal
fines
get
into
processed
coal
strea
Visual
and
periodic
maintenance
86
BH­
2
Pressure
drop
Weekly
Pressure
gauge
Recorded
in
computer
log
86
BH­
1
Pressure
drop
Weekly
Pressure
gauge
Recorded
in
computer
log
101
BH­
2
Baghouse
inspection
Annually
Logbook
Visual
inspection
of
baghouse
structure
(
periodic)
101
BH­
1
Baghouse
inspection
Annually
Logbook
Visual
inspection
of
baghouse
structure
(
periodic)
102
BH­
1
Baghouse
inspection
Annually
Logbook
Visual
inspection
of
baghouse
structure
(
periodic)
103
BH­
2
Baghouse
inspection
Annually
Logbook
Visual
inspection
of
baghouse
structure
(
periodic)
103
BH­
1
Baghouse
inspection
Annually
Logbook
Visual
inspection
of
baghouse
structure
(
periodic)
TABLE
22.
(
continued)

FACID
APCD
Parameter
monitoring
Monitoring
frequency
Device
Record
Equipment
other
monitoring
APCD
other
monitoring
322
104
BH­
1
Opacity
None
Visual
Change
out
bags
when
necessary
104
BH­
2
Opacity
Visual
inspection
Change
out
bags
when
necessary
105
BH­
1
Pressure
drop
Once
per
shift
Vacuum
gauge
Log
book
105
BH­
2
Opacity
Once
per
shift
Visual
Logbook
119
BH­
1
Pressure
drop
Daily
Magnehelic
Visual
inspection
by
operator
during
operations
128
DA­
1
Emissions
Annually
Stack
test
reading
131
BH­
1
Periodic
visual
inspections
and
maintenance
as
needed
133
BH­
1
Differential
air
pressure
Daily
Periodic
visual
inspeciton
of
dust
collector,
change
filter
periodically,
empty
pan
when
full
133
BH­
2
Check
vacuum
gauge
Periodic
visual
inspection
of
dust
collector,
empty
hopper
when
full,
check
blower
periodically
136
BH­
1
Pressure
drop
Daily
Pressure
gauge
136
BH­
2
Pressure
drop
Daily
Pressure
gauge
136
BH­
3
Pressure
drop
Weekly
Pressure
gauge
147
BH­
1
Opacity
Daily
Certified
observer
Log
book
147
BH­
1
Pressure
drop
Daily
Pressure
gauge
Not
recorded
147
BH­
2
Opacity
Daily
Certified
observer
Log
book
148
DA­
1
Limestone
usage
Monthly
Files
SOP
460­
465
TABLE
22.
(
continued)

FACID
APCD
Parameter
monitoring
Monitoring
frequency
Device
Record
Equipment
other
monitoring
APCD
other
monitoring
323
148
DA­
1
Pressure
drop
Hourly
Operator
log
Maintained
according
to
is09000
work
instruction
148
DA­
1
Peeling
drum
timer
setting
Weekly
Operator
log
148
DA­
1
Limestone
specification
Per
delivery
ISO
purchasing
procedures
SOP460­
465
SOP
460­
465
153
BH­
2
Opacity
Daily
Visual
None
Na
Visual
inspection
yearly
153
BH­
1
Opacity
Daily
Visual
None
Na
Visual
inspection
yearly
153
BH­
3
Opacity
Daily
Visual
None
Na
Visual
inspection
yearly
154
SC­
2
Quenchflow
Daily
Form
updated
154
SC­
2
Flow
Continuous
Automatic
Form
updated
154
SC­
1
Ph
Continuous
Automatic
sensor
Form
updated
154
SC­
2
Differential
pressure
drop
Daily
Magnehelic
Form
updated
154
SC­
1
Differential
pressure
drop
Daily
Magnahelic
Form
updated
154
SC­
1
Temperature
Continuous
Automatic
Form
updated
154
SC­
2
Ph
Daily
Handheld
meter
Form
updated
154
SC­
1
Flow
Continuous
Automatic
Form
updated
155
001
Pressure
drop
155
002
Pressure
drop
155
005
Pressure
drop
184
BH­
1
Opacity
Visual
None
None
Visual
inspection
annually
184
BH­
2
Opacity
Visual
None
None
Visual
inspection
of
bags
monthly
184
BH­
3
Pressure
drop
Daily
3
to
5
wg
None
Change
as
required
Visual
inspection
annually
TABLE
22.
(
continued)

FACID
APCD
Parameter
monitoring
Monitoring
frequency
Device
Record
Equipment
other
monitoring
APCD
other
monitoring
324
184
BH­
3
Opacity
Visual
None
None
Visual
inspection
annually
186
BH­
2
None
Visual
inspection
of
baghouse
and
exhaust
stream
186
BH­
1
Visual
inspection
of
baghouse
and
exhaust
stream
186
BH­
3
None
Visual
inspection
of
baghouse
and
exhaust
stream
187
BH­
8
None
Visual
inspection
of
bags,
baghouse
and
exhaust
stream
187
BH­
9
None
Visual
inspection
of
bags,
baghouse
and
exhaust
stream
187
BH­
10
Visual
inspeciton
of
bags,
baghouse
and
exhaust
stream
187
BH­
3
None
Visual
inspeciton
of
bags,
bag
housing
and
waste
stream
187
BH­
11
None
Replacement
of
parts
and
bags
Visual
inspection
of
bags,
bag
housing
and
exhaust
stream
187
BH­
12
None
Replacement
of
parts
and
bags
Visual
inspection
of
bags,
bag
housing
and
exhaust
stream
187
BH­
6
None
Visual
inspection
of
bags,
baghousing
and
exhaust
stream
187
BH­
1
None
Visual
inspection
of
bags,
bag
housing
and
waste
stream
187
BH­
5
None
Visual
inspection
of
bags,
bag
housing
and
waste
stream
187
BH­
7
None
Visual
inspection
of
bags,
bag
housing
and
exhaust
stream
187
SC­
1
None
Check
collector
and
add
fresh
water.
Visual
inspection
TABLE
22.
(
continued)

FACID
APCD
Parameter
monitoring
Monitoring
frequency
Device
Record
Equipment
other
monitoring
APCD
other
monitoring
325
187
BH­
2
None
Visual
inspection
of
bags,
bag
housing
and
waste
stream
188
BH­
2
Pressure
drop
Daily
Magnehelic
Manual
Visual
inspection
quarterly
188
BH­
1
Pressure
drop
Daily
Magnehelic
Manually
recorded
Visual
inspection
quarterly
188
BH­
2
Opacity
Daily
Visual
Visual
check
quarterly
Visual
188
BH­
1
Opacity
Daily
Visual
Visual
check
quarterly
Visual
189
BH­
3
Pressure
drop
Daily
Manometer
Fluid
manometer
calibrate
as
needed
Visual
inspection
of
structure
&
bags
monthly
189
BH­
2
Opacity
Daily
Visual
Fluid
manometer
calibrate
Visual
inspection
of
structure
&
bags
monthly
189
BH­
2
Pressure
drop
Daily
Manometer
Fluid
manometer
calibrate
as
needed
Visual
inspection
of
structure
&
bags
monthly
189
BH­
1
Opacity
Daily
Visual
Fluid
manometer
calibrate
as
needed
Visual
inspection
of
structure
&
bags
monthly
189
BH­
1
Pressure
drop
Daily
Manometer
Fluid
manometer
calibrated
as
needed
Usual
inspection
of
structure
&
bogs
monthly
189
BH­
3
Opacity
Daily
Visual
Fluid
manometer
calibrate
Visual
inspection
of
structure
&
bags
monthly
326
TABLE
23.
HAPS
FROM
OTHER
PROCESSES
AT
THE
FACILITY,
PART
1
FACID
Source
SIC
HAP
1
HAP
1
Emissions
HAP
2
HAP
2
Emissions
HAP
3
HAP
3
Emissions
HAP4
HAP
4
Emissions
HAP
5
HAP
5
Emissions
6
Mining
3251
6
Vehicle
maintenance
&

refueling
3251
7
Vehicle
maintenance
and
fueling
3251
8
Mining
3251
11
Vehicle
refueling
3251
11
Quality
control
testing
lab
3251
13
Quality
control
testing
laboratory
3251
13
Vehicle
maintenance
and
refueling
3251
19
Mining
3251
20
Gasoline
storage
and
refeuling
20
Heat
treat
of
steel
using
natural
gas
fired
round
20
Concrete
block
manufacturing
3271
23
Mining
3251
25
Mining
3251
42
Shale
Mining
3251
Trace
metal
Manganese
compounds
45
Mining
3251
47
Raw
materials
purchased,
delivered
to
the
plant
by
rail/
truck
TABLE
23.
(
continued)

FACID
Source
SIC
HAP
1
HAP
1
Emissions
HAP
2
HAP
2
Emissions
HAP
3
HAP
3
Emissions
HAP4
HAP
4
Emissions
HAP
5
HAP
5
Emissions
327
47
Up/
1,000
gal
diesel
fuel
stored
for
use
at/
plant
51
Quality
control
lab
3251
51
Vehicle
maintenance
3251
51
Mining
clay
and
shale
3251
58
Concrete
&
cinder
block
manufacturing
3273
PM
4.55
64
Mining
71
Mining
Trace
metals
0.1
72
Vehicle
maintenance
3251
72
Quality
control
lab
3251
87
Mining
&
Hauling
3251
88
Mining
3251
104
Mining
1459
Chromium
compounds
0.001
Cobalt
compounds
0.001
Lead
compounds
0.001
Manganese
compounds
0.001
Nickel
compounds
0.001
105
Jointing
Organic
HAPs
0.22
106
Jointing
Methyl
ethyl
ketone
0.5
Toluene
1.2
108
Jointing
Methyl
ethyl
ketone
Toluene
118
Mining
119
Mining
Clay
123
Pipe
priming
polyurethane
jointing
Xylenes
(
isomers
and
mixture)
0.285
MDI
134
Mining
TABLE
23.
(
continued)

FACID
Source
SIC
HAP
1
HAP
1
Emissions
HAP
2
HAP
2
Emissions
HAP
3
HAP
3
Emissions
HAP4
HAP
4
Emissions
HAP
5
HAP
5
Emissions
328
142
Polyester
"
O"
ring
joints
Dimethyl
phthalate
0.0002
Methyl
ethyl
ketone
4.201
Mixed
amines
0.014
Styrene
0.0245
Cobalt
compounds
0.0004
150
Parts
washing
158
Mining
329
TABLE
24.
HAP
EMISSIONS
FROM
OTHER
PROCESSES
AT
THE
FACILITY,
PART
2
FACID
Source
HAP
6
HAP
6
Emissions
HAP
7
HAP
7
Emissions
HAP
8
HAP
8
Emissions
HAP
9
HAP
9
Emissions
HAP
10
HAP
10
Emissions
HAP
11
HAP
11
Emissions
HAP
12
HAP
12
Emissions
6
Mining
0
0
0
6
Vehicle
maintenance
&
refueling
0
0
0
7
Vehicle
maintenance
and
fueling
0
0
0
8
Mining
0
0
0
11
Vehicle
refueling
0
0
0
11
Quality
control
testing
lab
0
0
0
13
Quality
control
testing
laboratory
0
0
0
13
Vehicle
maintenance
and
refueling
0
0
0
19
Mining
0
0
0
20
Gasoline
storage
and
refeuling
0
0
0
20
Heat
treat
of
steel
using
natural
gas
fired
round
0
0
0
20
Concrete
block
manufacturing
0
0
0
23
Mining
0
0
0
25
Mining
0
0
0
42
Shale
Mining
0
0
0
45
Mining
0
0
0
47
Raw
material
purchased,
delivered
to
the
plant
by
rail/
truck
0
0
0
47
Up/
1,000
gal
diesel
fuel
stored
for
use
at/
plant
0
0
0
51
Quality
control
lab
0
0
0
TABLE
24.
(
continued)

FACID
Source
HAP
6
HAP
6
Emissions
HAP
7
HAP
7
Emissions
HAP
8
HAP
8
Emissions
HAP
9
HAP
9
Emissions
HAP
10
HAP
10
Emissions
HAP
11
HAP
11
Emissions
HAP
12
HAP
12
Emissions
330
51
Vehicle
maintenance
0
0
0
51
Mining
clay
and
shale
0
0
0
58
Concrete
&
cinder
block
manufacturing
0
0
0
64
Mining
0
0
0
71
Mining
0
0
0
72
Vehicle
maintenance
0
0
0
72
Quality
control
lab
0
0
0
87
Mining
&
Hauling
0
0
0
88
Mining
0
0
0
104
Mining
0
0
0
105
Jointing
0
0
0
106
Jointing
0
0
0
108
Jointing
0
0
0
118
Mining
0
0
0
119
Mining
Clay
0
0
0
123
Pipe
priming
polyurethane
jointing
0
0
0
134
Mining
0
0
0
142
Polyester
"
O"
ring
joints
diethylene
glycol
0.0603
n,
n.
dimethyl
aniline
0.00003
Aniline
0.00002
Toluene
0.007
Xylenes
(
isomers
and
mixture)
0.014
Ethyl
benzene
0.007
Tetrachloro
ethylene
0.007
150
Parts
washing
158
Mining
331
TABLE
25.
OTHER
INFORMATION
FACID
Other
information
1
Chemical
analysis
of
shale
has
shown
fluorine
content
ranging
from
694
to
1,132
ppm.
3
Plant
is
not
currently
operating
and
has
not
operated
since
1995.
5
Propane
back­
up
fuel;
HF
mass
balance:
buff
body­­
0.72
lb/
ton,
red­­
0.92
lb/
ton
9
Facility
will
install
a
$
1
million
scrubber
(
to
control
HF
from
2
tunnel
kilns)
by
December
1998
due
to
State
regulations.
Rick
Floyd
was
hesitant
to
send
a
copy
of
the
test
report
but
he
provided
some
information
about
it.
The
stack
test
was
preformed
by
Davis
and
Floyd
out
of
Greenwood,
SC
(
contact:
Brian
Toth).
They
were
pushing
24
cems/
day/
kiln
loaded
with
54000
sbe/
car.
There
were
3
or
4
samples
taken
out
each
of
two
kiln
one
where
flashing
was
done
one
with
no
flashing.
Rick
Floyd
took
the
worst
of
those
numbers
for
the
emission
factor
given.
10
Fluorine
green
­
0.033%
fired­
0.006%
Chlorine
green­.
006
fired­
0.00%
12
Fluoride
analysis
of
formed
brick
Dried
(
ppm):
913,
471,
348,
637
Fired
(
ppm):
94,
98,
34,
42.
This
yields
an
average
of
1.11
lb
HF
emitted
per
ton.
13
95
and
93
test
information
is
not
used
because
these
test
were
run
when
the
plant
manufactured
a
different
brick
type
and
production
info.
is
not
readily
available.
EF
data
is
provided
for
scrubber
PM:
.455
lbs/
ton
SC­
1
changed
to
DA­
1
19
Kiln
fuel
is
landfill
gas
and
natural
gas
at
a
volume
ratio
of
3.33:
1
(
overall)
Kilns
1
and
2
us
90%
landfill
gas.
Kilns
3
and
4
use
10
to
15%
land
fill
gas.
20
Shift
=
4,
No.
of
employees
=
2,
Hours
per
shift
9.5
(
6
a.
m­
3:
30
p.
m),
days
per
year
=
365.
Have
not
used
glazes
or
colorants
for
over
two
years
and
before
that
use
was
insignificant.
21
Clay
sample:
compound
F
Cl
K2O
Na2O
SO3
MgO
CaO
Al2O3
Fe2O3
SO2
wt%
.05
.03
1.80
.62
7.9
2.6
13.4
15.4
6.04
5.2
23
Secondary
SIC
code:
3253
­
ceramic
wall
and
floor
tile.
25
Given
production
rates
are
for
1997.
26
Given
production
rates
are
for
1997.
Pyrohydrolysis
results
are
Dried
(
ppm):
454;
Fired
(
ppm):
214.
This
yields
an
emission
rate
of
0.51
lbs/
ton
HF.
27
Given
production
rates
are
for
1997.
28
Given
production
rates
are
for
1997.
Stack
test
showed
1.16
lbs
HF
per
fired
ton
of
brick.
HF
mass
balance
tests
showed
an
average
emission
rate
of
1.13
lbs/
ton
with
a
high
value
of
1.19
lbs/
ton.
TABLE
25.
(
continued)

FACID
Other
information
332
31
Plant
is
planning
on
bringing
a
new
packed
tower
adsorber
on­
line
in
early
September,
1998
for
several
weeks.
The
plant
will
then
shut
down
the
adsorber
until
January
1999,
at
which
point
the
unit
will
be
"
officially"
brought
on­
line.
The
unit
is
being
installed
in
order
to
meet
State
fenceline
HF
concentrations.
The
adsorber
uses
4­
6
mm
limestone
and
handles
roughly
50,000
ACFM
(
30,000
SCFM)
from
the
kilns.
The
exhaust
gas
temp.
is
about
460
F.
Production
data
is
from
1997.
Fluorine
analysis
included,
summarized
below:
Plant
2:
Dry
shale
494.9
Plant
4
Dry
shale
301.5
Plant
2:
dry
kaolin
374.5
Plant
4:
dry
kaolin
223.5
Plant
2:
dry
kaolin
347.7
Plant
4:
dry
kaolin
341.6
Plant
2:
fired
shale
450.8
Plant
4:
fired
shale
91.8
Plant
2
fired
kaolin
171.4
Plant
4
fired
kaolin
99.7
Plant
2
fired
kaolin
221.4
Plant
4
fired
kaolin
81.5
Plant
4
unfired
brick
289.2
Plant
4
fired
brick
98.9
%
difference
(
ppm)
Plant
2
8.9%
(
44.1ppm)
Plant
4
70%
(
209.7ppm)
Plant
2
54%
(
203.1ppm)
Plant
4
55%
(
123.8ppm)
Plant
2
36%
(
126.1ppm)
Plant
4
76%
(
260.1ppm)
Plant
4
66%
(
190.3ppm)
32
Fluorine­
test
included
for
unfired
raw
material
on
a
fired
weight
basis
banknight
shale­­
550
ppm
F
kaolin­­
363
ppm
F
river
bottom
clay­­
667
ppm
F
hicks
shale­­
325
ppm
F
TABLE
25.
(
continued)

FACID
Other
information
333
34
Fluorine
mass
balance
tests
summarized
below:

shale/
clay
sample
HF
(
lb/
ton)
1
0.93
2
0.91
3
0.40
4
0.67
5
0.84
Average
0.75
lb/
ton
41
Ochre­­
2
to
35%
MnO2
Iron
oxide
(
5114)­­
10
to
16%
Cr
43
Use
up
to
15%
petroleum­
contaminated
soil.
Table
One
based
on
purchases,
not
usage.
45
Plant
included
MSDS
for
Zircon
flour,
probably
used
as
a
coating,
but
no
information
is
given
as
to
its
use.
It
has
not
been
included
in
the
body
of
the
ICR.
46
Kiln
exhausts
to
atmosphere
and
to
the
sawdust
dryer
during
normal
operations.
Moisture
content
of
raw
clay/
shale
is
17%.
48
No.
2
fuel
oil
used
as
kiln
back­
up
fuel
49
Nos.
2
and
6
fuel
oil
are
used
as
kiln
back­
up
fuel
50
Typically,
plant
is
shut
down
for
about
60
days
during
the
winter.
Otherwise,
kiln
and
dryer
operate
continuously.
54
All
waste
raw
material,
additive,
colorant,
etc.,
are
re­
cycled
back
into
raw
material.
All
broken
and
reject
brick
are
crushed
into
landscape
mulch.
55
All
waste
raw
material,
additives,
and
colorants
are
re­
cycled
back
into
raw
material.
56
Composite
mix
has
F
content
of
493
ppm.
Fired
mix
has
F
content
of
99ppm.
Kiln
#
2
is
identical
to
tk­
1
but
is
not
operable
at
this
time,
though
it
is
included
in
permit.
57
Fluorine
tests
on
shale
show
range
of
240­
1,057
ppm.
Changes
made
by
MRI
in
Table
5
emission
factors
are
based
on
emission
factors
developed
from
EPA
emission
test
at
General
Shale.
No
additional
test
data
was
provided
by
General
Shale
to
support
the
numbers
originally
shown
in
Table
5.
59
Yellow
shale
analysis
available
for
SO3,
CACO3,
MgCO3,
Fe2O3,
Al2O3,
SiO2,
K2O,
Na2O
61
Shale
fluorine
content
ranges
from
419­
2,341
ppm.
63
Barium
Carbonate
(
this
material
provides
white
color
and
replaces
HAP
containing
materials
which
would
provide
white
color,
however
we
are
uncertain
of
those
specific
HAP­
containing
materials).
TABLE
25.
(
continued)

FACID
Other
information
334
64
Coal
is
used
as
backup
fuel
for
tk­
1
and
tk­
2;
TK­
2,
DC­
3
and
DC­
4
are
not
in
use
but
could
possibly
be
used
later
if
volume
warranted.
65
A
total
F
test
was
conducted
on
the
day
previous
to
the
HF
stack
test.
it
determined
a
0.68
lb/
ton
emission
rate.
66
HAP
content
of
clay
and
shale
summarized
below:

Clay
Shale
Mn3O4
0.11
0.06
Cr2O3
0.02
0.02
ZrO2
0.04
0.03
67
Production
given
is
1997
Pyrohydrolysis
for
HF
shows:
107
ppm
unfired
ground
brick
11
ppm
fired
ground
brick
70
Recycled
lime
from
control
device
is
mixed
with
the
raw
material
and
fired
into
the
product.
There
is
no
waste
from
the
system.
72
Some
of
the
kiln
exhaust
passes
through
the
sawdust
dryers;
the
rest
exhausts
through
an
uncontrolled
stack.
73
Mass
balance
from
samples
taken
during
8/
96
emission
test
Kiln
1:
0.95
lb/
ton
(
66%
higher
than
Method
13B)
Kiln
2:
1.12
lb/
ton
(
303%
higher
than
Method
13B)

A
1995
Emission
test
on
one
of
the
kilns
(
not
specified)
showed
about
0.76
lb/
ton.
74
Propane
is
used
as
backup
fuel
for
the
tunnel
kiln.
77
Production
records
from
1997.
Test
report
not
provided;
requested,
but
not
available.
80
Test
data
provided
is
from
other
brick
kilns.
81
Propane
used
as
a
backup
fuel.
There
are
2
flow
charts
for
plant
42
(
extruded
and
woodmold)
included.
TABLE
25.
(
continued)

FACID
Other
information
335
84
The
HF
emission
factor
in
Table
5
was
calculated
using
the
average
HF
emission
rate
for
the
attached
emission
test
(
4.28
lb/
hr)
divided
by
the
average
hourly
production
of
77,000
ton/
yr
divided
by
8,232
hr/
yr
(
see
pg.
54
of
ICR).

