SEFft
         United States
         Environmental Protection
         Agency
          Industrial Environmental Research
          Laboratory
          Research Triangle Park NC 27711
EPA-600/7-78-120b
August 1978
Emission
Characterization
of Stationary NOX
Sources:
Volume II:
Data Supplement
          Interagency
          Energy/Environment
          R&D Program Report

-------
                  RESEARCH REPORTING SERIES


 Research reports of the Office of Research and Development, U.S. Environmental
 Protection Agency, have been grouped into nine series. These nine broad cate-
 gories were established to facilitate further development and application of en-
 vironmental  technology. Elimination of  traditional grouping was  consciously
 planned  to foster technology transfer and a maximum interface in related fields.
 The nine series are:

     1. Environmental Health Effects Research

     2. Environmental Protection Technology

     3. Ecological Research

     4. Environmental Monitoring

     5. Socioeconomic Environmental Studies

     6. Scientific and Technical Assessment Reports (STAR)

     7. Interagency Energy-Environment Research and Development

    8. "Special" Reports

    9. Miscellaneous Reports

This report has been assigned to the INTERAGENCY ENERGY-ENVIRONMENT
RESEARCH  AND DEVELOPMENT series. Reports in this series result from the
effort funded under the 17-agency  Federal Energy/Environment Research and
Development Program. These studies relate to EPA's mission to protect the public
health and welfare from adverse  effects of pollutants associated with energy sys-
tems. The goal of the Program  is to assure the rapid development of domestic
energy supplies in an environmentally-compatible manner by providing the nec-
essary environmental data and control technology. Investigations include analy-
ses of the transport of energy-related pollutants and their health and ecological
effects; assessments  of, and development of,  control  technologies for energy
systems;  and integrated assessments of a wide'range of energy-related environ-
mental issues.
                        EPA REVIEW NOTICE
This report has been reviewed by the participating Federal Agencies, and approved
for  publication. Approval does  not signify that the contents necessarily reflect
the  views and policies of the Government, nor does mention of trade names or
commercial products  constitute endorsemerlt or recommendation for use.

This document is available to the public through the National Technical Informa-
tion Service, Springfield, Virginia 22161.

-------
                                EPA-600/7-78-120b
                                        August 1978
 Emission  Characterization
of Stationary  NOX Sources:
Volume II:   Data Supplement
                    by

      K.G. Salvesen, M. Herther, K.J. Wolfe, and E. Chu

    Acurex Corporation/Energy and Environmental Division
               485 Clyde Avenue
           Mountain View, California 94042
             Contract No. 68-02-2160
           Program Element No. EHE624A
          EPA Project Officer: Joshua S. Bowen

       Industrial Environmental Research Laboratory
         Office of Energy, Minerals, and Industry
           Research Triangle Park, NC 27711
                 Prepared for

       U.S. ENVIRONMENTAL PROTECTION AGENCY
          Office of Research and Development
              Washington, DC 20460

-------
                              TABLE OF CONTENTS


Section                                                                Page

   A       REGIONAL FUEL CONSUMPTION TABLES FOR 1974	     A-l

   B       NATIONAL FUEL CONSUMPTION TABLES FOR 1984, 2000 ....     B-l

   C       NATIONAL CRITERIA POLLUTANT EMISSIONS FOR 1974  ....     C-l

   D       NATIONAL EMISSIONS INVENTORY FOR 1974 	     D-l

   E       REGIONAL STATIONARY SOURCE COMBUSTION CONTROLS  ....     E-l

   F       NATIONAL SOURCE POLLUTION POTENTIAL ASSESSMENT
           FOR 1974	     F-l

   G       POLLUTION POTENTIAL SUMMARIES FOR THE ENERGY
           PROJECTION SCENARIOS IN 1985 AND 2000	     6-1

   H       POLLUTION POTENTIAL TRENDS TO THE YEAR 2000
           FOR THE ENERGY PROJECTION SCENARIOS 	     H-l

-------
                                  PREFACE







       This  is the third of 10 special reports in the "Environmental



Assessment of Stationary Source NO  Combustion Modification Technologies"
                                  A


(NO  E/A).   The NO  E/A is a 36-month program which began  in July
   A              A


1976.  The program has two main objectives:  (1) to identify the



multimedia environmental impact of stationary combustion sources and NO
                                                                       A


combustion modification controls; and (2) to identify the most



cost-effective, environmentally sound NO  combustion modification
                                        A


controls for attaining and maintaining current and projected N0? air



quality standards to the year 2000.



