OAR­
2002­
0059
I
I­
B­
37
ALPHA­
GAMMA
T
E
C
H
N
O
L
O
G
I
E
S
,
I
N
C
.

ME
M(
3
IRAN
DU
M
DATE.:
February
4,2002
SUBJECT:

FROM:
Melanie
Taylor
Emissions
Data
for
Reciprocating
Internal
Combustion
Engines
Alpha­
Gamma
Technologies,
Inc.

Sims
Roy,
EPA
OAQPS
ESD
Combustion
Group
TO:

This
memorandum
presents
a
summary
of
hazardous
air
pollutants
(
HAP)
and
criteria
emissions
data
gathered
for
stationary
reciprocating
internal
combustion
engines
(
RICE).
The
data
presented
in
this
memorandum
were
developed
from
94
test
reports
for
RICE,
including
tests
conducted
by
EPA
on
three
engines.
These
test
reports
are
listed
/
in
Attachment
1.
The
test
reports
were
gathered
in
an
effort
to
characterize
emissiions
from
RICE
from
a
variety
of
sources.
The
majority
of
these
tests
were
perforimed
for
California
AB2588
compliance
purposes.

­­
Source
of
Information
Alpha­
Gamma
developed
a
Microsoft
Access­
database
for
the
gathered
data.
The
database
includes
the
measured
emissions
concentrations
and
other
parameters,
such
as
temperature,
flow
rate,
and
horsepower,
necessary
to
calculate
emission
rates
and
factors.
The
database
also
includes
physical
and
operational
parameters
which
may
affect
H.
AP
and
criteria
emissions.
Each
record
contains
information
for
up
to
three
test
runs
for
an
identified
HAP
or
criteria
pollutant.
A
database
approach
was
chosen
to
easily
access
and
manipulate
the
large
amount
of
data
collected.
The
database
approac:
h
also
ensures
that
all
emissions
are
calculated
consistently
and
reduces
errors
in
the
calculated
emissions.

The
majority
of
test
reports
included
in
the
Emissions
Database
were
obtained
from
California
Air
Resources
Board
(
CARB)
air
basins
and
from
the
EPA
STIRS
(
Source
Test
Information
Retrieval
System)
effort.
The
database
also
includes
emissions
tests
conducted
by
the
Gas
Research
Institute
(
GRI)
for
natural
gas­
fired
engines.
These
emissions
tests
were
conducted
by
GRI
in
cooperation
with
GRI
member
companies.
Testing
was
also
conducted
at
Colorado
State
University
(
CSU)
by
EPA
on
three
engines,
and
preliminary
results
of
this
testing
are
included
in
the
Emissions
Database.

1
The
emiissions
tests
obtained
from
state
and
local
air
regulatory
agencies
were
conducted
by
source
owners
and
operators
in
response
to
air
regulatory
requirements.
No
standard
protocol
was
used
to
conduct
the
emissions
tests
included
in
the
RICE
Emissions
Database.
The
pollutants,
test
methods,
detection
limits,
operating
conditions,
and
reasons
for
testing
vary
from
test
to
test.
The
test
reports
gathered
from
California
air
pollution
control
districts
were
conducted
by
source
owners
and
operators
to
comply
with
California's
AB2588
air
toxic
regulations.
In
those
cases,
test
methodls
developed
and
approved
by
the
CARB
are
generally
used
to
quantify
ernisslions.
The
target
HAP
for
the
California
tests
vary
since
the
target
HAP
were
negotiated
with
the
local
air
pollution
control
district.

Total
Number
of
Emissions
Tests
Representation
Number
of
Number
of
Tests
on
Tests
on
Engines
Small
with
HAP
Engines
control
I<
500
HP)
The
database
contains
a
total
of
578
tests.
Of
these
tests,
431
were
conducted
on
RICE
that
can
be
classified
in
one
of
the
subcategories
identified
by
EPA.
A
summary
of
the
number
of
emissions
tests
included
in
the
database,
by
subcategory,
is
presented
in
Table
1.
The
number
of
tests
on
engines
with
HAP
control
and
small
(<
500
HP)
engines
is
also
given.
Only
seven
test
reports
include
simultaneous
measurements
of
emissions
before
and
after
HAP
control
devices.
Engines
tested
range
in
size
from
25
horsepower
(
HP)
to
7,107
HP.
Most
of
the
emissions
data
are
for
natural
gas­
fired
engines
and
diesel
engines,
which,
according
to
the
RICE
Population
Database,
represent
over
95
percent
of
stationary
RICE.

Compression
ignition
(
CI)

Digester
Gas
and
Landfill
Gas
­­
­­
Table
1.
Number
of
emissions
tests
per
subcategory
57
10
9
18
0
9
Subcategory
_______

2­
Stroke
Lean
Burn
(
2SLB)

4­
Stroke
Lean
Burn
(
4SLB)

4­
Stroke
Rich
Burn
(
4SRB)
121
I
17
1
41
94
I
16
I
0
141
I
55
I
29
For
the
fuels
other
than
natural
gas
and
diesel,
there
are
a
limited
number
of
HAP
emissions
tests
included
in
the
RlCE
Emissions
Database.
For
digester
gas
stationary
RICE,
17
emissions
tests
are
included
in
the
database,
and
for
landfill
gas
stationary
2
RICE,
one
emissions
test
is
included
in
the
database.
One
emissions
test
is
included
in
the
database
for
propane
and
three
emissions
tests
are
included
for
process
gas.
No
ernissions
tests
are
included
for
LPG
engines.
For
CI
stationary
RICE,
the
majority
of
the
emissions
tests
included
in
the
RICE
Emissions
Database
are
for
diesel
fuel;
three
tests
are
included
for
JP­
5,
and
no
emissions
tests
are
included
for
dual
fuel,
kerosenehaphtha,
or
heavier
fuels,
such
as
residuallcrude
oil.

­­
Emissions
Data
HAP
arid
criteria
pollutant
emissions
data
summaries
are
presented
in
Attachments
2
and
3,
respectively.
Emission
concentrations
are
presented
in
units
of
parts
per
billion
(
ppb)
for
gaseous
pollutants
and
micrograms
per
dry
standard
cubic
meter
(
pg/
dscm)
for
particulate
pollutants.
Emission
rates
are
presented
in
units
of
pounds
per
hour
(
Ib/
hr)
and
emission
factors
are
presented
in
units
of
pounds
per
million
Btu
heat
input
(
Ib/
MRABtu)
and
pounds
per
horsepower­
hour
power
output
(
Ib/
HP­
hr).
From
the
measured
data,
the
following
observations
are
made:

formaldehyde,
benzene,
acetaldehyde,
and
acrolein
are
the
most
frequently
tested
HAP
for
natural
gas
fired
engines;

formaldehyde,
naphthalene,
and
PAHs
are
the
most
frequently
tested
pollutants
for
diesel
fired
engines;

the
reported
formaldehyde
concentrations
reflect
the
widest
range
of
emissions
for
all
fuel
types;

for
landfill
gas,
all
of
the
tested
pollutants
were
detected;

for
digester
gas,
1
,
I
,
I­
trichloroethane,
1,3­
butadiene,
l14­
dioxane,
carbon
tetrachloride,
chloroform,
ethylene
dibromide,
ethylene
dichloride,
tetrachloroethylene,
trichloroethylene,
and
vinylidene
chloride
were
never
detected;

for
natural
gas,
1
,
I
,2­
trichloroethane,
,
I­
dichloroethane,
1,2­
dichloroethane,
1
,2­
dichloropropane,
1
­
3­
dichloropropene,
carbon
tetrachloride,
chloroform,
ethylene
dibromide,
and
vinyl
chloride
were
not
detected;
and
naphthalene
was
not
detected
for
propane
fired
engines.

C
a
I
c
u
II
a
ti
o
ns
The
ernission
factors
and
rates
were
determined
using
established
 PA
calculation
­­­

3
methods.
Emissions
factors
in
Ib/
MMBtu
were
determined
using
calculation
procedures
presented
in
EPA
Method
19,
referenced
in
40
CFR
part
60,
appendix
A.
These
factors
are
based
on
the
measured
pollutant
concentration,
fuel
factor,
and
stack
oxygen
levels.
Emission
rates
in
Ib/
hr
were
determined
using
standard
engineering
calculations
and
are
based
on
the
measured
pollutant
concentration,
exhaust
stack
flow
riatle,
and
the
exhaust
temperature.
Emission
factors
in
IbJHP­
hr
were
based
on
the
calculated
emission
rates
(
Ibhr),
engine
rating
(
HP),
and
load
conditions.
In
cases
where
the
fuel
factor
was
not
provided,
EPA
used
the
fuel
factors
provided
in
40
CFR
part
60.

Emission
factors
were
calculated
according
to
Equations
1
through
5
below.
A
detailed
derivation
of
Equation
2
is
provided
in
Attachment
4.
For
gaseous
HAP,
Equations
1
and
2
were
used
to
calculate
emission
rates
in
Ib/
hr
and
emission
factors
in
Ib/
MMBtu,
respectively.
For
particulate
HAP,
Equations
3
and
4
were
used
to
calculate
emission
rates
in
Ib/
hr
and
emission
factors
in
Ib/
MMBtu,
respectively.
Equation
5
was
used
to
calculate
emission
factors
in
Ib/
HP­
hr
for
both
gaseous
and
particulate
HAP.
Load
condi1:
icrns
are
incorporated
into
Equation
5
to
account
for
engine
output
power.

Equatbn
1:
Emission
Rate
in
(
Iblhr)
for
gaseous
HAP:

where
:
ER
=
Emission
rate
(
Ib/
hr)
Q,,
=
Stack
gas
flow
rate
(
dscf/
min)
C
=
Measured
concentration
(
ppb)
MW
=
HAP
molecular
weight
(
Ib/
lb­
mol)
Tref
=
Standard
temperature
referenced
("
F)

Equation
2:
Emission
Factor
in
(
Ib/
MMBtu)
for
gaseous
HAP:

where
:
EF,
=
Emission
factor
(
ib/
MMBtu)
F
d
=
Fuel
factor
(
dscf/
MMBtu)

4
%
O,
=
Percent
oxygen
in
the
stack
Equation
3:
Emission
Rate
in
(
Iblhr)
for
particulate
HAP:

i
~
J
a
ere:
C
=
Measured
concentration
(
pg/
dscrn)

Equation
4:
Emission
Factor
in
(
Ib/
MMBtu)
for
particulate
HAP:

Ib
.`
I
4l
dscf
20
.9
I
X
F
,

(­

t
x
E,=
E
[­

I
=
6.23
x
1
0
X
C
c­
20
9
­
04
0
MMBIU
,
dscm
MMElu
where:
C
=
Measured
concentration
(
pgldscrn)

Equation
5:
Emission
Factor
in
(
Ib/
HP­
hr)
for
both
gaseous
and
particulate
HAP:

ER
[
I
b
Ihr
)
EF
(
I
b
IHP
­
h
r
)
i
load
100
P
(
H
P
I
a
(­
)

where:
EF,
=
Emission
factor
based
on
power
output
(
Ib/
HP­
hr)
P
=
Power
output
(
HP)
Load
=
Load
conditions
of
the
tested
engine
5
Appendix:
Detailed
Information
about
Database
­­
Presentation
of
Data
The
alcccompanying
database
is
presented
in
Microsoft
Access
Version
2.0
(
ETD:
Z­_
IGE.
mdb)
and
in
Microsoft
Access
97
(
ETDB9­
01
.
mdb).
It
contains
hazardous
air
pollutants
(
HAP)
and
criteria
pollutant
emissions
data
for
internal
combustion
enginles
gathered
from
source
test
reports.
A
description
of
the
various
data
fields
in
the
database
is
included
as
Attachment
5.

As
previously
indicated,
a
total
of
578
tests
are
included
in
the
RICE
Emissions
Databa,
se.
These
tests
were
gathered
from
a
total
of
94
test
reports,
with
27
test
reports
containing
information
solely
on
HAP,
6
1
test
reports
containing
information
solely
on
criteria
pollutants,
and
six
test
reports
containing
information
on
both
criteria
and
HIAP
emissions.
Some
of
the
test
reports
represent
pooled
testing
efforts
of
several
engines
or
testing
of
the
same
engine
under
various
loads.
EPA
assigned
individuial
test
ID
numbers
to
each
engine,
for
each
load
condition.
For
example,
Report
ID
Number
11
contains
three
tests
for
three
separate
engines.
In
this
case,
the
Test
ID
Numbers
were
assigned
as
11
.
I
through
11.3.
Each
record
corresponds
to
an
individual
test
for
a
specific
pollutant,
and
each
test
consists
of
three
or
less
runs/
rneasurements.
In
cases
where
less
than
three
runs
were
conducted,
an
"
NR"
(
not
reported)
indicates
the
run
was
not
performed
or
was
not
valid.

The
database
contains
two
master
tables,
a
"
Facilities"
table
and
a
"
Test
Data"
table.
The
clornnnon
fields
which
link
the
two
tables
are
the
"
Report"
and
the
"
ID"
fields
which
contain
the
Source
Report
and
Test
Identification
Numbers,
respectively.
A
list
identifying
the
gathered
report
numbers
in
the
database
is
included
with
this
document
as
Attachment
1.
Three
additional
tables
were
created
from
the
"
Test
Data"
table:
(
1)
Test
Data
­
Criteria
Pollutants,
(
2)
Test
Data
­
HAPs,
and
(
3)
Test
Data
­
HAPs
+
Criteria.
These
tables
subdivide
the
"
Test
Data"
table
by
test
reports
which
contain
criteria
pollutant
emissions
only,
test
reports
which
contain
HAP
emissions
data,
and
test
reports
with
both
HAP
and
criteria
pollutants.
The
data
presented
in
the
Facility
and
Test
Data
tables
are
"
as
reported"
information.
All
calculations
(
corrected
concentrations,
emission
rates,
and
emission
factors)
are
performed
within
the
datab,
ase
through
the
developed
queries
and
modules.
These
calculations
are
automatically
executed
when
selecting
options
presented
in
the
Forms
and
Reports
sections
of
the
database.

Withiri
the
database,
data
were
stored
in
two
tables
to
reduce
repetitive
entry
of
data.
These
tables,
and
the
data
fields
associated
with
each
table
are
as
follows:

6
Facilities
Table
a
a
a
a
Facility
name
Location
Testing
Company
Date
of
Test
Engine
Manufacturer
Engine
Model
Engine
Family
(
2­
stroke
lean­
burn,
4­
stroke
rich­
burn,
etc.)
Air
Supply
(
turbocharged,
naturally
aspirated
,
etc.)
Number
of
Cylinders
Rated
Horsepower
Test
Horsepower
Load
Fuel
Type
Post­
combustion
Emission
Controls
Test
&
ita
Table
a
a
a
a
a
a
a
a
a
a
a
Pollutant
Test
Method
Pollutant
Concentration
(
as
reported)
Detection
Limit
Exhaust
Oxygen
Percentage
Data
Rating
Fuel
Exhaust
Factor
(
F­
Factor)
Exhaust
Flow
Rate
Fuel
Heating
Value
Fuel
Flow
Rate
Exhaust
Moisture
Fraction
Molecular
Weight
of
Pollutant
The
database
was
programmed
to
merge
data
in
the
two
tables
and
calculate
emission
factors
for
the
available
pollutants
in
units
of
pounds
per
horsepower­
hour
and
pounds
per
million
British
thermal
units
of
fuel
burned.
To
ensure
consistent
calculation
of
emiss'ion
factors,
the
database
was
programmed
to
use
the
emission
concentration
data
and
process
data
taken
during
the
testing
period
to
calculate
the
emission
factors.
Emission
factors
provided
in
each
of
the
test
reports
were
not
used.
This
method
of
calculating
emission
factors
was
chosen
because
various
methods
of
calculating
emisslion
factors
were
used
in
the
gathered
test
reports.
Also,
in
some
cases,
the
methodl
of
calculating
emission
factors
was
not
given.

Unreported
emissions
are
presented
as
"
NR."
Unreported
emissions
are
the
result
of
missing
parameters
such
as
pollutant
concentration,
fuel
type,
engine
type
and
size,
stack
exhaust
flowrate,
or
fuel
consumption
levels.
Typically,
each
test
consisted
of
7
three
test
runs.
For
the
tests
where
at
least
one
run
(
but
not
all
runs)
revealed
an
undetected
concentration,
a
`
I<''
sign
precedes
the
caiculated
emission
rates
and
factors.
In
cases
where
the
pollutant
was
not
detected
in
all
test
runs,
the
emission
concentrations
are
presented
as
"
ND".
All
emission
rates
and
factors
corresponding
to
undetected
concentrations
are
calculated
based
on
one
half
of
the
reported
pollutant
detection
limit,
and
a
"<<`
I
sign
precedes
the
calculated
emission
rates
and
factors.
If
the
concentration
is
undetected
and
the
pollutant
detection
limit
is
unknown,
the
emission
rate
or
factor
is
shown
as
"
NR"
(
not
reported)
with
a
"<<"
sign.
A
detailed
description
of
the
calculation
equations
used
to
determine
the
emissions
factors
was
previouisly
presented
in
the
memorandum.

The
uisw
can
get
a
summary
of
emissions
data
by
selecting
the
options
under
the
"
Formis"
and
the
"
Reports"
sections
of
the
database.
The
options
presented
in
the
Forms
section
allow
the
user
to
compile
an
emission
factor
for
a
specific
pollutant
for
a
selected
engine
type,
size,
load
condition,
and
control
application.
The
options
presented
in
the
Reports
section
provide
the
user
with
summaries
of
the
gathered
emissions
data.

­­
How
­
tab
Use
the
Database
To
use
the
database,
open
the
database
file
which
will
automatically
open
the
MAIN
FORM
view
(
in
case
where
the
MAIN
FORM
does
not
open,
open
the
file
and
choose
the
FOIIMS
selection
on
the
main
database
screen,
then
under
the
FORMS
selection,
choose
MAIN
FORM).

To
use
the
form
section:

1­
2­
3­
select
the
"
Form"
section
by
clicking
on
the
form
tab;
select
and
open
the
"
Main
Form"
option;
select
your
search
criteria,
including
the
engine
family,
fuel
type,
engine
size,
test
load
condition,
pollutant,
control
device,
and
the
emission
units
of
interest;
and
once
these
factors
have
been
identified,
the
user
can
either
view
the
data
that
match
the
search
criteria,
or
obtain
the
emission
factors
from
the
search
criteria.
4­

The
following
options
are
available
to
the
user:

a­
View
Facilities
The
VIEW
FACILITIES
function
provides
the
user
with
specific
information
about
the
engine
tested,
test
conditions,
and
pollution
control
devices.
Each
facility
is
a
"
record"
as
indicated
at
the
bottom
of
the
screen.
To
view
the
different
facilities
in
the
database,
the
user
should
click
on
the
arrows
at
the
bottom
of
the
screen
to
progress
through
the
various
facility
records.
If
the
user
wishes
to
8
search
for
a
specific
engine
manufacturer,
model,
or
family,
the
FIND
option
allows
the
user
to
input
a
key
word
or
number
for
the
search.
The
value
given
in
,
the
ID
field
is
a
unique
facility
identification
number
which
is
used
to
cross
reference
between
the
FACILITY
and
TEST
DATA
databases.
To
exit
this
screen,
click
on
the
DONE
button
twice.

Ib­
View
EF
Inputs
`
The
VIEW
EF
INPUTS
function
provides
the
user
with
information
used
(
or
raw
data)
to
generate
emission
factors
for
each
test.
This
type
of
information
includes
horsepower,
pollutant,
F­
factor,
pollutant
concentration,
exhaust
flow
rate,
moisture
content
of
exhaust,
and
oxygen
concentration
in
the
exhaust.

c­
EF
Report
The
EF
REPORT
option
provides
the
user
with
the
engines
tested
and
the
resulting
emission
factors
for
the
selected
search
options.

The
EF
REPORT
contains
the
column
headings:
database
ID,
engine
manufacturer,
engine
model
number,
rated
horsepower,
operating
load
during
testing,
emission
factors
in
the
selected
units,
count
(
the
number
of
runs
in
each
test),
and
ND
count
(
the
number
of
runs
where
the
pollutant
was
below
the
measurement
detection
limit).

At
the
end
of
each
data
series
for
a
specific
pollutant
and
engine
family,
summary
statistics
for
the
data
set
are
provided.
These
include
the
following:

Average
EF
=
The
average
of
emission
factors
for
a
specific
pollutant
and
engine
family.

Std
Dev
=
The
standard
deviation
of
the
emission
factors
for
the
data
set.

Count
=
The
number
of
tests
used
to
calculate
an
average
emission
factor.

f3SD
(%)
=
The
relative
standard
deviation
of
the
data
set.
This
value
is
calculated
by
dividing
the
standard
deviation
by
the
average
and
multiplying
by
'
I
00.

Summary
of
average
concentrations
and
emission
factors
by
fuel
type
and
pollutant
are
presented
in
the
"
Report"
section
of
the
database.
To
use
the
"
Report"
section,
select
the
report
tab
from
the
main
screen.
In
order
to
obtain
the
calculated
emissions
data,
you
rriust
open
the
desired
report
(
when
opening
a
report,
you
are
basically
running
all
related
queries
and
modules).

9
NOTE::
There
are
several
options
located
in
the
TABLE,
QUERY,
FORM,
REPORT,
MACRO,
and
MODULE
tabs
that
have
not
been
addressed
in
this
memorandum.
These
options
are
used
to
support
the
operation
of
the
database
and
may
not
work
or
provide
useful
information
if
chosen
singularly.
The
user
is
advised
to
only
exercise
the
optiions
provided
in
the
main
screen.

Tests
from
the
EPA's
testing
at
CSU
are
identified
by
test
identification
numbers
beginning
with
"
CSU."
Test
identification
numbers
from
1
to
100
correspond
to
HAP.
From
100
to
162,
the
identification
numbers
refer
to
tests
with
only
criteria
pollutants.
Exceptions
are
report
numbers
1
,
29,
31
and
the
CSU
test
reports.
Test
number
1.1
contains
only
HAP,
but
tests
number
1.2,
1.3,
1.4
and
1.5
contain
only
criteria
pollutarits.
Reports
29
and
31
contain
tests
with
both
HAP
and
criteria
pollutants
and
tests
with
only
criteria
pollutants
(
29.32,
29.40
and
29.43
and
31
.
IO).
As
they
all
belong
to
the
same
facility,
they
were
kept
together
with
the
same
report
identification
numbler`
s.
The
CSU
test
reports
contain
tests
with
both
HAP
and
criteria
pollutant
data.
Comple!
te
references
of
these
test
reports
are
included
in
Attachment
1.

Certain
test
report
IDS
include
an
"
x"
with
the
ID
number.
These
reports
are
classified
by
EPA
as
suspect
and
the
presented
data
may
not
reflect
accurate
emission
measurements.
In
the
case
of
reports
29
and
31
I
an
x
was
added
to
indicate
that
the
names
of
the
facilities
tested
were
not
provided
in
the
reports.
Please
note
that
the
EPA
is
currently
conducting
certain
QNQC
analysis
procedures
on
the
accompanying
data.
The
data,
as
presented,
have
not
been
finalized.

10
Attachment
I
Source
Test
Identification
Numbers
I
.
Osborne,
W.
E.
and
M.
D.
McDannel.
Emissions
of
Air
Toxic
Species:
Test
Conducted
Under
AB2588
for
the
Western
States
Petroleum
Association.
Prepared
by
Carnot,
Tustin,
California
for
Western
States
Petroleum
Association,
Glendale,
California.
May,
1990.

2.
Joint
Powers
Agencies
for
Pooled
Emission
Estimation
Program.
Final
Report
for
Publicly
Owned
Treatment
Works
(
POTws).
Appendix
­
Volume
1.
Prepared
by
James
M.
Montgomery
Consulting
Engineers,
Inc.
for
Publicly
Owned
Treatment
Works,
California.
August,
1990.

3.
IHwey,
S.
and
C.
Castaldini.
.
Effects
of
NOx
Control
on
Pollutant
Emissions
in
INatural­
Gas­
Fueled
Stationary
Engines.
Topical
Report
(
September
1991
­
,
June
1992).
Prepared
by
Acurex
Environmental
Corporation
for
Gas
Research
Ilnstitute.
October,
1992.

4.
Castaldini,
C.
and
L.
R.
Waterland.
Environmental
Assessment
of
a
Reciprocating
Engine
Retrofitted
with
Selective
Catalytic
Reduction.
Project
!
Summary.
Prepared
by
EPA's
Air
and
Energy
Engineering
Research
Laboratory,
Research
Triangle
Park,
NC.
May,
1986.

5.
Revised
1989
AB
2588
Emission
Inventory
Report.
Marine
Corps
Air
Ground
Combat
Center,
Twentynine
Palms,
California.
Volume
I
l
l
.
AB
2588
Source
­
rest
Report.
Prepared
by
Science
Applications
International
Corporation,
Environmental
Services
Division,
San
Diego,
California,
for
Southwest
Division,
Naval
Facilities
Engineering
Command,
San
Diego,
California,
June,
1993.

6.
Source
Emissions
Survey
of
Los
Angeles
International
Airport
­
Diesel
Fired
Generating
Units,
Los
Angeles,
California.
Prepared
by
Metco
Environmental,
Dallas,
Texas,
for
ERM­
West,
Inc.
October,
1990.

7.
Pooled
Source
Emission
Test
Report:
Gas­
Fired
IC
Engines
in
Santa
Barbara
County.
Prepared
by
ENSR
Consulting
and
Engineering,
Camarillo,
California,
for
ARC0
Oil
and
Gas
Company,
Bakersfield,
California.
July,
1990.

1­
1
1
8.
AB
2588
Diesel
Emission
Test
Summary.
Prepared
by
Thermochem,
Inc.,
Laboratory
and
Consulting
Services,
Santa
Rosa,
California,
at
The
Geysers,
for
Six
Participating
Geothermal
Operator
Companies.
November,
1990.

9.
Porter,
T.
Ventura
Port
District
Dredge
:
Air
Toxics
Emissions
Retesting,
Ventura
Harbor,
Ventura,
California.
Prepared
by
BTC
Environmental,
Inc.,
Ventura,
California
for
Applied
Environmental
Technologies.
February
25,
1991.

IO.
.
Air
Pollution
Source
Testing
for
California
AB
2588
on
an
Oil
Platform
Operated
by
Chevron
USA,
lnc.,
Platform
Hope,
California.
Prepared
by
Engineering­
Science,
Pasadena,
California
for
Chevron
USA
Inc.,
Ventura,
CA.
August
29,
1990.

11.
Air
Pollution
Source
Testing
for
California
AB
2588
of
Engines
at
the
Chevron
USA,
Inc.
Carpinteria
Facility.
Prepared
by
Engineering­
Science,
Pasadena,
California,
for
Chevron
USA,
Inc.,
Ventura,
California.
August,
1990.

12.
!
Source
Emissions
Survey
of
Vandenberg
Air
Force
Base,
Engines
No.
1,
2,
3
and
4
Exhaust
Stacks,
Vandenberg,
CA,
Volume
1.
Prepared
by
Metco
Environmental,
Dallas,
Texas
for
Versar,
Inc.
May
and
June,
1990.

13.
Compliance
Report
of
Hydraulic
Dredge
"
Ollie"
Application
#
1266­
1
1
1.
Prepared
by
South
Coast
Environmental
Company,
La
Verne,
California,
for
Reidel
International,
Portland,
Oregon.
Parameters
Measured:
Formaldehyde,
Poly
Aromatic
Hydrocarbons
(
PAH's)
and
Multiple
Metals
by
Fuel
Analysis.
Pinarch
8,
1991.

14.
Air
Emission
Testing
of
Internal
Combustion
Engines
for
Chevron
USA
F3­
oduction
Company,
Carpinteria,
CA,
Tested
by
Engineering
Science,
Inc.
March,
1992.

15.
Western
States
Petroleum
Association,
Bakersfield,
California.
Pooled
Source
EEmission
Test
Report:
Oil
and
Gas
Production
Combustion
Sources,
Fresno
and
\/
entura
Counties,
California
(
Without
Appendices).
Prepared
by:
ENSR
Consulting
and
Engineering.
January,
1991.

1­
2
16.
Finnie,
S.
and
T.
Wong.
Source
Emissions
Testing
Final
Test
Report.
Volume
1.
Pooled
Source
Testing
of
a
Rig
Diesel­
Fired
Internal
Combustion
Engine.
Prepared
by
Entropy
Environmentalists,
Inc.,
Huntington
Beach,
California
for
Western
States
Petroleum
Association,
Bakersfield,
California.
October
2,
1992.

17.
!
Source
Testing
of
a
Diesel­
Fired
Generator
Engine
at
the
U.
S.
Naval
Communications
Facility
in
Stockton,
California.
Prepared
by
BTC
Environmental
Inc.,
Ventura,
CA.
1990.

18.
Air
Pollution
Source
Testing
for
California
AB
2588
at
the
Naval
Weapons
Center,
China
Lake,
CA.
Prepared
by
Engineering­
Science,
Inc.,
Itwindale,
CAI
for
Kern
County
Air
Pollution
Control
District,
Bakersfield,
CA.
November
4,
'
I
991.

19.
AB
2588
Air
Toxics
Emission
Testing
at
PRCC
­
IC
Engine.
Prepared
by
Steiner
E?
ivironmental,
Inc.,
Bakersfield,
California,
for
Rand
Mining
Company,
Randsburg,
California.
December,
1991.

20.
Air
Toxics
Hot
Spots
Testing
at
Southern
California
Gas
Company,
Goleta
Station
­
IC
Engine
#
3.
Prepared
for:
Southern
California
Gas
Company
Test
Center.
Prepared
by:
Pape
&
Steiner
Environmental
Services.
June,
1990.

21.
1­
exaco
Exploration
&
Production
Inc.
Gas
Compressor
Emissions
Testing.
Final
Report.
Prepared
for
Texaco
Exploration
&
Production
Inc.,
Ferndale,
CVashington,
by
Emission
Technologies,
Inc.,
Burlington,
Washington.
June
26,
1995.

23.
AB
2588
Air
Toxics
Emission
Testing
at
PRCC
­
IC
Engine.
Prepared
for
Products
Research
and
Chemical
Corporation,
Mojave,
California,
by
Steiner
EEnvironmental,
Bakersfield,
California.
December,
1
991.

24.
EIspinosa,
V.
Emissions
from
an
Internal
Combustion
Engine
Fueled
by
Landfill
Gas.
Source
Test
Report
Conducted
at
GSF
Energy,
Inc.,
Olinda
Landfill
Power
Station,
internal
Combustion
Engine,
Brea,
California,
by
South
Coast
Air
Quality
Management
District,
El
Monte,
California.
July
15,
1988.

1­
3
25.

26.

27.

28.

29.

30.

31.

101.
AB2588
Source
Testing
at
the
Naval
Petroleum
Reserve
#
1
for
the
Department
of
Energy
and
Chevron,
at
Elk
Hills,
CA,
Engines
K­
27
(
report
ID
25.1),
K­
36
(
ID
25.2),
K­
49
(
ID
25.3),
K­
70
(
ID
25.4).
Prepared
by
:
Petro
Chem
Environmental
Services,
Inc.
Prepared
for
:
Chevron
USA,
Inc.,
Bakersfield,
CA.
February,
1992.

Engineering
Test
Report
at
Asilomar
Conference
Center,
Pacific
Grove,
California.
Prepared
by
South
Coast
Environmental
Company,
Orange,
California.
December
31,
1991.

Source
Test
Emission
Report
for
the
Delaval
Engine
at
the
Central
Heating
Facility
and
the
Waukesha
Engine
at
the
Athletic
Facility
of
UC
Santa
Cruz,
California.
Prepared
for
Santa
Cruz
Cogeneration
Associates,
Fairfield,
California
by
Best
Environmental,
Inc.,
San
Leandro
California.
September
22,
`
1
992.

Shih,
C.
C.,
et
al.
Emissions
Assessment
of
Conventional
Stationary
Combustion
Systems;
Volume
II
Internal
Combustion
Sources.
Prepared
by
TRW,
Inc.,
Redondo
Beach,
California
for
US
EPA,
Office
of
Research
and
Development,
Washington,
DC
(
Contract
No.
68­
02­
21
97).
EPA­
6001­
79­
029c.
February,
`
I
979.

(
XI
Topical
Report,
Measurement
of
Air
Toxic
Emissions
from
Natural
Gas­
Fired
Internal
Combustion
Engines
at
Natural
Gas
Transmission
and
Storage
Facilities,
Volume
II:
Appendices.
Prepared
by:
Gas
Research
institute.
February,
1996.

Air
Toxic
"
Hot
Spots"
Emissions
Inventory
Report,
Dregde
"
Headway",
Ventu
ra
Harbor,
California.
Prepared
for:
Dutra
Dredging
Company,
Job
No.
0060­
01
e
Prepared
by:
Applied
Environmental
Technologies,
Inc.
May
31,
1990.

GRI
Topical
Report,
Measurement
of
Air
Toxic
Emissions
From
Combustion
EIquipment
at
Natural
Gas
Processing
Plants,
Volume
II:
Appendices.
F'repared
by:
Gas
Research
Institute.
November
1997.

Compliance
Emission
Test
Report,
Phillips
Petroleum
Company,
Lake
1
­
4
Washington
Central
Battery
No.
1
Generator.
Prepared
by:
Environmental
Science
&
Engineering,
Inc.
October,
1992.

102.
Compliance
Source
Test
At
The
Naval
Petroleum
Reserve
#
I
For
The
Department
Of
Energy
and
Chevron,
At
Elk
Hills,
CAI
Engines
K­
70
(
report
ID
102.1
and
102.2)
and
K­
71
(
report
ID
102.3
and
102.4).
Prepared
By:
Petro
Chem
Environmental
Services,
Inc.
Prepared
for:
Chevron
USA,
Inc.,
]
Bakersfield,
CA.
May
25
and
July
22,
1993
(
ID
102.1,
102.2)
and
May
1
I,
1992
(
ID
102.3,
102.4).

103.
Test
for
UNOCAL,
Santa
Monica,
CA,
Tested
by
Petro
Chem
Environ
Services.
October,
1988.

104.
!
Source
Test
Report,
Oxides
Of
Nitrogen
And
Carbon
Monoxide,
Emission
Test
f?
esults
For
Internal
Combustion
Engines
At
Garden
City
Compressor
Station.
ESE
No.:
3907022000.
Prepared
By:
HUNTER/
ESE,
Inc.,
Baton
Rouge,
LA.
Prepared
For:
Louisiana
Intrastate
Gas
Corporation,
Alexandria,
LA.
September
'
I
989.

105.
Efmission
Testing
on
Compressor
Engines
#
3
and
##
4
at
Avery
Island
FWD
and
Compressor
Station
No.
1
,
New
Iberia,
Louisiana,
Tested
by
Emission
Testing
Services,
Inc.,
Baton
Rouge,
Louisiana.
December,
1992.

106.
Oxides
Of
Nitrogen
And
Carbon
Monoxide,
5A
Compressor.
Report
No.:
87037.
Prepared
By:
Emission
Testing
Services,
Inc.,
Baton
Rouge,
LA.
Prepared
For:
Arc0
Oil
And
Gas
Company,
St.
Mary
Parish,
LA.
October
6,
1987.

IO?.
Compliance
Test
Report
for
Battles
Gas
Plant,
UNOCAL
Corporation,
Orcutt,
CA.
Prepared
by:
Petro
Chem
Environmental
Services.
November,
1992.

108.
I.
C.
Engine
Emission
Tests
at
Southern
California
Gas
Goleta
Station.
Report
PS­
90­
2255.
Prepared
by
Pape
&
Steiner
Environmental
for
Southern
California
Gas
Company.
September,
1990.

109.
Emission
Testing
On
TPLl
Unit
#
2
At
The
Lake
Barre
Booster
Station.
File
No.:

1­
5
92024.
Prepared
By:
Emission
Testing
Services,
Inc.,
Baton
Rouge,
LA.
Prepared
For
Texaco
Pipeline,
Inc.,
Houston,
TX.
March
19,
1992.

1
I
O
.
W.
Schneider,
Air
Pollution
Control
Engineer,
Division
Of
Technical
Services
And
Monitoring,
Bureau
Of
Air
Quality
Control,
Commonwealth
of
Pennsylvania
to
Peoples
Natural
Gas
Company,
Laurel
Ridge
Compressor
Station,
Jackson
Township,
Cambria
County,
PA.
Memorandum:
Source
Test
Review
For
Non­
methane
Hydrocarbons,
Nitrogen
Oxides,
And
Carbon
Monoxide.
April
14,
1992.

11
1.
Source
Tests
Reports
for
Bechtel
Petroleum
Operations,
Inc.,
Elk
Hills
Naval
Petroleum
Reserve,
Tupman
CA,
tested
by
Petro
Chem
Environmental
Services,
Inc.,
April
1991.

112.
llnternal
Combustion
Engines
­
Source
Test
Emissions
Summary
Report
#
086­
211.
Unocal,
Orcutt,
California.
November,
1992.

11
3.
Compliance
Source
Test
At
The
Naval
Petroleum
Reserve
#
I
For
The
Department
Of
Energy
and
Chevron,
At
Elk
Hills,
CA,
Engine
K­
43.
Prepared
f3y:
Petro
Chem
Environmental
Services,
inc.
Prepared
For:
Chevron
USA,
Inc.,
f3akersfield,
CA.
April
16,
1991.

114.
T.
Bianca,
Air
Pollution
Control
Engineer,
Division
Of
Technical
Services
And
Monitoring,
Bureau
Of
Air
Quality
Control,
Commonwealth
of
Pennsylvania
to
National
Fuel
Gas
Supply
Corporation,
Alleghany
Township,
Potter
County,
PA.
Memorandum:
Source
Tests
To
Determine
Carbon
Monoxide,
Nitrogen
Oxides,
And
Total
Non­
methane
Hydrocarbons.
January
30,1991.

1
15.
T.
Bianca,
Air
Pollution
Control
Engineer,
Division
Of
Technical
Services
And
Monitoring,
Bureau
Of
Air
Quality
Control,
Commonwealth
of
Pennsylvania
to
National
Fuel
Gas
Supply
Corporation,
Alleghany
Township,
Potter
County,
PA.
Memorandum:
Source
Tests
To
Determine
Carbon
Monoxide,
Nitrogen
Oxides,
And
Total
Non­
methane
Hydrocarbons.
January
30,
1991.

116.
Annual
Compliance
Test,
Chevron
USA,
Warren
Gas
Plant,
Internal
Combustion
Engine
#`
s
1
&
2.
Report
No.:
7777­
0301.
Prepared
By:
Genesis
Environmental
Services
Company,
Bakersfield,
CA.
Prepared
For:
Chevron
USA,
Inc.,
Bakersfield,
CA.
October
1
,
1991.

1­
6
117.

118.

119.

120.

121.

122.

123.

124.

125.
Oxides
Of
Nitrogen
And
Carbon
Monoxide
Emission
Testing
On
K­
402
Compressor.
Report
No.:
90028.
Prepared
By:
Emission
Testing
Services,
Inc.,
Baton
Rouge,
LA.
Prepared
For:
Mobil
Oil
Corporation,
Chalmette,
LA.
March
28­
29;
1990.

Compliance
Emission
Test
Report,
Phillips
Petroleum
Company,
Lake
'
Washington
Central
Battery,
No.
4
Compressor.
Prepared
By:
Environmental
Science
and
Engineering,
Inc..
Prepared
For:
Phillips
Petroleum
Company.
,
January,
1993.

IC
Engine
Emission
Tests
on
three
Points
within
the
City
of
Tulare's
Sewage
'
Treatment
Plant,
Tested
by
Steiner
Environmental,
Inc.
April,
1993.

Annual
Compliance
Test,
Coalinga
Station,
Pipeline
Plant,
Engines
#
I
.
Report
No.:
291­
101
,
Job
No.:
21999.
Prepared
By:
BTC
Environmental,
Inc.,
Ventura,
(
2.
Prepared
Unocal,
San
Luis
Obispo,
CA.
June
26,
1991.

lJnocal
Corporation,
Coalinga
Lease,
Coalinga,
California.
Prepared
by:
Petro­
Chem
Environmental
Services,
Inc.
(
PCES).
May
14,
1993.

EEmission
Testing
On
The
Hammock
Station
Compressor,
Longwood
Grace
Unit,
(
Section
5).
File
No.:
92082b.
Prepared
By:
Emission
Testing
Services,
Inc.,
Baton
Rouge,
LA.
Prepared
For:
Gulf
States
Pipeline
Corporation,
Shreveport,
LA.
July
29,
1992.

Oxides
Of
Nitrogen
And
Carbon
Monoxide
Emission
Testing,
Engine
83­
01
and
84­
01
,
Wilcox
Production
Facility
CF
#
3,
Lockhart
Crossing
Field.
Prepared
By:
Eimission
Testing
Services,
Inc.,
Baton
Rouge,
LA.
Prepared
For:
Amoco
Production
Company,
Lafayette,
LA.
September
7­
8
and
October
30,
1989.

Source
Test
Report,
Hunter
Resources,
Santa
Barbara,
CA,
Kobe
Well
Pump
EIngine,
Tested
by
SCEC,
Orange
County,
CA.
March,
1992.

RA.
Hopko,
Air
Quality
Program
Specialist,
Division
Of
Technical
Services
And
Monitoring,
Bureau
Of
Air
Quality
Control,
Commonwealth
Of
Pennsylvania,
to
1­
7
Texas
Eastern
Gas
Pipeline
Company,
Holbrook
Compressor
Station,
Richhill
Township,
Greene
County,
PA.
Memorandum:
Sampling
and
Analysis
of
17
Engines
and
1
Combustion
Turbine
at
the
Holbrook
Compressor
Station,
for
CO,
and
0,
concentrations,
NOx
CO,
0,
and
Unburned
Hydrocarbon
Concentrations
for
Turbines.
January
23­
29,
1991.

126.
Annual
Compliance
Test,
Lost
Hills
Gas
Plant
IC
Engines
1
Through
6.
Report
iNo.:
PS­
90­
221
S/
Project
6838­
90.
Prepared
By:
McRae,
Gary
and
Reshad,
Charles,
Pape
and
Steiner
Environmental
Services,
Bakersfield,
CA.
Prepared
IFor:
Texaco
USA,
Taft,
California.
August,
1990.

127.
Compliance
Source
Test
At
The
Naval
Petroleum
Reserve
#
I
For
The
Department
Of
Energy
and
Chevron,
At
Elk
Hills,
CA,
Engine
K­
59.
Prepared
13y:
Petro
Chem
Environmental
Services,
Inc.
Prepared
For:
Chevron
USA,
Inc.,
f3akersfieldI
CA.
April
14,
1992,

128.
E!
mission
Testing
On
Compressor
C.
B.
GMVA­
12,
Emission
Point
ENG
004,
At
Bayou
Sale
Field.
File
No.:
921296.
Prepared
By:
Emission
Testing
Services,
Inc.,
Baton
Rouge,
LA.
Prepared
For:
Exxon
Company,
U.
S.
A.,
New
Orleans,
LA.
October
28,
1992.

129.
Annual
Emission
Testing,
Texaco
Production
Inc.
Ventura,
CAI
Shiells
Canyon
Gas
Plant,
Exxon
#
I
&
#
2,
Oaks
#
I
&
#
3,
Prepared
by
BTC
Environmental,
Inc.
Ventura,
CA.
July,
1993.

130.
J.
Pitulski,
Commonwealth
of
Pennsylvania,
Air
Quality
Program
Specialist,
Division
Of
Technical
Services
And
Monitoring,
Bureau
Of
Air
Quality
Control
to
CNG
Transmission
Corporation,
Tioga
Compressor
Station,
Farmington
Township,
Tioga
County,
PA.
Memorandum:
Source
Test
Review
on
Engine
Nos.
1
and
2
at
CNG
Corporation
Tioga
Compressor
Station
on
4200
HP,
Model
TCV­
10,
Natural
Gas
Fired
Reciprocating
Units
Manufactured
by
Dresser­
Rand,
Inc.
September
19,
1989.

131.
IC
Engine
Emission
Testing.
Report
No.:
PS­
93­
3241/
Project
7400­
93.
F'repared
By:
Steiner
Environmental,
Inc.,
Bakersfield,
CA.
Prepared
For:
Tehachapi­
Cummings
Water
District,
Tehachapi,
California.
October,
1993.

1­
8
132.

133.

134.

135.

136.

137.

138.

139.

140.
J.
Pai,
Air
Pollution
Control
Engineer,
Division
Of
Technical
Services
And
Monitoring,
Bureau
Of
Air
Quality
Control,
Commonwealth
Of
Pennsylvania,
to
Tennessee
Gas
Pipeline
Company,
Compressor
Station
31
3,
Hebron
Township,
Potter
County.
Memorandum:
Carbon
Monoxide
and
Total
Hydrocarbon
Tests,
Performed
to
Show
Compliance
with
the
Vendor­
Guaranteed
Limits.
August
14,
`
1
986.

Compliance
Source
Test
At
The
Naval
Petroleum
Reserve
#
I
For
The
Department
Of
Energy
and
Chevron,
At
Elk
Hills,
CAI
Engine
K­
71.
Prepared
By:
Petro
Chem
Environmental
Services,
Inc.
Prepared
For:
Chevron
USA,
Inc.,
Bakersfield,
CA.
May
26,
1993.

Test
Report
on
Exhaust
Emissions
from
a
Superior
6GTLA
Compressor
Engine
at
Florida
Gas
Transmission
Company's,
Station
No.
77,
Calcasieu
Parish,
L­
ouisiana.
May,
1993.

Source
Emission
Testing
JP­
5
Oil
Fired
Engines
on
Santa
Cruz
Island
PTO
#
7975­
02.
Prepared
by
BTC
Environmental,
inc.
for
Department
of
the
Navy/
Environmental
Division,
Naval
Air
Weapons
Station,
Point
Mugu,
CA.
May,
1993.

Compliance
Source
Test
Report,
Oryx
Energy
Co.,
Valencia,
CAI
Hamp
Lease
ICE
#
4
&
#
5,
Tested
by
Petro­
Chem
Environmental
Services.
September,
1991.

Oxides
Of
Nitrogen
And
Carbon
Monoxide
Emission
Testing
On
K­
401
Compressor.
Report
No.
90027.
Prepared
By:
Emission
Testing
Services,
lnc.,
Baton
Rouge,
LA.
Prepared
For:
Mobil
Oil
Corporation,
Chalmette,
LA.
April
2­
3,
1990.

Compliance
Test,
No.
2
Engine,
Emission
Point
Number
05.
Report
Prepared
For:
ARCO,
Sligo
Facility,
Bossier
City,
LA.
April
6
&
7,
1992.

Emission
Testing
on
Compressor
#
5
Gibbstown
Terminal,
Tested
by
Emission
Testing
Services,
Inc.,
Baton
Rouge,
Louisiana.
November,
1991.

Emission
Testing
On
Compressor
#
I
,
Freshwater
Terminal.
File
No.:
91
151
C.

1­
9
141.

142.

143.

144.

145.

146.

147.

149.
Prepared
By:
Emission
Testing
Services,
Inc.,
Baton
Rouge,
LA.
Prepared
For:
Conoco,
Inc.,
Lafayette,
LA.
November
26,
1991.

S.
Darling,
Air
Pollution
Control
Engineer,
Continuous
Emission
Monitoring
Unit,
13ivision
Of
Technical
Services
And
Monitoring,
Bureau
Of
Air
Quality
Control,
Commonwealth
of
Pennsylvania
to
CNG
Transmission
Corporation,
Genesee
Township,
Potter
County,
PA.
Memorandum:
Source
Test
Review
on
NOx,
CO
m
d
Total
Gaseous
Non­
Methane
Organic
(
TGNMO)
Testing
On
The
Engine
Designated
No.
1.
October
4,
1990.