Annual
emissions
of
other
HAPs
are
provided,
based
on
a
chemical
analysis
of
the
contaminated
soil
that
is
used
by
Cunningham
Brick.
These
emissions
are
shown
below.

Contaminant
­­
lbs/
yr
from
contaminated
soil
acetone­­
0.26
benzene­­
0.24
ethylbenzene­­
14.91
methylene
chloride­­
0.06
tetrachloroethene­­
0.68
toluene­­
18.29
xylene
(
total)­­
338.79
barium
­­
.07
bis(
2­
ethylhexyl)
phthalate­­
4.23
di­
n­
butyl­
phahalate­­
9.91
fluoranthene­­
9.06
fluoroene­­
1.17
2­
methylnaphthalene­­
27.61
naphthalene­­
14.05
phenanthrene­­
15.19
pyrene­­
0.35
Total
=
454.87
85
The
composite
mix
has
been
analyzed
for
fluorine,
with
results
from
588
­
823
ppm.
86
There
is
a
preheater
listed
separately
with
an
operating
temperature
of
500­
900F,
heat
input
of
12.3MMBtu/
hr,
which
is
belevied
to
be
a
zone
of
the
TK­
1
because
they
share
a
stack.
87
Secondary
SIC:
3151
Hammer
mill
(
grog
crusher)
has
opacity
readings
taken
hourly,
5%
accuracy,
recertified
every
6
months.
88
Scrap
clay
recycling,
waste
water
from
slurries,
steam
clean
recycling.
91
The
production
capacity
is
based
on
permit
restriction.
92
TRI
report
250
lb
Mn
released
in
1995.
99
TRI
report
Mn
­­
250
lbs
air
fugitive
emissions.
101
Data
from
TK­
1
was
from
1997,
as
it
was
not
fully
operational
through
1996.
TABLE
25.
(
continued)

FACID
Other
information
336
102
Analysis
of
petroleum
contaminated
soils
Average
of
20
contaminated
soil
samples
is
below.
More
data
in
the
ICR:

Arsenic
­­
550
ppm
Cadmium
1.1745
ppm
Lead
­­
12.83
ppm
Mercury
­­
.0222
ppm
Fluorides
­­
378
ppm
103
No
contaminated
soils
were
used
in
1996.
A
plant
representative
indicated
that
this
practice
is
being
phased
out.
Analysis
of
Petroleum
contaminated
soil
present
in
ICR.
Not
entered
into
Other
Information
because
there
is
no
guarantee
that
petroleum
soils
will
be
used.
105
Comment:
Can­
Clay
suggests
that
the
MACT
floor
be
subdivided
into
glazed
and
non­
glazed
subcategories.
109
The
jointing
process
attaches
a
mission
coupling,
a
non
HAP
emitting
process.
It
is
equipped
however
to
apply
polyurethane
which
would
emit
toluene
and
MEK.
112
Total
Raw
Material
Mixes
raw
material
analysis
exists
in
other
table.
(
F:
Clay/
Clay
ICRs/
Belden468rawmats.
wpd)
113
Propane
is
used
as
backup
fuel
for
the
kiln.
114
reuse
of
scrap/
waste
clay.
116
There
was
a
temp.
range
given
for
tunnel
kiln
tk­
1
of
1940
F
to
2260
F.
117
Average
stack
height
off
roof
is
three
feet.
TABLE
25.
(
continued)

FACID
Other
information
337
118
Flouride
and
chloride
determination
of
individual
clay
samples
adams­
fluoride
136,
chloride­
9
malcolm
fluoride
256,
chloride­
9
riddlesperger
fluride
191,
chloride­
23
gibson
fluoride
202,
chloride­
22
houston
fluoride
207,
chloride­
36
jennings/
baxter
fluoride
378,
chloride­
5
williamson
fluoride
103,
chloride­
3
Hf
and
HCL
data
calculated
for
tk­
1
based
on
50%
body
retention
HF=
0.174
lb/
ton,
HCL=
0.029
lb/
ton
Other
contact:
Luis
Vieregge,
Operations
(
903)
489
1331
Production
is
from
September
96
thru
August
97
Heat
input
based
on
kiln
usage
monitoring,
portioned
at
23.15%
(
TK­
1),
53.7%
(
TK­
2),
23.15%(
TK­
3)
with
continuous
kiln
operation
and
5
down
days
per
year
per
kiln.

Continuous
Process
Rate
for
Dryers:
TXC
annual
fired
tons
x
%
of
production
(
DC­
1=
18.52,
DC­
2=
53.7,
DC­
3=
27.78)/
8640
hrs.
Assumes
throughput
based
on
production
controls
continuos
operation
w/
5
down
days/
year.
122
lubricant
is
assumed
to
be
the
same
lubricating
oil
as
used
in
other
brick
plants
with
a
density
of
7.43
al/
gal.
#
2
fuel
oil
is
used
as
back­
up
fuel
for
the
kiln
this
fuel
provides
13.8
mm
btu/
hr.
The
body
composition
at
this
time
is
composed
of
10%
fired
brick
for
production
purposes.
Total
fluoride
analysis
mass
balance
springfield
clay/
shale
dried­
842
+/­
20ppm,
fried
+­
17
ppm
courtland
red
clay
dried
652+­
16
ppm,
fried
443
+­
12
ppm
courtland
buff
clay
dried
597
+­
15
ppm,
fried
399+­
12
ppm
sleepy
eye
clay
T
dried
559
+­
15
ppm,
fried
339
+­
11
ppm
sleepy
eye
clay
kaolin
B
dried
578
+­
15
ppm,
fried
375
+­
12
ppm
morton
buff
clay
dried
756
+­
17
ppm,
fired
553
+­
15
ppm
123
The
resin,
MDI,
and
other
chemicals
used
in
the
polyurethane
process
are
kept
in
sealed
tanks,
with
no
emissions.
They
are
piped
(
1/
2"
tubing)
to
a
mixer,
where
they
are
mixed
and
then
extruded.
They
cure
within
2
minutes
as
an
epoxy.
Little
emissions
is
expected
from
these.
The
beehive
"
stack"
test
was
actually
mistakenly
performed
at
the
base
of
the
stack,
so
its
data
is
not
being
used.
TABLE
25.
(
continued)

FACID
Other
information
338
124
dry
paver
brick
total
sulfur
0.041%
chloride
62.9ppm
fired
paver
brick
total
sulfur
0.007%
chloride
4.4ppm
dry
wt.
80.5
fired
wt.­
76.5
difference
4.5,
80.5
divide
4.5
=
5.6%
weight
lost
pover
brick
(
dry)
error+/­
15,
428
ppm
pover
brick
(
fired)
error+/­
14,
384
ppm
128
sc­
1
changed
to
da­
1
129
TRIS
reports
250
lb
manganese
a
year
released.
132
Use
propane
gas
as
back­
up
fuel.
133
Pink
stain
consists
of
85­
95
wt%
aluminum
and
6­
10
wt%
manganese.
Blue
stain
consists
of
40
wt%
cobalt.
Propane
is
used
as
a
backup
fuel
(
data
given)
A.
Heat
input
for
tk­
1;
8
MM
btu/
hr
from
natural
gas,
12.5
MM
btu/
hr
from
sawdust
heat
input
for
tk­
3
20
MM
btu/
hr
from
natural
gas,
31.2
MM
btu/
hr
from
sawdust.
Production
rate
during
the
stack
tests
are
as
follows:
tk­
2
­­
10.1
tons/
hr.
Tk­
3
(
9/
10/
91)
­­
18.9
tons/
hr;
tk­
3
(
11/
8/
94)
­­
18.8
tons/
hr.
134
Production
and
raw
material
usage
are
from
1997.
S­
2,
dc­
3,
and
tk­
3
are
all
new
proposed
equipment
TABLE
25.
(
continued)

FACID
Other
information
339
135
contaminated
clay
HAP
component
list:
1,1,2,2
tetrachloroethane
1.23e­
02
1,1,2
trichloroethane
0.012254
1,1,2
trichlorobenzene
8.17e­
05
1,2
dibromo­
3­
chloropropane
1.71e­
07
1,3
dichloropropene
9.29e­
06
1,4
dichlorobenzene
8.99e­
05
2,4,5
trechlorophenol
0.002278
2,4,6
trichlorophenol
5.13e­
05
2
chloronaphthalene
4.10e­
05
2
methylnaphthalene
0.000366
3,3
dichlorobenzidine
8.13e­
05
4,6
dinitro­
o­
cresol
0.000206
acenaphthalene
8.02e­
05
acrolein
0.037017
acrylonitrile
0.037017
arsenic
0.002636
benzene
0.050411
benzoanthracene
4.01e­
05
benzofluoranthene
4.01e­
05
benzoperylene
4.01e­
05
benzopyrene
4.01e­
05
benzyl
butyl
phthalate
4.01e­
05
bromoform
0.012254
cadmium
0.000868
carbon
disulfide
0.012254
carbon
tetrachloride
0.012255
chlorobenzene
0.015168
chloroform
0.012525
chromium
0.003582
chrysene
4.01e­
05
dibenzacridine
4.01e­
05
dibenzofuran
4.01e­
05
dibutyl
phthalate
8.02e­
05
ethyle
chloride
0.046766
ethylbenzene
0.0802
ethylene
dibromide
1.22e­
02
ethylene
dichloride
0.011523
ethylidene
dichloride
0.002376
fluoranthene
4.01e­
05
fluorene
4.01e­
05
hexachlorobenzene
0.000121
TABLE
25.
(
continued)

FACID
Other
information
340
137
The
product
recovery
cyclone
on
the
sawdust
dryer
DS­
1
is
a
1992
emtrol
w/
6
inch
pressure
drop
which
operates
at
150.
Saw
dust
dryer
ds­
2
is
not
on­
line
because
tk­
3
tk­
4
are
now
fired
with
natural
gas,
backup
fuel
oil.
The
dryer
is
still
permitted.
Tk­
1
and
tk­
2
are
fired
primarily
with
sawdust.
Tk­
1
used
natural
gas
to
provide
about
0.28
mm
btu/
hr
and
tk­
2
uses
natural
gas
to
provide
about
0.20
mm
btu/
hr.
An
experimental
brick
with
2%
limestone
was
fired
and
a
stack
test
performed.
The
brick
was
unacceptable
as
a
face
brick
and
the
HF
emissions
rate
was
0.45
lb/
ton.
Additional
HF
test
data
for
pink
pavers
in
tk­
5
show
HF­
0.52
lbs/
ton,
HCI
0.12
lbs/
ton
Info
on
product
recovery
cyclone:
installed
1992;
manufacturer
Emtrol;
pressure
drop
­­
6
inches
of
water;
temperature
­­
150
degrees.
138
Production
data
provided
for
1997.
Yellow
body
stain
contains
HAPs
Chromium
III
and
Antimony.
Mass
balance
shows
release
of
94%
of
fluorine
original
concentration
is
274
ppm.
Facility
used
76000
tons
of
clay
in
1997.
Facility
processed
20.8
tons
of
fluorine.
Assuming
94%
release
as
HF,
20.8x0.94x20/
19=
20.6
tons
HF/
yr.
Quality
control
testing
lab
exists.
No
emission
estimate
available.
139
The
control
device
on
the
crushing/
screening
operation
is
a
tank
of
water
which
the
air
is
pushed
through.
141
Most
data
from
1997
notably
sections
II,
III,
IV.
142
Production
data
is
from
1997.
615.46
tons
of
polyester
O­
rings
were
produced
in
1997.
143
From
TRIS,
1995
data,
Cr­
fugitive­
250
lbs.,
Mn­
fugitive­
750
lbs
144
1996
clay
use
and
grog
use
are
very
high
compared
to
total
brick
production
145
Some
numbers
are
projected
from
installation
and
manufactures
data
because
it
was
not
run/
in
existence
in
1996.
146
The
kilns
fire
at
a
faster
rate
than
most
­
less
residence
time
for
the
roofing
tile
at
high
temperature.
The
fastest
kiln
has
a
residence
time
of
80
min.
­
the
slower
runs
at
120
min.
This
is
not
a
low
profile
kiln;
it
has
4
levels.
The
shuttle
kiln
(
pk­
1)
has
a
process
rate
of
0.45
tons
per
hour.
This
is
believed
to
be
the
kiln
capacity
(
tons)
divided
by
the
cycle
time
(
hrs.)
147
Secondary
fuel
for
kiln
is
propane.
Brick
tumbler
used
to
give
brick
a
used
appearance
148
The
baghouse
on
the
extruding
line
has
one
pick­
up
point
at
the
inlet
to
the
brick
machine
and
another
on
the
sandblasting
application.
SC­
1
changed
to
da­
1
TABLE
25.
(
continued)

FACID
Other
information
341
149
The
production
capacity
as
listed
could
be
limited
by
the
Title
V
permit.
Market
forces
are
unlikely
to
permit
such
production.
The
shuttle
kiln
has
been
torn
down.
Propane
is
used
as
the
back­
up
fuel
for
TK­
1
and
is
used
about
1
percent
of
the
year.
TK­
2
has
not
operated
since
1989­
90.
Extensive
analysis
of
raw
material
provided.
150
Injection
rate
calculated
as
follows:
Wt
of
brick
per
car
(
lb)
(
generally
48,000)
x
%
sulfur
in
raw
material
divided
100
X2X%
sulfur
released
when
brick
are
fires
divide
100
x
number
of
cars
through
kiln
per
day
divide
24
hr/
day
x
1.6
(
stockiometric)
x
1.5
(
safety
factory).
151
Recovery
of
feedstock:
350.4
tons/
yr.
Information
on
Diff­
1:
Includes
a
conditioning
drum/
ribbon
mixer
which
sprays
lime
with
water
through
fog
nozzles
increasing
its
reactivity
to
SO2.
Compliance
test
results
show
70%
SO2
removal
and
95%
removed
of
HF
and
HCL.
Stack
test
data
for
the
cooling
stack
provides
the
following
info:
height
=
28
ft;
square
area
=
7
ft^
2;
actual
gas
flow
rate
=
27500
acfm;
gas
flow
rate
at
standard
conditions
=
16000;
gas
moisture
content
=
2.2%;
gas
oxygen
content
=
21%;
gas
temperature
=
420F;
HF
=
0.009
lb/
ton;
HCl
=
0.0127
lb/
ton;
PM
=
0.11
lb/
ton;
VOC
=
0.017
lb/
ton.
Production
is
from
1997.
151
Stack
test
data
for
the
cooling
stack
provides
the
following
info:
height­
28ft.
Square
area
­
7
ft2,
actual
gas
flow
rate­
27500
acfm;
gas
flow
rate
at
standard
conditions­
16000;
gas
moisture
content
­
2.2%;
gas
oxygen
content­
21%;
gas
temperature­
420
f,
HF­
0.009
lb/
ton;
HCL­
0.0127
lb/
ton;
PM­
0.11
lb/
ton;
VOC­
0.017
lb/
ton.
Production
is
from
1997.
153
Production
capacity
is
stated
as
if
that
item
composed
100%
of
production.
Total
production
capacity
of
facility
is
not
the
sum
of
production
capacity
for
each
item.
155
Baghouses
are
newly
installed
so
there
is
no
information
available
yet.
157
The
number
of
employees
is
only
an
approximate
number
and
the
total
number
of
employees
is
a
mean
value
of
a
range.
Petroleum
contaminated
soil
usage
is
reported
as
40
tpy,
but
the
facility
has
not
used
any
contaminated
soil
for
a
year
and
a
half.
The
40
typ
is
assumed
to
be
a
permitted
amount.
184
40CFR60
Subpart
OOO,
4
sources
F004
(
raw
material
receiving),
P001
(
primary
crushing
and
storage),
P012
(
secondary
grinding,
and
screening).
188
This
facility
used
"
chemical
flashing"
rather
than
glazing.
189
This
facility
used
a
process
called
"
chemical
flashing"
to
apply
shading
highlights
to
the
surface
of
tile.
"
Flashing"
is
defined
as
a
process/
method
by
which
water
is
used
as
a
vehicle
to
transfer
Mn
or
Co
to
the
tile
surface
for
coloring/
shading
effect.
342
TABLE
26.
FLUORIDE
ANALYSIS
FACID
Description
Dried
Fired
5
shale
603
166
6
shale
679
339
10
clay
270
10
clay
330
60
11
clay
722
116
11
kaolin/
shale
686
110
12
clay
913
19
clay
362
66
21
raw
clay
500
26
brick
454
214
27
brick
323
139
31
shale
494.9
450.8
31
kaolin
347.7
221.4
31
kaolin
374.5
171.4
31
brick
289.2
98.9
31
shale
301.5
91.8
31
kaolin
341.5
81.5
31
kaolin
223.5
99.7
31
kaolin
394
69
32
shale
325
32
clay
667
32
kaolin
363
32
shale
550
34
clay/
shale
368
49
34
clay/
shale
437
40
34
clay/
shale
221
33
34
clay/
shale
475
44
34
clay/
shale
507
66
49
raw
8
mesh
436
49
raw
390
51
clay
481
51
shale
418
51
brick
457.3
107.2
TABLE
26.
(
continued)

FACID
Description
Dried
Fired
343
51
brick
520
99
51
brick
486
135
51
shale
605
56
brick
493
99
57
shale
240
57
shale
1057
60
shale
(
old
supply,
no
longer
used)
1945
61
shale
2341
61
shale
419
67
clay
107
11
73
schist/
shale
499
72
73
schist/
shale
616
74
73
schist/
shale
548
69
73
schist/
shale
604
82
78
clay
514
104
78
brick
(
80%
clay)
562
163
78
brick
(
80%
clay)
614
122
78
shale
594
227
79
clay
946
246
79
clay
884
247
79
clay
940
327
79
clay
901
232
79
clay
898
336
81
alluvial
clay
348
56
81
alluvial
clay
454
84
85
brick
823
85
brick
588
89
shale
400
91
clay
400
50
113
clay
843
300
113
clay
794
266
113
clay
820
250
TABLE
26.
(
continued)

FACID
Description
Dried
Fired
344
113
clay
739
283
113
clay
798
284
114
clay
88
49
118
clay
256
118
clay
202
118
clay
191
118
clay
136
118
clay
103
118
clay
378
118
clay
207
122
clay
597
399
122
clay
756
553
122
clay
559
339
122
clay
578
375
122
clay
652
443
122
clay/
shale
842
721
124
shale
428
384
138
274
16
146
clay
1117
978
149
Clay
580
52
153
Fire
clay
(
72.2=
dried­
fired
(
not
raw))
72.2
0
154
Powell
Gray
500
154
Clinton
Tile
700
154
black
shale
200
154
Jim
Gay
Grey
1100
154
Montello
1200
154
Salty
Five
?
300
154
Good
Five
?
300
154
Henefer
Red
200
159
Clay
865
144
159
Clay
808
133
345
TABLE
27.
TEST
REPORTS
FACID
Source
Equipment
ID
Control
device
Entire
report?
Test
ID
Comments
Date
Raw
material
Fuel
type
(
test)

1
tunnel
kiln
tk­
1
us­
2
Yes
1­
4a
Evergreen
Group
test:
output
reported
as
8.325
tons
brick/
hr.
Coal
usage
8.2
tons/
day.
Emissions
converted
to
lb/
ton
basis.
2/
1/
95
shale
Coal/
natural
gas
1
tunnel
kiln
dc­
2
us­
3
Yes
1­
4b
Evergreen
Group
test:
output
reported
as
8.325
tons
brick/
hr.
Coal
usage
8.2
tons/
day.
Emissions
converted
to
lb/
ton
basis.
2/
1/
95
shale
Waste
heat
1
tunnel
kiln
TK­
2
DIFF­
1
Yes
1­
63
Ramcon
test
­­
Source
unidentified
but
is
assumed
TK­
2
because
there
are
inlet
and
outlet
data.
Push
rate
given
as
12.45
tons/
hr.
584
lb
coal
used/
hour
5/
21/
97
shale
Coal/
natural
gas
11
tunnel
kiln
tk­
1
us­
3
No
11­
11
1/
23/
97
Natural
gas
13
dryer
dc
us
No
13­
18b
1/
7/
92
13
tunnel
kiln
tk­
1
da­
1
No
13­
17
3/
1/
95
Natural
gas
13
tunnel
kiln
tk­
1,
tk­
2
da­
1
Yes
13­
16
6/
1/
95
Natural
gas
13
tunnel
kiln
tk­
2
us
No
13­
20
4/
9/
92
Natural
gas
13
tunnel
kiln
tk
us
No
13­
18a
1/
7/
92
Natural
gas
13
tunnel
kiln
tk­
1,
tk­
2
da­
1
Yes
13­
15
2/
15/
96
Natural
gas
13
tunnel
kiln
tk­
2
da­
1
No
13­
17
3/
1/
95
Natural
gas
13
tunnel
kiln
tk­
2
us
No
13­
19
6/
2/
93
Natural
gas
23
tunnel
kiln
tk­
3
us­
3
No
23­
62
Clemson
6/
6/
93
Natural
gas
31
tunnel
kiln
tk­
1
us­
5
Yes
31­
51b
AP­
42,
clemson
6/
15/
93
Coal
31
tunnel
kiln
tk­
4
(
not
tested)

da­
1
Yes
31­
3
Test
performed
before
control
device
installation
4/
22/
93
Natural
gas
31
tunnel
kiln
tk­
4
(
not
tested)

da­
1
Yes
31­
51a
Test
performed
before
control
device
installation
6/
15/
93
Natural
gas
TABLE
27.
(
continued)

