EMISSIONS
INVENTORY
AND
EMISSIONS
PROCESSING
FOR
THE
CLEAN
AIR
MERCURY
RULE
(
CAMR)

U.
S.
ENVIRONMENTAL
PROTECTION
AGENCY
OFFICE
OF
AIR
QUALITY
PLANNING
AND
STANDARDS
EMISSIONS,
MONITORING
AND
ANALYSIS
DIVISION
RESEARCH
TRIANGLE
PARK,
NC
27711
MARCH
2005
ii
TABLE
OF
CONTENTS
ACRONYMS......................................................................................................................................................
III
LIST
OF
TABLES
..............................................................................................................................................
V
1
INTRODUCTION.......................................................................................................................................
1
2
2001
BASE
YEAR
MERCURY
INVENTORY..........................................................................................
2
2.1
IPM
SECTOR
........................................................................................................................................
3
2.2
NON­
IPM
POINT
SOURCES.....................................................................................................................
4
2.3
NON­
POINT
SOURCES
............................................................................................................................
5
3
ANCILLARY
FILES
USED
WITH
SMOKE
FOR
PROCESSING
THE
MERCURY
INVENTORIES.
5
3.1
ANCILLARY
FILE
FOR
READING
IN
THE
NEI
INVENTORY
.........................................................................
6
3.2
ANCILLARY
FILES
FOR
CHEMICAL
SPECIATION
......................................................................................
6
3.3
ANCILLARY
FILES
FOR
TEMPORAL
ALLOCATION
.....................................................................................
7
4
2020
BASE
MERCURY
EMISSIONS........................................................................................................
7
4.1
EMISSION
REDUCTION
APPROACH.........................................................................................................
7
4.2
GROWTH
APPROACH...........................................................................................................................
10
5
SUMMARIES
OF
MERCURY
EMISSIONS...........................................................................................
14
APPENDIX
A:
INVENTORY
REVISIONS
FOR
MERCURY......................................................................
A­
1
APPENDIX
B:
MERCURY
SPECIATION.....................................................................................................
B­
1
APPENDIX
C:
FACILITY­
AND
PROCESS­
SPECIFIC
REDUCTIONS....................................................
C­
1
iii
Acronyms
BEA
BUREAU
OF
ECONOMIC
ANALYSIS
BLS
BUREAU
OF
LABOR
STATISTICS
CAIR
CLEAN
AIR
INTERSTATE
RULE
CHIEF
CLEARINGHOUSE
FOR
INVENTORIES
AND
EMISSIONS
FACTORS
CMAQ
COMMUNITY
MULTISCALE
AIR
QUALITY
MODEL
CO
CARBON
MONOXIDE
EGAS
ECONOMIC
GROWTH
ANALYSIS
SYSTEM
EGU
ELECTRIC
GENERATING
UNITS
EPA
ENVIRONMENTAL
PROTECTION
AGENCY
GF
GROWTH
FACTOR
Hg
ELEMENTAL
MERCURY
(
CMAQ
INPUT
SPECIES)

HGIIGAS
GASEOUS
DIVALENT
MERCURY
(
CMAQ
INPUT
SPECIES)

IPM
INTEGRATED
PLANNING
MODEL
MACT
MAXIMUM
ACHIEVABLE
CONTROL
TECHNOLOGY
MWC
MUNICIPAL
WASTE
COMBUSTOR
mwi
MEDICAL
WASTE
INCINERATOR
NEEDS
NATIONAL
ELECTRIC
ENERGY
DATABASE
SYSTEM
NEI
NATIONAL
EMISSION
INVENTORY
NESHAP
NATIONAL
EMISSION
STANDARDS
FOR
HAZARDOUS
AIR
POLLUTANTS
NH3
AMMONIA
NODA
NOTICE
OF
DATA
AVAILABILITY
NOX
NITROGEN
OXIDES
PHGI
PARTICULATE
DIVALENT
MERCURY
(
CMAQ
INPUT
SPECIES)

PM2.5
PARTICULATE
MATTER
LESS
THAN
OR
EQUAL
TO
2.5
MICRONS
PM10
PARTICULATE
MATTER
LESS
THAN
OR
EQUAL
TO
10
MICRONS
POTW
PUBLICLY­
OWNED
TREATMENT
WORKS
REMI
REGIONAL
ECONOMIC
MODEL,
INC.

RIA
REGULATORY
IMPACT
ANALYSIS
iv
RICE
RECIPROCATING
INTERNAL
COMBUSTION
ENGINES
RPO
REGIONAL
PLANNING
ORGANIZATION
SIC
STANDARD
INDUSTRIAL
CODE
SCC
SOURCE
CATEGORY
CODE
SMOKE
SPARSE
MATRIX
OPERATOR
KERNEL
EMISSIONS
SOCMI
SYNTHETIC
ORGANIC
CHEMICAL
MANUFACTURING
INDUSTRY
SO2
SULFUR
DIOXIDE
TSD
TECHNICAL
SUPPORT
DOCUMENT
VOC
VOLATILE
ORGANIC
COMPOUNDS
v
List
of
Tables
Table
1:
Sector­
based
mercury
emissions
totals
for
2001,
for
all
states
in
the
continental
U.
S.

Table
2:
Fields
in
the
inventory
table
used
for
reading
the
mercury
inventory
into
SMOKE.

Table
3:
MACT/
Section­
129
reductions
of
mercury
applied
to
the
1999
NEI
for
projection
to
2020.

Table
4:
MACT­
specific
growth
factors
used
to
project
1999
mercury
emissions
to
2020.

Table
5:
SICs
with
improved
growth
rates
as
compared
to
REMI
5.5
rates.

Table
6:
Summary
of
2001
base
and
2020
base
emissions,
continental
U.
S.

Table
7:
State­
sector
speciated
Hg
emissions
for
2001
and
2020.
1
1
Introduction
This
document
describes
the
approach
and
data
used
for
the
emissions
inventory
and
emissions
processing
for
air
quality
modeling
for
the
Clean
Air
Mercury
Rule
(
CAMR)
rulemaking
by
the
U.
S.
Environmental
Protection
Agency
(
EPA).
This
work
builds
from
the
emissions
developed
for
the
Clean
Air
Interstate
Rule
(
CAIR);
therefore,
this
document
describes
only
those
additional
activities
not
documented
in
the
CAIR
Technical
Support
Document
(
TSD)
[
have
asked
Joann
Allman
for
docket
number
for
this
to
include
here.
Won't
get
it
until
CAIR
is
signed].

The
emissions
modeling
effort
has
involved
preparation
of
emissions
input
data
for
the
Community
Multiscale
Air
Quality
(
CMAQ)
model
for
the
purposes
of
modeling
mercury.
For
this
modeling
effort,
the
CMAQ
required
hourly,
speciated
mercury
emissions
for
an
annual
episode
on
a
36­
km
national
grid.
Emissions
of
mercury
and
the
following
criteria
pollutants
were
required:
carbon
monoxide
(
CO),
nitrogen
oxides
(
NOX),
volatile
organic
compounds
(
VOC),
sulfur
dioxide
(
SO2),
ammonia
(
NH3),
particulate
matter
less
than
or
equal
to
10
microns
(
PM10),
and
particulate
matter
less
than
or
equal
to
2.5
microns
(
PM2.5).
These
emissions
data
were
required
for
a
2001
base
year,
a
2020
future­
base,
and
2020
control
cases.

The
general
emissions
modeling
approach
we
used
was
to
convert
annual
total
emissions
inventory
data
into
the
hourly,
grid­
cell,
and
model
species
resolution
needed
by
CMAQ
using
the
Sparse
Matrix
Operator
Kernel
Emissions
(
SMOKE)
model.
SMOKE
transforms
the
emission
inventories
using
emissions
modeling
steps
known
as
temporal
allocation,
chemical
speciation,
and
spatial
allocation.
SMOKE
requires
emissions
inventory
files
and
ancillary
data
files
to
perform
these
steps.

The
emissions
modeling
effort
involved
the
following
additional
activities
beyond
what
was
done
for
CAIR:
 
prepare
a
2001
base­
year
mercury
emissions
inventory
for
input
into
SMOKE,
 
prepare
ancillary
files
for
SMOKE
needed
to
create
the
model­
ready
mercury
emissions,
 
prepare
a
2020
future­
base
mercury
inventory,
 
run
SMOKE
for
2001
mercury
and
merge
2001
mercury
with
2001
criteria
emissions,
and
 
run
SMOKE
for
2020
mercury
and
merge
2020
mercury
with
2020
criteria
emissions.

The
data
reused
from
the
CAIR
modeling
are
available
in
the
CAIR
docket
(
number
OAR­
2003­
0053­
1688).
The
Hg­
specific
data
described
in
this
document
are
available
in
two
locations.
First,
the
data
are
available
in
the
CAMR
electronic
docket.
A
docket
number
is
not
available
at
the
time
that
this
was
written.
Additionally,
the
CAIR
and
CAMR
data
are
both
available
on
the
airmodeling
ftp
site.
Access
to
this
password­
protected
ftp
site
can
be
obtained
by
contacting
Warren
Peters
at
peters.
warren@
epa.
gov.
When
requesting
access
to
the
site,
please
indicate
that
you
need
to
know
the
specific
locations
on
the
site
of
the
CAIR
and
CAMR
data.
For
more
information
on
the
contents
of
the
data
on
that
site,
please
contact
Marc
Houyoux
at
houyoux.
marc@
epa.
gov.
2
The
remainder
of
this
document
describes
the
mercury
emissions
inventories
and
processing
done
specifically
for
these
emissions.
The
CAIR
TSD
documents
the
preparation
of
2001
baseyear
and
2020
future­
base
criteria
pollutant
emissions
inventories,
the
associated
ancillary
files
for
emissions
modeling,
and
features
of
the
SMOKE
tool;
these
are
not
repeated
here.
We
used
the
same
version
of
SMOKE
(
version
2.1)
for
both
CAIR
and
for
CAMR.

Section
2
describes
how
we
prepared
the
2001
mercury
inventory,
Section
3
discusses
the
speciation
profiles
used,
and
Section
4
discusses
the
creation
of
the
2020
mercury
inventory.
Section
5
provides
summaries
of
the
base­
and
future­
base
mercury
emissions.
This
document
does
not
describe
the
2020
future­
control
emissions,
for
which
only
the
emissions
from
the
Integrated
Planning
Model
(
IPM)
for
electric
generating
utilities
(
EGUs)
were
different
from
the
future­
base
only,
as
available
in
the
CAMR
docket
item
"
EPA
CAMR_
Option
1
parsed
for
year
2020".

2
2001
Base
Year
Mercury
Inventory
The
basis
for
the
2001
mercury
emissions
inventory
for
the
U.
S.
is
the
1999
National
Emission
Inventory
(
NEI)
for
Hazardous
Air
Pollutants
(
HAPs),
July
2003
version.
The
NEI
is
provided
in
four
sectors:
non­
point
(
formerly
known
as
stationary
area),
point,
on­
road
mobile
and
nonroad
mobile.
The
point­
source
sector
of
the
inventory
contains
facility
estimates
along
with
specific
geographic
coordinates
and
stack
parameters.
The
non­
point
sector
contains
emissions
by
Source
Category
Code
(
SCC)
at
the
county­
level.
Note
that
there
are
no
mercury
emissions
in
either
the
nonroad
or
on­
road
portion
of
the
1999
NEI
for
HAPs.
We
generally
used
1999
NEI
values
for
our
2001
modeling
base
year
because
this
was
the
most
applicable
inventory
available
at
the
time
of
our
modeling
work.
Additionally,
we
included
only
emissions
from
the
contiguous
48
States,
the
District
of
Columbia,
and
Canada;
although
Mexico
is
in
the
modeling
domain,
no
mercury
emissions
data
were
available
for
Mexico.

The
criteria
base­
year
inventory
data
are
available
through
the
CAIR
docket
and
the
airmodeling
FTP
site.
The
mercury
base­
year
inventory
data
are
available
through
the
airmodeling
FTP
site.
[
Perhaps
reference
file
names,
if
available
for
CAMR.]

The
list
below
describes
the
emission
sectors
used
in
modeling.
The
headings
for
this
list
include
the
sector
abbreviations
in
parentheses;
these
abbreviations
are
used
in
the
modeling
scripts
and
directory
names
used
in
the
SMOKE
modeling.

1.
IPM
sector
(
ptipm):
Point­
source
facilities
that
were
linked
to
facilities
in
the
April
2003
version
of
the
2010
Integrated
Planning
Model
(
IPM)
database
and
matched
between
the
1999
NEI
for
HAP
and
the
2001
criteria
inventory
used
for
CAIR.
2.
Non­
IPM
sector
(
ptnonipm):
All
point
sources
not
in
the
IPM
sector
and
all
pointsource
mercury
emissions
from
Canada.
3.
Non­
point
sector
(
nonpt):
Non­
point
(
stationary
area
sources)
emissions
from
the
U.
S.
and
Canada.
This
sector
includes
only
mercury
emissions
from
source
categories
that
did
not
have
facility­
specific
information
available.

Table
1
provides
a
summary
of
the
base
year
2001
inventory
emissions
across
all
of
the
above
sectors
that
we
provided
as
inputs
to
SMOKE.
Note
that
the
inventory
contains
some
pre­
3
speciated
emissions,
but
the
model­
ready
speciated
emissions
are
not
represented
by
this
table.
Inventory
pollutants
like
"
Mercury
and
Compounds"
are
split
into
model
species
during
emissions
modeling
steps,
resulting
in
additional
speciated
mercury
emissions.
The
model­
ready
speciated
emissions
are
available
by
state
and
sector
in
Section
5.

Table
1:
Sector­
based
mercury
emissions
totals
for
2001,
for
all
states
in
the
continental
U.
S.

Pollutant
Name
CAS
IPM
Non­
IPM
Point
Non­
Point
All
Sectors
Mercury
and
Compounds
199
0.915
29.985
0.375
31.275
Elemental
Mercury
200
25.585
0.017
25.603
Gaseous
Divalent
Mercury
201
20.211
0.027
20.238
Particulate
Divalent
Mercury
202
1.479
0.002
1.482
Mercury
7439976
0.389
26.129
6.150
32.668
Mercuric
Chloride
7487947
0.024
0.024
Total
48.579
56.185
6.525
111.290
As
will
be
described
in
the
subsections
below,
some
minor
revisions
were
made
to
the
1999
NEI
where
information
was
available
to
update
the
data
for
2001.
Unless
specifically
described
in
this
document,
we
did
not
change
the
1999
NEI
values
to
reflect
2001
because
we
believe
that
the
uncertainties
in
these
emissions
are
high
and
because
we
are
limited
by
available
emissions
collection
and
estimation
techniques.
We
believe
the
available
approaches
cannot
reliably
distinguish
between
two
years
for
mercury
emissions.
The
details
about
the
inventories
we
used
are
included
in
the
subsections
below.

2.1
IPM
Sector
The
IPM
sector
is
based
on
the
point­
source
1999
NEI
for
HAPs,
which
contains
mercury
emissions
estimates
for
both
electric
generating
units
(
EGU)
and
Non­
EGU
sources,
along
with
their
geographic
locations
and
stack
parameters.
This
sector
contains
emissions
from
EGUs
as
defined
by
the
universe
of
sources
whose
future­
year
emissions
are
projected
using
the
Integrated
Planning
Model
(
IPM).

Only
part
of
the
point­
source
inventory
is
used
in
the
IPM
sector;
this
part
is
those
facilities
that
we
were
able
match
to
the
April
2003
version
of
the
2010
IPM,
which
uses
the
facilities
included
in
the
2003
National
Electric
Energy
Database
System
(
NEEDS).
This
matching
was
necessary
because
the
IPM
estimates
future
EGU
emissions
separately
from
non­
EGU
emissions,
which
are
obtained
from
applying
growth
and
control
factors.
Extracting
base­
year
EGU
facilities
from
the
1999
NEI
therefore
ensures
that
these
EGU
emissions
are
not
double
counted
in
the
futureyear
modeling
files.

Separating
the
EGU
from
the
non­
EGU
sources
based
on
the
facilities
in
the
IPM
model
also
ensures
that
non­
EGU
emissions
are
not
inadvertently
dropped
from
future­
year
modeling
files.
For
example,
we
found
several
small
facilities
with
an
EGU
MACT
code
(
i.
e.,
1808­
1)
that
were
not
found
in
the
2010
IPM
database,
nor
were
they
determined
to
have
closed
by
2010;
instead,
it
4
appeared
that
facilities
with
non­
EGU
processes
were
sometimes
assigned
to
the
EGU
MACT
codes.
These
few
and
small
"
pseudo­
EGUs"
were
retained
in
the
non­
EGU
file,
and
were
assigned
no
growth
or
controls
to
2020,
thereby
preserving
their
emissions.

Defining
the
mercury­
emitting
EGUs
in
the
1999
NEI
HAP
inventory
involved
several
steps,
described
here.
First,
we
identified
EGUs
in
the
NEI
that
would
be
likely
to
be
included
in
the
IPM
model
as
any
record
with
MACT
1808­
1,
SCCs
beginning
with
101
and
201,
and/
or
Standard
Industrial
Code
(
SIC)
of
4911.
Second,
we
matched
the
ORIS
facility
ID
for
the
resulting
NEI
facilies
with
the
ORIS
IDs
in
the
NEEDS
database,
which
matched
many
NEI
facilities
to
IPM.
Third,
for
the
remaining
unmatched
NEI
likely­
EGU
facilities,
we
used
manual
approaches
based
on
locations,
facility
names,
criteria
emissions,
and
mercury
emissions
in
the
NEI
and
the
NEEDS.
This
approach
matched
all
but
8
NEI
facilties
with
MACT
of
1808­
1
and
18
other
facilities
with
emissions
greater
than
0.02
tons/
year.

In
addition
to
separating
the
IPM­
matched
facilities
from
the
NEI
point
source
inventory,
we
also
assigned
stack
parameters
and
coordinates
to
ensure
as
consistent
values
as
possible
were
used
between
the
criteria
and
mercury
inventories
and
between
the
base­
year
and
future­
year
cases.
This
was
necessary
because
the
future­
year
emissions
are
created
by
the
IPM
model
and
parsed
into
SMOKE­
ready
files
using
an
entirely
different
approach
from
how
the
emissions
are
compiled
for
the
base­
year.
It
was
also
necessary
because
the
facility
and
stack
IDs
in
the
1999
NEI
for
HAPs
were
not
necessarily
matched
to
the
IDs
in
the
2001
CAIR
inventory.
The
approach
that
we
used
was
as
follows.

For
the
largest
549
SO2­
emitting
stacks
from
the
2001
CAIR
criteria
inventory
that
we
could
match
to
the
1999
NEI
for
HAPs,
we
used
the
stack
parameters
and
locations
from
the
criteria
inventory.
Since
large
SO2
emissions
indicates
large
coal­
fired,
mercury­
emitting
boilers,
this
approach
ensured
that
the
largest
mercury
emitters
contained
the
same
coordinates
and
stack
parameters.
Other
stacks
were
assigned
either
(
a)
revised
stack
parameters
and
locations
based
on
the
IPM
post­
processing
steps,
or
(
b)
parameters
from
the
1999
NEI
for
HAPs.
In
this
latter
case,
these
facilities
could
not
be
matched
between
the
2001
CAIR
criteria
inventory
and
the
1999
NEI
for
HAPs.

Additionally
for
the
IPM
sector,
we
modified
temporal
profile
assignments
to
ensure
consistent
temporal
profile
application
between
the
base
and
future­
year
emissions.
This
was
necessary
because
the
IPM
results
for
mercury
were
assigned
different
SCCs
than
were
assigned
in
the
base­
year,
and
these
SCCs
sometimes
have
significantly
different
temporal
profiles.
The
specific
changes
that
we
made
to
the
temporal
profiles
are
described
in
Section
3.3.

2.2
Non­
IPM
point
sources
The
non­
IPM
sector
includes
the
emissions
not
included
in
the
IPM
sector
from
the
1999
pointsource
NEI
for
HAPs.

We
made
the
following
few
minor
revisions
to
the
1999
NEI
emissions
inventory
prior
to
the
emissions
modeling
process.
These
are
listed
in
greater
detail
in
Appendix
A.
5
 
We
replaced
the
1999
Medical
Waster
Incinerator
(
MWI)
data
with
the
MWI
data
from
the
draft
2002
NEI,
which
better
represents
this
category
for
2001.
This
change
resulted
in
a
reduction
from
2.8
tons/
year
of
mercury
to
0.23
tons/
year.
 
We
corrected
the
inventory
to
remove
double
counting
or
mischaracterized
point
sources,
which
reduced
mercury
emissions
in
the
inventory
by
0.4
tons/
year.
 