Emission
Testing
from
a
Waukesha
51
08
GSlU
Compressor
Engine
at
Exxon's
Sabine
Lake
Plant,
Orange
County,
TX,
Tested
by
Cubix
Corporation.
March,
'
1
985.

Emission
Testing,
Reciprocating
Compressor
And
Stationary
Gas
Turbine.
Report
No.:
EEI
201
37.
Prepared
By:
Entropy
Environmentalists,
Inc.,
Research
Triangle
Park,
NC.
Prepared
For
Columbia
Gulf
Transmission
Company,
Rayne,
LA.
March,
1992.

lrexaco
Production
Inc.,
Ventura
County,
Lloyd
Corporation,
Central
and
VL&
W
Eiast
Sites.
Prepared
by:
BTC
Environmental.
February,
1990.

Eimission
Testing
on
Compressor
Unit
No.
4
Source
ID
RC­
03
at
Haughton
Compressor
Station,
Louisiana,
Tested
by
Emission
Testing
Services,
Inc.,
E3aton
Rouge,
Louisiana.
December,
1992.

IC
Engine
21
10
Retest,
City
of
Tulare,
Water
Pollution
Control,
Tulare,
CA,
Tested
by
Steiner
Environmental,
Inc.,
Bakersfield,
CA.
August,
1993.

Emission
Testing
On
The
Compressor,
Longwood
Grace
Unit,
(
Section
17).
File
No.:
92082a.
Prepared
By:
Emission
Testing
Services,
Inc.,
Baton
Rouge,
LA.
Prepared
For:
Gulf
States
Pipeline
Corporation,
Shreveport,
LA.
July
30,
1992.

W.
Schneider,
Air
Pollution
Control
Engineer,
Division
Of
Technical
Services
And
Monitoring,
Bureau
Of
Air
Quality
Control,
Commonwealth
Of
Pennsylvania,
to
Transcontinental
Gas
Pipe
Line
Corporation
(
TRANSCO),
Station
51
5,
Bear
1­
10
Creek
Township,
Lazerne
County,
PA.
Memorandum:
Emission
Evaluation
of
the
Solar
Natural
Gas
Fired
Turbine
and
Natural
Gas
Fired
Reciprocating
Engine.
June
1,1992.

150.
Oxides
Of
Nitrogen
And
Carbon
Monoxide
Emission
Testing
On
Engine
#
3
and
#
I
6
At
Jeanerette
Field.
Report
No.:
91
098.
Prepared
By:
Emission
Testing
Services,
Inc.,
Baton
Rouge,
LA.
Prepared
For:
ARC0
Oil
and
Gas
Company,
Southeastern
District,
Lafayette,
LA.
July
29­
30,
1991,

151.
I.@.
Engine
Emission
Tests
at
Southern
California
Gas
Goleta
Station.
Report
IPS­
91­
2571.
Prepared
by
Steiner
Environmental,
Inc.
for
Southern
California
(
Gas
Company.
October,
1991.

152.
IEmission
Testing
On
The
#
8
Dresser­
Rand
412
KVSE
Natural
Gas­
Fired
Reciprocating
Engine
Compressor,
Located
At
Ellisburg
Station
In
Coudersport,
PA.
Prepared
By:
Engineering
Science.
Prepared
For:
The
National
Fuel
Gas
!
Supply
Corporation.
November
15,1990.

153.
\
N.
Schneider,
Air
Pollution
Control
Engineer,
Division
Of
Technical
Services
and
Monitoring,
Bureau
Of
Air
Quality
Control,
Commonwealth
Of
Pennsylvania
to
CNG
Transmission
Corporation,
North
Summit
Compressor
Station,
North
Township,
Fayette
County,
PA.
Memorandum:
Source
Test
Review
Of
The
Exhaust
Stacks
Of
Each
Engine
For
Nitrogen
Oxides,
Carbon
Monoxide,
And
Non­
methane
Hydrocarbons.
July
21
,
1992.

154.
Compliance
Test
For
VOC,
CNG
Gas
Transmission
Lines,
Galson
Corp.
f'repared
By:
Lewis,
Trent
and
Gruber,
LeRoy,
Department
Of
Environmental
Services,
Air
Quality
Programs,
Cincinnati,
OH.
June
7,
1993.

155.
[
JNOCAL
NOx
&
ROC
Emission
Tests
for
Santa
Barbara
APCD,
Tested
by
Petro
Chem
Environ.
Sew.,
ICE
testing
at
Various
Loads.
October,
1989.

156.
Compliance
Testing,
Oryx
Energy
Co.,
Hamp
Lease
#
3,
CAT
G398,
Located
at
Ojai,
CAI
Tested
by
Petro
Chem
Environmental
Services.
July,
1989.

157.
Sun
Production,
CAT
G398V­
12,
#
3,
located
at
Hamp
Lease
in
Ojai,
CA,
Tested
1­
1
1
by
Petro
Chem
Environmental
Services.
March,
1989.

158.

159.

160.

161.

162.
NOx
Removal
Efficiency
Determination
and
NOx
and
CO
Emissions
Testing,
Compressor
Engine
Unit
No.
C301
B
at
GSF
Energy,
Inc.
MacCarty
Road
Plant
­
Compliance
Test
Results,
Houston,
Texas.
Prepared
by:
NUS
Corporation.
April
28,
1989.

AB2588
Source
Testing
At
The
Naval
Petroleum
Reserve
#
I
For
The
Department
Of
Energy
and
Chevron,
At
Elk
Hills,
CA,
Engine
K­
71.
Prepared
By:
Petro
Chem
Environmental
Services,
Inc.
Prepared
For:
Chevron
USA,
Inc.,
I3akersfield,
CA.
December
16,
1991.

EEmission
Performance
Testing
Of
Four
Internal
Combustion
Engines,
Site:
Semitropic
Water
Storage
District,
Kern
County,
California.
Application
if0239007,
0239008,023009,
023901
0.
Prepared
By:
Rooney,
Thomas,
Western
Environmental
Services,
Redondo
Beach,
CA.
Prepared
for:
TCC,
Inc.,
Bakersfield,
CA.
August
24­
25,
1993.

Compliance
Report
of
Hydraulic
Dredge
"
Ollie"
Application
#
1266­
1
1
1.
F'repared
by
South
Coast
Environmental
Company,
La
Verne,
California,
for
Fieidel
International,
Portland,
Oregon.
Parameters
Measured:
NOx,
CO,
ROG
and
NH,
Emissions.
March
20,
1991.

Report
on
Compliance
Testing.
Performed
for:
Cogentrix.
Conducted
at:
Fiinggold
Cogeneration,
Ringgold
Township,
Jefferson
County,
Pennsylvania.
Tested
by:
Clean
Air
Engineering.
February
19,
1991.

CSU­'
I
.
Testing
of
Emissions
of
Hazardous
Air
Pollutants
from
Reciprocating
Internal
Combustion
Engines
(
Draft
Final
Report).
Prepared
by
Pacific
Environmental
Services,
Inc.,
Research
Triangle
Park,
NC.
Prepared
for
U.
S.
Environmental
Protection
Agency,
Research
Triangle
Park,
NC.
August
1999.

CSU­
2.
Preliminary
Emissions
Testing
Data
for
a
4StB
Natural
Gas
Fired
Engine.
EImissions
Test
Conducted
by
Pacific
Environmental
Services,
Inc.,
Research
Triangle
Park,
NC.
Prepared
for
U.
S.
Environmental
Protection
Agency,
Research
Triangle
Park,
NC.
August
1999.

1­
12
CSU­
3.
Preliminary
Emissions
Testing
Data
for
a
Compression
Ignition
Diesel
Fired
Engine.
Emissions
Test
Conducted
by
Pacific
Environmental
Services,
Inc.,
Research
Triangle
Park,
NC.
Prepared
for
U.
S.
Environmental
Protection
.
Agency,
Research
Triangle
Park,
NC.
August
1999.

1­
13
Attachment
2
Summary
of
HAP
Emissions
Data
for
Internal
Combustion
Engines
Summary
of
HAP
Emissions
Data
for
Internal
Combustion
Engines
05­
Feb­
02
Fuel
Concentration
Pollutant
ID
Method
(
uncorrected)
Unit
Ib/
hr
lb/
MMBtu
lb/
HP­
hr
Diesel
1,3­
Buta
diene
16
,
CAFU3
422.102
487
8.3
CARE3
410A
2.9
CSU­
3
4.2
Alternate
Method
17/
50
CSU­
3.13.2
Alternate
Method
17/
50
CSU­
3.4.1
Alternate
Method
17/
250
CSU­
3.13.1
Alternate
Method
17/
250
CSU­
3.1.2
Alternate
Method
17/
50
CSU­
3.12.2
Alternate
Method
171
50
CSU­
3.
L!.
1
Alternate
Method
17/
250
CSU­
3.14.1
Alternate
Method
17/
250
CSU­
3.2.1
Alternate
Method
17/
250
CSU­
3.3.1
Alternate
Method
17/
250
CSU­
3.111.1
Alternate
Method
17/
250
CSU3.10.2
Alternate
Method
17/
50
CSU­
3.10.1
Alternate
Method
17/
250
CSU­
3.2.2
Alternate
Method
17/
50
CSU­
3.9.1
Alternate
Method
17/
250
CSU­
3.9.2
Alternate
Method
17/
50
CSU­
3.111.2
Alternate
Method
17/
50
CSU3.1.1
Alternate
Method
17/
250
CSU3.14.2
Alternate
Method
17/
50
CSU­
3.3.2
Alternate
Method
17/
50
Acetaldekhgde
16
CAFU3
430
1170
1.1
CARl3
429
340
15.1
CARB
430
12.3
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
Maximum:

Average:

PPb
PPb
PPb
.00126
<<
.0000284
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.00124
.000644
.00246
.00174
.0000986
.003
12
<<
.00000729
<<
,000117
<<
.000133
<<
.000585
<<
.000653
<<
.000131
<<
.000132
<<
.000653
<<
.000643
<<
.000687
<<
.000624
<<
.000653
<<
.000132
<<
.00066
<<
.000139
<<
.000684
<<
.000136
<<
.000132
<<
.000641
<<
.000131
<<
.000124
.00312
.000496
.00608
.00107
.0000252
.00000754
<<
.000000033
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.00000754
.00000379
.0000146
.00000497
.000000116
2­
1
Fuel
Pollutant
IID
Method
(
uncorrected)
Unit
lbkr
lb/
MMBtu
lb/
W­
hr
Concentration
15.2
CARB
430
CSU­
3.1.1
FTIR
CSU­
3.
K!.
1
FTR
CSU­
3.4.2
FTIR
CSU­
3.14.2
FTIR
CSU3.1.2
FTIR
CSU­
3.111.2
FTR
CSU­
3.13.1
FTIR
CSU­
3.12.2
FTIR
CSU­
3.3.1
FTIR
CSU­
3.2.1
FTIR
CSU­
3.10.2
FTIR
CSU­
3.2.2
FTIR
CSU­
3.9.2
FTIR
CSU­
3.9.1
FTIR
CSU­
3.4.1
FTR
CSU­
3.141.1
FTIR
CSU­
3.10.1
FTIR
CSU­
3.13.2
FTIR
CSU­
3.111.1
FTIR
CSU­
3.3.2
FTR
Acrolein
15.2
CARB
430
16
CARB
430
1.1
CARB
429
15.1
CARB
430
CSU­
3.2.1
FTIR
CSU­
3.9.2
FTIR
CSU­
3.3.1
FTIR
91.3
680
1000
1000
1400
2000
1500
920
1700
560
7SO
1900
1200
1900
920
590
8
10
so0
1500
790
1200
20.7
64.2
9.33
2.33
525
2020
525
.0005
1s
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.00246
.0012
.000149
.000172
<
.0000608
<
.0000237
NR
NR
NR
.000465
.00253
.00372
.00372
.0052
.00743
.00557
.00342
.00632
.002os
.0029
.00706
,00446
.00706
.00342
.002
19
.00301
.00297
.00557
.00294
.00446
.00743
.0039
.000134
.000425
<
.0000373
<
.00000607
<<
.0015
<<
.00571
<<
.00136
.
OOOOO
148
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.0000146
.00000529
.000000427
.
ooooo
103
<
.000000173
<
.000000027
NR
NR
NR
­
2­
2
Fuel
Concentration
Pollutant
:[
Di
Method
(
uncorrected)
Unit
lb/
hr
lb/
MMBtu
lb/
HP­
hi*

CSU­
3.4.2
FTIR
CSU­
3.12.1
FTIR
CSU­
3.1
I
.2
FTIR
CSU3.3.2
FTIR
CSU­
3.2.2
FTIR
CSU­
3.141.2
FTIR
CSU­
3.10.1
FTIR
CSU­
3.11.1
FTIR
CSU­
3.1.1
FTIR
CSU­
3.10.2
FTIR
CSU­
3.9.1
FTIR
CSU­
3.12!.
2
FTIR
CSU3.13.1
FTIR
CSU­
3.4.1
FTIR
CSU­
3.1.:
2
FTIR
CSU­
3.13.2
FTIR
CSU­
3.141.1
FTIR
2020
525
2020
2020
2020
2020
525
525
525
2020
525
2020
525
525
2020
2020
525
Benzene
16
CARE3
410A
193
8.3
CARE3
410A
429
12.1
CARB
0030
31
1.1
CARE3
410A
95
15.2
CARE3
410A
147
5
CARB
410A
580
15.1
CARB
410A
213
CSU­
3.141.2
Alternate
Method
17/
7.5
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
Maximum:

Average:
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
,000172
.000101
.000723
.00607
.00151
.000977
.00148
.00768
.00302
NR
<<
.00493
<<
.00142
<<
.00554
<<
.00521
<<
.00584
<<
.00551
<<
.00144
<<
.00142
<<
.0014
<<
.00554
<<
.00149
<<
.00554
<<
.00142
<<
.00127
<<
.00549
<<
.00559
<<
.0014
.00584
.0029
.00179
.00156
.000118
.000535
.00133
.00203
.000772
<<
.0000284
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.00000103
.000000414
.0000043
1
.00000714
.00000119
.00000279
.00000422
.0000151
.00000355
NR
CSU­
3.9.1
Alternate
Method
17/
33
PPb
NR
.00013
NR
CSU­
3.3.2
Alternate
Method
171
7.5
PPb
NR
<<
.0000269
NR
CSU­
3.13.1
Alternate
Method
17/
30
PPb
NR
.000113
NR
2­
3
Fuel
Concentration
Pollutant
I[
D
Method
(
uncorrected)
Unit
ib/
hr
Ib/
MMBtu
lb/
HP­
hr
CSU­
3.4.2
Alternate
Method
17/
7.5
CSU3.11.2
Alternate
Method
17/
30
CSU­
3.10.1
Alternate
Method
171
35
CSU­
3.10.2
Alternate
Method
171
7.5
CSU­
3.9.12
Alternate
Method
171
7.5
CSU­
3.14..
1
Alternate
Method
171
40
CSU­
3.2.1
Alternate
Method
17/
50
CSU­
3.1.1
Alternate
Method
171
40
CSU­
3.
E.
2
Alternate
Method
171
7.5
CSU­
3.3.1
Alternate
Method
17/
7.5
CSU­
3.2.2
Alternate
Method
171
7.5
CSU­
3.11.1
Alternate
Method
17/
50
CSU­
3.12
Alternate
Method
17/
35
CSU­
3.12:.
1
Alternate
Method
17/
58
CSU­
3.4.1
Alternate
Method
17/
90
CSU­
3.12:.
2
Alternate
Method
171
7.5
Beryllium
12.7
NR
12.6
NR
12.1
NR
12.4
NR
Cadmiurn
12.6
NR
12.1
NR
12.7
NR
12.4
NR
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
'
PPb
PPb
PPb
PPb
PPb
PPb
Maximum:

Average:

1.53
ug
.4
ug/
dscm
.5
ug/
dscm
.5
ug/
dscm
Maximum:

Average:

1.11
ug/
dscm
69.5
ugldscm
3.2
ug
3.39
ug/
dscm
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.00768
.00307
NR
<<
.00000542
<<
.00000746
<<
.0000067
.00000746
.00000653
.0000151
.00104
NR
<
.000046
<<
.0000254
.000114
.000133
<<
.0000286
<<
.0000294
.000149
.000199
.000148
<<
.0000288
<<
.000027
<<
.0000301
.000189
.
OOO
132
.000219
.000304
<<
.0000286
.00203
­
000378
NR
<<
.000000492
<<
.000000593
<<
.000000784
.000000784
.000000623
.
OOOOO
137
.000084
NR
<
.00000443
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.0000151
.00000547
NR
<<
.000000004
<<
.000000005
<<
.000000006
.0000000065
.0000000055
.
ooooooo
11
.000000814
NR
<
.000000045
­
2­
4
Fuel
Concent
ration
Pollutant
ID1
Method
(
uncor&
cted)
Unit
lb/
hr
Ib/
MMBtu
lb/
HP­
hr
Chromium
12.7
NR
3.33
12.4
NR
3.95
12.6
NR
4.35
16
CARB
425
1.56
12.1
NR
1.97
Ethylberizene
8.3
CAEU3
410A
9.13
16
CARB
422
6.27
5
CARB
410A
10.1
CSU­
3.3.2
Alternate
Method
17/
7.5
CSU­
3.10.1
Alternate
Method
17/
7.5
CSU­
3.2.1
Alternate
Method
17/
7.5
CSU­
3.11.2
Alternate
Method
17/
7.5
CSU­
3.14.2
Alternate
Method
17/
7.5
CSU­
3.4.2
Alternate
Method
17/
7.5
CSU­
3.3.1
Alternate
Method
171
7.5
CSU­
3.9.1
Alternate
Method
171
7.5
CSU­
3.111.2
Alternate
Method
171
7.5
CSU­
3.4.1
Alternate
Method
171
7.5
CSU­
3.9.2
Alternate
Method
17/
7.5
CSU3.1.1
Alternate
Method
17/
7.5
CSU­
3.13.1
Alternate
Method
17/
7.5
CSU­
3.1.2
Alternate
Method
17/
7.5
CSU­
3.2.2
Alternate
Method
17/
7.5
CSU­
3.12.1
Alternate
Method
17/
7.5
CSU­
3.12.2
Alternate
Method
17/
7.5
Maximum:

Average:

ug
ug/
dscm
ng/
dscm
ug/
dscm
ug/
dscm
Maximum:

Average:
,00104
.000367
NR
.0000528
.0000591
.00000178
.0000294
.0000591
.0000358
<
.000176
.0000318
.000182
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.000084
.0000299
NR
.00000634
.00000545
.0000044
1
.00000233
.00000634
.00000463
<
.000045
.0000788
.000048
1
<<
.0000365
<<
.0000388
<<
.0000405
<<
.0000392
<<
.0000387
<<
.0000345
<<
.0000367
<<
.0000403
<<
,0000388
<<
.0000345
<<
.00004
<<
.0000377
<<
.0000335
<<
.0000385
<<
.0000409
<<
.0000385
<<
.000038s
.000000814
.00000029
NR
.000000052
.000000046
.000000010
.000000023
.000000052
.000000033
<
.000000207
.00000019
.000000357
NR
NR
NR
NR
NR
NR
m
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
2­
5
Fuel
Pollutant
Method
(
uncorrected)
Unit
lb/
hr
Ib/
MMBtu
Ib/
HP­
hr
Concentration
CSU­
3..
14.1
Alternate
Method
17/
7.5
CSU­
3..
10.2
Alternate
Method
17/
7.5
CSU­
3..
1
l.
1
Alternate
Method
17/
7.5
PPb
NR
<<
.0000378
NR
PPb
NR
<<
.0000388
NR
PPb
NR
<<
.0000384
NR
Maximum:
.000182
.0000788
.000000357
Average:
.00013
.0000408
.000000251
Foimaldehy
de
15.1
8.3
12.7
6.1
9
30
6.3
6.5
6.2
1.1
13
5
19.2
12.2
6.6
15.2
23
16
12.1
17
6.4
12.5
12.4
18
12.3
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
CARB
430
56.3
50
150
5
5330
2.82
5
96.7
5
647
1.99
772
58.4
35
5
284
68.7
3520
107
133
2
13
35
160
17.
S
307
PPb
.000307
PPb
<<
.000272
PPb
<
.002s2
PPb
<<
.00000827
PPb
.148
PPb
<<
,000104
PPb
<<
.00000215
PPb
.000124
PPb
<<
.000013
PPb
.00226
PPb
.000061
PPb
.00394
PPb
.000145
PPb
<<
.00061
PPb
<<
.00000883
PPb
.0011
PPb
.00025
PPb
.00506
PPb
<
.00204
PPb
.000748
PPb
.000212
PPb
<<
.000643
PPb
.00273
PPb
.0000495
PPb
.0047
.0000783
<<
.0000699
<
.000231
<<
.0000143
.03
13
<<
.0000219
<<
.0000136
.000236
<<
.00001S4
.00138
.00000342
.00104
.00011s
<<
.0000709
<<
.0000116
.0009SS
.000111
.0125
<
.000155
.000177
.0006
1
<<
.0000497
.000246
.0000997
.000433
.000000361
<<
.00000032
<
.00000222
NR
.0000925
<<
.000000065
NR
NR
NR
.00000644
.
ooooooo
13
.00000772
.000000632
<<
.0000006
NR
,00000313
.00000109
.0000302
<
.0000016
.0000012
NR
<<
.000000507
.000002
15
.000000061
.00000617
2­
6
Fuel
Concent
ration
Pollutant
IC)
Method
(
uncorrected)
Unit
lb/
hr
lb/
MMBtu
lb/
HP­
hr
CSU­
3..
4.1
FTIR
CSU­
3..
9.2
FTIR
CSU­
3
..
3.1
FTIR
CSU­
3.,
14.1
FTIR
CSU­
3..
10.1
FTIR
CSU­
3.
l:
l.
l
FTIR
CSU­
3.1
l.
2
FTIR
CSU­
3.2.1
FTIR
CSU­
3.3.2
FTIR
CSU­
3.9.1
FTIR
CSU­
3.1.2
FTIR
CSU­
3.14.2
FTIR
CSU­
3.1:!.
2
FTIR
CSU­
3.4.2
FTIR
CSU­
3.1.1
FTIR
CSU­
3.13.2
FTIR
CSU­
3.10.2
FTIR
CSU­
3.13.1
FTIR
CSU­
3.2.2
FTIR
CSU­
3.1;!.
1
FTIR
1600
PPb
130
PPb
1400
PPb
1400
PPb
1600
PPb
1400
PPb
130
PPb
930
PPb
125
PPb
1300
PPb
5
so
PPb
135
PPb
130
PPb
120
PPb
1500
PPb
135
PPb
130
PPb
1600
PPb
135
PPb
1600
PPb
Hexane
CSU­
3.3.2
Alternate
Method
171
25
CSU­
3.4.2
Alternate
Method
171
25
CSU­
3.4.1
Alternate
Method
171
75
CSU­
3.3.1
Alternate
Method
171
75
CSU3.9.1
Alternate
Method
171
'
75
CSU­
3.122
Alternate
Method
171
25
CSU­
3.1
i1.2
Alternate
Method
17/
25
CSU­
3.2.1
Alternate
Method
171
75
Maximum:

Average:
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.14S
.00705
NR
NR
NR
NR
NR
NR
NR
NR
.00405
<<
.000329
.00355
.00355
.00405
,00355
<<
,000329
.00236
<<
.000317
.00329
.00147
<<
.000342
<<
.000329
<<
.000304
.0038
<<
.000342
<<
.000329
.00405
<<
.000342
.00405
.0313
.00202
<<
.0000988
<<
.0000934
<<
.00028
<<
.000298
<<
.000327
<<
.000105
<<
.000105
<<
.000328
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.0000925
.
OOOOOS26
NR
NR
NR
NR
NR
NR
NR
NR
2­
7
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
lbhr
Ib/
MMBtu
Ib/
HP­
hr
Concentration
CSU­
3.1.2
Alternate
Method
17/
25
CSU­
3.131.1
Alternate
Method
17/
75
CSU­
3.12:.
1
Alternate
Method
17/
75
CSU­
3.131.2
Alternate
Method
17/
25
CSU­
3.14..
1
Alternate
Method
17/
75
CSU­
3.10.2
Alternate
Method
17/
25
CSU­
3.1.1
Alternate
Method
17/
75
CSU­
3.1Cl.
1
Alternate
Method
17/
75
CSU­
3.14..
2
Alternate
Method
17/
25
CSU­
3.2.2
Alternate
Method
17/
25
CSU­
3.9.2
Alternate
Method
17/
25
CSU­
3.11.1
Alternate
Method
17/
75
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
Maximum:
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Aver
age:

Lead
12.
P
NR
3.69
ug/
dscm
12.1
CARB
12
8.78
ugidscm
12.4
NR
9.53
ug/
dscm
12.6
NR
4.6
ugfdscm
12.7
NR
11.5
ug
m/
p­
Xylene
CSU­
3.13.1
Alternate
Method
17/
15
CSU­
3.12,.
2
Alternate
Method
17/
1.5
CSU­
3.13.2
Alternate
Method
17/
15
CSU­
3.3.:
2
Alternate
Method
17/
15
CSU­
3.3.1
Alternate
Method
17/
15
CSU­
3.14..
1
Alternate
Method
17/
15
CSU­
3.14..
2
Alternate
Method
171'
15
CSU­
3.1.1
Alternate
Method
17/
15
Maximum:

Average:
NR
.0000553
.000129
.000129
.0000622
NR
.000129
.0000939
NR
NR
NR
NR
NR
NR
NR
NR
<<
.000104
<<
.000312
<<
,000312
<<
.000106
<<
.000307
<<
.000105
<<
.000306
<<
.000315
<<
.000105
<<
,000111
<<
.000108
<<
.000312
.000328
.000207
.00000438
.0000109
.
OOOO
137
.00000561
NR
.0000137
.00000865
<<
.0000769
<<
.0000777
<<
.0000784
<<
.0000731
<<
.
ooao734
<<
.0000757
<<
.0000773
<<
.0000755
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.000000043
.000000102
.
OOOOOO
127
.000000049
NR
.000000127
.0000000804
NR
NR
NR
NR
NR
NR
NR
NR
2­
8
Fuel
Pollutant
lRli
Method
(
uncorrected)
Unit
Concentration
ib/
hr
lb/
MMBtu
1bIHP­
hr
CSU3.10.2
Alternate
Method
17/
15
CSU3.9.1
Alternate
Method
17/
15
CSU­
3.9.2
Alternate
Method
17/
15
CSU­
3.10.1
Alternate
Method
17/
15
CSU­
3.12!.
1
Alternate
Method
17/
15
CSU­
3.2.1
Alternate
Method
17/
15
CSU­
3.4.1
Alternate
Method
17/
15
CSU­
3.1
I
.
1
Alternate
Method
17/
15
CSU­
3.1
I
.2
Alteriiate
Method
17/
15
CSU­
3.1.2
Alternate
Method
17/
15
CSU­
3.2.2
Alternate
Method
17/
15
CSU­
3.4.2
Alternate
Method
17/
15
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
Maximum:

Average:

ug/
dscm
ug/
dscm
ug
ug/
dscm
Maximum:

Average:

ug/
dscm
ug/
dscm
ug/
dscm
ug
Maximum:

Average:

lm
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
<<
.0000777
<<
.0000805
<<
.
oooos
<<
.0000777
<<
,0000769
<<
.0000809
<<
.0000689
<<
.0000769
<<
.0000776
<<
.0000769
<<
.0000819
<<
.0000691
.0000819
m
NR
NR
m
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.0000766
NR
Manganese
12.4
NR
12.1
NR
12.7
NR
12.6
NR
33.9
11.4
48.8
16.5
.000452
.000171
NR
.000222
­
000452
.000053
.0000133
NR
.
OOOO
197
.
0
0
0
0
5
3
.000000445
.000000135
NR
.000000174
.000000445
.000282
.0000287
.000000251
Mercury
12.1
NR
12.6
NR
12.4
NR
12.7
NR
.816
.285
2.64
1.73
.0000122
.00000386
.0000353
NR
.0000353
.00000095
.000000344
.00000443
NR
.00000448
.000000009
.000000003
.000000034
NR
.0000000347
.0000171
.00000192
.0000000158
n­
Hexane
5
CAFG3
410A
1.35
<<
.0000052
<<
.000000038
<<
.0000197
Fuel
Pollutant
TDI
Method
(
uncorrected)
Unit
lblhr
lb/
MMB
tu
1blHP­
hr
Concent
ration
16
CARB
422
Naphthalene
9
6.6
17
8.1
28.3
18
28.2
5
30
6.2
6.4
6.3
19.1
23
6.5
6.1
8.2
2s.
1
15.2
15.1
12.5
13
16
12.3
12.2
12.7
1.1
CARB
429
CARB
429
CARl3
429
CARE3
429
SASSIGCMS
CARE3
429
SASS/
GC/
MS
CARB
429
CARB
429
CARB
429
CARB
429
CARB
429
CARl3
429
CAFE?
429
CARB
429
CARB
429
CARB
429
SASS/
GC/
MS
18.3
PPb
Maximum:

Average:

Modified
CARB
429
7.87
Modified
CARE3
429
21.9
CARB
429
62.6
CARB
429
NR
CARB
429
12.1
CARB
429
48.4
CARB
429
41
CARB
429
37.1
CARB
429
5.98
4.46
35.4
2.9
30
220
12.9
58
35.2
2.5
51.9
184
45
69.4
15.8
2090
30.2
12
170
ug/
dscf
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
ugldscm
ugldscm
ugfdscf
ug/
dscm
.0000759
.0000759
.0000478
.00352
.000267
.0000697
.000584
NR
.000153
NR
.000765
.0026
.000574
.000766
,0000829
,000708
.000223
.0115
.000213
.000278
NR
.00013
.000508
.00491
NR
.0000745
.00321
.00305
.00299
.0000893
.00019
.00019
.0000976
.000745
.00035
1
.0000164
.000179
NR
.000309
NR
.000202
.00055
.000814
.00256
.00052
.00103
.
OOO
106
.0224
.000367
.00007
15
NR
,0001
17
.00013
.000379
NR
.000185
.000292
.000356
.000242
.0000532
.000000453
.000000453
.000000246
.0000022
NR
.
oooooo
1
1
1
.000000859
NR
.000000191
NR
.
ooooo
15
.00000163
NR
NR
NR
.00000308
.000000973
NR
NR
.000000328
NR
.000000371
.00000059S
.00000387
NR
.000000444
.00000422
.000003
.00000236
.000000257
2­
l
o
Fuel
Pollutant
I[
D
Method
(
uncorrected)
Unit
lb/
hr
lb/
MMBtu
Ib/
HP­
hr
Concentration
12.1
CAFB
429
47.1
Nickel
12.1
NR
12.4
NR
12.6
NR
12.7
NR
3.19
4.13
3.92
8.9
o­
Xylene
CSU­
3.1.1
Alternate
Method
171
15
CSU­
3.2.1
Alternate
Method
17/
15
CSU­
3.2.:
2
Alternate
Method
171
15
CSU­
3.1.:
2
Alternate
Method
17/
15
CSU­
3.14..
2
Alternate
Method
17/
15
CSU­
3.4.:
2
Alternate
Method
17/
15
CSU­
3.10.1
Alternate
Method
17/
15
CSU­
3.11.1
Alternate
Method
17/
15
CSU­
3.9.:
2
Alternate
Method
17/
15
CSU­
3.11.2
Alternate
Method
17/
15
CSU­
3.9.1
Alternate
Method
17/
15
CSU­
3.10.2
Alternate
Method
17/
15
CSU­
3.121.2
Alternate
Method
17/
15
CSU­
3.12!.
1
Alternate
Method
17/
15
CSU­
3.13.1
Alternate
Method
17/
15
CSU­
3.4.1
Alternate
Method
17/
15
CSU­
3.13.2
Alternate
Method
17/
15
CSU­
3.3.2
Alternate
Method
17/
15
CSU­
3.14.1
Alternate
Method
17/
15
CSU­
3.3.1
AlternateMethod
171
15
PPb
Maximum:

Average:

ug/
dscm
ug/
dscm
ug/
dscm
ug
Maximum:

Average:

PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
.00374
.0115
.00171
<
.0000476
<
.0000552
.0000532
NR
.0000552
.000052
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
m
NR
NR
NR
NR
NR
NR
NR
.000294
.0224
.00134
<
.0000038
<
.00000674
.00000482
NR
.00000674
.00000512
<<
.0000755
<<
.0000809
<<
.0000819
<<
.0000769
<<
.0000773
<<
.0000691
<<
.0000777
<<
.0000769
<<
.
oooos
<<
.0000776
<<
.0000805
<<
.0000777
<<
.0000777
<<
.0000769
<<
.0000769
<<
.0000689
<<
.0000784
<<
.0000731
<<
.0000757
<<
.0000734
.00000295
.00000422
.00000163
<
.000000037
<
.000000054
.00000004
1
NR
.0000000543
.0000000446
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
m
NR
NR
2­
I
I
Fuel
Pollutant
ID!
Method
(
uncorrected)
Unit
lblhr
Ib/
MMBtu
Ib/
HP­
hr
Concentration
­

PAH
5
6.1
12.5
6.3
13
16
8.1
12.7
12.1
6.4
17
30
18
15.2
19.1
6.6
9
8.2
15.1
1.1
6.5
12.3
6.2
23
12.2
CARE3
429
CARB
429
CARE3
429
CARE3
429
CARE3
429
CARE3
429
CARB
429
CARE3
429
CARB
429
CARB
429
CARB
429
CARB
429
CARB
429
Modified
CARE3
429
CARB
429
CARE3
429
CARB
429
CARE3
429
Modified
CARB
429
CARB
429
CARE3
429
CARE3
429
CARB
429
CARB
429
CARE3
429
Maximum:
NR
Average:
NR
255
ugldscm
413
ugldscm
968
ugldscm
475
ugldscm
1.41
ugldscm
2
1s
ugldscm
240
ugldscm
1010
ugldscm
lOS0
ugldscm
l5SO
ugldscm
21
ugldscm
5.62
ugldscf
95.7
ugldscm
57,7
ugldscm
504
ugldscm
369
ugldscm
320
ugldscm
93.5
ugldscm
190
ugldscm
106
ugldscm
21700
ugldscm
1230
ugldscin
509
ugldscm
110
ugldscm
1070
ugldscm
Maximum:
.
OO
104
.000547
.
O
142
.
OOO
164
.0000345
.00024S
,000878
.0153
.0163
.00123
.000094S
.00585
.000213
.000179
.000967
.000523
.00715
.000408
.
OOOS29
.000295
.0225
.0154
.00106
.000291
.015
,0225
Average:
.00483
.0000819
.
0000
766
.000275
.000943
.0011
,00103
.
OOOOO
194
.000614
.000269
.00124
.00126
.00414
.0000222
.00125
.000429
.00016
.00139
.000686
.00151
.000105
.000212
.000175
.043S
.0014
.0015
.000138
.00176
,0438
.00262
NR
NR
.00000205
NR
.0000112
NR
.000000007
.00000148
.00000129
.0000121
.0000129
NR
.000000152
.00000366
.000000266
.0000005
11
.00000421
NR
.00000447
.00000048
.000000976
.
OOOOOOS43
NR
.0000202
NR
.00000126
.000014S
.0000202
.00000489
POMs
2­
12
Fuel
Concentration
Pollutant
ID
Method
(`
uncori­
ected)
Unit
lb/
hr
lb/
MMBtu
lb/
HP­
hl*

28.
1
SASSIGCIMS
2550
23.2
SASS/
GC/
MS
1750
28.3
SASS/
GC/
MS
2880
Selenium
12.4
NR
12.6
NR
12.1
NR
12.7
NR
2
1.5
2
4
Styrene
CSU­
3.1.1
Alternate
Method
17/
100
CSU­
3.13.2
Alternate
Method
17/
25
CSU­
3.12.2
Alternate
Method
17/
25
CSU3,1:
2.1
Alternate
Method
17/
100
CSU­
3.14.1
Alternate
Method
17/
100
CSU­
3.1.2
Alternate
Method
17/
25
CSU­
3.11.2
Alternate
Method
17/
25
CSU­
3.14.2
Alternate
Method
17/
25
CSU­
3.1
:
l.
1
Alternate
Method
17/
100
CSU­
3.13.1
Alternate
Method
171
100
CSU­
3.10.2
Alternate
Method
17/
25
CSU­
3..
4.2
Alternate
Method
17/
25
CSU­
3..
9.1
Alternate
Method
17/
100
CSU­
3..
4.1
Alternate
Method
17/
100
CSU­
3..
2.2
Alternate
Method
17/
25
CSU­
3.9.2
Alternate
Method
17/
25
CSU­
3.3.2
Alternate
Method
17/
25
CSU­
3.10.1
Alternate
Method
17/
100
ug/
dscm
ug/
dscm
ug/
dscm
Maximum:

Average:

ug/
dscm
ug/
dscm
ug/
dscm
ug
Maximum:

Average:

PPb
PPb
.
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
NR
NR
NR
NR
NR
<<
.0000268
<<
.0000203
<<
.0000298
NR
.0000298
.0000256
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
m
NR
NR
NR
NR
NR
NR
#
Num!
NR
<<
.00000313
<<
.000000026
<<
.00000134
<<
.000000016
<<
.00000237
<<
.000000023
NR
NR
.00000313
.0000000264
.00000245
.000000022
<<
.000494
<<
.000128
<<
.000127
<<
.000503
<<
.000495
<<
.000126
<<
.000127
<<
.000126
<<
.000503
<<
.000503
<<
.000127
<<
.000113
<<
.000527
<<
.000451
<<
.000134
<<
.000131
c<
.00012
<<
.000508
NR
NR
NR
NR
NR
m
NR
NR
NR
NR
NR
NR
NR
NR
NR
Im
NR
NR
2­
13
Fuel
Concentration
Pollutant
Method
(
uncorrected)
Unit
lblhr
Ib/
MMBtu
IbMP­
hI.

CSU­
3.2.1.
Alternate
Method
171
100
CSU­
33.1.
Alternate
Method
171
100
Toluene
16
CARB
422
105
15.2
CARB
410A
50
S.
3
CARB
410A
65.7
12.1
CARE3
0030
3
16
5
CARB
410A
147
15.1
CARE3
410A
63.7
1.1
CARE3
410A
39.7
CSU­
3.14.1
Alternate
Method
171
140
CSU3.12.2
Alternate
Method
17/
7.5
CSU­
3.4.11
Alternate
Method
171
140
CSU­
3.14.2
Alternate
Method
171
7.5
CSU­
3.4.2
Alternate
Method
171
7.5
CSU­
3.13.2
Alternate
Method
171
7.5
CSU­
3.32
Alternate
Method
171
7.5
CSU­
3.1.1
Alternate
Method
17/
143
CSU­
3.11.1
AlternateMethod
17/
140
CSU­
3.3.1
Alternate
Method
171
7.5
CSU­
3.13.1
Alternate
Method
171
140
CSU­
3.10.2
Alternate
Method
171
5
CSU­
3.11.2
Alternate
Method
171
7.5
CSU­
3.2.1
Alternate
Method
171
125
CSU­
3.10.1
Alternate
Method
17/
143
CSU­
3.12,.
1
Alternate
Method
17/
140
CSU­
3.1.2
Alternate
Method
17/
7.5
CSU­
3.2.2
Alternate
Method
17/
7.5
CSU­
3.9.2
Alternate
Method
17/
7.5
PPb
PPb
Maximum:

Average:

PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
NR
NR
NR
NR
.000462
.000593
.0011
.01s3
.00229
.00106
.0004S
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
<<
.000529
<<
.00048
.000529
.000313
.
oo
114
.000533
.0002s1
,00143
.000504
.000272
.000263
.000613
<<
,0000337
.00055S
<<
.0000335
<<
.00003
<<
.000034
<<
.0000317
.000624
.000623
<<
.0000319
.000623
.0000225
<<
,0000337
.0005S5
.000643
.000623
<<
.0000334
<<
.0000355
<<
.0000347
NR
NR
NR
NR
.00000276
.00000169
.
OOOOO
129
.0000144
.00000449
.00000125
.
OOOOO
137
NR
NR
NR
m
m
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
m
NR
NR
2­
14
Fuel
Pollutant
ID1
Method
(
uncorrected)
Unit
lb/
hr
1bfMMBtu
ib/
HP­
hr
Concentration
CSU­
3.9.1
Alternate
Method
17/
130
PPb
NR
.000606
NR
Maximum:
.0183
.00143
.0000144
Average:
.00347
.000384
.00000389
Xylene
5
CARB
410A
22.7
PPb
.000407
.000107
.000000797
1.1
CARB
410A
40.7
PPb
.000567
.0003
11
.00000162
15.2
CARB
410A
21
PPb
.0002S7
.00025s
.
OOOOOOS16
12.1
CARB
0030
2ss
PPb
.0192
.0015
.
oooo
15
1
S.
3
CARB
410A
14.3
PPb
<
.000275
<
.0000707
<
.000000323
16
CARB
422
27.7
PPb
,000
14
1
.00034S
.000000839
15.1
CARB
410A
39.7
PPb
.000763
.000195
.
OOOOOOS97
Maximum:
.0192
.0015
.0000151
Average:
.00309
.000399
.00000291
Digester
Gas
l,
l,
l­
Trkhloroethane
2.14
CARB
422
2.13
CARB422
2.4
CARB
422
2.17
CARB
422
2.
s
CARB
422
2.1
CARB
422
2.16
CARB
422
2.2
CARB
422
2.9
CARB
422
2.7
CARB
422
2.12
CARB
422
2.11
CARB
422
2.6
CARB
422
2.10
CARB
422
2.15
CARB
422
1.85
1.85
1.85
1.
s5
1
.
s5
1.85
1.85
1
.
S5
1
.
s5
1.85
l.
S.
5
l.
S5
l.
S5
1.85
1.85
<<
.0000347
<<
.0000352
<<
.0000559
<<
.000023
<<
.0000241
<<
.00013
<<
.0000237
<<
.0000559
<<
.0000324
<<
.0000179
<<
.000035
<<
,0000324
<<
.0000512
<<
.0000324
<<
.000026
<<
.00000572
<<
.00000561
<<
.0000075
<<
.00000598
<<
.0000115
<<
.000014S
<<
.00000598
<<
.0000075
<<
.0000115
<<
.0000115
<<
.00000561
<<
.0000115
<<
.0000075
<<
.0000115
<<
.0000059s
<<
.000000108
<<
.000000138
<<
.000000050
<<
.000000144
<<
.000000045
<<
.
OOOOOOOS6
<<
.000000174
<<
.000000059
<<
.00000010s
<<
.000000034
<<
.000000156
<<
.
oooooo
10s
<<
.00000006
1
<<
.000000108
<<
.000000232
Fuel
Concentration
Pollutant
IL)
Method
(
uncorrected)
Unit
Ib/
hr
lb/
MMBtu
Ib/
 lP­
hr
<<
.0000559
<<
.0000373
2.3
CARB
422
1.85
PPb
2.5
CARE3
422
1.85
PPb
Maximum:
.00013
1,3­
Butadiene
2.3
CARB
422
2.2
CARB
422
2.14
CARB
422
2.4
CARB
422
2.17
CARB
422
2.11
CARB
422
2.16
cARl3
422
2.6
CARB
422
2.12
CARE3
422
2.13
CARB
422
2.15
CARE3
422
2.7
CARB
422
2.8
CARB
422
2.1
CARB
422
2.9
CARB
422
2.5
CARB
422
2.10
CARB
422
12.5
12.5
12.5
12.5
12.5
12.5
12.5
12.5
12.5
12.5
12.5
12.5
12.5
12.5
12.5
12.5
12.5
Average:
.0000414
<<
.000153
<<
.000153
<<
.0000949
<<
.000153
<<
,0000628
<<
.0000884
<<
.0000649
<<
.00014
<<
.0000957
<<
.0000961
<<
.0000711
<<
.0000439
<<
.0000659
<<
.000355
<<
.0000884
<<
.000102
<<
.0000884
Maximum:
.000355
<<
.0000075
<<
.000000056
<<
.0000075
<<
.000000045
.0000148
.000000232
.00000851
.000000101
<<
.0000205
<<
.0000205
<<
.0000156
<<
.0000205
<<
,0000163
<<
.0000314
<<
.0000163
<<
.0000205
<<
,0000153
<<
.0000153
<<
.0000163
<<
.0000314
<<
.0000314
<<
.0000405
<<
.0000314
<<
.0000205
<<
.0000314
<<
.000000155
<<
.000000164
<<
.000000297
<<
.
oooooo
13
9
<<
.000000392
<<
.000000295
<<
.000000477
<<
.000000169
<<
.000000427
<<
.000000375
<<
.000000635
<<
,000000093
<<
.000000126
<<
.000000237
<<
.000000295
<<
.000000123
<<
.000000295
.000000635
.0000405
Average:
.000113
.0000232
.000000276
1,
il­
Dioxanle
2.6
CARB
422
2.75
PPb
<<
.0000502
<<
.00000735
<<
.000000060
2.8
CAN3
422
2.75
,
ppb
<<
.0000236
<<
.0000113
<<
.000000045
2.2
CARB
422
2.75
PPb
<<
.0000548
<<
.00000735
<<
.000000058
2.3
CARE3
422
2.75
PPb
<<
.0000548
<<
.00000735
<<
.000000055
2.15
CAFU3
422
2.75
PPb
<<
.0000255
<<
.00000586
<<
.000000228
2.1
CARB
422
2.75
PPb
<<
.000127
<<
.0000145
<<
.000000084
2­
16
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Ib/
hr
Ib/
MMBtu
lb/
HP­
hr
Concentration
­
2.11
2.7
2.9
2.16
2.13
2.17
2.12
2,
lO
2.5
2.4
2.14
CARE3
422
CARB
422
CARB
422
CARE3
422
CARB
422
CARB
422
CARB
422
CARB
422
CARE3
422
CARB
422
CARB
422
Aceta1de:
hyde
2.3
EPA
TO­
1
1
2.13
EPA
TO­
1
1
2.1
EPA
TO­
1
1
2.12
EPA
TO­
1
1
2.15
EPA
TO­
1
1
2.7
EPA
TO­
1
1
2.6
EPA
TO­
1
1
2.11
2.17
2.9
2.8
2.16
2.2
2.10
2.5
2.4
2.14
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
2.75
2.75
2.75
2.75
2.75
2.75
2.75
2.75
2.75
2.75
2.75
15.6
24.4
2.95
29.8
1.65
26.8
15.8
.05
61.4
4.5
50.5
27
19.2
.05
1.2
11.3
71.4
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
Masimum:
<<
.0000317
<<
.0000175
<<
.0000317
<<
.0000233
<<
.0000344
<<
.0000225
<<
.0000343
<<
.0000317
<<
.0000366
<<
.000054S
<<
.000034
.000127
<<
.0000113
<<
.0000113
<<
.0000113
<<
.00000586
<<
.00000549
<<
.00000586
<<
.00000549
<<
.0000113
<<
.00000735
<<
.00000735
<<
.0000056
.0000145
<<
.
OOOOOO
106
<<
.000000033
<<
.
OOOOOO
106
<<
.000000171
<<
.000000134
<<
.00000014
1
<<
.000000153
<<
.000000106
<<
.000000044
<<
.000000049
<<
.000000106
.000000228
Average:
.0000405
.00000835
.000000099
.000155
,000153
.0000685
.000186
<
,00000764
.0000856
,000144
NR
.000252
.000026
.000217
.000114
.
ooo
19
1
m
<
.000008
.
oo0112
.000441
.0000208
.0000244
<
.0000078
.0000298
<
.00000175
.000055
.0000212
NR
.0000654
.00000923
.000104
.0000288
.0000256
NR
<
.0000016
,0000151
.000072S
.000000157
.000000596
<
.000000045
.
OOOOOOS33
<
.00000006S
.000000163
.000000174
NR
.00000157
.
OOOOOOOS6
.000000414
.
OOOOOOS41
.000000204
NR
<
.000000009
.000000102
.
ooooo
138
2­
17
fie1
Pollutant
ID
Method
(
uncor,.
ected)
Unit
lb/
hr
lb/
MMBtu
lb/
HP­
hr
Concentration
Acrolein
2.8
2.10
2.7
2.16
2.17
2.5
2.13
2.12
2.3
2.4
2.9
2.11
2.1
2.2
2.6
2.15
2.14
Benzene
2.3
2.6
2.5
2.7
2.9
2.8
2.4
2.2
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
EPA
TO­
1
1
CARB
422
CARB
422
CARB
422
CARB
422
CARl3
422
CAFU3
422
CARB
422
CARB
422
9.1
.05
.
s5
.2
14.8
.05
9.65
16.
S
3.3
3.8
.05
.05
.2
5
.05
.925
15.6
6.12
24
115
545
340
780
3.15
7.08
.000441
.000104
.00000157
.000144
.0000322
.000000443
<
.000049S
NR
<
.00000345
<<
.00000103
.
OOOO775
NR
.
OOOO77
.00O
13
3
<
.000041s
.00004S2
NR
m
<<
.00000589
.0000634
NR
<
.00000544
.
OOO124
.000133
<
.0000237
NR
<
.000O0222
<<
.000000271
.0000201
NR
.
OOOO
123
.
OOOO213
,