FACID
Source
Equipment
ID
Control
device
Entire
report?
Test
ID
Comments
Date
Raw
material
Fuel
type
(
test)

346
31
tunnel
kilns
tk­
3,
tk­
4
da­
1
Yes
31­
64
APCD
performance
documented
11/
19/
98
Natural
gas
31
tunnel
kilns
tk­
3,
tk­
4
da­
1
Yes
31­
66
APCD
performance
documented
3/
24/
99
Natural
gas
32
tunnel
kiln
tk­
3
us­
11
Yes
32­
2
3/
1/
97
Natural
gas
32
tunnel
kiln
tk­
1
us­
9
Yes
32­
1
3/
1/
97
Natural
gas
46
tunnel
kiln
tk­
1
us­
1
Yes
46­
12b
5/
15/
97
Sawdust
46
Sawdust
dryer
ds­
1
cy­
1
Yes
46­
12a
5/
15/
97
Waste
heat
47
tunnel
kiln
tk­
1
us­
3
No
47­
13
9/
1/
97
Natural
gas
48
tunnel
kiln
tk­
1
us­
2
Yes
48­
49
6/
1/
95
Natural
gas
49
tunnel
kiln
tk­
2
us­
4
Yes
49­
51
AP­
42
Test
10/
19/
95
Natural
gas
49
tunnel
kiln
tk­
2
us­
4
Yes
49­
50
AP­
42
Test
10/
17/
95
Natural
gas
51
tunnel
kiln
tk­
1
us­
4
Yes
51­
14a
Has
mass
balance
also
5/
14/
97
Natural
gas
51
tunnel
kiln
tk­
2
us­
9
Yes
51­
14b
Has
mass
balance
also
5/
14/
97
Natural
gas
52
kiln
tk­
2
bh­
2
Yes
52­
20a
3/
9/
93
Coal/
natural
gas
52
dryer
dc­
2
us­
2
Yes
52­
20b
3/
9/
93
Waste
heat
57
grinder/

screen
gs­
1
bh­
1
Yes
57­
24c
AP­
42
test
7/
30/
93
57
dryer
dc­
1
us­
1
Yes
57­
24b
AP­
42
test
7/
30/
93
Waste
heat
57
tunnel
kiln
tk­
1
us­
3
Yes
57­
24a
AP­
42
test
7/
30/
93
Coal/
natural
gas
58
tunnel
kiln
tk­
2
bh­
3
Yes
58­
25
10/
11/
83
Coal/
natural
gas
60
tunnel
kiln
tk­
1
us­
4
No
60­
26
10/
1/
90
Coal/
natural
gas
65
kiln
5
tk­
2
us­
2
Yes
65­
27
3/
4/
96
Natural
gas
70
tunnel
kiln
tk­
1,
tk­
2
diff­
1,

diff­
2
No
70­
28b
Incomplete
summary
6/
1/
93
Natural
gas
TABLE
27.
(
continued)

FACID
Source
Equipment
ID
Control
device
Entire
report?
Test
ID
Comments
Date
Raw
material
Fuel
type
(
test)

347
70
tunnel
kiln
tk­
1,
tk­
2
us
No
70­
28c
Incomplete
summary
3/
1/
93
Natural
gas
70
tunnel
kiln
tk­
1,
tk­
2
us
No
70­
28a
Incomplete
summary
12/
1/
90
Natural
gas
72
tunnel
kiln/

sawdust
dryer
tk­
1,
tk­
2,

ds­
2
us­
3,
us­
5,

cy­
2
No
72­
29
2
unc.
kiln
stacks
+
cy.
Controlled
sawdust
dryer
stack
11/
29/
93
Sawdust
73
tunnel
kiln
tk­
2
us­
5
No
73­
30
6/
29/
95
Natural
gas
73
tunnel
kiln
tk­
2
us­
5
Yes
73­
44b
8/
28/
96
Natural
gas
73
tunnel
kiln
tk­
1
us­
4
Yes
73­
44a
8/
28/
96
Natural
gas
77
tunnel
kiln
tk­
1
us­
5
No
77­
31
Incomplete
summary
Natural
gas
84
tunnel
kiln
tk­
1
us­
1
No
84­
51
HF
reported
as
4.28
lb/
hr
4/
22/
97
Coal/
natural
gas
85
dryer
dc­
1
us­
1
Yes
85­
32b
6/
3/
97
Waste
heat
85
tunnel
kiln
tk­
1
cy­
1
Yes
85­
32a
6/
3/
97
Coal/
natural
gas
88
Keller
tunnel
kiln
tk­
1
us­
2
No
88­
33
4/
22/
94
Natural
gas
101
tunnel
kilns
2
and
3
and
sawdust
dryer
tk­
2,
tk­
3,

sd­
1
us­
(
ds)
Yes
101­
21
1/
12/
95
Sawdust
111
tunnel
kiln
tk­
1
us­
8
No
111­
40
7/
21/
89
Natural
gas
111
tunnel
kiln
tk­
1
us­
8
No
111­
39
7/
25/
85
Natural
gas
111
tunnel
kiln
tk­
1
us­
8
No
111­
41
3/
3/
92
Natural
gas
112
kiln
tk­
us­
Yes
112­
36
Plant
6,
Kiln
3
5/
1/
94
shale
Natural
gas
112
tunnel
kiln
tk­
4
us­
11
Yes
112­
38b
AP­
42
test
by
MRI
11/
10/
93
Natural
gas
112
dryer
dc­
6
us­
16
Yes
112­
38c
AP­
42
test
by
MRI
11/
10/
93
Waste
heat/

natural
gas
TABLE
27.
(
continued)

FACID
Source
Equipment
ID
Control
device
Entire
report?
Test
ID
Comments
Date
Raw
material
Fuel
type
(
test)

348
112
grinder/
screening
g­
3
bhi­
9
to
10
Yes
112­
38a
AP­
42
test
by
MRI
11/
10/
93
112
dryer
dc­
us­
Yes
112­
39
11/
17/
94
Waste
heat/

natural
gas
112
kiln
tk­
us­
Yes
112­
35
Plant
6,
Kiln
2
5/
1/
94
clay
Natural
gas
112
kiln
tk­
us­
Yes
112­
37
Plant
8,
Kiln
2
5/
1/
94
shale
Natural
gas
112
periodic
kilns
pk­
1
to
­
6
us­
1
Yes
112­
34
5/
1/
94
shale
Natural
gas
123
tunnel
kiln
tk­
1
us­
5
Yes
123­
22
12/
5/
95
Natural
gas
127
kiln
pk­
6
us­
6
No
127­
5a
Incomplete
summary
10/
1/
92
Natural
gas
127
dryer
dc­
1
us­
7
to
us­
8
No
127­
5b
Incomplete
summary
10/
1/
92
Waste
heat/

natural
gas
128
kiln
tk­
1
da­
1
Yes
128­
6a
AP­
42
test
6/
18/
91
Natural
gas
128
dryer
dc­
1
us­
1
Yes
128­
6b
AP­
42
Test
6/
18/
91
Waste
heat
129
kiln
tk­
1
us­
4
No
129­
7a
Incomplete
summary
10/
22/
97
Natural
gas
129
kiln
tk­
1
us­
4
No
129­
8
Incomplete
summary
5/
29/
92
Natural
gas
129
dryer
dc­
1
us­
2
No
129­
7b
Incomplete
summary
10/
22/
97
Waste
heat
130
tunnel
kiln
tk
us
Yes
130­
1
Plant
9,
Kiln
2
5/
1/
94
Shale
Natural
gas
131
tunnel
kiln
tk­
1
us­
6
No
131­
61
Clemson
2/
11/
93
Natural
gas
133
tunnel
kiln
tk­
2
us­
9
No
133­
57
9/
11/
91
Natural
gas
133
tunnel
kiln
tk­
3
us­
18
No
133­
59
11/
1/
95
Sawdust/

natural
gas
133
tunnel
kiln
tk­
2
us­
9
No
133­
60
Clemson
11/
8/
94
Natural
gas
133
tunnel
kiln
tk­
3
us­
18
No
133­
58
9/
11/
91
Sawdust/

natural
gas
TABLE
27.
(
continued)

FACID
Source
Equipment
ID
Control
device
Entire
report?
Test
ID
Comments
Date
Raw
material
Fuel
type
(
test)

349
135
kiln
2
tk­
2
us­
2
Yes
135­
46
4/
18/
97
Natural
gas
137
sawdust
dryer
ds­
1
us­
1
Yes
137­
8
AP­
42
test.
The
inlet
refers
to
the
inlet
of
the
sawdust
dryer,
which
is
the
kiln
exhaust.
The
outlet
is
the
kiln
exhaust
after
passing
through
the
sawdust
dryer.
8/
1/
93
Waste
heat
137
grinding/
screening
gs­
1
fe­
10
Yes
137­
8a
AP­
42
test
8/
1/
93
137
tunnel
kiln
tk­
1,
tk­
2
ds­
1
Yes
137­
8
AP­
42
test.
The
inlet
refers
to
the
inlet
of
the
sawdust
dryer,
which
is
the
kiln
exhaust.
The
outlet
is
the
kiln
exhaust
after
passing
through
the
sawdust
dryer.
8/
1/
93
Sawdust
138
tunnel
kiln
tk­
1
us­
5
No
138­
56
6/
1/
86
Natural
gas
141
tunnel
kiln
tk­
1
us­
4
No
141­
23
9/
16/
93
Natural
gas
143
tunnel
kiln
tk
us
No
143­
1
9/
3/
96
143
rotary
kiln
ca
us
No
143­
2b
10/
13/
93
143
tunnel
kiln
tk
us
No
143­
2
10/
13/
93
143
dryer
dc
us
No
143­
2a
10/
13/
93
144
dryer
dc­
1
us­
2
Yes
144­
55b
12/
13/
95
Waste
heat
144
tunnel
kiln
tk­
1
us­
1
Yes
144­
55a
12/
13/
95
Natural
gas
148
tunnel
kiln
Tk­
1
da­
1
Yes
148­
4a
2/
1/
91
clay,
shale
Natural
gas
148
tunnel
kiln
tk­
1
da­
1
No
148­
63
Clemson
8/
31/
93
Natural
gas
148
grinding/
screening
g­
1,
s­
1
bh­
1
Yes
148­
4b
BH
pickups
on
2
rollermills,
2
hammermills,
4
screens,
and
a
couple
of
transfer
points
2/
1/
91
clay,
traprock,

shale
148
tunnel
kiln
tk­
1
da­
1
Yes
148­
1
3/
1/
95
Natural
gas
TABLE
27.
(
continued)

FACID
Source
Equipment
ID
Control
device
Entire
report?
Test
ID
Comments
Date
Raw
material
Fuel
type
(
test)

350
148
tunnel
kiln
tk­
1
da­
1
Yes
148­
3
2/
1/
91
Natural
gas
148
tunnel
kiln
tk
us
Yes
148­
6
2/
5/
90
148
tunnel
kiln
tk­
1
da­
1
Yes
148­
5
8/
23/
95
Natural
gas
148
tunnel
kiln
tk­
1
da­
1
Yes
148­
2
1/
2/
95
Natural
gas
148
coloring/

texturing
extrusion
line
cta­
1,
fw­
1
BH­
2
Yes
148­
4c
2
dust
collection
hoods
at
the
feed
end
of
the
extruder
and
cta­
X.

10
car/
day
push
thru
cta­
X
65
lb/
hr
sand
2/
1/
91
clay,
shale
149
tunnel
kiln
tk­
1
us­
1
Yes
149­
54
11/
13/
96
Natural
gas
150
tunnel
kiln
tk­
2
diff­
1
Yes
150­
52
3/
29/
95
Natural
gas
150
tunnel
kiln
tk­
2
diff­
1
Yes
150­
52
5/
27/
94
Natural
gas
150
tunnel
kiln
tk­
2
diff­
1
Yes
150­
52
6/
7/
95
Natural
gas
151
color
application
cta
bh
Yes
151­
1d
6/
3/
97
151
dryer
dc­
us­
Yes
151­
1a
6/
3/
97
151
predryer
misc­
us­
Yes
151­
1b
6/
3/
97
151
tunnel
kiln
tk
diff­
1
Yes
151­
1e
6/
3/
97
151
screen
gs­
bh
Yes
151­
1c
6/
3/
97
152
tunnel
kiln
tk­
1
us
Yes
152­
1
4/
23/
98
Natural
gas
154
tunnel
kiln
tk­
1
sc­
1
Yes
154­
1
AP­
42
10/
31/
95
Natural
gas
154
tunnel
kiln
tk­
1
sc­
1
Yes
154­
65
10/
28/
98
Natural
gas
154
tunnel
kiln
tk­
2
sc­
2
Yes
154­
2
AP­
42
12/
1/
94
Natural
gas
154
crushing
cr­
1
bh­
1
Yes
154­
2a
AP­
42
12/
1/
94
TABLE
27.
(
continued)

FACID
Source
Equipment
ID
Control
device
Entire
report?
Test
ID
Comments
Date
Raw
material
Fuel
type
(
test)

351
154
extrusion
line
conveyor
drop
point
mh­
X
bh­
X
Yes
154­
2b
AP­
42
12/
1/
94
154
extrusion
line
conveyor
drop
point
mh­
XX
bh­
XX
Yes
154­
2c
AP­
42
12/
1/
94
155
tunnel
kiln
tk­
1
DIFF­
1
Yes
155­
1
7/
2/
98
Natural
gas
352
TABLE
28.
TEST
DATA
SUMMARY,
PART
I
FACID
Test
Date
Source
ID
Source
type
APCD
APCD
type
Sources
ACFM
uncontrolled
ACFM
controlled
DSCFM
uncontrolled
DSCFM
controlled
Production
(
tph)
Moisture
(%)

uncontrolled
Moisture
(%)
controlled
Temp
(
deg
F)
uncontrolled
1
5/
21/
97
tk­
2
Tunnel
kiln
dls­
1
dls
tk­
2
30844
24795
18730
16898
10.41
0.039
0.088
381
1
5/
21/
97
tk­
2
Tunnel
kiln
dls­
1
dls
tk­
2
30734
24098
18856
17486
10.41
0.035
0.023
376
7
9/
10/
91
tk­
1
Tunnel
kiln
us­
8
us
tk­
1
29109
15139
0.084
469
7
9/
10/
91
tk­
1
Tunnel
kiln
us­
8
us
tk­
1
29389
15376
0.078
470
9
3/
4/
99
tk­
1,

tk­
2
Tunnel
kilns
da­
1
da
tk­
1,
tk­
2
43692
27212
22.71
0.093
9
3/
4/
99
tk­
1
Tunnel
kiln
da­
1
da
tk­
1
21846
13606
11.355
0.093
9
3/
4/
99
tk­
2
Tunnel
kiln
da­
1
da
tk­
2
21846
13606
11.355
0.093
11
1/
23/
97
tk­
1
Tunnel
kiln
us­
3
us
tk­
1
41193
28912
9.9
0.0544
256
13
2/
15/
96
tk­
1
Tunnel
kiln
da­
1
da
tk­
1
38316
20755
10.53
0.064
13
6/
29/
95
tk­
1
Tunnel
kiln
da­
1
da
tk­
1
42859
22463
10.4
0.0803
13
3/
1/
95
tk­
1
Tunnel
kiln
da­
1
da
tk­
1
43272.5
21527
0.0637
13
6/
29/
95
tk­
1,
tk­
2
Tunnel
kilns
85717
44925
20.79
0.0803
13
6/
29/
95
tk­
1
Tunnel
kiln
da­
1
da
tk­
1
41801
21874
10.4
0.0758
13
2/
15/
96
tk­
1,
tk­
2
Tunnel
kilns
76631
41509
21.06
0.064
13
6/
29/
95
tk­
1,
tk­
2
Tunnel
kilns
83601
43747
20.79
0.0758
13
3/
1/
95
tk­
1,
tk­
2
Tunnel
kilns
86545
43054
0.0637
13
3/
1/
95
tk­
2
Tunnel
kiln
DA­
1
da
tk­
2
43272.5
21527
0.0637
13
2/
15/
96
tk­
2
Tunnel
kiln
DA­
1
da
tk­
2
38316
20755
10.53
0.064
13
6/
29/
95
tk­
2
Tunnel
kiln
DA­
1
da
tk­
2
42859
22463
10.4
0.0803
13
6/
29/
95
tk­
2
Tunnel
kiln
DA­
1
da
tk­
2
41801
21874
10.4
0.0758
23
7/
6/
93
tk­
3
Tunnel
kiln
us­
3
us
tk­
3
17699
5.92
0.0768
31
4/
22/
93
tk­
4
Tunnel
kiln
DA­
1
da
tk­
4
19050
11217
11.29
0.03
415
31
11/
19/
98
tk­
3,

tk­
4
Tunnel
kilns
da­
1
da
tk­
3,
tk­
4
37256
39186
18443
20010
21.19
0.11853
0.1136
465
31
11/
19/
98
tk­
3
Tunnel
kiln
da­
1
da
tk­
3
18628
19593
9222
10005
10.595
0.11853
0.1136
465
31
11/
19/
98
tk­
4
Tunnel
kiln
da­
1
da
tk­
4
18628
19593
9222
10005
10.595
0.11853
0.1136
465
31
3/
24/
99
tk­
4
Tunnel
kiln
da­
1
da
tk­
4
19752
20850
10123
10717
11.265
0.10523
0.11648
458.7
31
3/
24/
99
tk­
3
Tunnel
kiln
da­
1
da
tk­
3
19752
20851
10124
10717
11.265
0.10523
0.11648
458.7
31
3/
24/
99
tk­
3,
tk­
4
Tunnel
kilns
da­
1
da
tk­
3,
tk­
4
39504
41701
20247
21434
22.53
0.10523
0.11648
458.7
TABLE
28.
(
CONTINUED)

FACID
Test
Date
Source
ID
Source
type
APCD
APCD
type
Sources
ACFM
uncontrolled
ACFM
controlled
DSCFM
uncontrolled
DSCFM
controlled
Production
(
tph)
Moisture
(%)

uncontrolled
Moisture
(%)
controlled
Temp
(
deg
F)
uncontrolled
353
32
3/
7/
97
tk­
1
Tunnel
kiln
us­
9
us
tk­
1
18967
10948
7.7
0.0879
377
32
7/
11/
97
tk­
3
Tunnel
kiln
us­
11
us
tk­
3
22603
12482
8.8
0.122
377
41
8/
29/
94
dc­
1
Dryer
us­
1
us
dc­
1
22160
19280
5.99
0.0726
106
41
5/
11/
94
dc­
1
Dryer
us­
1
us
dc­
1
19495
17213
4.79
0.0846
93.6
41
8/
29/
94
dc­
2
Dryer
us­
2
us
dc­
2
20453
17613
5.99
0.0844
104
41
5/
11/
94
dc­
2
Dryer
us­
2
us
dc­
2
19076
16842
4.79
0.0756
95.8
41
5/
11/
94
tk­
1
Tunnel
kiln
us­
3
us
tk­
1
24600
12898
9.58
0.0656
478
41
8/
29/
94
tk­
1
Tunnel
kiln
us­
3
us
tk­
1
30835
17404
11.97
0.0519
436
46
5/
15/
97
tk­
1
Tunnel
kiln/
partial
sd
us­
1,
dp
s­
1
us,
dps
tk­
1
31791
20210
9.7
0.105
276
47
8/
19/
97
tk­
2
Tunnel
kiln
us­
4
us
tk­
2
15622
7655
4.37
48
6/
2/
95
tk­
1
Tunnel
kiln
us­
2
us
tk­
1
22553
11531
6.54
0.091
482
49
10/
17/
95
tk­
2
Tunnel
kiln
us­
4
us
tk­
2
29095
14952
10.56
0.071
512
49
10/
19/
95
tk­
2
Tunnel
kiln
us­
4
us
tk­
2
28624
15023
10.56
0.076
487
51
5/
14/
97
tk­
1
Tunnel
kiln
us­
4
us
tk­
1
16440
9986
8.05
0.0849
320
51
5/
14/
97
tk­
2
Tunnel
kiln
us­
9
us
tk­
2
29095
15024
9.81
0.101
436
52
3/
9/
93
dc­
2
Dryer
us­
2
us
dc­
2
44837
41571
10.66
0.032
94
52
3/
9/
93
tk­
2
Tunnel
kiln
bh­
2
bh
tk­
2
17660
13128
10.66
0.0423
57
7/
27/
93
g­
1,
s­
1
Grinding
and
screening
18609
17337
59.5
0.027
57
7/
27/
93
tk­
1
Tunnel
kiln
us­
3
us
tk­
1
7310
4351
6.7
0.1053
336
58
10/
11/
83
tk­
1
Tunnel
kiln
us­
3
us
tk­
1
13314
7886
5.36
0.0663
381
58
7/
21/
82
tk­
2
Tunnel
kiln
bh­
3
bh
tk­
2
28037
18306
9.16
0.0564
59
4/
22/
86
tk­
2
Tunnel
kiln
us­
2
us
tk­
2
28484
22390
12.32
0.0619
171
60
10/
17/
90
tk­
2
Tunnel
kiln
us­
5
us
tk­
2
5107
2867
2.35
0.0605
411
60
10/
17/
90
tk­
3
Tunnel
kiln
us­
6
us
tk­
3
10864
6679
9.36
0.0392
356
65
3/
4/
96
tk­
2
Tunnel
kiln
us­
2
us
tk­
2
27971
13090
3.67
0.058
591
65
3/
4/
96
tk­
2
Tunnel
kiln
us­
2
us
tk­
2
27842
12737
3.67
0.0666
594
70
tk­
1
Tunnel
kiln
DIFF­
1
diff
tk­
1
17000
16200
10700
9208
0.081
0.094
279
TABLE
28.
(
CONTINUED)