We
revised
MACT
code
assignments
for
industrial
boilers
to
include
more
processes
(
SCCs)
that
belong
to
the
MACT
category;
this
affected
projection
of
future­
year
emissions,
which
uses
MACT
codes.
 
We
also
corrected
SIC
code
assignments.

Additionally,
this
sector
includes
year
2000
Canadian
mercury
emissions
from
all
point
sources
for
elemental
mercury,
gaseous
divalent
mercury,
and
particulate
divalent
mercury.
Newer
inventory
data
from
Canada
was
not
available
in
time
for
the
purposes
of
our
work.

2.3
Non­
point
sources
The
non­
point
mercury
emissions
for
the
2001
base
year
are
from
the
1999
NEI
for
HAPs.
Similarly
to
point
sources,
we
made
a
few
minor
changes
to
the
mercury
emissions,
as
follows:

 
We
removed
non­
point
fugitive
dust
and
open­
burning
categories
from
California
and
Oregon
(
the
only
states
who
provided
mercury
emissions
from
these
sources),
which
reduced
Hg
by
2.7
tons/
year.
These
emissions
were
removed
because
they
were
not
available
for
all
states
and
we
believe
that
the
emissions
estimates
from
these
sectors
are
too
uncertain
to
include
in
modeling.
 
We
removed
MWI
records,
which
removed
0.004
tons/
year
of
mercury.
There
were
no
non­
point
MWI
emissions
in
the
draft
2002
NEI,
so
the
non­
point
MWI
from
1999
were
simply
deleted
and
not
replaced.

Additionally,
this
sector
includes
year
2000
Canadian
mercury
emissions
from
all
non­
point
sources
for
elemental
mercury,
gaseous
divalent
mercury,
and
particulate
divalent
mercury.
Newer
inventory
data
from
Canada
was
not
available
in
time
for
the
purposes
of
our
work.

3
Ancillary
Files
Used
with
SMOKE
for
Processing
the
Mercury
Inventories
During
emissions
modeling,
the
ancillary
data
are
combined
with
the
emissions
inventory
data
to
convert
the
inventories
into
the
gridded,
hourly
resolution,
and
chemical
species
needed
by
CMAQ.
In
this
section,
we
summarize
those
ancillary
files
that
we
used
in
the
CAMR
emissions
modeling
that
were
different
from
the
ones
used
in
the
CAIR
modeling.
These
files
are:
(
1)
the
inventory
table,
which
is
used
to
read
in
the
pollutant
codes
from
the
NEI
and
convert
to
SMOKE
inventory
pollutants,
(
2)
the
chemical
speciation
data
used
to
convert
the
raw
mercury
emissions
into
the
species
needed
by
the
CMAQ
model,
and
(
3)
revised
temporal
profiles
used
to
ensure
consistent
temporal
allocation
between
the
base
and
future­
year
IPM
sector
emissions.
Development
of
the
data
used
to
project
the
base­
year
mercury
emissions
for
the
non­
IPM
and
non­
point
sectors
to
the
2020
base
year
are
discussed
in
Section
4.
6
The
CAIR
SMOKE
input
ancillary
files
that
we
also
used
in
this
effort
are
available
in
the
CAIR
docket
(
number
OAR­
2003­
0053­
1688)
and
at
the
airmodeling
ftp
site,
in
the
zip
file
2001CAIR_
misc_
072304.
zip,
in
the
"
ge_
dat"
directory.
A
list
of
all
of
the
ancillary
files
and
their
locations
is
available
in
the
docket
file
README_
2001.
txt.
Both
the
zip
file
and
the
README
file
are
also
available
at
the
airmodeling
ftp
site.

The
updated
SMOKE
ancillary
files
that
we
used
for
the
CAMR­
specific
modeling
efforts
are
available
at
the
airmodeling
ftp
site.
[
Perhaps
provide
specific
file
names,
if
available
in
time]

3.1
Ancillary
file
for
reading
in
the
NEI
Inventory
We
developed
the
SMOKE
input
file
called
the
"
inventory
table"
to
read
in
the
various
species
of
mercury
reported
in
the
1999
NEI
and
convert
them
to
either
the
model
species
needed
by
CMAQ
or
to
an
unspeciated
mercury
placeholder
called
"
HGSUM"
that
was
speciated
through
the
SMOKE
Spcmat
program
using
speciation
profiles.
The
fields
shown
in
Table
2
provide
the
same
information
as
was
included
in
the
inventory
table.
The
"
adjustment
factor"
in
this
table
allows
SMOKE
to
adjust
the
mass
of
those
inventory
compounds
containing
elements
in
addition
to
mercury,
to
account
for
only
the
mercury
portion
of
the
compound.

Table
2:
Fields
in
the
inventory
table
used
for
reading
the
mercury
inventory
into
SMOKE
SMOKE
NAME
NEI
CAS
Adjustment
Factor
Inventory
Pollutant
Name
Inventory
Pollutant
Code
PHGI
202
1
Particulate
Divalent
Mercury
Particulate
Divalent
Mercury
HGIIGAS
201
1
Gaseous
Divalent
Mercury
Gaseous
Divalent
Mercury
HG
200
1
Elemental
Gaseous
Mercury
Elemental
Gaseous
Mercury
HGIIGAS
7487947
0.7388
Gaseous
Divalent
Mercury
Mercuric
chloride
HGSUM
199
1
Mercury
Compounds,
unspeciated
Mercury
&
Compounds
HGSUM
22967926
1
Mercury
Compounds,
unspeciated
MERCURY
(
ORGANIC)
HGSUM
62384
0.5957
Mercury
Compounds,
unspeciated
MERCURY
ACETATO
PHEN
HGSUM
7439976
1
Mercury
Compounds,
unspeciated
Mercury
HGSUM
12
1
Mercury
Compounds,
unspeciated
Mercury
&
Compounds
3.2
Ancillary
Files
for
Chemical
speciation
The
mercury
speciation
factors
are
used
by
SMOKE
to
convert
any
unspeciated
mercury
(
i.
e.,
HGSUM
mentioned
in
Section
3.1)
into
the
CMAQ
model
species:
particulate
divalent
mercury
(
PHGI),
gaseous
divalent
mercury
(
HGIIGAS)
and
elemental
mercury
(
HG).
The
quantity
of
unspeciated
emissions
for
each
source
sector
can
be
obtained
from
Table
1
in
Section
2
by
summing
all
mercury
pollutants
in
which
the
NEI
Pollutant
Code
is
not
200,
201,
202,
or
7487947.

Speciation
profiles
were
assigned
to
the
inventory
sources
using
MACT
codes
and
SCC
codes.
We
preferentially
used
MACT­
based
profile
assignments
over
SCC­
based
profile
assignments.
The
global
default
speciation
profile
(
applied
for
records
that
neither
matched
to
MACT
or
SCCbased
profiles)
use
20%
PHGI,
30%
HGIIGAS,
and
50%
HG.
In
addition,
we
corrected
the
speciation
profile
data
file
provided
with
SMOKE
version
2.1
to
use
a
molecular
weight
of
200.59
for
HGIIGAS.
The
profile
data
we
used
are
provided
in
Appendix
B.
7
3.3
Ancillary
files
for
temporal
allocation
For
the
mercury
IPM
sector,
we
modified
temporal
profile
assignments
to
ensure
consistent
temporal
profile
application
between
the
base
and
future­
year
emissions.
This
was
necessary
because
the
IPM
results
for
mercury
were
assigned
different
SCCs
than
were
present
in
the
baseyear
and
these
SCCs
sometimes
have
significantly
different
temporal
profiles.

We
found
that
a
great
majority
(
over
90%)
of
the
base
year
emissions,
as
determined
by
SCCs,
were
assigned
similar
temporal
profiles
that
were:

 
uniform
by
month,
 
slightly
higher
weekdays
than
Saturdays,
which
in
turn
were
slightly
higher
than
Sundays,
and
 
a
"
typical"
diurnal
profile
where
the
minimum
emissions
are
assigned
early
in
the
morning
and
the
greatest
are
in
the
early
afternoon
Therefore,
all
IPM­
sector
mercury
emissions
in
the
base
and
future
used
monthly
temporal
profile
262,
weekly
temporal
profile
8,
and
diurnal
temporal
profile
33
(
both
for
weekdays
and
weekends).
Temporal
profile
assignments
for
the
IPM­
sector
criteria
emissions,
and
all
emissions
from
other
sectors
(
non­
point
and
non­
EGU
point)
are
the
same
as
those
used
in
the
CAIR
described
in
Section
3.3
of
the
CAIR
TSD.

4
2020
base
mercury
emissions
This
section
describes
the
data
used
to
project
the
2001
base­
year
mercury
emissions
to
2020
for
the
non­
IPM
and
non­
point
sectors.
The
IPM­
sector
emissions
in
2020
were
created
by
the
IPM
model
and
post­
processing,
described
in
Chapter
7
of
the
CAMR
Regulatory
Impact
Analysis
(
RIA).
Emissions
projections
for
mercury
includes
both
emissions
reductions
(
described
in
Section
4.1)
and
emissions
growth
(
described
in
Section
4.2)

The
reductions
and
growth
information
we
used
is
available
on
the
airmodeling
ftp
site.
[
If
available,
insert
more
specific
information
here].
The
resulting
2020
non­
IPM
point
and
nonpoint
inventories
are
also
available
on
the
airmodeling
ftp
site.
[
If
available,
insert
more
specific
information
here].
Additionally,
speciated
mercury
summaries
of
the
2001
and
2020
emissions
by
state
are
available
in
Section
5.

4.1
Emission
Reduction
Approach
This
section
discusses
emission
reductions
applied
to
the
non­
IPM
and
non­
point
sectors.
For
these
sectors,
we
applied
reductions
to
the
base
inventory
to
account
for
the
MACT
and
Section­
129
source
categories
for
which
a
regulation
is
expected
to
reduce
mercury
from
the
2001
base
inventory
values.
8
The
MACT
code
in
the
inventory
identifies
records
for
which
either
a
MACT
or
Section­
129
standard
may
apply.
It
is
a
six­
character
field
in
the
1999
NEI
for
HAPs.
To
apply
reductions
using
SMOKE,
we
considered
both
the
MACT
code
and
the
source
type
(
either
"
major"
or
"
area")
because
some
standards
apply
only
to
major
sources
and
not
to
"
area"
sources.
This
was
used
for
all
reduction
standards
except
for
MWI
and
municipal
waste
combustors
(
MWC),
which
we
describe
in
more
detail
in
subsequent
paragraphs.

We
obtained
MACT
and
Section­
129
reductions
from
rule
background
information
and/
or
from
the
EPA
technical
staff
who
were
responsible
for
the
regulations.
We
sought
reduction
data
for
all
categories
contributing
more
than
0.025
tons/
year
of
mercury
emission;
which
account
for
more
than
99.9%
of
all
non­
IPM
point
and
non­
point
mercury
emissions
from
MACT/
Section­
129
categories.
Table
3
provides
a
summary
of
all
non­
zero
reduction
values
that
we
used.
9
Table
3:
MACT/
Section­
129
reductions
of
mercury
applied
to
the
2001
inventory
for
projection
to
2020
MACT
code
Description
SCC
%
Reduction
from
2001
inventory
Source
types
Reference/
Comments
0107
Industrial/
Commercial/
Institutional
Boilers
&
Process
Heaters
34.88
major
and
area
Assumed
fuel
is
coal.
Applied
to
major
and
area
sources
even
though
rule
applies
only
to
major
sources,
due
to
uncertainty
in
inventory
for
major
sources.
Data
from
Jim
Eddinger,
EPA,
Emission
Standards
Division
0107­
1
Industrial/
Commercial/
Institutional
Boilers
&
Process
Heaters:
Coal
34.88
major
and
area
Applied
to
major
and
area
sources
even
though
rule
applies
only
to
major
sources
due
to
uncertainty
in
inventory
for
major
sources.
Data
from
Jim
Eddinger,
EPA,
Emission
Standards
Division
0107­
4
Industrial/
Commercial/
Institutional
Boilers
&
Process
Heaters:
Wood/
Waste
16.67
major
D
ata
from
Jim
Eddinger,
EPA,
Emission
Standards
Division
0308
Iron
Foundries
80.00
major
Data
from
Phil
Mulrine,
EPA,
Emission
Standards
Division
0411
Taconite
Iron
Ore
Processing
0.64
major
Data
from
Phil
Mulrine,
EPA,
Emission
Standards
Division
0414
Brick
and
Structural
Clay
Products
Manufacturing
22.69
major
D
ata
from
Mary
Johnson,
EPA,
Emission
Standards
Division
0801
Hazardous
Waste
Incineration
503005
78.60
major
and
area
SCC
503005
is
an
incinerator;
Information
from
the
July
1999
Background
Information
Document
from
the
Hazardous
Waste
Incineration
Rule
0801­
1
Commercial
Hazardous
Waste
Incinerators
83.40
major
and
area
Information
provided
by
Frank
Behan,
EPA/
OSWER,
using
information
from
the
July
1999
Background
Information
Document
from
Hazardous
Waste
Incineration
Rule
0801­
2
On­
Site
Hazardous
Waste
Incinerators
76.20
major
and
area
Information
provided
by
Frank
Behan,
EPA/
OSWER,
using
information
from
the
July
1999
Background
Information
Document
from
Hazardous
Waste
Incineration
Rule
0801­
3
Cement
Kilns
11.90
major
and
area
Information
from
the
July
1999
Background
Information
Document
from
the
Hazardous
Waste
Incineration
Rule
0801­
4
Lightweight
Aggregate
Kilns
47.30
major
and
area
Information
from
the
July
1999
Background
Information
Document
from
the
Hazardous
Waste
Incineration
Rule
10
MACT
code
Description
SCC
%
Reduction
from
2001
inventory
Source
types
Reference/
Comments
1403
Mercury
Cell
Chlor­
Alkali
Plants
(
formerly
called
Chlorine
Production)
10.4
and
facility­
specific
reductions
major
and
area
Some
site­
and
process­
specific
reductions
of
100%
were
applied
to
account
for
plant
closures;
See
Appendix
C
1626­
2
Pulp
&
Paper
Production
­
Chemical
Recovery
Combustion
Sources
at
Kraft,
Soda,
Sulfite,
and
Stand­
alone
Semichemical
Pulping
34.88
major
Assumed
mercury
coming
from
this
process
in
base
year
inventory
is
from
a
coal­
fired
boiler
(
0107­
1)

1626­
3
Pulp
and
Paper
Production
­
NonMACT
Facilities
34.88
major
Assumed
mercury
coming
from
this
process
in
base
year
inventory
is
from
a
coal­
fired
boiler
(
0107­
1)

1801
Medical
Waste
Incinerators
(
MWI)
Facility­
specific
reductions
See
Appendix
C
1802
Municipal
Waste
Combustors
(
MWC)
Facility­
specific
reductions
See
Appendix
C
As
shown
in
Table
3
for
three
MACT/
Section­
129
standards,
we
used
facility­
specific
reductions
that
were
provided
by
the
EPA
staff
that
were
responsible
for
the
relevant
MACT/
Section­
129
standard.
For
MWI,
the
1999
emissions
were
completely
replaced
with
facility­
specific
data
for
2002,
which
we
also
assumed
represent
year
2020
emissions.
For
MWC,
the
reductions
reflect
known
plant
closures,
planned
retrofits,
and
information
about
whether
the
facility
contains
large
or
small
MWC
(
for
which
different
compliance
dates
apply).
Details
on
the
MWC
approach
are
available
in
Appendix
C.
For
the
mercury
cell
chlor­
alkali
facilities,
we
applied
facility­
and
process­
specific
reductions
of
100%
to
account
for
information
on
plant
and
process
closures,
details
for
which
are
also
available
in
Appendix
C.

Finally,
additional
reductions
were
also
applied
to
four
specific
gold
mines
based
on
a
voluntary
program
to
reduce
emissions
from
these
mines,
as
provided
by
EPA's
Region
9
Office.
Details
about
these
reductions
are
provided
in
Appendix
C.

4.2
Growth
Approach
Emissions
growth
accounts
for
the
expected
increase
in
emissions
due
to
increases
in
emissionsgenerating
activities
that
occur
in
the
future.
We
developed
and
assigned
growth
factors
for
the
2001
inventory
based
on
MACT
codes,
SIC
codes,
and
SCC
codes.
Using
SMOKE,
we
applied
the
growth
factors
to
the
inventory
using
a
hierarchical
assignment
using
the
MACT,
SIC,
and
SCC.
The
hierarchy
we
used
in
SMOKE
for
the
2020
mercury
projection
was
as
follows:

 
MACT­
based
growth
factors
are
applied
first
 
SIC­
based
growth
factors
are
applied
second
(
if
the
record
had
no
applicable
MACTbased
growth),
and
 
SCC­
based
growth
factors
are
applied
third
(
neither
MACT
nor
SIC
growth
factors
are
available).
 
If
an
inventory
record
did
not
have
a
MACT,
SCC
or
SIC
code
that
matched
the
growth
factors,
then
we
applied
a
default
growth
factor
of
1.0
(
no
growth).
11
MACT­
based
factors
were
developed
for
MACT/
Section­
129
source
categories
if
information
was
supplied
by
the
EPA
developers
of
MACT/
Section­
129
standards
project
leads
regarding
future­
year
growth.
In
all
cases
but
two,
we
assumed
no
growth
for
MACT/
Section­
129
source
categories
(
a
growth
factor
of
1.0)
due
to
uncertainties
in
the
emission
estimates
of
mercury
from
those
categories.
Table
4
shows
the
MACT­
specific
growth
and
no­
growth
assumptions.

Table
4:
MACT­
specific
growth
factors
used
to
project
1999
mercury
emissions
to
2020.

MACT
Code
Description
Growth
Comments
1808­
1
Utility
Boilers:
Coal
(
sources
not
projected
by
IPM)
no
growth
Vast
majority
of
1808­
1
emissions
are
from
IPM
sources.
Assumed
that
the
remaining
non­
IPM
sources
get
no
growth
and
no
reductions.

1403
Mercury
Cell
Chlor­
Alkali
Plants
(
formerly
called
Chlorine
Production)
no
growth
No
growth
assumption
applies
for
mercury
only
because
process
is
expected
to
change
in
the
future.

1802
Municipal
Waste
Combustors
no
growth
1801
Medical
Waste
Incinerators
no
growth
0105
Stationary
Reciprocating
Internal
Combustion
Engines
no
growth
Uncertainties
in
1999
emission
estimates
0107­
3
Industrial/
Commercial/
Institutional
Boilers
&
Process
Heaters:
Oil
no
growth
Uncertainties
in
1999
emission
estimates
0107­
2
Industrial/
Commercial/
Institutional
Boilers
&
Process
Heaters:
Natural
gas
no
growth
Uncertainties
in
1999
emission
estimates
0108
Stationary
Combustion
Turbines
no
growth
Uncertainties
in
1999
emission
estimates
1808­
3
Utility
Boilers:
Oil
no
growth
Uncertainties
in
1999
emission
estimates
0418
Asphalt
Roofing
and
Processing
no
growth
Uncertainties
in
1999
emission
estimates
1808­
2
Utility
Boilers:
Natural
Gas
no
growth
Uncertainties
in
1999
emission
estimates
0302
Coke
Ovens:
Charging,
Top
Side,
and
Door
Leaks
4%
decline
per
year,
beginning
with
1997
0802
Municipal
Landfills
no
growth
1642
Miscellaneous
Coating
Manufacturing
no
growth
Uncertainties
in
1999
emission
estimates
0101­
1
Engine
Test
Facilities
no
growth
0201
Primary
Aluminum
Production
growth
>
1
Provided
by
EPA
rule
developer
for
MACT
0201
0415
Clay
Ceramics
Manufacturing
no
growth
SIC­
and
SCC­
based
growth
factors
were
developed
based
on
forecasts
from
an
updated
Regional
Economic
Models,
Inc.
(
REMI)
model
(
version
5.5)
and
the
latest
Annual
Energy
Outlook
published
by
the
Department
of
Energy
(
DOE).
This
approach
is
consistent
with
the
approach
used
for
the
CAIR
ptnonipm
and
"
other
area"
growth
approaches;
except
because
most
of
our
inventory
was
based
on
1999
emissions,
we
used
available
1999­
to­
2020
growth
factors.
The
growth
factors
were
applied
to
the
inventory
through
a
set
of
crosswalks
that
link
the
growth
factors
to
the
SIC
codes
and
the
SCC
codes
in
the
2001
base
inventory.
Documentation
on
the
12
development
of
the
growth
factors
and
the
crosswalks
is
presented
in
the
technical
memo
which
is
available
in
file
"
Non­
EGU
Nonpoint
Control
Development.
pdf"
in
the
CAIR
docket
(
docket
number
OAR­
2003­
0053­
1690)
and
on
the
CAIR
website
(
http://
www.
epa.
gov/
air/
interstateairquality/
technical.
html#
NODA).