<
.
OOO0055S
.00000646
NR
NR
<<
.000000673
.
OOOOOS49
NR
<
.00000125
.0000203
.0000237
<
.000000095
NR
<
.000000006
<<
.000000007
.000000485
NR
.0000003
.000000593
<
.
OOOOOOO42
.000000043
NR
NR
<<
.000000003
.000000067
NR
<
.000000048
.000000386
.000000593
.0000525
.0000102
.000000173
<
.0001os
.0003SS
.00136
.003os
.00347
.00595
<<
.0000556
<
,000125
<
.0000145
.0000568
.000272
.00198
.00123
.00283
<<
.00000746
<
.0000167
<
.00000011
.00000047
.00000164
.00000538
.0000116
.0000114
<<
.000000050
<
.000000133
2­
18
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
lbhr
lb/
MMBtu
1blHP­
hr
Concentration
2.1
2.15
2.14
2.16
2.12
2.17
2.10
2.13
2.11
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CAFE3
422
CARB
422
CARB
422
___
~

190
PPb
295
PPb
119
PPb
335
PPb
90
PPb
330
PPb
375
PPb
106
PPb
1
os
PPb
Masimum:
.007S
.00242
.00131
.0025
1
.000993
.0024
.00333
.00117
.00111
.0078
.
ooos9
.000556
.0002
15
.000632
.
OOO
16
.000623
.00136
,000186
.000393
.00283
.0000052
.00002
17
.00000409
.
oooo
135
.00000443
.000015
.0000128
.0000045S
.0000037
.0000217
Carbon
tletrachloride
2.5
CARB
422
2.16
CARB
422
2.13
CARB
422
2.
s
CARB
422
2.15
CARB
422
2.12
CARB
422
2.6
CARB
422
2.1
CARB
422
2.14
CARB
422
2.7
CARB
422
2.17
c
m
422
Chlorofoim
2.11
CARB
422
2.12
CARB
422
2.13
CARB
422
2.10
CARB
422
2.7
CARB
422
.
s
.
s
.
s
.
s
.
s
.
s
.
s
.
s
.
s
.
s
.
s
Average:

Masimum:

Average:

2.05
PPb
2.05
PPb
2.05
PPb
2.05
PPb
2.05
PPb
.00224
<<
.0000186
<<
.000011s
<<
.0000175
<<
.000012
<<
.000013
<<
.0000175
<<
.0000255
<<
.0000643
<<
.0000173
<<
.
OOOOOS93
<<
.0000115
.0000648
.0000199
<<
.0000321
<<
.0000347
<<
.0000349
<<
.0000321
<<
.0000178
.000672
<<
.00000374
<<
.0000029S
<<
.000002s
<<
.00000573
<<
.0000029S
<<
.000002s
<<
.00000374
<<
.0000074
<<
.00000285
<<
.00000573
<<
.0000029S
.0000074
.00000398
<<
.0000114
<<
.00000556
<<
.00000556
<<
.0000114
<<
.0000114
.00000713
<<
.000000022
<<
.
OOOOOOOS6
<<
.00000006S
<<
.000000022
<<
.
OOOOOO
116
<<
.00000007S
<<
.000000030
<<
.000000043
<<
.000000054
<<
.000000017
<<
.000000071
.000000116
.0000000556
<<
.000000107
<<
.000000155
<<
.000000136
<<
.000000107
<<
.000000033
2­
19
Fuel
Concentration
Pollutant
!
Dl
Method
(
uncorrected)
Unit
lb/
hr
IblMMBtu
lb/
HP­
hr
2.5
2.14
2.6
2.15
2.3
2.4
2.1
2.2
2.9
2.17
2.16
2.
s
CARB
422
CARE3
422
CARB
422
CARE3
422
CARB
422
CARB
422
CARE3
422
CARB
422
CARB
422
CARE3
422
CARB
422
CARB
422
Dichloi­
obenzene
2.7
CARB
422
2.8
CARB
422
2.2
CARB
422
2.13
CARB
422
2.9
CARB
422
2.16
CARE3
422
2.4
CARE3
422
2.14
CARB
422
2.12
CARB
422
2.1
CARB
422
2.3
CARE3
422
2.5
CARB
422
2.15
CARB
422
2.17
CARB
422
2.10
CARB
422
2.11
CARE3
422
2.05
2.05
2.05
2.05
2.05
2.05
2.05
2.05
2.05
2.05
2.05
2.05
Average:

6.35
PPb
1.65
PPb
1.65
PPb
1.5s
PPb
1.65
PPb
6.32
PPb
1.65
PPb
1.65
PPb
3.55
PPb
1.8
PPb
1.65
PPb
3.8
PPb
11.8
PPb
4.32
PPb
1.65
PPb
1.65
PPb
<<
.000037
<<
.0000345
<<
.00005OS
<<
.000025S
<<
.0000555
<<
.0000555
<<
.000129
<<
.0000555
<<
.0000321
<<
.0000228
<<
.0000236
<<
,0000239
.000129
.000041
.0000677
<<
.0000237
<<
.0000549
<
.000033
<<
.0000318
<
.0000892
<<
.0000549
<<
.0000341
.000074
.00014
<<
.0000549
.
OOOOS46
<
.0001S3
<
.0000592
<<
.0000318
<<
.0000318
<<
.00000744
<<
.00000567
<<
.00000744
<<
.00000593
<<
.00000744
<<
.00000744
<<
.0000147
<<
.00000744
<<
.0000114
<<
.00000593
<<
.00000593
<<
.0000114
.0000147
.00000844
.0000434
<<
.0000113
<<
.00000736
<
.00000526
<<
.0000113
<
.0000225
<<
,00000736
<<
.00000561
.0000
1
1s
.0000159
<<
.00000736
.000017
<
.0000421
<
.0000154
<<
.0000113
<<
.0000113
<<
.000000044
<<
.000000108
<<
.00000006
1
<<
.00000023
<<
.000000056
<<
.000000050
<<
.
OOOOOOOS6
<<
.000000059
<<
.000000107
<<
.000000142
<<
.000000174
<<
.000000045
.00000023
.0000001
.
OOOOOO
129
<<
.000000045
<<
.000000058
<
.000000129
<<
.
OOOOOO
106
<
.000000656
<<
.000000049
<<
.000000107
.00000033
.000000093
<<
.000000055
.000000102
<
.00000163
<
.00000037
<<
.000000106
<<
.000000106
2­
20
Fuel
Concentration
,

Pollutant
ID
Method
(
uncorrected)
Unit
lbhr
lb/
MMBtu
lb/
HP­
hr
2.6
CARE3
422
16
Ethylene
diibromide
2.6
CARE3
422
2.7
CARB
422
2.5
CARE3
422
2.17
CARB
422
2.12
CARE3
422
2.2
CARB
422
2.16
CARE3
422
2.1
CARE3
422
2.13
CARE3
422
2.3
CARE3
422
2.4
CARB
422
2.15
CARE3
422
2.
s
CARB
422
2.14
CARB
422
.65
.65
.65
.65
.65
.
s
.65
.65
.65
.65
.65
.65
.65
.65
Et
hglene
dichloride
2,13
CARB
422
1.25
2.5
CARB
422
1.25
2.10
CARB
422
1.25
2.9
CARB
422
1.25
2.3
CARE3
422
2.5
2.16
CARE3
422
1.25
2.18
CARE3
422
1.25
2.8
CARJ3
422
1.25
2.12
CARB
422
1.25
2.6
CARB
422
1.25
PPb
Maximum:

Average:

PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
M'aximum:

Average:

PPb
PPb
PPb
PPb
PPb
PPb
.
PPb
PPb
PPb
PPb
.0004SS
.000488
.0000904
<<
.0000251
<<
.00000S76
<<
.00001s3
<<
.0000112
<<
.0000171
<<
.0000337
<<
.0000116
<<
.0000636
<<
,0000172
<<
.0000274
<<
,0000274
<<
.0000127
<<
.000011s
<<
.000017
.0000636
.0000216
<<
.0000173
<<
.00001s3
<<
.0000159
<<
.0000159
<<
.0000549
<<
.0000117
<<
.0000159
<<
.0000118
<<
.0000172
<<
.0000251
.0000714
.0000714
.0000187
<<
.00000367
<<
.00000562
<<
.00000367
<<
.00000293
<<
.00000274
<<
.00000452
<<
.00000293
<<
.00000726
<<
.00000274
<<
.00000367
<<
.00000367
<<
.00000293
<<
.00000562
<<
.000002s
.00000726
,00000391
<<
.00000275
<<
.00000363
<<
.00000564
<<
.00000564
<<
.00000736
<<
.00000293
<<
.00000564
<<
.00000564
<<
.00000275
<<
.0000036S
.00000059
.00000163
.000000274
<<
.000000030
<<
.0000000
16
<<
.000000022
<<
.00000007
<<
.000000076
<<
.000000036
<<
.000000085
<<
.000000042
<<
.000000067
<<
.000000027
<<
.000000024
<<
.
OOOOOO
113
<<
.000000022
<<
.000000053
.000000113
.0000000491
<<
.000000067
<<
.000000022
<<
.000000053
<<
.000000053
<<
.000000055
<<
.0000000S6
<<
.000000053
<<
.000000022
<<
.000000076
<<
.000000030
Fuel
Pollutant
UT
Method
(
uncorrected)
Unit
Iblhr
lbNMBtu
lb/
HP­
hr
Concentration
2.14
CARB
422
2.2
CARE3
422
2.1
CARE3
422
2.4
CARE3
422
2.15
CARB
422
2.7
CARB
422
2.17
CARB
422
Fovmaldehyde
2.6
EPA
TO­
1
1
2.11
EPA
TO­
1
1
2.5
EPA
TO­
1
1
2.8
EPA
TO­
1
1
2.16
EPA
TO­
1
1
2.3
EPA
TO­
1
1
2.13
EPA
TO­
1
1
2.14
EPA
TO­
1
1
2.2
EPA
TO­
1
1
2.17
EPA
TO­
1
1
2,
l
EPA
TO­
1
1
2.10
EPA
TO­
1
1
2.7
EPA
TO­
1
1
2.15
EPA
TO­
1
1
2.9
EPA
TO­
1
1
2.4
EPA
TO­
1
1
2.12
EPA
TO­
1
1
Methylene
chloride
2.6
CARB
422
1.25
PPb
2.5
PPb
1.25
PPb
2.5
PPb
1.25
PPb
1.25
PPb
1.25
PPb
Maximum:

Average:

1610
PPb
17.8
PPb
1060
PPb
1210
PPb
1660
PPb
26.2
PPb
2290
PPb
8
16
PPb
49.4
PPb
876
PPb
994
PPb
9.65
PPb
1240
PPb
2120
PPb
2150
PPb
18.4
PPb
2500
PPb
Maximum:

Average:

24.5
PPb
<<
.0000171
<<
.0000549
<<
.0000638
<<
.0000549
<<
.0000128
<<
.00000879
<<
.0000113
.0000638
.0000252
.01
.0000698
,00478
,00354
.00479
<
.000178
.00976
­
00344
.000336
.00244
.0157
.0000379
.00269
.00669
.00845
<
.000125
.0106
.0157
,00492
.000432
<<
.00000281
<<
.00000736
<<
.00000728
<<
.00000736
<<
.00000293
<<
.00000564
<<
.00000293
.00000736
.00000482
.00147
.0000247
.000962
,00169
.0012
<
,0000238
.00156
.000566
.000045
.000636
.
OO
179
.
OOOO
135
.00172
.00154
.003
<
.0000167
.0017
.003
.00106
.0000632
<<
.000000053
<<
.000000058
<<
.000000042
<<
.000000049
<<
.000000114
<<
.000000016
<<
.000000070
.000000114
.0000000545
.0000122
.000000232
,00000573
.00000676
.0000353
<
.000000179
.00003
82
.0000108
.000000359
.0000152
.0000104
.000000126
.000005
12
.0000597
.0000282
<
.000000114
.0000476
.0000597
.0000163
.000000522
2­
22
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
lb/
hr
lb/
MMBtu
lb/
HP­
hr
Concentration
2.8
2.9
2.10
2.1
2.7
2.13
2.15
2.3
2.14
2.2
2.4
2.16
2.12
2.5
2.17
2.11
Styrene
2.14
2.10
2.8
2.7
2.12
2.15
2.9
2.13
2.2
2.6
2.3
2.11
CARE3
422
CARE3
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARE3
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
c
m
422
CARB
422
CARB
422
CARB
422
CARE3
422
CARB
422
CARB
422
CARB
422
CARE3
422
CARB
422
CARE3
422
37
PPb
.000308
9.7
PPb
.000108
2.9
PPb
<<
.0000323
20
PPb
.
OOOS94
2s
PPb
.000172
34
PPb
.0004
1
1
24.5
PPb
.000219
5.95
PPb
<
.000114
15.5
PPb
.000185
6.95
PPb
<
.000134
50.5
PPb
.000974
17
PPb
.000139
30
PPb
.000361
18.5
PPb
.000238
24.5
PPb
.
OOO
194
2.9
PPb
<<
.0000323
Maximum:
.000974
Average:
.000291
5.55
2.35
2.35
10
13
4.5
2.35
15.5
2.35
17.5
6.68
2.35
.0000811
<<
.000032
<<
.0000239
.0000758
.000192
.0000493
<<
.000032
.00023
<<
.0000553
.000373
<
.000157
<<
.000032
.
OOO
146
.0000383
<<
.0000115
.
ooo
102
.
ooo
11
.0000656
.0000504
<
.0000153
.0000304
<
.0000179
.00013
.000035
.0000579
.0000477
.0000504
<<
.0000115
.000146
.0000578
.
OOOO
134
<<
.0000114
<<
.0000114
.0000486
.00003
07
.0000114
<<
.0000114
.0000366
<<
.00000742
.0000552
<
.0000211
<<
.0000114
.000000586
.00000036
<<
.000000108
.000000596
.000000328
.0000016
,00000196
<
.000000116
.000000578
<
.000000143
.000000884
.00000102
.00000162
.000000287
.00000121
<<
.000000108
.00000196
.000000707
.000000254
<<
.000000107
<<
.000000045
.000000
144
.000000855
.00000044
<<
.000000107
.000000898
<<
.000000059
.000000456
<
.000000159
<<
.000000107
2­
23
Fuel
Pollutant
[
I)
i
Method
(
uncorrected)
Unit
lb/
hr
lb/
MMBtu
lb/
HP­
hr
Concentration
­
2.4
CARB
422
2.5
CARB
422
2.17
CARB
422
2.16
CARB
422
2.1
CARB
422
Tetrachloroethylene
2.2
2.1
2.16
2.17
2.8
2.15
2.3
2.9
2.6
2.14
2.4
2.7
2.13
2.5
2.12
2.11
2.10
Toluene
2.9
2.10
2.5
CARB
422
CARE3
422
CARE3
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARE3
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARE3
422
CARB
422
2.35
PPb
<<
.0000553
14
PPb
.00022
10.7
PPb
.
ooo
103
7.25
PPb
.0000725
2.35
PPb
<<
.000129
Maximurn:
.00037S
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
Average:
.000113
PPb
<<
.0000564
PPb
<<
.000131
PPb
<<
.0000232
PPb
<<
.0000239
PPb
<<
.0000243
PPb
<<
.0000262
PPb
<<
.0000564
PPb
<<
,0000326
PPb
<<
,0000516
PPb
<<
.000035
PPb
<<
.0000564
PPb
<<
.0000181
PPb
<<
.0000354
PPb
<<
.0000376
PPb
<<
.0000353
PPb
<<
.0000326
PPb
<<
.0000326
Maximum:
,000131
Average:
.0000417
74
PPb
.000892
83.5
PPb
.
oo
1
305
PPb
.00424
<<
.00000742
<<
.000000050
.0000442
.000000266
.000027
.000000646
.0000182
.000000534
<<
.0000147
<<
.000000086
.0000552
.
OOOOOOS98
.0000224
.000000307
<<
.00000756
<<
.000015
<<
.00000603
<<
.00000603
<<
,0000116
<<
.00000603
<<
.00000756
<<
.0000116
<<
.00000756
<<
.00000576
<<
.00000756
<<
.0000116
<<
.00000565
<<
.00000756
<<
.00000565
<<
.0000116
<<
.0000116
.000015
<<
.000000060
<<
.000000037
<<
.000000176
<<
.000000145
<<
.000000046
<<
.000000234
<<
.000000057
<<
.000000109
<<
.000000062
<<
.000000109
<<
.00000005
1
<<
.000000034
<<
.000000138
<<
.000000045
<<
.000000158
<<
.000000109
<<
.000000109
.000000234
.00000859
.000000102
.0003
17
.00000297
.000358
.00000334
.000852
.000005
12
2­
24
Fuel
Pollutant
ID)
Method
(
uncorrected)
Unit
lblhr
IblMMBtu
IblHP­
hr
Concentration
­
2.11
2.1
2.13
2.14
2.15
2,16
2.12
2.17
2.6
2.2
2.8
2.4
2.3
2.7
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARE3
422
CARB
422
CARB
122
Trichloroethylene
2.4
CARB
422
2.10
CARE3
422
2.12
CARB
422
2.13
CARE
422
2.1
CARB
422
2.14
CARB
422
2.8
CARB
422
2.17
CARB
422
2.15
CARB
422
2.7
CARB
422
2.6
CARB
422
2.3
CARB
422
2.11
CARB
422
2.5
CARB
422
13
PPb
66.5
PPb
36
PPb
34
PPb
140
PPb
91
PPb
75
PPb
76.5
PPb
90
PPb
13.5
PPb
160
PPb
4.38
PPb
17
PPb
290
PPb
Maximum:

Average:

1.85
PPb
1.85
PPb
1.85
PPb
1.85
PPb
1.85
PPb
1.85
PPb
1.85
PPb
1.85
PPb
1.85
PPb
1.85
PPb
1.85
PPb
1.
S5
PPb
1.85
PPb
1.85
PPb
.000157
.00322
.00047
1
.00044
.00136
.000805
.000978
.000655
.00172
.00028
1
.00144
<
.0000911
.000354
.00193
.00424
.00118
<<
.0000551
<<
.0000319
<<
.0000345
<<
.0000346
<<
.000128
<<
,0000342
<<
.0000238
<<
.0000226
<<
.0000256
<<
.0000176
<<
.0000504
<<
.0000551
<<
.0000319
<<
.0000367
.0000556
.000000523
.000368
.00000214
.0000752
.00000
184
.0000724
.0003
12
.000202
.000156
.00017
­
00025
1
.0000377
.000685
<
.0000122
.0000474
.
OO
124
.00000138
.0000121
.00000592
.00000437
.0000041
.00000208
.0000003
,00000274
<
.000000082
.0000003
58
.00000368
.00124
.0000121
.000307
.00000312
<<
.00000738
<<
.0000113
<<
.00000552
<<
.00000552
<<
.0000146
<<
.00000563
<<
.0000113
<<
.00000589
<<
.00000589
<<
.0000113
<<
.00000738
<<
.00000738
<<
.0000113
<<
.00000738
<<
.000000050
<<
.000000106
<<
.000000154
<<
.000000135
<<
.000000085
<<
.
OOOOOO
107
<<
.000000045
<<
.000000141
<<
.000000229
<<
.000000033
<<
.000000060
<<
.000000055
<<
.000000106
<<
.000000044
2­
25
Fuel
Pollutant
I[
D
Method
(
uncorrected)
Unit
lb/
hr
lblMM3tu
lb/
HP­
hr
Concentration
2.9
CARB
422
2.16
CARB
422
2.2
CARB
422
Vinyl
chlloride
2.11
CARB
422
2.2
CARB
422
2.12
CARB
422
2.15
CARB
422
2.13
CARB
422
2.4
CARB
422
2.17
CARB
422
2.14
CARB
422
2.16
CARB
422
2.3
CARB
422
2.6
CARB
422
2.10
CARB
422
2.8
CARB
422
2.5
CARB
422
2.7
CARB
422
2.9
CARB
422
2.1
CARB
422
Vinylidene
chloride
2.13
CARB
422
2.9
CARB
422
2.14
CARB
422
2.7
CARB
422
2.15
CARB
422
<<
.0000319
1.85
PPb
1.85
PPb
1.85
PPb
<<
.0000234
<<
.0000551
Maximum:
.000128
3.95
3.95
3.95
12.5
3.95
3.95
3.95
3.95
3.95
3.95
3.95
3.95
3.95
3.95
3.95
3.95
3.95
Average:
.0000407
<<
.0000323
<<
.0000559
<<
.000035
.0000823
<<
.0000351
.<<
.0000559
<<
.000023
<<
,0000347
<<
.0000237
<<
.0000559
<<
.0000512
<<
.0000323
<<
.0000241
<<
.0000373
<<
.0000179
<<
.0000323
<<
,00013
Maximum:
.00013
Average:
.0000446
<<
.0000173
<<
.0000159
<<
.0000171
1.25
PPb
1.25
PPb
1.25
PPb
1.25
PPb
1.25
PPb
<<
.
OOOOOS79
<<
.0000128
<<
.0000113
<<
.000000106
<<
.00000589
<<
.000000172
<<
.00000738
<<
.000000058
.0000146
.000000229
.00000837
.0000000994
<<
.0000115
<<
.00000749
<<
.0000056
.000019
<<
.0000056
<<
.00000749
<<
.00000598
<<
.00000571
<<
.00000598
<<
.00000749
<<
.00000749
<<
.0000115
<<
.0000115
.00000749
<<
.0000115
<<
.0000115
<<
.0000148
<<
.000000108
<<
.000000059
<<
.000000156
.000000734
<<
.000000137
<<
.000000050
<<
.000000144
<<
.000000108
<<
.000000174
<<
.000000056
<<
.00000006
1
<<
.
oooooo
108
<<
.000000045
<<
.000000045
<<
.000000034
<<
.000000108
<<
.000000086
.000019
.000000734
.00000927
.00000013
<<
,00000275
<<
.000000067
<<
.00000564
<<
.000000053
<<
.00000281
<<
.000000053
<<
.00000564
<<
.000000016
<<
.00000293
<<
.000000114
2­
26
Fuel
Pollutant
Method
(
uncorg­
ected)
Unit
lblhr
1blMMBtu
1blHP­
fir
Concent
ration
2.3
2.6
2.16
2.17
2.5
2.2
2.11
2.10
2.8
2.4
2.12
2.1
Xylene
2.14
2.1
2.5
2.8
2.17
2.7
2.13
2.9
2.11
2.3
2.6
2.2
2.16
2.4
2.15
2.12
CARB
422
CARB
422
CARB
422
CARE3
422
CARB
422
CARE3
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CARB
422
CAEU3
422
CARE3
422
CARB
422
2.55
PPb
1.25
PPb
1.25
PPb
1.25
PPb
1.25
PPb
2.55
PPb
1.25
PPb
1.25
PPb
1.25
PPb
2.55
PPb
1.25
PPb
1.25
PPb
Maximum:

Average:

12.3
PPb
21
PPb
83
PPb
14
PPb
20
PPb
36
PPb
14.5
PPb
5.15
PPb
2.3
PPb
15
PPb
26
PPb
5.6
PPb
32.5
PPb
4.25
PPb
83
PPb
43
PPb
<<
.000056
<<
.0000251
<<
.0000117
<<
.0000113
<<
.0000183
<<
.000056
<<
.0000159
<<
.0000159
<<
.0000118
<<
,000056
<<
.0000172
<<
.0000638
.000063S
.0000253
,000184
.00117
,00133
.
OOO
145
.
OOO
197
.000277
.000218
.0000715
<<
.0000319
.000361
.000572
.000135
.000332
<
.000102
.000927
.000646
<<
.00000751
<<
,00000368
<<
.00000293
<<
.00000293
<<
.00000368
<<
.00000751
<<
.00000564
<<
.00000564
<<
.00000564
<<
.00000751
<<
.00000275
<<
.0000072S
.00000751
<<
.000000056
<<
.000000030
<<
.000000086
<<
.000000070
<<
.000000022
<<
.000000059
<<
.000000053
<<
.000000053
<<
.000000022
<<
.000000050
<<
.000000076
<<
.000000042
.000000114
.000004S3
.0000000546
.0000302
.000134
.000267
.000069
.00005
13
.000178
.0000349
.0000254
<<
.0000113
.0000434
.0000836
.000018
.0000333
<
.0000136
.000213
.000104
.000000574
.00000078
.0000016
.000000276
.
ooooo
123
.00000052S
.000000854
.000000239
<<
.000000106
.000000364
.000000691
.
OOOOOO
144
.00000244
<
.000000092
.0000083
.00000288
2­
27
Fuel
Pollutant
ID
Method
(
uncoi­
rected)
Unit
lb/
hr
lb/
MMBtu
lb/
HP­
hr
Concentration
2.10
c
m
422
6.65
PPb
.0000924
Maximum:
.00133
Average:
.0004
Landfill
Gas
l,
l,
l­
Triclhloroethane
24
NR
Benzene
24
m
Carbon
'
Tetrachloride
24
NR
Chlorofairm
24
NR
Perchloroethylene
24
NR
Toluene
24
NR
1.4
PPb
.000124
Maximum:
.000124
Average:
.000124
26
.
I
PPb
,00135
Maximum:
.00135
Average:
.00135
PPb
.0000103
Maximum:
,0000103
Average:
.0000103
2.7
PPb
.000215
Maximum:
.000215
Average:
.000215
2
PPb
.00022
1
Maximum:
.000221
Average:
.000221
.000032S
.00000030S
.000267
.0000083
.0000822
.00000126
.00000666
.000000046
.00000666
.0000000468
.00000666
.0000000468
.0000723
.000000509
.000000509
.0000723
.0000723
.
0
0
0
0
0
0
5
0
9
.000000549
.000000003
.000000549
.0000000038
,000000549
.0000000038
.
OOOO
1
15
.000000081
.0000115
.0000000811
.0000115
.0000000811
.
oooo
1
1
s
.
ooooooos3
.0000118
.0000000834
.0000118
.0000000834
46
.000151
,00000106
.00282
PPb
2­
28
Fuel
Concentration
Pollutant
ID
Method
(
uncorrected)
Unit
lblhr
1blMMBtu
IblHP­
hr
Trichloroethylene
24
NR
Vinyl
Chloride
24
NR
Xylene
24
NR
Natural
Gas
1,1,2
,2­
T1et
rachloroet
hane
3.13
TO­
14
3.15
TO­
14
3.20
TO­
14
3.21
TO­
14
3.11
TO­
14
3.12
TO­
14
3.1
TO­
14
3.9
TO­
14
3.
S
TO­
14
3.7
TO­
14
3.16
TO­
14
3.3
TO­
14
3.17
TO­
14
1.1
s
.
l
43
5
5
5
5
5
5
5
5
5
5
5
5
5
Maximum:

Average:

PPb
Mimimum:

Average:

PPb
Maximum:

Average:

PPb
Maximum:

Average:
.00282
.00282
.0000963
.0000963
.0000963
,000337
.000337
.000337
.00303
.00303
­
00303
<<
.00116
<<
.00103
<<
.000381
<<
.000335
<<
.00108
<<
.00113
.
<<
.00094
<<
.00105
<<
.00109
<<
.00111
<<
.000508
<<
.00107
<<
.000443
.000151
.000151
.000005
15
.00000515
.00000515
.000018
.000018
.000018
.000162
.000162
.000162
<<
.0000361
<<
,00003s5
<<
.0000194
<<
.0000194
<<
.0000345
<<
.0000351
<<
.0000557
<<
.00004S4
<<
.0000461
'<<
.0000451
<<
.0000193
<<
.0000717
<<
,0000191
.00000106
.00000106
.000000036
.0000000363
.0000000363
.000000127
.000000127
.000000127
.00000114
.00000114
.00000114
<<
.000000644
<<
.000000644
<<
.000000733
<<
,000000644
<<
.00000054
<<
.00000062S
<<
.0000005S7
<<
.000000656
<<
.000000606
<<
.000000555
<<
.000000782
<<
.000000535
<<
.000000682
2­
29
Fuel
Pollutant
Dl
Method
(
uncor,­
ecte~)
Unit
lblhr
lb/
MMBtu
lb/
  P­
hr
Concentration
I
<
.00000151
3.18
TO­
14
9.67
PPb
<
.000882
<
.0000373
3.14
TO­
14
5
PPb
<<
.00103
<<
.0000401
<<
.000000644
3.19
TO­
14
5
PPb
<<
.000401
<<
.0000197
<<
.000000685
3.2
TO­
14
5
PPb
<<
.000995
<<
.0000715
<<
.000000553
3.10
TO­
14
5
PPb
<<
.00114
<<
.0000361
<<
.00000057
Masimum:
.00116
.0000717
.00000151
Average:
.000876
.0000385
.000000678
1,1,2­
Trichloroethane
3.10
3.20
3.13
3.17
3.9
3.19
3.2
3.15
3.14
3.18
3.21
3.16
3.3
3.1
3.8
3.11
3.7
3.12
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
1,
l­
Dichlloii­
oethane
3.12
TO­
14
3.11
TO­
14
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5.

5
5
PPb
<<
.000905
PPb
<<
.000303
PPb
<<
.000919
PPb
<<
.000352
PPb
<<
.000837
PPb
<<
,000319
PPb
<<
.000822
PPb
<<
.000821
PPb
<<
.000791
PPb
<<
.000363
PPb
<<
.000266
PPb
<<
.000403
PPb
<<
.00085
PPb
<<
.000747
PPb
<<
.000866
PPb
<<
.
OOOS56
PPb
<<
.000879
PPb
<<
.000896
Masimum:
.000919
Average:
.000677
<<
.0000287
<<
.0000154
<<
.0000287
<<
.0000152
<<
,0000384
<<
.0000157
<<
.0000568
<<
.0000306
<<
.0000318
<<
.0000153
<<
.0000154
<<
.0000153
<<
.000057
<<
.0000443
<<
.0000367
<<
.0000274
<<
.0000358
<<
.0000279
.000057
.0000298
<<
.000000452
<<
.000000583
<<
.0000005
11
<<
.000000542
<<
.000000523
<<
.000000545
<<
.000000439
<<
.0000005
14
<<
.000000513
<<
.000000621
<<
.000000512
<<
.00000062
<<
.000000425
<<
.000000467
<<
.000000481
<<
.000000428
<<
.00000044
<<
.000000498
.000000621
.000000506
5
PPb
<<
.000664
<<
.0000207
<<
.000000369
5
PPb
<<
.000635
<<
.0000203
<<
.000000318
Fuel
Concentration
Pollutant
ID
Method
(
uncorrected)
Unit
lb/
hr
lb/
MMB
tu
lb/
HP­
hr
­
3.15
3.13
3.14
3.3
3.17
3.20
3.10
3.1
3.18
3.16
3.9
3.19
3.7
3.2
3.8
3.21
TO­
14
TO­
14
TO­
14
TO­
I4
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
1,2­
Dichlloroethane
3.12
TO­
14
3.20
TO­
14
3.7
TO­
14
3.17
TO­
14
3.11
TO­
14
3.3
TO­
14
3.14
TO­
14
3.8
TO­
14
3.15
TO­
14
3.13
TO­
14
3.9
TO­
14
3.16
TO­
14
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
FPb
Maximum:

Average:

PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
<<
.000609
<<
.000681
<<
.000609
<<
.00063
<<
.000261
<<
.000224
<<
.000671
<<
.000553
<<
.000269
<<
.000299
<<
.000521
<<
.000236
<<
.000652
<<
.000587
<<
.000642
<<
.000197
.000681
.000502
<<
.000664
<<
.000224
<<
.000652
<<
.000261
<<
,000635
<<
,00063
<<
.000609
<<
.000642
<<
.000609
<<
.000681
<<
.000621
<<
.000299
<<
.0000227
<<
.0000213
<<
,0000236
<<
.0000423
<<
.0000112
<<
.0000114
<<
.0000213
<<
.0000328
<<
.0000113
<<
.0000113
<<
.00002s5
<<
.0000116
<<
.0000266
<<
.0000421
<<
.0000272
<<
.0000114
.0000423
.0000221
<<
.0000207
<<
.0000114
<<
.0000266
<<
.0000112
<<
.0000203
<<
.0000423
<<
.0000236
<<
.0000272
<<
.0000227
<<
.0000213
<<
.0000285
<<
.0000113
<<
.000000381
<<
.000000378
<<
.000000381
<<
.000000315
<<
.000000402
<<
.00000043
1
<<
.000000336
<<
.000000346
<<
.00000046
<<
.00000046
<<
.000000388
<<
.000000403
<<
.000000326
<<
.000000326
<<
.000000357
<<
.000000379
.00000046
.000000375
<<
.000000369
<<
.00000043
1
<<
.000000326
<<
.000000402
<<
.0000003
1s
<<
.000000315
<<
.0000003s1
<<
.000000357
<<
.000000381
<<
.00000037S
<<
.000000388
<<
.00000046
­
2­
31
Fuel
Pollutant
I
C
l
Method
(
uncol­
rected)
Unit
Concentration
Ib/
hr
lb/
MMBtu
Ib/
HP­
hr
3.10
TO­
14
3.2
TO­
14
3.19
TO­
14
3.18
TO­
14
3.21
TO­
14
1,2­
Dichlloropropane
3
.
S
TO­
14
3.1
TO­
14
3.9
TO­
14
3.10
TO­
14
3.11
TO­
14
3.7
TO­
14
3.12
TO­
14
3.3
TO­
14
3.18
TO­
14
3.14
TO­
14
3.21
TO­
14
3.15
TO­
14
3.2
TO­
14
3.16
TO­
14
3.19
TO­
14
3.17
TO­
14
3.13
TO­
14
3.20
TO­
14
5
PPb
<<
.000671
5
PPb
<<
.0005S7
5
PPb
<<
.000236
5
PPb
<<
.000269
5
PPb
<<
.000197
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
Maximum:
.000681
Average:
.000499
ppb
<<
.000733
PPb
<<
.000632
PPb
<<
.000709
PPb
<<
.000766
PPb
<.<
.000724
PPb
<<
.000744
PPb
<<
.00075S
PPb
<<
.000719
ppb
<<
.000307
PPb
<<
.000695
PPb
<<
.000225
PPb
<<
.000696
PPb
<<
.00067
PPb
<<
.000341
PPb
<<
.00027
PPb
<<
,000298
PPb
<<
.000778
PPb
<<
.000256
Maximum:
.000778
Average:
.000573
1,3­
Butatliene
CSU­
1.3.2
Alternate
Method
171
250
PPb
<<
.00374
CSU­
1.8.1
Alternate
Method
17/
250
PPb
<<
.00401
<<
.0000213
<<
.000000336
<<
.0000421
<<
.000000326
<<
,0000116
<<
.000000403
<<
.0000113
<<
.00000046
<<
.0000114
<<
.000000379
.0000423
.00000046
.0000215
.000000377
<<
.000031
<
c
,0000375
<<
.0000325
<<
.0000243
<<
.0000232
<<
.0000303
<<
.0000236
<<
.0000482
<<
.000013
<<
.000027
<<
.000013
<<
.0000259
<<
.000043
<<
.000013
<<
.0000133
<<
.0000128
<<
.0000243
<<
.000013
<<
.000000407
<<
.000000395
<<
.000000443
<<
.000000383
<<
.000000362
<<
.000000372
<<
.00000042
1
<<
.000000359
<<
.000000525
<<
.000000434
<<
.000000433
<<
.000000435
<<
.000000372
<<
.000000525
<<
,000000462
<<
.00000045S
<<
.000000432
<<
.000000492
.0000482
.000000525
.0000252
.000000428
<<
.00138
<<
.0000123
<<
.0012
<<
.00000959
2­
32
Concentration
Pollutant
ID
Method
(
uncol­
I­&
ed)
Unit
IbMMBtu
IblHP­
hr
25.2
CARB
422.102
75
CSU­
1.9.1
Alternate
Method
17/
250
CSU­
1.5
2
Alternate
Method
17/
250
CSU­
1.6
1
Alternate
Method
17/
250
CSU­
1.217.1
Alternate
Method
17/
250
CSU­
1.9.2
Alternate
Metliod
17/
250
25.4
CAN3
422.102
435
29.23~
TO­
14
30
CSU­
1
8.2
Alternate
Method
17/
250
CSU­
I,
10.1
Alternate
Method
17/
250
25.3
c
m
422.102
159
25.1
CARE3
422.102
68.7
CSU­
1.10.2
Alternate
Method
17/
250
CSU­
1.1.2
Alternate
Method
17/
250
CSU­
1.13.1
Alternate
Method
17/
250
CSU­
1.1.1
Alternate
Method
17/
250
CSU­
1.11.1
Alternate
Method
17/
250
CSU­
1.2/
7.2
Alternate
Method
171
250
CSU­
1.4.2
Alternate
Method
17/
250
CSU­
1.62
Alternate
Method
17/
250
CSU­
1.3.1
Alternate
Method
171'
250
CSU­
1.4.1
Alternate
Method
171
250
CSU­
1.5.1
Alternate
Method
17/
250
CSU­
1.16.1
Alternate
Method
171
250
CSU­
2.8.1
Alternate
Method
17/
NR
CSU­
2.12.1
Alternate
Method
17/
NR
CSU­
2.15.1
Alternate
Method
17/
NR
CSU­
22.11
Alternate
Method
17/
NR
CSU­
2.11.1
Alternate
Method
17/
NR
CSU­
1.14.2
Alternate
Method
171
250
CSU­
1.11.2
Alternate
Method
17/
250
CSU­
2.3.2
Alternate
Method
171
NR
.0105
<<
.00392
<<
.00436
<<
.00342
<<
.00329
<<
.00398
.00932
.00173
<<
.00386
<<
.00405
,0030s
.0005
12
<<
.00405
<<
.00401
<<
.00402
<<
.0037S
<<
.00376
<<
.00384
<<
.00352
<<
.00363
<<
.00311
<<
.
om1
<<
.00406
<<
.00408
NR
NR
NR
NR
NR
<<
.00381
<.
C
.0039
NR
.000267
<<
.000992
<<
.00111
<<
.000967
<<
.00124
<<
.00101
.00101
.000135
<<
.00115
<<
.00101
.0003
15
.0000859
<<
.00101
<<
.00102
<<
.00101
<<
.00101
<<
.00111
<<
,00124
<<
.00104
<<
.000942
<<
.00132
<<
.00102
<<
.00109
<<
.00101
NR
NR
NR
NR
NR
<<
.000991
<<
.00115
NR
.00000273
<<
.00000891
<<
.00000991
<<
.00000777
<<
.000011
<<
.00000905
.00000sss
.00000
103
<<
.00000923
<<
.0000092
.00000325
.000000875
<<
,0000092
<<
.00000911
<<
.00000914
<<
.00000359
<<
.000009
<<
.0000128
<<
.00000842
<<
.00000836
<<
,0000102
<<
.00000742
<<
.00000923
<<
.00000927
NR
NR
NR
NR
NR
<<
.
OOOOOSG6
<<
.00000933
NR
2­
33
Puel
Concentration
Pollutant
ID
Method
(
uncorrected)
Unit
lbhr
lb/
MMBtu
lb/
HP­
hr
­
CSU­
2.15.2
Alternate
Method
17/
NR
CSU­
2.13.1
Alternate
Method
17/
NR
CSU­
2.11.2
Alternate
Method
17/
NR
CSU­
1.16.2
Alternate
Method
17/
250
CSU­
2.4.;!
Alternate
Method
17/
NR
CSU­
1.14.1
Alternate
Method
17/
250
CSU­
2.12.2
Alternate
Method
171
NR
CSU­
2.1.11
Alternate
Method
171
NR
CSU­
1.12.1
Alternate
Method
17/
250
CSU­
1.12.2
Alternate
Method
17/
250
CSU­
2.4.11
Alternate
Method
17/
NR
CSU­
2.13.2
Alternate
Method
17/
NR
CSU­
2.'
7.;!
Alternate
Method
17/
NR
CSU­
2..
5.;!
Alternate
Method
17/
NR
CSU­
2..
5.11
Alternate
Method
17/
NR
CSU­
2.14.2
Alternate
Method
17/
NR
CSU­
2.10.2
Alternate
Method
17/
NR
CSU­
2.3.11
Alternate
Method
17/
NR
CSU­
1.151
Alternate
Method
17/
250
CSU­
2.'
9.:!
Alternate
Method
171'
NR
CSU­
2.14.1
Alternate
Method
17/
NR
CSU­
2.10.1
Alternate
Method
17/
NR
CSU­
2.19.1
Alternate
Method
17/
NR
CSU­
1.13.2
Alternate
Method
17/
250
CSU­
2.16.1
Alternate
Method
17/
NR
CSU­
1.1.5.2
Alternate
Method
17/
2.50
CSU­
2.1.2
Alternate
Method
17/
NR
CSU­
2.7.1
Alternate
Method
17/
NR
CSU­
2.162
Alternate
Method
17/
NR
CSU­
2.22
Alternate
Method
17/
NR
CSU­
2.62
Alternate
Method
17/
NR
CSU­
2.6.1
Alternate
Method
17/
NR
NR
NR
NR
<<
.00414
NR
<<
.00386
NR
NR
<<
.00382
<<
.00389
NR
NR
NR
NR
NR
NR
NR
NR
<<
.00414
NR
NR
NR
NR
<<
.00395
NR
<<
.00414
NR
NR
NR
NR
NR
NR
NR
NR
NR
<<
.00102
NR
<<
.00101
NR
NR
<<
.00113
<<
.00115
NR
NR
NR
NR
NR
NR
NR
NR
<<
.00102
NR
NR
NR
NR
<<
,000991
NR
<<
.00102
NR
NR
NR
NR
NR
NR
NR
NR
NR
<<
.00000941
NR
<<
.00000877
NR
NR
<<
.00000914
<<
.00000931
NR
NR
NR
NR
NR
NR
NR
NR
<<
.00000941
NR
NR
NR
NR
<<
.00000898
NR
<<
.00000941
NR
NR
NR
NR
NR
NR
Concent
ration
Pollutant
ID1
Method
(
uncorl­
ected)
Unit
lbkr
lb/
MMBtu
1blHP­
hr
CSU­
2.16.2
Alternate
Method
171
NR
PPb
Maximum:
NR
NR
NR
.0105
.00138
.0000128
Average:
.00401
.000976
.00000848
1,3­
Dich\
oiropi­
opene
3.11
TO­
14
3.17
TO­
14
3.2
TO­
14
3.1
TO­
14
3.21
TO­
14
3.7
TO­
14
3.12
TO­
14
3.13
TO­
14
3.20
TO­
14
3.14
TO­
14
3.15
TO­
14
3.18
TO­
14
3.16
TO­
14
3.3
TO­
14
3.10
TO­
14
3.9
TO­
14
3.8
TO­
14
3.19
TO­
14
?,

<<
.0000228
<<
,0000126
<<
.0000472
<<
.0000368
<<
.0000128
<<
.0000298
<<
.0000232
<<
.0000238
<<
.0000128
<<
.0000265
<<
.0000255
<<
.0000127
<<
.0000127
<<
.0000474
<<
.0000238
<<
.000032
<<
.0000305
<<
.000013
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
<<
,000712
<<
.000293
<<
,000658
<<
.000621
<<
.000221
<<
.000731
<<
.000745
<<
.000764
<<
.000252
<<
.000683
<<
.000683
<<
.000301
<<
.000335
<<
.000707
<<
.000752
<
4
,000696
<<
.00072
<<
.000265
.000764
<<
.000000356
<<
.00000045
1
<<
.000000366
<<
.000000388
<<
.000000425
<<
.000000366
<<
.000000414
<<
.000000424
<<
.000000485
<<
.000000427
<<
.000000427
<<
.000000515
<<
,000000515
<<
.000000353
<<
.000000376
<<
.000000435
<<
.0000004
<<
.000000453
.0000474
.000000515
Average:
.000563
.0000248
.000000421
2,2,4­
Triimethylpentane
31.19~
FTIR
30
2
9
.
7
~
TO­
14
60
29.45~
TO­
14
20
PPb
PPb
PPb
.00306
.00516
.00167
.000192
.000496
.00011
.00000159
.00000418
.00000102
2
9
.
2
~
TO­
14
29.23~
TO­
14
31.8X
TO­
14
.00249
.000238
.00000273
20
PPb
.00244
.00019
.
OOOOO
146
4
10
PPb
.0281
.0028
.0000246
30
PPb
2­
35
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
lb/
hr
Ib/
MMBtu
lb/
HP­
hr
Concentration
31.16~
TO­
14
130
PPb
.00732
.000976
.0000103
3
1
.
3
~
TO­
14
100
PPb
31.11x
TO­
14
190
PPb
29.
lox
TO­
14
90
PPb
.0147
.000847
.0000075
29.39~
TO­
14
so
PPb
.00519
.000335
.00000295
.0115
.
OO
149
.0000139
.0124
.000769
.00000675
29.42~
TO­
14
70
PPb
.00433
.000306
.00000268
31.12x
TO­
14
,
60
PPb
.00351
.000457
.00000437
Maximum:
.0281
.0028
.0000246
Average:
.00787
.000708
.00000646
Acetaldehyde
29.41~
FTIR
2
9
.
9
~
FTIR
2
9
.
8
~
FTIR
29.45~
FTIR
29:
44x
FTIR
3
1.3x
FTIR
31.
sx
FTIR
2
9
.
3
~
FTIR
3
1
.
7
~
FTIR
2
9
.
4
~
FTIR
2
9
.
5
~
FTIR
3
1
.
6
~
FTIR
31.5X
FTIR
25.2
CARl3
430
31.4x
FTIR
29.46~
FTIR
31.2x
FTIR
29.26~
FTIR
29.7~
FTIR
29.51,;
FTIR
29.501;
FTIR
2530
1820
2460
5860
4030
2020
1700
880
1690
2400
3340
1930
4910
299
2340
5860
1260
3060
2460
5360
5860
.065
.0993
<<
,0802
<<
.189
.137
<<
.114
<<
.0449
<<
.0262
<<
.0449
<<
.0783
.
lo6
<<
.0514
<<
.
la5
<
.031
<<
.
E
5
<<
.197
<<
.0456
<<
.14
<<
.
OS17
<<
.184
<<
.202
.00408
.0062
1
<<
.00775
<<
.0125
.00848
<<
.0066
<<
.00447
<<
.00295
<<
.00433
<<
.0093
.0116
<<
.00497
<<
.0172
<
,000856
<<
.00862
<<
.0124
<<
.00269
<<
.0113
<<
.00787
<<
,0121
<<
.0123
,00003
57
.000054
1
<<
.0000649
<<
.000115
.000077
<<
.0000582
<<
.0000392
<<
.0000359
<<
,0000392
<<
.000104
.000126
<<
.0000449
<<
.000163
<
.00000885
<<
.0000813
<<
.000107
<<
.000046
<<
.0000786
<<
.0000662
<<
.000106
<<
.000115
2­
36
Fuel
Pollutant
IID
Method
(
uncorl­
ected)
Unit
lb/
hr
lb/
MMBtu
lb/
  P­
hr
Concent
ration
29.49~