FACID
Test
Date
Source
ID
Source
type
APCD
APCD
type
Sources
ACFM
uncontrolled
ACFM
controlled
DSCFM
uncontrolled
DSCFM
controlled
Production
(
tph)
Moisture
(%)

uncontrolled
Moisture
(%)
controlled
Temp
(
deg
F)
uncontrolled
354
70
tk­
2
Tunnel
kiln
diff­
2
diff
tk­
2
16000
17583
9774
10380
0.071
0.091
310
72
11/
29/
93
tk­
2
Tunnel
kiln/
partial
sd
us­
3,
us
­
4,
dps­

2
us,
dps
tk­
2
54115
24.97
72
11/
29/
93
tk­
2
Tunnel
kiln/
partial
sd
us­
3,
us
­
4,
dps­

2
us,
dps
tk­
2
51235
24.97
73
8/
27/
96
tk­
1
Tunnel
kiln
us­
4
us
tk­
1
30703
14371
12.49
0.1247
513
73
8/
27/
96
tk­
2
Tunnel
kiln
us­
5
us
tk­
2
32779
15291
12.49
0.1109
529
77
tk­
1
Tunnel
kiln
us­
5
us
tk­
1
77
12/
2/
99
tk­
2
Tunnel
kiln
dls­
1
dls
tk­
2
25440
26226
15362
17688
11
0.073
0.082
335
84
4/
22/
97
tk­
1
Tunnel
kiln
us­
2
us
tk­
1
31521
14935
0.074
533
85
6/
3/
97
dc­
1
Dryer
us­
1
us
dc­
1
35165
26098
8.29
0.0715
178
85
6/
3/
97
tk­
1
Tunnel
kiln
cy­
1
cy
tk­
1
9308
5201
8.29
0.0618
423
88
4/
22/
94
tk­
1
Tunnel
kiln
us­
2
us
tk­
1
35089
19374
0.057
438
101
12/
1/
94
ds­
1,
tk­
2
,
tk­
3
Tunnel
kilns/
sawdust
dryer
35600
26600
10.42
0.098
180
101
12/
1/
94
tk­
2
Tunnel
kiln/
sawdust
dryer
ds­
1
us,
ds
tk­
2
17800
13300
5.21
0.098
180
101
12/
1/
94
tk­
3
Tunnel
kiln/
sawdust
dryer
DS­
1
us,
ds
tk­
3
17800
13300
5.21
0.098
180
111
7/
21/
89
tk­
1
Tunnel
kiln
us­
8
us
tk­
1
30408
15543
10.77
0.0896
465
111
7/
25/
85
tk­
1
Tunnel
kiln
us­
8
us
tk­
1
28803
16737
11.75
0.0438
390
111
3/
3/
92
tk­
1
Tunnel
kiln
us­
8
us
tk­
1
28774
16115
7.83
0.056
409
112
11/
8/
93
cr­
3,
g­
3,

s­
3
Grinding
and
screening
20979
26497
20434
26033
42.7
0.015
0.015
59
112
5/
4/
94
pk­
12
to
pk­
17
Periodic
kiln
54013
25621
7.42
0.077
544
TABLE
28.
(
CONTINUED)

FACID
Test
Date
Source
ID
Source
type
APCD
APCD
type
Sources
ACFM
uncontrolled
ACFM
controlled
DSCFM
uncontrolled
DSCFM
controlled
Production
(
tph)
Moisture
(%)

uncontrolled
Moisture
(%)
controlled
Temp
(
deg
F)
uncontrolled
355
112
5/
3/
94
tk­
2
Tunnel
kiln
24326
13121
2.89
0.067
436
112
5/
3/
94
tk­
2,

tk­
3
Tunnel
kilns
48651
26241
5.78
0.067
436
112
5/
3/
94
tk­
3
Tunnel
kiln
24326
13121
2.89
0.067
436
112
5/
2/
94
tk­
5
Tunnel
kiln
us­
12
us
tk­
5
28928
15797
3.43
0.061
427
112
11/
8/
93
tk­
6
Tunnel
kiln
us­
13
us
tk­
6
35091
20103
3.48
0.046
396
112
5/
2/
94
tk­
6
Tunnel
kiln
us­
13
us
tk­
6
32873
16729
3.09
0.063
490
112
11/
8/
93
tk­
6
Tunnel
kiln
us­
13
us
tk­
6
39150
21711
3.48
0.045
431
112
11/
8/
93
tk­
6
Tunnel
kiln
us­
13
us
tk­
6
36092
19871
3.48
0.046
436
123
12/
5/
95
tk­
1
Tunnel
kiln
us­
5
us
tk­
1
20283
14868
3.2
0.04
228
127
10/
6/
92
dc­
1
Dryer
46813
41018
0.045
111
127
10/
8/
92
pk­
6
Periodic
kiln
us­
6
us
pk­
6
13746
6553
0.996
0.04898
577.5
128
6/
18/
91
dc­
1
Dryer
us­
1
us
dc­
1
67156
58978
19.2
0.0553
107.6
128
6/
18/
91
tk­
1
Tunnel
kiln
da­
1
da
tk­
1
47879
31381
19.2
0.0787
129
10/
22/
97
dc­
1
Dryer
us­
2
us
dc­
1
30731
28587
0.0333
89
129
9/
6/
96
tk­
1
Tunnel
kiln
us­
4
us
tk­
1
33088
18808
0.0756
385
129
10/
22/
97
tk­
1
Tunnel
kiln
us­
4
us
tk­
1
29341
17652
0.0636
368.6
129
5/
29/
92
tk­
1
Tunnel
kiln
us­
4
us
tk­
1
31733
18555
0.0666
378.3
130
5/
3/
94
tk­
2
Tunnel
kiln
us­
4
us
tk­
2
13238
7708
2.52
0.049
375
131
2/
10/
93
tk­
1
Tunnel
kiln
us­
6
us
tk­
1
12223
12.85
0.0933
131
2/
10/
93
tk­
1
Tunnel
kiln
us­
6
us
tk­
1
12427
12.85
0.0933
131
2/
10/
93
tk­
1
Tunnel
kiln
us­
6
us
tk­
1
12251
12.85
0.0933
133
11/
8/
95
tk­
3
Tunnel
kiln
us­
18
us
tk­
3
96744
57966
18.8
0.0479
422
133
11/
8/
95
tk­
3
Tunnel
kiln
us­
18
us
tk­
3
96363
57542
18.8
0.0689
423
133
11/
8/
95
tk­
3
Tunnel
kiln
us­
18
us
tk­
3
96553
57754
18.8
0.0584
423
133
9/
10/
91
tk­
3
Tunnel
kiln
us­
18
us
tk­
3
88118
48698
18.9
0.043
458
133
9/
10/
91
tk­
2
Tunnel
kiln
us­
9,
us
­
10
us
tk­
2
10117
7831
10.1
0.018
213
TABLE
28.
(
CONTINUED)

FACID
Test
Date
Source
ID
Source
type
APCD
APCD
type
Sources
ACFM
uncontrolled
ACFM
controlled
DSCFM
uncontrolled
DSCFM
controlled
Production
(
tph)
Moisture
(%)

uncontrolled
Moisture
(%)
controlled
Temp
(
deg
F)
uncontrolled
356
133
9/
10/
91
tk­
2
Tunnel
kiln
us­
9,
us
­
10
us
tk­
2
10582
8284
10.1
0.018
205
133
9/
10/
91
tk­
3
Tunnel
kiln
us­
18
us
tk­
3
86055
47553
18.9
0.052
450
135
4/
18/
97
tk­
2
Tunnel
kiln
us­
2
us
tk­
2
31807
18710
7.8
0.0575
373
135
4/
18/
97
tk­
2
Tunnel
kiln
us­
2
us
tk­
2
30397
17966
7.8
0.0576
370
137
10/
27/
92
g­
1,
s­
1
Grinding
and
screening
55451
54282
212.5
0.01
67
137
10/
27/
92
tk­
1
Tunnel
kiln/
sawdust
dryer
ds­
1
us,
ds
tk­
1
25008
17764
8.5
0.109
181.8
137
10/
27/
92
tk­
1,
tk­
2
,
ds­
1
Tunnel
kilns/
sawdust
dryer
50015
35527
17
0.109
181.8
137
10/
27/
92
tk­
2
Tunnel
kiln/
sawdust
dryer
DS­
1
us,
ds
tk­
2
25008
17764
8.5
0.109
181.8
137
10/
27/
92
tk­
3
Tunnel
kiln
us­
4
us
tk­
3
29279
14817
8.5
0.0729
495.5
137
10/
27/
92
tk­
3,
tk­
4
Tunnel
kilns
58558
29634
17
0.0729
495.5
137
6/
8/
95
tk­
4
Tunnel
kiln
US­
4
us
tk­
4
23727
14213
11.6
0.126
291.7
137
10/
27/
92
tk­
4
Tunnel
kiln
US­
4
us
tk­
4
29279
14817
8.5
0.0729
495.5
137
3/
3/
98
tk­
5
Tunnel
kiln
us­
3
us
tk­
5
25176
11759
7.13
0.087
544
137
3/
6/
98
tk­
5
Tunnel
kiln
us­
3
us
tk­
5
22673
11398
9.29
0.094
479
138
6/
1/
86
tk­
1
Tunnel
kiln
us­
5
us
tk­
1
13115
7147
6.7
0.1154
141
9/
16/
93
tk­
1
Tunnel
kiln
us­
4
us
tk­
1
20283
9322
0.064
588.7
143
10/
12/
93
ca­
1
Calciner
us­
6
us
ca­
1
12943
6804
0.2132
329
143
10/
12/
93
dc­
2
Dryer
us­
4
to
us­
5
us
dc­
2
52888
50067
0.0333
78.2
143
9/
3/
96
tk­
1
Tunnel
kiln
us­
1
us
tk­
1
18833
9788
0.1238
424
143
9/
3/
96
tk­
2
Tunnel
kiln
us­
2
us
tk­
2
57053
35088
0.0645
332
143
10/
12/
93
tk­
2
Tunnel
kiln
us­
2
us
tk­
2
30990
18714
0.069
351
TABLE
28.
(
CONTINUED)

FACID
Test
Date
Source
ID
Source
type
APCD
APCD
type
Sources
ACFM
uncontrolled
ACFM
controlled
DSCFM
uncontrolled
DSCFM
controlled
Production
(
tph)
Moisture
(%)

uncontrolled
Moisture
(%)
controlled
Temp
(
deg
F)
uncontrolled
357
144
12/
13/
95
dc­
1
Dryer
us­
2
us
dc­
1
23766
20412
9.9
0.0694
106
144
12/
13/
95
tk­
1
Tunnel
kiln
us­
1
us
tk­
1
20446
11448
9.9
0.0847
396
148
2/
5/
91
cta­
1,

mh­
2
Color/
texture
application
1585
1556
10.94
0.0094
148
2/
5/
91
g­
1,
s­
1
Grinding
and
screening
22142
21990
0.0123
148
1/
5/
95
tk­
1
Tunnel
kiln
da­
1
da
tk­
1
24239
16929
11.18
0.0464
148
8/
22/
95
tk­
1
Tunnel
kiln
da­
1
da
tk­
1
35758
34107
21784
21970
11.18
0.052
0.037
361
148
1/
24/
95
tk­
1
Tunnel
kiln
da­
1
da
tk­
1
25654
16862
11.18
0.048
148
1/
5/
95
tk­
1
Tunnel
kiln
da­
1
da
tk­
1
27215
26879
17751
18432
11.18
0.043
0.047
322
148
8/
31/
93
tk­
1
Tunnel
kiln
da­
1
da
tk­
1
10.94
148
6/
10/
99
tk­
1
Tunnel
kiln
da­
1
da
tk­
1
32815
21316
18.72
0.054
149
11/
12/
96
tk­
1
Tunnel
kiln
us­
1
us
tk­
1
20165
13769
12.4
0.0642
259
150
6/
8/
95
dc­
2
dryer
48355
40131
11
0.0223
145
150
3/
29/
95
tk­
1
Tunnel
kiln
diff­
1
diff
tk­
1
22590
13741
11.46
0.0753
150
5/
27/
94
tk­
1
Tunnel
kiln
diff­
1
diff
tk­
1
17259
10978
8
0.0956
150
6/
7/
95
tk­
2
Tunnel
kiln
diff­
2
diff
tk­
2
24188
13831
11
0.1464
150
6/
7/
95
tk­
2
Tunnel
kiln
diff­
2
diff
tk­
2
28525
24350
12061
13859
11
0.0912
0.1468
624
151
6/
3/
97
dc­
1
Dryer
us­
1
us
dc­
1
13504
11890
13.69
0.044
101.1
151
6/
3/
97
dc­
1
Dryer
us­
1
us
dc­
1
14055
12650
13.69
0.0221
101.9
151
6/
3/
97
misc­
1
Predryer
us­
6
us
misc­
1
20330
18369
13.69
0.0346
92.8
151
6/
3/
97
tk­
1
Tunnel
kiln
dls­
1
dls
tk­
1
30203
30528
17782
19355
13.69
0.082
0.093
344
151
6/
3/
97
tk­
1
Tunnel
kiln
dls­
1
dls
tk­
1
30053
31393
17739
19905
13.69
0.0781
0.0933
344.9
151
6/
3/
97
wastehea
t
stack
Wasteheat
stack
27955
16068
13.69
0.024
418.2
151
6/
3/
97
wastehea
t
stack
Wasteheat
stack
27779
15957
13.69
0.0221
420.8
152
4/
23/
98
tk­
1
Tunnel
kiln
us­
1
us
tk­
1
9980
5307
3.32
0.0953
427
154
10/
31/
95
tk­
1
Tunnel
kiln
sc­
1
sc
tk­
1
44442
27196
18445
17114
13.23
0.0706
0.161
541
TABLE
28.
(
CONTINUED)

FACID
Test
Date
Source
ID
Source
type
APCD
APCD
type
Sources
ACFM
uncontrolled
ACFM
controlled
DSCFM
uncontrolled
DSCFM
controlled
Production
(
tph)
Moisture
(%)

uncontrolled
Moisture
(%)
controlled
Temp
(
deg
F)
uncontrolled
358
154
12/
5/
94
tk­
2
Tunnel
kiln
sc­
2
sc
tk­
2
59097
59097
39188
39188
12.04
0.1316
154
10/
28/
98
tk­
1
Tunnel
kiln
sc­
1
sc
tk­
1
47300
37200
21400
17900
11.8
0.07
0.363
451
155
7/
2/
98
tk­
1
Tunnel
kiln
dls­
1
dls
tk­
1
29707
31863
16377
18563
10.6
0.08
0.08
239
155
7/
10/
98
tk­
1
Tunnel
kiln
dls­
1
dls
tk­
1
32323
32820
17755
18965
11.25
0.072
0.079
249
155
7/
2/
98
tk­
1
Tunnel
kiln
dls­
1
dls
tk­
1
31103
32347
16973
18842
10.6
0.078
0.081
248
155
7/
10/
98
tk­
1
Tunnel
kiln
dls­
1
dls
tk­
1
32127
17532
35437
20420
11.25
0.076
0.083
250
184
3/
30/
94
tk­
1
Tunnel
kiln
us­
3
us
tk­
1
18518
12488
2.6
0.0336
273
184
3/
30/
94
tk­
2
Tunnel
kiln
us­
3
us
tk­
2
18518
12488
2.6
0.0336
273
184
3/
30/
94
tk­
3
Tunnel
kiln
us­
3
us
tk­
3
18518
12488
3.1
0.0336
273
184
4/
14/
94
tk­
1
Tunnel
kiln
us­
3
us
tk­
1
19387
12872
2.6
0.0362
282
184
4/
14/
94
tk­
2
Tunnel
kiln
us­
3
us
tk­
2
19387
12872
2.6
0.0362
282
184
4/
14/
94
tk­
3
Tunnel
kiln
us­
3
us
tk­
3
19387
12872
3.1
0.0362
282
184
11/
17/
93
tk­
3
Tunnel
kiln
us­
3
us
tk­
3
11880
8341
2.77
0.0635
220
184
11/
18/
93
tk­
3
Tunnel
kiln
us­
3
us
tk­
3
10568
7001
2.77
0.0635
257
184
8/
2/
95
tk­
1
Tunnel
kiln
us­
3
us
tk­
1
17913
11520
0.0582
304
184
8/
2/
95
tk­
2
Tunnel
kiln
us­
3
us
tk­
2
17913
11520
0.0582
304
184
8/
2/
95
tk­
3
Tunnel
kiln
us­
3
us
tk­
3
17913
11520
0.0582
304
359
TABLE
29.
TEST
DATA
SUMMARY,
PART
II
FACID
Test
Date
Source
ID
Temp
(
deg
F)
controlled
Oxygen
(%)
uncontrolled
Oxygen
(%)

controlled
HF
­
gr/
dscf
uncontrolled
HF
­
gr/
dscf
­
controlled
HF
­
ppm
uncontrolled
HF
­
ppm
controlled
HF
­
lb/
hr
uncontrolled
HF
­
lb/
hr
controlled
HF
­
lb/
ton
uncontrolled
HF
lb/
ton
controlled
HF
Test
Method
1
5/
21/
97
tk­
2
252
0.167
0.167
0.0389
0.0002
107
0.55
6.1
0.029
0.586
0.003
26
1
5/
21/
97
tk­
2
256
0.167
0.167
7
9/
10/
91
tk­
1
0.18
0.02
2.54
13B
7
9/
10/
91
tk­
1
0.18
9
3/
4/
99
tk­
1,
tk­
2
304
0.204
0.00097
0.225
0.010
26A
9
3/
4/
99
tk­
1
304
0.204
0.00097
0.1125
0.010
26A
9
3/
4/
99
tk­
2
304
0.204
0.00097
0.1125
0.010
26A
11
1/
23/
97
tk­
1
0.21
0.0264
72.6
6.82
0.689
26
13
2/
15/
96
tk­
1
439
0.165
0.0407
0.00266
112
7.32
7.2
0.473
0.684
0.045
13B
13
6/
29/
95
tk­
1
462
0.171
13
3/
1/
95
tk­
1
532
0.173
0.00338
9.3
0.62
13B
13
6/
29/
95
tk­
1,
tk­
2
462
0.171
13
6/
29/
95
tk­
1
468
0.172
0.00311
8.56
0.585
0.056
13B
13
2/
15/
96
tk­
1,
tk­
2
439
0.165
0.0407
0.00266
112
7.32
14.4
0.946
0.684
0.045
13B
13
6/
29/
95
tk­
1,
tk­
2
468
0.172
0.00311
8.56
1.17
0.056
13B
13
3/
1/
95
tk­
1,
tk­
2
532
0.173
0.00338
9.3
1.24
13B
13
3/
1/
95
tk­
2
532
0.173
0.00338
9.3
0.62
13B
13
2/
15/
96
tk­
2
439
0.165
0.0407
0.00266
112
7.32
7.2
0.473
0.684
0.045
13B
13
6/
29/
95
tk­
2
462
0.171
13
6/
29/
95
tk­
2
468
0.172
0.00311
8.56
0.585
0.056
13B
23
7/
6/
93
tk­
3
0.0103
28.28
1.4
0.236
13B
31
4/
22/
93
tk­
4
0.209
0.05737
157.8
5.53
0.490
26
31
11/
19/
98
tk­
3,
tk­
4
442
20.3
20.2
8.18
0.3
0.386
0.014
26A
31
11/
19/
98
tk­
3
442
20.3
20.2
4.09
0.15
0.386
0.014
26A
31
11/
19/
98
tk­
4
442
20.3
20.2
4.09
0.15
0.386
0.014
26A
31
3/
24/
99
tk­
4
445.3
17.1
20.8
5.405
0.4135
0.48
0.0367
26A
TABLE
29.
(
CONTINUED)

FACID
Test
Date
Source
ID
Temp
(
deg
F)
controlled
Oxygen
(%)
uncontrolled
Oxygen
(%)

controlled
HF
­
gr/
dscf
uncontrolled
HF
­
gr/
dscf
­
controlled
HF
­
ppm
uncontrolled
HF
­
ppm
controlled
HF
­
lb/
hr
uncontrolled
HF
­
lb/
hr
controlled
HF
­
lb/
ton
uncontrolled
HF
lb/
ton
controlled
HF
Test
Method
360
31
3/
24/
99
tk­
3
445.3
17.1
20.8
5.405
0.4135
0.48
0.0367
26A
31
3/
24/
99
tk­
3,
tk­
4
445.3
17.1
20.8
10.81
0.827
0.48
0.0367
26A
32
3/
7/
97
tk­
1
0.172
0.0443
121.9
4.15
0.539
26A
32
7/
11/
97
tk­
3
0.04099
112.78
4.39
0.499
26A
41
8/
29/
94
dc­
1
0.204
41
5/
11/
94
dc­
1
0.204
41
8/
29/
94
dc­
2
0.204
41
5/
11/
94
dc­
2
0.204
41
5/
11/
94
tk­
1
0.178
41
8/
29/
94
tk­
1
0.1814
46
5/
15/
97
tk­
1
0.17
0.0187
51.45
2.88
0.297
26
47
8/
19/
97
tk­
2
0.025
68.78
1.63
0.373
26A
48
6/
2/
95
tk­
1
0.164
0.0217
59.6
2.14
0.327
13B
49
10/
17/
95
tk­
2
0.166
49
10/
19/
95
tk­
2
0.166
0.0293
80.6
3.77
0.357
26A
51
5/
14/
97
tk­
1
0.1683
0.0369
101.5
3.23
0.401
26
51
5/
14/
97
tk­
2
0.17
0.0433
119.1
5.58
0.569
26
52
3/
9/
93
dc­
2
0.198
52
3/
9/
93
tk­
2
242
0.158
57
7/
27/
93
g­
1,
s­
1
81.3
0.208
57
7/
27/
93
tk­
1
0.1304
0.0226
62.1
0.846
0.126
26
58
10/
11/
83
tk­
1
0.1695
58
7/
21/
82
tk­
2
310
0.167
59
4/
22/
86
tk­
2
0.18
60
10/
17/
90
tk­
2
0.162
TABLE
29.
(
CONTINUED)

FACID
Test
Date
Source
ID
Temp
(
deg
F)
controlled
Oxygen
(%)
uncontrolled
Oxygen
(%)

controlled
HF
­
gr/
dscf
uncontrolled
HF
­
gr/
dscf
­
controlled
HF
­
ppm
uncontrolled
HF
­
ppm
controlled
HF
­
lb/
hr
uncontrolled
HF
­
lb/
hr
controlled
HF
­
lb/
ton
uncontrolled
HF
lb/
ton
controlled
HF
Test
Method
361
60
10/
17/
90
tk­
3
0.167
65
3/
4/
96
tk­
2
0.19
0.0243
66.86
2.7
0.736
13B
65
3/
4/
96
tk­
2
0.192
0.0393
108.1
4.21
1.147
26A
70
tk­
1
366
0.116
0.135
0.63
0.0041
26A
70
tk­
2
339
0.15
0.14
1.5
0.0043
26A
72
11/
29/
93
tk­
2
6.43
0.258
26A
72
11/
29/
93
tk­
2
73
8/
27/
96
tk­
1
0.1435
0.0058
15.96
0.7161
0.057
13B
73
8/
27/
96
tk­
2
0.1442
0.0035
9.63
0.4595
0.037
13B
77
tk­
1
?