Based
on
an
analysis
performed
for
CAIR
of
the
2010
and
2015
REMI­
based
growth
rates
for
the
non­
IPM
and
"
other
area"
sectors
(
and
described
in
the
CAIR
TSD
in
Section
4.1),
we
modified
2020
REMI­
based
growth
rates
as
summarized
in
Table
5
below.

Table
5:
SICs
with
improved
growth
rates
as
compared
to
REMI
5.5
rates.

SIC
SIC
description
2020
GF
Basis
of
revision
1311
Crude
Petroleum
and
Natural
Gas
0.9193
1321
Natural
Gas
Liquids
0.9193
BEA
production
from
1988­
2001
declined
by
~
0.4%
annually.

2821
Plastics
Material
and
Synthetic
Resins,
and
Nonvulcanizable
Elastomers
1.5032
2822
Synthetic
Rubber
1.5032
2823
Cellulosic
Manmade
Fibers
1.5032
2851
Paints,
Varnishes,
Lacquers,
Enamels,
and
Allied
Products
1.5032
1.96%
annual
based
on
BEA
for
SIC=
32xx.

2873
Nitrogenous
Fertilizers
1.4848
2874
Phosphatic
Fertilizers
1.4848
BLS
"
employment
outlook"
projected
a
1.90%/
yr
average
increase
in
output
from
2002­
2012
for
the
4­
digit
NAICS
3253
(
Pesticide,
fertilizer,
and
other
agricultural
chemical
manufacturing).
2895
Carbon
Black
1.5956
2.25%
annually
is
average
based
on
May
2000
HAP
EIA.
3011
Tires
and
Inner
Tubes
1.5157
2%
annual
based
on
tire
industry
growth
of
28%
from
1985­>
1997
from
Rubber
Tire
Manufacturing
MACT.
3211
Flat
Glass
1.5032
3221
Glass
Containers
1.5032
3229
Pressed
and
Blown
Glass
and
Glassware,
NEC
1.5032
1.96%
annual
based
on
BEA
for
SIC=
32xx.

3241
Cement,
Hydraulic
1.5265
1%/
year
for
2002&
2003,
0.8%/
year
2004,
2.5%
through
2010and
beyond.
3321
Gray
and
Ductile
Iron
Foundries
1.4395
3322
Malleable
Iron
Foundaries
1.4395
3324
Steel
Investment
Foundries
1.4395
3325
Steel
Foundries,
NEC
1.4395
3331
Primary
Smelting
and
Refining
of
Copper
1.4395
3334
Primary
Production
of
Aluminum
1.4395
3339
Primary
Smelting
and
Refining
of
Nonferrous
Metals,
Except
Copper
and
Aluminum
1.4395
BEA
industry
code
33
(
Primary
Metal
Industries)
experienced
1.75%
average
annual
growth
from
1987­
2002.

Bolded
rows
are
those
in
which
CAIR
analysis
used
REMI
model
results
rather
than
the
value
based
on
the
BEA
industry
code
13
SIC
SIC
description
2020
GF
Basis
of
revision
3411
Metal
Cans
1.3391
3441
Fabricated
Structural
Metal
1.3391
3471
Electroplating,
Plating,
Polishing,
Anodizing,
and
Coloring
1.3391
3479
Coating,
Engraving,
and
Allied
Services,
NEC
1.3391
3497
Metal
Foil
and
Leaf
1.3391
3499
Fabricated
Metal
Products,
NEC
1.3391
BEA
industry
code
34
(
Fabricated
Metal
Products)
experienced
1.4%
average
annual
growth
from
1987­
2002.

3711
Motor
Vehicles
and
Passenger
Car
Bodies
1.6455
3713
Truck
and
Bus
Bodies
1.6455
3714
Motor
Vehicle
Parts
and
Accessories
1.6455
3715
Truck
Trailers
1.6455
BEA
industry
code
371
experienced
2.4%
average
annual
growth
from
1987­
2002.
14
5
Summaries
of
mercury
emissions
Table
6
provides
a
summary
of
the
2001
base
and
2020
base
year
emissions
by
broad
categories.
Table
7
provides
a
summary
of
the
2001
base
and
2020
future­
base
emissions
by
State
and
major
sectors
(
ptipm,
ptnonipm,
and
non­
point).

Table
6:
Summary
of
2001
base
and
2020
base
emissions,
continental
U.
S.

Category
Name
2001
Mercury
Emissions
(
Tons)
2020
Mercury
Projected
Emissions
(
with
CAIR)
(
Tons)
Percent
Change
Electric
Generating
Units
Projected
Using
The
IPM
Model
(
includes
all
sources
in
the
NEI
that
were
matched
to
the
April
2003
version
of
the
2010
IPM)
48.6
34.4
­
29%
Gold
Ores
11.5
2.4
­
79%
Industrial,
Commercial
and
Institutional
Boilers
and
Process
Heaters
(
all
fuels),
excluding
0.74
tons
counted
in
"
Electric
Generating
Units
Projected
Using
The
IPM
Model"
11.2
11.15
­
0.5%
Hazardous
Waste
Incineration
6.6
3.8
­
43%
Mercury
Cell
Chlor­
Alkali
Plants
6.5
4.97
­
24%
Municipal
Waste
Combustors
4.8
2.7
­
45%
Portland
Cement
Manufacturing
2.4
3.6
53%
Refuse
Systems
2.1
3.0
45%
Pulp
and
Paper
Production
1.7
1.5
­
14%
Stationary
Reciprocating
Internal
Combustion
Engines
1.3
1.3
0%
Industrial
Inorganic
Chemicals,
NEC
1.2
1.7
40%
Petroleum
Refineries
­
Catalytic
Cracking,
Catalytic
Reforming,
&
Sulfur
Plant
Units
1.15
1.4
21%
Residential
Heating:
Distillate
Oil
1.1
1.1
0.7%
Lamp
Breakage
1.0
1.7
73%
Lime
Manufacturing
1.0
1.4
44%
Sewerage
Systems
0.9
1.3
39%
Dental
Laboratories
0.7
1.16
66%
Other
Categories
(
includes
the
sum
of
all
categories
having
1999
and
2020
emissions
less
than
1
ton)
7.5
8.6
16%
15
Total
(
all
categories)
111.3
87.2
­
24%
16
Table
7:
State­
sector
speciated
Hg
emissions
for
2001
and
2020.
PGHI
HGIIGAS
Elem
HG
Total
HG
State
Sector
2001
2020
2001
2020
2001
2020
2001
2020
Alabama
nonpoint
0.0036
0.0036
0.0056
0.0056
0.0537
0.0826
0.0629
0.0917
ptipm
0.0859
0.0811
1.1591
0.2226
1.2235
0.4484
2.4686
0.7520
ptnonipm
0.1385
0.1445
0.1877
0.1879
0.8691
0.8432
1.1952
1.1756
Alabama
Total
0.2280
0.2291
1.3523
0.4161
2.1463
1.3741
3.7267
2.0193
Arizona
nonpoint
0.0035
0.0040
0.0064
0.0083
0.0504
0.0641
0.0604
0.0764
ptipm
0.0062
0.0072
0.0567
0.1336
0.5648
0.8031
0.6276
0.9439
ptnonipm
0.0272
0.0349
0.0306
0.0390
0.1740
0.2279
0.2318
0.3018
Arizona
Total
0.0369
0.0461
0.0937
0.1809
0.7892
1.0951
0.9198
1.3221
Arkansas
nonpoint
0.0018
0.0017
0.0030
0.0029
0.0287
0.0457
0.0335
0.0503
ptipm
0.0009
0.0013
0.1434
0.2514
0.3624
0.6218
0.5067
0.8744
ptnonipm
0.1614
0.1783
0.2037
0.2222
0.4140
0.4583
0.7792
0.8587
Arkansas
Total
0.1641
0.1812
0.3501
0.4765
0.8052
1.1258
1.3194
1.7834
California
nonpoint
0.4623
0.2669
0.6996
0.4121
1.3957
1.0021
2.5575
1.6812
ptipm
0.0014
0.0021
0.0016
0.0547
0.0068
0.0663
0.0098
0.1231
ptnonipm
0.7699
0.8420
1.1219
1.2832
2.6198
3.0592
4.5117
5.1843
California
Total
1.2335
1.1110
1.8232
1.7499
4.0224
4.1276
7.0791
6.9885
Colorado
nonpoint
0.0022
0.0020
0.0033
0.0030
0.0423
0.0565
0.0478
0.0615
ptipm
0.0035
0.0053
0.0989
0.1076
0.1534
0.1461
0.2558
0.2590
ptnonipm
0.0271
0.0392
0.0292
0.0421
0.1770
0.2559
0.2332
0.3372
Colorado
Total
0.0328
0.0465
0.1314
0.1527
0.3727
0.4585
0.5369
0.6577
Connecticut
nonpoint
0.0240
0.0247
0.0365
0.0378
0.0913
0.1052
0.1517
0.1678
ptipm
0.0014
0.0060
0.0032
0.0056
0.0376
0.0241
0.0422
0.0358
ptnonipm
0.0494
0.0524
0.1174
0.1195
0.0801
0.0899
0.2468
0.2618
Connecticut
Total
0.0748
0.0831
0.1570
0.1629
0.2089
0.2193
0.4407
0.4653
Delaware
nonpoint
0.0014
0.0014
0.0022
0.0022
0.0113
0.0145
0.0150
0.0181
ptipm
0.0075
0.0021
0.0722
0.0111
0.0295
0.1074
0.1092
0.1206
ptnonipm
0.0061
0.0067
0.0334
0.0312
0.5520
0.5044
0.5915
0.5423
Delaware
Total
0.0150
0.0102
0.1079
0.0446
0.5928
0.6263
0.7157
0.6811
District
of
Columbia
nonpoint
0.0005
0.0005
0.0008
0.0008
0.0031
0.0030
0.0044
0.0042
ptipm
0.0000
0.0001
0.0015
0.0016
ptnonipm
0.0002
0.0002
0.0004
0.0004
0.0006
0.0006
0.0012
0.0012
District
of
Columbia
Total
0.0008
0.0007
0.0012
0.0013
0.0037
0.0050
0.0057
0.0070
Florida
nonpoint
0.0279
0.0292
0.0467
0.0531
0.2023
0.2523
0.2768
0.3346
ptipm
0.0423
0.0232
0.4447
0.1296
0.4879
0.3574
0.9750
0.5102
ptnonipm
0.4313
0.3305
0.9014
0.6317
0.8293
0.6985
2.1620
1.6607
Florida
Total
0.5014
0.3829
1.3928
0.8144
1.5195
1.3082
3.4138
2.5055
Georgia
nonpoint
0.0101
0.0090
0.0156
0.0144
0.1113
0.1581
0.1370
0.1816
ptipm
0.0614
0.0040
0.8239
0.2863
0.6061
0.9496
1.4914
1.2399
ptnonipm
0.1177
0.0861
0.2022
0.1429
0.8665
0.7433
1.1863
0.9723
Georgia
Total
0.1892
0.0992
1.0417
0.4436
1.5839
1.8510
2.8148
2.3938
Idaho
nonpoint
0.0138
0.0107
0.0225
0.0163
0.0471
0.0473
0.0835
0.0743
ptipm
0.0000
0.0000
0.0000
0.0000
ptnonipm
0.1051
0.1106
0.1347
0.1321
0.5149
0.6476
0.7548
0.8903
Idaho
Total
0.1189
0.1213
0.1573
0.1485
0.5621
0.6949
0.8383
0.9646
17
PGHI
HGIIGAS
Elem
HG
Total
HG
State
Sector
2001
2020
2001
2020
2001
2020
2001
2020
Illinois
nonpoint
0.0058
0.0057
0.0098
0.0105
0.1251
0.1826
0.1407
0.1988
ptipm
0.0358
0.1008
1.0714
0.5336
1.8883
1.0114
2.9954
1.6458
ptnonipm
0.4316
0.5280
0.5359
0.6586
2.2359
2.8642
3.2034
4.0507
Illinois
Total
0.4732
0.6345
1.6171
1.2027
4.2492
4.0582
6.3395
5.8954
Indiana
nonpoint
0.0061
0.0061
0.0095
0.0099
0.0706
0.1031
0.0861
0.1191
ptipm
0.1030
0.0848
1.2845
0.3637
1.0693
1.0462
2.4568
1.4947
ptnonipm
0.3389
0.3156
0.5100
0.4294
0.9891
0.9931
1.8380
1.7381
Indiana
Total
0.4480
0.4065
1.8039
0.8029
2.1290
2.1424
4.3809
3.3519
Iowa
nonpoint
0.0046
0.0046
0.0071
0.0073
0.0398
0.0539
0.0515
0.0658
ptipm
0.0041
0.0184
0.2565
0.3422
0.7148
0.6320
0.9753
0.9926
ptnonipm
0.0182
0.0304
0.0273
0.0453
0.0455
0.0762
0.0910
0.1519
Iowa
Total
0.0269
0.0534
0.2909
0.3948
0.8000
0.7621
1.1178
1.2104
Kansas
nonpoint
0.0018
0.0020
0.0029
0.0033
0.0322
0.0464
0.0370
0.0517
ptipm
0.0084
0.0039
0.0986
0.1275
0.7279
0.9096
0.8349
1.0411
ptnonipm
0.0692
0.0870
0.0723
0.0921
0.2027
0.2541
0.3443
0.4332
Kansas
Total
0.0794
0.0928
0.1739
0.2229
0.9629
1.2102
1.2162
1.5260
Kentucky
nonpoint
0.0052
0.0050
0.0079
0.0077
0.0438
0.0603
0.0569
0.0729
ptipm
0.0730
0.0144
0.8701
0.1507
0.7983
0.5217
1.7414
0.6868
ptnonipm
0.3679
0.1983
0.4217
0.2659
0.9760
0.5259
1.7656
0.9900
Kentucky
Total
0.4461
0.2177
1.2997
0.4242
1.8181
1.1078
3.5639
1.7497
Louisiana
nonpoint
0.0025
0.0023
0.0040
0.0038
0.0407
0.0642
0.0472
0.0703
ptipm
0.0020
0.0109
0.1332
0.1438
0.3708
0.2411
0.5060
0.3958
ptnonipm
0.1101
0.0931
0.1970
0.1767
1.4965
1.3450
1.8036
1.6148
Louisiana
Total
0.1146
0.1063
0.3342
0.3243
1.9079
1.6503
2.3568
2.0809
Maine
nonpoint
0.0156
0.0227
0.0465
0.0664
0.2107
0.2033
0.2729
0.2924
ptipm
0.0001
0.0175
0.0014
0.0275
0.0005
0.0176
0.0020
0.0626
ptnonipm
0.0213
0.0118
0.0589
0.0262
0.0983
0.0317
0.1784
0.0697
Maine
Total
0.0370
0.0520
0.1068
0.1201
0.3095
0.2526
0.4534
0.4247
Maryland
nonpoint
0.0123
0.0115
0.0190
0.0182
0.0741
0.0864
0.1054
0.1162
ptipm
0.0513
0.0395
0.5596
0.0520
0.3122
0.2035
0.9231
0.2950
ptnonipm
0.4531
0.1849
1.4068
0.3527
0.4363
0.4329
2.2962
0.9706
Maryland
Total
0.5167
0.2360
1.9854
0.4229
0.8226
0.7228
3.3246
1.3817
Massachusetts
nonpoint
0.0362
0.0367
0.0550
0.0563
0.1435
0.1614
0.2348
0.2544
ptipm
0.0098
0.0044
0.0975
0.0231
0.0392
0.2216
0.1465
0.2491
ptnonipm
0.1058
0.0551
0.3009
0.1526
0.1370
0.0857
0.5437
0.2934
Massachusetts
Total
0.1518
0.0963
0.4534
0.2319
0.3197
0.4687
0.9249
0.7969
Michigan
nonpoint
0.0110
0.0116
0.0179
0.0196
0.1197
0.1691
0.1486
0.2002
ptipm
0.0668
0.0998
0.7926
0.6131
0.7427
0.6079
1.6021
1.3208
ptnonipm
0.1481
0.1157
0.2767
0.1681
0.4034
0.3940
0.8283
0.6778
Michigan
Total
0.2259
0.2271
1.0872
0.8008
1.2658
1.1709
2.5789
2.1988
Minnesota
nonpoint
0.0090
0.0098
0.0148
0.0167
0.0747
0.1015
0.0985
0.1281
ptipm
0.0087
0.0075
0.0883
0.0943
0.5407
0.5775
0.6377
0.6793
ptnonipm
0.2238
0.2010
0.4788
0.3812
0.6012
0.6541
1.3038
1.2362
Minnesota
Total
0.2416
0.2183
0.5818
0.4922
1.2166
1.3331
2.0400
2.0436
18
PGHI
HGIIGAS
Elem
HG
Total
HG
State
Sector
2001
2020
2001
2020
2001
2020
2001
2020
Mississippi
nonpoint
0.0018
0.0019
0.0027
0.0029
0.0259
0.0395
0.0304
0.0443
ptipm
0.0095
0.0004
0.1422
0.0150
0.1879
0.0965
0.3396
0.1120
ptnonipm
0.1106
0.0929
0.1809
0.1291
0.3021
0.3060
0.5935
0.5280
Mississippi
Total
0.1218
0.0952
0.3259
0.1470
0.5159
0.4421
0.9636
0.6843
Missouri
nonpoint
0.0060
0.0061
0.0094
0.0099
0.0589
0.0820
0.0742
0.0980
ptipm
0.0064
0.0486
0.4507
0.5856
0.9147
1.1471
1.3717
1.7813
ptnonipm
0.0873
0.0839
0.0833
0.0802
0.2294
0.2205
0.4000
0.3845
Missouri
Total
0.0996
0.1386
0.5433
0.6757
1.2030
1.4496
1.8459
2.2639
Montana
nonpoint
0.0011
0.0011
0.0019
0.0021
0.0104
0.0140
0.0134
0.0173
ptipm
0.0064
0.0020
0.0350
0.0314
0.4296
0.2912
0.4710
0.3246
ptnonipm
0.0147
0.0087
0.0326
0.0142
0.0358
0.0329
0.0831
0.0559
Montana
Total
0.0223
0.0118
0.0695
0.0478
0.4757
0.3382
0.5675
0.3978
Nebraska
nonpoint
0.0013
0.0014
0.0021
0.0024
0.0175
0.0265
0.0210
0.0303
ptipm
0.0008
0.0015
0.0887
0.1622
0.3271
0.3880
0.4167
0.5517
ptnonipm
0.0084
0.0040
0.0091
0.0047
0.0530
0.0218
0.0705
0.0304
Nebraska
Total
0.0105
0.0068
0.1000
0.1693
0.3977
0.4363
0.5081
0.6124
Nevada
nonpoint
0.0018
0.0020
0.0032
0.0041
0.0196
0.0269
0.0246
0.0330
ptipm
0.0081
0.0012
0.0900
0.1664
0.0671
0.1420
0.1652
0.3096
ptnonipm
0.1798
0.1383
0.2691
0.2072
10.9281
1.8881
11.3770
2.2336
Nevada
Total
0.1897
0.1416
0.3623
0.3777
11.0147
2.0570
11.5668
2.5763
New
Hampshire
nonpoint
0.0128
0.0125
0.0195
0.0193
0.0433
0.0461
0.0756
0.0779
ptipm
0.0022
0.0056
0.0094
0.0311
0.0069
0.0447
0.0185
0.0814
ptnonipm
0.0316
0.0206
0.0680
0.0358
0.0585
0.0466
0.1581
0.1029
New
Hampshire
Total
0.0467
0.0387
0.0969
0.0861
0.1087
0.1374
0.2522
0.2622
New
Jersey
nonpoint
0.0446
0.0560
0.0961
0.1304
0.1464
0.1803
0.2872
0.3667
ptipm
0.0075
0.0049
0.0469
0.0917
0.0484
0.1290
0.1028
0.2257
ptnonipm
0.1763
0.1896
0.3345
0.3437
0.5100
0.5831
1.0207
1.1164
New
Jersey
Total
0.2284
0.2506
0.4776
0.5658
0.7048
0.8925
1.4107
1.7088
New
Mexico
nonpoint
0.0012
0.0012
0.0020
0.0023
0.0184
0.0237
0.0216
0.0272
ptipm
0.0104
0.0056
0.0438
0.0382
1.0366
0.6197
1.0908
0.6635
ptnonipm
0.0071
0.0080
0.0097
0.0107
0.0289
0.0345
0.0457
0.0531
New
Mexico
Total
0.0187
0.0148
0.0555
0.0512
1.0839
0.6778
1.1581
0.7438
New
York
nonpoint
0.0649
0.0640
0.0991
0.0988
0.4881
0.6666
0.6522
0.8295
ptipm
0.0786
0.0158
0.3590
0.1279
0.3502
0.4359
0.7878
0.5796
ptnonipm
0.2212
0.2151
0.4742
0.4320
0.4135
0.4410
1.1089
1.0880
New
York
Total
0.3647
0.2949
0.9322
0.6587
1.2519
1.5436
2.5489
2.4971
North
Carolina
nonpoint
0.0100
0.0092
0.0156
0.0147
0.0907
0.1083
0.1162
0.1321
ptipm
0.1130
0.0136
1.0421
0.2157
0.4982
0.7423
1.6533
0.9716
ptnonipm
0.1942
0.1227
0.5075
0.2035
0.4506
0.3061
1.1523
0.6324
North
Carolina
Total
0.3172
0.1455
1.5651
0.4339
1.0395
1.1567
2.9218
1.7361
North
Dakota
nonpoint
0.0016
0.0016
0.0024
0.0025
0.0120
0.0167
0.0160
0.0207
ptipm
0.0171
0.0063
0.1380
0.1314
0.8669
0.8671
1.0220
1.0048
ptnonipm
0.0453
0.0129
0.1390
0.0178
0.0583
0.0549
0.2426
0.0856
North
Dakota
Total
0.0639
0.0208
0.2795
0.1516
0.9372
0.9387
1.2807
1.1111
19
PGHI
HGIIGAS
Elem
HG
Total
HG
State
Sector
2001
2020
2001
2020
2001
2020
2001
2020
Ohio
nonpoint
0.0158
0.0168
0.0248
0.0270
0.1294
0.1800
0.1701
0.2238
ptipm
0.1582
0.0138
1.8115
0.2214
1.5902
0.9755
3.5599
1.2108
ptnonipm
0.1369
0.1223
0.2240
0.2262
1.1810
1.0647
1.5420
1.4133
Ohio
Total
0.3109
0.1529
2.0603
0.4747
2.9007
2.2202
5.2720
2.8478
Oklahoma
nonpoint
0.0025
0.0022
0.0040
0.0037
0.0362
0.0545
0.0427
0.0604
ptipm
0.0017
0.0144
0.1894
0.3253
0.6698
0.7707
0.8609
1.1105
ptnonipm
0.0600
0.0677
0.1046
0.0979
0.1683
0.2175
0.3329
0.3831
Oklahoma
Total
0.0642
0.0843
0.2979
0.4269
0.8743
1.0427
1.2365
1.5539
Oregon
nonpoint
0.0163
0.0150
0.0253
0.0242
0.0728
0.0793
0.1144
0.1185
ptipm
0.0005
0.0030
0.0284
0.0334
0.0552
0.0126
0.0842
0.0490
ptnonipm
0.4123
0.5075
0.6114
0.7609
1.3943
1.6943
2.4180
2.9627
Oregon
Total
0.4291
0.5255
0.6652
0.8186
1.5223
1.7862
2.6166
3.1302
Pennsylvania
nonpoint
0.0459
0.0459
0.0703
0.0711
0.1995
0.2290
0.3157
0.3460
ptipm
0.3231
0.0256
3.0027
0.5597
1.7882
2.8896
5.1140
3.4749
ptnonipm
0.4232
0.3913
0.7699
0.6087
1.0207
1.1212
2.2138
2.1213
Pennsylvania
Total
0.7922
0.4628
3.8428
1.2396
3.0085
4.2398
7.6435
5.9422
Rhode
Island
nonpoint
0.0063
0.0065
0.0096
0.0100
0.0231
0.0263
0.0391
0.0428
ptipm
0.0000
0.0000
0.0000
0.0000
ptnonipm
0.0286
0.0271
0.0522
0.0540
0.0621
0.0545
0.1429
0.1357
Rhode
Island
Total
0.0349
0.0336
0.0619
0.0641
0.0852
0.0808
0.1820
0.1785
South
Carolina
nonpoint
0.0061
0.0050
0.0094
0.0079
0.0453
0.0630
0.0607
0.0759
ptipm
0.0282
0.0146
0.3065
0.1343
0.2072
0.1384
0.5419
0.2873
ptnonipm
0.2172
0.1707
0.3620
0.3424
0.4573
0.3179
1.0364
0.8310
South
Carolina
Total
0.2514
0.1902
0.6778
0.4846
0.7098
0.5193
1.6390
1.1942
South
Dakota
nonpoint
0.0011
0.0011
0.0017
0.0018
0.0101
0.0147
0.0129
0.0176
ptipm
0.0002
0.0001
0.0180
0.0245
0.0373
0.0549
0.0556
0.0795
ptnonipm
0.0011
0.0012
0.0017
0.0017
0.0029
0.0029
0.0058
0.0058
South
Dakota
Total
0.0025
0.0024
0.0214
0.0280
0.0503
0.0725
0.0742
0.1029
Tennessee
nonpoint
0.0050
0.0052
0.0077
0.0081
0.0585
0.0882
0.0713
0.1014
ptipm
0.0608
0.0390
0.6869
0.0670
0.3774
0.2835
1.1251
0.3895
ptnonipm
0.0826
0.0816
0.1880
0.1543
0.8144
0.7882
1.0851
1.0241
Tennessee
Total
0.1485
0.1258
0.8826
0.2294
1.2504
1.1599
2.2815
1.5150
Texas
nonpoint
0.0142
0.0127
0.0225
0.0213
0.2035
0.2516
0.2402
0.2856
ptipm
0.1222
0.0289
1.5110
0.5198
3.2037
2.4888
4.8370
3.0374
ptnonipm
0.4588
0.3023
0.5790
0.3863
2.1978
1.5057
3.2356
2.1943
Texas
Total
0.5952
0.3438
2.1125
0.9274
5.6050
4.2461
8.3128
5.5173
Utah
nonpoint
0.0016
0.0015
0.0025
0.0024
0.0252
0.0338
0.0293
0.0376
ptipm
0.0053
0.0051
0.0594
0.0455
0.0769
0.1391
0.1416
0.1898
ptnonipm
0.1906
0.0531
0.3195
0.0659
0.4123
0.1662
0.9224
0.2851
Utah
Total
0.1975
0.0597
0.3814
0.1138
0.5144
0.3391
1.0933
0.5125
Vermont
nonpoint
0.0041
0.0042
0.0063
0.0065
0.0160
0.0185
0.0264
0.0292
ptipm
0.0004
0.0043
0.0016
0.0064
ptnonipm
0.0001
0.0002
0.0002
0.0003
0.0004
0.0006
0.0008
0.0011
Vermont
Total
0.0043
0.0048
0.0065
0.0112
0.0164
0.0207
0.0272
0.0367
20
PGHI
HGIIGAS
Elem
HG
Total
HG
State
Sector
2001
2020
2001
2020
2001
2020
2001
2020
Virginia
nonpoint
0.0135
0.0125
0.0207
0.0196
0.0930
0.1177
0.1271
0.1498
ptipm
0.0383
0.0116
0.4223
0.1948
0.1727
0.2577
0.6333
0.4641
ptnonipm
0.1313
0.0956
0.2620
0.1826
0.3660
0.2618
0.7592
0.5400
Virginia
Total
0.1830
0.1197
0.7050
0.3970
0.6316
0.6372
1.5196
1.1539
Washington
nonpoint
0.0019
0.0028
0.0042
0.0069
0.0597
0.0901
0.0657
0.0999
ptipm
0.0036
0.0014
0.0865
0.0111
0.1908
0.2634
0.2809
0.2760
ptnonipm
0.0481
0.0306
0.0920
0.0474
0.3678
0.0943
0.5079
0.1723
Washington
Total
0.0536
0.0349
0.1826
0.0655
0.6183
0.4478
0.8545
0.5482
West
Virginia
nonpoint
0.0023
0.0022
0.0036
0.0034
0.0219
0.0303
0.0279
0.0359
ptipm
0.1333
0.0072
1.5025
0.1139
0.8310
1.2113
2.4667
1.3324
ptnonipm
0.0273
0.0199
0.0878
0.0579
0.6062
0.5564
0.7212
0.6342
West
Virginia
Total
0.1629
0.0294
1.5938
0.1752
1.4591
1.7980
3.2158
2.0026
Wisconsin
nonpoint
0.0103
0.0114
0.0160
0.0181
0.0776
0.1058
0.1038
0.1353
ptipm
0.0136
0.0170
0.3660
0.2785
0.7761
0.9683
1.1557
1.2638
ptnonipm
0.1652
0.1864
0.2881
0.3025
0.9532
0.9851
1.4064
1.4741
Wisconsin
Total
0.1891
0.2148
0.6700
0.5992
1.8069
2.0592
2.6660
2.8732
Wyoming
nonpoint
0.0006
0.0006
0.0010
0.0010
0.0064
0.0085
0.0080
0.0102
ptipm
0.0117
0.0046
0.0810
0.0645
0.8599
0.8732
0.9526
0.9423
ptnonipm
0.0146
0.0134
0.0268
0.0163
0.0585
0.0758
0.0999
0.1055
Wyoming
Total
0.0269
0.0186
0.1088
0.0819
0.9248
0.9575
1.0604
1.0580
Grand
Total
10.2863
8.2146
35.4213
19.5331
69.1189
59.4617
114.8265
87.2093
A­
1
APPENDIX
A:
Inventory
Revisions
for
Mercury
The
detailed
revisions
we
made
to
mercury
emissions
from
the
1999
NEI,
July
2003
version
that
are
discussed
in
Section
2
are
shown
below.