29.48x
29.47~

2
9
.
6
~

29.21:~

27
29.12~

3.1
29.13~

3.11
3.2
29.23~

20.1
29.14~

29.1
l
x
29.202;

29.192:

29.182
29.15~

29.17~

3.16
3.17
29.16~

29.22~

29.28~

29.37~

29.
10x
29.36~

3.7
29.353;

29.34~

29.33~
FTIR
FTIR
FTIR
FTIR
FTIR
CARB
430
FTIR
CARB
430
FTIR
CARB
430
CARE3
430
FTIR
CARE3
430
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
CARB
430
CARE3
430
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
CARB
430
FTIR
FTIR
FTIR
5860
5860
5860
2460
1980
143
1380
2200
1380
.0667
s
10
1640
23.3
1710
2050
1980
1980
1980
1920
1980
.094
500
1950
3060
3590
3
720
1540
3720
.218
3
100
3
100
3
100
<<
.206
<<
.21
<<
.2
<<
.
OS57
<<
.176
.008
<<
.0657
.
lo8
<<
,0648
NR
,0422
.0771
<
.000225
.073
1
<<
.123
<<
.184
<<
.16
<<
.162
.
os3
<<
.178
NR
<<
.0116
.
OS71
<<
.145
<<
,0176
<<
.214
,0817
<<
.218
NR
<<
.159
<<
.184
<<
.
l85
<<
.0125
<<
.0128
<<
.0127
<<
.00855
<<
.00688
.000329
<<
.00461
.00646
<<
.00494
NR
.00303
.00603
<
.0000318
.00614
<<
,00764
<<
.00688
<<
.00677
<<
.00634
.00613
<<
.00644
NR
<<
.0005
.00654
<<
,0115
<<
.00355
<<
.00662
.00508
<<
.00762
NR
<<
.00571
<<
.00546
<<
.00555
<<
.000117
<<
.000125
<<
.000118
<<
,0000789
<<
.0000547
.00000228
<<
.0000365
.0000676
<<
.0000414
NR
.0000234
.0000461
<
.000000384
.0000472
<<
.0000804
<<
.0000578
<<
.0000519
<<
.0000487
.0000457
<<
.000053
NR
<<
.000017S
.0000~
09
<<
.000083
<<
.0000223
<<
.000052
.0000445
<<
.0000611
NR
<<
.0000435
<<
.0000434
<<
.0000449
Fuel
Pollutant
ID
Method
~
u
~
~
~
r
r
e
~
t
e
d
~
Unit
Iblhr
IblMlMBtu
IblKP­
hr
Concent
ration
29.3
l
x
25.4
29.29s
25.3
29.27ax
20.2
31.1s
29.25s
29.24~

25.1
3.3
29.38s
29.30ax
FTIR
CARB
430
FTIR
CARB
430
FTIR
CARB
430
FTIR
FTIR
FTIR
CARB
430
CARB
430
FTIR
FTIR
CSU­
1.2r7.2
FTIR
3
1.17s
FTIR
31.18x
FTIR
31.19s
FTIR
CSU­
1.13.1
FTIR
CSU­
1.1.1
FTIR
CSU­
1.6.2
FTIR
CSU­
1.4.1
FTIR
CSU­
1.1.2
FTIR
CSU­
1.4.2
FTIR
CSU­
1.6.1
FTIR
CSU­
1.8.1
FTIR
CSU­
1.5.2
FTIR
CSU­
1.101.1
FTIR
CSU­
1.101.2
FTIR
3.10
CARl3
430
CSU­
1.3.1
FTIR
7.8
CARB
430
CSU­
1.3.2
FTIR
3590
95.7
2650
16
3060
5
3030
3060
3060
50.7
1190
3720
3
590
650
2560
2
160
2210
650
650
650
650
650
650
650
650
650
650
650
.0533
650
5
100
650
<<
.0176
<
.00172
.00856
<<
.000253
<<
.138
<<
.0000676
<<
.125
<<
,127
<<
,139
.000308
.0664
<<
.214
<<
,0183
<<
.00814
<<
.0996
<<
.
OS36
<<
.
OS7
<<
.00851
<<
.00802
<<
.0078
<<
.00658
<<
,00848
<<
,00745
<<
.00725
<<
,0085
<<
.00924
<<
.0085S
<<
.00858
NR
<<
,00658
.0215
<<
.00793
<<
BO349
<
.000186
.00261
<<
.0000259
<<
.0115
<<
.00000961
<<
.0112
<<
.0115
<<
.0111
.0000516
.00448
<<
.0065
<<
.00349
<<
.00264
<<
.00564
<<
,00535
<<
.00547
<<
.00213
<<
.00213
<<
.002
<<
.00217
<<
.00216
<<
.0022
<<
.00205
<<
.00254
<<
.00236
<<
.00215
<<
.00215
NR
<<
.00279
,00714
<<
.00292
<<
.0000214
<
.00000164
.
OOOO
184
<<
.000000266
<<
.0000861
<<
.000000
1
15
<<
.000127
<<
.0000893
<<
.0000813
,000000526
.0000332
<<
.0000515
<<
.0000215
<<
.0000272
<<
.0000491
<<
.0000429
<<
.0000451
<<
.0000193
<<
.0000182
<<
.0000177
<<
.0000157
<<
.0000193
<<
.0000178
<<
.0000165
<<
.0000203
<<
.000021
<<
.0000195
<<
.0000195
NR
<<
.0000217
.000103
<<
.0000261
2­
38
Fuel
Concentration
Pollutant
ID
Method
(
uncorrected)
Unit
Ib/
hr
1bfMMBtu
Ib/
HP­
hr
CSU­
1.5.1
FTIR
7.5
CARB
430
7.7
CARE3
430
CSU­
1.11.1
FTIR
7.6
CARB
430
CSU­
1.2/
7.1
FTIR
31.15~
FTIR
31.12x
FTIR
31.11.
x
FTIR
7.12
CARB
430
3
1.9x
FTIR
7.13
CARB
430
31.16~
FTIR
31.13~
FTIR
CSU­
1..
8.2
FTIR
2
9
.
2
~
FTIR
CSU­
1.9.1
FTIR
29.
l
x
FTIR
3
1
.
1
4
~
FTIR
CSU­
1.9.2:
FTIR
CSU­
2.13,
l
FTIR
CSU­
2.9.2:
FTIR
CSU­
1.15.2
FTIR
CSU­
2.8.1.
FTIR
CSU­
2.6.1.
FTIR
CSU­
1.12.2
FTIR
CSU­
2.4.1.
FTIR
CSU­
2.9.1
FTIR
CSU­
2.13.2
FTIR
CSU­
2.
S.
2
FTIR
CSU­
2.11.1
FTIR
CSU­
2.5.11
FTIR
650
PPb
<<
.0086
1660
PPb
.00462
1330
PPb
.00561
<<
.00796
650
PPb
3750
PPb
.0104
650
PPb
<<
.00697
1910
PPb
<<
.0416
3
000
PPb
.0677
3600
PPb
<<
.
OS37
1510
PPb
.000721
13000
ppb
.25
1
2290
PPb
.057l
1850
PPb
<<
.0401
650
PPb
<<
.
oos19
4770
PPb
.0993
2200
PPb
.0705
650
PPb
<<
.0083
880
PPb
<<
.0257
5800
PPb
.125
650
PPb
<<
.
OOS43
1250
PPb
<<
.0163
775
PPb
<<
.
ooss
650
PPb
<<
,00878
1300
PPb
<<
.0126
1240
PPb
<<
.0134
650
PPb
<<
.00824
1220
PPb
<<
.0109
1250
PPb
<<
.0142
775
PPb
<<
.00951
815
PPb
<<
.0078S
1250
PPb
<<
.0137
1400
PPb
<<
.017S
<<
.00232
.00233
.
OO
153
<<
.00236
.00563
<<
.00264
<<
.
O0537
.00381
<<
.0109
.00207
.03
14
.00692
<<
.00535
,0126
<<
.00244
.00672
<<
.0021
<<
.00264
.
o
m
<<
.00213
<<
.00247
<<
.00143
<<
.00217
<<
.00258
<<
.00216
<<
.00244
<<
.00226
<<
.0023
<<
.00144
<<
.00162
<<
.00233
<<
.00278
<<
,0000195
.00006
.000027
<<
.000019
.000135
<<
.0000233
<<
.0000574
.0000342
<<
.000101
.00000347
.0003
.0000867
<<
.0000566
.000142
<<
.0000196
.0000774
<<
.0000189
<<
.00003
.
OOO
176
<<
.0000192
<<
.0000221
<<
.000012
<<
.00002
<<
.0000171
<<
.0000182
<<
.0000197
<<
.0000148
<<
.0000193
<<
.0000129
<<
.0000107
<<
.0000186
<<
.0000242
­
Puel
Concentration
Pollutant
ID
­
Method
(
uncorrected)
Unit
lbhr
lb/
MMBtu
Ib/
HP­
hr
CSU­
2.1
I
.2
FTIR
CSU­
2.10.2
FTIR
csu­
1.141..
2
FTIR
CSU­
2.12!.
2
FTIR
CSU­
2.12!.
1
FTIR
CSU­
2.1.1
FTIR
CSU­
2.1.2
FTIR
CSU­
1.16.1
FTIR
CSU­
2.10.1
FTIR
CSU­
2.5.2
FTIR
CSU­
2.4.2
FTIR
CSU­
l.
14k
1
FTIR
CSU­
1.15.1
FTIR
CSU­
2.7.2
FTIR
CSU­
2.3.2
FTIR
CSU­
2.15.1
FTIR
CSU­
2.2.2
FTIR
CSU­
1.16.2
FTIR
CSU­
1.1
I
.2
FTIR
CSU­
1.121.1
FTIR
CSU­
2.6.2
FTIR
CSU­
2.16.1
FTIR
CSU­
2.141.2
FTIR
CSU­
2.15.2
FTIR
CSU­
2.16.2
FTIR
CSU­
1.13.2
FTIR
CSU­
2.141.1
FTIR
csu­
2.3.1
FTIR
CSU­
2.7.1
FTIR
CSU­
2.2.1
FTIR
775
775
650
775
1250
1250
785
650
1250
so0
770
650
650
755
770
1250
770
650
650
650
775
1250
775
775
775
650
1250
1300
1350
1300
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
<<
.00849
<<
.00842
<<
.00806
<<
.00863
<<
.014
<<
.0143
<<
.
OOS97
<<
.00864
<<
.0137
<<
.0101
<<
.00689
<<
.00819
<<
.00878
<<
.00587
<<
.00533
<<
.0148
<<
.00646
<<
.00377
<<
.00325
<<
.00809
<<
.
oos33
<<
.0145
<<
.00876
<<
.00913
<<
,00899
<<
.0083S
<<
.014
<<
.009
<<
.0106
<<
.0109
<<
.00144
<<
.00143
<<
.0021
<<
.00145
<<
.00234
<<
.00233
<<
.00146
<<
.00213
<<
.00232
<<
.00158
<<
.00143
<<
.00213
<<
.00217
<<
.00132
<<
.00143
<<
.00235
<<
.00143
<<
.00217
<<
.00244
<<
.0024
<<
.00135
<<
.00233
<<
.00145
<<
.00144
<<
.00144
<<
.0021
<<
.00233
<<
.00242
<<
.00238
<<
,00242
<<
.0000115
<<
.0000114
<<
.0000183
<<
.0000117
<<
.000019
<<
.0000194
<<
.0000122
<<
.0000196
<<
.0000186
<<
.0000137
<<
.00000936
<<
.0000186
<<
,00002
<<
.0000114
<<
.0000103
<<
.0000201
<<
.0000125
<<
.0000199
<<
.0000197
<<
,0000194
<<
.0000113
<<
.0000197
<<
.0000119
<<
.0000124
<<
.0000122
<<
.000019
<<
.000019
<<
.0000175
<<
.0000206
<<
.0000212
2­
40
Fuel
Concentration
Pollutant
ID1
Method
(
uncorrected)
Unit
lbhr
Ib/
MMBtu
IblHP­
hr
Acrolein
20.2
CARB
430
CSU­
1.5.1
FTIR
29.14s
FTIR
29.26~
FTIR
29.
l
x
FTIR
29.27ax
FTIR
29.
lox
FTIR
CSU­
1.10.2
FTIR
29.19s
FTIR
3.7
CARB
430
7.7
CARl3
430
29.23~
FTIR
29.28~
FTIR
CSU­
1.4.:
2
FTIR
3.2
CARE3
430
29.29s
FTIR
29.30ax
FTIR
29.52s
FTIR
CSU­
1.6.1
FTIR
CSU­
1.9.2
FTIR
CSU­
1.8.1
FTIR
29.21s
FTIR
29.22~
FTIR
3.1
CARE3
430
25.4
CAFB
430
29.24~
FTIR
2
9
.
2
~
FTIR
29.1
l
x
FTIR
Maximum:
.251
,0314
.0w3
Average:

5
PPb
77
PPb
2000
PPb
1410
PPb
1520
PPb
1400
PPb
1920
PPb
475
PPb
1980
PPb
500
PPb
687
PPb
1870
PPb
6420
PPb
475
PPb
500
PPb
6420
PPb
3530
PPb
2400
PPb
475
PPb
475
PPb
475
PPb
1980
PPb
2320
PPb
500
PPb
24.8
PPb
.
Os83
<<
.000086
.0013
<<
.
lo9
.
OS23
<<
.0566
.
OS04
<<
.13
<<
.00798
<<
.204
<<
.0369
.00363
.112
<<
.04
<<
.00693
<<
.0332
<<
.0264
.0229
.0955
<<
.00675
<<
.00784
<<
.0079
<<
.224
<<
.14
<<
.0313
<
.000552
.00482
<<
.0000122
,0003
49
<<
.00914
.00659
<<
.00581
.00667
<<
.00806
<<
.002
<<
,00861
<<
.0015
,
oo
1
.00875
<<
.00808
<<
.00205
<<
.00238
<<
.00805
.00437
.00647
<<
.00191
<<
.00199
<<
.00236
<<
.00876
<<
.011
<<
.00185
<
.0000595
A000442
<<
.
OOOOOO
147
.00000295
<<
.0000704
,0000462
<<
.0000661
.0000502
<<
.0000708
<<
.0000181
<<
.0000662
<<
.0000184
,0000177
.0000669
<<
.0000507
<<
.0000166
<<
.0000184
<<
.0000567
.0000269
,0000597
<<
.0000153
<<
.0000178
<<
.0000189
<<
.0000696
<<
.0000802
<<
.0000196
<
.000000526
1640
PPb
.094&
.00758
.0000554
1520
PPb
<<
.062
<<
.00591
<<
.0000681
1920
PPb
<<
.147
<<
.0091
<<
.0000961
2­
41
Fuel
Concentration
Pollutant
ID8
Method
(
uncorrected)
Unit
lb/
hr
lb/
MMBtu
lb/
WP­
hr
29.13~
FTIR
29.12~
FTIR
29.25~
FTIR
CSU­
1.10.1
FTIR
25.2
CARB
430
29.20~
FTIR
CSU­
.
S.:
2
FTIR
3.3
CARB
430
CSU­
.5.:
2
FTIR
25.1
CARB
430
3.11
CARB
430
25.3
CARB
430
7.8
CARB
430
I
CSU­
1.6.2
FTIR
31.3x
FTIR
29.3
l
x
FTIR
29.46~
FTIR
29.33~
FTIR
29.47~
FTIR
29.48~
FTIR
CSU­
1.1.1
FTIR
29.49~
FTIR
29.50~
FTIR
29.51~
FTIR
31.1X
FTIR
2
9
.
7
~
FTIR
7.13
CARB
430
29.45~
FTIR
3.17
CARI3
430
CSU­
1.1.2
FTIR
3
1
.
4
~
FTIR
2
9
.
6
~
FTIR
2000
2000
2530
56
21.7
1980
475
500
475
3
75
500
12.6
2160
475
1340
4900
1610
1880
1860
1660
475
1830
23
10
2300
1940
2220
563
3
260
500
475
1200
2220
<<
.12
<<
.122
.133
.000941
<
.00314
<<
.234
<<
.00761
<<
.0356
<<
.00859
.0029
<<
.0359
<<
.000254
.0116
<<
.00725
<<
,0967
.0306
.0691
<<
.143
.
OS07
.0756
<<
.00746
.
OS42
.
lo1
.0918
<<
.
lo2
<<
.0937
.0178
<<
.134
<<
.0148
<<
.00789
<<
.
OS88
<<
.0982
<<
.00914
<<
.00853
.0121
.000235
<
.0000793
<<
.00876
<<
.00227
<<
..
00239
<<
.00219
,000487
<<
.00115
<<
.0000259
.00385
<<
.00186
<<
.00553
.00607
.00434
<<
.0043
.005
12
.00462
<<
.00198
.005
12
.00616
.00607
<<
.00908
<<
.00902
.00217
<<
.00884
<<
.000636
<<
.00201
<<
.00565
<<
.0098
<<
.0000766
<<
.
WOO673
.0000935
.00000214
<
.000000815
<<
.0000735
<<
.0000182
<<
.0000178
<<
.0000195
.00000497
<<
.000018
<<
.000000267
.0000558
<<
.0000165
<<
.0000493
.0000371
.0000376
<<
.0000347
.0000475
.000045
<<
.000017
.0000478
.0000574
.0000528
<<
.000104
<<
.0000759
.000027
<<
.0000817
<<
.0000228
<<
.0000179
<<
.0000535
<<
.0000904
2­
42
Fuel
Pollutant
ID'
Method
(
uncorrected)
Unit
Iblhr
IbNMBtu
lb/
FfP­
hr
Concentration
7.12
CARB
430
3
1.5x
FTIR
2
9
.
5
~
FTIR
29.161;
FTIR
3
1
.
6
~
FTIR
CSU­
1.13.1
FTIR
2
9
.
4
~
FTIR
29.31;
FTIR
31.71;
FTIR
3
1
.
8
~
FTIR
3
1
.
2
~
FTIR
29.37~
FTIR
7.6
CARB
430
CSU­
1.4.:
1
FTIR
CSU­
1.9.11
FTIR
29.34~
FTIR
20.1
CARE3
430
29.18~
FTIR
CSU­
1.3.2
FTIR
29.351;
FTIR
7.5
GARB
430
29.361;
FTIR
29.91;
FTIR
CSU­
1.3.11
FTIR
CSU­
1.217.2
FTIR
2
9
.
8
~
FTIR
29.151;
FTIR
CSU­
1.217.1
FTIR
29.44~
FTIR
CSU­
1.11.1
FTIR
29.171;
FTIR
29.38~
FTIR
240
1510
2550
2000
1600
475
2250
1520
1690
1510
2910
1860
833
475
475
1880
35
1980
475
1880
233
1860
1920
30
475
2220
2000
475
3260
30
1980
1860
­
000
146
<<
.0566
.
lo3
<<
.114
<<
.0542
<<
,00792
.0933
<<
.0577
<<
.0572
<<
.0508
<<
.134
<<
,137
.00295
<<
.00612
<<
.00772
<<
.143
<<
.000449
<<
.206
<<
.00737
<<
.124
<
.00124
<<
.139
<<
.133
,000387
<<
.00757
<<
.092
<<
.
ll
<<
.00648
<<
.142
.000468
<<
.227
<<
.137
.000419
<<
.00671
.0113
<<
.00853
<<
.00523
<<
.00198
.0111
<<
.00648
<<
.00551
<<
.00505
<<
.00791
<<
.00423
.00159
<<
.00202
<<
.00195
<<
.00424
<<
.0000638
<<
.00807
<<
.00272
<<
.00443
<
.000623
<<
,00487
<<
.00833
,000164
<<
.00245
<<
.00888
<<
,00813
<<
.00245
<<
.00875
.
ooo
13
s
<<
.0082
<<
.00415
.0000007
<<
.0000635
.000123
<<
.0000667
<<
.0000474
<<
.000018
.000124
<<
.0000792
<<
,00005
<<
.0000444
<<
.000135
<<
.0000333
.0000383
<<
.0000146
<<
.0000175
<<
.0000337
<<
.000000768
<<
.000062
<<
.0000243
<<
.0000339
<
.000016
<<
.0000389
<<
.0000724
.
OOOOO
127
<<
.0000253
<<
.0000745
<<
.0000605
<<
.0000217
<<
.0000798
.00000112
<<
.0000676
<<
.0000329
2­
43
Fuel
Pollutant
IH)
Method
(
uncorrected)
Unit
lb/
hr
lb/
MMBtu
lb/
HP­
hr
Concentration
29.41~
FTIR
CSU­
2.1
l.:
2
FTIR
CSU­
1.11.:
2
FTR
CSU­
1.14.:
2
FTIR
CSU­
2.9.1
FTIR
CSU­
2.15.
2
FTIR
CSU­
2.5.1
FTIR
CSU­
1.15.2
FTIR
CSU­
2.11.1
FTIR
CSU­
2.9.2
FTIR
CSU­
2.1.2
FTIR
CSU­
2.2.2
FTIR
CSU­
2.16.2
FTIR
CSU­
2.6.1
FTIR
CSU­
2.16.1
FTIR
CSU­
2.10.2
FTIR
CSU­
2.3.2
FTIR
CSU­
2.5.2
FTIR
CSU­
1.15.1
FTIR
CSU­
2.7.1
FTIR
CSU­
1.13.2
FTIR
CSU­
2.8.2
FTIR
CSU­
2.3.1
FTIR
CSU­
2.10
1
FTIR
CSU­
1.16
1
FTIR
CSU­
2.7.2
FTIR
CSU­
2.6.2!
FTIR
CSU­
2.12.1
FTIR
CSU­
1.12.1
FTIR
CSU­
2.14.2
FTIR
CSU­
2.8.11
FTIR
CSU­
2.1.11
FTIR
3440
2920
475
475
765
2920
780
475
765
2920
2920
2780
2920
so0
765
2920
2780
2820
66
8
10
475
2780
775
765
475
2880
3020
765
76
2920
725
775
<<
.113
<<
.0408
<<
.00768
<<
.0075
<<
.011
<<
.0439
<<
.0126
<<
.00816
<<
.0107
<<
.0423
<<
.0424
<<
.0296
<<
.0432
<<
.011
<<
.0113
<<
.0405
<<
.0244
<<
.0455
.00113
<<
.00809
<<
.00779
<<
.0342
<<
.00683
<<
.0106
<<
.00803
<<
.0285
<<
.0414
<<
.0109
.0012
<<
.0421
<<
.00892
<<
.0113
<<
.00706
<<
.00691
<<
.00227
<<
.00195
<<
.00179
<<
.00694
<<
.00197
<<
.00202
<<
.00181
<<
.00686
<<
.0069
<<
.00658
<<
.00693
<<
.00178
<<
.00181
<<
.00687
<<
.00658
<<
.0071
.00028
<<
.00182
<<
.00195
<<
.00701
<<
.00184
<<
.00181
<<
.00199
<<
.00639
<<
.00669
<<
.00183
.000357
<<
.00698
<<
.00183
<<
.00183
<<
.0000621
<<
.0000554
<<
.0000184
<<
.000017
<<
.0000149
<<
.0000596
<
C
.0000171
<<
.0000185
<<
.0000145
<<
.0000575
<<
.0000576
<<
.0000575
<<
.0000587
<<
.0000149
<<
.0000154
<<
.000055
<<
.0000474
<<
.0000618
.00000257
<<
.0000157
<<
.0000177
<<
.0000465
<<
.0000133
<<
.0000144
<<
.0000183
<<
.0000553
<<
.0000562
<<
.0000148
.00000287
<<
.0000572
<<
.0000121
<<
.0000154
2­
44
Fuel
Pollutant
ID)
Method
(
uncorl­
ected)
Unit
lb/
hr
1bJMMBtu
lb/
HP­
hr
Concent
ration
CSU­
2.2.1
FTIR
CSU­
2.122
FTIR
CSU­
2.4.2
FTIR
CSU­
1.141.1
FTIR
CSU­
2.13.1
FTIR
CSU­
1.12.2
FTIR
CSU­
2.141.1
FTIR
CSU­
2.13.2
FTIR
CSU­
2.4.1
FTIR
CSU­
2.13.1
FTIR
CSU­
1.16.2
FTIR
775
2920
2580
475
765
475
765
2920
750
765
475
Benzene
CSU­
1.9.:
2
Alternate
Method
17/
10
3.17
TO­
14
17.3
CSU­
1.10.1
Alternate
Method
17/
80
11.3
CARB
410A
157
CSU­
1.9.1
Alternate
Method
17/
SO
11.1
CARl3
410A
32.7
11.2
CARE3
410A
51.7
3.16
TO­
14
140
CSU­
1.1
I
.
1
Alternate
Method
171
10
3.12
TO­
14
193
3.13
TO­
14
56
3.14
TO­
14
243
CSU­
1.10.2
Alternate
Method
17/
10
3.15
TO­
14
92.3
29.45~
TO­
14
50
29.33~
TO­
14
9
CSU­
1.3.2
Alternate
Method
171
10
<<
.00826
<<
.0414
<<
.0327
<<
.00761
<<
.0127
<<
.00766
<<
.0109
<<
.0457
<<
.00854
<<
.0116
<<
.
OOS16
.234
.053
.00023
.000713
.00187
,0167
.00181
.000351
.000348
,0066
.0002
17
.0202
.0060
1
.0233
.000234
.00386
.00286
.000954
.000216
<<
.00184
<<
.00695
<<
.0068
<<
.00198
<<
.00192
<<
.00227
<<
,00181
<<
,00693
<<
.00177
<<
.00133
<<
.00202
.0121
.00452
.0000582
.0000307
,000468
.00135
.000459
.0000933
.000118
.00025
.0000643
.00063
.000188
.000906
.00005
85
.00033
.000189
.0000286
.0000797
<<
.000016
<<
.0000562
<<
.0000444
<<
.0000173
<<
.0000173
<<
.00001s3
<<
.0000148
<<
.0000621
<<
.0000116
<<
.0000158
<<
.00001S5
.000135
.0000398
.000000523
.
ooooo
11
.00000425
.000038
1
,00000411
.000000195
.000000792
.
oooo
102
.0000005
19
.0000112
.00000334
.0000146
.000000532
.00000554
.
OOOOO
174
.000000232
.000000711
2­
45
Fuel
Concentration
Pollutant
ID
Method
(
uncoi­
rected)
Unit
lb/
hr
lb/
MMBtu
IbBIP­
hr
29.37~
TO­
14
30
CSU­
1.3.1
Alternate
Method
171
50
29.39~
TO­
14
120
CSU­
1.217.2
Alternate
Method
171
20
20.2
CARB
410
63.3
CSU­
1.217.1
Alternate
Method
171
70
31.8x
TO­
14
220
CSU­
l.
1.:
2
Alternate
Method
171
10
CSU­
1.1.1
Alternate
Method
171
50
31.19x
FTIR
300
31.16~
TO­
14
520
3
1
.
3
~
TO­
14
90
31.12~
TO­
14
5
10
31.11x
TO­
14
930
29.42~
TO­
14
120
25.3
CARB
410A
61
29.23~
TO­
14
50
3.11
TO­
14
47
3.1
TO­
14
14.7
CSU­
1.8.1
Alternate
Method
171
60
27
CAEU3
4lOA
42
26
CARB
410A
1.87
CSU­
1.6.2
Alternate
Method
17/
13
CSU­
1.4.1
Alternate
Method
171
10
CSU­
1.6.1
Alternate
Method
171
90
20.1
CARB
410
400
3.8
TO­
14
127
25.2
CARB
410A
30.7
CSU­
1.5.:
2
Alternate
Method
171
10
25.1
CARB
410A
119
CSU­
1.5.1
Alternate
Method
17/
70
CSU­
1.4.12
Alternate
Method
17/
20
.00307
.000898
.00532
.000444
.00144
.00133
.
o
103
.00023
1
.
OO
109
.0209
.02
.00905
.0204
.0384
.00566
.00171
.00417
.0047
,00128
.00139
.00417
.00002
19
.000277
.000179
.00178
.00714
.0128
.00619
.000252
.0012s
.00164
.000406
.0000947
.000381
.000343
.000144
.000203
.000503
.00103
.0000588
.00029
1
.00132
.00267
.000522
.00266
.00499
.000359
.000175
.000326
.000151
.0000759
.000415
.000174
.00000367
.0000708
.0000591
.000503
.00101
.000543
.000157
.0000643
.000214
.000442
.00012
.000000746
.00000296
.00000302
.
OOOOO
148
.00000246
.00000445
.000009
.000000525
.0000024S
.0000108
.0000282
.00000462
.0000254
.0000464
.000003
14
.0000018
.00000249
.00000235
.000000802
.000003
33
.00000119
.000000027
.00000063
.000000428
.00000405
.0000122
.00000713
.00000161
.000000573
.0000021~

.00000373
.000000971
2­
16
Fuel
Pollutant
ID
Method
(
unco,­
rected)
Unit
lbhr
lb/
MMBtu
Ib/
HP­
hr
Concent
ration
CSU­
1.8.2
Alternate
Method
17/
10
25.4
3.21
7.2
3.10
7.3
3.3
7.4
7.6
3.18
7.7
7.5
7.8
3.2
2
9
.
2
~

7.10
3.20
3.19
2
9
.
7
~

7.12
7.1
3.9
7.11
4
7.13
7.14
3.7
29.
lox
CARE%
4
10A
360
TO­
14
17
CARB
410A
960
TO­
14
140
CARE%
410A
4
15
TO­
14
18.7
CARB
410A
6150
CARB
410A
3
15
TO­
14
181
CARB
410A
630
CARB
410A
425
CARE%
410A
550
TO­
14
14.2
TO­
14
2
10
CARB
410A
580
TO­
14
2
13
TO­
14
53.9
TO­
14
so
CARB
410A
525
CARB
410A
995
TO­
14
290
CARB
410A
560
EPA
Level
1
Protocol
282
CARB
410A
830
CARB
410A
2400
TO­
14
95.7
TO­
14
150
CSU­
2.1.1
Alternate
Method
17/
NR
CSU­
1.13.2
Alternate
Method
17/
10
CSU­
2.2.'
2
Alternate
Method
17/
NR
CSU­
1.15.2
Alternate
Method
17/
20
<<
,000223
.0111
.000528
.00452
.0148
.00306
.00185
.029
.00156
.00768
.0047
.00209
.004
1
<
.00131
,0119
,00286
.00755
<
.00201
.0047
.000444
.00468
.0284
.00276
.0107
.0366
.0177
.00984
.0141
NR
.000223
NR
.000479
<<
.0000666
.00121
.0000306
.00216
.000469
.000942
.000124
.011
.
000
83
7
.000325
,00128
.00106
.00136
.0000942
.
OO
114
.
oo
155
.000383
<
.0000989
.000453
.00128
.00209
.0013
.00112
,000953
.00445
.0132
.00040
1
.000877
N
R
.

.0000573
NR
.000118
<<
.000000533
.0000106
.
ooooo
102
,0000754
.0000074
.0000192
,000000927
,000536
.0000202
.
oooo
13
1
.0000226
.0000272
.0000
197
<
.000000727
.000013
1
.0000387
.0000145
<
.00000344
.0000038
1
.00000213
.0000781
,0000177
.0000373
.00000629
.0000555
.000118
.00000492
.00000768
NR
.000000518
NR
.00000109
2­
47
­
Fuel
Pollutant
ID1
Method
(
uncorrected)
Unit
lb/
hr
Ib/
MMBtu
Ib/
HP­
hr
Concent
ration
CSU­
2.9.1
Alternate
Method
171
NR
CSU­
1.16.2
Alternate
Method
171
20
CSU­
2.10.1
Alternate
Method
171
NR
CSU­
2.13;.
1
Alternate
Method
171
NR
CSU­
1.12!.
2
Alternate
Method
171
20
CSU­
2.6.2
Alternate
Method
171
NR
CSU­
2.5.2
Alternate
Method
171
NR
CSU­
2.8..
2
Alternate
Method
171
NR
CSU­
1.15.1
Alternate
Method
171
SO
CSU­
2.13.2
Alternate
Method
171
NR
CSU­
2.3.1
Alternate
Method
171
NR
CSU­
1.12.1
Alternate
Method
171
90
CSU­
2.161.2
Alternate
Method
171
NR
CSU­
2.9.2
Alternate
Method
171
NR
CSU­
2.4.1
Alternate
Method
17/
NR
CSU­
2.7.2
Alternate
Method
171
NR
CSU­
2.15.1
Alternate
Method
171
NR
CSU­
2.8.1
Alternate
Method
171
NR
CSU­
2.6.1
Alternate
Method
171
NR
CSU­
1.11.2
Alternate
Method
171
20
CSU­
2.11.2
Alternate
Method
171
NR
CSU­
2.1.2
Alternate
Method
171
NR
CSU­
2.161.1
Alternate
Method
171
NR
CSU­
2.12.1
Alternate
Method
171
NR
CSU­
l.
l61.1
Alternate
Method
171
90
CSU­
1.14.1
Alternate
Method
171
60
CSU­
2.14.1
Alternate
Method
171
NR
CSU­
2.12.2
Alternate
Method
171
NR
CSU­
1.13.1
Alternate
Method
171
SO
CSU­
2.11.1
Alternate
Method
171
NR
CSU­
2.15.2
Alternate
Method
171
NR
CSU­
1.14.2
Alternate
Method
171
10
NR
.000479
NR
NR
.000449
NR
NR
NR
.00192
NR
NR
.00199
NR
NR
NR
NR
NR
NR
NR
.00045
NR
NR
NR
.00212
.00134
NR
NR
.001S6
NR
NR
.00022
NR
.000118
NR
NR
.000133
NR
NR
NR
.000473
NR
NR
.000539
NR
NR
NR
NR
NR
NR
m
.
ooo
13
3
NR
NR
NR
NR
.000524
.000349
NR
NR
.000465
NR
NR
,0000573
NR
.00000109
NR
NR
.
OOOOO
107
NR
NR
NR
.00000436
NR
NR
.00000476
NR
NR
NR
NR
NR
NR
NR
,0000010s
NR
NR
NR
NR
.00000432
.00000305
NR
NR
.00000423
NR
NR
,0000005
2­
48
~~

Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
lblhr
Ib/
MMBtu
IbmP­
hr
Concentration
CSU­
2.14.2
Alternate
Method
17/
NR
CSU­
2.2.1
Alternate
Method
17/
NR
CSU­
2.5.1
Alternate
Method
17/
NR
CSU­
2.7.1
Alternate
Method
171
NR
CSU­
2.3.2
Alternate
Method
17/
NR
CSU­
2.4.2
Alternate
Method
17/
NR
CSU­
2.10.2
Alternate
Method
17/
NR
Carbon
Tetrachloride
3.21
TO­
14
3.13
TO­
14
3.18
TO­
14
3.12
TO­
14
3.15
TO­
14
3.2
TO­
14
3.11
TO­
14
3.10
TO­
14
3.16
TO­
14
3.1
TO­
14
3.20
TO­
14
3.9
TO­
14
3.14
TO­
14
3.17
TO­
14
3.8
TO­
14
3.3
TO­
14
3.19
TO­
14
3.7
TO­
14
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
PPb
PPb
PPb
PPb
PPb
PPb
PPb
Maximum:

Average:

PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
Maximum:

Average:
NR
NR
NR
NR
NR
NR
NR
,0384
.00604
<<
.000307
<<
.00106
<<
,000418
<<
.00103
<<
.000948
<<
.000912
<<
.000987
<<
.00104
<<
.000465
<<
.000861
<<
.000349
<<
.000966
<<
,000947
<<
.000406
<<
.000999
<<
.000981
<<
.000368
<<
.00101
.00106
.000781
NR
NR
NR
NR
NR
NR
NR
.0132
NR
NR
NR
NR
NR
NR
NR
.000536
.000894
.0000167
<<
.0000177
'
I
<<
.00000059
<<
.0000331
<<
.0000177
<<
.0000322
<<
.0000353
<<
.0000655
<<
.0000316
<<
.0000331
<<
.0000177
<<
.0000~
1
<<
.0000177
<<
.0000444
<<
.0000367
<<
.0000175
<<
.0000423
<<
.0000657
<<
.0000181
<<
.0000413
.0000657
.0000344
<<
.000000589
<<
.000000715
<<
.000000572
<<
.000000592
<<
.000000507
<<
.000000494
<<
.00000052
<<
.000000715
<<
.000000538
<<
.00000067
1
<<
.000000604
.:<

.000000592
<<
.000000625
<<
.000000555
<<
.00000049
<<
.000000629
<<
.000000505
.000000715
.000000584
Chlorobenzene
2­
49
­
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
1bJhr
IblMMBtu
lb/
HP­
hr
Concentration
4
3.9
3.13
3.19
3.12
3.11
3.2
3.21
3.14
3
.
S
3.3
3.7
3.1
3.16
3.17
3.15
3.20
3.10
3.18
EPA
Level
1
Protocol
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
13
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
Chloi­
oethane
4
EPA
Level
1
Protocol
.67
Chloroform
3.8
3.13
3.10
3.17
3.11
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
.0007
1
<<
.000706
<<
.000774
<<
.000269
<<
.000755
<<
.000721
<<
.000667
<<
.000224
<<
.000692
<<
.00073
<<
.000716
<<
.000741
<<
.000629
<<
.00034
<<
.000297
<<
.000693
<<
.000255
<<
.000762
<<
.000305
.000774
.0000634
<<
.0000324
<<
.0000242
<<
,0000132
<<
.0000235
<<
.0000231
<<
.0000478
<<
.000013
<<
.0000268
<<
.0000309
<<
.000048
<<
.0000302
<<
.0000373
<<
.0000129
<<
.0000128
<<
.0000258
<<
.000013
<<
.0000242
<<
.0000129
.0000634
.000000418
<<
.000000441
<<
.00000043
<<
.00000046
<<
.0000004
19
<<
.00000036
<<
.000000371
<<
.00000043
1
<<
.000000432
<<
.000000406
<<
.00000035s
<<
.00000037
<<
.000000393
<<
.000000523
<<
.000000457
<<
.000000433
<<
.00000049
<<
.000000381
<<
.000000521
.000000523
Average:
.000578
.0000271
.000000426
PPb
.000021
.
OOOOO
187
.000000012
Maximum:
.000021
.00000187
.0000000124
Average:
.000021
.00000187
.0000000124
5
PPb
<<
.000775
<<
.0000328
<<
.000000431
5
PPb
<<
.000823
<<
.0000257
<<
.000000457
5
PPb
<<
.00081
<<
.0000257
<<
.000000405
5
PPb
<<
.000315
<<
.0000136
<<
,000000485
5
PPb
<<
.000766
<<
.0000245
<<
.000000383
2­
50
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Concentration
lblhr
lblMMBtu
lb/
HP­
hr
3.16
3.15
3.21
3.12
3.1
3.9
3.2
3.20
3.3
3.7
3.13
3.19
3.14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
5
5
5
5
5
5
5
5
5
5
5
5
5
Eth
ylbenzeine
29.42~
TO­
14
10
CSU­
R.
l.
1
AlternateMethod
171
10
CSU­
1.5.1
Alternate
Method
17/
10
31.11x
TO­
14
50
3.2
TO­
14
5
3.13
TO­
14
9.33
31.12~
TO­
14
30
CSU­
1.5.1!
Alternate
Method
17/
10
3.1
TO­
14
5
CSU­
l.
2L7.1
Alternate
Method
17/
10
29.45~
TO­
14
4
CSU­
1.6.11
Alternate
Method
17/
10
3.16
TO­
14
5
CSU­
1.1
.;!
Alternate
Method
17/
10
31.
sx
TO­
14
30
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
Maximum:

Average:

PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
<<
.000361
<<
.000736
<<
.000238
<<
.000802
<<
,000668
<<
.000749
<<
.000708
<<
.000271
<<
.000761
<<
,000787
<<
.000324
<<
.000285
<<
.000735
.000823
.000606
.00064
1
<<
.000297
<<
.000319
.0028
<<
.000628
<
.000539
.00163
<<
.000343
<<
.000593
<<
.000253
.0003
1
<<
.000269
<<
.00032
<<
.000314
.00191
<<
.0000137
<<
,0000274
<<
.0000138
<<
.000025
<<
.0000396
<<
.0000344
<<
.0000508
<<
.0000138
<<
.000051
<<
.0000321
<<
.0000137
<<
,000014
<<
.0000285
.000051
.0000267
.0000407
<<
.0000791
<<
.0000859
.000365
<<
.0000451
<
.0000227
.000212
<<
.0000874
<<
.0000352
<<
.0000977
.0000205
<<
.0000759
<<
.0000122
<<
.0000799
.00019
<<
.000000555
<<
.00000046
<<
.000000458
<<
.000000446
<<
.000000418
<
i
.000000468
<<
.000000393
<<
.000000521
<<
.00000038
<<
,000000394
<<
.000000554
<<
.000000487
<<
.000000459
.000000555
.000000453
.000000356
.<<
.000000675
<<
.000000725
.000003
3
3
<<
.000000349
<
.000000921
.00000203
<<
.00000078
<<
.00000037
<<
.
OOOOOOS62
.000000189
<<
.000000611
<<
.000000492
<<
.000000714
.
OOOOO
167
2­
51
Fuel
Concentration
Pollutant
ID
Method
(
uncorrected)
Unit
lblhr
lb/
MMBtu
Ib/
HP­
hr
CSU­
1.2/
7.2
Alternate
Method
171
3.14
TO­
14
25.2
CARB
410A
CSU­
1.11.1
AlternateMethod
17/

3.7
TO­
14
CSU­
1.3.2
Alternate
Method
17/

11.3
CARB
410A
31.16~
TO­
14
11.1
CARB
410A
3
.
s
TO­
14
25.1
CARB
410A
3.10
TO­
14
CSU­
1.4.1
Alternate
Method
17/

25.4
CARB
410A
11.2
CARE
410A
29.10s
TO­
14
CSU­
1.4.2
Alternate
Method
171
29.39~
TO­
14
CSU­
1.3.1
Alternate
Method
17/

3.3
TO­
14
3.21
TO­
14
3.19
TO­
14
CSU­
1.9.:!
Alternate
Method
17/

CSU­
1.10.1
Alternate
Method
171
25.3
CARB
410A
3.20
TO­
14
3.9
TO­
14
29.2~
TO­
14
4
EPA
Level
1
Protocol
3
1
.
3
~
TO­
14
3.13
TO­
14
CSU­
1.10.2
Alternate
Method
17/
10
11.1
10.7
10
5
10
2.5
20
2.5
5.63
3.33
7.
s
10
11.3
2.5
7
10
10
10
5
5
5
10
10
9
6.37
14.7
6
5
20
5
10
<<
.000302
.00145
,00292
<<
.000295
<<
.00069S
<<
.000294
<<
.000363
.00105
<<
.0000366
.000775
.00004SS
.00112
<<
.000244
,000477
<<
.0000229
.000894
<<
.000276
.000603
<<
.000244
<<
.000675
<<
.000211
<<
.000253
<<
,000312
<<
.00031s
.000343
<
.000306
.00195
.000463
.000257
.00273
<<
.00073
<<
.00031S
<<
.0000977
.0000563
.0000742
<<
.0000873
<<
.0000284
<<
.000108
<<
.0000292
.00014
<<
,0000102
.000032S
.00000s1s
.0000355
<<
.0000803
.0000515
<<
.00000772
.0000556
<<
.0000816
.0000389
<<
.000103
<<
.0000452
<<
.0000122
<<
.0000125
<<
.0000791
<<
.0000795
.000035
1
<
.0000155
.
OOOOS96
.0000442
.000023
.00015s
<<
.000022s
<<
.0000795
<<
.00000101
.000000908
.00000076
<<
.000000706
<<
.000000349
<<
.000000968
<<
.000000825
.0000014S
<<
.000000020
.00000043
1
.
OOOOOOOS3
.00000056
<<
.000000534
.000000454
<<
.000000052
.000000487
<<
.00000066
.000000343
<<
.
OOOOOOS04
<<
.000000337
<<
.000000406
<<
.000000432
<<
.000000709
<<
.000000723
.000000361
<
.000000538
.00000122
.000000508
,000000
15
1.