77
12/
2/
99
tk­
2
249
0.195
0.179
0.0262
0.000865
72
2.35
3.45
0.132
0.313
0.012
26A
84
4/
22/
97
tk­
1
0.165
0.0334
4.28
26A
85
6/
3/
97
dc­
1
0.2
0.012
2.76
0.333
26A
85
6/
3/
97
tk­
1
0.18
0.2089
574.7
9.32
1.124
26A
88
4/
22/
94
tk­
1
0.18
0.04045
111.3
6.67
13B
101
12/
1/
94
ds­
1,
tk­
2,
t
k­
3
0.165
0.00912
25.1
1.96
0.188
26A
101
12/
1/
94
tk­
2
0.165
0.00912
25.1
0.98
0.188
26A
101
12/
1/
94
tk­
3
0.165
0.00912
25.1
0.98
0.188
26A
111
7/
21/
89
tk­
1
0.182
111
7/
25/
85
tk­
1
0.1773
111
3/
3/
92
tk­
1
0.166
112
11/
8/
93
cr­
3,
g­
3,
s
­
3
57
0.209
0.209
112
5/
4/
94
pk­
12
to
pk­
17
0.116
5.69
0.767
13B
TABLE
29.
(
CONTINUED)

FACID
Test
Date
Source
ID
Temp
(
deg
F)
controlled
Oxygen
(%)
uncontrolled
Oxygen
(%)

controlled
HF
­
gr/
dscf
uncontrolled
HF
­
gr/
dscf
­
controlled
HF
­
ppm
uncontrolled
HF
­
ppm
controlled
HF
­
lb/
hr
uncontrolled
HF
­
lb/
hr
controlled
HF
­
lb/
ton
uncontrolled
HF
lb/
ton
controlled
HF
Test
Method
362
112
5/
3/
94
tk­
2
0.156
4.64
1.606
13B
112
5/
3/
94
tk­
2,
tk­
3
0.156
9.28
1.606
13B
112
5/
3/
94
tk­
3
0.156
4.64
1.606
13B
112
5/
2/
94
tk­
5
0.176
2.86
0.834
13B
112
11/
8/
93
tk­
6
0.176
112
5/
2/
94
tk­
6
0.176
2.94
0.951
13B
112
11/
8/
93
tk­
6
0.179
112
11/
8/
93
tk­
6
0.182
0.00606
16.7
1
0.287
26A
123
12/
5/
95
tk­
1
0.169
0.00344
9.46
0.438
0.137
13B
127
10/
6/
92
dc­
1
0.21
0.000349
0.96
0.122
13B
127
10/
8/
92
pk­
6
0.19
0.0414
113.93
2.316
2.325
13B
128
6/
18/
91
dc­
1
0.21
0
0
0
0.000
13B?

128
6/
18/
91
tk­
1
281.7
0.182
0.000284
0.782
0.0764
0.004
13B?

129
10/
22/
97
dc­
1
0.21
0.00054
1.49
0.136
13B
129
9/
6/
96
tk­
1
0.175
129
10/
22/
97
tk­
1
0.187
129
5/
29/
92
tk­
1
0.182
0.0186
51.23
2.95
13B
130
5/
3/
94
tk­
2
0.172
2.26
0.897
13B
131
2/
10/
93
tk­
1
0.048
132
4.78
0.372
13B
131
2/
10/
93
tk­
1
131
2/
10/
93
tk­
1
0.0277
76.3
12.1
0.942
26A
133
11/
8/
95
tk­
3
0.18
133
11/
8/
95
tk­
3
0.18
0.03395
93.4
16.73
0.890
26
133
11/
8/
95
tk­
3
0.18
TABLE
29.
(
CONTINUED)

FACID
Test
Date
Source
ID
Temp
(
deg
F)
controlled
Oxygen
(%)
uncontrolled
Oxygen
(%)

controlled
HF
­
gr/
dscf
uncontrolled
HF
­
gr/
dscf
­
controlled
HF
­
ppm
uncontrolled
HF
­
ppm
controlled
HF
­
lb/
hr
uncontrolled
HF
­
lb/
hr
controlled
HF
­
lb/
ton
uncontrolled
HF
lb/
ton
controlled
HF
Test
Method
363
133
9/
10/
91
tk­
3
0.18
133
9/
10/
91
tk­
2
0.21
133
9/
10/
91
tk­
2
0.21
0.002
0.16
0.016
13B
133
9/
10/
91
tk­
3
0.18
0.019
52.3
7.64
0.404
13B
135
4/
18/
97
tk­
2
0.182
0.0248
68.2
3.94
0.505
13B
135
4/
18/
97
tk­
2
0.182
0.0229
63
3.55
0.455
26A
137
10/
27/
92
g­
1,
s­
1
0.209
137
10/
27/
92
tk­
1
0.172
0.0109
29.9
1.54
0.181
26
137
10/
27/
92
tk­
1,
tk­
2,

ds­
1
0.172
0.0109
29.9
3.07
0.181
26
137
10/
27/
92
tk­
2
0.172
0.0109
29.9
1.54
0.181
26
137
10/
27/
92
tk­
3
0.159
0.0344
94.75
3.99
0.469
26
137
10/
27/
92
tk­
3,
tk­
4
0.159
0.0344
94.75
7.97
0.469
26
137
6/
8/
95
tk­
4
0.155
0.056
154
6.83
0.589
26A
137
10/
27/
92
tk­
4
0.159
0.0344
94.75
3.99
0.469
26
137
3/
3/
98
tk­
5
0.16
0.037
102
3.68
0.516
26A
137
3/
6/
98
tk­
5
0.158
0.028
77
2.7
0.291
26A
138
6/
1/
86
tk­
1
0.159
141
9/
16/
93
tk­
1
0.165
143
10/
12/
93
ca­
1
0.155
0.000776
2.14
0.0432
26A
143
10/
12/
93
dc­
2
0.2067
0.000113
0.31
0.0463
26A
143
9/
3/
96
tk­
1
0.168
143
9/
3/
96
tk­
2
0.178
143
10/
12/
93
tk­
2
0.19
0.0126
34.7
1.92
26A
144
12/
13/
95
dc­
1
0.21
0.00856
23.55
1.5
0.152
26A
TABLE
29.
(
CONTINUED)

FACID
Test
Date
Source
ID
Temp
(
deg
F)
controlled
Oxygen
(%)
uncontrolled
Oxygen
(%)

controlled
HF
­
gr/
dscf
uncontrolled
HF
­
gr/
dscf
­
controlled
HF
­
ppm
uncontrolled
HF
­
ppm
controlled
HF
­
lb/
hr
uncontrolled
HF
­
lb/
hr
controlled
HF
­
lb/
ton
uncontrolled
HF
lb/
ton
controlled
HF
Test
Method
364
144
12/
13/
95
tk­
1
0.168
0.0534
147
5.25
0.530
26A
148
2/
5/
91
cta­
1,

mh­
2
75
0.209
148
2/
5/
91
g­
1,
s­
1
67
0.209
148
1/
5/
95
tk­
1
269
0.171
148
8/
22/
95
tk­
1
327
0.179
0.181
148
1/
24/
95
tk­
1
297
0.179
0.002
5.5
0.3
0.020
13B
148
1/
5/
95
tk­
1
281
0.175
0.189
0.03
0.0019
82.5
5.23
4.6
0.3
0.411
0.027
13B
148
8/
31/
93
tk­
1
6.88
0.629
26A
148
6/
10/
99
tk­
1
312
0.177
0.0024
6.6
0.0434
0.002
26A
149
11/
12/
96
tk­
1
0.162
0.0567
155.8
6.7
0.540
26
150
6/
8/
95
dc­
2
0.177
150
3/
29/
95
tk­
1
318
0.1507
150
5/
27/
94
tk­
1
273
0.1556
150
6/
7/
95
tk­
2
296
0.158
150
6/
7/
95
tk­
2
299
0.168
0.158
0.04857
0.0000874
133.6
0.24
5.6
0.012
0.509
0.001
13B
151
6/
3/
97
dc­
1
0.21
0.000051
0.00531
0.000
26A
151
6/
3/
97
dc­
1
0.21
151
6/
3/
97
misc­
1
0.21
0
0
0
0.000
26A
151
6/
3/
97
tk­
1
277
0.17
0.17
0.03215
0
88.45
0
4.9
0
0.358
0.000
26A
151
6/
3/
97
tk­
1
276.9
0.17
0.17
151
6/
3/
97
wasteheat
stack
0.21
0.0009
0.124
0.009
26A
151
6/
3/
97
wasteheat
stack
0.21
152
4/
23/
98
tk­
1
0.1587
0.0361
99.32
1.67
0.503
26A
154
10/
31/
95
tk­
1
136
0.146
0.148
0.174
0.000115
478.7
0.316
27.4
0.0169
2.071
0.001
13B
TABLE
29.
(
CONTINUED)

FACID
Test
Date
Source
ID
Temp
(
deg
F)
controlled
Oxygen
(%)
uncontrolled
Oxygen
(%)

controlled
HF
­
gr/
dscf
uncontrolled
HF
­
gr/
dscf
­
controlled
HF
­
ppm
uncontrolled
HF
­
ppm
controlled
HF
­
lb/
hr
uncontrolled
HF
­
lb/
hr
controlled
HF
­
lb/
ton
uncontrolled
HF
lb/
ton
controlled
HF
Test
Method
365
154
12/
5/
94
tk­
2
123.4
0.168
0.00637
17.53
2.13
0.177
13B
154
10/
28/
98
tk­
1
127
0.165
0.165
0.0702
0.000994
193
2.73
12.5
0.145
1.060
0.012
13B
155
7/
2/
98
tk­
1
208
0.175
0.178
155
7/
10/
98
tk­
1
216
0.177
0.174
155
7/
2/
98
tk­
1
207
0.175
0.178
0.0618
0
170
0
8.97
0
0.846
0.000
26A
155
7/
10/
98
tk­
1
215
0.179
0.174
0.0586
0.00157
161.2
4.32
8.8
0.272
0.782
0.024
26A
184
3/
30/
94
tk­
1
0.196
0.00805
22.15
0.86
0.320
13
184
3/
30/
94
tk­
2
0.196
0.00805
22.15
0.86
0.320
13
184
3/
30/
94
tk­
3
0.196
0.00805
22.15
0.86
0.277
13
184
4/
14/
94
tk­
1
0.187
184
4/
14/
94
tk­
2
0.187
184
4/
14/
94
tk­
3
0.187
184
11/
17/
93
tk­
3
0.165
184
11/
18/
93
tk­
3
0.165
0.0332
91.34
1.99
0.718
13
184
8/
2/
95
tk­
1
0.176
0.0183
1.81
26A
184
8/
2/
95
tk­
2
0.176
0.0183
1.81
26A
184
8/
2/
95
tk­
3
0.176
0.0183
1.81
26A
366
TABLE
30.
TEST
DATA
SUMMARY,
PART
III
FACID
Test
Date
Source
ID
TF
­
gr/
dscf
­

uncontrolled
TF
­
gr/
dscf
­

controlled
TF
­
ppm
­
uncontrolled
TF
­
ppm
­

controlled
TF
­
lb/
hr
­
uncontrolled
TF
­
lb/
hr
­

controlled
TF
­
lb/
ton
­
uncontrolled
TF
­
lb/
ton
­

controlled
1
5/
21/
97
tk­
2
1
5/
21/
97
tk­
2
7
9/
10/
91
tk­
1
0.02
2.54
7
9/
10/
91
tk­
1
9
3/
4/
99
tk­
1,
tk­
2
9
3/
4/
99
tk­
1
9
3/
4/
99
tk­
2
11
1/
23/
97
tk­
1
13
2/
15/
96
tk­
1
0.0407
0.00266
7.2
0.473
0.684
0.045
13
6/
29/
95
tk­
1
13
3/
1/
95
tk­
1
0.00338
9.3
0.62
13
6/
29/
95
tk­
1,
tk­
2
13
6/
29/
95
tk­
1
0.00311
0.585
0.056
13
2/
15/
96
tk­
1,
tk­
2
0.0407
0.00266
14.4
0.946
0.684
0.045
13
6/
29/
95
tk­
1,
tk­
2
0.00311
1.17
0.056
13
3/
1/
95
tk­
1,
tk­
2
0.00338
9.3
1.24
13
3/
1/
95
tk­
2
0.00338
9.3
0.62
13
2/
15/
96
tk­
2
0.0407
0.00266
7.2
0.473
0.684
0.045
13
6/
29/
95
tk­
2
13
6/
29/
95
tk­
2
0.00311
0.585
0.056
23
7/
6/
93
tk­
3
0.0103
28.28
1.4
0.236
31
4/
22/
93
tk­
4
31
11/
19/
98
tk­
3,
tk­
4
31
11/
19/
98
tk­
3
31
11/
19/
98
tk­
4
31
3/
24/
99
tk­
3,
tk­
4
31
3/
24/
99
tk­
3
31
3/
24/
99
tk­
4
32
3/
7/
97
tk­
1
TABLE
30.
(
CONTINUED)

FACID
Test
Date
Source
ID
TF
­
gr/
dscf
­

uncontrolled
TF
­
gr/
dscf
­

controlled
TF
­
ppm
­
uncontrolled
TF
­
ppm
­

controlled
TF
­
lb/
hr
­
uncontrolled
TF
­
lb/
hr
­

controlled
TF
­
lb/
ton
­
uncontrolled
TF
­
lb/
ton
­

controlled
367
32
7/
11/
97
tk­
3
41
8/
29/
94
dc­
1
41
5/
11/
94
dc­
1
41
8/
29/
94
dc­
2
41
5/
11/
94
dc­
2
41
5/
11/
94
tk­
1
41
8/
29/
94
tk­
1
46
5/
15/
97
tk­
1
47
8/
19/
97
tk­
2
48
6/
2/
95
tk­
1
0.0217
59.6
2.14
0.327
49
10/
17/
95
tk­
2
49
10/
19/
95
tk­
2
51
5/
14/
97
tk­
1
51
5/
14/
97
tk­
2
52
3/
9/
93
dc­
2
52
3/
9/
93
tk­
2
57
7/
27/
93
g­
1,
s­
1
57
7/
27/
93
tk­
1
58
10/
11/
83
tk­
1
58
7/
21/
82
tk­
2
59
4/
22/
86
tk­
2
60
10/
17/
90
tk­
2
60
10/
17/
90
tk­
3
65
3/
4/
96
tk­
2
0.0243
2.7
0.736
65
3/
4/
96
tk­
2
70
tk­
1
70
tk­
2
72
11/
29/
93
tk­
2
TABLE
30.
(
CONTINUED)

FACID
Test
Date
Source
ID
TF
­
gr/
dscf
­

uncontrolled
TF
­
gr/
dscf
­

controlled
TF
­
ppm
­
uncontrolled
TF
­
ppm
­

controlled
TF
­
lb/
hr
­
uncontrolled
TF
­
lb/
hr
­

controlled
TF
­
lb/
ton
­
uncontrolled
TF
­
lb/
ton
­

controlled
368
72
11/
29/
93
tk­
2
73
8/
27/
96
tk­
1
0.0058
0.7161
0.057
73
8/
27/
96
tk­
2
0.0035
0.4595
0.037
77
tk­
1
77
12/
2/
99
tk­
2
84
4/
22/
97
tk­
1
85
6/
3/
97
dc­
1
85
6/
3/
97
tk­
1
88
4/
22/
94
tk­
1
0.04045
111.3
6.67
101
12/
1/
94
ds­
1,
tk­
2,
tk­
3
101
12/
1/
94
tk­
2
101
12/
1/
94
tk­
3
111
7/
21/
89
tk­
1
111
7/
25/
85
tk­
1
111
3/
3/
92
tk­
1
112
11/
8/
93
cr­
3,
g­
3,
s­
3
112
5/
4/
94
pk­
12
to
pk­
17
5.69
0.767
112
5/
3/
94
tk­
2
4.64
1.606
112
5/
3/
94
tk­
2,
tk­
3
9.28
1.606
112
5/
3/
94
tk­
3
4.64
1.606
112
5/
2/
94
tk­
5
2.86
0.834
112
11/
8/
93
tk­
6
112
5/
2/
94
tk­
6
2.94
0.951
112
11/
8/
93
tk­
6
112
11/
8/
93
tk­
6
123
12/
5/
95
tk­
1
0.00344
0.438
0.137
127
10/
6/
92
dc­
1
0.000349
0.96
0.122
127
10/
8/
92
pk­
6
0.0414
113.93
2.316
2.325
TABLE
30.
(
CONTINUED)

FACID
Test
Date
Source
ID
TF
­
gr/
dscf
­

uncontrolled
TF
­
gr/
dscf
­

controlled
TF
­
ppm
­
uncontrolled
TF
­
ppm
­

controlled
TF
­
lb/
hr
­
uncontrolled
TF
­
lb/
hr
­

controlled
TF
­
lb/
ton
­
uncontrolled
TF
­
lb/
ton
­

controlled
369
128
6/
18/
91
dc­
1
0
0
0
0.000
128
6/
18/
91
tk­
1
0.000284
0.782
0.0764
0.004
129
10/
22/
97
dc­
1
0.00054
1.49
0.136
129
9/
6/
96
tk­
1
129
10/
22/
97
tk­
1
129
5/
29/
92
tk­
1
0.0186
51.23
2.95
130
5/
3/
94
tk­
2
2.26
0.897
131
2/
10/
93
tk­
1
0.048
132
4.78
0.372
131
2/
10/
93
tk­
1
131
2/
10/
93
tk­
1
133
11/
8/
95
tk­
3
133
11/
8/
95
tk­
3
133
11/
8/
95
tk­
3
133
9/
10/
91
tk­
3
133
9/
10/
91
tk­
2
133
9/
10/
91
tk­
2
0.002
0.16
0.016
133
9/
10/
91
tk­
3
0.019
7.64
0.404
135
4/
18/
97
tk­
2
0.0248
3.94
0.505
135
4/
18/
97
tk­
2
137
10/
27/
92
g­
1,
s­
1
137
10/
27/
92
tk­
1
137
10/
27/
92
tk­
1,
tk­
2,
ds­
1
137
10/
27/
92
tk­
2
137
10/
27/
92
tk­
3
137
10/
27/
92
tk­
3,
tk­
4
137
6/
8/
95
tk­
4
137
10/
27/
92
tk­
4
137
3/
3/
98
tk­
5
TABLE
30.
(
CONTINUED)

FACID
Test
Date
Source
ID
TF
­
gr/
dscf
­

uncontrolled
TF
­
gr/
dscf
­

controlled
TF
­
ppm
­
uncontrolled
TF
­
ppm
­

controlled
TF
­
lb/
hr
­
uncontrolled
TF
­
lb/
hr
­

controlled
TF
­
lb/
ton
­
uncontrolled
TF
­
lb/
ton
­

controlled
370
137
3/
6/
98
tk­
5
138
6/
1/
86
tk­
1
141
9/
16/
93
tk­
1
143
10/
12/
93
ca­
1
143
10/
12/
93
dc­
2
143
9/
3/
96
tk­
1
143
9/
3/
96
tk­
2
143
10/
12/
93
tk­
2
144
12/
13/
95
dc­
1
144
12/
13/
95
tk­
1
148
2/
5/
91
cta­
1,
mh­
2
148
2/
5/
91
g­
1,
s­
1
148
1/
5/
95
tk­
1
148
8/
22/
95
tk­
1
148
1/
24/
95
tk­
1
0.00192
0.278
0.025
148
1/
5/
95
tk­
1
0.03
0.0019
4.6
0.3
0.411
0.027
148
8/
31/
93
tk­
1
148
6/
10/
99
tk­
1
149
11/
12/
96
tk­
1
150
6/
8/
95
dc­
2
150
3/
29/
95
tk­
1
150
5/
27/
94
tk­
1
150
6/
7/
95
tk­
2
150
6/
7/
95
tk­
2
0.04857
0.0000874
5.6
0.012
0.509
0.001
151
6/
3/
97
dc­
1
151
6/
3/
97
dc­
1
151
6/
3/
97
misc­
1
151
6/
3/
97
tk­
1
TABLE
30.
(
CONTINUED)