1.
Point
source
corrections
 
Deleted
NTI34015
(
Elk
River
FFR)
,
duplicates
Great
River
Energy
Municipal
Waste
Combustor
(
0.07248506695
tons)
 
Deleted
NTI309
(
Hampton/
NASA
Steam
Plant),
duplicates
NTI42314
(
0.0693115
tons)
 
Deleted
NTIIL0317827,
ILLINOIS
STATE
POLICE
which
was
misclassified
as
a
municipal
waste
incinerator
and
used
an
emission
factor
pertaining
to
MWC
(
0.0097843
tons)
 
Deleted
NTIPA04523­
3
(
EXELON
GENERATION
CO/
EDDYSTONE)
which
is
a
duplicate
of
NTI8206,
EDDYSTONE
(
emissions
=
0.27
tons)

2.
Table
A­
1:
Non­
point
source
deletions
SCC
Description
States
Affected
Emissions
(
tons)
2311030000
Construction
­
Roads
CA
0.9714015
2610000000
Open
Burning
­
All
types
(
not
specified)
CA
0.0160686
2610000300
Open
Burning
­
Yard
Waste:
Weed
Species
Unspecified
CA
0.0097526
2801000003
Agricultural
Crop
Tilling
CA
1.2816584
2801500000
Agricultural
Field
Burning
­
all
crops
CA
0.1066325
2805000000
Agricultural
Production
­
Livestock
CA
0.0863428
2810001000
Open
Burning
­
Forest
and
Wildfires
CA,
OR
0.0048924
(
CA)
+
0.0432892287(
OR)
2810015000
Open
Burning
­
Prescribed
Burning
CA,
OR
0.091182
(
CA)
+
0.0706430943
(
OR)

3.
Table
A­
2:
MACT
and
SIC
Code
revisions
MACT
Code
Original
MACT
Code
Revised
SIC
Code
S
IC
Code
Revised
SCC
0703
0107
0704
0107
0709
0107
0710
0107
0711
0107
0713
0107
0715
0107
0716
0107
1314
0107
A­
2
MACT
Code
Original
MACT
Code
Revised
SIC
Code
S
IC
Code
Revised
SCC
1328
0107
1621
0107
1624
0107
1629
0107
1635
0107
0107
2011
0107
2022
0107
2026
0107
2033
0107
2034
0107
2045
0107
2046
0107
2048
0107
2051
0107
2063
0107
2064
0107
2066
0107
2077
0107
2082
0107
2099
0107
2111
0107
2211
0107
2221
0107
2261
0107
2262
0107
2269
0107
2295
0107
2311
0107
2399
0107
2421
0107
2431
0107
2435
0107
2439
0107
2491
0107
2493
0107
2499
0107
2511
0107
2512
Is
null
0107
2521
Is
null
0107
2531
Is
null
0107
2542
Is
null
0107
26
Is
null
0107
2611
Is
null
0107
2621
Is
null
0107
2631
Is
null
0107
2652
A­
3
MACT
Code
Original
MACT
Code
Revised
SIC
Code
S
IC
Code
Revised
SCC
Is
null
0107
2655
Is
null
0107
2657
Is
null
0107
2672
Is
null
0107
2673
Is
null
0107
2721
Is
null
0107
2731
Is
null
0107
2741
Is
null
0107
2752
Is
null
0107
2759
Is
null
0107
2821
Is
null
0107
2824
Is
null
0107
2893
Is
null
0107
3069
Is
null
0107
3081
Is
null
0107
3083
Is
null
0107
3085
Is
null
0107
3086
Is
null
0107
3088
Is
null
0107
3295
Is
null
0107
3296
Is
null
0107
3297
Is
null
0107
3299
Is
null
0107
3315
Is
null
0107
3316
Is
null
0107
3317
Is
null
0107
3351
Is
null
0107
3353
Is
null
0107
3354
Is
null
0107
3357
Is
null
0107
3398
Is
null
0107
3423
Is
null
0107
3429
Is
null
0107
3432
Is
null
0107
3433
Is
null
0107
3443
Is
null
0107
3444
Is
null
0107
3449
Is
null
0107
3452
Is
null
0107
3462
Is
null
0107
3482
Is
null
0107
3489
Is
null
0107
3511
Is
null
0107
3519
Is
null
0107
3523
Is
null
0107
3524
Is
null
0107
3531
A­
4
MACT
Code
Original
MACT
Code
Revised
SIC
Code
S
IC
Code
Revised
SCC
Is
null
0107
3544
Is
null
0107
3545
Is
null
0107
3565
Is
null
0107
3572
Is
null
0107
3579
Is
null
0107
3612
Is
null
0107
3643
Is
null
0107
3644
Is
null
0107
3651
Is
null
0107
3661
Is
null
0107
3663
Is
null
0107
3671
Is
null
0107
3672
Is
null
0107
3674
Is
null
0107
3679
Is
null
0107
3699
Is
null
0107
3731
Is
null
0107
3732
Is
null
0107
3931
Is
null
0107
3944
Is
null
0107
3991
Is
null
0107
3993
Is
null
0107
3995
Is
null
0107
3999
Is
null
0107
4011
Is
null
0107
4222
Is
null
0107
4225
Is
null
0107
4741
Is
null
0107
4813
Is
null
0107
49
Is
null
0107
4911
Is
null
0107
4925
Is
null
0107
4931
Is
null
0107
4939
Is
null
0107
4959
Is
null
0107
4961
Is
null
0107
5072
Is
null
0107
5084
Is
null
0107
5211
Is
null
0107
5261
Is
null
0107
5311
Is
null
0107
5331
Is
null
0107
5511
Is
null
0107
5699
Is
null
0107
5712
Is
null
0107
5813
A­
5
MACT
Code
Original
MACT
Code
Revised
SIC
Code
S
IC
Code
Revised
SCC
Is
null
0107
5912
Is
null
0107
5921
Is
null
0107
6021
Is
null
0107
6061
Is
null
0107
6311
Is
null
0107
6411
Is
null
0107
6512
Is
null
0107
6514
Is
null
0107
6531
Is
null
0107
7011
Is
null
0107
7033
Is
null
0107
7216
Is
null
0107
7218
Is
null
0107
7374
Is
null
0107
7521
Is
null
0107
7538
Is
null
0107
7694
Is
null
0107
7699
Is
null
0107
7819
Is
null
0107
7996
Is
null
0107
7997
Is
null
0107
7999
Is
null
0107
8011
Is
null
0107
8052
Is
null
0107
8059
Is
null
0107
8062
Is
null
0107
8063
Is
null
0107
8092
Is
null
0107
8099
Is
null
0107
8211
Is
null
0107
8221
Is
null
0107
8322
Is
null
0107
8422
Is
null
0107
8641
Is
null
0107
8661
Is
null
0107
8699
Is
null
0107
8731
Is
null
0107
8733
Is
null
0107
8734
Is
null
0107
8811
Is
null
0107
8999
Is
null
0107
9111
Is
null
0107
9199
Is
null
0107
9221
Is
null
0107
9223
Is
null
0107
9229
A­
6
MACT
Code
Original
MACT
Code
Revised
SIC
Code
S
IC
Code
Revised
SCC
Is
null
0107
9511
Is
null
0107
9512
Is
null
0107
9531
Is
null
0107
9641
Is
null
0107
9711
Is
null
0107
9999
Is
null
0107
8060
Is
null
0107
1500
724
0724
723
0723
Is
null
0107
Is
null
501001
Is
null
0107
Is
null
20200204
Is
null
0107
Is
null
39999999
B­
1
Appendix
B:
Mercury
Speciation
Table
B­
1:
MACT­
code
based
speciation
profiles:
(
provided
by
Anne
Pope,
OAQPS,
3/
1/
2004)