.00000139
<<
.000000406
<<
.000000723
2­
52
Concentration
Pollutant
ID,
Method
(
uncoi­
pded)
Unit
lb/
hr
Ib/
MMBtu
IbIHP­
hr
CSU­
1.6.2
Alternate
Method
171
10
CSU­
13.1
Alternate
Method
171
10
3.11
TO­
14
5
3.12
TO­
14
10.5
2
9
.
7
~
TO­
14
4
3.17
TO­
14
5
CSU­
l.
S.
2
Alternate
Method
17/
10
3.15
TO­
14
5
CSU­
1.9.1
Alternate
Method
171
10
CSU­
2.6.1
Alternate
Method
171
NR
CSU­
2.7.2
Alternate
Method
171
NR
CSU­
1.16.1
Alternate
Method
171
10
CSU­
1.15.2
Alternate
Method
171
10
CSU­
2.8.2
Alternate
Method
171
NR
CSU­
2.
S.
1
Alteniate
Method
171
NR
CSU­
2.7.1
Alternate
Method
17/
NR
CSU­
1.161.2
Alternate
Method
171
10
CSU­
2.15.1
Alternate
Method
171
NR
CSU­
2.2.1
Alternate
Method
171
NR
CSU­
2.1.1
Alternate
Method
17/
NR
CSU­
2.13.1
Alternate
Method
17/
NR
CSU­
1.12.1
Alternate
Method
171
10
CSU­
2.14.1
Alternate
Method
171
NR
CSU­
2.32
Alternate
Method
171
NR
CSU­
2.14.2
Alternate
Method
17/
NR
CSU­
1.12.2
Alternate
Method
17/
10
CSU­
2.11.1
AlternateMethod
171
NR
CSU­
2.4.1
Alternate
Method
17/
NR
CSU­
2.15.2
Alternate
Method
171
NR
CSU­
1.13.2
Alternate
Method
171
10
CSU­
2.3.1
Alternate
Method
171
NR
CSU­
2.16.1
Alternate
Method
17/
NR
PPb
<<
.000289
PPb
<<
.000315
PPb
<<
.000679
PPb
,00149
PPb
.00032
PPb
<<
.00028
PPb
<<
.000303
PPb
<<
,000653
PPb
<<
.00030S
PPb
NR
PPb
NR
PPb
<<
.00032
PPb
NR
PPb
NR
PPb
NR
PPb
NR
PPb
NR
PPb
NR
PPb
NR
PPb
<<
.0003
PPb
NR
PPb
NR
PPb
NR
PPb
<<
.000305
PPb
NR
PPb
NR
PPb
NR
PPb
NR
PPb
NR
PPb
<<
.000325
PPb
<<
.000325
PPb
<<
.000311
<<
.000074
<<
.000094
<<
.000021s
.0000465
.000030s
<<
.000012
<<
.0000906
<<
.0000243
<<
,0000779
NR
NR
<<
.0000791
<<
.
OOOOS04
NR
NR
NR
<<
.
OOOOS04
NR
NR
NR
NR
<<
.0000889
NR
NR
NR
<<
.0000905
NR
NR
NR
<<
.0000778
NR
NR
<<
.000000657
<<
.000000754
<<
.00000034
.00000083
1
.000000259
<<
,00000043
1
<<
.000000725
<<
.00000040S
<<
.0000007
NR
NR
<<
.000000727
<<
.000000739
NR
NR
NR
<<
.000000739
NR
NR
NR
NR
<<
.00000071S
NR
NR
NR
<<
.00000073
NR
NR
NR
<<
.000000707
NR
NR
2­
53
Concentration
Pollutant
ID
Method
(
uncorrected)
Unit
lblhr
lb/
MMBtu
lb/
HP­
hr
CSU­
2.6.2
Alternate
Method
171
NR
CSU­
2.16.:
2
Alternate
Method
171
NR
CSU­
1.11.:
2
Alternate
Method
17/
10
CSU­
1.13.1
Alternate
Method
171
10
CSU­
2.2.2
Alternate
Method
171
NR
CSU­
1.14.2
Alternate
Method
1$
7/
10
CSU­
2.5.2
Alternate
Method
17/
NR
CSU­
2.9.1
Alternate
Method
17f
NR
CSU­
2.9.2
Alternate
Method
171
NR
CSU­
1.15.1
Alternate
Method
171
10
CSU­
2.10.1
Alternate
Method
171
NR
CSU­
2.5.1
Alternate
Method
171
NR
CSU­
2.13.2
Alternate
Method
17/
NR
CSU­
2.10.2
Alternate
Method
17/
NR
CSU­
2.11.2
Alternate
Method
17/
NR
CSU­
2.12.2
Alternate
Method
171
NR
CSU­
2.12.1
Alternate
Method
171
NR
CSU­
2.4.2
Alternate
Method
171
NR
CSU­
2.1.2
Alternate
Method
17/
NR
CSU­
I.
14.1
Alternate
Method
17/
10
Ethylene
D.
ibromide
3.12
3.8
3.18
3.7
3.3
3.21
3.16
3.1
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
Average:
NR
NR
<<
.000306
<<
.000315
NR
<<
.000299
NR
NR
NR
<<
.000325
NR
NR
NR
NR
NR
NR
NR
NR
NR
<<
.000303
,00292
­
0006
.
PPb
<<
.00125
PPb
<<
.00121
PPb
PPb
<<
.000505
<<
.00122
PPb
<<
.00118
PPb
<<
.000371
PPb
<<
.000562
PPb
<<
.00104
NR
NR
<<
.0000905
<<
.0000791
NR
<<
.0000778
NR
NR
NR
<<
.0000804
NR
NR
NR
NR
NR
NR
NR
NR
NR
<<
.0000791
.000365
.0000694
<<
.0000389
<<
.0000511
<<
.0000213
<<
.0000499
<<
.0000794
<<
.0000214
<<
.0000213
<<
.0000616
NR
NR
<<
.000000732
<<
.000000716
NR
<<
.00000068
NR
NR
NR
<<
.000000739
NR
NR
NR
NR
NR
NR
NR
NR
NR
<<
.000000689
.00000338
.
0
0
0
0
0
0
6
9
5
<<
.000000694
<<
.000000672
<<
.000000863
<<
.00000061
<<
.000000592
<<
.000000713
<<
.000000865
<<
.00000065
2­
54
Rue1
Pollutant
ID
Method
(
uncorl­
ected)
Unit
lblhr
lb/
MMBtu
Ib/
RP­
hr
Concent
ration
3.14
3.11
3.15
3.10
3.9
3.13
3.17
3.2
3.19
3.20
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
Formaldehyde
2
9
.
6
~

3
1
.
6
~

3
1
.
1
~

29.34s
31.18x
29.3%

31.19x
29.3
Oax
29.23.1:

7.2
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
CARB
430
CSU­
1.1.5!
FTIR
29.29~
FTIR
3
1
.
4
~
FTIR
29.31~
FTIR
2
9
.
7
~
FTIR
29.33~
FTIR
3
1
.
3
~
FTIR
29.
lox
FTIR
5
PPb
5
PPb
5
PPb
5
PPb
5
PPb
5
PPb
5
PPb
5
PPb
5
PPb
5
PPb
Maximum:

Average:

18800
15300
27100
31100
52000
35300
53400
730
22900
85300
9480
24300
11700
730
17800
625
12100
18300
<<
.00114
<<
.00119
<<
.00115
<<
.00126
<<
.00117
<<
.00128
<<
.000491
<<
.0011
<<
.000444
<<
.000422
.00128
.000944
,446
.277
.765
1.26
1.37
1.24
1.43
<<
.00254
,0765
I
.154
.
OS44
,0535
.463
<<
.00245
,402
<<
.0255
.469
.662
<<
.0000444
<<
.0000382
<<
.0000426
<<
.0000399
<<
,0000536
<<
.0000399
<<
.0000211
<<
,0000791
<<
.000000712
<<
.000000595
<<
.000000719
<<
.00000063
<<
.00000073
1
<<
.0000007
1
1
.<<
.000000755
<<
.0000006
11
<<
.0000219
<<
.000000759
<<
.0000214
<<
.000000812
.0000794
.000000865
.0000415
.000000705
,0445
.0267
.0681
.0374
.
,0877
.0444
.09
<<
.000484
.
Ol54
.074
.0214
.0163
.0294
<<
.000484
.03ss
<<
.000765
,027
.0412
.00041
.000242
.000776
.000297
.000703
.000339
.000742
<<
.00000298
.000097
.00257
.000192
.000115
.000279
<<
.00000297
.000326
<<
.0000062
.000239
.000361
2­
55
Fuel
Concent
ration
Pollutant
ID1
Method
(
uncorrected)
Unit
lblhr
lblMMBtu
Ib/
HP­
hr
11.2
CARE3
430
4530
PPb
.
o
118
.00396
.0000267
7.14
CARB
430
'
34100
ppb
.0969
.0724
.000646
31.5x
FTIR
16000
ppb
222
.0381
.00036
I
CSU­
1.1.1
FTIR
17800
ppb
.
l
5
.0399
.000341
3.17
29.471;

7.12
31.13~

31.81;

31.12~

29.481;

7.1
31.71;

11.3
29.491;

7.11
29.451;

31.11~

3
1
.
9
~

29.46~

29.81;

29.161;
CARE3
430
FTIR
CARF3
430
FTIR
FTIR
FTIR
FTIR
CARE3
430
FTIR
CARE3
430
FTIR
CARE3
430
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
CSU­
1.13.1
FTIR
31.16~
FTIR
29.171;
FTIR
29.361;
FTIR
2
9
.
5
~
FTIR
31.17~
FTIR
29.511;
FTIR
29.371;
FTIR
29.441;
FTIR
29.41~
FTIR
700
49400
19900
36200
12700
39500
48200
22200
13500
4620
43
100
34700
45800
50800
52800
4
1400
18000
15400
19400
32800
29800
33000
26600
10s000
44300
33100
33400
10000
.0111
1.15
.00648
314
.229
.607
1.18
.0402
,244
.19
1.03
.0658
1.01
.
so5
.696
.952
.4
.469
.173
.4S6
1.82
1.32
.573
2.
S7
.947
1.3
.775
.175
.000477
.0728
.0186
.065
.0228
.0791
.0718
.0179
.0235
.
OM3
.0629
.0267
.0664
.
lo5
.
OS69
.059S
.0386
.0352
.0434
.0648
.0659
.0461
.063
1
.163
.0626
.0402
.0479
.
o
11
.0000171
.000676
.00003
12
.000734
.0002
.000755
.000702
.00067
1
.0002
13
.000432
.000585
.000888
.000616
.000972
.000833
.0005
17
.000324
.000274
.000393
.000686
.000542
.00037
.000682
.00141
.000544
.0003
16
.000435
.0000962
2­
56
Fuel
Concent
ration
Pollutant
ID
Method
(
uncorrected)
Unit
Iblhr
IblMMBtu
IblHP­
hr
7.13
CARB
430
29.32;
FTIR
29.38~
FTIR
29.9~
FTIR
31.15x
FTIR
11.1
CARB
430
2
9
.
4
~
FTIR
31.14~
FTIR
29.52~
FTIR
29.50~
FTIR
CSU­
1.8.1
FTIR
2
9
.
2
~
FTIR
CSU­
1.11.1
FTIR
CSU­
1.4.1
FTIR
7.6
CARB
430
29.18~
FTIR
31.2x
FTIR
3.2
CARB
430
CSU­
1.8.2
FTIR
25.3
CARB
430
3.12
CARB
430
CSU­
1.4.2
FTIR
7.7
CARB
430
3.1
CARB
430
25.4
CARB
430
29.1
l
x
FTIR
29.13~
FTIR
26
CARB
430
29.122;
FTIR
CSU­
1.6.2
FTIR
CSU­
1.5.1
FTIR
27
CARB
430
16200
23000
3
1200
18100
36200
4740
33300
3
7400
50200
45600
17100
17900
17400
16100
40500
30700
2600
26000
9370
35.5
4800
85
10
24000
41500
60.6
22400
18900
21
16500
8530
16900
5980
.275
.468
1.22
.673
.538
.0196
.74
.55
1.07
1.07
.152
,391
,145
.111
.0767
1.7
.0642
.924
.
OS04
<
.000383
.195
.0665
.0689
1.39
<
.000722
.917
.607
.0000949
.538
.0698
.152
.228
.0334
,0526
.0372
.042
1
.0695
.0055
.
OS78
.0672
.0725
.065
1
.0454
.0373
.043
.0366
.0414
.0668
.00378
.0663
.024
<
.0000393
.00618
.0197
.0187
.0829
<
.0000781
.0569
.0463
.000016
.
.0377
.0179
.04
1
.00957
.0004
17
.000642
.000293
.000367
.000743
.
OOOO
109
.000987
.000776
.000669
.000608
.000364
.000429
,000347
.
0
0
0
2
6
6
.000996
.000511
,0000647
,000513
.000192
<
.000000403
.000108
.000159
.00033
1
.
OOOS6S
<
.000000687
.000599
.000388
.000000119
.000299
.000159
.000345
.000065
1
2­
57
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
lb/
hr
lb/
MMBtu
1blHP­
hr
Concentration
3.7
CARB
430
3.11
CARl3
430
7.4
CARB
430
7.8
CARE3
430
CSU­
1.5.2
FTIR
3.16
CAFU3
430
CSU­
1.6.1
FTIR
29.23~
FTIR
20.2
CARB
430
29.
l
x
FTIR
29.26~
FTIR
25.2
CARB
430
7.10
CARB
430
CSU­
1.2/
7.2
FTIR
29.14~
FTIR
21
CARE3
430
CSU­
1.9.2
FTIR
29.21~
FTIR
7.3
CARB
430
CSU­
1.2/
7.1
FTIR
20.1
CARB
430
CSU­
1.10.1
FTIR
29.20x
FTIR
29.27ax
FTIR
csu­
n.
9.
i
FTIR
3.3
CARE3
430
7.5
CARB
430
CSU­
1.3.2:
FTIR
29.19~
FTIR
25.1
CARB
430
29.25~
FTIR
29.22~
FTIR
15000
4300
6840
41400
10100
7200
17900
22000
10
18600
8190
5810
25500
13700
16700
18000
9270
27900
30100
20800
23
10
18500
28200
4810
18100
14900
19400
13500
26500
381
25500
20300
593
.165
.0124
.119
.09S
.13
1
,136
.705
<<
.0000922
371
.256
.45
.0484
.117
.487
,033
.
os2
1.69
.
OS53
.152
,0155
.166
1.78
.148
.
I58
.568
,0368
.112
1.46
,00158
.719
.656
.0242
.0053
.00472
.0396
.025
,00495
.0384
.055
1
<<
.0000131
.0381
.0205
.0115
.0263
.038
.0409
.022
.0208
.066
.0262
.
Os77
<
.0022
.0415
,0667
.0123
.04
.
ox2
.0186
.0414
.0616
.000265
.0654
.0518
.000296
.0000825
.00023
.000572
.000223
.000202
.000309
.00042
1
<<
.000000157
.000433
.000144
.
OOO
1
17
.000654
.000391
.000315
.000033
.000186
.000525
.0005
3
6
.000508
<
.0000264
.000377
.000559
.0000924
.000359
.000284
.000478
.000369
.000474
.0000027
.000506
,000376
2­
58
Fuel
Pollutant
HD
Method
(
uncorrected)
Unit
lb/
hr
lblMMBtu
Ib/
HP­
hr
Concent
ration
CSU­
1.3.
I!
FTIR
29.24~
FTIR
CSU­
1.10.2
FTIR
29.15x
FTIR
CSU­
2.4.1.
FTIR
CSU­
2.1.
I.
FTIR
CSU­
2.6.
I.
FTIR
CSU­
2.1.21.
FTIR
CSU­
2.5.
I.
FTIR
CSU­
2.5.2!
FTIR
CSU­
2.3.2)
FTIR
CSU­
2.6.2:
FTIR
CSU­
2.2.1
FTIR
CSU­
2.4.2:
FTIR
CSU­
2.2.2:
FTIR
CSU­
2.3.1
FTIR
CSU­
l.
15..
1
FTIR
CSU­
1.11..
2
FTIR
CSU­
2.11,.
1
FTIR
CSU­
2.9.2:
FTIR
CSU­
2.13..
2
FTIR
CSU­
l.
l5..
2
FTIR
CSU­
2.16..
2
FTIR
CSU­
2.14,.
1
FTIR
CSU­
2.10.2
FTIR
CSU­
1.12..
2
FTIR
CSU­
2.13..
1
FTIR
CSU­
2.16..
1
FTIR
CSU­
2.12..
1
FTIR
CSU­
T.
l4..
1
FTIR
CSU­
2.11.2
FTIR
CSU­
2.12.2
FTIR
18300
15200
9210
14400
62800
64200
67700
20500
74000
25100
12100
16500
68800
18500
17400
65700
19200
11400
63800
20000
17700
9950
19900
63800
20800
11100
65100
65400
65200
16800
20500
20100
.127
.471
.
OS29
.424
.38297
30043
.49992
.
15988
.64275
.21673
.05705
1
.12105
39303
.11272
.099456
.3
1006
.177
.0987
.47748
.15491
.14808
.0916
.15732
.48798
.15401
.0962
.57791
51819
.49744
.145
.15327
.15233
.0537
.0376
.0207
.03
14
,07955
,081439
.
OS0745
.026019
.
lo034
.033834
.015352
.019551
.
OS7335
.023415
.022102
.
OS3433
.0437
.0292
.
OS0941
.02515
.022468
.0226
.025242
.
oso9ss
.026166
.0285
.
OS7686
­
083
146
.
OS3402
.0377
.025983
.02555
.0004
1
8
.000275
.
ooo
188
.000233
.00052034
.00067993
.00067924
.00021723
.0008733
.00029454
.
OOO
11074
.00016447
.
0
0
0
7
6
2
S
7
.00015315
.
OOO
19304
.00060182
.000402
.000236
.00064875
.00021048
.0002012
.000208
.00021375
.00066302
.00020925
.00023
.0007852
.00070406
.00067537
.00033
.00020825
,00020697
2­
59
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
lblhr
Ib/
MMBtu
Ib/
HP­
hr
Concentration
a
CSU­
1.14,.
2
FTIR
csu­
2.
io.
1
FTIR
CSU­
2.14..
2
FTIR
CSU­
1.161.2
FTIR
CSU­
2.7.2
FTIR
CSU­
2.9.1
FTIR
CSU­
2.15.1
FTIR
CSU­
2.15.2
FTIR
CSU­
2.8.1
FTIR
CSU­
2.7.1
FTIR
CSU­
2.8.2
FTIR
CSU­
1.16).
1
FTIR
CSU­
1.13.2
FTIR
CSU­
1.12..
1
FTIR
9020
64700
21300
9670
14900
64200
65400
19800
65600
75200
22600
19200
10200
17400
Hexane
CSU­
1.101.2
Alternate
Method
17/
75
CSU­
1.6.:
2
Alternate
Method
171
75
CSU­
1.8.
1
Alternate
Method
17/
300
CSU­
1.10.1
Alternate
Method
17/
30
CSU­
1.6.1
Alternate
Method
171
45
CSU­
1.9.1
Alternate
Method
171
45
CSU­
1.8.2
Alternate
Method
171
75
CSU­
1.9.2
Alternate
Method
171
75
CSU­
1.11.1
Alternate
Method
171
45
CSU­
1.13.1
Alternate
Method
171
45
CSU­
1.5.2
Alternate
Method
17/
75
CSU­
1.4.1
Alternate
Method
17/
120
CSU­
1.5.1
Alternate
Method
171
SO
CSU­
1.1.2
Alternate
Method
17/
75
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
Maximum:

Average:

PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
.0763
.43242
.16374
.
os9
.079096
.49672
32961
.15939
.43246
.4024
.14932
.174
.0901
.148
2.87
.425
<<
.00194
<<
,00176
.00767
.000774
<<
.000981
<<
.00112
<<
.00185
<<
.0019
<<
.00108
<<
.00115
<<
.00208
.00237
.00207
<<
.00191
.0199
.
OS1961
.027174
.022
.017767
.
OS067
.
OS3771
.025203
,088684
.090362
.030621
.043
,0226
.0439
.163
.0421
<<
.000484
<<
.00045
.00229
.000194
<<
.000277
<<
.000234
<<
,000551
<<
.000481
<<
.000319
<<
.000289
<<
.000532
.000782
.000557
<<
.000486
.000173
.00065546
.00022247
.000202
.00015352
.00067489
.00071958
.00021656
.00058758
.00078106
.000202&
8
.000395
.000205
.000354
.00257
.000404
<<
.00000441
<<
.000004
.0000183
.
OOOOO
176
<<
.00000223
<<
.00000255
<<
.00000443
<<
.00000432
<<
.00000258
<<
.00000261
<<
.00000473
.00000567
.0000047
<<
.00000434
______~

2­
60
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
lb/
hr
1blMMBtu
lb/
HP­
hr
Concentration
CSU­
1.3.2
Alternate
Method
171
75
CSU­
1.3.1
Alternate
Method
171
30
CSU­
L2/
7'.
1
Alternate
Method
17/
90
CSU­
1.4.2
Alternate
Method
17/
75
CSU­
B.
2/
7`.
2
Alternate
Method
171
75
CSU­
1.1.1
Alternate
Method
17/
45
CSU­
1.14.1
Alternate
Method
17/
45
CSU­
B.
11.2
AlteriiateMethod
171
75
CSU­
2.12.2
Alternate
Method
17/
NR
CSU­
2.4.2.
Alternate
Method
17/
NR
CSU­
2.15
1
Alternate
Method
171
NR
CSU­
2.2.1
Alternate
Method
171
NR
CSU­
2.13
2
Alternate
Method
17/
NR
CSU­
2.13
1
Alternate
Method
17/
NR
CSU­
1.12.2
Alternate
Method
17/
75
CSU­
2.4.
I
Alternate
Method
17/
NR
CSU­
2.14.2
Alternate
Method
17/
NR
CSU­
1.12.1
Alternate
Method
17/
45
CSU­
2.12.1
Alternate
Method
17/
NR
CSU­
2.14.1
Alternate
Method
171
NR
CSU­
2.3.;!
Alternate
Method
17/
NR
CSU­
2.5.:!
Alternate
Method
17/
NR
CSU­
2.6.;!
Alternate
Method
17/
NR
CSU­
2.7.11
Alternate
Method
17/
NR
CSU­
1.16.2
Alternate
Method
17/
75
CSU­
2.7.2
Alternate
Method
17/
NR
CSU­
2.8.1
Alternate
Method
17/
NR
CSU­
2.1.1
Alternate
Method
17/
NR
CSU­
1.16t.
1
Alternate
Method
17/
100
CSU­
2.6.1
Alternate
Method
17/
NR
CSU­
2.8.2
Alternate
Method
171
NR
CSU­
2.9.1
Alternate
Method
17/
NR
<<
.00179
.000594
.00189
<<
.00168
<<
.00184
<<
.0010s
<<
.00111
<<
.00186
NR
NR
NR
NR
NR
m
<<
.001&
6
NR
NR
<<
.0011
NR
NR
NR
NR
NR
NR
<<
.00198
NR
NR
NR
.0026
NR
NR
NR
<<
.000659
.000252
.000714
<<
.000497
<<
.000595
<<
.000289
<<
.000289
<<
.000551
NR
NR
NR
NR
NR
NR
<<
.0005511
NR
NR
<<
.000325
NR
NR
NR
NR
NR
NR
<<
.000489
NR
NR
NR
.000642
NR
NR
NR
<<
.0000059
.00000196
.00000632
<<
.00000402
<<
.00000615
<<
.00000245
<<
.00000252
<<
.00000445
NR
NR
NR
NR
NR
NR
<<
.00000445
NR
NR
<<
.00000263
NR
NR
NR
NR
NR
NR
<<
.0000045
NR
NR
NR
.00000591
NR
NR
NR
2­
61
­

Fuel
Concentration
Pollutant
11)
Method
(
uncorrected)
Unit
Ib/
hr
Ib/
MMBtu
Ib/
HP­
hr
CSU­
2.162
Alternate
Method
17/
NR
CSU­
1.14.2
Alternate
Method
17/
75
CSU­
2.9.2
Alternate
Method
17/
NR
CSU­
2.2.2
Alternate
Method
17/
NR
CSU­
2.10.1
Alternate
Method
171
NR
CSU­
1.15.1
Alternate
Method
17/
10
CSU­
2.10.2
Alternate
Method
17/
NR
CSU­
2.1.2
Alternate
Method
17/
NR
CSU­
1.13.2
Alternate
Method
17/
75
CSU­
2.5.1
Alternate
Method
17/
NR
CSU­
2.111.1
Alternate
Method
17/
NR
CSU­
2.15.2
Alternate
Method
17/
NR
CSU­
2.111.2
Alternate
Method
17/
NR
CSU­
2.3.1
Alternate
Method
17/
NR
CSU­
2.16.1
Alternate
Method
17/
NR
CSU­
1.15.2
Alternate
Method
17/
75
m/
p­
Xylenle
CSU­
1.2/
7.1
Alternate
Method
17/
5
CSU­
1.3.2
Alternate
Method
17/
5
CSU­
1.4.1
Alternate
Method
17/
5
CSU­
1.3.1
Alternate
Method
17/
5
CSU­
1.10.1
Alternate
Method
17/
5
CSU­
1.9.1
Alternate
Method
17/
5
CSU­
1.8.2
Alternate
Method
17/
5
CSU­
1.1
I..
1
Alternate
Method
171'
5
CSU­
1.8.1
Alternate
Method
17/
5
CSU­
1.5.2
Alternate
Method
171
5
CSU­
1.4.2
Alternate
Method
171
5
CSU­
1.1.1
Alternate
Method
17/
5
NR
<<
.00182
NR
NR
NR
.000264
NR
NR
<<
.00189
NR
NR
NR
NR
NR
NR
<<
.00198
.00767
.0018
<<
,000129
<<
.000147
<<
.000122
<<
.000122
<<
.000159
<<
.000154
<<
.000152
<<
.000148
<<
.000157
<<
.000171
<<
.000138
<<
.000149
NR
<<
.000474
NR
NR
NR
.0000652
NR
NR
<<
'.
000474
NR
NR
NR
NR
NR
NR
<<
.000489
.00229
.000511
<<
.0000489
<<
.0000542
<<
.0000401
<<
.0000517
<<
.0000398
<<
,0000389
<<
.0000453
<<
.0000437
<<
.000047
<<
,0000437
<<
.0000408
<<
.0000395
NR
<<
.00000414
NR
NR
NR
.0000006
NR
NR
<<
.0000043
NR
NR
NR
NR
NR
NR
<<
.0000045
.0000183
.00000438
<<
.00000043
1
<<
.000000484
<<
.000000292
<<
.000000402
<<
.000000361
<<
.00000035
<<
.000000364
<<
.000000354
<<
.000000376
<<
.000000389
<<
.00000033
<<
.000000339
2­
62
Fuel
Pollutant
ID1
Method
(
uncorrected)
Unit
lbhr
Ib/
MMBtu
lb/
HP­
hr
Concent
ration
CSU­
1.9.2
Alternate
Method
17/
5
CSU­
1.6.2
Alternate
Method
17/
5
CSU­
1.2/
7.2
Alternate
Method
17/
5
CSU­
1.5.1
Alternate
Method
171
5
CSU­
1.6.1
Alternate
Method
17/
5
CSU­
1.10.2
Alternate
Method
17/
5
CSU­
1.1.2
Alternate
Method
17/
5
CSU­
1.13.2
Alternate
Method
171
5
CSU­
1.13.1
Alternate
Method
171
5
CSU­
1.121.1
Alternate
Method
17/
5
CSU­
2.2.1
Alternate
Method
17/
NR
CSU­
1.12!.
2
Alternate
Method
17/
5
CSU­
1.11.2
Alternate
Method
17/
5
CSU­
2.1
.:
I
Alternate
Method
17/
NR
CSU­
1.16.2
Alternate
Method
17/
5
CSU­
1.14..
2
Alternate
Method
17/
5
CSU­
1.15;.
1
Alternate
Method
17/
5
CSU­
2.1.1
Alternate
Method
171
NR
CSU­
1.15i.
2
Alternate
Method
17/
5
CSU­
1.16.1
Alternate
Method
17/
5
CSU­
1.14..
1
Alternate
Method
17/
5
CSU­
2.5.2
Alternate
Method
17/
NR
CSU­
2.9.1
Alternate
Method
17/
NR
CSU­
2.14..
1
Alternate
Method
17/
NR
CSU­
2.15;.
2
Alternate
Method
17/
NR
CSU­
2.7.1
Alternate
Method
17/
NR
CSU­
2.12:.
2
Alternate
Method
17/
NR
CSU­
2.
S.
2
Alternate
Method
17/
NR
CSU­
2.12:.
1
Alternate
Method
17/
NR
CSU­
2.151.1
Alternate
Method
17/
NR
CSU­
2.4.2
Alternate
Method
17/
NR
CSU­
2.8.1
Alternate
Method
17/
NR
<<
.000156
<<
.000145
<<
.000151
<<
.000159
<<
.000134
<<
.000159
<<
.000157
<<
.000155
<<
.000158
<<
,00015
NR
<<
.000153
<<
.000153
NR
<<
.000163
<<
.000149
<<
.000163
NR
<<
.000163
<<
.00016
<<
.000152
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
<<
.0000396
<<
.000037
<<
.0000489
<<
,0000429
<<
.000038
<<
.0000398
<<
.00004
<<
.0000389
<<
.0000395
<<
.0000445
NR
<<
.0000453
<<
.0000453
NR
<<
.0000402
<<
.0000389
<<
.0000402
NR
<<
.0000402
<<
.0000396
<<
.0000395
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
<<
.000000355
<<
.00000033
<<
.000000505
<<
.000000361
<<
.000000305
<<
.000000361
<<
.000000357
<<
.000000352
<<
.000000359
<<
.000000359
NR
<<
.000000366
<<
.000000366
NR
<<
.00000037
<<
.000000339
<<
.00000037
NR
<<
.00000037
<<
.000000364
<<
.000000345
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
Fuel
Concentration
Pollutant
ID
Method
(
nncol­
rected)
Unit
lb/
hr
lb/
MMBtu
Ib/
HP­
hr
CSU­
2.13,
l
Alternate
Method
17/
NR
CSU­
2.14
2
Alternate
Method
17/
NR
CSU­
2.6.1
Alternate
Method
17/
NR
CSU­
2.7.2,
Alternate
Method
17/
NR
CSU­
2.13.2
Alternate
Method
17/
NR
CSU­
2.62
Alternate
Method
17/
NR
CSU­
2.5.1
Alternate
Method
17/
NR
CSU­
2.11.2
Alternate
Method
17/
NR
CSU­
2.10.1
Alternate
Method
17/
NR
CSU­
2.3.
I
Alternate
Method
17/
NR
CSU­
2.11.1
Alternate
Method
17/
NR
CSU­
2.3.2
Alternate
Method
17/
NR
CSU­
2.16.2
Alternate
Method
17/
NR
CSU­
2.2.2
Alternate
Method
17/
NR
CSU­
2.9.2
Alternate
Method
17/
NR
CSU­
2.16.1
Alternate
Method
17/
NR
CSU­
2.4.11
Alternate
Method
17/
NR
CSU­
2.10.2
Alternate
Method
17/
NR
Methanol
2
9
.
6
~

29.5,

3
1
.
4
~

31.5,

31.16,

31.91;

31.131;

31.14~

3
1
.
8
~

31.15,
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
670
1440
293
832
1750
2
180
lS50
1800
3
14
2050
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
Maximum:

Average:
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.000171
.000153
.0169
.033
1
<<
.0126
.0179
.0277
.0306
.028
.0282
<<
.00606
.0325
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.0000542
NR
NR
NR
NR
NR
m
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.000000505
.
0
0
0
0
4
2
4
.000000367
.00169
.00364
<<
.0008
.00212
.00369
.00382
.00354
.00345
<<
.000602
.00419
.
OOOO
156
.0000394
<<
.00000759
.0000201
.0000391
.0000366
.00004
.0000398
<<
.0000053
.0000449
2­
64
Fuel
Cancentratian
Pollutant
ID
Method
(
uncorrected)
Unit
lblhr
Ib/
MMBtu
Ib/
HP­
hr
31.17~

3
1
.
7
~

29.4~

31.11x
29.
l
x
3
1.12x
31.18x
31.19~

3
1
.
6
~

2
9
.
2
~

29.23~

29.20~

29.44~

2
9
.
8
~

29.13~

29.21~

29.22~

29.41~

29.38~

29.37~

2
9
.
9
~

29.19~

29.35~

29.12~

29.34~

29.3
l
x
29.1
l
x
29.30ax
29.29~

29.28~

31.3X
29.
lox
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTJR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
1880
3
26
1530
1550
1390
2420
562
566
3
74
1610
3
50
1470
1470
970
850
1420
880
1130
8
10
9
10
700
1390
970
750
770
3440
740
3
140
4260
4250
33
1
690
PPb
.0533
PPb
<<
.0063
PPb
.0362
PPb
.0263
PPb
.0296
PPb
,0397
PPb
<<
.0158
PPb
<<
.0162
PPb
<<
.00722
PPb
.0375
PPb
.012
PPb
.0989
PPb
.0364
PPb
,023
PPb
.029
1
PPb
.0917
PPb
.0303
PPb
.0211
PPb
.0339
PPb
.0381
PPb
.0278
PPb
.
OS16
PPb
.0363
PPb
.0261
PPb
.0333
PPb
.0123
PPb
.0323
PPb
,0117
PPb
.01
PPb
.0151
PPb
<<
.0137
PPb
.0266
.00302
<<
.000608
.0043
.00342
.00303
.00517
<<
.00101
<<
.00102
<<
.000697
.0035S
.000935
.00371
.00225
.00222
.00222
.00358
.0024
.00133
.
oo
103
.00118
.00174
.00345
.0013
.00133
,000989
.00243
.00201
.00222
.00305
.00306
<<
.0007S7
.00166
.0000263
<<
.00000551
.0000483
.00003
18
.0000346
.0000494
<<
.00000811
<<
.00000841
.<<
.00000631
.0000412
,00000717
.00003
11
.0000204
.0000136
.0000136
.0000285
.0000174
.0000116
.000008
15
.00000926
.000015
1
.0000265
.00000993
.
OOOO
145
.00000785
.0000149
.0000211
.0000137
.0000215
.0000192
<<
.00000699
.0000145
2­
65
Fuel
lblhr
WMMBtu
1blHP­
hr
29.24~

29.25~

29.36~

29.47~

29.49~

2
9
.
7
~

29.50~

29.5
l
x
29.14~

29.48~

29.1s~

29.17~

29.52~

31.2X
29.16~

29.15~

29.46~

3
1
.
1
~

29.45~
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
Methylene
Chloride
3.3
TO­
14
3.7
TO­
14
3.11
TO­
14
3.10
TO­
14
3.1
TO­
14
3.17
TO­
14
3.8
TO­
14
3.16
TO­
14
3.2
TO­
14
690
PPb
990
PPb
840
PPb
2460
PPb
2230
PPb
920
PPb
2250
PPb
2080
PPb
770
PPb
2570
PPb
1680
PPb
1590
PPb
2280
PPb
97s
PPb
750
PPb
760
PPb
2050
PPb
685
PPb
2300
PPb
Maximum:

Average:

35.7
PPb
4.7
PPb
2.87
PPb
6.93
PPb
20.7
PPb
5
PPb
,0228
.0298
.0359
­
06
1
.057
1
.0222
.0565
.0474
.0239
.0669
.0994
,104
.051S
<<
.025S
.0244
.0239
.
Os03
<<
.0206
.0539
.
lo4
.0348
<
.003S5
<
.000527
<
.000312
<
.000798
.00196
<<
.000224
.00182
.00271
.
OO
125
.003S7
.00347
.00214
.00343
.003
14
.00201
.00408
.0039
.00375
.00351
<<
.00152
,00183
,00176
.00316
<<
.00184
.00356
.
oooo
133
.000021
.0000101
.0000359
.0000324
.000018
,000032
1
.0000272
.0000154
.000039S
.0000299
.00003
1
.0000324
<<
,000026
.0000143
.
OOOO
13
1
.0000273
<<
.0000209
.0000329
.00517
.0000494
.00248
.0000226
<
.000261
<
.00000192
<
.0000214
<
.000000263
<
.00001
<
.000000156
<
.0000253
<
.000000399
.000117
.00000123
<<
.00000965
<<
.000000345
4.57
PPb
<
.000504
<
.0000213
<
.00000028
13.3
PPb
<
.000684
<
.000026
<
.00000105
s.
57
PPb
.
OOOS64
.000062
.00000048
2­
66
Fuel
,

Pollutant
ID
Method
(
uncorrected)
Unit
lb/
hr
lb/
MMBtu
lb/
HP­
hr
Concentration
3.21
3.1s
3.14
3.15
3.19
3..
12
3.20
3.9
3.13
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
5
12.9
5
5
57.3
5
37
5.33
5
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
Maximurn:
<<
.000169
.00059s
<<
,000523
<<
.000523
.00233
<<
.000571
.00142
<
.00056S
<<
.000585
.00385
Average:
.000945
<<
.00000979
.0000252
<<
.0000203
<<
.0000195
.000115
<<
.000017S
.0000725
<
.0000261
<<
.00001s2
.000261
<<
.000000325
.00000102
<<
.000000327
<<
.000000327
.0000039S
<<
.0000003
17
.00000274
<
.000000355
<<
.000000325
.00000398
.0000488
.00000088
n­
Hexane
31.3X
3
1
.
8
~

2
9
.
7
~

29.
lox
29.33~

29.39~

31.11X
31.16~

29.45~

29.37~

29.23~

31.12x
29.42~

2
9
.
2
~
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
20
70
80
140
6
760
30
110
160
2
110
40
740
50
Naphthalene
7.14
EPA
18
25
7.5
EPA
18
25
.00222
.00362
.00519
.0145
.00070
1
.0372
.00136
.00467
.
o
10
1
.000225
.0101
.00176
.
OW
.003
13
.0385
.00012s
.00036
.000499
.000903
.000021
.0024
.000177
.000623
.000665
.00000696
.00079
,00023
,00244
.000299
.00244
.00000113
.000003
16
.0000042
.0000079
.00000017
.0000211
.00000164
.00000659
.000006
16
.000000054
.00000603
.00000219
.00002
14
.00000344
.0000214
Average:
.00952
,000682
.00000608
PPb
<<
.000303
<<
.000202
PPb
<<
.000226
<<
.00000202
<<
.000102
<<
.00000262
2­
67
­
Fuel
Concentration
Pollutant
ID
Method
(
uncorrected)
Unit
lb/
hr
lb/
MMBtu
Ib/
HP­
hI*

20.1
7.3
7.11
4
7.2
7.6
25.2
25.3
25.4
25.1
7.13
7.4
7.12
7.1
7.7
3
1
.
8
~

7.8
7.10
20.2
o­
Xylene
CARB
410
10
EPA
18
25
EPA
18
25
EPA
Level
1
Protocol
.
OS
EPA
18
25
EPA
18
25
CARB
429
2.77
CARB
429
3.8
CARB
429
38.3
CARB
429
22
EPA
18
25
EPA
18
25
EPA
18
25
EPA
18
25
EPA
18
25
SW­
846
method
0010
.95
EPA
18
25
EPA
18
25
CARB
410
10
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
ug/
dscf
Maximum:
<<
.000294
<<
.000303
<<
.000202
.00000497
<<
.000193
<<
.000202
.000912
.000175
.00195
.00039
<<
.00181
<<
.000193
<<
.0000347
<<
.000193
<<
.000306
.000486
<<
.000306
<<
.
om202
<<
.000393
.00195
<<
.0000417
<<
.000000502
<<
.000093
<<
.00000191
<<
.000082
<<
.00000273
.000000444
.000000002
<<
.0000925
<<
.00000322
<<
.000109
<<
.00000262
.0000233
.000000237
.
OOOO
179
.000000134
.0002
11
.
ooooo
185
.0000652
.000000667
<<
.00000274
<<
.00022
<<
.0000736
<<
.00000357
<<
.0000998
<<
.000000167
<<
.0000362
<<
.00000322
<<
.0000833
<<
.00000147
.0000483
.000000425
<<
.000102
<<
.00000147
<<
.00011
<<
.00000273
<<
.0000558
<<
.000000672
.000226
.00000357
Average:
.000431
.0000925
.0000#
167
CSU­
1.101.1
Alternate
Method
17/
10
CSU­
1.2P7.1
Alternate
Method
17/
10
CSU­
1.8.1
Alternate
Method
17/
10
CSU­
1.11.1
Alternate
Method
17/
10
CSU­
1.1.2
Alternate
Method
17/
3.75
CSU­
1.3.1
Alternate
Method
17/
10
CSU­
1.2P7.2
Alternate
Method
171'
3.75
CSU­
1.42
Alternate
Method
17/
3.75
CSU­
1.5.2
Alternate
Method
17/
3.75
PPb
<<
.00031s
PPb
<<
.000315
PPb
<<
.000258
PPb
<<
.000295
PPb
<<
.000118
PPb
<<
.000244
PPb
<<
.000113
PPb
<<
.000128
PPb
<<
.000104
<<
.0000795
<<
.0000977
<<
.000094
<<
.0000873
<<
.00003
<<
.000103
<<
.0000367
<<
.0000306
<<
.0000328
<<
,000000723
<<
.000000862
<<
,000000754
<<
.000000706
<<
.000000268
<<
.000000~
04
<<
.000000378
<<
.000000249
<<
.00000029
1
2­
68
Fuel
Concentration
CSU­
1.6.1
Alternate
Method
17/
10
CSU­
1.9.1
Alternate
Method
17/
10
CSU­
1.10.2
Alternate
Method
17/
3.75
CSU­
1.8.2
Alternate
Method
17/
3.75
CSU­
1.5.1
Alternate
Method
17/
10
CSU­
1.9.2
Alternate
Method
17/
3.75
CSU­
1.4.1
Alternate
Method
17/
10
CSU­
1.1.1
AlteriiateMethod
17/
10
CSU­
1.6.2
Alternate
Method
171
3.75
CSU­
1.3.2
Alternate
Method
17/
3.75
CSU­
2.7.2
Alternate
Method
17/
NR
CSU­
1.14.2
Alternate
Method
17/
3.75
CSU­
2.13.1
Alternate
Method
17/
NR
CSU­
2.10.1
Alternate
Method
17/
NR
CSU­
1.12.1
Alternate
Method
17/
10
CSU­
2.7.1
Alternate
Method
17/
NR
CSU­
1.16.1
Alternate
Method
17/
10
CSU­
2.11.1
Alternate
Method
17/
NR
CSU­
2.12.1
Alternate
Method
17/
NR
CSU­
2.8.1
Alternate
Method
17/
NR
CSU­
2.9.1
Alternate
Method
17/
NR
CSU­
1.15..
2
Alternate
Method
17/
3.75
CSU­
1.12.2
Alternate
Method
17/
3.75
CSU­
1.14.1
Alternate
Method
17/
10
CSU­
2.
S.
i!
Alternate
Method
17/
NR
CSU­
1.15.1
Alternate
Method
17/
10
CSU­
2.11.2
Alternate
Method
17/
NR
CSU­
2.12.2
Alternate
Method
17/
NR
CSU­
2.4.;!
Alternate
Method
17/
NR
CSU­
2.16.2
Alternate
Method
17/
NR
CSU­
2.2.;!
Alternate
Method
17/
NR
CSU­
1.13.1
Alternate
Method
17/
10
<<
.000269
<<
.000303
<<
.000119
<<
.000114
<<
.000319
<<
.000117
<<
,000244
<<
.000297
<<
.000108
<<
.00011
NR
<<
.000112
NR
NR
<<
.0003
NR
<<
.00032
NR
NR
NR
NR
<<
.000122
<<
.000115
<<
.000303
NR
<<
.000325
NR
NR
NR
NR
NR
<<
.000315
<<
.0000759
<<
,0000779
<<
.0000298
<<
.000034
<<
.0000859
<<
.0000297
<<
.0000803
<<
.0000791
<<
.0000278
<<
.0000406
NR
<<
.0000292
NR
NR
<<
.0000889
NR
<<
.0000791
NR
NR
NR
NR
<<
.0000302
<<
.0000339
<<
.0000791
NR
<<
.0000804
NR
NR
NR
NR
NR
<<
.0000791
<<
.0000006
1
1
<<
.0000007
<<
.00000027
<<
.000000273
<<
.000000725
<<
.000000266
<<
.000000584
<<
.000000675
<<
.000000245
<<
,000000362
NR
<<
.000000255
NR
NR
<<
.0000007
18
NR
<<
,000000727
NR
NR
NR
NR
<<
.000000277
<<
.000000275
<<
.000000689
NR
<<
.000000739
NR
NR
NR
NR
NR
<<
.000000716
2­
69
Puel
Pollutant
ID
Method
(
uncorrected)
Unit
Concentration
IbJhr
Ib/
MMBtu
I
b/
HP­
hl*

CSU­
2.3.1
Alternate
Method
171
NR
CSU­
2.16.1
Alternate
Method
17/
NR
CSU­
2.3.2
Alternate
Method
171
NR
CSU­
2.2.1
Alternate
Method
17/
NR
CSU­
2.15.2
Alternate
Method
17/
NR
CSU­
2.4.1
Alternate
Method
17/
NR
CSU­
2.1.2
Alternate
Method
17/
NR
CSU­
2.6.2
Alternate
Method
17/
NR
CSU­
2.15.1
Alternate
Method
17/
NR
CSU­
2.5.1
Alternate
Method
17/
NR
CSU­
2.14.2
Alternate
Method
17/
NR
CSU­
1.
Z
1.2
Alternate
Method
17/
3.75
CSU­
2.6.1
Alternate
Method
17/
NR
CSU­
2.16.2
Alternate
Method
17/
3.75
CSU­
2.9.2
Alternate
Method
171
NR
CSU­
1.13.2
Alternate
Method
171
3.75
CSU­
2.13.2
Alternate
Method
17/
NR
CSU­
2.14.1
Alternate
Method
17/
NR
CSU­
2.1.1
Alternate
Method
17/
NR
CSU­
2.10.2
Alternate
Method
17/
NR
CSU­
2.5.2:
Alternate
Method
17/
NR
PAH
25.2
CARB
429
17
25.3
CARB
429
22.7
25.1
CARB
429
173
25.4
CARl3
429
253
7.13
NR
119
31.
sx
SW­
S46
method
0010
1.4
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
<<
,000115
NR
<<
.000122
NR
<<
.000116
NR
NR
NR
NR
NR
Maximum:
.000325
Average:
.000205
ug/
dscm
.00106
ug/
dscm
.000
196
ug/
dscm
.000578
ug/
dscm
.00242
ug/
dscm
.00162
ug/
dscf
.000716
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
<<
.0000339
NR
<<
.0000302
NR
<<
.0000292
NR
NR
NR
NR
NR
.000103
.0000582
.0000269
.000020
1
.0000965
.000261
.000197
.00007
12
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
<<
.000000275
NR
<<
.000000277
NR
<<
,000000264
NR
NR
NR
NR
NR
.000000862
.000000499
.000000275
.000000206
.000000988
.0000023
.00000246
.000000626
2­
70
Fuel
Concentration
Pollutat
ID
Method
(
uncorrected)
Unit
lb/
hr
lb/
MMBtu
lb/
HP­
hr
Maximum:
.00242
.000261
.00000246
Average:
.0011
.000112
.00000114
Styrene
3.19
3.7
2
9
.
2
~

3.1s
csu­
1.3.2
CSU­
1.5.11
3.21
csu­
1.82
3.12
csu­
1.5.2
3.1
csu­
1.1.
:
1
csu­
1.4.
:
1
csu­
1.10.2
3.10
csu­
1
.
s.
'
1
3.16
3.8
3.11
3.9
csu­
1.42
29.33~

3.2
3.20
3.17
TO­
14
5
TO­
14
5
TO­
14
5
TO­
14
5
Alternate
Method
17/
25
Alternate
Method
17/
10
TO­
14
5
Alternate
Method
17/
25
TO­
14
5
Alternate
Method
17/
25
TO­
14
5
Alternate
Method
17/
10
Alternate
Method
17/
10
Alternate
Method
17/
25
TO­
14
5
Alternate
Method
17/
10
TO­
14
5
TO­
14
5
TO­
14
5
TO­
14
5
Alternate
Method
17/
25
TO­
14
3
TO­
14
5
TO­
14
5
TO­
14
5
<<
.000248
<<
.000685
.000379
<<
.000282
<<
.000721
<<
.000313
<<
.000207
<<
.000744
<<
.00069S
<<
.00084
<<
.000582
<<
.000292
<<
.000239
<<
.00078
<<
.000705
<<
.000309
<<
.000314
<<
.000675
<<
.000667
<<
.000652
<<
.000677
.000424
<<
.000616
<<
.000236
<<
,000274
<<
.0000122
<<
.0000279
.000036
1
<<
.0000119
<<
.000266
<<
.0000842
<<
.000012
<<
,000222
<<
,0000217
<<
.000214
<<
.0000345
<<
.0000776
<<
.0000788
<<
.000195
<<
.0000223
<<
.0000922
<<
.0000119
<<
.0000286
<<
.0000214
<<
.00003
<<
.0002
.0000127
<<
.0000442
<<
.000012
<<
.0000118
<<
.000000424
<<
,000000342
.000000416
<<
.000000482
<<
.00000237
<<
.0000007
11
<<
.000000398
<<
.0000017S
<<
.000000388
<<
.00000191
<<
.000000364
<<
.000000664
<<
.000000572
<<
.00000177
<<
.000000352
<<
.000000739
<<
.000000433
<<
.000000375
<<
.0000003
3
3
<<
.00000040S
<<
.00000162
.000000103
<<
.000000342
<<
.000000454
<<
.000000422
3.14
TO­
14
5
PPb
<<
.00064
<<
.000024S
<<
.0000004
CSU­
1.2/
7.1
Alternate
Method
17/
10
PPb
<<
.000254
<<
.0000959
<<
.000000349
CSU­
1.2/
7.2
Alternate
Method
17/
25
PPb
<<
.00074
<<
.00024
<<
.00000247
~~