       The program structure incorporating these objectives is shown in



Figure P-l.  The rectangular symbols denote specific subtasks while the



oval symbols show program output.  The arrows show the sequence of



subtasks and the major interaction among tasks.  The top half of the



figure shows the effort to set preliminary source/control priorities.



These efforts are documented in the "Preliminary Environmental Assessment



of Combustion Modification Techniques," September 1977, under EPA Contract



68-02-2160.  The bottom half of the figure shows the major program efforts



which are currently under investigation.



       The two major program tasks are:  Environmental Assessment and



Process Engineering, and Systems Analysis.  In the first task, the



environmental, economic, and operational impacts of specific



                                    in

-------
fmSSI°" -, ~. !™!2L5 EXPERIMENTAL PROCESS ENGINEERING J
CHARACTERIZATION STANDARDS TESTING ENVIRONMENTAL ASSESSMENT
COMPILE COMBUSTION
SOURCE PROCESS
BACKGROUND


1
GENERATE MULTIMEDIA
EMISSION INVENTORY
-J


GENERATE EMISSION
PROJECTIONS » REGIONAL
VARIATIONS
t
COMPARE BASELINE
EMISSIONS TO MULTIMEDIA
ENVIRONMENTAL GOALS
f BASELINE IMPACT \

"
CHARACTERIZE PRIMARY
t SECONDARY MULTI-
MEDIA POLLUTANTS
*
DEFINE MULTIMEDIA
ENVIRONMENTAL GOALS

COMPILE NOX
BACKGROUND
1
EVALUATE DATA ON
INCREMENTAL EMISSIONS
WITH NO, CONTROLS

__ ^^^^ '~**^
_ ^PRELIMINARY SOURCE/\

\
DEFINE SAMPLING
AND ANALYSIS «• — — *"
REQUIREMENTS
f
PROJEQ NO,
ENVIRONMENTAL CONDUCT FIELD
GOALS TESTS
f >L BASELINE AND >.
LsTANDARO PROJECTIONS J I DATA J
'
% ASSESSMENT /
rcONTROL PRIORITIES ON^
1 BASIS OF POTENTIAL IM-
VACT i PROJECTED USE 7

GENERATE CONTROL
TECHNOLOGY PROCESS
STUDIES OF MAJOR
SOURCES
t
COMPARE CONTROLLED
EMISSIONS TO
MULTIMEDIA GOALS
SYSTEMS
ANALYSIS

*~— '

—
CRANKING OF POTEN-S.
f TIAL IMPACTS KITH \
[COMBUSTION MODIFICATION)
V CONTROLS J

DEVELOP PRELIMINARY
MODEL FOR ENVIRONMENTAL
ALTERNATIVES STUDY
1





SCREEN CONTROL
REQUIREMENTS FOR
AIR QUALITY MAIN-
TENANCE



SELECT AND ADAPT
REACTIVE AIR QUALITY
MODEL

'
PROJECT SOURCE
GROWTH » AMBIENT
STANDARDS
|
ASSESS CO
REQUIREME
ALTERNATE
STRATEG1E
NTROL
NTS FOR
ABATEMENT
S
S:
r
<
CONJltTED
EFFORT
^COMBUSTION MODI^X
IFICATION CONTROL K«L-\
V OPMENT PRIORITIES /
Figure P-l.
NOV E/A approach.
  X

-------
source/control combinations will be  assessed.  On  the  basis  of  this



assessment, the incremental multimedia  impacts from the  use  of  combustion



modification NO  controls will be  identified and ranked.  The second
               A


task will, in turn, use these results to  identify  and  rank the  most



effective source/control combinations to  comply, on a  local  basis, with



the current N02 air quality standards and projected N02-related



standards.  As shown in Figure P-l,  the key tasks  supporting these efforts



are the Baseline Emissions Characterization, Evaluation  of Emission



Impacts and Standards, and Experimental Testing.



       The emissions characterization effort documented  in Volume I of



this report provides supporting data to subsequent NO  E/A efforts.
                                                     )\


Figure P-2 shows the approach of the emissions characterization task, and



the organization of this report.   The preliminary  emissions  factor



development, characterization of NO  equipment sources,  and
                                   X


determination of fuel consumption  which resulted in the  1974 controlled



national  emissions inventory  is documented in the  "Preliminary



Environmental Assessment of Combustion Modification Techniques"



(Reference P-l).  However, the following  efforts are documented in



Volume I  of this report.  Section  2  describes the  characterization of



NO  sources.  This characterization  was used to develop  environmental
  A


rankings  and will be used for process engineering  efforts and systems



analyses  in future tasks.  Section 2 includes a chart  summary of sources



and effluent streams that are of potential concern as  NO sources.
                                                         /\