MACT
Code
MACT
Code
Description
Particulate
Divalent
%
Gaseous
Divalent
%
Elemental
Gaseous
%
1808­
3
Utility
Boilers:
Oil
20
30
50
1808­
2
Utility
Boilers:
Natural
Gas
20
30
50
1808­
1
Utility
Boilers:
Coal
­
use
one
of
45
bins
1807­
2
Other
Solid
Waste
Incineration
­
Crematories
20
58
22
1626­
3
Pulp
and
Paper
Production
­
NonMACT
Facilities
20
30
50
1626­
2
Pulp
&
Paper
Production
­
Chemical
Recovery
Combustion
Sources
at
Kraft,
Soda,
Sulfite,
and
Standalone
Semichemical
Pulping
Mills
(
Subpart
MM)
20
30
50
1626­
1
Pulp
&
Paper
Production
­
Pulping
and
Bleaching
Systems
at
Kraft,
Soda,
Sulfite,
and
Semichemical
Pulping
Mills
(
Subpart
S)
20
30
50
0801­
4
Lightweight
Aggregate
Kilns
22
20
58
0801­
3
Cement
Kilns
22
20
58
0801­
2
On­
Site
Hazardous
Waste
Incinerators
22
20
58
0801­
1
Commercial
Hazardous
Waste
Incinerators
22
20
58
0107­
4
Industrial/
Commercial/
Institutional
Boilers
&
Process
Heaters:
Wood/
Waste
20
30
50
0107­
3
Industrial/
Commercial/
Institutional
Boilers
&
Process
Heaters:
Oil
20
30
50
0107­
2
Industrial/
Commercial/
Institutional
Boilers
&
Process
Heaters:
Natural
Gas
20
30
50
0107­
1
Industrial/
Commercial/
Institutional
Boilers
&
Process
Heaters:
Coal
20
30
50
0101­
2
Rocket
Engine
Test
Firing
20
30
50
0101­
1
Engine
Test
Facilities
20
30
50
1802
Municipal
Waste
Combustors
20
58
22
1801
Medical
Waste
Incinerators
20
75
5
1642
Miscellaneous
Coating
Manufacturing
10
10
80
1641
Miscellaneous
Organic
Chemical
Manufacturing
10
10
80
1640
Miscellaneous
Organic
Chemical
Processes
10
10
80
1636
Friction
Products
Manufacturing
10
10
80
1635
Ethylene
Processes
10
10
80
B­
2
MACT
Code
MACT
Code
Description
Particulate
Divalent
%
Gaseous
Divalent
%
Elemental
Gaseous
%
1634
Leather
Tanning
&
Finishing
Opers
10
10
80
1631
Tire
Production
10
10
80
1629
Semiconductor
Manufacturing
10
10
80
1627
Rocket
Engine
Test
Firing
20
30
50
1626
Pulp
&
Paper
Production
20
30
50
1624
Plywood
&
Composite
Wood
Products
10
10
80
1621
Paint
Stripping
Operations
10
10
80
1619
Industrial
Cooling
Towers
10
10
80
1610
Decorative
Chromium
Electroplating
10
10
80
1501
Synthetic
Organic
Chemical
Manufacturing
(
HON)
10
10
80
1415
Carbon
Black
Production
10
10
80
1414
Uranium
Hexafluoride
Production
10
10
80
1409
Hydrogen
Fluoride
Production
10
10
80
1407
Hydrochloric
Acid
Production
10
10
80
1406
Fumed
Silica
Production
10
10
80
1403
Mercury
chlor­
alkali
plants
(
formerly
called
Chlorine
Production)
0
5
95
1347
Amino/
Phenolic
Resins
Production
10
10
80
1337
Reinforced
Plastic
Composites
Production
10
10
80
1328
Polyethylene
Terephthalate
Production
10
10
80
1314
Flexible
Polyurethane
Foam
Production
10
10
80
1305
Boat
Manufacturing
10
10
80
1302
Acrylonitrile­
Butadiene­
Styrene
Prod
10
10
80
1201
Pharmaceuticals
Production
10
10
80
1103
Solvent
Extraction
for
Vegetable
Oil
Production
10
10
80
0806
Off­
Site
Waste
&
Recovery
Operations
10
10
80
0805
Site
Remediation
10
10
80
0804
Sewage
Sludge
Incineration
20
58
22
0803
Pubicly
Owned
Treatment
Works
(
POTW)
Emissions
10
10
80
0802
Municipal
Landfills
10
10
80
0801
Hazardous
Waste
Incineration
22
20
58
0716
Wood
Furniture
(
Surface
Coating)
10
10
80
0715
Shipbuilding
&
Ship
Repair
(
Surface
Coating)
10
10
80
0714
Printing/
Publishing
(
Surface
Coating)
10
10
80
0713
Printing,
Coating
&
Dyeing
Of
Fabrics
20
30
50
0712
Plastic
Parts
&
Products
(
Surface
Coating)
10
10
80
0711
Paper
&
Other
Webs
(
Surface
Coating)
10
10
80
0710
Miscellaneous
Metal
Parts
&
Products
(
Surface
Coating)
10
10
80
0709
Metal
Furniture
(
Surface
Coating)
10
10
80
0708
Metal
Coil
(
Surface
Coating)
10
10
80
0707
Metal
Can
(
Surface
Coating)
10
10
80
0704
Large
Appliance
(
Surface
Coating)
10
10
80
0703
Wood
Building
Products
(
Surface
Coating)
20
30
50
0701
Aerospace
Industries
10
10
80
0601
Gasoline
Distribution
(
Stage
I)
10
10
80
B­
3
MACT
Code
MACT
Code
Description
Particulate
Divalent
%
Gaseous
Divalent
%
Elemental
Gaseous
%
0504
Natural
Gas
Transmission
&
Storage
10
10
80
0503
Petroleum
Refineries
­
Other
Sources
Not
Distinctly
Listed
10
10
80
0502
Petroleum
Refineries
­
Cat
Cracking,
Reforming,
&
Sulfur
Plant
Units
10
10
80
0501
Oil
&
Natural
Gas
Production
10
10
80
0418
Asphalt
Roofing
and
Processing
10
10
80
0415
Clay
Ceramics
Manufacturing
10
10
80
0414
Brick
and
Structural
Clay
Products
Manufacturing
10
10
80
0412
Wool
Fiberglass
Manufacturing
10
10
80
0411
Taconite
Iron
Ore
Processing
10
10
80
0410
Portland
Cement
Manufacturing
12
13
75
0408
Lime
Manufacturing
10
10
80
0407
Clay
Products
Manufacturing
10
10
80
0405
Asphalt
Roofing
Manufacturing
10
10
80
0404
Asphalt
Processing
10
10
80
0403
Asphalt
Concrete
Manufacturing
10
10
80
0310
Steel
Pickling
­
HCL
Process
10
10
80
0309
Steel
Foundries
10
10
80
0308
Iron
Foundries
10
10
80
0305
Integrated
Iron
&
Steel
Manufacturing
10
10
80
0304
Ferroalloys
Production
10
10
80
0303
Coke
Ovens:
Pushing,
Quenching,
&
Battery
Stacks
10
10
80
0302
Coke
Ovens:
Charging,
Top
Side,
and
Door
Leaks
10
10
80
0205
Secondary
Lead
Smelting
10
10
80
0204
Primary
Lead
Smelting
10
10
80
0203
Primary
Copper
Smelting
10
10
80
0202
Secondary
Aluminum
Production
10
10
80
0201
Primary
Aluminum
Production
10
10
80
0108
Stationary
Combustion
Turbines
20
30
50
0107
Industrial/
Commercial/
Institutional
Boilers
&
Process
Heaters
20
30
50
0105
Stationary
Reciprocal
Internal
Combustion
Engines
20
30
50
B­
4
Table
B­
2:
SCC­
code
based
speciation
profiles*

SCC
SCC
description
Particulate
Divalent
%
Gaseous
Divalent
%
Elemental
Gaseous
%

102
External
Combustion
Boilers,
Industrial,
20
30
50
201
Internal
Combustion
Engines,
Electric
Generation,
20
30
50
304004
Industrial
Processes,
Secondary
Metal
Production,
Lead,
10
10
80
307006
Industrial
Processes,
Pulp
and
Paper
and
Wood
Products,
Particleboard
Manufacture,
10
10
80
385001
Industrial
Processes,
Cooling
Tower,
Process
Cooling,
10
10
80
390006
Industrial
Processes,
In­
process
Fuel
Use,
Natural
Gas
20
30
50
501001
Waste
Disposal,
Solid
Waste
Disposal
­
Government,
Municipal
Incineration
20
58
22
501005
Waste
Disposal,
Solid
Waste
Disposal
­
Government,
Other
Incineration,
20
75
5
10100101
External
Combustion
Boilers,
Electric
Generation,
Anthracite
Coal,
Pulverized
Coal
20
30
50
10100201
External
Combustion
Boilers,
Electric
Generation,
Bituminous/
Subbituminous
Coal,
Pulverized
Coal:
Wet
Bottom
(
Bituminous
Coal)
20
30
50
10100202
External
Combustion
Boilers,
Electric
Generation,
Bituminous/
Subbituminous
Coal,
Pulverized
Coal:
Dry
Bottom
(
Bituminous
Coal)
20
30
50
10100204
External
Combustion
Boilers,
Electric
Generation,
Bituminous/
Subbituminous
Coal,
Spreader
Stoker
(
Bituminous
Coal)
20
30
50
10100212
External
Combustion
Boilers,
Electric
Generation,
Bituminous/
Subbituminous
Coal,
Pulverized
Coal:
Dry
Bottom
(
Tangential)
(
Bituminous
Coal)
20
30
50
10100218
External
Combustion
Boilers,
Electric
Generation,
Bituminous/
Subbituminous
Coal,
Atmospheric
Fluidized
Bed
Combustion:
Circulating
Bed
(
Bitum.
Coal)
20
30
50
10100222
External
Combustion
Boilers,
Electric
Generation,
Bituminous/
Subbituminous
Coal,
Pulverized
Coal:
Dry
Bottom
(
Subbituminous
Coal)
20
30
50
10100602
External
Combustion
Boilers,
Electric
Generation,
Natural
Gas,
Boilers
<
100
Million
Btu/
hr
except
Tangential
20
30
50
10100801
External
Combustion
Boilers,
Electric
Generation,
Coke,
All
Boiler
Sizes
20
30
50
10100901
External
Combustion
Boilers,
Electric
Generation,
Wood/
Bark
Waste,
Bark­
fired
Boiler
20
30
50
10100902
External
Combustion
Boilers,
Electric
Generation,
Wood/
Bark
Waste,
Wood/
Bark
Fired
Boiler
20
30
50
10100903
External
Combustion
Boilers,
Electric
Generation,
Wood/
Bark
Waste,
Wood­
fired
Boiler
­
Wet
Wood
(>=
20%
moisture)
20
30
50
10101101
External
Combustion
Boilers,
Electric
Generation,
Bagasse,
All
Boiler
Sizes
20
30
50
10101201
External
Combustion
Boilers,
Electric
Generation,
Solid
Waste,
Specify
Waste
Material
in
Comments
20
30
50
10101202
External
Combustion
Boilers,
Electric
Generation,
Solid
Waste,
Refuse
Derived
Fuel
20
30
50
20100107
Internal
Combustion
Engines,
Electric
Generation,
Distillate
Oil
(
Diesel),
Reciprocating:
Exhaust
20
30
50
20100202
Internal
Combustion
Engines,
Electric
Generation,
Natural
Gas,
Reciprocating
20
30
50
B­
5
SCC
SCC
description
Particulate
Divalent
%
Gaseous
Divalent
%
Elemental
Gaseous
%

20100802
Internal
Combustion
Engines,
Electric
Generation,
Landfill
Gas,
Reciprocating
20
30
50
20100901
Internal
Combustion
Engines,
Electric
Generation,
Kerosene/
Naphtha
(
Jet
Fuel),
Turbine
20
30
50
20101001
Internal
Combustion
Engines,
Electric
Generation,
Geysers/
Geothermal,
Steam
Turbine
20
30
50
20101010
Internal
Combustion
Engines,
Electric
Generation,
Geysers/
Geothermal,
Well
Drilling:
Steam
Emissions
20
30
50
20101020
Internal
Combustion
Engines,
Electric
Generation,
Geysers/
Geothermal,
Well
Pad
Fugitives:
Blowdown
20
30
50
20101021
Internal
Combustion
Engines,
Electric
Generation,
Geysers/
Geothermal,
Well
Pad
Fugitives:
Vents/
Leaks
20
30
50
20101031
Internal
Combustion
Engines,
Electric
Generation,
Geysers/
Geothermal,
Pipeline
Fugitives:
Vents/
Leaks
20
30
50
20200103
Internal
Combustion
Engines,
Industrial,
Distillate
Oil
(
Diesel),
Turbine:
Cogeneration
20
30
50
20200104
Internal
Combustion
Engines,
Industrial,
Distillate
Oil
(
Diesel),
Reciprocating:
Cogeneration
20
30
50
20200107
Internal
Combustion
Engines,
Industrial,
Distillate
Oil
(
Diesel),
Reciprocating:
Exhaust
20
30
50
20200204
Internal
Combustion
Engines,
Industrial,
Natural
Gas,
Reciprocating:
Cogeneration
20
30
50
20200253
Internal
Combustion
Engines,
Industrial,
Natural
Gas,
4­
cycle
Rich
Burn
20
30
50
20200254
Internal
Combustion
Engines,
Industrial,
Natural
Gas,
4­
cycle
Lean
Burn
20
30
50
20200301
Internal
Combustion
Engines,
Industrial,
Gasoline,
Reciprocating
20
30
50
20200402
Internal
Combustion
Engines,
Industrial,
Large
Bore
Engine,
Dual
Fuel
(
Oil/
Gas)
20
30
50
20200901
Internal
Combustion
Engines,
Industrial,
Kerosene/
Naphtha
(
Jet
Fuel),
Turbine
20
30
50
20300102
Internal
Combustion
Engines,
Commercial/
Institutional,
Distillate
Oil
(
Diesel),
Turbine
20
30
50
20300201
Internal
Combustion
Engines,
Commercial/
Institutional,
Natural
Gas,
Reciprocating
20
30
50
20300204
Internal
Combustion
Engines,
Commercial/
Institutional,
Natural
Gas,
Cogeneration
20
30
50
20400111
Internal
Combustion
Engines,
Engine
Testing,
Aircraft
Engine
Testing,
JP­
5
Fuel
20
30
50
28888801
Internal
Combustion
Engines,
Fugitive
Emissions,
Other
Not
Classified,
Specify
in
Comments
20
30
50
28888802
Internal
Combustion
Engines,
Fugitive
Emissions,
Other
Not
Classified,
Specify
in
Comments
20
30
50
30100509
Industrial
Processes,
Chemical
Manufacturing,
Carbon
Black
Production,
Furnace
Process:
Fugitive
Emissions
10
10
80
30101802
Industrial
Processes,
Chemical
Manufacturing,
Plastics
Production,
Polypropylene
and
Copolymers
10
10
80
30101839
Industrial
Processes,
Chemical
Manufacturing,
Plastics
Production,
Resin
Thinning
Tank
**
(
Use
6­
45­
200­
21
or
6­
45­
210­
21)
10
10
80
B­
6
SCC
SCC
description
Particulate
Divalent
%
Gaseous
Divalent
%
Elemental
Gaseous
%

30102499
Industrial
Processes,
Chemical
Manufacturing,
Synthetic
Organic
Fiber
Manufacturing,
Other
Not
Classified
10
10
80
30103399
Industrial
Processes,
Chemical
Manufacturing,
Pesticides,
Other
Not
Classified
10
10
80
30104501
Industrial
Processes,
Chemical
Manufacturing,
Organic
Fertilizer,
General:
Mixing/
Handling
10
10
80
30111201
Industrial
Processes,
Chemical
Manufacturing,
Elemental
Phosphorous,
Calciner
10
10
80
30111299
Industrial
Processes,
Chemical
Manufacturing,
Elemental
Phosphorous,
Other
Not
Classified
10
10
80
30112599
Industrial
Processes,
Chemical
Manufacturing,
Chlorine
Derivatives,
Other
Not
Classified
10
10
80
30183001
Industrial
Processes,
Chemical
Manufacturing,
General
Processes,
Storage/
Transfer
10
10
80
30187098
Industrial
Processes,
Chemical
Manufacturing,
Inorganic
Chemical
Storage
(
Fixed
Roof
Tanks),
Specify
Liquid:
Working
Loss
10
10
80
30190013
Industrial
Processes,
Chemical
Manufacturing,
Fuel
Fired
Equipment,
Natural
Gas:
Incinerators
20
30
50
30190014
Industrial
Processes,
Chemical
Manufacturing,
Fuel
Fired
Equipment,
Process
Gas:
Incinerators
20
30
50
30199999
Industrial
Processes,
Chemical
Manufacturing,
Other
Not
Classified,
Specify
in
Comments
Field
10
10
80
30200402
Industrial
Processes,
Food
and
Agriculture,
Cotton
Ginning,
Seed
Cotton
Cleaning
System
**
(
use
SCCs
3­
02­
004­
20,
21,
&
22)
20
30
50
30200407
Industrial
Processes,
Food
and
Agriculture,
Cotton
Ginning,
Lint
Cleaners
20
30
50
30200410
Industrial
Processes,
Food
and
Agriculture,
Cotton
Ginning,
General
­
Entire
Process,
Sum
of
Typical
Equip
Used
20
30
50
30200499
Industrial
Processes,
Food
and
Agriculture,
Cotton
Ginning,
Not
Classified
**
20
30
50
30200503
Industrial
Processes,
Food
and
Agriculture,
Feed
and
Grain
Terminal
Elevators,
Cleaning
10
10
80
30200505
Industrial
Processes,
Food
and
Agriculture,
Feed
and
Grain
Terminal
Elevators,
Unloading
(
Receiving)
10
10
80
30200601
Industrial
Processes,
Food
and
Agriculture,
Feed
and
Grain
Country
Elevators,
Shipping/
Receiving
**
10
10
80
30200602
Industrial
Processes,
Food
and
Agriculture,
Feed
and
Grain
Country
Elevators,
Transfer/
Convey
**
10
10
80
30200603
Industrial
Processes,
Food
and
Agriculture,
Feed
and
Grain
Country
Elevators,
Cleaning
10
10
80
30200604
Industrial
Processes,
Food
and
Agriculture,
Feed
and
Grain
Country
Elevators,
Drying
10
10
80
30200605
Industrial
Processes,
Food
and
Agriculture,
Feed
and
Grain
Country
Elevators,
Unloading
(
Receiving)
10
10
80
30200606
Industrial
Processes,
Food
and
Agriculture,
Feed
and
Grain
Country
Elevators,
Loading
(
Shipping)
10
10
80
30200607
Industrial
Processes,
Food
and
Agriculture,
Feed
and
Grain
Country
Elevators,
Removal
from
Bins
(
Tunnel
Belt)
10
10
80
B­
7
SCC
SCC
description
Particulate
Divalent
%
Gaseous
Divalent
%
Elemental
Gaseous
%

30200608
Industrial
Processes,
Food
and
Agriculture,
Feed
and
Grain
Country
Elevators,
Elevator
Legs
(
Headhouse)
10
10
80
30200609
Industrial
Processes,
Food
and
Agriculture,
Feed
and
Grain
Country
Elevators,
Tripper
(
Gallery
Belt)
10
10
80
30200611
Industrial
Processes,
Food
and
Agriculture,
Feed
and
Grain
Country
Elevators,
Elevator
Legs
(
Headhouse)
10
10
80
30200771
Industrial
Processes,
Food
and
Agriculture,
Grain
Millings,
Rice:
Grain
Receiving
10
10
80
30200772
Industrial
Processes,
Food
and
Agriculture,
Grain
Millings,
Rice:
Precleaning/
Handling
10
10
80
30200773
Industrial
Processes,
Food
and
Agriculture,
Grain
Millings,
Rice:
Drying
10
10
80
30200774
Industrial
Processes,
Food
and
Agriculture,
Grain
Millings,
Rice:
Cleaning/
Millhouse
10
10
80
30200799
Industrial
Processes,
Food
and
Agriculture,
Grain
Millings,
See
Comments
**
10
10
80
30200899
Industrial
Processes,
Food
and
Agriculture,
Feed
Manufacture,
Not
Classified
**
10
10
80
30201199
Industrial
Processes,
Food
and
Agriculture,
Wines,
Brandy,
and
Brandy
Spirits,
Other
Not
Classified
20
30
50
30201301
Industrial
Processes,
Food
and
Agriculture,
Meat
Smokehouses,
Combined
Operations
**
20
30
50
30201601
Industrial
Processes,
Food
and
Agriculture,
Sugar
Beet
Processing,
Pulp
Dryer
:
Coal­
fired
20
30
50
30201684
Industrial
Processes,
Food
and
Agriculture,
Sugar
Beet
Processing,
Lime
Kiln
:
Coal­
fired
20
30
50
30201799
Industrial
Processes,
Food
and
Agriculture,
Peanut
Processing,
Other
Not
Classified
10
10
80
30202201
Industrial
Processes,
Food
and
Agriculture,
Cotton
Seed
Delinting,
Acid
Delinting
of
Cotton
Seeds
20
30
50
30202601
Industrial
Processes,
Food
and
Agriculture,
Seed
Products
and
Processing,
Seed
Handling:
General
20
30
50
30203299
Industrial
Processes,
Food
and
Agriculture,
Bakeries,
Other
Not
Classified
20
30
50
30288801
Industrial
Processes,
Food
and
Agriculture,
Fugitive
Emissions,
Specify
in
Comments
Field
20
30
50
30288802
Industrial
Processes,
Food
and
Agriculture,
Fugitive
Emissions,
Specify
in
Comments
Field
20
30
50
30299998
Industrial
Processes,
Food
and
Agriculture,
Other
Not
Specified,
Other
Not
Classified
20
30
50
30299999
Industrial
Processes,
Food
and
Agriculture,
Other
Not
Specified,
Other
Not
Classified
20
30
50
30300201
Industrial
Processes,
Primary
Metal
Production,
Aluminum
Hydroxide
Calcining,
Overall
Process
10
10
80
30300820
Industrial
Processes,
Primary
Metal
Production,
Iron
Production
(
See
3­
03­
015
for
Integrated
Iron
&
Steel
MACT),
Sinter
Conveyor:
Transfer
Station
10
10
80
30300821
Industrial
Processes,
Primary
Metal
Production,
Iron
Production
(
See
3­
03­
015
for
Integrated
Iron
&
Steel
MACT),
Unload
Ore,
Pellets,
Limestone,
into
Blast
Furnace
10
10
80
B­
8
SCC
SCC
description
Particulate
Divalent
%
Gaseous
Divalent
%
Elemental
Gaseous
%