2­
71
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Ib/
hr
lb/
MMBtu
lb/
HP­
hr
Concentration
CSU­
1.9.2
Alternate
Method
171
25
CSU­
1.6.2
Alternate
Method
17/
25
CSU­
1.6.1
Alternate
Method
17/
10
CSU­
1.10.1
Alternate
Method
171
10
2
9
.
7
~
TO­
14
3
CSU­
1.11.1
Alternate
Method
17/
10
CSU­
1.3.1
Alternate
Method
171
10
CSU­
1.9.1
Alternate
Method
171
10
3.15
TO­
14
5
29.
lox
TO­
14
10
3.13
TO­
14
5
3.3
TO­
14
5
CSU­
1.1.2
Alternate
Method
17/
25
CSU­
1.13.1
Alternate
Method
171
10
CSU­
2.11.1
Alternate
Method
17/
NR
CSU­
1.12.1
Alternate
Method
17/
10
CSU­
2.16.2
Alternate
Method
17/
NR
CSU­
2.14.1
Alternate
Method
17/
NR
CSU­
1.14.1
Alternate
Method
171
10
CSU­
2.11.2
Alternate
Method
17/
NR
CSU­
2.12.2
Alternate
Method
17/
NR
CSU­
2.15.2
Alternate
Method
17/
NR
CSU­
2.13.1
Alternate
Method
17/
NR
'
CSU­
1.13.2
Alternate
Method
17/
25
CSU­
2.12.1
Alternate
Method
171
NR
CSU­
1.11.2
Alternate
Method
17/
25
CSU­
2.13.2
Alternate
Method
17/
NR
CSU­
2.15
1
Alternate
Method
17/
NR
CSU­
2.14
2
Alternate
Method
17/
NR
CSU­
1.12
2
Alternate
Method
17/
25
CSU­
2.16
1
Alternate
Method
171
NR
CSU­
1.15
2
Alternate
Method
17/
25
<<
.000766
<<
.000709
<<
.000264
<<
.000312
.000235
<<
.00029
<<
.000239
<<
.000302
<<
.00064
,00125
<<
.000716
<<
,000662
<<
.000771
<<
.00031
NR
<<
.000294
NR
NR
<<
.000298
NR
NR
NR
NR
<<
,000762
NR
<<
.00075
NR
NR
NR
<<
.000749
NR
<<
,000798
<<
.000194
<<
.000182
<<
.0000745
<<
.000078
.0000226
<<
.0000857
<<
.000101
<<
.0000764
<<
.0000238
.00007S
<<
.0000223
<<
.0000444
<<
.000196
<<
.0000776
NR
<<
.0000872
NR
NR
<<
.0000776
NR
NR
NR
NR
<<
.000191
NR
<<
.000222
NR
NR
NR
<<
.000222
NR
<<
.000197
<<
.00000174
<<
.00000161
<<
.0000006
<<
.000000709
.000000
19
<<
.000000694
<<
,000000787
<<
.000000686
<<
.0000004
.00000068
1
<<
.00000039S
<<
.00000033
1
<<
,00000175
<<
.000000705
NR
<<
.000000703
NR
NR
<<
.000000677
NR
NR
NR
NR
<<
.00000173
NR
<<
.00000179
NR
NR
NR
<<
.00000179
NR
<<
.00000181
2­
72
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Concentration
lb/
hr
lb/
MMBtu
Ib/
HP­
hr
CSU­
2.1.1
Alternate
Method
17/
NR
CSU­
2.6.1
Alternate
Method
17/
NR
CSU­
2.5.1
Alternate
Method
17/
NR
CSU­
2.7.1
Alternate
Method
17/
NR
CSU­
2.4.12
Alternate
Method
17/
NR
CSU­
1.161.1
Alternate
Method
17/
10
CSU­
2.1
.:
2
Alternate
Method
17/
NR
CSU­
2.72
Alternate
Method
17/
NR
CSU­
2.4.1
Alternate
Method
17/
NR
CSU­
2.5.2
Alternate
Method
17/
NR
CSU­
2.8.
I
Alternate
Method
17/
NR
CSU­
2.6.2
Alternate
Method
17/
NR
CSU­
1.15.2
Alternate
Method
17/
25
CSU­
2.82
Alternate
Method
17/
NR
CSU­
1.15.1
Alternate
Method
17/
10
CSU­
2.101.2
Alternate
Method
17/
NR
CSU­
2.32
Alternate
Method
17/
NR
CSU­
2.9.1
Alternate
Method
17/
NR
CSU­
1.14.2
Alternate
Method
17/
25
CSU­
2.3.1
Alternate
Method
17/
NR
CSU­
2.2.2
Alternate
Method
17/
NR
CSU­
2.101.1
Alternate
Method
17/
NR
CSU­
2.2.1
Alternate
Method
17/
NR
CSU­
2.9.2
Alternate
Method
17/
NR
Tetrachloroethane
4
EPA
Level
1
Protocol
.34
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
Masimum:
NR
NR
NR
NR
NR
<<
,000314
NR
NR
NR
NR
NR
NR
<<
.000798
NR
<<
.000319
NR
NR
NR
<<
.000733
NR
NR
NR
NR
NR
.00125
Average:
.000528
PPb
.0000277
Maximum:
.0000277
Average:
.0000277
NR
NR
NR
NR
NR
<<
.0000776
m
NR
NR
NR
NR
NR
<<
.000197
NR
<<
.0000789
NR
NR
NR
<<
.000191
NR
NR
NR
NR
NR
.000266
.000095
.00000248
,00000248
.00000248
NR
NR
NR
NR
NR
<<
.000000714
NR
NR
NR
NR
NR
NR
<<
.00000181
NR
<<
.000000725
NR
NR
NR
<<
.00000167
NR
NR
NR
NR
NR
.00000247
.000000897
.000000016
.0000000163
.0000000163
Toluene
2­
73
Fuel
Concent
ration
Pollutant
ID
Method
(
uncocl­
ected)
Unit
lblhr
ib/
MMBtu
1bMP­
hr
7.12
4
7.3
CSU­
1.6.2
29.39~

3.8
csu­
1.4.11
3.2
CSU­
1.6.11
3.11
29.23~
CARE3
410A
EPA
Level
1
Protocol
CARB
410A
Alternate
Method
17/

TO­
14
TO­
14
Alternate
Method
17/

TO­
14
Alternate
Method
17/

TO­
14
TO­
14
CSU­
1.9.11
Alternate
Method
17/

3.20
TO­
14
CSU­
1.10.1
Alternate
Method
17/

3
1
.
8
~
TO­
14
3.14
TO­
14
CSU­
1.9.2
Alternate
Method
17/

29.45~
TO­
14
3.9
TO­
14
7.1
CARE3
410A
3.12
TO­
14
3.13
TO­
14
2
9
.
2
~
TO­
14
31.11~
TO­
14
7.10
CARE3
410A
3.15
TO­
14
7.11
CARB
410A
CSU­
1.8.:
2
Alternate
Method
17/

29.42~
TO­
14
31.12~
TO­
14
CSU­
1.101.2
Alternate
Method
17/

CSU­
1.8.
1
Alternate
Method
17/
160
64.4
9s
15
160
85.3
so
12.1
230
4.03
30
220
56
220
120
200
15
40
220
385
153
9.57
so
3.60
165
22.3
115
15
150
160
15
220
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
.00016
.00288
.000852
<<
.000376
,00837
.0102
.00169
.00132
.00537
.000476
.00295
PPb
.00588
PPb
.00233
PPb
.00607
PPb
.00664
PPb
.0226
PPb
<<
.000407
PPb
.00269
PPb
.0254
PPb
.00214
PPb
.
O
189
PPb
.00121
PPb
.00536
PPb
.0175
PPb
.000959
PPb
.00253
PPb
.000668
PPb
<<
.000395
PPb
.00835
PPb
.00755
PPb
<<
.000414
PPb
.00601
.000459
.000257
.000263
<<
.0000963
.00054
.00043
1
.000558
.0000946
.00152
.
oooo
152
.00023
1
.00149
.000119
.00152
.00066
1
.000878
<<
.000103
.00017S
.00117
.000953
.000589
1
.0000378
.0005
1
1
.00228
.000522
.0000941
.000271
<<
.000118
.00053
.000983
<<
.000104
.00179
.000000769
.00000169
.00000536
<<
.
OOOOOOS55
.00000476
.00000565
.00000404
.00000073
2
.
0000
122
.000000238
.
00000
176
.
OOOO
134
.00000448
.
OOOO
13
8
.0000058
.
OOOO
142
<<
.000000925
.00000164
.0000159
.0000357
.0000105
.000000672
.000005SS
.00002
1
1
.000013
.
ooooo
158
.00000903
<<
.000000945
.00000464
.00000939
<<
.000000941
.0000144
~~

2­
74
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Concentration
lblhr
lb/
MMBtu
lb/
HP­
hi*

3.19
TO­
14
CSU­
1.1
L.
1
Alternate
Method
17/

2
9
.
7
~
TO­
14
31.19~
FTIR
CSU­
1.4.2:
Alternate
Method
17/

11.2
CARB
410A
25.4
CAFU3
410A
3.7
TO­
14
7.14
CAFU3
410A
3.21
TO­
14
7.7
CAFU3
410A
7.5
CARB
410A
20.2
CARB
410
3.10
TO­
14
CSU­
1.3.2!
Alternate
Method
17/

11.1
CARB
410A
7.6
CARB
410A
CSU­
1.
l.:!
Alternate
Method
17/

7.2
CARB
410A
25.3
CAFU3
410A
20.1
CAFE3
410
25.2
CARE3
410A
11.3
CARB
410A
29.
10x
TO­
14
3.3
TO­
14
3
1
.
1
6
~
TO­
14
CSU­
1.217.2
Alternate
Method
17/

3.17
TO­
14
3.16
TO­
14
20.3
70
60
70
15
24.3
147
56.7
715
5
215
123
5
117
15
17
115
15
370
35.7
110
40.7
67
90
13.3
2
10
15
5
37.3
<
.000893
,00179
.00416
,00576
<<
.000359
.000193
.00536
.00687
.00622
<<
.000133
.0019
.000717
<<
.000141
.0146
<<
.000383
.000216
.000668
<<
.000409
.00206
.
oo
11s
.0023
1
.00966
.00844
.00998
.00156
.00955
<<
.000393
<<
.000243
.00208
<
.0000439
.00053
1
.000401
.000362
<<
.000106
.0000653
.000578
.00028
.00465
<<
.0000106
.000515
.00036
<<
.0000201
.00046
1
<<
.000141
,0000605
.00036
<<
.000104
.000985
.000121
.000328
.000246
.000682
.000621
.000105
.00127
<<
.000127
<<
.0000104
.0000788
<
.00000153
.00000428
.00000337
.00000299
<<
.000000859
.000000439
.000005
1
.00000344
.0000415
<<
.000000352
.00000911
.000009
3
<<
.000000242
,00000728
<<
.00000126
.00000012
.00000868
<<
.00000093
.0000342
.00000124
.00000395
.0000025
1
.0000192
.00000544
.000000782
.
oooo
135
<<
.0000013
1
<<
.000000374,

.0000032
CSU­
1.217.1
Alternate
Method
17/
220
PPb
,00493
.00187
.0000165
CSU­
1.5.2
Alternate
Method
17/
15
PPb
<<
.000446
<<
.000114
<<
.00000101
25.1
CARB
410A
37.3
PPb
.000474
.0000795
.00000081
2­
75
­
Fuel
Pollutant
ID
Method
~
uncorrected)
Unit
lb/
hr
lb/
MMBtu
lb/
HP­
hr
Concentration
CSU­
1.3.1
Alternate
Method
171
220
3.1
TO­
14
11.7
CSU­
1.1.1
Alternate
Method
171
10
7.8
CARB
410A
92
7.13
CARE3
410A
235
7.4
CARB
410A
1550
CSU­
1.5.1
Alternate
Method
171
220
3
1
.
3
~
TO­
14
60
3.18
TO­
14
80.3
CSU­
2.1.2
Alternate
Method
171
NR
CSU­
2.5.1
Alternate
Method
17/
NR
CSU­
1.13.1
Alternate
Method
171
230
CSU­
1.11.2
Alternate
Method
17/
15
CSU­
2.52
Alternate
Method
171
NR
CSU­
2.15.1
Alternate
Method
171
NR
CSU­
2.15.2
Alternate
Method
171
NR
CSU­
2.161.1
Alternate
Method
171
NR
CSU­
2.3.1
Alternate
Method
17/
NR
CSU­
2.4.2
Alternate
Method
171
NR
CSU­
2.2.1
Alternate
Method
17/
NR
CSU­
1.13.2
Alternate
Method
171
15
CSU­
2.3.2
Alternate
Method
171
NR
CSU­
2.161.2
Alternate
Method
171
NR
CSU­
2.4.1
Alternate
Method
171
NR
CSU­
2.22
Alternate
Method
171
NR
CSU­
23.1
Alternate
Method
171
NR
CSU­
2.10.2
Alternate
Method
17/
NR
CSU­
2.11.2
Alternate
Method
17/
NR
CSU­
2.10.1
Alternate
Method
17/
NR
CSU­
2.1
I.
1
Alternate
Method
171
NR
CSU­
2.9.2
Alternate
Method
171
NR
CSU­
1.14..
1
Alternate
Method
17/
220
.00466
.0012
.00025s
.000808
.0122
.
OOS61
.006OS
.00712
.00401
NR
NR
.0063
<<
.00039s
NR
NR
NR
NR
NR
NR
NR
<<
.000404
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.00579
.00197
.0000712
.0000686
.000269
.0014S
.0032s
.00164
.0004
1
.00017
NR
NR
.00158
<<
.000118
NR
NR
NR
NR
NR
NR
NR
<<
.000101
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.00151
.
oooo
153
.00000075
.000000586
.00000388
.0000185
.00016
.
oooo
13
s
.00000363
.00000687
NR
NR
.0000143
<<
.000000952
NR
NR
NR
NR
NR
NR
NR
<<
.00000091S
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.
OOOO
132
2­
76
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Ib/
hr
lb/
MMBtu
IblHP­
hr
Concent
ration
CSU­
2.12.1
Alternate
Method
17/
NR
CSU­
2.9.11
Alternate
Method
17/
NR
CSU­
1.15.2
Alternate
Method
171
15
CSU­
2.12.2
Alternate
Method
17/
NR
CSU­
2.
S.;!
Alternate
Method
17/
NR
CSU­
2.14.1
Alternate
Method
17/
NR
CSU­
2.13.1
Alternate
Method
171
NR
CSU­
2.1.11
Alternate
Method
171
NR
CSU­
1.16.1
Alternate
Method
17/
220
CSU­
2.13.2
Alternate
Method
17/
NR
CSU­
2.7.;!
Alternate
Method
171.
NR
CSU­
2.7.11
Alternate
Method
17/
NR
CSU­
1.16.2
Alternate
Method
17/
15
CSU­
1.14.2
Alternate
Method
17/
15
CSU­
1.12.1
Alternate
Method
17/
70
CSU­
1.15.1
Alternate
Method
17/
220
CSU­
2.6.;!
Alternate
Method
171
NR
CSU­
2.14.2
Alternate
Method
17/
NR
CSU­
2.6.11
Alternate
Method
17/
NR
CSU­
1.12.2
Alternate
Method
17/
15
Vinyl
Chloride
3.19
TO­
14
3.3
TO­
14
3.1s
TO­
14
3.14
TO­
14
3.17
TO­
14
3.8
TO­
14
3.10
TO­
14
3.20
TO­
14
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
Maximum:

Average:
~
~~
~~~~

NR
NR
<<
.000424
NR
NR
NR
NR
NR
.006
11
NR
NR
NR
<<
.000423
<<
.000389
.001s2
.00621
NR
NR
NR
<<
.00039S
NR
NR
<<
.000105
NR
NR
NR
NR
NR
.00151
NR
NR
NR
<<
.000105
<<
.000101
.00054
.00154
NR
NR
NR
<<
.00011s
NR
NR
<<
.000000964
NR
NR
NR
NR
NR
.
oooo
139
NR
NR
NR
<<
.000000961
<<
.
OOOOOOSS4
.00000435
.0000141
NR
NR
NR
<<
.000000952
.0254
.00424
<<
.009149
<<
.000393
<<
.
OW17
<<
.000384
<<
.000165
<<
.000405
<<
.000423
<<
.000142
.00465
.000616
<<
.00000734
<<
.0000267
<<
.00000717
<<
,0000149
<<
.0000071
<<
.0000172
<<
.0000134
<<
.0000072
.00016
.00000869
<<
,000000255
<<
.000000199
<<
.000000291
<<
.00000024
<<
.000000254
<<
.000000225
<<
.0000002
11
<<
.000000273
2­
77
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Ib/
hr
IblMMBtu
IbiFfP­
hr
Concentration
3.9
3.11
3.1
3.2
3.21
3.7
3.15
3.16
3.13
3.12
Xylene
3.10
4
3.17
3.16
11.2
2
9
.
7
~

3
1
.
3
~

11.3
3.1s
11.1
3.9
3.15
3.21
3.11
31.16~

7.
s
3.2
3.7
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
EPA
Level
1
Protocol
TO­
14
TO­
14
CARB
410A
TO­
14
TO­
14
CARB
410A
TO­
14
CARB
410A
TO­
14
TO­
14
TO­
14
TO­
14
TO­
14
CARB
410A
TO­
14
TO­
14
5
5
5
5
5
5
5
5
5
5
44.3
19
5
6
5
10
20
5
20
5
71
5.07
5
5
40
20.5
5
14
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
Maximum:

Average:

PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
PPb
<<
.000392
<<
.000401
<<
.000349
<<
.00037
<<
.000125
<<
.000412
<<
.000385
<<
.
OOOlS9
<<
.00043
<<
.000419
.00043
.0003
17
.00637
.00097S
<<
.0002s
<
..
000384
<<
.000045S
.000799
.00273
<<
.000726
.00115
<<
.0000731
.00943
<
.00066
<<
.000211
<<
,000679
,00209
.000208
<<
.00062S
.00195
<<
.000018
<<
.000012s
<<
.0000207
<<
.0000266
<<
.0000072
<<
.000016S
<<
.0000143
<<
.00000717
<<
.0000134
<<
.0000131
.0000267
.0000139
.000202
.0000873
<<
.000012
<
.0000146
<<
.0000154
.0000769
.00015s
<<
.0000585
.00004S7
<<
.0000205
.000433
<
.0000246
<<
.0000122
<<
.000021s
.000279
.0000691
<<
.0000451
.0000797
<<
.000000245
<<
.0000002
<<
.00000021s
<<
.000000206
<<
.00000024
<<
.000000206
<<
.000000241
<<
.000000291
<<
.000000239
<<
.000000233
.000000291
.
0
0
0
0
0
0
2
3
7
.000003
1s
.000000575
<<
.00000043
1
<
.000000591
<<
.000009104
.000000647
.00000139
<<
.00000165
.00000197
<<
.000000040
.0000059
<
.000000413
<<
.000000406
<<
.00000034
.00000295
.000001
<<
.000000349
.000000975
2­
78
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
lbJhr
Ib/
MMBtu
lb/
HP­
hr
Concentration
7.7
7.13
25.4
7.6
29.23~

25.3
3.1
20.1
7.5
25.2
7.2
3.3
7.4
25.1
20.2
29.1Cx
7.3
7.14
31.12~

3.14
29.45~

7.1
3.20
3.13
29.42~

31.11x
7.10
7.11
3.19
3
1
.
sx
3.8
29.39~
CARE3
410A
CARB
410A
CARB
410A
CARE3
410A
TO­
14
CARB
410A
TO­
14
CARB
410
CARB
410A
CARE3
410A
CARB
410A
TO­
14
CARE3
410A
CARB
410A
CARE3
410
TO­
14
CARE3
410A
CARB
410A
TO­
14
TO­
14
TO­
14
CARB
410A
TO­
14
TO­
14
TO­
14
TO­
14
CARB
410A
CARB
410A
TO­
14
TO­
14
TO­
14
TO­
14
57
47.3
40.3
33.5
10
9s
5
10
43.5
88.7
105
5
3
15
13.7
10
20
172
2
18
30
60
10
94
10.3
3
40
90
55.5
33.5
6.5
30
25.3
40
.000573
.00284
.0017
.000224
.00113
.00374
<<
.000593
<<
.000243
.000291
.0243
.000672
<<
.000675
.00202
.000273
<<
,000325
.00256
.
OO
172
.00219
.00
163
.00782
.000776
.000601
<
.000497
<
.000438
.00257
.00504
.000372
.000224
<
.000329
.00191
.00348
.00241
.000158
.000345
.000
183
.000
12
1
.0000835
.000382
<<
.0000352
<<
.0000345
.000147
.000616
.000322
<<
.0000452
.000769
.0000458
<<
.0000462
.000159
.000529
.00163
.000212
.000303
.00005
13
.000263
<
.0000252
<
.0000137
,000163
.000656
.000202
.0000909
<
.0000162
.00019
.000147
.000156
.00000277
.0000043
.00000162
.00000292
.000000675
.00000393
<<
.00000037
<<
.000000415
.00000378
.0000063
1
.0000112
<<
.000000337
.0000374
.
0
0
0
0
0
0
4
6
7
<<
.000000556
.
OOOOO
139
.0000108
.0000146
.00000203
.00000489
.000000473
.
oooo
1
<
.000000955
<
.000000243
.00000143
.00000609
.00000502
.00000304
<
.000000562
.00000167
.00000193
.
OOOOO
137
2­
79
­
Fuel
Concent
ration
Pollutant
ID
Method
(
uncol­
recteci)
Unit
1bJhr
lb/
MMBtu
lb/
HP­
h1­

.000772
.0000736
.000000847
.0000362
.000104
.000000174
2
9
.
2
~
TO­
14
10
PPb
7.12
CARE3
410A
31.5
PPb
3.12
TO­
14
62.3
PPb
.
oosss
.000276
.00000493
Maximum:
,0243
.00163
,0000374
Average:
.00214
.000194
.00000323
Propane
Acetaldehyde
7.9
CARB
430
1600
PPb
.
oo
112
Maximum:
.00112
Average:
.00112
Acrolein
7.9
CAlW
430
770
PPb
.000684
Maximum:
.000684
Average:
.000684
Benzene
7.9
CARB
410A
5600
PPb
.00693
Maximum:
.00693
Average:
.00693
Formaldehyde
7.9
CARB
430
Naphthalene
7.9
EPA
18
Toluene
14000
ppb
.00667
Maximum:
.00667
Average:
,00667
25
PPb
<<
.0000508
Maximum:
,0000508
Average:
.0000508
.0016
.0016
.0016
.000978
.000978
.000978
.00992
.00992
.00992
.0095
1
.00951
.00951
<<
,0000726
.0000726
.0000726
.0000286
.0000286
.0000286
.0000175
.0000175
.0000175
.000178
.000178
.000178
.000171
.000171
.000171
<<
.0000013
.0000013
.0000013
­
2­
80
Concentration
Pollutant
ID
Method
(
uncorrected)
Unit
lb/
hr
1bMMBtu
lb/
HP­
hr
7.9
CARB
410A
1150
PPb
,00168
.0024
.000043
1
Maximum:
.00168
.0024
.0000431
Average:
.00168
.0024
.0000431
Xylene
7.9
CARE
410A
26
1
PPb
.000439
.000628
.0000112
Maximum:
.000439
.000628
.0000112
Average:
.000439
.000628
.0000112
2­
81
Summairy
of
Criteria
Emissions
Data
for
Internal
Combustion
Engines
Oweb­
02
Concent
ration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
Ib/
hr
lb/
MMBtu
Ib/
HP­
hr
Diesel
co
csu­
3.2.2
csu­
3.13.1
csu­
3.13.2
csu­
3.12.1
csu­
3.14.1
csu­
3.11.2
CSU­
3.14.2
csu­
3.11.1
csu­
3.2.1
CSU­
3.4.2
csu­
3.10.2
csu­
3.12.2
csu­
3.10.1
csu­
3.4.
B
161
csu­
3.9.2
csu­
3.1.1
csu­
3.3.1
csu­
3.3.2
csu­
3.9.1
csu­
3.1.2
EPA
Method
10
EPA
Method
10
EPA
Method
10
EPA
Method
10
EPA
Method
10
EPA
Method
10
EPA
Method
10
EPA
Method
10
EPA
Method
10
EPA
Method
10
EPA
Method
10
EPAMethod
10
EPA
Method
10
EPA
Method
10
CARB
100
EPA
Method
10
EPA
Method
10
EPA
Method
10
EPA
Method
10
EPA
Method
10
EPA
Method
10
20400
78900
20200
74600
73800
20800
21800
72600
73200
23300
20900
20500
75
100
149000
176000
19100
78600
140000
24200
66400
21100
PPb
NA
NR
PPb
NA
NR
PPb
NA
NR
PPb
NA
NR
PPb
NA
NR
PPb
NA
NR
PPb
NA
NR
PPb
NA
NR
PPb
NA
NR
PPb
NA
NR
PPb
NA
NR
PPb
.
NA
NR
PPb
NA
NR
PPb
NA
NR
PPb
NA
NR
PPb
NA
NR
PPb
NA
NR
PPb
NA
NR
PPb
NA
NR
PPb
NA
NR
PPb
NA
4.42
.0294
.
lo7
.0279
.
lo1
.0984
.0284
.0297
.0983
.
lo4
.02S4
.0286
.02s
.
lo3
.
ls
.279
.0269
.
lo4
.182
.03
11
.0941
.02S6
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.001ss
NR
NR
NR
NR
m
NR
Maximum:
4.42
.279
.
OOlSS
Average:
4.42
.
OS28
.001ss
Methane
CSU­
3.3.2
EPA
Method
25A
(
m
6390
PPb
NA
NR
.0047
NR
CSU­
3.14.2
EPA
Method
25A
(
m
NR
PPb
NA
NR
NR
NR
CSU­
3.2.1
EPA
Method
25A
(
m
16800
ppb
NA
NR
.0137
NR
CSU­
3.2.2
EPA
Method
25A
(
m
7260
PPb
NA
NR
.0059S
NR
_
_
_
_
_
~

*
3­
1
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lb/
hr
lb/
MMBtu
lb/
HP­
hr
csu­
3.4.1
csu3.13.2
CSU3.4.2
csu­
3.3.1
csu­
3.13.1
csu­
3.14.1
csu­
3.9.1
csu­
3.
I
.2
csu3.12.2
csu­
3.
n0.2
csu­
3.11.1
csu­
3.10.1
csu­
3.11.2
csu­
3.1.1
csu3.12.1
csu­
3.9.2
EPA
Method
25A
(
m
14200
EPA
Method
25A
(
m
NR
EPA
Method
25A
(
m
4490
EPA
Method
25A
(
m
17000
EPA
Method
25A
(
m
180000
EPA
Method
25A
(
m
NR
EPA
Method
25A
(
m
14400
EPA
Method
25A
(
m
4780
EPA
Method
25A
(
m
12000
EPA
Method
25A
(
m
8860
EPA
Method
25A
(
m
22600
EPA
Method
25A
(
m
24800
EPA
Method
25A
(
in
6790
EPA
Method
25A
(
in
8540
EPA
Method
25A
(
m
13800
EPA
Method
25A
(
m
6890
NMHC
161
EPA
18
1300
CSU­
3.1.2
CSU­
3.1.1
CSU­
33.1
CSU­
3.4.1
EPA
Method
25A
(
in
15400
CSU­
3.3.2
EPA
Method
25A
(
m
630
CSU­
3.2.2
EPA
Method
25A
(
m
2300
CSU3.12.2
EPA
Method
25A
(
m
2340
CSU­
3.2.1
EPA
Method
25A
(
m
4840
CSU­
3.10.2
EPA
Method
25A
(
m
2030
CSU3.14.2
EPA
Method
25A
(
m
NR
CSU­
3.11.1
EPA
Method
25A
(
in
16600
EPA
Method
25A
(
m
10300
EPA
Method
25A
(
m
3
170
EPA
Method
25A
(
m
9000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
Maximum:

Average:

NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.0187
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.00988
NR
.003
12
­
0126
.139
NR
.0116
.0037
.00939
.00693
.0174
.0194
.0053
.00649
.0107
.00555
.139
.0168
.00125
.00794
.0024
1
,00665
.0107
.000463
.00189
.00183
.00394
.
PO159
NR
.0128
NR
NR
m
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.00000797
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
3­
2
Concent
ration
Detection
Fuel
Pollutant
XD
Method
(
uncorrected)
Unit
Limit
Ib/
hr
lb/
MMBtu
lb/
HP­
hr
CSU­
3.14.1
EPA
Method
25A
(
m
NR
PPb
NA
NR
NR
NR
CSU3.11.2
EPA
Method
25A
(
m
4130
PPb
NA
NR
.00323
NR
CSU­
3.13.2
EPA
Method
25A
(
m
29000
ppb
NA
NR
.0229
NR
CSU­
3.12.1
EPA
Method
25A
(
m
14900
ppb
NA
NR
.0115
NR
CSU­
3.13.1
EPA
Method
25A
(
m
82900
ppb
NA
NR
.0642
NR
CSU­
3.10.1
EPA
Method
25A
(
m
15100
ppb
NA
NR
.0118
NR
CSU­
3.4.2
EPA
Method
25A
(
m
2810
PPb
NA
NR
.00195
NR
CSU­
3.9.2
EPA
Method
25A
(
m
1940
PPb
NA
NR
.00156
NR
CSU­
3.9.1
EPA
Method
25A
(
m
1
1800
ppb
NA
NR
.00959
NR
NOx
CSU­
3.4.2
EPA
Method
7E
CSU­
3.14.1
EPA
Method
7E
CSU­
3.13.1
EPA
Method
7E
CSU­
3.14.2
EPA
Method
7E
CSU3.12.1
EPA
Method
7E
CSU3.11.2
EPA
Method
7E
CSU­
3.2.1
EPA
Method
7E
CSU­
3.11.1
EPA
Method
7E
CSU­
3.10.2
EPA
Method
7E
CSU­
3.13.2
EPA
Method
7E
CSU­
3.10.1
EPA
Method
7E
CSU­
3.12.2
EPA
Method
7E
CSU­
3.9.2
EPA
Method
7E
CSU­
3
3
.
1
EPA
Method
7E
CSU­
3.9.1
EPA
Method
7E
161
CARB
100
CSU­
3.1.1
EPA
Method
7E
CSU­
3.3.2
EPA
Method
7E
CSU­
3.1.2
EPA
Method
7E
1660000
1360000
993000
1360000
1230000
1230000
1510000
1270000
1240000
1020000
1210000
1190000
1150000
1870000
1140000
181000
1270000
1850000
1260000
Maximum:
.0187
Average:
.
OB7
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
7.48
NR
NR
NR
.0642
.00938
3.32
2.98
2.21
3.04
2.73
2.75
3.53
2.82
2.78
2.32
2.72
2.68
2.65
3.9s
2.65
.474
2.77
3.92
2.79
.00000797
.00000797
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.003
18
NR
NR
NR
3­
3
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
Ib/
hi­
Concentration
Detection
IblMMBtu
lb/
IiP­
hr
CSU­
3.2.2
EPA
Method
7E
CSU3.4.1
EPA
Method
7E
TEIC
1.5
csu­
3.13.1
csu­
3.1.2
csu­
3.12.1
161
csu­
3.11.2
csu­
3.9.1
csu­
3.10.2
csu­
3.10.1
csu­
3.1.1
csu­
3.12.2
csu­
3.11.1
csu­
3.3.1
csu­
3.14.2
CSU3.14.1
csu­
3.13.2
csu­
3.2.2
csu­
3.2.1
csu­
3.9.2
csu­
3.3.2
CSU3.4.2
csu­
3.4.1
Field
Gas
c
m
100
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
18
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
1430000
1750000
511000
40100
4150
3
5600
3250
4700
36200
4940
40400
32100
460
32900
75200
NR
NR
4890
4780
32100
4400
6410
4980
24900
NA
NA
Maximum:

Average:

1000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
Maximum:
NR
NR
7.48
7.48
.204
NR
NR
NR
.0467
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
204
Average:
.125
3.38
3.5
3.98
2.86
1.05
.03
1
.00321
,0276
.003
12
.00367
.0293
.00385
.0315
.0244
.00036
.0254
.0556
NR
NR
.00386
.00394
.026
1
.00354
.00472
.00346
.0173
1.05
.0676
NR
NR
.00318
.00318
.000371
NR
NR
NR
.
OOOO
199
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.000371
.000195
­
3­
4
Concentration
Detection
Fuel
Pollutant
HD
Method
(
uncorrected)
Unit
Limit
lblhr
1blMMBtu
lb/
HP­
hr
THC
1.4
CARB
100
241000
ppb
1000
.2s1
.
lo6
.0005
11
1.2
CARB
100
3510000
ppb
1000
14
7.52
.0608
1.3
CARB
100
773000
ppb
1000
.04SS
.3
12
.0006
1
Maximum:
14
7.52
.0605
Average:
4.78
2.65
.0206
J
P
­
5
N
o
s
135.2
135.3
135.1
Natural
Gas
co
110.4
29.2Sx
29.42~

151.15.3
110.3
126.4
151.15.2
2
9
.
3
~

151.11.3
151.11.2
151.27.3
csu­
1.12.1
29.15~

29.16~
CARB
1­
100
CARB
1­
100
CARB
1­
100
72SOOO
ppb
NA
2.49
756000
ppb
NA
4.23
956000
ppb
NA
5.29
Maximum:
5.29
Average:
4
NR
560000
FTIR
3710000
FTIR
103000
c
m
1­
100
6460000
NR
3
12000
CARB
method
1­
100
597000
CARB
1­
100
13900000
FTIR
95500
CARB
1­
100
9340000
CARB
1­
100
13200000
CARB
1­
100
6770000
EPA
Method
10
114000
FTIR
57000
FTIR
65300
4.75
11.6
1.75
27.5
10.1
5.26
59
1.81
38.4
54.2
29.1
.9
1.57
1.86
1.66
1.95
2.4s
2.4s
2.03
.636
2.34
.111
4.04
.544
.78S
S.
6S
.204
5.78
5.14
4.27
.267
.116
.139
.
O
167
.0197
.0243
.0243
.0202
.00432
.0147
.000972
.0423
.00507
.00574
.0905
.00248
.052
*
0521
.0445
.00215
.
OOOS64
.00109
3­
5
Concent
ration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
Ib/
hr
lb/
MMBtu
IbMP­
ht.

29.3
l
x
151.24.2
151.8.3
29.32~

105.1
151.28.2
151.28.3
126.2
csu­
1.12.2
29.432;

15
1.20.3
29.
l
x
29.13x
151.19.3
151.23.2
109
151.20.2
151.23.3
1
10.1
126.3
29.12~

105.2
151.19.2
15
1.24.3
151.16.3
15
1.12.3'

126.1
29.2~

151.12.2
29.142;

15
1.27.2
110.2
FTIR
69500
CARE3
1­
100
7130000
CARB
1­
100
2670000
FTIR
35800
EPA
10
102000
CARB
1­
100
5510000
CARE3
1­
100
951000
CARE3
method
1­
100
605000
EPA
Method
10
44600
FTIR
102000
CARE3
1­
100
6510000
FTIR
86300
FTIR
77900
CARE3
1­
100
9750000
CARE3
1­
100
9140000
EPA
10
345000
CARE3
1­
100
9410000
CARB
1­
100
5460000
EPA7E&
10
324000
CARB
method
1­
100
501000
FTIR
63600
EPA
10
199000
CARE3
1­
100
11000000
CARB
1­
100
2260000
CARE3
1­
100
4340000
CARE3
1­
100
6510000
CARE3
method
1­
100
457000
FTIR
92600
CARB
1­
100
10500000
FTIR
74000
CARB
1­
100
10000000
EPA
7E
&
10
282000
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
.217
29.5
10.7
.0724
1.36
23.9
4.13
5.14
.36
1.73
26:
4
1.61
2.33
40.3
38.1
9.5
38.2
22.7
12.1
3.42
1.93
4.25
45.4
9.36
18.2
26.8
4.08
1.89
43.2
2.01
43
10
.043
4.39
1.65
.0221
.185
3.39
.586
.746
.
lo7
.
ll
4.02
.165
.178
6.12
5.67
322
5.81
3.38
348
.635
.136
.402
6.9
1.39
2.67
4.02
.632
.
ls
6.49
.169
6.3
1
.511
.000263
.0454
.
O
162
.000158
.00171
.0368
,00635
.0058
.000861
.00096
1
.0406
,00188
.00149
.062
.0556
.0048
.0588
.0349
.00603
,00492
.00107
.00425
.0698
.0144
.028
.0406
.00538
.00207
.0655
.0013
.0662
.00501
3­
6
Fuel
Pollutant
ID1
Method
(
uncorrected)
Unit
Limit
Detection
Concentration
lb/
hr
Ib/
MMBtu
lb/
HP­
hr
151.16.2
29.29~

CSU­
1.15.2
29.22~

29.47~

csu­
1.4.1
29.48~

112.7
csu­
1.3.2
29.49~

155.37
112.6
CSU­
1.16.1
160.3.1
155.38
csu­
1.4..
2
29.51~

112.5
29.52~

csu­
1.15.1
124
112.4
csu­
1.14.2
123.1
29.39~

csu­
1.14.1
123.2
29.50~

29.24~

29.30ax
csu­
1.13.1
112.2
CARE3
1­
100
13
100000
FTIR
2690000
EPA
Method
10
3
1500
FTIR
162000
FTIR
4
19000
EPA
Method
10
78700
FTIR
364000
EPA
10
536000
EPA
Method
10
71200
FTIR
33
1000
CARE3
method
1­
100
146000
EPA
10
645000
EPA
Method
10
93600
CARE3
100
3990000
CARB
method
1­
100
459000
EPA
Method
10
29700
FTIR
399000
EPA
10
4
12000
FTIR
451000
EPA
Method
10
96500
CARE3
100.1
3880000
EPA
10
593000
EPA
Method
10
34500
EPA
method
10
223000
FTIR
138000
EPA
Method
10
101000
EPA
method
10
407000
FTIR
3
94000
FTIR
178000
FTIR
68500
EPA
Method
10
86100
EPA
10
548000
54.9
5.53
.27
4.88
9.09
SO7
8.29
.045
3
5
3
7.42
.19
,0732
.791
31.2
224
.217
7.96
.0428
8.97
.829
1.54
.
lo9
.272
1.31
2.2
313
3.26
8.65
5.14
.223
.717
.188
8.07
1.69
.066S
.386
.577
.167
SO6
.514
.204
.45
1
.263
.728
.196
2.54
317
.0641
.527
.441
.603
.205
2.46
335
.0708
.179
.142
.212
.261
.525
,411
.0424
.
lS
.678
.0545
.0119
.000614
.00279
.00535
.00121
.00493
.0018
.00182
.00422
NR
.00293
.0018
.0233
NR
.000519
.00457
,00171
.00561
.0018S
,0123
.00437
.0006
1
8
.00164
.00125
.001S5
.0027
1
.00491
.00301
.000262
.00163
.00299
3­
7
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lb/
hr
lb/
MMBtu
lb/
HP­
hr
­
29.41~
FTIR
126000
ppb
NA
2.06
.129
.00113
CSU­
1.13.2
EPA
Method
10
31700
ppb
NA
.26
.0651
.000591
29.40~
FTIR
141000
ppb
NA
2.4
.148
.00132
112.3
EPA
10
246000
ppb
NA
.119
336
.
oo
189
112.13
EPA
10
563000
ppb
NA
.138
.555
.00281
CSU­
1.8.1
EPA
Method
10
121000
ppb
NA
1.01
.3
.00242
112,12
EPA
10
860000
ppb
NA
.23
.829
.00469
*

112.8
29.26~

112.1
CSU­
1.6.1
112.11
29.25~

csu­
1.5.2
112.10
29.44~

csu­
1.5.1
29.45~

112.9
29.46~

2
9
.
4
~

CSU­
1.6.2
144.4
107.7
107.14
3
1.
lox
142.2
3
1
.
9
~

144.1
107.13
31.8X
144.2
EPA
10
FTIR
EPA
10
EPA
Method
10
EPA
10
FTIR
EPA
Method
10
EPA
10
FTIR
EPA
Method
10
FTIR
EPA
10
FTIR
FTIR
EPA
Method
10
CARB
103
EPA
method
10
EPA
method
10
FTIR
EPA
10
FTIR
CARE3
100
EPA
method
10
FTIR
CARE3
102
263000
14200
437000
83700
450000
237000
3
8700
294000
352000
114000
385000
305000
378000
228000
30700
556000
295000
88400
538000
6910000
994000
5
14000
592000
83700
539000
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
NA
NA
NA
NA
NA
NA
NA
NA
20000
NA
20000
NA
NA
10000
NA
.0977
.414
.16
395
.
l57
6.23
3
5
.
lo9
7.63
.956
7.89
.238
8.11
4.73
.234
4.71
.
lo8
.15
6.3
1
19.9
12.2
4.17
1.73
1.41
4.95
.38
.0332
.473
.168
.46
1
.568
.0894
.282
.472
.258
.521
.308
SO9
.561
.0599
.675
.279
.0934
.
S36
4.43
1.53
.612
1.54
.14
.666
.00155
.000232
.00254
.00135
.0034l
.00438
.000795
,00173
.00429
.00217
.0048
1
.00181
.00441
.0063
1
.000532
.0055
.0029
1
.006
11
.00734
NR
.0146
.00457
.0754
.00123
.00571
3­
8
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncoi­
rected)
Unit
Limit
Whr
1blMMBtu
lb/
HP­
hr
3
1
.
7
~

107.12
31.11~

3
1
.
6
~

141
3
1.5X
107.11
144.5
3
1
.
4
~

144.6
107.10
3
1
.
3
~

130.1
130.2
3
1.2x
107.9
144.3
3
1
.
1
6
~

107.24
107.22
102.3
107.21
102.4
107.20
31.19~

107.19
3
1
.
1
8
~

131.1
107.18
142.1
131.2
129.2
FTIR
EPA
method
10
FTIR
FTIR
EPA
3A
FTIR
EPA
method
10
CARE3
103
FTIR
CARB
103
EPA
method
10
FTIR
EPA
10
EPA
10
FTIR
EPA
method
10
CARE3
103
FTIR
EPA
method
10
EPA
method
10
CARB
method
100
EPA
method
10
CARB
method
100
EPA
method
10
FTIR
EPA
method
10
FTIR
CARB
1­
100
EPA
method
10
EPA
10
c
m
1­
100
NR
SO400
393000
lSS000
8
1000
135000
125000
253000
630000
62300
570000
3
94000
53000
270000
291000
356000
74900
528000
372000
133000
541000
568000
3
19000
89200
254000
799000
306000
823000
629000
162000
6410000
591000
1130000
10000
NA
5000
10000
NA
10000
NA
NA
10000
NA
NA
10000
NA
NA
NA
NA
NA
10000
NA
NA
NA
NA
NA
NA
10000
NA
10000
NA
NA
NA
NA
NA
1.36
2.76
2.78
1.37
1.39
2.35
2.23
5.3
2.3
4.8
.1l5
1.91
24.7
25.4
8.2
.686
4.58
5.15
.
s54
,206
4.9s
.142
.79
1.71
20
2.19
20.2
5.14
.064
24.4
5.02
.128
,131
376
,362
.132
.123
.278
.457
.764
.146
.692
,308
.
l
l
.641
.736
.484
.185
.678
.686
.187
.524
.706
.26
1
.112
379
1.26
.511
1.3
.755
.1S6
4.09
,724
.73
.00119
.12
.00336
.0012
.00133
.00264
.097
.00574
.00139
.00551
NR
.000974
.00597
.00605
.00827
.0279
.00568
.00727
NR
NR
.00554
NR
.00087S
.0261
,0104
.0334
.0104
.00528
.00279
NR
.00516
.000853
3­
9
Concent
ration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
Ib/
hr
lb/
MMBtu
1blHP­
hr
131.4
107.17
3
1.15x
139
31.14~

107.16
138
3
1.13x
140
3
1
.
1
2
~

107.15
31.17~

102.1
136.2
2
9
.
9
~

106
137
29.2
l
x
104.1
29.20~

102.2
104.2
160.4.1
145
129.1
29.17~

136.1
151.3.2
104.3
151.3.3
29.
lSx
151.4.2
CARB
1­
100
EPA
method
10
FTIR
EPA
method
10
FTIR
EPA
method
10
EPA
10
FTIR
EPA
10
FTIR
EPA
method
10
FTIR
EPA
method
10
NR
FTIR
EPA
method
10
EPA
10
FTIR
EPA
10
FTIR
EPA
method
10
EPA
10
CARB
100
EPA
10
NR
FTIR
NR
CARB
1­
100
EPA
10
CARB
1­
100
FTIR
CARE3
1­
100
570000
547000
476000
297000
442000
137000
50500
425000
2
17000
297000
107000
833000
472000
3300000
71200
170000
271000
103000
390000
105000
593000
435000
3570000
l5SOOO
5640000
114000
5000000
6100000
295000
5250000
119000
5320000
NA
NA
10000
NA
20000
NA
NA
20000
NA
5000
NA
20000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
4.78
,185
6.61
3.49
6.07
1.3
.956
5.63
1.44
4.26
.83
1
20.6
5.47
2.01
2.47
1.33
.64
5.82
2.21
6.18
6.33
.754
2s
5.86
.636
6.51
3.08
25.8
.42
1
22.2
6.16
22.4
.701
.667
.853
,381
,741
.306
.119
.712
.144
.555
.
I95
1.17
.612
2.11
.155
.125
.176
.227
343
,232
.757
.465
2.26
373
3.65
.235
3.63
3.77
.307
3.24
.242
3.28
.0045
1
.00588
.00913
,00342
.00857
.0529
.00104
.00804
.00215
.0053
.0339
.
o
102
.00552
NR
.00135
.00121
NR
.001&
1
.00237
.00194
.0067
.00419
.0208
.00637
.00424
.
OO
194
NR
.0391
.00356
.0336
.00135
.0339
3­
10
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lblhr
Ib/"­
hr
lb/
MMBtu
126.6
151.4.3
151.7.2
2
9
.
5
~

151.7.3
126.5
29.19s
12s
151.8.2
107.8
162.3.2
160.2.1
29.27ax
129.3
160.1.1
160.3.2
107.6
129.4
160.2.2
107.1
160.1.2
29.10s
132
107.4
29.8s
133
2
9
.
7
~

107.3
2
9
.
6
~

134
101
107.2
CARE3
method
1­
100
680000
CARB
1­
100
4190000
CARE3
1­
100
2210000
FTIR
19sooo
CARE3
1­
100
4560000
CARE3
method
1­
100
466000
FTIR
EPA
10
CARE3
1­
100
EPA
method
10
EPA
10
CARE3
100
FTIR
NR
CARE3
100
CARE3
100
EPA
method
10
NR
c
m
100
EPA
method
10
CARE3
100
FTIR
EPA
10
EPA
method
10
FTIR
EPA
10
FTIR
EPA
method
10
FTIR
EPA
10
EPA
3A
EPA
method
10
94900
93
100
5720000
146000
6970
4270000
12700
12200000
3880000
728000
303000
7580000
690000
593000
600000
71100
178000
532000
67100
24700
67600
648000
69200
797000
579000
4
12000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
5.76
17.7
8.92
3.9s
18.4
3.9s
4.88
2.98
23.1
.971
.
S89
32.9
265
2.39
31
5.7
.232
1.15
5.32
.
lo8
4.79
2.4
6.02
.0432
1.39
.204
1.43
.0724
1.53
5.86
1.71
.0421
.842
2.58
1.37
.
.43s
2.82
394
.206
.205
3.53
.26
1
.0183
2.73
.0303
8.17
2.46
.462
.3
5.16
.438
323
.382
.149
.
I
SO5
.134
.0298
.137
.722
.153
.936
3
5
8
.437
.00743
.0268
.0135
.00474
.0279
.00456
.00158
.00241
.035
.0395
.000125
.0245
.000228
.0159
.023
1
.00425
.00354
.00767
.00397
.00861
.00358
.0013
1
.00288
,00346
,00113
.000203
.00116
.00579
.00141
.007
1
1
.003
12
.00337
3­
11
Fuel
Pollutant
ID1
Method
(
uncorrected)
Unit
Limit
1bJhr
Concent
ration
Detection
Ib/
MMBtu
IblHP­
hr
29.1
l
x
3
1
.
1
~

107.5
151.20.11
151.25
15
1.24.1
CSU­
2.5.1
1553
151.23.1
114.2
CSU­
2.5.2
151.22
151.21
158.2
CSU­
2.6.1
114.1
151.19.1
CSU­
2.6.2
155.6
115
151.1s
CSU­
2.7.1
151.16.1
155.5
CSU­
2.7.2
116.1
155.7
csu­
22.2
CSU­
2.15.2
158.1
155.14
CSU­
2.16.1
FTIR
76200
FTIR
79000
EPA
method
10
260000
CARE3
1­
100
3800000
CARE3
1­
100
6940000
CARE3
1­
100
601000
EPA
Method
10
741000
CARE3
method
1­
100
5000000
CARE3
1­
100
4150000
EPA
10
247000
EPA
Method
10
53700
CARB
1­
100
1060000
CARE3
1­
100
4810000
EPA
10
4680000
EPA
Method
10
670000
EPA
10
209000
CARB
1­
100
8120000
EPA
Method
10
39500
CARE3
method
1­
100
3720000
EPA
10
443000
CARB
1­
100
5330000
EPA
Method
10
640000
CARE3
1­
100
897000
CARE3
method
1­
100
472000
EPA
Method
10
26400
CARE3
100
430000
CARE3
method
1­
100
673000
EPA
Method
10
26800
EPA
Method
10
42600
EPA
10
6
170000
CARB
method
1­
100
214000
EPA
Method
10
627000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
2.91
2.0s
.0942
15.4
30.4
2.48
6
2.22
17.3
12.6
.432
4.4
20.1
34.5
4.62
10.5
33.5
.271
1.35
18.8
21.6
3.2
3.76
.344
.13
2.41
.422
.143
.3
19
45.4
.169
4.63
.1s1
.1s5
.372
2.34
4.3s
.37
.937
3.14
2.57
.571
,0675
.654
2.99
3.05
.746
.475
5.1
.0437
2.35
.
so3
3.29
.718
.553
,482
.0293
.569
.543
.0317
.0505
3.99
.222
.744
.
OO
19
,002
11
.00299
.0237
.0467
.00382
.
oos15
NR
.0266
.0042
1
.000587
.00676
.03
1
NR
.0062S
.00349
.0515
.00036S
NR
.0066
.0332
.00621
.0057S
NR
.000252
.0024
NR
.000278
.000433
NR
m
.00629
3­
I2
Concent
ration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lb/
hr
lb/
MMBtu
Ib/
HP­
hr
157.2
157.1
CSU­
2.16.2
155.13
112.23
151.28.1
csu­
2.4.2
csu­
2.2.
B
155.9
154.2
CSU­
2.3.1
154.1
112.24
csu­
2.3.2
155.10
CARE3
1­
100
448000
CARE3
1­
100
665000
EPA
Method
10
42100
CARB
method
1­
100
374000
EPA
10
491000
CARE3
1­
100
595000
EPA
Method
10
30200
EPA
Method
10
591000
CARB
method
1­
100
592000
EPA
10
280000
EPA
Method
10
573000
EPA
10
260000
EPA
10
357000
EPA
Method
10
2
1900
CARE3
method
1­
100
434000
151.27.1
CARB
1­
100
CSU­
2.4.
B
EPA
Method
151.26
CARE3
1­
100
CSU­
2.8.1
EPA
Method
156
CARB
1­
100
150.2
EPA
10
151.15.1
CARE3
1­
100
CSU­
1.3.1
EPA
Method
10
151.5
153.1
csu­
1.1.2
151.3.1
121
151.2
csu­
1.10.1
151.1
120
CARB
1­
100
EPA
10
EPA
Method
10
CARE3
1­
100
CARE3
1­
100
CARE3
1­
100
EPA
Method
10
CARB
1­
100
CARB
1­
100
6300000
591000
8s1000
641000
2060000
492000
5
140000
200000
3760000
112000
28600
4900000
18900000
4180000
83800
5290000
10400000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
1.12
1.66
311
.297
.137
2.58
.172
3.15
.4S
1
23.7
2.52
22.6
.153
.0964
.276
27.1
3.36
3.77
3.95
4.18
1.41
21.8
1.29
15.6
6.56
.238
20.7
72.6
17.8
.704
22.5
66
.315
.69
1
.0499
.49
.488
366
.0357
.7
.592
.703
.679
.648
.37
.0259
304
3.9s
.699
343
.
sl
1.31
.376
3.21
.546
2.32
.267
.0604
3.02
12
2.58
.176
3.26
6.49
NR
NR
.000423
NR
.00104
.00397
.000234
.006
11
NR
.00564
.00489
.00538
.00117
.000187
NR
.0417
.00457
.0058
.00537
m
.
oo
188
.0335
.00425
.0236
.00207
.00054
1
.03
14
.0946
.0269
.0016
.034
.0951
3­
13
Concentration
Detection
Fuel
Poliutant
ID
Method
(
uncorrected)
Unit
Limit
Ib/
hr
lb/
MMBtu
Ib/
ECP­
hr
csu­
1.10.2
153.2
149.2
csu­
1.1.1
csu­
1.11.1
150.1
122
149.1
csu­
1.11.2
147
143
127
152
151.8.1
155.11
155.4
151.14
csu­
2.8.2
151.12.1
116.2
155.3
csu­
2.9.1
151.11.1
151.13
151.6
155.2
151.17
117
CSU­
1.16.2
151.7.1
151.10
155.1
EPA
Method
10
29200
EPA
10
115000
EPA
10
125000
EPA
Method
10
88600
EPA
Method
10
118000
EPA
10
322000
EPA
10
348000
EPA
10
108000
EPA
Method
10
47500
EPA
10
491000
EPA
10
52000
CARB
method
100
585000
EPA
10
444000
CARE3
1­
100
1550000
CARB
method
1­
100
449000
CARE3
method
1­
100
4440000
CARE3
1­
100
3210000
EPA
Method
10
35800
CARE3
1­
100
3000000
CARE3
100
480000
CARE3
method
1­
100
268000
EPA
Method
10
620000
CARE3
1­
100
5430000
CARB
1­
100
6
180000
CARE3
1­
100
1730000
CARB
method
1­
100
76100
CARE3
1­
100
8550000
EPA
10
186000
EPA
Method
10
3
1100
CARB
1­
100
3700000
CARB
1­
100
3220000
CARE3
method
1­
100
248000
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
.245
6.81
9.13
.696
.924
1.02
1.22
6.56
383
2.59
2.11
4.2
16.6
6.25
.174
2.33
13.9
.22
1
12.3
2.6
.197
4.47
22.4
27
7.13
.0208
35.2
2.84
.267
14.9
13.3
.0629
.0613
.279
.29
.185
.273
.227
.23
1
.23
.113
.635
.127
.699
.699
.95s
.518
3.95
1.98
.0452
1.85
374
339
.726
3.36
3
3
5
1.06
.057
5.34
.561
.066
2.29
1.99
.22
.000557
.00213
.00269
.00158
.00221
.00136
.00477
.00193
.000916
NR
.00105
.00453
.00579
.00947
NR
NR
.0214
.0003
.0h6
.0026
NR
.00607
.0339
.0415
.0108
NR
.0542
.00355
.000607
.0226
.020
1
NR
Concent
ration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lb/
hr
lb/
MMBtu
IblHP­
hr
csu­
1.2/
7.1
151.9
118
151.4.1
csu­
1.2/
7.2
csu­
2.9.2
112.18
112.20
162.1.2
29.33~

162.2.1
155.17
csu­
2.13.2
112.16
csu­
2.13.1
160.4.2
csu­
2.1.1
155.15
csu­
1.9.2
155.18
csu­
2.10.1
29.38~

csu­
2.12.2
112.17
29.36~

csu­
2.1.2
29.37~

csu­
2.12.1
162.1.1
csu­
2.11.2
155.16
csu­
1.8.2
EPA
Method
10
224000
CARB
1­
100
5600000
EPA
10
551000
c
m
1­
100
3760000
EPA
Method
10
69200
EPA
Method
10
40600
EPA
10
562000
EPA
10
322000
EPA
10
5870
FTIR
203000
EPA
10
125000
CARB
method
1­
100
676000
EPA
Method
10
44500
EPA
10
375000
EPA
Method
10
620000
CARB
100
607000
EPA
Method
10
620000
CARB
method
1­
100
338000
EPA
Method
10
30000
CARl3
method
1­
100
1230000
EPA
Method
10
626000
FTIR
258000
EPA
Method
10
41100
EPA
10
466000
FTIR
209000
EPA
Method
10
41300
FTIR
258000
EPA
Method
10
613000
EPA
10
131000
EPA
Method
10
41700
CARB
method
1­
100
1240000
EPA
Method
10
4
1000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
1.53
23.1
2.98
15.8
.552
.293
.155
,157
.737
7.72
15.7
.37
.34s
.07S
5.13
4.77
4.51
.288
.247
.603
4.35
9.45
.291
.
lo4
7.81
.301
9.46
4.36
16.7
.291
.679
.329
.573
3.47
.433
2.3
1
.179
.0476
.53s
.334
.015
.232
.334
.772
.0528
346
.779
.384
.734
.506
.0626
1.27
.74
.287
.0438
.461
.273
.0439
.292
.73
1
.339
.0493
.94
.09&
1
.00511
.035
.00351
.0239
.00184
.00039S
.00337
.000699
.000104
.00188
.0022
1
NR
.000473
.0017
.00697
.00355
.00613
NR
.000561
NR
.00591
.00227
.000395
.00227
.00219
.000409
.0023
.00592
.00235
.000395
NR
.000787
3­
15
Concenti­
ation
Detection
Fuel
Pollutant
ID1
Method
(
uncorrected)
Unit
Limit
lb/
hr
lb/
MMBtu
lb/
HP­
hr
csu­
2.
n5.
i
162.3.1
112.22
159.1
29.23~

csu­
2.1.0.2
112.14
CSU­
2.14.2
162.2.2
112.21
29.35~

107.23
159.2
29.34~

112.19
csu­
1.9.1
112.15
csu­
2.11.1
CSU­
2.14.1
EPA
Method
10
EPA
10
EPA
10
CARB
100
FTIR
EPA
Method
10
EPA
10
EPA
Method
10
EPA
10
EPA
10
FTIR
EPA
method
10
CARE3
100
FTJR
EPA
10
EPA
Method
10
EPA
10
EPA
Method
10
EPA
Method
10
625000
149000
544000
475000
181000
42000
634000
42300
6070
467000
247000
93200
27600
217000
466000
84200
481000
621000
656000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
Maximum:
4.72
19
.197
4.6
5.41
.29
.
OS41
304
.758
.175
8.1
.881
.259
8.2
.0687
.685
.
OS82
4.33
4.68
72.6
.747
.392
.573
.595
.423
.0493
.635
.0504
.0161
.623
.29
.193
.0336
.244
.475
.173
.473
.734
.777
12
.0064
1
.00267
.0015
.00601
.00323
.000394
.00216
.000413
,000
107
.00133
.00222
NR
.000295
.00193
.00176
.
OO
156
.
OO
192
.00588
.00636
.12
Average:
7.53
1.1
.0113
Methane
CSU­
1.16.1
EPA
Method
25A
(
m
928000
ppb
NA
4.4s
CSU­
1.3.2
EPA
Method
25A
(
m
1030000
ppb
NA
4.57
CSU­
2.8.2
EPA
Method
25A
(
m
1340000
ppb
NA
4.7
CSU­
2.7.2
EPA
Method
25A
(
m
1290000
ppb
NA
3.63
CSU­
2.8.1
EPA
Method
25A
(
m
2000000
ppb
NA
7.03
CSU­
1.15.2
EPA
Method
25A
(
in
820000
ppb
NA
4.03
CSU­
2.10.1
EPA
Method
25A
(
in
1250000
ppb
NA
4.97
CSU­
1.1.2
EPA
Method
25A
(
m
752000
ppb
NA
3.57
CSU­
2.9.1
EPA
Method
25A
(
m
1470000
ppb
NA
6.06
1.11
.0102
1.69
.0151
.963
.00639
.816
.00705
1.44
.00955
.995
.00916
344
.00675
.984
.
oos23
.907
.00311
3­
I6
Concent
ration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lb/
hr
lb/
MMBtu
IbMP­
h1­

CSU­
1.8.1
EPA
Method
25A
(
m
1040000
CSU­
1.11.2
EPA
Method
25A
(
m
1120000
CSU­
1.8.2
CSU­
1.
ll.
1
EPA
Method
25A
(
m
1190000
CSU­
1.6.2
EPA
Method
25A
(
m
735000
CSU­
1.10.2
EPA
Method
25A
(
m
783000
CSU­
1.6.1
EPA
Method
25A
(
in
758000
CSU­
1.9.1
EPA
Method
25A
(
m
860000
CSU­
1.4.2
EPA
Method
25A
(
m
1150000
CSU­
1.5.2
CSU­
2.9.2
EPA
Method
25A
(
m
1300000
CSU­
1.9.2
CSU­
1.3.1
EPA
Method
25A
(
m
1460000
CSU­
1.5.1
CSU­
1.2/
7.2:
EPA
Method
25A
(
m
1360000
CSU­
2.1.1
EPA
Method
25A
(
m
1440000
CSU­
1.2/
7.1
EPA
Method
25A
(
m
1590000
CSU­
1.4.1
EPA
Method
25A
(
m
1200000
CSU­
1.16.2
EPA
Method
25A
(
m
844000
CSU­
2.1.2
EPA
Method
25A
(
m
1260000
CSU­
1.10.1
EPA
Method
25A
(
m
S34000
CSU­
1.12.1
EPA
Method
25A
(
m
1140000
CSU­
1.13.2
EPA
Method
25A
(
m
683000
CSU­
2.5.1
EPA
Method
25A
(
m
lSSO000
CSU­
2.12.1
EPA
Method
25A
(
m
1390000
CSU­
2.4.2
EPA
Method
25A
(
m
1550000
CSU­
1.13.1
EPAMethod
25A
(
m
768000
CSU­
2.12.2
EPA
Method
25A
(
m
1310000
CSU­
2.4.1
EPA
Method
25A
(
m
1700000
CSU­
1.12.2
EPA
Method
25A
(
m
1220000
CSU­
2.13.1
EPA
Method
25A
(
in
1570000
CSU­
2.11.2
EPA
Method
25A
(
m
1300000
EPA
Method
25A
(
m
977000
EPA
Method
25A
(
m
962000
EPA
Method
25A
(
m
753000
EPA
Method
25A
(
m
863000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
4.93
5.17
4.4s
5.29
3.21
3.76
3
.
OS
3.99
4.
s
4.97
5.36
3.55
5.3s
4.15
6.17
6
6.2
4;
41
4.14
5.22
4.0
1
5.18
3.2
8.69
5.66
5.03
3.66
5.29
5.54
5.64
7.42
5.17
1.47
1.53
1.34
1.57
.
s22
.939
.
S69
1.01
1.42
1.27
.87
.9
2.28
1.12
2
.977
2.35
1.45
1.02
.85
1
1.53
.
a02
1.36
.949
1.05
.917
.
sss
1.15
1.67
1.13
.
S76
.0115
.0124
.0107
.
O
127
.0073
.00855
.007
.00907
.0115
.
O
113
.00728
.
OOSO7
.0177
.00943
.0206
.00815
.0207
.0106
.00941
.00709
.00911
.0124
.00727
.0118
.00769
.00683
.
oos32
.00719
.00753
.0135
.0101
.00702
­
3­
I
7
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
ib/
hr
lb/
MMBtu
lb/
HP­
hr
csu­
2.10.2
csu­
2.3.2
csu­
2.13.2
csu­
2.2.2
csu­
1.1.
n
csu­
2.2.
n
CSU­
2.16.2
CSU­
2.14.1
CSU­
2.16.1
CSU­
2.14.2
CSU­
2.15.2
CSU­
2.15.1
csu­
23.1
csu­
1.14.1
csu­
1.14.2
csu­
2.7.
n
csu­
2.6.
n
csu­
1.15.1
csu­
2.11.1
CSU­
2.6,.
2
csu­
2.5.2
EPA
Method
25A
(
m
1230000
EPA
Method
25A
(
m
1590000
EPA
Method
25A
(
m
1420000
EPA
Method
25A
(
m
1510000
EPA
Method
25A
(
m
775000
EPA
Method
25A
(
m
1660000
EPA,
Metliod
25A
(
m
1330000
EPA
Method
25A
(
m
1420000
EPA
Method
25A
(
m
1490000
EPA
Method
25A
(
m
1240000
EPA
Method
25A
(
m
1360000
EPA
Method
25A
(
m
1510000
EPA
Method
25A
(
m
1890000
EPA
Method
25A
(
m
779000
EPA
Method
25A
(
m
717000
EPA
Method
25A
(
m
1440000
EPA
Method
25A
(
m
1270000
EPA
Method
25A
(
m
870000
EPA
Method
25A
(
m
1340000
EPA
Method
25A
(
m
1130000
EPA
Method
25A
(
m
1690000
NMHC
115
EPA
1s
543000
112.4
EPA
1s
796000
112.12
EPA
1s
252000
112.11
EPA
18
20
1000
112.14
EPA
IS
199000
157.1
EPA
1s
186000
156
.
EPAlS
46900
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
Maximum:
4.86
3.99
6.35
4.59
3.48
5.05
5.6
5.
s
6.28
5.1
5.82
6.54
4.77
3.57
3.23
4.11
5.01
4.27
5.36
4.42
7.77
8.69
Average:
4.96
PPb
NA
13.2
PPb
NA
.0391
PPb
NA
.0151
PPb
NA
.
OS54
PPb
NA
.0337
PPb
NA
.265
PPb
NA
.
Os42
.
S26
1.07
,963
1.02
.925
1.12
.
s99
.962
1.01
.
s47
.921
1.03
1.2s
.93
.
S42
.923
.
so9
1.06
.
go9
.713
1.21
2.35
1.12
.563
.654
.139
.116
.123
.
ll
.017
.0066
.00774
.
OOS63
.
oos9
1
.00791
.0095
.0076
1
.007SS
.
OOS53
.00693
,00791
.00889
.00926
.
oos
1
1
.00734
.0079S
.006S1
.0097
.0072S
.0060
1
.0106
.0207
.00937
.00463
.00341
.000797
.000732
.0003ss
NR
NR
3­
I
8
Concentration
Detection
.
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lbfhr
1bfMMBtu
lb/
HP­
h *

133
154.1
112.21
102.4
160.3.2
103.1.1
154.2
103.2.1
157.2
102.3
103.3.1
107.24
112.22
160,1.2
103.4.1
107.23
159.1
112.19
112.20
116.2
112.7
114.1
112.3
112.2
112.8
112.6
112.1
114.2
121
112.24
159.2
160.2.2
EPA
18
EPA
18
EPA
18
EPA
method
18
EPA
18
EPA
18
m
EPA
18
EPA
18
EPA
method
18
EPA
18
EPA
method
18
EPA
18
EPA
18
EPA
18
EPA
method
18
EPA
18
EPA
18
EPA
18
EPA
18
EPA
18
EPA
25A
EPA
18
EPA
18
EPA
18
EPA
18
EPA
18
EPA
25A
EPA
18
EPA
18
EPA
18
EPA
18
154000
72700
131000
221000
5330
104000
79300
22000
20
1000
267000
94000
84700
149000
1000
45000
322000
249000
195000
152000
166000
200000
22300
57300
221000
85000
248000
135000
3
1600
5
1000
133000
196000
1000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
.728
3.62
.0281
1.11
.0239
.0109
3.83
.00774
.288
1.33
.0131
.3
11
.0309
.00456
.00787
1.74
1.38
.0165
.0427
S
I
3
.00943
.637
.0158
.0434
.
OlS
.0161
.0283
.921
.112
.0325
1.08
.0044
1
.
lo6
.
lo3
.1
.
l5S
.00193
.
os91
.114
.00926
.
os1
.188
.0419
.0683
.
os99
.000363
.02
.382
.178
.114
.0902
.114
.
l
l
.0289
.0448
.
l56
.0703
.16
.
OS36
.0417
.0185
.0789
.14
,000362
.000724
.00086
1
.000214
.00123
.0000
178
NR
.0009
11
NR
NR
.00148
NR
m
.000236
.0000034
m
m
.0018
.000422
.
ooo
19
.000513
.000377
.000212
.00025
1
.000689
.000286
.000643
.000449
.000307
.000146
.000248
.00122
.00000329
3­
19
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
Ibhr
Ib/
MMBtu
IblHP­
hr
112.18
120
116.1
112.13
112.15
112.10
112.5
112.17
112.23
112.9
112.16
126.1
155.12
csu­
2.2.
n
CSU­
2.16.2
126.4
155.13
CSU­
2.16.1
csu­
2.15.2
126.3
155.14
155.6
csu­
2.15.1
csu­
2.2.2
155.15
CSU­
2.14.2
CSU­
2.14.1
155.16
csu­
2.13.2
155.17
csu­
2.13.1
csu­
2.12.2
EPA
18
120000
CARE3
18
46300
EPA
18
185000
EPA
18
133000
EPA
18
165000
EPA
18
123000
EPA
18
381000
EPA
IS
118000
EPA
18
94000
EPA
18
85000
EPA
18
76000
NR
11900
EPA
method
1s
341000
EPA
Method
25A
(
m
181000
EPA
Method
25A
(
m
135000
NR
131000
EPA
method
18
376000
EPA
Method
25A
(
m
171000
EPA
Method
25A
(
m
131000
NR
41400
EPA
method
18
201000
EPA
method
18
33400
EPA
Method
25A
(
m
182000
EPA
Method
25A
(
m
149000
EPA
method
18
1320000
EPA
Method
25A
(
m
124000
EPA
Method
25A
(
m
152000
EPA
method
18
42200
EPA
Method
25A
(
m
125000
EPA
method
18
58400
EPA
Method
25A
(
m
190000
EPA
Method
25A
(
m
122000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
.019
.168
.53
.0186
.0172
.0262
.0224
.0151
.015
.0377
.00904
.0605
.
Os91
352
.568
.665
.173
.721
.562
.161
.0908
.00724
,786
.454
.647
.51
.618
,0132
.556
.0183
.899
.494
.0658
.0165
.126
.0749
.0925
.0675
.233
.0669
.0533
.049
.04
.00936
.
E
5
.123
.0911
.0996
.286
.116
.
OS88
.03
.119
.012
.124
.
lo1
1.13
.
OS46
.
lo3
.0183
.
OS44
.03
84
.136
.
OS29
.000413
.000249
.00053
.00033
,000375
.000416
.000897
.000329
.000114
.000288
.000197
.0000796
NR
,00107
.000772
.000726
m
.00098
­
000764
.000232
NR
NR
.00107
.00088
1
NR
.000693
.00084
NR
.000755
NR
.00122
,00067
1
3­
20
Concentration
Detection
&
el
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lb/
hr
lb/
MMBtu
lb/
HP­
hr
CSU­
1.1.1
EPA
Method
25A
(
m
61600
*
ppb
NA
.276
.0735
.000627
126.2
NR
25600
ppb
NA
.122
.018
.000138
csu­
1.14.1
csu­
2.61
107.2
103.16.2
csu­
2.5.2
103.17.2
107.1
103.18.2
155.7
103.19.2
126.5
155.8
155.11
,
.
103.20.2
csu­
1.8.2
160.4.2
csu­
2.4.1
155.9
csu­
2.3.2
155.10
csu­
2.3.1
126.6
csu­
1.12.1
csu­
2.5.1
csu­
1.9.2
155.18
csu­
1.4..
1
155.24
155.34
csu­
1.4..
2
EPA
Method
25A
(
m
62400
ppb
NA
EPA
Method
25A
(
m
134000
ppb
NA
EPA
method
18
381000
ppb
NA
EPA
18
82000
ppb
NA
EPA
Method
25A
(
m
176000
ppb
NA
EPA
18
238000
ppb
NA
EPA
method
18
796000
ppb
NA
EPA
18
116000
ppb
NA
EPA
method
18
19400
ppb
NA
EPA
18
169000
ppb
NA
NR
89200
ppb
NA
EPA
method
18
1160000
ppb
NA
EPA
method
18
522000
ppb
NA
EPA
18
144000
ppb
NA
EPA
Method
25A
(
m
92100
ppb
NA
EPA
18
1000
PPb
NA
EPA
Method
25A
(
m
148000
ppb
NA
EPA
method
18
317000
ppb
NA
EPA
Method
25A
(
m
168000
ppb
NA
EPA
method
18
103000
ppb
NA
EPA
Method
25A
(
m
210000
ppb
NA
NR
7820
PPb
NA
EPA
Method
25A
(
m
44900
ppb
NA
EPA
Method
25A
(
m
211000
ppb
NA
EPA
Method
25A
(
m
30700
ppb
NA
EPA
method
18
62000
ppb
NA
EPA
Method
25A
(
m
52800
ppb
NA
EPA
method
18
73600
ppb
NA
EPA
method
18
4S9000
ppb
NA
EPA
Method
25A
(
m
54300
ppb
NA
.286
.528
.022
1
.0797
312
.068
.
OS42
.028
.00698
.0206
,434
.292
.116
.0347
.422
.00449
.483
.152
.423
.0352
327
.0378
.203
.976
.145
.0174
.194
.00845
.0539
.226
.0745
.0853
.23
.0425
.127
.192
.646
.0724
.00898
.0753
.065
.417
.346
.0932
.126
.000362
.1
.197
.114
.0409
.142
.00554
.0603
.152
.0367
.0365
.064
.0282
.18
.0669
.00065
.000717
.00177
NR
.
oo
1
1
NR
.00675
NR
NR
NR
.000498
NR
NR
NR
.00101
.00000335
.000656
NR
.00082
1
NR
.00102
.0000488
.000486
.00133
.00033
NR
.000464
NR
NR
.000541
­

3­
21
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lb/
hr
lbNMBtu
Ib/
HP­
hr
155.33
csu­
2.1,
II
CSU­
1.5.1
155.25
csu­
2.1.2
csu­
1.5.2
csu­
1.3.2
155.3
1
CSU­
1.6.1
155.26
155.30
CSU­
1.6.2
csu­
1.9.1
155.29
csu­
1
.
s.
1
155.27
155.28
155.32
102.1
102.2
155.19
csu­
1.12.2
csu­
2.11.2
155.20
csu­
1.13.1
csu­
2.11.1
155.21
csu­
1.13.2
155.35
csu­
2.10.2
csu­
2.12.1
csu­
1.14.2
EPA
method
18
1170000
ppb
NA
EPA
Method
25A
(
m
169000
ppb
NA
EPA
Method
25A
(
m
64900
ppb
NA
EPA
method
18
474000
ppb
NA
EPA
Method
25A
(
m
135000
ppb
NA
EPA
Method
25A
(
m
95000
ppb
NA
EPA
Method
25A
(
in
106000
ppb
NA
EPA
method
18
233000
ppb
NA
EPA
Method
25A
(
in
56400
ppb
NA
EPA
method
18
182000
ppb
NA
EPA
method
18
381000
ppb
NA
EPA
Method
25A
(
in
62100
ppb
NA
EPA
Method
25A
(
m
33900
ppb
NA
EPA
method
18
616000
ppb
NA
EPA
Method
25A
(
m
75100
ppb
NA
EPA
method
18
453000
ppb
NA
EPA
method
18
246000
ppb
NA
EPA
method
18
180000
ppb
NA
EPA
method
18
302000
ppb
NA
EPA
method
18
272000
ppb
NA
EPA
method
18
638000
ppb
NA
EPA
Method
25A
(
m
53000
ppb
NA
EPA
Method
25A
(
m
148000
ppb
NA
EPA
method
18
75900
ppb
NA
EPA
Method
2SA
(
m
62800
ppb
NA
EPA
Method
25A
(
m
160000
ppb
NA
EPA
method
18
933000
ppb
NA
EPA
Method
25A
(
m
63300
ppb
NA
EPA
method
18
419000
ppb
NA
EPA
Method
25A
(
m
127000
ppb
NA
EPA
Method
25A
(
m
145000
ppb
NA
EPA
Method
25A
(
m
67500
ppb
NA
.228
.704
.3
12
.
OS74
359
.491
.469
.04
11
.229
.0224
.0454
.271
.
l57
.
lo8
357
.0902
.0308
.027
1.99
1.66
.454
.245
.589
.03
15
.299
.638
.2
.297
.0796
s
o
2
338
304
352
.115
.
OS4
1
.262
.091
.125
.173
.12
.0646
.0674
.
l57
.0694
.0398
388
.
lo7
.293
.0958
.0732
.223
.198
.436
.0725
.0998
.032
.0749
.
lo8
.66
,0743
,258
.
OS54
.0986
.0793
NR
.00095
7
.000709
NR
.00076
.00112
.00154
NR
.00052
NR
NR
.000616
.000357
NR
.000854
NR
NR
NR
.0020
1
.00176
NR
.000586
.
ooos
NR
.00068
.000867
NR
.000675
NR
.000682
,000799
.00069
1
3­
22
Concentration
Detection
Fuel
Pollutant
HD
Method
(
uncorrected)
Unit
Limit
lblhr
lb/
MMBtu
Ibm­
hr
155.22
EPA
method
18
273000
CSU­
1.15.1
EPA
Method
25A
(
m
34600
155.38
EPA
method
18
48400
CSU­
1.15.2
EPA
Method
25A
(
m
34000
CSU­
2.10.1
EPA
Method
25A
(
m
143000
155.37
EPA
method
18
1260000
CSU­
1.16.1
EPA
Method
25A
(
m
41400
155.23
EPA
method
18
984000
155.36
EPA
method
18
167000
103.5.1
EPA
18
57000
103.12.1
EPA
18
22000
103.1.2
EPA
18
104000
103.13.1
EPA
18
50000
CSU­
1.16.2
EPAMethod25A
(
m
31500
107.12
EPA
method
18
115000
103.2.2
EPA
18
20000
107.18
EPA
method
18
44700
155.1
EPA
method
18
112000
CSU­
1.11.1
EPA
Method
25A
(
m
50400
107.11
EPA
method
18
113000
103.20.1
EPA
18
156000
CSU­
2.9.2
EPA
Method
25A
(
m
132000
103.3.2
EPA
18
113000
155.2
EPA
method
18
109000
103.4.2
EPA
18
94000
107.16
EPA
method
18
471000
CSU­
2.9.1
EPA
Method
25A
(
m
168000
107.19
EPA
method
18
224000
103.5.2
EPA
18
66000
CSU­
1.10.2
EPA
Method
25A
(
m
30800
CSU­
1.
Y7.2
EPA
Method
25A
(
m
85300
103.16.1
EPA
18
155000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
.0338
.17
.0195
.167
.568
.937
.2
.2
.0186
.0297
.00867
.
o
m
.00852
.155
.463
.0091
.0101
.0162
.225
366
.0233
345
.019
.017
.0204
2.54
.692
.914
.0374
.148
339
.15
.
lo4
.042
,0192
.0413
.0964
1.33
.0495
.713
.0614
.0253
.0119
.0547
.0215
.0383
.0966
.0107
.0292
.0568
.0664
.116
,0594
.
OS85
.0635
.0466
.0544
.598
.112
.214
.0334
.037
.126
.0566
NR
.000386
NR
.00038
.000772
NR
.00045
5
NR
NR
NR
NR
NR
NR
.000352
.020
1
NR
.000438
NR
.000538
.0246
NR
.00074
NR
NR
NR
.
lo3
.00094
.
OM9
NR
.000336
.
oo
13
NR
3­
23
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