FACID
Test
Date
Source
ID
TF
­
gr/
dscf
­

uncontrolled
TF
­
gr/
dscf
­

controlled
TF
­
ppm
­
uncontrolled
TF
­
ppm
­

controlled
TF
­
lb/
hr
­
uncontrolled
TF
­
lb/
hr
­

controlled
TF
­
lb/
ton
­
uncontrolled
TF
­
lb/
ton
­

controlled
371
151
6/
3/
97
tk­
1
151
6/
3/
97
wasteheat
stack
151
6/
3/
97
wasteheat
stack
152
4/
23/
98
tk­
1
154
10/
31/
95
tk­
1
0.174
0.000115
27.4
0.0169
2.071
0.001
154
12/
5/
94
tk­
2
0.00637
2.13
0.177
154
10/
28/
98
tk­
1
0.0702
0.000994
193
2.73
12.5
0.145
1.060
0.012
155
7/
2/
98
tk­
1
155
7/
10/
98
tk­
1
155
7/
2/
98
tk­
1
155
7/
10/
98
tk­
1
184
3/
30/
94
tk­
1
0.00805
0.86
0.330
184
3/
30/
94
tk­
2
0.00805
0.86
0.330
184
3/
30/
94
tk­
3
0.00805
0.86
0.277
184
4/
14/
94
tk­
1
184
4/
14/
94
tk­
2
184
4/
14/
94
tk­
3
184
11/
17/
93
tk­
3
184
11/
18/
93
tk­
3
184
8/
2/
95
tk­
1
184
8/
2/
95
tk­
2
184
8/
2/
95
tk­
3
372
TABLE
31.
TEST
DATA
SUMMARY,
PART
IV
FACID
Test
Date
Source
ID
HCl
­
ppm
­
uncontrolled
HCl
­
ppm
­

controlled
HCl
­
lb/
hr
­
uncontrolled
HCl
­
lb/
hr
­

controlled
HCl
­
lb/
ton
­

uncontrolled
HCl
­
lb/
ton
­

controlled
HCl
Test
Method
1
5/
21/
97
tk­
2
1
5/
21/
97
tk­
2
7
9/
10/
91
tk­
1
7
9/
10/
91
tk­
1
9
3/
4/
99
tk­
1,
tk­
2
0.056
0.002
26A
9
3/
4/
99
tk­
1
0.028
0.002
26A
9
3/
4/
99
tk­
2
0.028
0.002
26A
11
1/
23/
97
tk­
1
13
2/
15/
96
tk­
1
13
6/
29/
95
tk­
1
13
3/
1/
95
tk­
1
13
6/
29/
95
tk­
1,
tk­
2
13
6/
29/
95
tk­
1
13
2/
15/
96
tk­
1,
tk­
2
13
6/
29/
95
tk­
1,
tk­
2
13
3/
1/
95
tk­
1,
tk­
2
13
3/
1/
95
tk­
2
13
2/
15/
96
tk­
2
13
6/
29/
95
tk­
2
13
6/
29/
95
tk­
2
23
7/
6/
93
tk­
3
31
4/
22/
93
tk­
4
31
11/
19/
98
tk­
3,
tk­
4
31
11/
19/
98
tk­
3
31
11/
19/
98
tk­
4
31
3/
24/
99
tk­
3,
tk­
4
not
detected
not
detected
26A
31
3/
24/
99
tk­
3
not
detected
not
detected
26A
31
3/
24/
99
tk­
4
not
detected
not
detected
26A
32
3/
7/
97
tk­
1
32
7/
11/
97
tk­
3
TABLE
31.
(
CONTINUED)

FACID
Test
Date
Source
ID
HCl
­
ppm
­
uncontrolled
HCl
­
ppm
­

controlled
HCl
­
lb/
hr
­
uncontrolled
HCl
­
lb/
hr
­

controlled
HCl
­
lb/
ton
­

uncontrolled
HCl
­
lb/
ton
­

controlled
HCl
Test
Method
373
41
8/
29/
94
dc­
1
41
5/
11/
94
dc­
1
41
8/
29/
94
dc­
2
41
5/
11/
94
dc­
2
41
5/
11/
94
tk­
1
41
8/
29/
94
tk­
1
46
5/
15/
97
tk­
1
47
8/
19/
97
tk­
2
48
6/
2/
95
tk­
1
49
10/
17/
95
tk­
2
49
10/
19/
95
tk­
2
25.500
2.170
0.205
26A
51
5/
14/
97
tk­
1
5.610
0.327
0.041
26
51
5/
14/
97
tk­
2
5.230
0.450
0.046
26
52
3/
9/
93
dc­
2
52
3/
9/
93
tk­
2
57
7/
27/
93
g­
1,
s­
1
57
7/
27/
93
tk­
1
58
10/
11/
83
tk­
1
58
7/
21/
82
tk­
2
59
4/
22/
86
tk­
2
60
10/
17/
90
tk­
2
60
10/
17/
90
tk­
3
65
3/
4/
96
tk­
2
65
3/
4/
96
tk­
2
70
tk­
1
70
tk­
2
72
11/
29/
93
tk­
2
1.300
0.052
26A
72
11/
29/
93
tk­
2
73
8/
27/
96
tk­
1
73
8/
27/
96
tk­
2
TABLE
31.
(
CONTINUED)

FACID
Test
Date
Source
ID
HCl
­
ppm
­
uncontrolled
HCl
­
ppm
­

controlled
HCl
­
lb/
hr
­
uncontrolled
HCl
­
lb/
hr
­

controlled
HCl
­
lb/
ton
­

uncontrolled
HCl
­
lb/
ton
­

controlled
HCl
Test
Method
374
77
tk­
1
77
12/
2/
99
tk­
2
343.000
0.581
30.000
0.058
2.720
0.005
26A
84
4/
22/
97
tk­
1
85
6/
3/
97
dc­
1
85
6/
3/
97
tk­
1
88
4/
22/
94
tk­
1
101
12/
1/
94
ds­
1,
tk­
2,
tk­
3
101
12/
1/
94
tk­
2
101
12/
1/
94
tk­
3
111
7/
21/
89
tk­
1
111
7/
25/
85
tk­
1
111
3/
3/
92
tk­
1
112
11/
8/
93
cr­
3,
g­
3,
s­
3
112
5/
4/
94
pk­
12
to
pk­
17
83.000
12.050
1.624
26
112
5/
3/
94
tk­
2
2.270
0.785
26
112
5/
3/
94
tk­
2,
tk­
3
4.530
0.784
26
112
5/
3/
94
tk­
3
2.270
0.785
26
112
5/
2/
94
tk­
5
3.050
0.889
26
112
11/
8/
93
tk­
6
112
5/
2/
94
tk­
6
1.800
0.583
26
112
11/
8/
93
tk­
6
112
11/
8/
93
tk­
6
0.560
0.063
0.018
26A
123
12/
5/
95
tk­
1
127
10/
6/
92
dc­
1
127
10/
8/
92
pk­
6
128
6/
18/
91
dc­
1
128
6/
18/
91
tk­
1
129
10/
22/
97
dc­
1
0.170
0.028
26A
129
9/
6/
96
tk­
1
0.387
26A
129
10/
22/
97
tk­
1
15.600
1.570
26A
TABLE
31.
(
CONTINUED)

FACID
Test
Date
Source
ID
HCl
­
ppm
­
uncontrolled
HCl
­
ppm
­

controlled
HCl
­
lb/
hr
­
uncontrolled
HCl
­
lb/
hr
­

controlled
HCl
­
lb/
ton
­

uncontrolled
HCl
­
lb/
ton
­

controlled
HCl
Test
Method
375
129
5/
29/
92
tk­
1
130
5/
3/
94
tk­
2
2.040
0.810
26
131
2/
10/
93
tk­
1
131
2/
10/
93
tk­
1
131
2/
10/
93
tk­
1
18.400
1.250
0.097
26A
133
11/
8/
95
tk­
3
133
11/
8/
95
tk­
3
8.140
0.433
26
133
11/
8/
95
tk­
3
133
9/
10/
91
tk­
3
133
9/
10/
91
tk­
2
133
9/
10/
91
tk­
2
133
9/
10/
91
tk­
3
135
4/
18/
97
tk­
2
135
4/
18/
97
tk­
2
137
10/
27/
92
g­
1,
s­
1
137
10/
27/
92
tk­
1
137
10/
27/
92
tk­
1,
tk­
2,
ds­
1
137
10/
27/
92
tk­
2
137
10/
27/
92
tk­
3
137
10/
27/
92
tk­
3,
tk­
4
137
6/
8/
95
tk­
4
137
10/
27/
92
tk­
4
137
3/
3/
98
tk­
5
12.830
0.856
0.120
26A
137
3/
6/
98
tk­
5
10.270
0.663
0.071
26A
138
6/
1/
86
tk­
1
141
9/
16/
93
tk­
1
143
10/
12/
93
ca­
1
143
10/
12/
93
dc­
2
143
9/
3/
96
tk­
1
0.310
26A
143
9/
3/
96
tk­
2
0.530
26A
TABLE
31.
(
CONTINUED)

FACID
Test
Date
Source
ID
HCl
­
ppm
­
uncontrolled
HCl
­
ppm
­

controlled
HCl
­
lb/
hr
­
uncontrolled
HCl
­
lb/
hr
­

controlled
HCl
­
lb/
ton
­

uncontrolled
HCl
­
lb/
ton
­

controlled
HCl
Test
Method
376
143
10/
12/
93
tk­
2
144
12/
13/
95
dc­
1
0.800
0.093
0.009
26A
144
12/
13/
95
tk­
1
24.020
1.560
0.158
26A
148
2/
5/
91
cta­
1,
mh­
2
148
2/
5/
91
g­
1,
s­
1
148
1/
5/
95
tk­
1
148
8/
22/
95
tk­
1
36.500
20.400
4.510
2.540
0.403
0.227
26
148
1/
24/
95
tk­
1
148
1/
5/
95
tk­
1
48.300
37.700
4.900
4.000
0.438
0.358
26
148
8/
31/
93
tk­
1
2.850
0.261
26A
148
6/
10/
99
tk­
1
1.090
0.058
26A
149
11/
12/
96
tk­
1
5.090
0.400
0.032
26
150
6/
8/
95
dc­
2
150
3/
29/
95
tk­
1
150
5/
27/
94
tk­
1
150
6/
7/
95
tk­
2
150
6/
7/
95
tk­
2
151
6/
3/
97
dc­
1
0.000
0.000
0.000
26A
151
6/
3/
97
dc­
1
26A
151
6/
3/
97
misc­
1
0.000
0.000
0.000
26A
151
6/
3/
97
tk­
1
27.400
0.463
2.770
0.051
0.202
0.004
26A
151
6/
3/
97
tk­
1
151
6/
3/
97
wasteheat
stack
1.910
0.174
0.013
26A
151
6/
3/
97
wasteheat
stack
152
4/
23/
98
tk­
1
154
10/
31/
95
tk­
1
154
12/
5/
94
tk­
2
154
10/
28/
98
tk­
1
155
7/
2/
98
tk­
1
155
7/
10/
98
tk­
1
TABLE
31.
(
CONTINUED)

FACID
Test
Date
Source
ID
HCl
­
ppm
­
uncontrolled
HCl
­
ppm
­

controlled
HCl
­
lb/
hr
­
uncontrolled
HCl
­
lb/
hr
­

controlled
HCl
­
lb/
ton
­

uncontrolled
HCl
­
lb/
ton
­

controlled
HCl
Test
Method
377
155
7/
2/
98
tk­
1
7.400
0.000
0.708
0.000
0.067
0.000
26A
155
7/
10/
98
tk­
1
8.450
0.000
0.847
0.000
0.075
0.000
26A
184
3/
30/
94
tk­
1
184
3/
30/
94
tk­
2
184
3/
30/
94
tk­
3
184
4/
14/
94
tk­
1
184
4/
14/
94
tk­
2
184
4/
14/
94
tk­
3
184
11/
17/
93
tk­
3
184
11/
18/
93
tk­
3
184
8/
2/
95
tk­
1
0.114
26A
184
8/
2/
95
tk­
2
0.114
26A
184
8/
2/
95
tk­
3
0.114
26A
378
TABLE
32.
TEST
DATA
SUMMARY,
PART
V
FACID
Test
Date
Source
ID
SO2
­
ppm
­
uncontrolled
SO2
­
ppm
­

controlled
SO2
­
lb/
hr
­

uncontrolled
SO2
­
lb/
hr
­

controlled
SO2
­
lb/
ton
­

uncontrolled
SO2
­
lb/
ton
­

controlled
SO2
Test
Method
1
5/
21/
97
tk­
2
1
5/
21/
97
tk­
2
557
7.8
105.00
1.35
10.09
0.13
8
7
9/
10/
91
tk­
1
7
9/
10/
91
tk­
1
9
3/
4/
99
tk­
1,
tk­
2
9
3/
4/
99
tk­
1
9
3/
4/
99
tk­
2
11
1/
23/
97
tk­
1
13
2/
15/
96
tk­
1
13
6/
29/
95
tk­
1
46.6
10.45
1.00
6
13
3/
1/
95
tk­
1
13
6/
29/
95
tk­
1,
tk­
2
46.6
20.9
1.01
6
13
6/
29/
95
tk­
1
13
2/
15/
96
tk­
1,
tk­
2
13
6/
29/
95
tk­
1,
tk­
2
13
3/
1/
95
tk­
1,
tk­
2
13
3/
1/
95
tk­
2
13
2/
15/
96
tk­
2
13
6/
29/
95
tk­
2
46.6
10.45
1.00
6
13
6/
29/
95
tk­
2
23
7/
6/
93
tk­
3
31
4/
22/
93
tk­
4
31
11/
19/
98
tk­
3,
tk­
4
31
11/
19/
98
tk­
3
31
11/
19/
98
tk­
4
31
3/
24/
99
tk­
3,
tk­
4
31
3/
24/
99
tk­
3
31
3/
24/
99
tk­
4
32
3/
7/
97
tk­
1
32
7/
11/
97
tk­
3
TABLE
32.
(
CONTINUED)

FACID
Test
Date
Source
ID
SO2
­
ppm
­
uncontrolled
SO2
­
ppm
­

controlled
SO2
­
lb/
hr
­

uncontrolled
SO2
­
lb/
hr
­

controlled
SO2
­
lb/
ton
­

uncontrolled
SO2
­
lb/
ton
­

controlled
SO2
Test
Method
379
41
8/
29/
94
dc­
1
0
0.00
0.00
6
41
5/
11/
94
dc­
1
0
0.00
0.00
6
41
8/
29/
94
dc­
2
0.03
0.00
6
41
5/
11/
94
dc­
2
0
0.00
0.00
6
41
5/
11/
94
tk­
1
41.30
4.31
6
41
8/
29/
94
tk­
1
125.00
10.44
6
46
5/
15/
97
tk­
1
47
8/
19/
97
tk­
2
17
1.30
0.30
6C
48
6/
2/
95
tk­
1
49
10/
17/
95
tk­
2
4.43
0.66
0.06
6C
49
10/
19/
95
tk­
2
51
5/
14/
97
tk­
1
17.1
1.91
0.24
6
51
5/
14/
97
tk­
2
3.75
0.98
0.10
6
52
3/
9/
93
dc­
2
0
0.00
0.00
6C
52
3/
9/
93
tk­
2
98.76
98.76
12.93
12.93
1.21
1.21
6C
57
7/
27/
93
g­
1,
s­
1
57
7/
27/
93
tk­
1
58
10/
11/
83
tk­
1
58
7/
21/
82
tk­
2
59
4/
22/
86
tk­
2
60
10/
17/
90
tk­
2
60
10/
17/
90
tk­
3
65
3/
4/
96
tk­
2
65
3/
4/
96
tk­
2
70
tk­
1
15.00
7.5
?

70
tk­
2
19.70
14.2
?

72
11/
29/
93
tk­
2
72
11/
29/
93
tk­
2
13.51
0.54
6C
73
8/
27/
96
tk­
1
116
16.45
1.32
6C
73
8/
27/
96
tk­
2
136
20.60
1.65
6C
TABLE
32.
(
CONTINUED)

FACID
Test
Date
Source
ID
SO2
­
ppm
­
uncontrolled
SO2
­
ppm
­

controlled
SO2
­
lb/
hr
­

uncontrolled
SO2
­
lb/
hr
­

controlled
SO2
­
lb/
ton
­

uncontrolled
SO2
­
lb/
ton
­

controlled
SO2
Test
Method
380
77
tk­
1
77
12/
2/
99
tk­
2
266
0.186
40.90
0.0327
3.72
0.00
6C
84
4/
22/
97
tk­
1
85
6/
3/
97
dc­
1
85
6/
3/
97
tk­
1
88
4/
22/
94
tk­
1
101
12/
1/
94
ds­
1,
tk­
2,
tk­
3
101
12/
1/
94
tk­
2
101
12/
1/
94
tk­
3
111
7/
21/
89
tk­
1
24.2
3.71
0.34
6
111
7/
25/
85
tk­
1
34.5
5.76
0.49
6
111
3/
3/
92
tk­
1
17
2.71
0.35
6
112
11/
8/
93
cr­
3,
g­
3,
s­
3
112
5/
4/
94
pk­
12
to
pk­
17
23.47
3.16
6C
112
5/
3/
94
tk­
2
15.73
5.44
6C
112
5/
3/
94
tk­
2,
tk­
3
31.45
5.44
6C
112
5/
3/
94
tk­
3
15.73
5.44
6C
112
5/
2/
94
tk­
5
66.98
19.53
6C
112
11/
8/
93
tk­
6
52.9
10.50
3.02
6C
112
5/
2/
94
tk­
6
8.79
2.84
6C
112
11/
8/
93
tk­
6
112
11/
8/
93
tk­
6
123
12/
5/
95
tk­
1
3.01
0.45
0.14
6C
127
10/
6/
92
dc­
1
127
10/
8/
92
pk­
6
128
6/
18/
91
dc­
1
0.791
0.46
0.02
6
128
6/
18/
91
tk­
1
39.75
12.4
0.65
6
129
10/
22/
97
dc­
1
0.3
0.08
6C
129
9/
6/
96
tk­
1
129
10/
22/
97
tk­
1
51.3
9.03
6
TABLE
32.
(
CONTINUED)

FACID
Test
Date
Source
ID
SO2
­
ppm
­
uncontrolled
SO2
­
ppm
­

controlled
SO2
­
lb/
hr
­

uncontrolled
SO2
­
lb/
hr
­

controlled
SO2
­
lb/
ton
­

uncontrolled
SO2
­
lb/
ton
­

controlled
SO2
Test
Method
381
129
5/
29/
92
tk­
1
130
5/
3/
94
tk­
2
7.97
3.16
6C
131
2/
10/
93
tk­
1
131
2/
10/
93
tk­
1
23.66
2.93
0.23
8
131
2/
10/
93
tk­
1
133
11/
8/
95
tk­
3
19.54
1.04
6C
133
11/
8/
95
tk­
3
133
11/
8/
95
tk­
3
133
9/
10/
91
tk­
3
133
9/
10/
91
tk­
2
133
9/
10/
91
tk­
2
133
9/
10/
91
tk­
3
135
4/
18/
97
tk­
2
135
4/
18/
97
tk­
2
137
10/
27/
92
g­
1,
s­
1
137
10/
27/
92
tk­
1
137
10/
27/
92
tk­
1,
tk­
2,
ds­
1
137
10/
27/
92
tk­
2
137
10/
27/
92
tk­
3
137
10/
27/
92
tk­
3,
tk­
4
137
6/
8/
95
tk­
4
137
10/
27/
92
tk­
4
137
3/
3/
98
tk­
5
137
3/
6/
98
tk­
5
138
6/
1/
86
tk­
1
141
9/
16/
93
tk­
1
22.61
143
10/
12/
93
ca­
1
44.6
3.04
6C
143
10/
12/
93
dc­
2
5.51
2.76
6C
143
9/
3/
96
tk­
1
143
9/
3/
96
tk­
2
TABLE
32.
(
CONTINUED)