30300904
Industrial
Processes,
Primary
Metal
Production,
Steel
Manufacturing
(
See
3­
03­
015
for
Integrated
Iron
&
Steel
MACT),
Electric
Arc
Furnace:
Alloy
Steel
(
Stack)
10
10
80
30300908
Industrial
Processes,
Primary
Metal
Production,
Steel
Manufacturing
(
See
3­
03­
015
for
Integrated
Iron
&
Steel
MACT),
Electric
Arc
Furnace:
Carbon
Steel
(
Stack)
10
10
80
30300913
Industrial
Processes,
Primary
Metal
Production,
Steel
Manufacturing
(
See
3­
03­
015
for
Integrated
Iron
&
Steel
MACT),
Basic
Oxygen
Furnace:
Open
Hood­
Stack
10
10
80
30300915
Industrial
Processes,
Primary
Metal
Production,
Steel
Manufacturing
(
See
3­
03­
015
for
Integrated
Iron
&
Steel
MACT),
Hot
Metal
(
Iron)
Transfer
to
Steelmaking
Furnace
10
10
80
30300920
Industrial
Processes,
Primary
Metal
Production,
Steel
Manufacturing
(
See
3­
03­
015
for
Integrated
Iron
&
Steel
MACT),
Hot
Metal
Desulfurization
10
10
80
30300933
Industrial
Processes,
Primary
Metal
Production,
Steel
Manufacturing
(
See
3­
03­
015
for
Integrated
Iron
&
Steel
MACT),
Reheat
Furnaces
10
10
80
30300999
Industrial
Processes,
Primary
Metal
Production,
Steel
Manufacturing
(
See
3­
03­
015
for
Integrated
Iron
&
Steel
MACT),
Other
Not
Classified
10
10
80
30301301
Industrial
Processes,
Primary
Metal
Production,
Gold,
General
Processes
0
0
100
30302402
Industrial
Processes,
Primary
Metal
Production,
Metal
Mining
(
General
Processes),
Secondary
Crushing:
Low
Moisture
Ore
10
10
80
30302404
Industrial
Processes,
Primary
Metal
Production,
Metal
Mining
(
General
Processes),
Material
Handling:
Low
Moisture
Ore
10
10
80
30302411
Industrial
Processes,
Primary
Metal
Production,
Metal
Mining
(
General
Processes),
Ore
Drying
10
10
80
30303003
Industrial
Processes,
Primary
Metal
Production,
Zinc
Production,
Sinter
Strand
10
10
80
30400333
Industrial
Processes,
Secondary
Metal
Production,
Grey
Iron
Foundries,
Shakeout
Machine
10
10
80
30400402
Industrial
Processes,
Secondary
Metal
Production,
Lead,
Reverberatory
Furnace
10
10
80
30400403
Industrial
Processes,
Secondary
Metal
Production,
Lead,
Blast
Furnace
(
Cupola)
10
10
80
30400414
Industrial
Processes,
Secondary
Metal
Production,
Lead,
Kettle
Refining:
Fugitive
Emissions
10
10
80
30400513
Industrial
Processes,
Secondary
Metal
Production,
Lead
Battery
Manufacture,
Barton
Process:
Oxidation
Kettle
10
10
80
30400521
Industrial
Processes,
Secondary
Metal
Production,
Lead
Battery
Manufacture,
Overall
Process
10
10
80
30400599
Industrial
Processes,
Secondary
Metal
Production,
Lead
Battery
Manufacture,
Other
Not
Classified
10
10
80
30400723
Industrial
Processes,
Secondary
Metal
Production,
Steel
Foundries,
Conveyors/
Elevators
10
10
80
30405099
Industrial
Processes,
Secondary
Metal
Production,
Miscellaneous
Casting
Fabricating,
Other
Not
Classified
10
10
80
30490031
Industrial
Processes,
Secondary
Metal
Production,
Fuel
Fired
Equipment,
Distillate
Oil
(
No.
2):
Furnaces
20
30
50
B­
9
SCC
SCC
description
Particulate
Divalent
%
Gaseous
Divalent
%
Elemental
Gaseous
%

30490033
Industrial
Processes,
Secondary
Metal
Production,
Fuel
Fired
Equipment,
Natural
Gas:
Furnaces
20
30
50
30499999
Industrial
Processes,
Secondary
Metal
Production,
Other
Not
Classified,
Specify
in
Comments
Field
20
30
50
30500108
Industrial
Processes,
Mineral
Products,
Asphalt
Roofing
Manufacture,
Shingles
and
Rolls:
Coating
10
10
80
30500201
Industrial
Processes,
Mineral
Products,
Asphalt
Concrete,
Rotary
Dryer:
Conventional
Plant
(
see
3­
05­
002­
50
to
­
53
for
subtypes)
10
10
80
30500202
Industrial
Processes,
Mineral
Products,
Asphalt
Concrete,
Batch
Mix
Plant:
Hot
Elevs,
Screens,
Bins&
Mixer
(
also
see
­
45
thru
­
47
10
10
80
30500203
Industrial
Processes,
Mineral
Products,
Asphalt
Concrete,
Storage
Piles
10
10
80
30500204
Industrial
Processes,
Mineral
Products,
Asphalt
Concrete,
Cold
Aggregate
Handling
10
10
80
30500205
Industrial
Processes,
Mineral
Products,
Asphalt
Concrete,
Drum
Dryer:
Drum
Mix
Plant
(
see
3­
05­
002­
55
thru
­
63
for
subtypes)
10
10
80
30500206
Industrial
Processes,
Mineral
Products,
Asphalt
Concrete,
Asphalt
Heater:
Natural
Gas
10
10
80
30500208
Industrial
Processes,
Mineral
Products,
Asphalt
Concrete,
Asphalt
Heater:
Distillate
Oil
10
10
80
30500211
Industrial
Processes,
Mineral
Products,
Asphalt
Concrete,
Rotary
Dryer
Conventional
Plant
with
Cyclone
**
use
3­
05­
002­
01
w/
CTL
10
10
80
30500251
Industrial
Processes,
Mineral
Products,
Asphalt
Concrete,
Batch
Mix
Plant:
Rotary
Dryer,
Natural
Gas­
Fired
(
also
see
­
45)
10
10
80
30500255
Industrial
Processes,
Mineral
Products,
Asphalt
Concrete,
Drum
Mix
Plant:
Rotary
Drum
Dryer
/
Mixer,
Natural
Gas­
Fired
10
10
80
30500258
Industrial
Processes,
Mineral
Products,
Asphalt
Concrete,
Drum
Mix
Plant:
Rotary
Drum
Dryer
/
Mixer,
#
2
Oil­
Fired
10
10
80
30500298
Industrial
Processes,
Mineral
Products,
Asphalt
Concrete,
Other
Not
Classified
10
10
80
30500299
Industrial
Processes,
Mineral
Products,
Asphalt
Concrete,
See
Comment
**
10
10
80
30500310
Industrial
Processes,
Mineral
Products,
Brick
Manufacture,
Curing
and
Firing:
Sawdust
Fired
Tunnel
Kilns
10
10
80
30500621
Industrial
Processes,
Mineral
Products,
Cement
Manufacturing
(
Dry
Process),
Pulverized
Coal
Kiln
Feed
Units
12
13
75
30500622
Industrial
Processes,
Mineral
Products,
Cement
Manufacturing
(
Dry
Process),
Preheater
Kiln
12
13
75
30500905
Industrial
Processes,
Mineral
Products,
Clay
and
Fly
Ash
Sintering,
Raw
Clay/
Shale
Transfer/
Conveying
10
10
80
30501001
Industrial
Processes,
Mineral
Products,
Coal
Mining,
Cleaning,
and
Material
Handling
(
See
305310),
Fluidized
Bed
20
30
50
30501002
Industrial
Processes,
Mineral
Products,
Coal
Mining,
Cleaning,
and
Material
Handling
(
See
305310),
Flash
or
Suspension
20
30
50
30501008
Industrial
Processes,
Mineral
Products,
Coal
Mining,
Cleaning,
and
Material
Handling
(
See
305310),
Unloading
20
30
50
30501009
Industrial
Processes,
Mineral
Products,
Coal
Mining,
Cleaning,
and
Material
Handling
(
See
305310),
Raw
Coal
Storage
20
30
50
30501010
Industrial
Processes,
Mineral
Products,
Coal
Mining,
Cleaning,
and
Material
Handling
(
See
305310),
Crushing
20
30
50
B­
10
SCC
SCC
description
Particulate
Divalent
%
Gaseous
Divalent
%
Elemental
Gaseous
%

30501011
Industrial
Processes,
Mineral
Products,
Coal
Mining,
Cleaning,
and
Material
Handling
(
See
305310),
Coal
Transfer
20
30
50
30501015
Industrial
Processes,
Mineral
Products,
Coal
Mining,
Cleaning,
and
Material
Handling
(
See
305310),
Loading
20
30
50
30501024
Industrial
Processes,
Mineral
Products,
Coal
Mining,
Cleaning,
and
Material
Handling
(
See
305310),
Hauling
20
30
50
30501031
Industrial
Processes,
Mineral
Products,
Coal
Mining,
Cleaning,
and
Material
Handling
(
See
305310),
Scrapers:
Travel
Mode
20
30
50
30501050
Industrial
Processes,
Mineral
Products,
Coal
Mining,
Cleaning,
and
Material
Handling
(
See
305310),
Vehicle
Traffic:
Light/
Medium
Vehicles
20
30
50
30501101
Industrial
Processes,
Mineral
Products,
Concrete
Batching,
General
(
Non­
fugitive)
12
13
75
30501106
Industrial
Processes,
Mineral
Products,
Concrete
Batching,
Transfer:
Sand/
Aggregate
to
Elevated
Bins
12
13
75
30501107
Industrial
Processes,
Mineral
Products,
Concrete
Batching,
Cement
Unloading:
Storage
Bins
12
13
75
30501108
Industrial
Processes,
Mineral
Products,
Concrete
Batching,
Weight
Hopper
Loading
of
Cement/
Sand/
Aggregate
12
13
75
30501109
Industrial
Processes,
Mineral
Products,
Concrete
Batching,
Mixer
Loading
of
Cement/
Sand/
Aggregate
12
13
75
30501110
Industrial
Processes,
Mineral
Products,
Concrete
Batching,
Loading
of
Transit
Mix
Truck
12
13
75
30501111
Industrial
Processes,
Mineral
Products,
Concrete
Batching,
Loading
of
Dry­
batch
Truck
12
13
75
30501114
Industrial
Processes,
Mineral
Products,
Concrete
Batching,
Transferring:
Conveyors/
Elevators
12
13
75
30501199
Industrial
Processes,
Mineral
Products,
Concrete
Batching,
Other
Not
Classified
12
13
75
30501299
Industrial
Processes,
Mineral
Products,
Fiberglass
Manufacturing,
Other
Not
Classified
10
10
80
30501401
Industrial
Processes,
Mineral
Products,
Glass
Manufacture,
Furnace/
General**
20
30
50
30501402
Industrial
Processes,
Mineral
Products,
Glass
Manufacture,
Container
Glass:
Melting
Furnace
20
30
50
30501403
Industrial
Processes,
Mineral
Products,
Glass
Manufacture,
Flat
Glass:
Melting
Furnace
20
30
50
30501499
Industrial
Processes,
Mineral
Products,
Glass
Manufacture,
See
Comment
**
20
30
50
30501501
Industrial
Processes,
Mineral
Products,
Gypsum
Manufacture,
Rotary
Ore
Dryer
10
10
80
30501504
Industrial
Processes,
Mineral
Products,
Gypsum
Manufacture,
Conveying
10
10
80
30501507
Industrial
Processes,
Mineral
Products,
Gypsum
Manufacture,
Screening:
Gypsum
Ore
10
10
80
30501509
Industrial
Processes,
Mineral
Products,
Gypsum
Manufacture,
Storage
Bins:
Gypsum
Ore
10
10
80
30501512
Industrial
Processes,
Mineral
Products,
Gypsum
Manufacture,
Flash
Calciner
10
10
80
B­
11
SCC
SCC
description
Particulate
Divalent
%
Gaseous
Divalent
%
Elemental
Gaseous
%

30501604
Industrial
Processes,
Mineral
Products,
Lime
Manufacture,
Calcining:
Rotary
Kiln
**
(
See
SCC
Codes
3­
05­
016­
18,­
19,­
20,­
21)
10
10
80
30502001
Industrial
Processes,
Mineral
Products,
Stone
Quarrying
­
Processing
(
See
also
305320),
Primary
Crushing
20
30
50
30502002
Industrial
Processes,
Mineral
Products,
Stone
Quarrying
­
Processing
(
See
also
305320),
Secondary
Crushing/
Screening
20
30
50
30502004
Industrial
Processes,
Mineral
Products,
Stone
Quarrying
­
Processing
(
See
also
305320),
Recrushing/
Screening
20
30
50
30502006
Industrial
Processes,
Mineral
Products,
Stone
Quarrying
­
Processing
(
See
also
305320),
Miscellaneous
Operations:
Screen/
Convey/
Handling
20
30
50
30502007
Industrial
Processes,
Mineral
Products,
Stone
Quarrying
­
Processing
(
See
also
305320),
Open
Storage
20
30
50
30502009
Industrial
Processes,
Mineral
Products,
Stone
Quarrying
­
Processing
(
See
also
305320),
Blasting:
General
20
30
50
30502010
Industrial
Processes,
Mineral
Products,
Stone
Quarrying
­
Processing
(
See
also
305320),
Drilling
20
30
50
30502011
Industrial
Processes,
Mineral
Products,
Stone
Quarrying
­
Processing
(
See
also
305320),
Hauling
20
30
50
30502015
Industrial
Processes,
Mineral
Products,
Stone
Quarrying
­
Processing
(
See
also
305320),
Vibrating
Screens
20
30
50
30502099
Industrial
Processes,
Mineral
Products,
Stone
Quarrying
­
Processing
(
See
also
305320),
Not
Classified
**
20
30
50
30502502
Industrial
Processes,
Mineral
Products,
Construction
Sand
and
Gravel,
Aggregate
Storage
10
10
80
30502503
Industrial
Processes,
Mineral
Products,
Construction
Sand
and
Gravel,
Material
Transfer
and
Conveying
10
10
80
30502504
Industrial
Processes,
Mineral
Products,
Construction
Sand
and
Gravel,
Hauling
10
10
80
30502505
Industrial
Processes,
Mineral
Products,
Construction
Sand
and
Gravel,
Pile
Forming:
Stacker
10
10
80
30502506
Industrial
Processes,
Mineral
Products,
Construction
Sand
and
Gravel,
Bulk
Loading
10
10
80
30502507
Industrial
Processes,
Mineral
Products,
Construction
Sand
and
Gravel,
Storage
Piles
10
10
80
30502510
Industrial
Processes,
Mineral
Products,
Construction
Sand
and
Gravel,
Crushing
10
10
80
30502511
Industrial
Processes,
Mineral
Products,
Construction
Sand
and
Gravel,
Screening
10
10
80
30502599
Industrial
Processes,
Mineral
Products,
Construction
Sand
and
Gravel,
Not
Classified
**
10
10
80
30502601
Industrial
Processes,
Mineral
Products,
Diatomaceous
Earth,
Handling
10
10
80
30502699
Industrial
Processes,
Mineral
Products,
Diatomaceous
Earth,
Other
Not
Classified
10
10
80
30502709
Industrial
Processes,
Mineral
Products,
Industrial
Sand
and
Gravel,
Grinding:
Size
Reduction
to
50
Microns
or
Smaller
10
10
80
30504020
Industrial
Processes,
Mineral
Products,
Mining
and
Quarrying
of
Nonmetallic
Minerals,
Loading
10
10
80
30504021
Industrial
Processes,
Mineral
Products,
Mining
and
Quarrying
of
Nonmetallic
Minerals,
Convey/
Haul
Material
10
10
80
B­
12
SCC
SCC
description
Particulate
Divalent
%
Gaseous
Divalent
%
Elemental
Gaseous
%

30504030
Industrial
Processes,
Mineral
Products,
Mining
and
Quarrying
of
Nonmetallic
Minerals,
Primary
Crusher
10
10
80
30504031
Industrial
Processes,
Mineral
Products,
Mining
and
Quarrying
of
Nonmetallic
Minerals,
Secondary
Crusher
10
10
80
30504033
Industrial
Processes,
Mineral
Products,
Mining
and
Quarrying
of
Nonmetallic
Minerals,
Ore
Dryer
10
10
80
30504034
Industrial
Processes,
Mineral
Products,
Mining
and
Quarrying
of
Nonmetallic
Minerals,
Screening
10
10
80
30504099
Industrial
Processes,
Mineral
Products,
Mining
and
Quarrying
of
Nonmetallic
Minerals,
Other
Not
Classified
10
10
80
30510001
Industrial
Processes,
Mineral
Products,
Bulk
Materials
Elevators,
Unloading
10
10
80
30510102
Industrial
Processes,
Mineral
Products,
Bulk
Materials
Conveyors,
Cement
10
10
80
30510199
Industrial
Processes,
Mineral
Products,
Bulk
Materials
Conveyors,
Other
Not
Classified
10
10
80
30510298
Industrial
Processes,
Mineral
Products,
Bulk
Materials
Storage
Bins,
Mineral:
Specify
in
Comments
10
10
80
30510299
Industrial
Processes,
Mineral
Products,
Bulk
Materials
Storage
Bins,
Other
Not
Classified
10
10
80
30510304
Industrial
Processes,
Mineral
Products,
Bulk
Materials
Open
Stockpiles,
Coke
10
10
80
30510504
Industrial
Processes,
Mineral
Products,
Bulk
Materials
Loading
Operation,
Coke
10
10
80
30510599
Industrial
Processes,
Mineral
Products,
Bulk
Materials
Loading
Operation,
Other
Not
Classified
10
10
80
30532001
Industrial
Processes,
Mineral
Products,
Stone
Quarrying
­
Processing
(
See
also
305020
for
diff.
units),
Primary
Crushing
20
30
50
30532006
Industrial
Processes,
Mineral
Products,
Stone
Quarrying
­
Processing
(
See
also
305020
for
diff.
units),
Miscellaneous
Operations:
Screen/
Convey/
Handling
20
30
50
30532007
Industrial
Processes,
Mineral
Products,
Stone
Quarrying
­
Processing
(
See
also
305020
for
diff.
units),
Open
Storage
20
30
50
30532014
Industrial
Processes,
Mineral
Products,
Stone
Quarrying
­
Processing
(
See
also
305020
for
diff.
units),
Shaker
Screens
20
30
50
30532032
Industrial
Processes,
Mineral
Products,
Stone
Quarrying
­
Processing
(
See
also
305020
for
diff.
units),
Truck
Loading:
Conveyor
20
30
50
30588801
Industrial
Processes,
Mineral
Products,
Fugitive
Emissions,
Specify
in
Comments
Field
20
30
50
30599999
Industrial
Processes,
Mineral
Products,
Other
Not
Defined,
Specify
in
Comments
Field
20
30
50
30600401
Industrial
Processes,
Petroleum
Industry,
Blowdown
Systems,
Blowdown
System
with
Vapor
Recovery
System
with
Flaring
10
10
80
30600701
Industrial
Processes,
Petroleum
Industry,
Cooling
Towers,
Cooling
Towers
10
10
80
30600816
Industrial
Processes,
Petroleum
Industry,
Fugitive
Emissions,
Flanges:
All
Streams
10
10
80
30600822
Industrial
Processes,
Petroleum
Industry,
Fugitive
Emissions,
Vessel
Relief
Valves:
All
Streams
10
10
80
B­
13
SCC
SCC
description
Particulate
Divalent
%
Gaseous
Divalent
%
Elemental
Gaseous
%