Ib/
hr
Concentration
Detection
lb/
MMBtu
Ibm­
hr
CSU­
1.1.2
103.15.1
EPA
18
220000
107.15
EPA
method
18
207000
CSU­
1.3.1
EPAMethod
25A
(
m
115000
103.17.1
EPA
18
109000
153.1
NR
666000
152
NR
41900
103.15.2
EPA
18
124000
103.18.1
EPA
18
73000
CSU­
2.4.2
EPA
Method
25A
(
m
129000
107.14
EPA
method
18
5330
103.19.1
EPA
18
202000
153.2
NR
863000
107.17
EPA
method
18
221000
CSU­
1.10.1
EPA
Method
25A
(
in
30900
107.13
EPA
method
18
123000
CSU­
1.21'
7.1
EPA
Method
25A
(
m
85000
103.11.1
EPA
18
33000
103.14.1
EPA
18
173000
103.10.2
EPA
18
7
1000
155.5
EPA
method
18
350000
EPA
Method
25A
(
in
64000
103.9.2
EPA
18
69000
107.21
EPA
method
18
50000
127
EPA
method
18
220000
103.10.1
EPA
18
48000
107.4
EPA
method
IS
200000
103.8.1
EPA
18
44000
107.6
EPA
method
18
85000
155.4
EPA
method
18
74200
103.7.1
EPA
18
16000
103.6.1
EPA
18
13400
103.11.2
EPA
18
3
8000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
304
.0304
.917
.422
.0134
22.4
.
s94
.0223
.0124
.
a19
.005
16
.0213
29.3
.0427
.148
.205
.33
1
.00967
.0221
.027
.146
.0273
.0128
.903
.
o
n
3
,0093
1
.0184
.037
.0222
.0063S
.00473
.0145
.0772
.
OS34
.215
.179
.0424
.911
.0377
.0636
.0298
.0871
.00322
.076
1.2
.154
.0371
.132
.125
.0139
.067
.0388
.204
.0372
.0234
.15
.01S7
,109
.025S
.0481
.0378
.00594
.0116
.0207
.000691
NR
­
0374
.00139
NR
.00704
.0003
12
NR
NR
.000569
.000211
NR
.00916
.00136
.000336
.00892
.00111
NR
NR
NR
NR
NR
NR
.000974
NR
.000745
NR
.000565
NR
NR
NR
NR
­
3­
24
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lblhr
lb/
MMBtu
IbMP­
hr
107.5
csu­
2.7.1
107.22
103.12.2
107.10
CSU­
2.6.2
107.9
107.20
103.6.2
csu­
2.8.2
107.3
155.3
csu­
2.7.2
103.9.1
103.7.2
csu­
1.1
1.2
103.13.2
107.8
103.8.2
csu­
2.8.
1
103.14.2
NOx
145
112.15
112.19
155.24
152
112.18
122
EPA
method
IS
85000
EPA
Method
25A
(
m
166000
EPA
method
18
106000
EPA
18
88000
EPA
method
18
53000
EPA
Method
25A
(
m
105000
EPA
method
18
638000
EPA
method
18
97700
EPA
18
28000
EPA
Method
25A
(
m
194000
EPA
method
18
248000
EPA
method
18
540000
EPA
Method
25A
(
m
126000
EPA
18
53000
EPA
18
109000
EPA
Method
25A
(
m
49700
EPA
IS
58000
EPA
method
1s
421000
EPA
18
795000
EPA
Method
25A
(
m
194000
EPA
18
156000
EPA
7E
65400
ppb
EPA
7E
37800
ppb
EPA
7E
23000
ppb
CARB
method
1­
100
749000
ppb
EPA
20
179000
ppb
EPA
7E
33800
ppb
EPA
7E
1860000
ppb
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
Maximum:

Average:

NA
NA
NA
NA
NA
NA
NA
.0176
.474
.023
1
.0407
.00888
.409
3.34
.374
.0132
.682
.0158
.226
.356
.0144
.0613
.229
.
O
124
1.6
.563
.681
.03
1
29.3
.616
3.98
.0113
.00557
.247
11
.
o
m
10.7
.0696
.
lo6
,0588
.0567
.0237
.066
1
.9
.
OS3
1
.0353
.14
.158
.39
.
os
.0194
.0576
.0679
.03
17
.428
.67
1
.14
.1
1.33
.139
.254
.061
.
OB6
.
822
.462
.
o
s
3
2.03
.00056
.00092
NR
NR
NR
.000556
.136
.00571
NR
.000927
.
OO
127
NR
.000691
NR
NR
.000548
NR
.065
NR
.000925
NR
.136
,00393
.00433
.000246
.000143
NR
.00383
.000334
.042
3­
25
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncoi­
ected)
Unit
Limit
Ib/
hr
IblMMBtu
IblHP­
hr
112.16
155.25
143
150.1
112.17
150.2
155.26
11s
155.27
155.9
155.3
155.13
155.12
155.4
112.24
155.11
155.10
155.19
116.1
155.14
114.1
155.5
155.8
114.2
155.6
155.7
115
113
155.1
155.23
121
155.22
EPA
7E
3
1000
CARE3
method
1­
100
46500
EPA
7E
EPA
7E
EPA
7E
EPA
7E
CARE3
method
EPA
7E
CARB
method
CARE3
method
CARE3
inetliod
3
96000
3200000
27600
1630000
­
100
174000
1640000
­
100
51500
­
100
118000
­
100
S78000
CARB
method
1­
100
36500
CARE3
method
1­
100
1350000
CARE3
method
1­
100
1320000
EPA
7E
44500
CARE3
method
1­
100
123000
CARE3
method
1­
100
1160000
CARE3
method
1­
100
S55000
CARB
100
45600
CARE3
method
1­
100
59300
EPA
20
117000
CARE3
method
1­
100
226000
CARE3
method
1­
100
296000
EPA
20
67600
CARB
method
1­
100
1030000
CARE3
method
1­
100
277000
EPA
20
137000
CARE3
1­
100
57700
CARE3
method
1­
100
88900
CARE3
inetliod
1­
100
12700
c
m
1­
100
2660000
CARE3
method
1­
100
617000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
.
NA
NA
NA
NA
NA
NA
NA
NA
.0105
.0246
26.4
16.6
.0101
7.6s
.0616
14.5
.0293
.156
i.
06
.0479
,674
1.14
.03
13
.07S3
1.2
1.74
275
.0769
9.5s
.27
.217
5.67
.65
.2S6
9.51
2.3
.037
.00738
16.
S
.22
.0469
.0738
1.59
3.7
.0448
2.04
,185
2.11
.0956
.1S8
1.83
.0789
1.76
1.93
.0759
2
3
3
1.34
1.68
.
osss
.
lo1
.435
.378
206
.256
1.06
367
.407
.146
.129
.0264
2.78
.674
.00022s
NR
.0132
.0222
.00022
.
o
103
NR
.0171
NR
NR
NR
NR
NR
NR
.000239
NR
NR
NR
.000375
NR
.0032
NR
NR
.00189
NR
NR
.00334
.00119
NR
NR
.0219
NR
3­
26
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lb/
hr
Ib/
MMBtu
Ib/
HP­
hr
153.2
112.20
155.21
120
116.2
155.20
112.23
155.18
155.17
155.2
155.16
112.22
117
155.15
153.1
112.21
129.4
123.1
133
107.4
132
107.5
107.3
107.6
107.2
107.7
107.8
129.3
129.2
107.9
129.1
12s
EPA
7E
125000
EPA
7E
62100
CARB
method
1­
100
226000
CARB
1­
100
1670000
CARB
100
52400
CARB
method
1­
100
1660000
EPA
7E
36600
CARB
method
1­
100
1990000
CARB
method
1­
100
1060000
CARB
method
1­
100
664000
CARB
method
1­
100
1250000
EPA
7E
33700
EPA
7E
14300
CARB
method
1­
100
110000
EPA
7E
EPA
7E
NR
EPA
method
7E
EPA
7E
EPA
method
7E
EPA
20
EPA
method
7E
EPA
method
7E
EPA
method
7E
EPA
method
7E
EPA
method
7E
EPA
method
7E
NR
NR
EPA
method
7E
NR
EPA
7E
122000
19800
116000
1090000
101000
43700
2
10000
29400
40500
52800
19100
40500
173000
103000
4
1000
166000
73000
679000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
12.2
.0499
.133
17.4
.466
1.98
.0167
1.6
.953
.293
1.12
.02
358
.154
11.7
.0122
.0289
10.6
1.37
.00585
12.5
.0175
.00742
.066
.003
19
.0244
1.94
.033
.0076
2.5
1
.0135
35.8
.499
.
lo6
.456
1.71
.
lo3
2.02
.0597
3.36
1.9s
.
S16
1.55
.0583
.0699
.27
.479
.0433
.13
1.44
.2
.0682
.775
.0693
.074
.
OS59
.0333
.063
.52
.113
.0434
.676
.0776
2.46
.0038
.000222
NR
.0259
.000466
NR
.000128
NR
NR
NR
NR
.000152
.000447
NR
.00369
.000093
1
.000193
.0132
.00136
.000463
.00597
.000556
.000593
.00101
,000255
.000656
.0789
.00022
.0000507
.102
.00009
.0289
3­
27
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
1bJhr
IblMMBtu
Ib/
HP­
hr
104.2
108.1.2
108.1.1
126.6
101
102.1
134
102.2
130.1
104.1
106
137
107.1
136.2
136.1
104.3
107,19
138
139
107.17
131.4
107.1s
130.2
131.1
141
107.20
102.4
107.21
107.22
107.24
107.23
131.2
EPA
7E
1540000
CARE3
method
1­
100
19300
CARB
method
1­
100
1670000
CARB
method
1­
100
82700
EPA
method
7E
EPA
method
7E
EPA
7E
EPA
method
7E
EPA
7E
EPA
7E
EPA
method
20
EPA
7E
EPA
method
7E
NR
NR
EPA
7E
EPA
method
7E
EPA
7E
EPA
method
7E
EPA
method
7E
CARE3
1­
100
EPA
method
7E
EPA
7E
CARB
1­
100
EPA
20
EPA
method
7E
CARB
method
100
EPA
method
7E
EPA
method
7E
EPA
method
7E
EPA
method
7E
CARB
1­
100
541000
3
5900
216000
78300
164000
1370000
4200000
3220000
24100
136000
139000
463000
329000
402000
162000
7330
108000
2860000
91300
128000
263000
612000
9
1200
1300000
1900000
1510000
106000
105000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
4.4
.152
13.6
1.15
2.63
,682
2.61
1.38
24.6
12.6
54.5
12.5
.00713
.136
.14
1.08
3.85
12.4
3.13
.00408
1.48
1.85
13.1
1.72
4.42
6.75
1.32
.958
1.19
16
1.65
1.46
2.72
.02
1.74
.168
.856
.0764
.416
.164
.639
1.98
5.06
3.47
.
Os47
.144
,165
$
03
.
go1
1.55
.342
.0147
.218
5.37
.379
.252
.394
1.5
.189
1.75
3.02
3.55
362
.211
.0244
.000269
.024
.00148
.00478
.000689
.003
16
.00146
.00593
.0136
.0495
NR
.000571
NR
NR
.009
16
.0588
.0135
.00307
.00013
.0014
.0506
.003
13
.00177
.00423
.103
.00148
NR
NR
NR
NR
.0015
3­
28
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lb/
hr
lb/
lMMBtu
lb/
EIP­
hr
107.13
108.3.
I
144.6
107,
ll
144.5
107.12
144.4
107.16
144.2
140
144.1
107.14
142.2
142.1
107.15
107.10
144.3
112.3
155.38
112.6
112.5
124
112.4
112.1
125.1
155.36
125.2
125.3
125.4
112.2
125.5
108.2.1
EPA
method
7E
176000
CARE3
method
1­
100
2030000
CARB
103
EPA
method
7E
c
m
103
EPA
method
7E
CARE3
103
EPA
method
7E
CARB
101
EPA
7E
c
m
100
EPA
method
7E
EPA
20
EPA
20
EPA
method
7E
EPA
method
7E
CARE3
103
EPA
7E
179000
535000
171000
1750000
93000
30300
88000
753000
30000
2360000
708000
41300
159000
961000
8
1000
17300
CARB
method
1­
100
3530000
EPA
7E
40600
EPA
7E
19100
CARE3
100.1
25
100
EPA
7E
24200
EPA
7E
17900
EPA
method
7e
240000
CARE3
method
1­
100
789000
EPA
method
7e
258000
EPA
method
7E
733000
EPA
method
7E
657000
EPA
7E
7340
EPA
method
7E
940000
CARE3
method
1­
100
2210000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
.
s49
16.4
2.57
7.73
2.37
20.2
1.29
.469
1.33
S.
26
.4
6.55
3.36
.259
2.01
.463
1.15
.0137
4.1
.00756
.00324
.0164
.00729
.010s
13.3
.253
15
33
30.7
.00414
41.7
17
.75
2.15
238
1.58
.341
4.22
.185
.111
.179
.827
.0587
4.1
.749
.0434
.474
1.23
.171
.0388
4.01
.0752
.0336
.0262
.055S
.03
19
.925
.
S36
.979
2.68
2.45
.0149
3.3
2.3
1
.0369
.0293
.00295
336
.00256
.575
.00151
.0191
.00153
.0124
.00043S
.265
NR
NR
.0522
NR
.00143
.000213
NR
.000302
.00013
.00013
1
.00029
1
.000172
.00983
NR
.0111
.0244
.0228
.0000657
.0309
.0305
3­
29
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
Ib/
hi­
IblMMBtu
IbMP­
hr
123.2
155.33
112.14
155.29
112.13
155.30
112.12
155.31
155.37
112.11
112.7
112.10
155.34
112.9
155.35
112.8
111
155.32
126.4
105.1
108.7.2
126.3
108.7.1
108.6.2
125.6
108.5.2
126..
1
108.5.1
108.4.2
108.4.1
108.3.2
126.5
EPA
method
7E
670000
CARE3
method
1­
100
18100
EPA
7E
32300
CARB
method
1­
100
83300
EPA
7E
50000
CARE3
method
1­
100
982000
EPA
7E
46400
CARE3
method
1­
100
46600
CARB
method
1­
100
784000
EPA
7E
35700
EPA
7E
44800
EPA
7E
40500
CARB
method
1­
100
1050000
EPA
7E
52500
CARB
method
1­
100
256000
EPA
7E
28700
CARB
method
1­
100
40300
CARB
method
1­
100
106000
CARE3
method
1­
100
96800
EPA
7E
100000
CARB
method
1­
100
506000
CARE3
method
1­
100
87700
CARE3
method
1­
100
2510000
CARB
method
1­
100
158000
EPA
method
7E
410000
CARB
method
1­
100
193000
CARB
method
1­
100
59300
CARE3
method
1­
100
2270000
CARE3
method
1­
100
347000
CARB
method
1­
100
2280000
CARB
method
1­
100
70300
CARE3
method
1­
100
102000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
8.82
.0102
.00703
.042
.0202
.339
.0204
.0232
1.67
.0205
.00618
.0247
.332
.0669
.14
.0175
.571
.0458
1.4
2.2
3.51
.985
17.1
1.17
19.4
1.42
.869
17
2.5
16.7
.57
1.42
.707
.0378
,0572
.15
.
os
11
1.16
.0736
.0683
2.37
.060
1
.0706
.0637
1.11
.
OS71
.454
.0683
.0738
.124
.21
301
323
,182
2.6
.165
1.51
.20
1
.134
2.37
3
6
2.39
.073S
.2i2
.00735
NR
.00018
NR
.000412
NR
.0004
16
NR
NR
.000446
.000248
.000392
NR
.0005
1
NR
.000278
.000571
NR
.00152
.00278
.00632
.00
142
.0309
.00216
.0144
.00247
.00114
.0294
.00443
.0298
.
oo
102
.00164
'
3­
30
Concent
ration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lbhr
lb/
MMBtu
Ib/
HP­
hr
155.28
108.6.1
110.1
125.7
110.4
125.8
125.9
110.3
125.10
126.2
110.2
105.2
125.12
125.13
125.14
125.15
109
108.2.2
125.11
31.12X
csu­
1.9.1
3
1
.
1
7
~

31.16~

CSU­
1.9.2
31.15x
3
1
.
1
4
~

csu­
1.4..
2
31.13x
csu­
1.8.2
csu­
2.1.2
31.11x
CSU­
2.10.1
EPA
Method
7E
132000
ppb
NA
1.51
CARE
method
1­
100
204000
CARE3
method
1­
100
1520000
NR
761000
EPA
method
7E
1120000
NR
132000
EPA
method
7E
390000
EPA
method
7E
373000
NR
965000
EPA
method
7E
453000
CARE3
method
1­
100
72200
NR
945000
EPA
7E
1090000
EPA
method
7E
3
5
10000
EPA
method
7E
2920000
EPA
method
7E
3650000
EPA
method
7E
3240000
EPA
7E
173000
CARE3
method
1­
100
75000
EPA
method
7E
3210000
FTIR
1020000
EPA
Method
7E
133000
FTIR
1480000
FTIR
1240000
EPA
Method
7E
141000
FTIR
1400000
FTIR
1690000
EPA
Method
7E
325000
FTIR
1670000
EPA
Method
7E
33700
EPA
Method
7E
1
19000
FTIR
1240000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
20000
NA
25000
20000
NA
20000
25000
NA
25000
NA
NA
20000
.0733
11.2
46.6
45.5
1.85
17.5
16.5
51.6
20.7
1.01
55.3
38.2
139
126
141
130
7.83
.569
123
24.1
1.78
60.4
28.3
1.91
32
38.2
3
.
s9
36.3
.444
1.43
30.2
.228
1.58
2.11
3.37
.247
1.43
1.37
2.77
1.77
.147
2.82
3.6
5.99
5.6
6.01
5.66
.43
1
.078
4.9s
3.14
.449
3.42
3.77
.483
4.13
4.66
1.15
4.6
.132
.232
3.93
NR
.0207
.0233
.0537
.00168
.0129
.0122
.0255
.0h3
.00114
.0277
.0382
.0693
.063
.0703
.0648
.00396
.00102
.0613
.03
.00405
.0295
.0399
.00434
.0442
.0539
.0093
1
.0515
.00106
.00194
.0365
.256
.00205
3­
31
­

Concentration
Detection
Fuel
Pollutant
XD
Method
(
uncorrected)
Unit
Limit
lb/
hr
lb/
MMBtu
IbMP­
hr
3
1.
lox
csu­
2.10.2
3
1.9X
csu­
2.1.1
CSU­
1.6.1
csu­
2.2.1
103.10.1
CSU­
1.5.1
103.9.1
103.8.1
csu­
1.5.2
3
1.
lSx
103.6.1
31.19x
103.5.1
CSU­
1.6.2
103.3.1
csu­
1.8.1
1032.1
103.1.1
3
1
.
7
~

103.7.1
29.1
l
x
csu­
2.11.1
103.4.1
csu­
2.14.2
29.
Sx
csu­
2.15.1
2
9
.
7
~

151.20.2
CSU­
2.15.2
160.3.2
FTIR
2
100000
EPA
Method
7E
137000
FTIR
1720000
EPA
Method
7E
112000
EPA
Method
7E
226000
EPA
Method
7E
76300
CARB
method
1­
100
2200000
EPA
Method
7E
39900
CARB
method
1­
100
2270000
CARB
method
1­
100
124000
EPA
Method
7E
44400
FTIR
1330000
CARB
method
1:
lOO
593000
FTIR
1280000
CARB
method
1­
100
2170000
EPA
Method
7E
229000
CARE3
method
1­
100
lOSO000
EPA
Method
7E
29900
CARB
method
1­
100
1920000
CARB
method
1­
100
641000
FTIR
1370000
CARE3
method
1­
100
1300000
FTIR
278000
EPA
Method
7E
110000
CARE3
method
1­
100
2420000
EPA
Method
7E
184000
FTIR
391000
EPA
Method
7E
94200
FTIR
396000
CARB
1­
100
60400
EPA
Method
7E
102000
CARB
100
37100
25000
NA
25000
NA
NA
NA
NA
NA
NA
NA
NA
20000
NA
20000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
40.6
1.56
34.7
1.34
2.64
.66S
1.76
351
1.77
.149
.66
53.7
.604
52.6
3.24
2.88
.433
.408
1.94
.194
3s
1.5
17.4
1.26
1.22
2.17
13.3
1.17
13.7
.403
1.26
.477
5.37
.265
4.33
.21s
.746
.14S
2.47
.149
2.39
.209
.16S
3.44
1.47
3.3
2.76
.736
1.3s
.122
2.32
.693
3.67
1.39
1.0s
.213
3.1
.36
1.29
.185
1.32
.0612
.199
.03S6
.0472
,00212
.0415
.00182
,006
.0013
NR
.00125
NR
NR
.0015
.0276
NR
,0273
NR
.00655
NR
.000976
NR
NR
.0332
NR
.0114
.
OO
17
1
NR
.00295
.0108
.00159
.0111
.00062
.00171
.000355
3­
32
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lblhr
Ib/
MMBtu
lb/
HP­
hr
CSU­
2.16.1
29.10~

2
9
.
9
~

CSU­
2.16.2
29.21~

29.20~

29.19~

2
9
.
6
~

CSU­
2.13.1
103.12.1
csu­
2.11.2
3
1
.
6
~

3
1
.
5
~

csu­
2.12.1
3
1
.
4
~

160.2.2
csu­
2.12.2
3
1
.
8
~

3
1
.
2
~

csu­
2.13.2
3
1.
l
x
160.3.1
160.2.1
CSU­
2.14.1
160.1.1
3
1.3x
151.24.3
151.4.3
151.4.2
151.3.3
151.3.2
160.4.2
EPA
Method
7E
108000
FTIR
638000
FTIR
560000
EPA
Method
7E
117000
FTIR
1450000
FTIR
1200000
FTIR
1420000
FTIR
299000
EPA
Method
7E
65600
CARE3
method
1­
100
652000
EPA
Method
7E
1
18000
FTIR
1290000
FTIR
42800
EPA
Method
7E
111000
FTIR
384000
CARB
100
75900
EPA
Method
7E
118000
FTIR
994000
FTIR
1820000
EPA
Method
7E
70800
FTIR
233000
CARB
100
2960000
CARE3
100
2930000
EPA
Method
7E
174000
CARE3
100
3050000
FTIR
1250000
CARB
1­
100
25700
CARE3
1­
100
226000
CARE3
1­
100
223000
CARE3
1­
100
1880000
CARB
1­
100
1910000
CARE3
100
95200
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
10000
NA
NA
NA
10000
NA
10000
NA
NA
NA
NA
10000
NA
NA
NA
NA
NA
NA
1.32
35.4
31.9
1.42
135
116
120
10.9
.
s93
.739
1.35
35.
s
1.32
1.3
23.3
.961
1.37
27.5
68.9
.909
10.1
38.1
37.1
2.04
40
73.9
.175
1.56
1.54
13
13.2
1.23
.211
2.2
2
.22s
5.25
4.37
5.08
1.0s
.136
1.01
.229
3.45
.156
.21s
1.48
.079
1
.23
2.74
4.06
,138
.
s9s
3.1
3.0s
339
3.17
4.26
.026
.229
.225
1.9
1.93
.0989
.00179
.0193
.0174
.00193
.0419
.0364
.039
.
o
1
.00121
NR
.00133
.03
13
.0014S
.00177
.014
.000717
.
OO
186
.024
.0695
.00124
.0102
.0284
.0277
.00277
.0298
.0377
.000269
,00236
.00233
.0197
.02
.000915
3­
33
Concentration
Detection
h
e
1
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lb/
hr
lb/
MMBtu
lb/
HP­
hr
160.4.1
103.11.1
103.20.2
151.8.2
103.19.2
151.27.2
103.18.2
15
1.27.3
103.17.2
151.28.2
15
1.20.3
151.23.3
151.19.3
151.19.2
151.15.2
151.12.3
151.12.2
151.11.3
15
1.7.2
151.24.2
151.7.3
151.23.2
151.16.3
151.16.2
151.15.3
151.11.2
151.8.3
103.1
5.2
151.28.3
103.18.1
103.16.2
CARB
100
3070000
CARB
method
1­
100
6200000
CARB
method
1­
100
51100
c
m
1­
100
22700
CARB
method
1­
100
254000
CARB
1­
100
14
10000
CARB
method
1­
100
34600
CARB
1­
100
1700000
CARB
method
1­
100
11600
CARB
1­
100
4610
CARB
1­
100
65800
CARB
1­
100
2060000
CARB
1­
100
1ssoooo
CARB
1­
100
1680000
CARB
1­
100
1240000
CARB
1­
100
35000
CARB
1­
100
16000
CARB
1­
100
1490000
CARB
1­
100
1990000
CARB
1­
100
46200
CARB
1­
100
2210000
CARB
1­
100
1620000
CARB
1­
100
117000
CARB
1­
100
42200
CARP,
1­
100
.
1960000
CARB
1­
100
1190000
CARB
1­
100
23000
CARB
method
1­
100
34700
CARB
1­
100
3330
CARB
method
1­
100
1610000
CARB
method
1­
100
60200
CSU­
1.15.1
EPA
Method
7E
140000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
39.6
5.22
.0354
.15
.
OS89
9.97
.024
12
.0095
I
,0329
.439
14.1
12.7
11.4
8.66
.236
.
lo8
10.1
13.2
.3
14
14.7
11.1
.
SO9
.29
13.7
8.04
.152
.01s
.0237
.783
.168
1.97
3.19
7.5
1
.095
1
.023
225
1.46
.0622
1.77
.0269
.00466
.0667
2.1
1.93
1.74
1.27
.0355
.0162
1.52
2.02
.0468
2.24
1.66
.119
.0427
2.01
1.21
.0233
.
os11
.00337
1.89
.
OS9S
.487
.0295
NR
NR
.000227
NR
.0153
NR
.0185
NR
.0000506
.000675
.0217
.0195
.0175
.0133
.000358
.000164
.0153
.02
.0004S3
.0223
.0171
.00124
.000446
.0211
.0122
.00023
NR
.0000365
NR
NR
.00448
3­
34
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
Ib/
hr
1bNMB.
tu
lb/
HP­
hr
103.2.2
103.1.2
csu­
1.15.2
103.20.1
103.4.2
CSU­
1.16.1
csu­
1.14.2
103.17.1
103.16.1
csu­
1.3.2
103.15.1
103.14.1
csu­
1.4.1
103.13.1
103.19.1
103.10.2
160.1.2
csu­
1.12.1
103.14.2,

103.13.2
csu­
1.12.2
103.12.2
103.3.2
csu­
1.13.1
csu­
1.1.1
103.9.2
csu­
1.13.2
103
.
S.
2
103.7.2
csu­
1.14.1
103.6.2
103.5.2
CARB
method
1­
100
370000
CARB
method
1­
100
173000
EPA
Method
7E
147000
CARE3
method
1­
100
2140000
CARB
method
1­
100
3
12000
EPA
Method
7E
163000
EPA
Method
7E
92500
CARB
method
1­
100
1300000
CARE3
method
1­
100
305000
EPA
Method
7E
6790
CARE3
method
1­
100
125000
CARE3
method
1­
100
461000
EPA
Method
7E
321000
CARB
method
1­
100
1160000
CARE3
method
1­
100
485000
CARE3
method
1­
100
465000
CARE3
100
79500
EPA
Method
7E
30500
GARB
method
1­
100
207000
CARB
method
1­
100
95300
EPA
Method
7E
34200
CARE3
method
1­
100
353000
CARE3
method
1­
100
277000
EPA
Method
7E
94400
EPA
Method
7E
10s000
CARE3
method
1­
100
803000
EPA
Method
7E
101000
CARE3
method
1­
100
18700
CARE3
method
1­
100
197000
EPA
Method
7E
87200
CARE3
method
1­
100
407000
CARE3
method
1­
100
973000
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PlJb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
.4s4
.073
2.0s
.921
.195
2.26
1.2
.459
.848
.
OS66
.0495
,169
3.4
.567
.147
SO8
1.05
.397
.118
.058S
.454
.469
.134
1.29
1.39
.914
1.36
.0382
.3
1s
1.15
.553
1.59
.57
.261
.514
2.35
319
,553
212
1.45
.32
.03
19
.136
313
1.12
1.43
.525
.73
.
OS3
.11s
383
.15
.134
.653
.447
.324
.37
1.25
3
4
.0455
.299
.299
1.48
1.42
NR
NR
.00473
NR
NR
.00514
..
00273
NR
NR
.0002S5
NR
NR
.
oos13
NR
NR
NR
.00078
.00095
NR
NR
.00109
NR
NR
,00293
.003
16
NR
,00309
NR
NR
.00261
NR
m
3­
35
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lblhr
IblMMBtu
1bMP­
hr
103.112
29.47~

29.24~

151.22
15
1.20.1
29.25~

151.19.1
csu­
2.9.
B
29.44~

151.21
151.18
29.45~

csu­
2.8.2
29.46~

29.52~

151.15.1
151.23.1
csu­
2.8.1
151.17
29.48~

151.12.1
29.49~

158.2
csu­
2.7.2
29.26~

151.14
151.13
29.51~

csu­
2.7.1
151.16.1
151.28.1
159.1
CARB
method
1­
100
2530000
FTIR
53300
FTIR
36900
CARB
1­
100
16500
CARB
1­
100
56400
FTIR
20200
CARE3
1­
100
2060000
EPA
Method
7E
107000
FTIR
69700
CARE3
1­
100
2
140000
CARE3
1­
100
65800
FTIR
58700
EPA
Method
7E
65700
FTIR
64600
FTIR
55100
CARE3
1­
100
2190000
CARB
1­
100
2230000
EPA
Method
7E
60900
CARB
1­
100
1950000
FTIR
48700
CARE3
1­
100
52000
FTIR
55700
EPA
7E
373000
EPA
Method
7E
154000
FTIR
44000
CARB
1­
100
120000
CARE3
1­
100
2020000
FTIR
67000
EPA
Method
7E
146000
CARB
1­
100
96300
CARB
1­
100
3540
CARB
100
57800
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
2.77
1.9
1.75
.113
.376
.
s73
14
1.27
2.48
14.7
.439
1.98
.665
2.2s
1.8
15.3
15.3
.616
13.1
1.82
251
2.05
4.52
1.25
2.11
.852
14.5
2.2
1.2
.663
.0252
,918
3.96
.12
.14
,0167
.0571
.0795
2.13
,207
.
l53
2.1s
.0667
.131
.136
.143
.122
2.25
2.27
.126
2
.111
.0527
.125
399
.28
1
.169
.122
2.06
.145
.269
.0975
.0035S
.119
NR
.00112
.00102
.000173
.000578
.000614
.0215
.00173
.00139
.0226
.000676
.
oo
12
1
.000904
.00124
.00113
.0235
.0235
.000837
.0202
.00108
.000532
.
OO
116
NR
.00243
.00118
.0013
1
.0223
.00126
.00233
.00102
.0000388
.00119
3­
36
Concentration
Detection
Fuel
Pollutant
ID1
Method
(
uncorrected)
Unit
Limit
lbihi­
lbJMMBtu
Ib/
HP­
hr
159.2
CARB
100
158.
1
EPA
7E
102.3
CARB
method
100
157.2
CARE3
1­
100
157.1
CARB
1­
100
29.36~
FTIR
156
CARB
1­
100
29.37~
FTIR
154.2
EPA
7E
CSU­
1
3.1
154.1
EPA
7E
CSU­
2.9.2
EPA
Method
7E
29.33~
FTIR
29.181;
FTIR
CSU­
1.
U7.2
EPA
Method
7E
29.34~
FTIR
151.27.1
CARB
1­
100
151.26
CARB
1­
100
29.35~
FTIR
CSU­
1.
Z7.1
EPA
Method
7E
29.231;
FTLR
151.25
CARE3
1­
100
29.27ax
FTLR
CSU­
1.16.2
EPA
Method
7E
EPA
Method
7E
151.24.1
CARB
1­
100
29.22~
FTIR
29.50~
FTIR
29.38~
FTIR
151.2
CARB
1­
100
151.7.1
CARB
1­
100
CSU­
2.4..
2
EPA
Method
7E
29.291;
FTIR
62200
2200000
87600
2390000
93800
259000
27800
1300000
119000
7000
108000
1
lS000
1750000
2100000
7030
1660000
1800000
3320
825000
6990
34100
1730000
33100
171000
11500
39200
60000
1540000
210000
2350000
113000
2540000
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
PPb
NA
.962
26.6
1.26
9.82
385
15.9
.0924
78.2
16.5
.0741
15.5
1.4
109
179
.092
103
12.7
.0233
44.4
.0784
1.68
12.5
1.56
2.42
.078
1.94
2.16
92.9
1.46
15.6
1.06
8.59
.124
2.34
.178
2.77
.16
.555
.029
2.41
­
49
1
.0314
.444
.227
3.28
7.03
.0298
3.06
1.87
.00336
1.59
.0297
.131
1
.
s
.13
.597
.0116
.153
.131
2.83
.212
2.39
.22
2.62
.0011
NR
.0014
NR
NR
,00445
NR
.019
.00393
.000244
.00369
.0019
.0265
.0538
.000307
.0243
.0195
.0000359
.0122
,000262
.001
.0192
.000974
.0055
.00012
.00111
.00123
.0223
.00222
.0236
.00144
.0184
3­
37
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lblhr
Ib/
MMBtu
Ib/
HP­
hr
Concentration
Detection
.00226
151.4.1
CARE3
1­
100
215000
ppb
NA
1.49
.218
151.8.1
CARB
1­
100
24000
ppb
NA
.159
.0243
.000241
29.2~
FTIR
1340000
ppb
NA
44.8
4.27
.0492
151.11.1
CARB
1­
100
1850000
ppb
NA
12.5
1.88
.0189
2
9
.
3
~
FTIR
373000
ppb
NA
11.6
1.3
1
.0159
CSU­
2.4.1
EPA
Method
7E
108000
ppb
NA
1.01
.209
.00137
29.12~
FTIR
870000
ppb
NA
43.5
3.05
.0242
151.5
CARB
1­
100
2310000
ppb
NA
15.8
2.35
.0239
151.3.1
CARB
1­
100
2000000
ppb
NA
13.9
2.03
,0211
29.13~
FTIR
309000
ppb
NA
15.2
1.16
.0097
1
29.28~
FTIR
2840000
ppb
NA
14.6
2.94
.0185
149.1
EPA
7E
and
20
303000
ppb
NA
30.2
1.06
.00887
127
CARB
method
100
187000
ppb
NA
2.2
366
.00238
CSU­
1.1
1.2
EPA
Method
7E
31200
ppb
NA
.4
14
.122
.00099
29.17~
FTIR
1700000
ppb
NA
159
'
5.75
.0473
CSU­
2.2.2
EPA
Method
7E
82500
ppb
NA
.723
.161
.0014
2
9
.
5
~
FTIR
1030000
ppb
NA
34
3.75
.0405
CSU­
2.3.2
EPA
Method
7E
81700
ppb
NA
.591
.159
.00115
147
EPA
7E
52000
ppb
NA
.45
1
.111
NR
29.14~
FTIR
364000
ppb
NA
16.3
1.37
.0105
CSU­
2.3.1
EPA
Method
7E
72800
ppb
NA
.527
.142
,00102
29.16~
FTIR
757000
ppb
NA
35.4
2.65
.0207
149.2
EPA
7E
and
20
78500
ppb
NA
9.43
.3
.00277
29.15s
FTIR
1430000
ppb
.
NA
64.4
4.76
.0354
151.1
CARB
1­
100
1860000
ppb
NA
12.9
1.88
.0196
29.
l
x
FTIR
914000
ppb
NA
27.9
2.87
.0326
2
9
.
4
~
FTIR
496000
ppb
NA
16.9
2.01
.0225
29.40~
FTIR
3040000
ppb
NA
85.2
5.24
.0468
CSU­
1.1.2
EPA
Method
7E
113000
ppb
NA
1.54
.392
.0035
29.30ax
FTIR
8030
PPb
NA
.0429
.00816
.0000504
CSU­
2.6.2
EPA
Method
7E
214000
ppb
NA
2.41
389
.00327
151.9
CARE3
1­
100
1910000
ppb
NA
12.9
1.94
.0196
3­
38
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lb/
hr
Concentration
Detection
WMMBtu
lb/
HP­
hr
CSU­
2.6.1
29.3
l
x
29.32~

151.6
29.39~

csu­
1.10.1
csu­
1.10.2
29.42~

29.41~

151.10
29.43~

csu­
2.5.1
csu­
1.11.1
CSU­
2.5.2
PM­
10
29.45~

102.1
3
1
.
7
~

29.27ax
133
102.2
3
1
.
2
~

29.30ax
3
1.
l
x
TGNMO
162.2.2
162.2.1
EPA
Method
7E
FTIR
FTIR
c
m
1­
100
FTIR
EPA
Method
7E
EPA
Method
7E
FTIR
FTIR
CARB
1­
100
FTIR
EPA
Method
7E
EPA
Method
7E
EPA
Method
7E
EPA
201A
EPA
method
5
EPA
20
1A
EPA
20
1A
EPA
5
EPA
method
5
EPA
20
1A
EPA
20
1A
EPA
20
1A
EPA
25
EPA
25
205000
8380
35300
24600
3350000
155000
162000
677000
3340000
69400
775000
71700
27600
78200
.
ooo
1
.169
.003
.0001
.
is8
.0795
.005
.0006
.02
1300000
7690000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
2.33
.043
1
.117
.167
57.7
2.14
2.24
18.8
89.7
.47
21.6
.955
,354
1.03
Maximum:
179
Average:
11.8
grldscf
grldscm
grldscf
grldscf
grldscm
grldscm
grldscf
grldscf
gr/
dscf
NA
NA
NA
NA
NA
NA
NA
NA
NA
.00403
.
l
l
.1
.00565
.
OS26
.0426
.227
.00384
1.04
Maximum:
1.04
Average:
.
lS
PPb
NA
93.2
PPb
NA
559
.376
.00853
.0358
,025
5.65
.534
.56
1.2
5.63
.0704
1.37
.149
.
lo5
.161
7.51
1.16
.000266
.0123
.00964
.000468
.0105
.0057
,0134
.00073
.0923
.0923
.0161
2.03
12.6
.003
17
.0000523
.000256
.000253
.0498
.00436
.00509
.0104
.0493
.000712
.012
.0013
.000847
.0014
378
.0167
.00000246
.
ooo
11
1
.0000874
.00000353
.0000822
.000045
1
.000229
.00000451
.00106
.00106
.000181
.0131
.0737
3­
39
Detection
Concentration
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
ibhr
Ib/
MMBtzt
lb/
l P­
hr
162.1.2
EPA
25
162.3.1
EPA
25
162.1.1
EPA
25
162.3.2
EPA
10
131.4
131.2
131.1
THC
csu­
NR
NR
NR
3.1
EPA
Methot
25A
CSU­
1.1
1.1
EPA
Method
25A
CSU­
1.1.2
EPA
Method
25A
CSU­
1.12.1
EPA
Method
25A
CSU­
1.10.1
EPA
Method
25A
CSU­
1.1
1.2
EPA
Method
25A
CSU­
1.10.2
EPA
Method
25A
CSU­
1.12.2
EPA
Method
25A
CSU­
2.13.2
EPA
Method
25A
CSU­
2.9.2
EPA
Method
25A
CSU­
2.6.2
EPA
Method
25A
CSU­
2.10.1
EPA
Method
25A
CSU­
2.10.2
EPA
Method
25A
CSU­
2.6.1
EPA
Method
25A
CSU­
2.11.1
EPA
Method
25A
CSU­
2.5.2
EPA
Method
25A
CSU3.11.2
EPA
Method
25A
CSU­
2.12.1
EPA
Method
25A
CSU­
23.1
EPA
Method
25A
CSU­
2.12.2
EPA
Method
25A
CSU­
2.1.1
EPA
Method
25A
4480000
2060000
15300000
524000
30800
44800
32700
9
11000
1330000
976000
1310000
965000
1380000
1010000
1360000
2000000
1870000
1590000
1710000
1800000
1600000
1
s40000
2480000
1s90000
1760000
2460000
1390000
1790000
NA
308
NA
15
1
NA
1120
NA
3s.
3
NA
.147
NA
.217
NA
.153
Maximum:
1120
Average:

NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
252
4.34
5.91
4.63
5.94
4.63
6.35
4.83
6.29
8.94
7.72
6.23
6.82
7.1
6.32
7.34
11.4
7.54
7.14
11.4
7.65
7.42
6.29
3.1
22.8
.792
.0216
.0313
.0225
22.8
5.3
1.09
1.75
1.1s
1.76
1.16
1
.88
1.21
1.87
1.36
1.25
1.01
1.16
1.21
1.02
1.24
1.78
1.28
1.2
1.73
1.23
1.21
.0434
.0212
.157
.0053S
.000139
.000223
.000157
.157
.0355
.00986
.0141
.0105
.0142
.0105
.0152
.011
.015
.0121
.0105
.00846
.00927
.00965
.00859
.00997
.0155
.0102
.0097
.0155
.0104
.
o
10
1
3­
40
Concent
ration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lbkr
1blMMBtu
lb/
HP­
hr
CSU­
2.4.2
EPA
Method
25A
CSU­
2.7.1
EPA
Method
25A
CSU­
2.4.1
EPA
Method
25A
CSU­
2.14.1
EPA
Method
25A
CSU­
2.3.2
EPA
Method
25A
CSU­
2.14.2
EPA
Method
25A
CSU­
2.15.1
EPA
Method
25A
CSU­
2.3.1
EPA
Method
25A
CSU­
2.15.2
EPA
Method
25A
CSU­
2.2.2
EPA
Method
25A
CSU­
2.16.1
EPA
Method
25A
CSU­
2.16.2
EPA
Method
25A
CSU­
2.2.1
EPA
Method
25A
CSU­
2.13.1
EPA
Method
25A
CSU­
1.5.1
EPA
Method
25A
CSU­
1.14.1
EPA
Method
25A
CSU­
1.14.2
EPA
Method
25A
CSU­
1.15.1
EPA
Method
25A
CSU­
1.15.2
EPA
Method
25A
CSU­
1.1.1
EPA
Method
25A
CSU­
1.16.1
EPA
Method
25A
CSU­
1.3.1
EPA
Method
25A
CSU­
1.217.2
EPA
Method
25A
CSU­
1.3.2
EPA
Method
25A
CSU­
1.2/
7.1
EPA
Method
25A
CSU­
1.4.1
EPA
Method
25A
CSU­
2.1.2
EPA
Method
25A
CSU­
1.16.2
EPA
Method
25A
CSU­
1.13.2
EPA
Method
25A
CSU­
1.5.2
EPA
Method
25A
CSU­
2.9.1
EPA
Method
25A
CSU­
1.6.1
EPA
Method
25A
2
160000
1820000
2170000
1770000
2
4
6
0
0
0
0
1820000
1850000
2420000
1960000
2170000
1860000
1910000
2130000
1900000
1030000
978000
995000
1040000
1060000
950000
1010000
1860000
1820000
1920000
1790000
1460000
1870000
1060000
936000
1060000
1820000
942000
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
7.04
5.2
7.05
7.23
6.19
7.47
7.99
6.1
8.42
6.62
7.85
8.06
6.49
9.01
4.93
4.48
4.49
5.08
5.22
4.26
4.89
6.86
8.3
1
8.5
6.99
5.39
7.77
5.21
4.39
5.5
7.49
3.82
1.46
1.17
1.46
1.2
1.66
1.24
1.26
1.64
1.33
1.47
1.26
1.29
1.44
1.37
1.33
1.17
1.17
1.26
1.29
1.13
1.21
2.9
1
2.69
3.13
2.64
1.77
1.26
1.29
1.1
1.4
1.22
1
.
os
.00957
.
o
10
1
.00958
.00982
.012
.0101
.0109
.
OllS
.0114
.0128
,0107
.011
.0126
.0122
.
o
112
.0102
.0102
.0115
.0119
.00968
.0111
.0226
.0278
.028
.0234
.0129
.0106
.0115
.00998
.0125
.0102
.00868
3­
41
­

Concentration
Detection
Fuel
Pollutant
ID1
Method
(
uncorrected)
Unit
Limit
lb/
hr
lb/
MMBtu
lb/
HP­
hr
CSU­
1.6.2
csu­
2.
8.
2
csu­
1.8.
1
csu­
1.8.2
csu­
2.
8
.
1
csu­
1.9.1
csu­
2.7.2
csu­
1.9.2
csu­
1.41.2
29.1
IX
3
1
.
3
~

29.21;

29.12~

29.13~

29.14~

29.15~

29.16~

2
9
.
5
~

29.18~

29.19~

29.20~

29.21~

29.28~

29.10~

29.421;

134
29.6~

29.7~

132
2
9
.
8
~

129.4
129.3
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
EPA
Method
25A
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
EPA
25A
FTIR
FTIR
m
FTIR
NR
NR
953000
2
6
0
0
0
0
0
13
10000
1300000
2510000
964000
1840000
1000000
1480000
1300000
1240000
970000
958000
1230000
1090000
895000
973000
1330000
1740000
1760000
1780000
1750000
1050000
957000
949000
322000
2620000
1340000
750000
1310000
2340000
73
1000
NA
4.16
NA
9.15
NA
6.2
1
NA
5.94
NA
8.84
NA
4.4s
NA
5.21
NA
4.73
NA
6.16
NA
28.4
11025
25.7
NA
10.5
NA
16.7
NA
21
NA
17
NA
14.1
NA
15.8
NA
15.3
NA
51.6
NA
51.6
NA
60
NA
56.7
NA
1.87
NA
18.5
NA
9.19
NA
1.36
NA
33.2
NA
16.2
NA
15
NA
15.5
NA
.203
NA
.
OS16
1.06
1
.88
1.85
1.77
1.81
1.13
1.17
1.2
1.82
1.76
1.48
1.1s
1.17
1.6
1.43
1.04
1.19
1.68
2.02
2.1s
2.25
2.2
1
377
1.15
383
.216
3.31
1.56
.962
1.5
.913
.279
.00945
.0124
.0149
.0142
.012
.0102
.0101
.0108
.0147
.0186
.0131
.0115
,00928
.0134
.011
.00776
.00924
.0182
.
o
m
.0168
.
OlSS
.0176
.00237
.
o
10
1
.005
11
.00164
.0305
.013
1
.00717
.0126
.00135
.000544
3­
42
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
Ib/
hr
lb/
MMBtu
lb/
HP­
hr
Concentration
Detection
103.4.1
3
1
.
1
~

103.20.2
130.2
3
1.2x
130.1
2
9
.
9
~

29.46~

29.36~

29.37~

29.38~

29.33~

29.34~

29.35~

29.23~

29.2%~

29.22~

29.26~

29.24~

29.25~

29.29~

29.45~

129.1
29.47~

29.48~

29.49~

29.50~

29.51~

29.52~

29.39~

29.40~

29.41~
NR
FTIR
NR
NR
FTIR
NR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
NR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
578000
761000
3660000
1400000
241000
1220000
971000
2330000
2270000
2270000
lssoooo
1670000
1680000
1s00000
1560000
1360000
1220000
1360000
1430000
1950000
1390000
3290000
700000
3570000
4
140000
2900000
2680000
1930000
3300000
947000
938000
900000
NA
10604
NA
NA
10989
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
.
lo1
11.5
.
ss2
69.6
3.17
63.5
19.3
28.6
48.5
47.6
39.3
36.2
36.2
33.8
26.6
22.3
21
22.6
23.5
29.3
1.64
38.5
.045
1
44.2
53.9
37.1
33.7
22
37.5
8.62
9.14
8.41
.257
1.02
2.37
2.02
.187
1.65
1.2
1
.8
1.69
1.47
1.2
1.09
1
.
os
1.21
2.08
1
.
s5
1.66
1.81
1.88
2.67
.5
2.55
.259
2.
s1
3.29
2.25
2.04
1.45
2.54
356
.562
.528
NR
.0117
NR
.
O
166
.0032
.0153
.0105
.0155
.0136
.0116
,00945
,00879
.00853
,00925
.0159
.0139
.012
.0127
.0137
,0206
.00352
.0235
.000301
.026
.0321
.02
11
.0191
.0126
.0234
.0049
.00502
.00462
­
3­
43
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
Ib/
hr
lb/
MMBtu
lb/
HP­
hr
29.30ax
29.32~

29.3
l
x
29.43~

29.44~

103.6.2
103.12.1
103.13.1
103.14.1
3
1
.
4
~

103.16.1
129.2
103.18.1
103.19.1
103.20.1
103.1.2
103.2.2
103.3.2
103.11.1
103.5.2
103.15.1
103.7.2
103.8.2
103.9.2
103.10.2
103.11.2
103.12.2
103.13.2
103.14.2
103.15.2
103.16.2
103.17.2
FTIR
FrIR
FTIR
FTIR
FTIR
NR
NR
NR
NR
FTIR
NR
NR
NR
NR
NR
FIR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
607000
846000
640000
1000000
1940000
3
95000
458000
1180000
2960000
1390000
11
10000
198000
1020000
977000
1560000
1570000
513000
1500000
328000
1140000
3480000
1920000
9400000
1480000
1780000
787000
1280000
1500000
5080000
2630000
1120000
9130000
NA
NA
NA
NA
NA
NA
NA
NA
NA
10846
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
1.13
.977
1.14
9.69
24
.187
.181
.2
.378
29.2
1.07
.0128
.172
.
lo3
,234
.23
1
.233
.252
.096
1
.644
.481
1.0s
6.66
.584
.674
.3
.59
321
1.01
.475
1.09
2.61
.215
.299
.226
.615
1.48
.434
.247
SO6
1.15
1.86
.405
.0729
.415
.367
.596
.826
.275
.
S41
.138
376
1.32
1.01
7.94
.795
.969
.428
322
.817
3.27
1.35
,583
7.3s
.00133
.00214
.00133
.00538
.
O
M
NR
NR
NR
NR
.0176
NR
.0000853
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
3­
44
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lb/
hr
lbfMMBtu
lb/
HP­
hr
103.18.2
103.19.2
103.4.2
31.11~

31.5x
3
1
.
6
~

3
1
.
7
~

3
1.8X
31.91;

142.2
3
1.
lox
103.17.1
141
103.10.1
3
1.12X
31.13~

3
1
.
1
4
~

31.15~

103.7.1
142.1
103.8.1
31.16~

103.6.1
103.5.1
29.17~

103.2.1
103.1.1
31.19~

31.18~

31.17~

103.3.1
103.9.1
NR
NR
NR
FTIR
FTIR
FTIR
FTIR
FTIR
FTIR
EPA
25A
FTIR
NR
NR
NR
FTIR
FTIR
FTIR
FTIR
NR
EPA
25A
NR
FTIR
NR
NR
FTIR
NR
NR
FTIR
FTIR
FTIR
NR
NR
2940000
1030000
1340000
3990000
3370000
923000
902000
938000
11
10000
1460000
1280000
1210000
203000
581000
1230000
1220000
1200000
1440000
309000
1090000
628000
1290000
687000
1020000
1710000
260000
1320000
1370000
1380000
2
7
5
0
0
0
0
1270000
567000
NA
NA
NA
26940
10810
11148
1
1025
10846
11001
NA
11025
NA
NA
NA
27263
10940
10905
27086
NA
NA
NA
27056
NA
NA
NA
NA
NA
27233
27263
10
115
NA
NA
.708
.126
.29
33.8
36.2
8.93
8.73
9.03
7.82
2.42
8.56
.143
1.19
.162
10.1
9.24
9.43
11.5
.123
2.38
.262
10.2
.243
.53
1
55.8
.0915
.138
19.6
19.3
38.9
,177
.154
1.83
.459
.775
4.39
4.28
.862
.842
.898
.975
.538
1.13
.469
.
lo6
.226
1.32
1.17
1.15
1.48
.115
.399
.368
1.35
.585
.45
1
2.02
.
lo9
.494
1.23
1.24
2.2
.566
.207
NR
NR
NR
.0408
.0406
.00781
.00763
,00789
.00936
NR
.00996
NR
.00114
NR
.0126
.0132
.0133
.0159
m
NR
NR
.
O
144
m
NR
.0166
NR
NR
.0102
.00991
.0192
NR
NR
­
3­
45
Concentration
Detection
Fuel
Pollutant
ID
Method
(
uncorrected)
Unit
Limit
lb/
hr
lb/
MMBtu
IblHP­
hr
Process
Gas
co
119.1
146
119.2
NMHC
119.1
119.2
NOx
119.2
119.1
146
s
o
2
119.2
146
119.1
CARB
1­
100
c
m
1­
100
c
m
1­
100
EPA
18
EPA
18
c
m
1­
100
c
m
1­
100
CARB
1­
100
CARE3
1­
100
CARB
1­
100
c
m
1­
100
Maximum:
69.6
7.94
­
0408
Average:
12
1.35
­
0123
589000
ppb
NA
2.72
265000
ppb
NA
1.25
780000
ppb
NA
.43
Maximum:
2.72
Average:
1.47
18700
ppb
NA
.0494
89300
ppb
NA
.0281
Maximum:
.0494
Average:
.0388
12200
ppb
NA
.0111
315000
ppb
NA
2.38
84100
ppb
NA
.651
Maximum:
2.38
Average:
1.01
163000
ppb
NA
.205
18300
ppb
NA
.197.

6250
PPb
NA
.066
Maximum:
.205
Average:
,156
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
.00405
.00194
.00369
.00405
.00323
.000073
6
.00024
1
.000241
.000157
.0000948
.00356
.00101
.00356
.00155
.00176
.000306
.0000984
.00176
.000721
3­
46
Attachment
4
Detailed
Derivation
of
Equation
2
Emission
Factor
in
(
Ib/
MMBtu)
for
gaseous
HAP
is
given
in
40
CFR
part
60,
appendix
A,
Method
19,
Eqn.
19.1
as:

for
gaseous
pollutants:

where:
­
C
is
the
measured
concentration
­
MW
is
the
Molecular
Weight
­

V,,,,,

is
the
molar
volume
­
F,
is
the
fuel
factor
as
provided
in
the
test
report
(
F,
and
V,,,,,

have
to
be
at
the
same
standard
temperature)
­
0,
is
the
exhaust
stack
oxygen
level
The
concentration
can
be
expressed
as:

and
assuming
ideal
gas:

PV
=
nRT
V
R
T
dscf
afm
T
(
O
R
)

1
(­)
i
(­
)
=
0
.73
(
)
X
"
P
P
(
afm
)
inrid
Ib
­
m
01
R
4­
1
Also,
T
(
O
R
)
=
T
("
F)
+
460
@
68
O
F
'
and
1
atm,

V,,,,,

from
Eqn.
2
becomes:

V,,,,,

=
0.73
x
(
68
+
460)
/
1
=
385.5
dscfllb­
mol
and
Eqn.
1
becomes:

fb
HAP
,
Ib
­
m
01
385
.
5
dscf
Ib
HAP
)
<
­
(
)
=
C
(
p
p
b
)
x
I
O
'
x
MW
(
c
,
(­

w
dscf
Ib
­
m
01
Eqn
19.1
becomes:

However,
not
all
testing
companies
use
standard
conditions
of
T
=
68
°
F
(
some
use
60
°
F)
aind
presents
the
fuel
factor
based
on
a
different
standard
temperature;
therefore,
for
these
reports,
the
molar
volume
has
to
be
adjusted
to
compensate
for
this
variation.
Here
is
where
the
temperature
correction
comes
in
place.

Assuming
that
the
fuel
factor
is
provided
at
a
temperature
of
T,,,
then
Equation
2
becomes:

Vrno,
ar
=
385.8
x
(
Trd
TstdQ68
OF)

V,,,,,,,

=
385.5
x
(
Tref
+
460)
/
(
460
+
68)

+
460)
/
528
,
therefore
Vmolar
=
385.5
x
(
Tref
Substituting
Eqn.
3
in
Eqn.
1
4­
2
which
can
be
re­
written
as:

Note
that
528
/
(
TrefoF
+
460)
is
the
temperature
correction
factor
to
68OF,
therefore,
Eqn.
1
becomes:

HAP
Ib
­
m
01
dscf
lb
­
m
01
i
(
~
p
385
.
5
dscf
C
(
L­)
i
C
(
p
p
b
)
x
10
x
MW
(
)
"
­
(
)
x
(
Tempratwe
Mnedion
)
Ib
HIP
Substituting
in
Eqn
19­
1
of
40
CFR
60,
App.
A,
Method
19,
the
emission
factor
equation
in
Ib/
MRABtu
becomes:

dscf
Ib
C
(
~
p
b
1
­
l
o
'
x
F
d
(
­
)
*
M
W
(­
)

Ib
MMBtU
M
­
mol
F
­(­­)
i
I
temperawe
mnection
x
oxygen
miredion
dsci
Ib
­
In
01
385
.
5
(­
)

Note,
the
oxygen
correction
factor
is
equal
to
20.9
/
(
20.9
­
%
O,)
and
the
temperature
correction
is
equal
to
528
/
(
T,
+
460).
Substituting
in
these
values,
the
emission
factor
equation
in
Ib/
MMBtu
becomes:

This
is
the
equation
presented
in
the
Background
Document
of
Section
3.1
of
the
AP­
42.

Li
­
3
Attachment
5
Definitions
of
Database
Fields
The
Facilities
table
contains
the
following
fields:

Report
­

ID
­

Facility
Name
­
Location
­
Testing
Company
­
Date
­
Manufacturer
­
Model
­
Engine
Family
­
Charging
Type
­
Cylinders
­
Rating
­
Unit
­
Test
Rating
­
TRUnit
­
Load
­
Fuel
Type
­
Control
Device
­
Application
­
Comments
­

Data
Quality
­
Data
Eintered
By
­
The
Report
Identification
Number.
This
is
an
indexed
field.
Each
report
may
contain
one
or
more
tests
depending
on
the
number
of
units
tested,
test
rating,
controlled
versus
non
controlled
emissions
and
so
on.
Tests
are
indicated
by
the
ID
field.
The
Test
Identification
Number.
The
ID
corresponds
to
the
test
reference
number
within
a
report.
The
name
of
the
facility.
The
location
of
the
test
site.
The
name
of
the
company
that
conducted
the
test.
The
date
the
test
was
performed.
The
name
of
the
engine
manufacturer.
The
engine
model
designation.
Describes
the
type
of
engine
and
the
aidfuel
ratio.
The
type
of
charging
the
engine
utilizes.
The
number
of
combustion
cylinders.
The
rating
of
the
engine
The
rating
units.
The
rate
at
which
the
test
was
conducted.
The
test
rating
units.
The
load
at
which
the
engine
is
operated
during
the
test.
The
fuel
used
for
charging.
The
type
of
device
used
to
control
emissions.
What
is
the
engine
used
for.
Any
comments,
supplemental
information
and
underlying
assumptions.
Observations
about
the
validity
of
the
data.
Person
that
entered
the
data.

The
two
tables
are
related
through
the
Report
and
ID
fields.

The
Test
Data
table
consists
of
the
following
fields:

Report
­
The
Report
Identification
Number.

Pollutant
­
The
name
of
the
pollutant.
Method
­
The
method
used
for
sampling
and
quantification
of
ID
Test
Identification
Number.

pollutant.
Run
1
Conc
R
Run
2
Conc
R
­
The
reported
concentration
for
Run
1.
The
reported
concentration
for
Run
2.
­
Run
3
Conc
R
DL
SD
Avg
Conc
R
Cunit
Run
1
0,
Run
2
0,
Run
3
0,
Run
1
Rate
Run
2
Flate
Run
3
Rate
Avg
Rate
R
Unit
Run
1
F;
actor
Run
2
Factor
Run
3
Factor
Fac
Llnilt
Fuel
Factor
Run
1
Gas
Flow
rate
Run
2
Gas
Flow
rate
Run
3
Gas
Flow
rate
Gas
Flow
rate
Units
Fuel
Heating
Value
Fuel
H\/
Units
Standard
Temp.

Standard
Temp.
Units
Stack
Temp.
Stack
Temp.
Units
Run
1
Fuel
Flow
rate
Run
2
Fuel
Flow
rate
Run
3
IFuel
Flow
rate
Fuel
Flow
rate
Units
Run
1
'%
Moisture
Run
2
'%
Moisture
Run
3
%
Moisture
MW
Comments
The
reported
concentration
for
Run
3.
The
detection
limit
reported
for
the
pollutant.
The
number
of
significant
digits.
The
average
of
the
reported
concentration
for
all
runs.
The
units
used
for
reported
concentration.
The
percent
oxygen
in
the
exhaust
measured
in
Run
1.
The
percent
oxygen
in
the
exhaust
measured
in
Run
2.
The
percent
oxygen
in
the
exhaust
measured
in
Run
3.
The
reported
pollutant
emission
rate
for
Run
1.
The
pollutant
emission
rate
reported
for
Run
2.
The
pollutant
emission
rate
reported
for
Run
3.
The
average
pollutant
emission
rate
for
all
runs.
The
units
for
the
pollutant
emission
rate.
The
pollutant
emission
factor
reported
for
Run
I.
The
pollutant
emission
factor
reported
for
Run
2.
The
pollutant
emission
factor
reported
for
Run
3.
The
units
for
the
pollutant
emission
factor.
The
F­
factor
for
the
fuel
used
for
firing
(
dscf/
MMBtu).
­
The
exhaust
gas
flow
rate
for
Run
1.
The
exhaust
gas
flow
rate
for
Run
2.
The
exhaust
gas
flow
rate
for
Run
3.
The
units
for
the
exhaust
gas
Flow
rate.
The
heating
value
of
the
fuel.
The
units
for
the
fuel
heating
value.
The
standard
temperature
used
for
the
emission
The
units
for
the
standard
temperature.

The
reported
stack
temperature
units.
The
fuel
firing
rate
in
Run
1.
The
fuel
firing
rate
in
Run
2.
The
fuel
firing
rate
in
Run
3.
The
units
for
the
fuel
firing
rate.
The
amount
of
moisture
detected
in
the
exhaust
for
Run
1.
The
amount
of
moisture
detected
in
the
exhaust
for
Run
2.
The
amount
of
moisture
detected
in
the
exhaust
for
Run
3.
The
pollutant
molecular
weight.
Any
comments,
supplemental
information
and
underlying
assumptions.
­
­
­
­
­
­
calculations.
­
­
The
reported
stack
temperature.
­
­
­
­
­
­
­
­

5­
2