FACID
Test
Date
Source
ID
SO2
­
ppm
­
uncontrolled
SO2
­
ppm
­

controlled
SO2
­
lb/
hr
­

uncontrolled
SO2
­
lb/
hr
­

controlled
SO2
­
lb/
ton
­

uncontrolled
SO2
­
lb/
ton
­

controlled
SO2
Test
Method
382
143
10/
12/
93
tk­
2
45.3
8.40
6C
144
12/
13/
95
dc­
1
6.05
1.23
0.12
6C
144
12/
13/
95
tk­
1
76.12
8.69
0.88
6C
148
2/
5/
91
cta­
1,
mh­
2
148
2/
5/
91
g­
1,
s­
1
148
1/
5/
95
tk­
1
11.5
4.2
2.04
0.685
0.18
0.06
6
148
8/
22/
95
tk­
1
47
50.3
10.10
11
0.90
0.98
6C
148
1/
24/
95
tk­
1
148
1/
5/
95
tk­
1
11.5
2.04
0.18
6
148
8/
31/
93
tk­
1
7.09
0.65
8
148
6/
10/
99
tk­
1
28.8
6.12
0.33
6C
149
11/
12/
96
tk­
1
14.80
1.19
8
150
6/
8/
95
dc­
2
3
1.19
0.11
6C
150
3/
29/
95
tk­
1
355.9
48.7
4.25
6C
150
5/
27/
94
tk­
1
579
63.4
7.92
6C
150
6/
7/
95
tk­
2
150
6/
7/
95
tk­
2
635
492
75.78
67.45
6.89
6.13
6C
151
6/
3/
97
dc­
1
151
6/
3/
97
dc­
1
0.28
0.04
0.00
6
151
6/
3/
97
misc­
1
0.21
0.04
0.00
6
151
6/
3/
97
tk­
1
151
6/
3/
97
tk­
1
278
70.4
49.20
14
3.59
1.02
6
151
6/
3/
97
wasteheat
stack
151
6/
3/
97
wasteheat
stack
3.17
0.51
0.04
6
152
4/
23/
98
tk­
1
154
10/
31/
95
tk­
1
141
0.377
25.80
0.065
1.95
0.00
6C
154
12/
5/
94
tk­
2
176.47
30.4
68.80
11.8
5.71
0.98
6C
154
10/
28/
98
tk­
1
65.7
4.5
14.00
0.81
1.19
0.07
6C
155
7/
2/
98
tk­
1
179
49
29.10
9.08
2.75
0.86
8
155
7/
10/
98
tk­
1
172
33.6
30.40
6.37
2.70
0.57
8
TABLE
32.
(
CONTINUED)

FACID
Test
Date
Source
ID
SO2
­
ppm
­
uncontrolled
SO2
­
ppm
­

controlled
SO2
­
lb/
hr
­

uncontrolled
SO2
­
lb/
hr
­

controlled
SO2
­
lb/
ton
­

uncontrolled
SO2
­
lb/
ton
­

controlled
SO2
Test
Method
383
155
7/
2/
98
tk­
1
155
7/
10/
98
tk­
1
184
3/
30/
94
tk­
1
184
3/
30/
94
tk­
2
184
3/
30/
94
tk­
3
184
4/
14/
94
tk­
1
13.20
5.08
6C
184
4/
14/
94
tk­
2
13.20
5.08
6C
184
4/
14/
94
tk­
3
13.20
4.26
6C
184
11/
17/
93
tk­
3
24
1.99
0.72
6C
184
11/
18/
93
tk­
3
184
8/
2/
95
tk­
1
37.86
4.35
6C
184
8/
2/
95
tk­
2
37.86
4.35
6C
184
8/
2/
95
tk­
3
37.86
4.35
6C
384
TABLE
33.
TEST
DATA
SUMMARY,
PART
IV
FACID
Test
Date
Source
ID
PM
­
gr/
dscf
­

uncontrolled
PM
­
gr/
dscf
­

controlled
PM
­
lb/
hr
­
uncontrolled
PM
­
lb/
hr
­

controlled
PM
­
lb/
ton
­

uncontrolled
PM
­
lb/
ton
­

controlled
PM
Test
Method
1
5/
21/
97
tk­
2
0.061
0.001
9.740
0.121
0.936
0.012
5
1
5/
21/
97
tk­
2
0.061
0.000
9.870
0.035
0.948
0.003
5
7
9/
10/
91
tk­
1
7
9/
10/
91
tk­
1
0.020
2.630
5
9
3/
4/
99
tk­
1,
tk­
2
9
3/
4/
99
tk­
1
9
3/
4/
99
tk­
2
11
1/
23/
97
tk­
1
13
2/
15/
96
tk­
1
0.024
4.330
0.411
5
13
6/
29/
95
tk­
1
13
3/
1/
95
tk­
1
0.021
3.990
5
13
6/
29/
95
tk­
1,
tk­
2
13
6/
29/
95
tk­
1
0.018
3.280
0.315
5
13
2/
15/
96
tk­
1,
tk­
2
0.024
8.660
0.411
5
13
6/
29/
95
tk­
1,
tk­
2
0.018
6.550
0.315
5
13
3/
1/
95
tk­
1,
tk­
2
0.021
7.970
5
13
3/
1/
95
tk­
2
0.021
3.990
5
13
2/
15/
96
tk­
2
0.024
4.330
0.411
5
13
6/
29/
95
tk­
2
13
6/
29/
95
tk­
2
0.018
3.280
0.315
5
23
7/
6/
93
tk­
3
31
4/
22/
93
tk­
4
31
11/
19/
98
tk­
3,
tk­
4
31
11/
19/
98
tk­
3
31
11/
19/
98
tk­
4
31
3/
24/
99
tk­
3,
tk­
4
1.65
0.0732
5
31
3/
24/
99
tk­
3
0.8325
0.0732
5
31
3/
24/
99
tk­
4
0.8325
0.0732
5
32
3/
7/
97
tk­
1
0.005
0.434
0.056
5
32
7/
11/
97
tk­
3
0.004
0.440
0.050
5
TABLE
33.
(
CONTINUED)

FACID
Test
Date
Source
ID
PM
­
gr/
dscf
­

uncontrolled
PM
­
gr/
dscf
­

controlled
PM
­
lb/
hr
­
uncontrolled
PM
­
lb/
hr
­

controlled
PM
­
lb/
ton
­

uncontrolled
PM
­
lb/
ton
­

controlled
PM
Test
Method
385
41
8/
29/
94
dc­
1
0.003
0.419
0.070
5
41
5/
11/
94
dc­
1
0.005
0.663
0.138
5
41
8/
29/
94
dc­
2
0.002
0.240
0.040
5
41
5/
11/
94
dc­
2
0.002
0.339
0.071
5
41
5/
11/
94
tk­
1
0.038
4.250
0.444
5
41
8/
29/
94
tk­
1
0.106
15.800
1.320
5
46
5/
15/
97
tk­
1
47
8/
19/
97
tk­
2
48
6/
2/
95
tk­
1
49
10/
17/
95
tk­
2
0.003
0.370
0.035
5
49
10/
19/
95
tk­
2
51
5/
14/
97
tk­
1
51
5/
14/
97
tk­
2
52
3/
9/
93
dc­
2
52
3/
9/
93
tk­
2
57
7/
27/
93
g­
1,
s­
1
0.003
0.428
0.007
201A
57
7/
27/
93
tk­
1
0.125
4.670
0.697
29
58
10/
11/
83
tk­
1
0.071
4.810
0.897
5
58
7/
21/
82
tk­
2
0.002
0.397
0.043
5
59
4/
22/
86
tk­
2
0.055
10.600
0.860
5
60
10/
17/
90
tk­
2
0.197
0.048
0.021
5
60
10/
17/
90
tk­
3
0.124
7.140
0.763
5
65
3/
4/
96
tk­
2
65
3/
4/
96
tk­
2
70
tk­
1
9.100
5.200
70
tk­
2
1.500
0.004
72
11/
29/
93
tk­
2
72
11/
29/
93
tk­
2
24.090
0.965
5
73
8/
27/
96
tk­
1
0.045
5.585
0.447
5
73
8/
27/
96
tk­
2
0.050
6.580
0.527
5
TABLE
33.
(
CONTINUED)

FACID
Test
Date
Source
ID
PM
­
gr/
dscf
­

uncontrolled
PM
­
gr/
dscf
­

controlled
PM
­
lb/
hr
­
uncontrolled
PM
­
lb/
hr
­

controlled
PM
­
lb/
ton
­

uncontrolled
PM
­
lb/
ton
­

controlled
PM
Test
Method
386
77
tk­
1
77
12/
2/
99
tk­
2
0.004
0.541
0.049
5
84
4/
22/
97
tk­
1
85
6/
3/
97
dc­
1
0.027
6.220
0.750
5
85
6/
3/
97
tk­
1
0.128
5.720
0.690
5
88
4/
22/
94
tk­
1
101
12/
1/
94
ds­
1,
tk­
2,
tk­
3
101
12/
1/
94
tk­
2
101
12/
1/
94
tk­
3
111
7/
21/
89
tk­
1
0.023
3.030
0.281
5
111
7/
25/
85
tk­
1
0.028
4.090
0.348
5
111
3/
3/
92
tk­
1
0.018
2.500
0.319
5
112
11/
8/
93
cr­
3,
g­
3,
s­
3
2.090
0.001
365.000
0.220
8.548
0.005
201A
112
5/
4/
94
pk­
12
to
pk­
17
9.310
1.255
5
112
5/
3/
94
tk­
2
8.300
2.872
5
112
5/
3/
94
tk­
2,
tk­
3
16.590
2.870
5
112
5/
3/
94
tk­
3
8.300
2.872
5
112
5/
2/
94
tk­
5
10.430
3.041
5
112
11/
8/
93
tk­
6
0.006
1.100
0.316
201A
112
5/
2/
94
tk­
6
6.710
2.172
5
112
11/
8/
93
tk­
6
0.009
1.600
0.460
29
112
11/
8/
93
tk­
6
0.009
1.400
0.402
26A
(
mod.)

123
12/
5/
95
tk­
1
127
10/
6/
92
dc­
1
127
10/
8/
92
pk­
6
128
6/
18/
91
dc­
1
128
6/
18/
91
tk­
1
0.016
4.417
0.230
5
129
10/
22/
97
dc­
1
0.002
0.571
5
129
9/
6/
96
tk­
1
129
10/
22/
97
tk­
1
0.020
3.110
5
TABLE
33.
(
CONTINUED)

FACID
Test
Date
Source
ID
PM
­
gr/
dscf
­

uncontrolled
PM
­
gr/
dscf
­

controlled
PM
­
lb/
hr
­
uncontrolled
PM
­
lb/
hr
­

controlled
PM
­
lb/
ton
­

uncontrolled
PM
­
lb/
ton
­

controlled
PM
Test
Method
387
129
5/
29/
92
tk­
1
130
5/
3/
94
tk­
2
2.870
1.139
5
131
2/
10/
93
tk­
1
131
2/
10/
93
tk­
1
131
2/
10/
93
tk­
1
133
11/
8/
95
tk­
3
133
11/
8/
95
tk­
3
133
11/
8/
95
tk­
3
0.007
3.380
0.180
5
133
9/
10/
91
tk­
3
0.014
5.900
0.312
5
133
9/
10/
91
tk­
2
0.010
0.660
0.065
5
133
9/
10/
91
tk­
2
133
9/
10/
91
tk­
3
135
4/
18/
97
tk­
2
135
4/
18/
97
tk­
2
137
10/
27/
92
g­
1,
s­
1
0.011
5.100
0.024
201A
137
10/
27/
92
tk­
1
0.018
2.670
0.314
201A
137
10/
27/
92
tk­
1,
tk­
2,
ds­
1
0.018
5.340
0.314
201A
137
10/
27/
92
tk­
2
0.018
2.670
0.314
201A
137
10/
27/
92
tk­
3
0.020
2.550
0.300
5
137
10/
27/
92
tk­
3,
tk­
4
0.020
5.100
0.300
5
137
6/
8/
95
tk­
4
0.009
1.050
0.091
5
137
10/
27/
92
tk­
4
0.020
2.550
0.300
5
137
3/
3/
98
tk­
5
137
3/
6/
98
tk­
5
138
6/
1/
86
tk­
1
141
9/
16/
93
tk­
1
143
10/
12/
93
ca­
1
0.037
2.200
5
143
10/
12/
93
dc­
2
0.004
1.630
5
143
9/
3/
96
tk­
1
143
9/
3/
96
tk­
2
TABLE
33.
(
CONTINUED)

FACID
Test
Date
Source
ID
PM
­
gr/
dscf
­

uncontrolled
PM
­
gr/
dscf
­

controlled
PM
­
lb/
hr
­
uncontrolled
PM
­
lb/
hr
­

controlled
PM
­
lb/
ton
­

uncontrolled
PM
­
lb/
ton
­

controlled
PM
Test
Method
388
143
10/
12/
93
tk­
2
0.010
1.610
5
144
12/
13/
95
dc­
1
0.006
1.000
0.101
5
144
12/
13/
95
tk­
1
0.025
2.480
0.251
5
148
2/
5/
91
cta­
1,
mh­
2
0.002
0.030
0.003
5
148
2/
5/
91
g­
1,
s­
1
0.004
0.790
5
148
1/
5/
95
tk­
1
0.012
1.770
0.158
5
148
8/
22/
95
tk­
1
148
1/
24/
95
tk­
1
148
1/
5/
95
tk­
1
148
8/
31/
93
tk­
1
148
6/
10/
99
tk­
1
149
11/
12/
96
tk­
1
150
6/
8/
95
dc­
2
150
3/
29/
95
tk­
1
150
5/
27/
94
tk­
1
0.004
0.360
0.045
5B
150
6/
7/
95
tk­
2
0.001
0.070
0.006
5
150
6/
7/
95
tk­
2
151
6/
3/
97
dc­
1
151
6/
3/
97
dc­
1
0.002
0.180
0.013
5
151
6/
3/
97
misc­
1
0.002
0.382
0.028
5
151
6/
3/
97
tk­
1
151
6/
3/
97
tk­
1
0.073
0.006
11.000
1.050
0.804
0.077
5
151
6/
3/
97
wasteheat
stack
151
6/
3/
97
wasteheat
stack
0.004
0.488
0.036
5
152
4/
23/
98
tk­
1
154
10/
31/
95
tk­
1
0.009
0.011
1.430
1.590
0.108
0.120
5
154
12/
5/
94
tk­
2
0.025
8.420
0.699
5
154
10/
28/
98
tk­
1
155
7/
2/
98
tk­
1
155
7/
10/
98
tk­
1
TABLE
33.
(
CONTINUED)

FACID
Test
Date
Source
ID
PM
­
gr/
dscf
­

uncontrolled
PM
­
gr/
dscf
­

controlled
PM
­
lb/
hr
­
uncontrolled
PM
­
lb/
hr
­

controlled
PM
­
lb/
ton
­

uncontrolled
PM
­
lb/
ton
­

controlled
PM
Test
Method
389
155
7/
2/
98
tk­
1
0.004
0.002
0.544
0.399
0.051
0.038
5
155
7/
10/
98
tk­
1
0.010
0.004
1.490
0.621
0.132
0.055
5
184
3/
30/
94
tk­
1
0.031
3.290
1.270
5
184
3/
30/
94
tk­
2
0.031
3.290
1.270
5
184
3/
30/
94
tk­
3
0.031
3.290
1.060
5
184
4/
14/
94
tk­
1
184
4/
14/
94
tk­
2
184
4/
14/
94
tk­
3
184
11/
17/
93
tk­
3
184
11/
18/
93
tk­
3
0.014
0.844
0.305
5
184
8/
2/
95
tk­
1
0.003
3.133
5
184
8/
2/
95
tk­
2
0.003
3.133
5
184
8/
2/
95
tk­
3
0.003
3.133
5
390
TABLE
34:
TEST
DATA
SUMMARY,
PART
VII
FACID
Test
Date
Source
ID
Complete
report
(
yes/
no)?
Stack
height
Stack
area
Stack
diameter
Operating
temperature
Fuel
Heat
input
Production
rate
(
tph)
Comments
1
5/
21/
97
tk­
2
YES
60
10.6
3.67
1880
coal/
natural
gas
26.1
13.1
1
5/
21/
97
tk­
2
YES
60
10.6
3.67
1880
coal/
natural
gas
26.1
13.1
7
9/
10/
91
tk­
1
NO
30
9
3.39
2050
natural
gas
25.9
9
Summary;
no
production
rate
provided
7
9/
10/
91
tk­
1
NO
30
9
3.39
2050
natural
gas
25.9
9
Summary;
no
production
rate
provided
9
3/
4/
99
tk­
1,
tk­
2
YES
77
19.63
5.00
2050
natural
gas
18
2
kilns;
do
not
use;
use
data
presented
by
kiln
in
this
table
9
3/
4/
99
tk­
1
YES
77
19.63
5.00
2050
natural
gas
9
Data
from
test
on
2
kilns
(
at
outlet
of
DLA
that
controls
both
kilns),
divided
by
2
where
appropriate
9
3/
4/
99
tk­
2
YES
77
19.63
5.00
2050
natural
gas
9
Data
from
test
on
2
kilns
(
at
outlet
of
DLA
that
controls
both
kilns),
divided
by
2
where
appropriate
11
1/
23/
97
tk­
1
NO
41.5
21.01
5.17
2030
natural
gas
29.4
10.7
Summary
13
2/
15/
96
tk­
1
YES
97
27.8
5.95
2150
natural
gas
24.5
8.9
Data
from
test
on
2
kilns,
divided
by
2
where
appropriate;
inlet
emissions
calculated
using
outlet
flow
rates
13
6/
29/
95
tk­
1
YES
97
27.8
5.95
2150
natural
gas
24.5
8.9
Data
from
test
on
2
kilns,
divided
by
2
where
appropriate
13
3/
1/
95
tk­
1
NO
97
27.8
5.95
2150
natural
gas
24.5
8.9
Summary;
2
test
runs;
no
production
rate;

data
from
test
on
2
kilns,
divided
by
2
where
appropriate
13
6/
29/
95
tk­
1,
tk­
2
YES
2
kilns;
do
not
use
13
6/
29/
95
tk­
1
YES
97
27.8
5.95
2150
natural
gas
24.5
8.9
Data
from
test
on
2
kilns,
divided
by
2
where
appropriate
13
2/
15/
96
tk­
1,
tk­
2
YES
Inlet
emissions
calculated
using
outlet
flow
rates;
2
kilns;
do
not
use
13
6/
29/
95
tk­
1,
tk­
2
YES
2
kilns;
do
not
use
13
3/
1/
95
tk­
1,
tk­
2
NO
Summary;
2
test
runs;
no
production
rate;

2
kilns;
do
not
use
13
3/
1/
95
tk­
2
NO
97
27.8
5.95
2150
natural
gas
24.5
8.9
Summary;
2
test
runs;
no
production
rate;

data
from
test
on
2
kilns,
divided
by
2
where
appropriate
TABLE
34.
(
CONTINUED)

FACID
Test
Date
Source
ID
Complete
report
(
yes/
no)?
Stack
height
Stack
area
Stack
diameter
Operating
temperature
Fuel
Heat
input
Production
rate
(
tph)
Comments
391
13
2/
15/
96
tk­
2
YES
97
27.8
5.95
2150
natural
gas
24.5
8.9
Data
from
test
on
2
kilns,
divided
by
2
where
appropriate;
inlet
emissions
calculated
using
outlet
flow
rates
13
6/
29/
95
tk­
2
YES
97
27.8
5.95
2150
natural
gas
24.5
8.9
Data
from
test
on
2
kilns,
divided
by
2
where
appropriate
13
6/
29/
95
tk­
2
YES
97
27.8
5.95
2150
natural
gas
24.5
8.9
Data
from
test
on
2
kilns,
divided
by
2
where
appropriate
23
7/
6/
93
tk­
3
NO
40
7
2.99
2200
natural
gas
13.5
3.41
Summary
31
4/
22/
93
tk­
4
YES
1900
natural
gas
9.5
31
11/
19/
98
tk­
3,
tk­
4
YES
2
kilns;
do
not
use;
use
data
presented
by
kiln
in
this
table
31
11/
19/
98
tk­
3
YES
Data
from
test
on
2
kilns
(
at
outlet
of
DLA
that
controls
both
kilns),
divided
by
2
where
appropriate
31
11/
19/
98
tk­
4
YES
Data
from
test
on
2
kilns
(
at
outlet
of
DLA
that
controls
both
kilns),
divided
by
2
where
appropriate
31
3/
24/
99
tk­
3,
tk­
4
YES
2
kilns;
do
not
use;
use
data
presented
by
kiln
in
this
table
31
3/
24/
99
tk­
3
YES
Data
from
test
on
2
kilns,
divided
by
2
where
appropriate;
HCl
not
detected
at
inlet
or
outlet
of
DLA
31
3/
24/
99
tk­
4
YES
Data
from
test
on
2
kilns,
divided
by
2
where
appropriate;
HCl
not
detected
at
inlet
or
outlet
of
DLA
32
3/
7/
97
tk­
1
YES
1900
natural
gas
4.63
32
7/
11/
97
tk­
3
YES
1900
natural
gas
5.4
M26A
run
by
run
data
are
missing
from
report
41
8/
29/
94
dc­
1
YES
340
waste
heat/
natural
gas
1.48
5.97
SO2
not
detected
during
any
test
run
TABLE
34.
(
CONTINUED)

FACID
Test
Date
Source
ID
Complete
report
(
yes/
no)?
Stack
height
Stack
area
Stack
diameter
Operating
temperature
Fuel
Heat
input
Production
rate
(
tph)
Comments
392
41
5/
11/
94
dc­
1
YES
340
waste
heat/
natural
gas
1.48
5.97
SO2
not
detected
during
any
test
run
41
8/
29/
94
dc­
2
YES
340
waste
heat/
natural
gas
1.48
5.98
SO2
detected
in
only
1
of
3
test
runs
41
5/
11/
94
dc­
2
YES
340
waste
heat/
natural
gas
1.48
5.98
SO2
not
detected
during
any
test
run
41
5/
11/
94
tk­
1
YES
40
11.67
3.85
1930
natural
gas
20.2
11.95
SO2
Conc.
0.374
gr/
dscf
41
8/
29/
94
tk­
1
YES
40
11.67
3.85
1930
natural
gas
20.2
11.95
SO2
Conc.
0.839
gr/
dscf
46
5/
15/
97
tk­
1
YES
46.5
10.5
3.66
2000
sawdust
8.55
Includes
2
stacks,
one
following
a
sawdust
dryer
heated
w/
kiln
exhaust;

parameters
adjusted
based
on
flow
from
DS
and
TK
stacks
where
appropriate
(
moist.,
gr/
dscf,
temp)

47
8/
19/
97
tk­
2
NO
30
4
2.26
2080
natural
gas
2.31
Most
of
report
without
Appendices
48
6/
2/
95
tk­
1
YES
28
7.07
3.00
2000
natural
gas
16
7.82
Total
fluorides
and
HF
reported,
but
data
are
the
same
(
different
molecular
wt
used
to
calc.
HF)

49
10/
17/
95
tk­
2
YES
57.5
2000
natural
gas
21.4
10.64
Also
includes
metals
and
TOC
data
49
10/
19/
95
tk­
2
YES
57.5
2000
natural
gas
21.4
10.64
Assumed
process
rate
equal
to
10/
17/
95
test 
likely
to
be
a
good
assumption
51
5/
14/
97
tk­
1
YES
28.5
10.6
3.67
2050
natural
gas
20
6.63
Woodmold
kiln
51
5/
14/
97
tk­
2
YES
37.5
10.03
3.57
2050
natural
gas
27
10.08
52
3/
9/
93
dc­
2
YES
19.64
350
waste
heat
8.82
Single
1.5­
hour
test
run
52
3/
9/
93
tk­
2
YES
44
4.3
2.34
2000
coal/
natural
gas
18.9
8.82
Single
1.5­
hour
test
run;
measurements
at
baghouse
outlet,
considered
to
represent
uncontrolled
emissions
57
7/
27/
93
g­
1,
s­
1
YES
EPA
test.