30600903
Industrial
Processes,
Petroleum
Industry,
Flares,
Natural
Gas
10
10
80
30600904
Industrial
Processes,
Petroleum
Industry,
Flares,
Process
Gas
10
10
80
30601101
Industrial
Processes,
Petroleum
Industry,
Asphalt
Blowing,
General
10
10
80
30601401
Industrial
Processes,
Petroleum
Industry,
Petroleum
Coke
Calcining,
Coke
Calciner
10
10
80
30688801
Industrial
Processes,
Petroleum
Industry,
Fugitive
Emissions,
Specify
in
Comments
Field
10
10
80
30700405
Industrial
Processes,
Pulp
and
Paper
and
Wood
Products,
Pulpboard
Manufacture,
Paper/
Board
Forming
20
30
50
30701201
Industrial
Processes,
Pulp
and
Paper
and
Wood
Products,
Miscellaneous
Paper
Processes,
Cyclones
20
30
50
30703002
Industrial
Processes,
Pulp
and
Paper
and
Wood
Products,
Miscellaneous
Wood
Working
Operations,
Wood
Waste
Storage
Bin
Loadout
10
10
80
30788801
Industrial
Processes,
Pulp
and
Paper
and
Wood
Products,
Fugitive
Emissions,
Specify
in
Comments
Field
20
30
50
30790021
Industrial
Processes,
Pulp
and
Paper
and
Wood
Products,
Fuel
Fired
Equipment,
Distillate
Oil
(
No.
2):
Flares
20
30
50
30790022
Industrial
Processes,
Pulp
and
Paper
and
Wood
Products,
Fuel
Fired
Equipment,
Residual
Oil:
Flares
20
30
50
30900199
Industrial
Processes,
Fabricated
Metal
Products,
General
Processes,
Other
Not
Classified
20
30
50
30900201
Industrial
Processes,
Fabricated
Metal
Products,
Abrasive
Blasting
of
Metal
Parts,
General
20
30
50
30900202
Industrial
Processes,
Fabricated
Metal
Products,
Abrasive
Blasting
of
Metal
Parts,
Sand
Abrasive
20
30
50
30900203
Industrial
Processes,
Fabricated
Metal
Products,
Abrasive
Blasting
of
Metal
Parts,
Slag
Abrasive
20
30
50
30900205
Industrial
Processes,
Fabricated
Metal
Products,
Abrasive
Blasting
of
Metal
Parts,
Steel
Grit
Abrasive
20
30
50
30901101
Industrial
Processes,
Fabricated
Metal
Products,
Conversion
Coating
of
Metal
Products,
Alkaline
Cleaning
Bath
10
10
80
30901199
Industrial
Processes,
Fabricated
Metal
Products,
Conversion
Coating
of
Metal
Products,
Other
Not
Classified
10
10
80
30902501
Industrial
Processes,
Fabricated
Metal
Products,
Drum
Cleaning/
Reclamation,
Drum
Burning
Furnace
10
10
80
30988801
Industrial
Processes,
Fabricated
Metal
Products,
Fugitive
Emissions,
Specify
in
Comments
Field
20
30
50
30999999
Industrial
Processes,
Fabricated
Metal
Products,
Other
Not
Classified,
Other
Not
Classified
20
30
50
31000299
Industrial
Processes,
Oil
and
Gas
Production,
Natural
Gas
Production,
Other
Not
Classified
10
10
80
31088801
Industrial
Processes,
Oil
and
Gas
Production,
Fugitive
Emissions,
Specify
in
Comments
Field
10
10
80
31301200
Industrial
Processes,
Electrical
Equipment,
Fluorescent
Lamp
Recycling,
Fluorescent
Lamp
Recycling:
Lamp
Crusher
0
0
100
31399999
Industrial
Processes,
Electrical
Equipment,
Other
Not
Classified,
Other
Not
Classified
20
30
50
B­
14
SCC
SCC
description
Particulate
Divalent
%
Gaseous
Divalent
%
Elemental
Gaseous
%

31401101
Industrial
Processes,
Transportation
Equipment,
Auto
Body
Shredding,
Primary
Metal
Recovery
Line
10
10
80
31499999
Industrial
Processes,
Transportation
Equipment,
Other
Not
Classified,
Other
Not
Classified
10
10
80
31502088
Industrial
Processes,
Photographic
Equipment/
Health
Care/
Laboratories,
Health
Care
­
Hospitals,
Laboratory
Fugitive
Emissions
0
0
100
31502101
Industrial
Processes,
Photographic
Equipment/
Health
Care/
Laboratories,
Health
Care
­
Crematoriums,
Crematory
Stack
20
58
22
31502102
Industrial
Processes,
Photographic
Equipment/
Health
Care/
Laboratories,
Health
Care
­
Crematoriums,
Crematory
Stack
­
Human
and
Animal
Crematories
20
58
22
31502500
Industrial
Processes,
Photographic
Equipment/
Health
Care/
Laboratories,
Dental
Alloy
(
Mercury
Amalgams)
Production,
Dental
Alloy
(
Mercury
Amalgams)
Production:
Overall
Process
0
0
100
31503001
Industrial
Processes,
Photographic
Equipment/
Health
Care/
Laboratories,
Laboratories,
Bench
Scale
Reagents:
Research
0
0
100
31503002
Industrial
Processes,
Photographic
Equipment/
Health
Care/
Laboratories,
Laboratories,
Bench
Scale
Reagents:
Testing
0
0
100
31503101
Industrial
Processes,
Photographic
Equipment/
Health
Care/
Laboratories,
X­
rays,
Medical:
General
0
0
100
33000104
Industrial
Processes,
Textile
Products,
Miscellaneous,
Tenter
Frames:
Heat
Setting
20
30
50
33088801
Industrial
Processes,
Textile
Products,
Fugitive
Emissions,
Specify
in
Comments
Field
20
30
50
33088802
Industrial
Processes,
Textile
Products,
Fugitive
Emissions,
Specify
in
Comments
Field
20
30
50
33088803
Industrial
Processes,
Textile
Products,
Fugitive
Emissions,
Specify
in
Comments
Field
20
30
50
38500101
Industrial
Processes,
Cooling
Tower,
Process
Cooling,
Mechanical
Draft
10
10
80
38500110
Industrial
Processes,
Cooling
Tower,
Process
Cooling,
Other
Not
Specified
10
10
80
39000201
Industrial
Processes,
In­
process
Fuel
Use,
Bituminous
Coal,
Cement
Kiln/
Dryer
(
Bituminous
Coal)
20
30
50
39000289
Industrial
Processes,
In­
process
Fuel
Use,
Bituminous
Coal,
General
(
Bituminous)
20
30
50
39000403
Industrial
Processes,
In­
process
Fuel
Use,
Residual
Oil,
Lime
Kiln
20
30
50
39000489
Industrial
Processes,
In­
process
Fuel
Use,
Residual
Oil,
General
20
30
50
39000499
Industrial
Processes,
In­
process
Fuel
Use,
Residual
Oil,
General
20
30
50
39000589
Industrial
Processes,
In­
process
Fuel
Use,
Distillate
Oil,
General
20
30
50
39000599
Industrial
Processes,
In­
process
Fuel
Use,
Distillate
Oil,
General
20
30
50
39000602
Industrial
Processes,
In­
process
Fuel
Use,
Natural
Gas,
Cement
Kiln/
Dryer
20
30
50
39000689
Industrial
Processes,
In­
process
Fuel
Use,
Natural
Gas,
General
20
30
50
39000699
Industrial
Processes,
In­
process
Fuel
Use,
Natural
Gas,
General
20
30
50
39000797
Industrial
Processes,
In­
process
Fuel
Use,
Process
Gas,
General
20
30
50
39000889
Industrial
Processes,
In­
process
Fuel
Use,
Coke,
General
20
30
50
B­
15
SCC
SCC
description
Particulate
Divalent
%
Gaseous
Divalent
%
Elemental
Gaseous
%

39000899
Industrial
Processes,
In­
process
Fuel
Use,
Coke,
General:
Coke
20
30
50
39000999
Industrial
Processes,
In­
process
Fuel
Use,
Wood,
General:
Wood
20
30
50
39001299
Industrial
Processes,
In­
process
Fuel
Use,
Solid
Waste,
General
20
30
50
39001399
Industrial
Processes,
In­
process
Fuel
Use,
Liquid
Waste,
General
20
30
50
39990014
Industrial
Processes,
Miscellaneous
Manufacturing
Industries,
Miscellaneous
Manufacturing
Industries,
Process
Gas:
Incinerators
20
30
50
39990024
Industrial
Processes,
Miscellaneous
Manufacturing
Industries,
Miscellaneous
Manufacturing
Industries,
Process
Gas:
Flares
20
30
50
39999991
Industrial
Processes,
Miscellaneous
Manufacturing
Industries,
Miscellaneous
Industrial
Processes,
Other
Not
Classified
20
30
50
39999993
Industrial
Processes,
Miscellaneous
Manufacturing
Industries,
Miscellaneous
Industrial
Processes,
Other
Not
Classified
20
30
50
39999994
Industrial
Processes,
Miscellaneous
Manufacturing
Industries,
Miscellaneous
Industrial
Processes,
Other
Not
Classified
20
30
50
39999996
Industrial
Processes,
Miscellaneous
Manufacturing
Industries,
Miscellaneous
Industrial
Processes,
Other
Not
Classified
20
30
50
39999997
Industrial
Processes,
Miscellaneous
Manufacturing
Industries,
Miscellaneous
Industrial
Processes,
Other
Not
Classified
20
30
50
39999998
Industrial
Processes,
Miscellaneous
Manufacturing
Industries,
Miscellaneous
Industrial
Processes,
Other
Not
Classified
20
30
50
39999999
Industrial
Processes,
Miscellaneous
Manufacturing
Industries,
Miscellaneous
Industrial
Processes,
See
Comment
**
20
30
50
40100252
Petroleum
and
Solvent
Evaporation,
Organic
Solvent
Evaporation,
Degreasing,
1,1,1­
Trichloroethane
(
Methyl
Chloroform):
General
Degreasing
Units
10
10
80
40100295
Petroleum
and
Solvent
Evaporation,
Organic
Solvent
Evaporation,
Degreasing,
Other
Not
Classified:
General
Degreasing
Units
10
10
80
40188898
Petroleum
and
Solvent
Evaporation,
Organic
Solvent
Evaporation,
Fugitive
Emissions,
Specify
in
Comments
Field
10
10
80
40200101
Petroleum
and
Solvent
Evaporation,
Surface
Coating
Operations,
Surface
Coating
Application
­
General,
Paint:
Solvent­
base
10
10
80
40200110
Petroleum
and
Solvent
Evaporation,
Surface
Coating
Operations,
Surface
Coating
Application
­
General,
Paint:
Solvent­
base
10
10
80
40200998
Petroleum
and
Solvent
Evaporation,
Surface
Coating
Operations,
Thinning
Solvents
­
General,
General:
Specify
in
Comments
10
10
80
40201001
Petroleum
and
Solvent
Evaporation,
Surface
Coating
Operations,
Coating
Oven
Heater,
Natural
Gas
20
30
50
40201901
Petroleum
and
Solvent
Evaporation,
Surface
Coating
Operations,
Wood
Furniture
Surface
Coating,
Coating
Operation
20
30
50
40288801
Petroleum
and
Solvent
Evaporation,
Surface
Coating
Operations,
Fugitive
Emissions,
Specify
in
Comments
Field
10
10
80
40290013
Petroleum
and
Solvent
Evaporation,
Surface
Coating
Operations,
Fuel
Fired
Equipment,
Natural
Gas:
Incinerator/
Afterburner
20
30
50
40290023
Petroleum
and
Solvent
Evaporation,
Surface
Coating
Operations,
Fuel
Fired
Equipment,
Natural
Gas:
Flares
20
30
50
40299998
Petroleum
and
Solvent
Evaporation,
Surface
Coating
Operations,
Miscellaneous,
Specify
in
Comments
Field
20
30
50
B­
16
SCC
SCC
description
Particulate
Divalent
%
Gaseous
Divalent
%
Elemental
Gaseous
%

40300107
Petroleum
and
Solvent
Evaporation,
Petroleum
Product
Storage
at
Refineries,
Deleted
­
Do
Not
Use
(
See
4­
03­
010
and
4­
07),
Dist
Fuel
**
10
10
80
40301001
Petroleum
and
Solvent
Evaporation,
Petroleum
Product
Storage
at
Refineries,
Fixed
Roof
Tanks
(
Varying
Sizes),
Gasoline
RVP
13:
Breathing
Loss
(
67000
Bbl.
Tank
Size)
10
10
80
40301010
Petroleum
and
Solvent
Evaporation,
Petroleum
Product
Storage
at
Refineries,
Fixed
Roof
Tanks
(
Varying
Sizes),
Crude
Oil
RVP
5:
Breathing
Loss
(
67000
Bbl.
Tank
Size)
10
10
80
40301012
Petroleum
and
Solvent
Evaporation,
Petroleum
Product
Storage
at
Refineries,
Fixed
Roof
Tanks
(
Varying
Sizes),
Crude
Oil
RVP
5:
Working
Loss
(
Tank
Diameter
Independent)
10
10
80
40301013
Petroleum
and
Solvent
Evaporation,
Petroleum
Product
Storage
at
Refineries,
Fixed
Roof
Tanks
(
Varying
Sizes),
Jet
Naphtha
(
JP­
4):
Breathing
Loss
(
67000
Bbl.
Tank
Size)
10
10
80
40500199
Petroleum
and
Solvent
Evaporation,
Printing/
Publishing,
Drying,
Dryer
10
10
80
40500212
Petroleum
and
Solvent
Evaporation,
Printing/
Publishing,
General,
Printing:
Letter
Press
10
10
80
40500401
Petroleum
and
Solvent
Evaporation,
Printing/
Publishing,
General,
Lithographic:
2752
10
10
80
49000199
Petroleum
and
Solvent
Evaporation,
Organic
Solvent
Evaporation,
Solvent
Extraction
Process,
Other
Not
Classified
20
30
50
49000203
Petroleum
and
Solvent
Evaporation,
Organic
Solvent
Evaporation,
Waste
Solvent
Recovery
Operations,
Incinerator
Stack
20
30
50
49000599
Petroleum
and
Solvent
Evaporation,
Organic
Solvent
Evaporation,
Air
Stripping
Tower,
Specify
Solvent
in
Comments
20
30
50
49090013
Petroleum
and
Solvent
Evaporation,
Organic
Solvent
Evaporation,
Fuel
Fired
Equipment,
Natural
Gas:
Incinerators
20
30
50
49099998
Petroleum
and
Solvent
Evaporation,
Organic
Solvent
Evaporation,
Miscellaneous
Volatile
Organic
Compound
Evaporation,
Identify
the
Process
and
Solvent
in
Comments
20
30
50
49099999
Petroleum
and
Solvent
Evaporation,
Organic
Solvent
Evaporation,
Miscellaneous
Volatile
Organic
Compound
Evaporation,
Identify
the
Process
and
Solvent
in
Comments
20
30
50
50100101
Waste
Disposal,
Solid
Waste
Disposal
­
Government,
Municipal
Incineration,
Starved
Air:
Multiple
Chamber
20
58
22
50100102
Waste
Disposal,
Solid
Waste
Disposal
­
Government,
Municipal
Incineration,
Mass
Burn:
Single
Chamber
20
58
22
50100103
Waste
Disposal,
Solid
Waste
Disposal
­
Government,
Municipal
Incineration,
Refuse
Derived
Fuel
20
58
22
50100105
Waste
Disposal,
Solid
Waste
Disposal
­
Government,
Municipal
Incineration,
Mass
Burn
Waterwall
Combustor
20
58
22
50100108
Waste
Disposal,
Solid
Waste
Disposal
­
Government,
Municipal
Incineration,
Fluidized
Bed:
Refuse
Derived
Fuel
20
58
22
50100421
Waste
Disposal,
Solid
Waste
Disposal
­
Government,
Landfill
Dump,
Waste
Gas
Recovery:
Internal
Combustion
Device
10
10
80
50100505
Waste
Disposal,
Solid
Waste
Disposal
­
Government,
Other
Incineration,
Medical
Waste
Incinerator,
unspecified
type,
Infectious
wastes
only
20
75
5
50100506
Waste
Disposal,
Solid
Waste
Disposal
­
Government,
Other
Incineration,
Sludge
20
58
22
B­
17
SCC
SCC
description
Particulate
Divalent
%
Gaseous
Divalent
%
Elemental
Gaseous
%

50100515
Waste
Disposal,
Solid
Waste
Disposal
­
Government,
Other
Incineration,
Sludge:
Multiple
Hearth
20
58
22
50100516
Waste
Disposal,
Solid
Waste
Disposal
­
Government,
Other
Incineration,
Sludge:
Fluidized
Bed
20
58
22
50100601
Waste
Disposal,
Solid
Waste
Disposal
­
Government,
Fire
Fighting,
Structure:
Jet
Fuel
20
30
50
50190006
Waste
Disposal,
Solid
Waste
Disposal
­
Government,
Auxillary
Fuel/
No
Emissions,
Natural
Gas
20
30
50
50200101
Waste
Disposal,
Solid
Waste
Disposal
­
Commercial/
Institutional,
Incineration,
Multiple
Chamber
20
30
50
50200102
Waste
Disposal,
Solid
Waste
Disposal
­
Commercial/
Institutional,
Incineration,
Single
Chamber
20
30
50
50200104
Waste
Disposal,
Solid
Waste
Disposal
­
Commercial/
Institutional,
Incineration,
Conical
Design
(
Tee
Pee)
Municipal
Refuse
20
30
50
50200501
Waste
Disposal,
Solid
Waste
Disposal
­
Commercial/
Institutional,
Incineration:
Special
Purpose,
Med
Waste
Controlled
Air
Incin­
aka
Starved
air,
2­
stg,
or
Modular
comb
20
75
5
50200504
Waste
Disposal,
Solid
Waste
Disposal
­
Commercial/
Institutional,
Incineration:
Special
Purpose,
Medical
Waste
Incinerator,
unspecified
type
(
use
502005­
01,
­
02,
­
03)
20
75
5
50200505
Waste
Disposal,
Solid
Waste
Disposal
­
Commercial/
Institutional,
Incineration:
Special
Purpose,
Medical
Waste
Incinerator,
unspecified
type,
Infectious
wastes
only
20
75
5
50200515
Waste
Disposal,
Solid
Waste
Disposal
­
Commercial/
Institutional,
Incineration:
Special
Purpose,
Sewage
Sludge
Incinerator:
Multiple
Hearth
20
58
22
50200601
Waste
Disposal,
Solid
Waste
Disposal
­
Commercial/
Institutional,
Landfill
Dump,
Waste
Gas
Flares
**
(
Use
5­
01­
004­
10)
10
10
80
50200602
Waste
Disposal,
Solid
Waste
Disposal
­
Commercial/
Institutional,
Landfill
Dump,
Municipal:
Fugitive
Emissions
**
(
Use
5­
01­
004­
02)
10
10
80
50290006
Waste
Disposal,
Solid
Waste
Disposal
­
Commercial/
Institutional,
Auxillary
Fuel/
No
Emissions,
Natural
Gas
20
30
50
50300101
Waste
Disposal,
Solid
Waste
Disposal
­
Industrial,
Incineration,
Multiple
Chamber
20
30
50
50300102
Waste
Disposal,
Solid
Waste
Disposal
­
Industrial,
Incineration,
Single
Chamber
20
30
50
50300103
Waste
Disposal,
Solid
Waste
Disposal
­
Industrial,
Incineration,
Controlled
Air
20
30
50
50300104
Waste
Disposal,
Solid
Waste
Disposal
­
Industrial,
Incineration,
Conical
Design
(
Tee
Pee)
Municipal
Refuse
20
30
50
50300203
Waste
Disposal,
Solid
Waste
Disposal
­
Industrial,
Open
Burning,
Auto
Body
Components
20
30
50
50300810
Waste
Disposal,
Solid
Waste
Disposal
­
Industrial,
Treatment,
Storage,
Disposal/
TSDF,
Waste
Piles:
Fugitive
Emissions
20
30
50
50390006
Waste
Disposal,
Solid
Waste
Disposal
­
Industrial,
Auxillary
Fuel/
No
Emissions,
Natural
Gas
20
30
50
50400201
Waste
Disposal,
Site
Remediation,
,
General
Processes
Miscellaneous
20
30
50
2104001000
Stationary
Source
Fuel
Combustion,
Residential,
Anthracite
Coal,
Total:
All
Combustor
Types
20
30
50
B­
18
SCC
SCC
description
Particulate
Divalent
%
Gaseous
Divalent
%
Elemental
Gaseous
%