57
7/
27/
93
tk­
1
YES
27
4.2
2.31
1890
coal/
natural
gas
13.5
5.8
EPA
test.
TABLE
34.
(
CONTINUED)

FACID
Test
Date
Source
ID
Complete
report
(
yes/
no)?
Stack
height
Stack
area
Stack
diameter
Operating
temperature
Fuel
Heat
input
Production
rate
(
tph)
Comments
393
58
10/
11/
83
tk­
1
YES
32
5.7
2.69
2000
natural
gas
14.1
6.3
58
7/
21/
82
tk­
2
YES
58
7.1
3.01
1940
coal/
natural
gas
22
12.5
59
4/
22/
86
tk­
2
YES
35
7.1
3.01
1860
coal/
natural
gas
22
11.5
60
10/
17/
90
tk­
2
YES
30
6.5
2.88
2000
coal/
natural
gas
6.4
2.74
60
10/
17/
90
tk­
3
YES
36
7.1
3.01
2000
coal/
natural
gas
24.2
11.18
65
3/
4/
96
tk­
2
YES
51
9.1
3.40
2000
natural
gas
13.9
3.42
Called
plant
for
production
rate;
total
fluorides
65
3/
4/
96
tk­
2
YES
51
9.1
3.40
2000
natural
gas
13.9
3.42
Called
plant
for
production
rate
70
tk­
1
NO
1900
natural
gas
7.7
Summary;
incomplete;
inlet
and
outlet
tests
during
different
years;
do
not
use
70
tk­
2
NO
1900
natural
gas
7.7
Summary;
incomplete;
inlet
and
outlet
tests
during
different
years;
do
not
use
72
11/
29/
93
tk­
2
NO
32
18
4.79
2015
sawdust/
natura
l
gas
40
8.48
Summary;
2
kiln
stacks
and
1
sawdust
dryer
stack
72
11/
29/
93
tk­
2
NO
32
18
4.79
2015
sawdust/
natura
l
gas
40
8.48
Summary;
2
kiln
stacks
and
1
sawdust
dryer
stack
73
8/
27/
96
tk­
1
YES
45
10.8
3.71
1980
natural
gas
29.1
11.56
Very
low
fluorides
73
8/
27/
96
tk­
2
YES
45
10.8
3.71
1980
natural
gas
29.1
11.56
Very
low
fluorides
77
tk­
1
NO
1900
natural
gas
5.5
Summary;
almost
no
information
provided;
do
not
use
77
12/
2/
99
tk­
2
YES
natural
gas
11
Process
rate
provided
by
Frank
DeVooght,
TNRCC,
who
indicated
that
kiln
was
operating
at
about
90%
capacity
during
the
test
84
4/
22/
97
tk­
1
NO
35
9
3.39
1980
coal/
natural
gas
23
8.79
Summary;
no
production
rate
provided
85
6/
3/
97
dc­
1
YES
12.25
300
Waste
heat
8.7
Dryer
is
heated
with
kiln
exhaust
and
waste
heat;
do
not
use
TABLE
34.
(
CONTINUED)

FACID
Test
Date
Source
ID
Complete
report
(
yes/
no)?
Stack
height
Stack
area
Stack
diameter
Operating
temperature
Fuel
Heat
input
Production
rate
(
tph)
Comments
394
85
6/
3/
97
tk­
1
YES
50
9.8
3.53
1890
coal/
natural
gas
13.5
8.7
Appears
that
some
kiln
exhaust
exits
through
the
dryer
stack,
which
also
showed
HF
emissions
88
4/
22/
94
tk­
1
NO
7.54
2000
Natural
gas
17.8
5.9
Summary;
no
production
rate
provided
101
12/
1/
94
ds­
1,
tk­
2,
tk­

3
YES
2
kilns;
do
not
use;
use
data
presented
by
kiln
in
this
table
101
12/
1/
94
tk­
2
YES
65
4.91
2.50
2000
Sawdust
20.3
10.63
Data
from
test
on
2
kilns
(
at
sawdust
dryer
outlet
stack),
divided
by
2
where
appropriate
101
12/
1/
94
tk­
3
YES
65
4.91
2.50
2000
Sawdust
20.3
10.63
Data
from
test
on
2
kilns
(
at
sawdust
dryer
outlet
stack),
divided
by
2
where
appropriate
111
7/
21/
89
tk­
1
NO
60
13.44
4.14
2000
Natural
gas
8.73
Summary
111
7/
25/
85
tk­
1
NO
60
13.44
4.14
2000
Natural
gas
8.73
Summary
111
3/
3/
92
tk­
1
NO
60
13.44
4.14
2000
Natural
gas
8.73
Summary
112
11/
8/
93
cr­
3,
g­
3,
s­
3
YES
Raw
material
moisture
content
of
3.93%

112
5/
4/
94
pk­
12
to
pk­
17
NO
Emission
survey;
single
1
hour
run
during
168
hour
burn
cycle;
do
not
use
112
5/
3/
94
tk­
2
NO
2000
Natural
gas
5.74
Data
from
test
on
2
kilns,
divided
by
2
where
appropriate;
emission
survey;

single
run;
do
not
use
112
5/
3/
94
tk­
2,
tk­
3
NO
2
kilns;
do
not
use;
emission
survey;

single
run;
do
not
use
112
5/
3/
94
tk­
3
NO
2000
Natural
gas
5.74
Data
from
test
on
2
kilns,
divided
by
2
where
appropriate;
emission
survey;

single
run;
do
not
use
112
5/
2/
94
tk­
5
NO
47
15.11
4.39
2000
Natural
gas
3.08
Emission
survey;
single
run;
do
not
use
112
11/
8/
93
tk­
6
YES
28
32.11
6.39
2000
Natural
gas
3.08
112
5/
2/
94
tk­
6
NO
28
32.11
6.39
2000
Natural
gas
3.08
Emission
survey;
single
run;
do
not
use
112
11/
8/
93
tk­
6
YES
28
32.11
6.39
2000
Natural
gas
3.08
112
11/
8/
93
tk­
6
YES
28
32.11
6.39
2000
Natural
gas
3.08
HCl
conc.
=
0.000371
gr/
dscf;
350
deg.
F
filter
temp.
for
PM
TABLE
34.
(
CONTINUED)

FACID
Test
Date
Source
ID
Complete
report
(
yes/
no)?
Stack
height
Stack
area
Stack
diameter
Operating
temperature
Fuel
Heat
input
Production
rate
(
tph)
Comments
395
123
12/
5/
95
tk­
1
YES
2000
Natural
gas
8.6
1.6
Clay
pipe
plant;
test
on
PK
not
used­­
no
detail
provided;
called
plant
for
TK­
1
prod.
Rate
127
10/
6/
92
dc­
1
NO
300
waste
heat/
natural
gas
6
2
stacks
tested.
Parameters
adjusted
based
on
%
of
flow
through
each
stack;
single
run;
do
not
use
127
10/
8/
92
pk­
6
NO
2100
Natural
gas
0.996
Summary;
prod.
rate
estimated
on
cont.

basis;
single
run;
do
not
use
128
6/
18/
91
dc­
1
YES
65
19.6
5.00
300
Waste
heat
15.875
128
6/
18/
91
tk­
1
YES
72
12
3.91
2100
Natural
gas
31.75
129
10/
22/
97
dc­
1
NO
300
Waste
heat
5.6
Summary;
no
production
rate
provided
129
9/
6/
96
tk­
1
NO
2100
Natural
gas
11.3
Summary;
no
production
rate
provided
129
10/
22/
97
tk­
1
NO
2100
Natural
gas
11.3
Summary;
no
production
rate
provided
129
5/
29/
92
tk­
1
NO
2100
Natural
gas
11.3
Summary;
no
production
rate
provided
130
5/
3/
94
tk­
2
NO
18
11.08
3.76
2000
Natural
gas
1.8
Emission
survey;
single
run;
do
not
use
131
2/
10/
93
tk­
1
NO
31
8.3
3.25
2048
natural
gas/
propane
14.7
7.2
Summary
131
2/
10/
93
tk­
1
NO
31
8.3
3.25
2048
natural
gas/
propane
14.7
7.2
Summary
131
2/
10/
93
tk­
1
NO
31
8.3
3.25
2048
natural
gas/
propane
14.7
7.2
Summary
133
11/
8/
95
tk­
3
NO
46
28.27
6.00
2005
sawdust/
natura
l
gas
51.2
19.5
Summary;
SO2
conc.
2.55
mg/
dscf
133
11/
8/
95
tk­
3
NO
46
28.27
6.00
2005
sawdust/
natura
l
gas
51.2
19.5
Summary
133
11/
8/
95
tk­
3
NO
46
28.27
6.00
2005
sawdust/
natura
l
gas
51.2
19.5
Summary
133
9/
10/
91
tk­
3
NO
46
28.27
6.00
2005
sawdust/
natura
l
gas
51.2
19.5
Summary
133
9/
10/
91
tk­
2
NO
45
2060
Natural
gas
37
9.3
Summary;
one
of
two
stacks;
do
not
use
133
9/
10/
91
tk­
2
NO
45
2060
Natural
gas
37
9.3
Summary;
one
of
two
stacks;
do
not
use
TABLE
34.
(
CONTINUED)

FACID
Test
Date
Source
ID
Complete
report
(
yes/
no)?
Stack
height
Stack
area
Stack
diameter
Operating
temperature
Fuel
Heat
input
Production
rate
(
tph)
Comments
396
133
9/
10/
91
tk­
3
NO
46
28.27
6.00
2005
sawdust/
natura
l
gas
51.2
19.5
Summary
135
4/
18/
97
tk­
2
YES
45
7.07
3.00
2040
Natural
gas
20
7.5
Total
fluorides;
parameters
(
moisture,

gr/
dscf,
temp,
O2%)
are
adjusted
by
relative
ACFM
from
two
stacks
tested
135
4/
18/
97
tk­
2
YES
45
7.07
3.00
2040
Natural
gas
20
7.5
Parameters
(
moisture,
gr/
dscf,
temp,

O2%)
are
adjusted
by
relative
ACFM
from
two
stacks
tested;
can
compare
to
M13B
test
on
same
stacks
137
10/
27/
92
g­
1,
s­
1
YES
EPA
test.
Raw
material
moisture­­
14%

137
10/
27/
92
tk­
1
YES
71
6.2
2.81
1975
Sawdust
17.15
7.2
Data
from
test
on
2
kilns,
divided
by
2
where
appropriate;
test
actually
conducted
on
tk­
3
and
tk­
4
when
they
were
sawdust­
fired
kilns
137
10/
27/
92
tk­
1,
tk­
2,
ds­

1
YES
Exhaust
from
sawdust
dryer
heated
w/
kiln
exhaust
from
2
kilns;
do
not
use;
test
actually
conducted
on
tk­
3
and
tk­
4
when
they
were
sawdust­
fired
kilns
137
10/
27/
92
tk­
2
YES
71
6.2
2.81
1975
Sawdust
16.49
7.2
Data
from
test
on
2
kilns,
divided
by
2
where
appropriate;
test
actually
conducted
on
tk­
3
and
tk­
4
when
they
were
sawdust­
fired
kilns
137
10/
27/
92
tk­
3
YES
110
12.05
3.92
1975
Sawdust
22.4
8.95
Data
from
test
on
2
kilns,
divided
by
2
where
appropriate;
kilns
fired
with
sawdust
during
test,
but
are
now
gas­
fired
137
10/
27/
92
tk­
3,
tk­
4
YES
2
kilns
fired
with
sawdust;
kilns
are
now
gas­
fired;
2
kilns;
do
not
use
137
6/
8/
95
tk­
4
YES
110
12.05
3.92
1975
Natural
gas
19.54
8.95
Also
tested
brick
w/
2%
lime
addition­­
but
bricks
failed
quality
specs.

137
10/
27/
92
tk­
4
YES
110
12.05
3.92
1975
Sawdust
19.54
8.95
Data
from
test
on
2
kilns,
divided
by
2
where
appropriate;
kilns
fired
with
sawdust
during
test,
but
are
now
gas­
fired
TABLE
34.
(
CONTINUED)

FACID
Test
Date
Source
ID
Complete
report
(
yes/
no)?
Stack
height
Stack
area
Stack
diameter
Operating
temperature
Fuel
Heat
input
Production
rate
(
tph)
Comments
397
137
3/
3/
98
tk­
5
YES
30
9.62
3.50
2030
Natural
gas
20.7
9.4
Pink
pavers;
Low­
profile,
fast­
fire
kiln;

(
HF
emissions
are
comparable
to
conventional
tunnel
kilns)

137
3/
6/
98
tk­
5
YES
30
9.62
3.50
2030
Natural
gas
20.7
9.4
Red
pavers;
low­
profile,
fast­
fire
kiln;

(
HF
emissions
are
comparable
to
conventional
tunnel
kilns)

138
6/
1/
86
tk­
1
NO
90
4.9
2.50
2140
Natural
gas
14.5
7.6
Summary;
test
method
not
specified
141
9/
16/
93
tk­
1
NO
40
8.5
3.29
2060
Natural
gas
3
4
Summary
143
10/
12/
93
ca­
1
NO
Natural
gas
Summary;
no
production
rate
provided
143
10/
12/
93
dc­
2
NO
Waste
heat
9.6
Summary;
no
production
rate
provided
143
9/
3/
96
tk­
1
NO
2100
Natural
gas
9.6
Summary;
no
production
rate
provided
143
9/
3/
96
tk­
2
NO
2100
Natural
gas
9.6
Summary;
no
production
rate
provided
143
10/
12/
93
tk­
2
NO
2100
Natural
gas
9.6
Summary;
no
production
rate
provided
144
12/
13/
95
dc­
1
YES
23
12
3.91
450
Waste
heat
6.51
Data
indicate
that
some
kiln
gases
are
emitted
through
the
dryer
stack
144
12/
13/
95
tk­
1
YES
25
4.83
2.48
2000
Natural
gas
16.3
6.51
Dryer
test
indicates
that
some
kiln
gases
are
emitted
through
the
dryer
stack
148
2/
5/
91
cta­
1,
mh­
2
YES
TK­
1
data
from
this
report
are
not
used
because
kiln
car
collapsed.

148
2/
5/
91
g­
1,
s­
1
YES
148
1/
5/
95
tk­
1
YES
80
12.05
3.92
2100
Natural
gas
25
10.53
148
8/
22/
95
tk­
1
YES
80
12.05
3.92
2100
Natural
gas
25
10.53
Production
rate
from
1/
5/
95
test
148
1/
24/
95
tk­
1
YES
80
Natural
gas
10.53
Production
rate
from
1/
5/
95
test
148
1/
5/
95
tk­
1
YES
80
12.05
3.92
2100
Natural
gas
25
10.53
148
8/
31/
93
tk­
1
NO
80
12.05
3.92
2100
Natural
gas
25
10.53
Clemson
summary
data
148
6/
10/
99
tk­
1
YES
80
12.05
3.92
2100
Natural
gas
25
10.53
149
11/
12/
96
tk­
1
YES
43
8.7
3.33
2000
Natural
gas
23.51
11.84
150
6/
8/
95
dc­
2
YES
675
Waste
heat
8.33
150
3/
29/
95
tk­
1
YES
60
8.3
3.25
1960
Natural
gas
20.8
8.33
150
5/
27/
94
tk­
1
YES
60
8.3
3.25
1960
Natural
gas
20.8
8.33
150
6/
7/
95
tk­
2
YES
60
8.3
3.25
1960
Natural
gas
20.3
8.33
TABLE
34.
(
CONTINUED)

FACID
Test
Date
Source
ID
Complete
report
(
yes/
no)?
Stack
height
Stack
area
Stack
diameter
Operating
temperature
Fuel
Heat
input
Production
rate
(
tph)
Comments
398
150
6/
7/
95
tk­
2
YES
60
8.3
3.25
1960
Natural
gas
20.3
8.33
SO2
removal
efficiency
very
low
151
6/
3/
97
dc­
1
YES
37
7
2.99
300
Waste
heat
13.69
HCl
not
detected;
production
rate
from
ICR
151
6/
3/
97
dc­
1
YES
37
7
2.99
300
Waste
heat
13.69
Production
rate
from
ICR
151
6/
3/
97
misc­
1
YES
41
7
150.00
Waste
heat
13.69
HF
and
HCl
not
detected;
Production
rate
from
ICR
151
6/
3/
97
tk­
1
YES
86
14
4.22
2100
Natural
gas
13.69
HF
not
detected
at
DIFF
outlet
151
6/
3/
97
tk­
1
YES
86
14
4.22
2100
Natural
gas
13.69
Production
rate
from
ICR
151
6/
3/
97
wasteheat
stack
YES
Not
an
emission
pt­­
heat
source
for
DC­
1.

151
6/
3/
97
wasteheat
stack
YES
Not
an
emission
pt­­
heat
source
for
DC­
1.

152
4/
23/
98
tk­
1
YES
20
4.83
2.48
2200
Natural
gas
3
154
10/
31/
95
tk­
1
YES
55
16
4.51
2100
Natural
gas
23.4
7.1
154
12/
5/
94
tk­
2
YES
80
100
11.28
2100
Natural
gas
43.6
13.3
Scrubber
no
longer
operating.
Inlet
data
based
on
outlet
flows
and
inlet
concentrations.

154
10/
28/
98
tk­
1
YES
55
16
4.51
2100
Natural
gas
23.4
7.1
155
7/
2/
98
tk­
1
YES
49.4000
02
12.6
4.01
2150
Natural
gas
20
9.05
Production
rate
from
ICR;
plant
contacted
for
actual
rate
155
7/
10/
98
tk­
1
YES
49.4000
02
12.6
4.01
2150
Natural
gas
20
9.05
Production
rate
from
ICR;
plant
contacted
for
actual
rate
155
7/
2/
98
tk­
1
YES
49.4000
02
12.6
4.01
2150
Natural
gas
20
9.05
Production
rate
from
ICR;
plant
contacted
for
actual
rate;
HF
and
HCl
not
detected
at
DIFF
outlet
155
7/
10/
98
tk­
1
YES
49.4000
02
12.6
4.01
2150
Natural
gas
20
9.05
Production
rate
from
ICR;
plant
contacted
for
actual
rate;
HF
and
HCl
not
detected
at
DIFF
outlet
184
3/
30/
94
tk­
1
NO
19.63
2100
Natural
gas
11.2
2.69
Data
on
test
for
3
kilns;
divided
by
3
where
appropriate.

184
3/
30/
94
tk­
2
NO
19.63
2100
Natural
gas
11.2
2.69
Data
on
test
for
3
kilns;
divided
by
3
where
appropriate.
TABLE
34.
(
CONTINUED)

FACID
Test
Date
Source
ID
Complete
report
(
yes/
no)?
Stack
height
Stack
area
Stack
diameter
Operating
temperature
Fuel
Heat
input
Production
rate
(
tph)
Comments
399
184
3/
30/
94
tk­
3
NO
19.63
2100
Natural
gas
11.2
2.69
Data
on
test
for
3
kilns;
divided
by
3
where
appropriate.

184
4/
14/
94
tk­
1
NO
19.63
2100
Natural
gas
11.2
2.69
Data
on
test
for
3
kilns;
divided
by
3
where
appropriate.

184
4/
14/
94
tk­
2
NO
19.63
2100
Natural
gas
11.2
2.69
Data
on
test
for
3
kilns;
divided
by
3
where
appropriate.

184
4/
14/
94
tk­
3
NO
19.63
2100
Natural
gas
11.2
2.69
Data
on
test
for
3
kilns;
divided
by
3
where
appropriate.

184
11/
17/
93
tk­
3
NO
19.63
2100
Natural
gas
11.2
2.69
184
11/
18/
93
tk­
3
NO
19.63
2100
Natural
gas
11.2
2.69
184
8/
2/
95
tk­
1
NO
19.63
2100
Natural
gas
11.2
2.69
Data
on
test
for
3
kilns;
divided
by
3
where
appropriate;
do
not
use;
no
field
data
sheets;
no
production
data.

184
8/
2/
95
tk­
2
NO
19.63
2100
Natural
gas
11.2
2.69
Data
on
test
for
3
kilns;
divided
by
3
where
appropriate;
do
not
use;
no
field
data
sheets;
no
production
data.

184
8/
2/
95
tk­
3
NO
19.63
2100
Natural
gas
11.2
2.69
Data
on
test
for
3
kilns;
divided
by
3
where
appropriate;
do
not
use;
no
field
data
sheets;
no
production
data.