2104002000
Stationary
Source
Fuel
Combustion,
Residential,
Bituminous/
Subbituminous
Coal,
Total:
All
Combustor
Types
20
30
50
2104004000
Stationary
Source
Fuel
Combustion,
Residential,
Distillate
Oil,
Total:
All
Combustor
Types
20
30
50
2104006000
Stationary
Source
Fuel
Combustion,
Residential,
Natural
Gas,
Total:
All
Combustor
Types
20
30
50
2104006010
Stationary
Source
Fuel
Combustion,
Residential,
Natural
Gas,
Residential
Furnaces
20
30
50
2104007000
Stationary
Source
Fuel
Combustion,
Residential,
Liquified
Petroleum
Gas
(
LPG),
Total:
All
Combustor
Types
20
30
50
2104008000
Stationary
Source
Fuel
Combustion,
Residential,
Wood,
Total:
Woodstoves
and
Fireplaces
20
30
50
2301010010
Industrial
Processes,
Chemical
Manufacturing:
SIC
28,
Industrial
Inorganic
Chemical
Manufacturing,
Sulfur
Recovery:
Sour
Gas
10
10
80
2309000000
Industrial
Processes,
Fabricated
Metals:
SIC
34,
All
Processes,
Total
10
10
80
2311010000
Industrial
Processes,
Construction:
SIC
15
­
17,
General
Building
Construction,
Total
20
30
50
2311030000
Industrial
Processes,
Construction:
SIC
15
­
17,
Road
Construction,
Total
20
30
50
2461020000
Solvent
Utilization,
Miscellaneous
Non­
industrial:
Commercial,
Asphalt
Application:
All
Processes,
Total:
All
Solvent
Types
10
10
80
2601020000
Waste
Disposal,
Treatment,
and
Recovery,
On­
site
Incineration,
Commercial/
Institutional,
Total
20
58
22
2610000000
Waste
Disposal,
Treatment,
and
Recovery,
Open
Burning,
All
Categories,
Total
20
30
50
2610000300
Waste
Disposal,
Treatment,
and
Recovery,
Open
Burning,
All
Categories,
Yard
Waste
­
Weed
Species
Unspecified
(
incl
Grass)
20
30
50
2640000000
Waste
Disposal,
Treatment,
and
Recovery,
TSDFs,
All
TSDF
Types,
Total:
All
Processes
20
58
22
2650000001
Waste
Disposal,
Treatment,
and
Recovery,
Scrap
and
Waste
Materials,
Scrap
and
Waste
Materials,
Crushing
10
10
80
2801000003
Miscellaneous
Area
Sources,
Agriculture
Production
­
Crops,
Agriculture
­
Crops,
Tilling
20
30
50
2801500000
Miscellaneous
Area
Sources,
Agriculture
Production
­
Crops,
Agricultural
Field
Burning
­
whole
field
set
on
fire,
Total,
all
crop
types
20
30
50
2801520004
Miscellaneous
Area
Sources,
Agriculture
Production
­
Crops,
Orchard
Heaters,
Diesel
20
30
50
2805000000
Miscellaneous
Area
Sources,
Agriculture
Production
­
Livestock,
Agriculture
­
Livestock,
Total
20
58
22
2810001000
Miscellaneous
Area
Sources,
Other
Combustion,
Forest
Wildfires,
Total
20
30
50
2810015000
Miscellaneous
Area
Sources,
Other
Combustion,
Prescribed
Burning
for
Forest
Management,
Total
20
30
50
2810050000
Miscellaneous
Area
Sources,
Other
Combustion,
Motor
Vehicle
Fires,
Total
20
58
22
2861000000
Miscellaneous
Area
Sources,
Fluorescent
Lamp
Breakage,
Total,
Total
0
0
100
*
Data
provided
by
Anne
Pope,
EPA,
OAQPS,
3/
1/
2004
C­
1
APPENDIX
C:
Facility­
and
process­
specific
reductions
 
Item
1:
MWC
Reductions
.......................................................
C­
2
 
Item
2:
Mercury
Cell
Chlor­
Alkali
Plant
Reductions
...............
C­
5
 
Item
3:
Gold
Mine
Reductions
................................................
C­
7
C­
2
Item
1:
MWC
Reductions
Projection
approach
for
Municipal
Waste
Combustion
(
MWC)
emissions
Projected_
Emissions
(
year
2005
and
greater)
=
MWC
Emissions_
1999
*
GF
*
(
100
­
Percent
reduction)/
100
This
approach
was
used
along
with
the
1999
NEI
for
HAPs
to
estimate
2005
and
later
annual
emissions.
We
estimated
that
growth
will
be
small,
so
we
assumed
no
growth
(
growth
factor
of
1.0)
for
all
MWC.
The
above
equation
is
applied
for
each
inventory
record
tagged
with
an
MACT
code
of
1802
(
MWC).
Different
reductions
could
be
applied
based
on
the
specific
site
and
the
specific
HAP
emitted.
The
"
Percent
reduction"
in
the
equation
is
based
on
the
impacts
of
the
MWC
rules,
and
the
approach
and
percent
reduction
values
are
documented
here.

Percent
reductions
from
large
and
small
MWC
were
generated
using
two
memos
from
the
MWC
docket:
1.
National
Emission
Trends
for
Large
Municipal
Waste
Combustion
Units
[
Years
1990
to
2005],
by
Jason
Huckaby,
ERG,
June
17,
2002.
(
Docket
Number
A­
90­
45,
VIII­
B­
7)
2.
National
Emission
Trends
for
Small
Municipal
Waste
Combustion
Units
[
Years
1990
to
2005],
by
Jason
Huckaby,
ERG,
June
12,
2002.
(
Docket
Number
A­
98­
18,
VI­
B­
2)

Large
MWC
can
be
identified
in
the
1999
NEI
for
HAPs
by
the
string
"
LMWC"
in
the
StateFacilityIdentifier
field.
Small
MWC
can
be
identified
by
the
string
"
SMWC"
in
the
StateFacilityIdentifier
field.
With
the
MWCs
are
properly
identified
as
small
or
large,
the
approach
below
was
used
to
determine
the
particular
emission
reductions
to
be
applied.

Large
MWC
Based
on
the
first
memo,
emissions
for
large
MWC
(
LMWC)
varied
with
time
as
MWCs
completed
retrofits
or
elected
to
close
rather
than
retrofit.
Retrofits
for
large
MWCs
were
complete
by
year
2000
with
minor
change
thereafter.
The
1999
NEI
emissions
(
which
sum
to
2.2
tons
per
year
for
LMWC)
are
assumed
to
include
these
completions.

Between
2000
and
2005,
a
retrofit
was
complete
at
Lacrosse
(
French
Island)
MWC
and
two
LMWC
closed,
otherwise
no
other
changes
occured.

Reductions
to
be
applied
to
LaCrosse
were
based
on
stack
testing
performed
in
2001
(
pre
controls)
and
2003
(
post
controls)
on
the
two
units.
Results
are
shown
in
Table
C­
1
below.

Table
C­
1.
Lacrosse
percent
reductions
based
on
test
data*
UNIT
1
before
after
Units
Percent
Reduction
Hg
21.4
8.2
ug/
dscm
(
7%
O2)
61.68%

UNIT
2
Hg
29.6
10.2
ug/
dscm
(
7%
O2)
65.54%
*
Source
of
data
is
2001and
2003
MWC
compliance
data
input
sheets
supplied
by
Walt
Stevenson
C­
3
Because
the
percent
reductions
on
the
units
were
similar,
we
applied
an
average
percent
reduction
of
64%
for
mercury
for
the
LaCrosse
site.

In
examining
the
facilities
in
the
1999
NEI
for
HAPs,
it
was
determined
that
two
LMWC
had
closed:

1.
Nashville
Thermal
Transfer
Corp.
(
site_
id=
47037­
LMWC­
61),
Hg
emissions
=
0.00967
tons
(
1999
NEI)
2.
Central
Wayne
(
site_
ID=
26163­
LMWC­
33),
Hg
emissions
=
0.00077
(
1999
NEI)

Table
C­
2
summarizes
the
LMWC
reductions
applied
to
the
1999
NEI
for
HAPs
to
project
to
2005
and
later
years
as
a
result
of
Lacrosse
reductions
and
the
two
plant
closures.

Table
C­
2:
Summary
of
LMWC
reductions.

Site
Name
FIPS
concatenated
with
Site
ID
Percent
Reduction
Lacrosse
(
French
Island)
55063­
LMWC­
66
64
Nashville
Thermal
Transfer
Corp
47037­
LMWC­
61
100
Central
Wayne
26163­
LMWC­
33
100
ALL
OTHER
LMWC
SITES
0
Small
MWC
Based
on
the
second
memo,
emissions
for
small
MWC
varied
with
time
between
1999
and
2005
as
MWCs
completed
retrofits
or
elected
to
close
rather
than
retrofit.
Because
the
compliance
date
for
the
SMWC
is
later
than
that
for
the
LMWC,
most
of
the
SMWC
in
the
1999
NEI
were
expected
to
need
to
install
controls
and
substantial
reductions
occur
between
2000
and
2005.
(
Retrofit
is
required
by
2005).

Using
the
2000
to
2005
emission
trends
presented
in
the
memo,
the
emission
reductions
shown
in
Table
C­
3
were
computed
across
the
entire
SMWC
industry:

Table
C­
3:
Emissions
reductions
for
small
MWC
2000
Hg
emissions
2.1
tons/
year
2005
Hg
emissions
0.44
tons/
year
Overall
Percent
reduction
across
SMWC
79%

A
reasonable
assumption
is
to
apply
the
above
reductions
to
all
SMWC
except
for
the
two
facilities
that
were
identified
that
did
not
need
to
install
additional
controls,
and
except
for
the
three
SMWC
that
closed
since
1999.

The
two
facilities
that
did
not
need
to
install
controls
(
and
thus
get
0
Percent
reduction)
are:
Warren
Energy
RF
(
site_
id=
34041­
SMWC­
21,
mercury
emissions
=
0.0023
tons
in
the
1999
C­
4
NEI)
and
Oswego
Co.
WTE
(
site_
id=
36075­
SMWC­
24,
mercury
emissions
=
0.00437
tons
in
the
1999
NEI).
These
MWC's
are
already
equipped
with
all
MACT
controls.

The
SMWC
that
have
shut
down
and
thus
had
their
emissions
zeroed
out
are:

(
1)
Miami
(
Miami
RRF),
site_
id=
40115­
SMWC­
26,
mercury
emissions
=
0.0597
tons/
year
in
1999
NEI
(
2)
Tacoma
(
Tacoma)
site_
id=
53053­
SMWC­
38,
mercury
emissions
=
0.01756
tons/
year
in
1999
NEI
(
3)
Pascagoula
(
Pascagoula
Energy
Recovery
Facility),
site_
id=
28059­
SMWC­
18),
mercury
emissions
=
0.08528
tons/
year
in
1999
NEI
Table
C­
4
summarizes
the
reductions
applied
to
the
1999
NEI
emissions
for
SMWCs
to
compute
2005
and
future
year
emissions.

Table
C­
4:
Summary
of
the
Percent
Reductions
to
be
applied
to
SMWCs
Site
FIPS
concatenated
with
Site_
id
Percent
reduction
Warren
Energy
RF
34041­
SMWC­
21
0
(
no
reduction)
Oswego
Co.
WTE
36075­
SMWC­
24
0
(
no
reduction)
Miami
RRF
40115­
SMWC­
26
100%
(
closed)
Tacoma
53053­
SMWC­
38
100%
(
closed)
Pascagoula
Energy
Recovery
Facility
28059­
SMWC­
18
100%
(
closed)
ALL
OTHER
SMWC
79%
C­
5
Item
2:
Mercury
Cell
Chlor­
Alkali
Plant
Reductions
Mercury
Cell
Chlor­
Alkali
plants
are
identified
in
the
1999
NEI
for
HAPs
by
MACT
code
=
1403.

Emissions
were
projected
from
this
category
based
on
the
following:
 
the
assumption
of
no
emissions
growth,
 
specific
plant
and
mercury
cell
chlor­
alkali
unit
closures
 
reductions
resulting
from
the
rulemaking
for
this
category
(
National
Emission
Standards
for
Hazardous
Air
Pollutants:
Mercury
Emissions
From
Mercury
Cell
Chlor­
Alkali
Plants"
http://
www.
epa.
gov/
ttn/
atw/
hgcellcl/
hgcellclpg.
html)

The
following
provides
more
details
regarding
the
reductions
due
to
plant
closures
and
rule
reductions.

1.
PLANT
CLOSURES:
We
applied
plant
specific
reductions
of
100%
to
four
plants
(
all
Hg
sources
from
those
plants
are
zeroed
out)
to
account
for
the
closures
that
have
occurred
since
1999.
To
implement
this
approach,
we
applied
the
reduction
to
the
entire
facility
based
on
the
"
Plant
Id"
(
denoted
"
State
Facility
Identifier"
in
the
1999
National
Inventory
Format)
variable.

Note
that
for
two
of
the
plants
(
last
two
rows
of
the
table),
Oxy
Vinyls
and
Georgia
Pacific,
we
were
instructed
to
close
only
the
processes
associated
with
MACT=
1403.
However,
we
erroneously
applied
the
reduction
to
all
processes
across
the
plants.
As
can
be
seen
in
Table
C­
5,
however,
this
is
a
small
error
since
most
of
the
mercury
emissions
from
those
plants
are
due
to
the
mercury
chlor­
alkali
units.

Table
C­
5:
Mercury
emissions
reductions
from
Mercury
Cell
Chlor­
Alkali
Plants
Facility
Name
1999
NEI
Plant
ID
(
State
Facility
Identifier)
County,
State
Plantwide
1999
Hg
Emissions
(
tons)
1999
Hg
emissions
from
MACT=
1403
(
tons)
HOLTRACHEM
MANUF.
CO.
(
LCP
CHEMICALS
­
M
01900053
Penobscot
County,
ME
0.065
0.065
HOLTRACHEM
MFG.
CO.
LLC
T$
3164
Columbus
County,
NC
0.164
0.164
OXY
VINYLS
LP
HG0192D
Harris
County,
Tx
0.6551
0.5005
GEORGIA
PACIFIC
WEST
INC
0004
Whatcom
County,
WA
0.331
0.255
2.
RULE
REDUCTIONS:
We
applied
a
10.4%
reduction
to
all
other
inventory
records
coded
with
MACT=
1403
The
sum
of
the
other
inventory
records
coded
with
MACT=
1403
is
5.549
tons/
year
(
0.179
tons
from
1
record
in
the
non­
point
inventory
and
5.37
tons
from
the
multiple
plants
in
the
point
source
inventory.)
To
reduce
these
by
10.4%,
we
performed
the
calculation
(
5.549)
*
(
100­
10.4)/
100,
which
gives
a
result
of
4.972
tons/
year.
C­
6
Note
that
we
applied
the
10.4%
reduction
to
all
records
that
have
a
MACT
code
of
1403,
with
the
exception
of
the
plant
closures
described
above,
even
though
the
email
dated
12/
15/
04
(
see
below)
indicated
4
specific
plants
with
MACT
code
1403
in
the
inventory
that
are
not
mercurychloralkali
plants.
Note
that
the
mercury
emissions
from
these
plants
in
the
1999
inventory
sum
to
less
than
0.03
tons.
C­
7
Item
3:
Gold
Mine
Reductions
Projection
approach
for
Gold
Mine
emissions
(
SIC
1084)

We
used
the
following
equation
along
with
the
1999
NEI
for
HAPs
to
estimate
the
emissions
in
year
2020.

Projected_
Emissions
=
Gold
Mine
Emissions_
1999
*
GF
*
(
100­
Percent
reduction)/
100
In
this
equation:
 
GF
is
the
growth
factor
that
accounts
for
changes
in
activity
due
to
economic
influences
between
1999
and
the
projection
year.
 
Percent
reduction
is
the
amount
of
reductions
due
to
rules
or
voluntary
activities.

Because
we
did
not
have
information
on
economic
growth
for
the
gold
mining
industry,
we
assumed
no
growth
(
growth
factor=
1).

A
featured
program
highlighting
gold
mine
emission
reductions
is
available
in
http://
www.
epa.
gov/
innovation/
feature.
htm,
entitled
"
Working
Together
to
Protect
the
Environment:
Nevada
Mining
Partnership
Reduces
Mercury
Air
Emissions
by
40%".
This
document
discusses
a
program
spearheaded
by
EPA
Region
9
and
the
State
of
Nevada
Division
of
Environmental
Protection
(
NDEP)
in
cooperation
with
several
precious
metal
mining
companies
in
the
state
is
the
Voluntary
Mercury
Air
Emissions
Reduction
Program
(
VMRP).

Based
on
this
article,
we
determined
that
gold
mine
emissions
would
be
reduced
from
1999
levels.
More
specific
reduction
information
was
provided
by
EPA
Region
9.
Reductions
were
expected
to
apply
to
the
four
gold
mines
in
Nevada
that
emit
the
most
mercury.
Thus,
all
other
gold
mine
sites
(
as
indicated
by
having
an
SIC
code
of
1041)
will
have
constant
emissions
in
the
future
(
no
percent
reduction,
and
growth
factor
=
1.0).

The
four
sites
to
which
percent
reductions
have
been
computed
are
summarized
in
Table
C­
6,
along
with
information
on
the
types
of
controls,
and
estimates
of
future
year
emissions
provided
by
Region
9.
In
summary,
it
is
expected
that
improved
monitoring
of
the
control
devices
and
mercury
recovery
would
assist
in
bringing
down
the
mercury
emissions
by
2006
to
about
4,000
lb/
yr
from
the
four
major
gold
producers.
C­
8
Table
C­
6:
Information
to
compute
future­
year
emissions
from
the
gold
mining
industry.
SiteID
(
concatenate
d
with
FIPS
code)
and
Site
Name
Input
from
Region
9
for
future
year
emissions
(
Steven
Frey,
EPA
Region
9)
County
Mercury
Emissio
ns
in
the
1999
NEI
(
tons/
yr)
Datasourc
e
32007­
0025
JERRITT
CANYON
(
MAIN)
Jerritt
has
added
sodium
hypochlorite
(
bleach)
system
to
existing
venturi
scrubbers
on
their
2
roasters.
Testing
in
9­
02
(
which
is
when
they
started
the
bleach
addition)
indicated
90+%
reduction
in
mercury
emissions.
Jerritt
has
added
sulfur
treated
carbon
absorbers
to
refinery
emission
points.
Plant
claims
that
their
initial
stack
tests
considerably
overestimated
their
emissions
(
e.
g.,
1999
emissions
likely
too
high)
because
some
of
the
mercury
was
condensing
in
the
stack.
Nonetheless,
Steven
Frey
recommended
that
1999
emissions
remain
as
is.
He
recommended
that
emission
reductions
be
based
on
the
following
site­
level
emission
estimates:
2002
emissions:
4738lbs,
2003
emissions:
1738
lbs
(
which
is
a
3000
lbs
reduction
from
2002),
2006
and
later:
emissions
are
at
1000
lbs
per
year.
Elko
County
6.7805
State
submitted
(
June
2002
submittal)

32011­
0619
PIPELINE
MINING
OPERATION
(
Placer
Dome)
This
is
a
"
heap
leach"
operation
and
does
not
have
roasters.
Plant
uses
a
proprietary
chemical
which
locks
up
mercury
in
ore.
Steve
Frey
recommended
that
emission
reductions
be
based
on
the
following
site­
level
estimates:
2002
emissions:
685
pounds,
2006
and
later
emissions:
1000
pounds
per
year.
Eureka
County
2.2840
32013­
0451
TWIN
CREEKS/
NE
WMONT
MINING
CORP.
Newmont
has
Mercuric
Chloride
Scrubbers
on
their
2
roasters
and
sulfur
treated
activated
carbon
adsorbers
on
refinery
building.
Steve
Frey
recommended
that
emission
reductions
be
based
on
the
following
site­
level
estimates:
for
2002,
524
lbs
(
TRI
report
for
2002).
He
expects
2006
emissions
to
be
1000
pounds
per
year
and
remain
there
in
future
years.
Humboldt
County
1.3702
32007­
T$
12525
BARRICK
GOLDSTRIKE
MINE
Barrick
has
Mercuric
Chloride
scrubbers
on
their
2
roasters.
Sulfur
treated
activated
carbon
adsorbers
on
the
refinery
emission
points.
Barrick
added
some
adsorbers
to
smaller
emission
sources
in
the
refinery
building
and
recently
have
added
a
sulfur
treated
carbon
adsorber
to
the
carbon
regeneration
exhaust
.
(
Steve
Frey
indicated
that
the
carbon
regeneration
that
tested
high
for
mercury
in
2002.)
Site
level
emissions
were
5920
pounds
in
2002
(
4380
from
the
one
carbon
regeneration
unit).
In
2003,
a
sulfur
treated
carbon
adsorber
was
installed
to
treat
the
mercury
from
the
regeneration
unit.
Steven
Frey
recommended
that
emission
reductions
be
based
on
the
following
site­
level
estimates:
For
2002:
5920
lbs.
For
2003:
1920
lbs
(
a
4000
lb
reduction
from
the
carbon
adsorber),
and
for
2006
and
later
emissions:
1000
pounds
per
year.
Elko
County
0.7055
TRI
data
We
computed
emissions
reduction
percentages
from
the
information
in
Table
C­
6
as
follows.

Percent
Reduction
(
year
1999
to
year
X)
=
100%*(
Emissions
Year
1999
­
Emissions
Year
X)/
Emissions
Year
1999
C­
9
Tables
C­
7
shows
the
percent
reductions
we
applied
to
the1999
NEI
emissions
to
estimate
emissions
for
year
2002
and
beyond.

Table
C­
7:
Percent
reduction
by
facility
from
1999
to
2005
and
2006
and
later.

Year
1999
emissions
from
1999
NEI
[
tons/
year]
Year
2006
and
later
emissions
(
converted
from
lbs
in
Table
C­
6)
[
tons/
year[
Percent
reduction
from
Year
1999
to
Year
2006
and
later
JERRITT
CANYON
(
MAIN)
6.7805
0.5
92.63%

PIPELINE
MINING
OPERATION
(
Placer
Dome)
2.2840
0.5
78.11%

TWIN
CREEKS/
NEWMONT
MINING
CORP.
1.3702
0.5
63.51%

BARRICK
GOLDSTRIKE
MINE
0.7055
0.5
29.13%