       Section 3 summarizes data on  fuels composition  and usage.  Both



regional  and national fuel usage are needed to generate  comprehensive



national  and regional emission inventories for 1974.   National  fuel



consumption was projected through  the year 2000, considering several

-------
      Section
                                            Section  2
                                                                                  Section 3
                                         Categorize NOX
                                       equipment sources
  Select
pollutants
                                                                            Determine sector
                                                                            fuel consumptions
                                                                              Define equipment
                                                                              fuel consumptions
                                       Identify
                                     waste  streams
    Evaluate
  emission  data
                                                                          Obtain regional  equipment
                                                                              fuel consumptions
                                 National  and regional
                                  baseline emissions
                                   inventories 1974
     Develop
emission  factors
 Develop controlled
  emission factors
                                 Controlled emissions
                                    Inventory 1974
  Project emission
     factors
                                     Characterize
                                    sinale sources
                                                                             Develop  energy
                                                                                scenarios
   Develop control
      scenarios
                                 Determine urban/rucal
                                equipment distributions
                                                                              Obtain sector
                                                                            fuel  projections
                                           Determine
                                      population exposures
                                                                 Develop
                                                           equipment scenarios
                                                                                               Assess
                                                                                       alternate  technoloqies
                                                                                  Project
                                                                          equipment distribution
                                                                                  Project
                                                                             fuel consumption
Controlled emissions
inventory 1985, ?000
                                         Assessment of
                                      pollution potential
                                        Future control
                                          priorities
              Figure  P-2.    Emissions characterization approach.
                                             vi

-------
possible future conditions such as conservation,  use  of  nuclear  power  and



coal conversion.  These scenarios are required to  generate  the future



emissions inventories  in Section 4 and to conduct  the  source  analysis



modeling in Section 5.



       In Section 4, multimedia effluents are quantified  for  the



combinations of equipment types, fuels,  and effluent  streams  identified  in



Sections 2 and 3.  A national emission inventory  is given for 1974.



Regional inventories are presented for 1974.  Additionally, current  and



projected NO  control  implementation is  estimated  to  arrive at
            A


controlled NO  inventories for 1974, 1985, and 2000.
             J\


       The energy projections, equipment distribution  trends, and future



environmental regulations from Section 4 are integrated  in  Section 5 with



urban/rural equipment  distributions and  source populations  proximities to



provide  inputs to the  Source Analysis Model (SAM).  The  results  of SAM are



used to  rank sources according to their multimedia environmental impact.



These results highlight R&D needed to further quantify impact potential,



or  to control adverse  emission levels for specific source/pollutant



combinations.  It should be noted here that the results  of  this  study  are



meant as qualitative indicators of potential problems  rather  than rigid



conclusions.



       Volume II contains the appendices to this  report.  They are



presented as follows:



       «   Appendix A:  Regional Fuel Consumption  Tables  for  1974



       •   Appendix B:  National Fuel Consumption  Tables  for  1985 and  2000



       •   Appendix C:  National Criteria Pollutant Emissions for 1974



       •   Appendix D:  National Emissions Inventory  for  1974



       •   Appendix E:  Regional Stationary Source Combustion Controls



                                      vii

-------
       •   Appendix F:  National Source Pollution Potential Assessment

                        for 1974

       •   Appendix G:  Pollution Potential Summaries for the Energy

                        Projection Scenarios in 1985 and 2000

       •   Appendix H:  Pollution Potential Trends to the Year 2000 for the

                        Energy Projection Scenarios

These appendices support the report documentation given in Volume I.
                         REFERENCES FOR THE PREFACE
P-l.  Mason, H.  B., et al.,  "Preliminary Environmental  Assessment of
      Combustion Modification Techniques, Volume II, Technical Results,"
      EPA-600/7-77-119b,  NTIS-PB 276  681/AS,  Acurex Corporation,
      October 1977.
                                     Vlll

-------
                                 APPENDIX A
                 REGIONAL FUEL CONSUMPTION TABLES FOR 1974

       Appendix A presents regional fuel consumption for 1974.  Regional
tabular summaries are presented as follows:

       «   Utility boiler fuel consumption - Tables A-l to A-9
       •   Packaged boiler fuel consumption - Tables A-10 to A-18
       t   Warm air furnace and other commercial/residential combustion -
           Tables A-19 to A-22
       •   Gas turbine fuel consumption - Tables A-23 to A-26
       •   Reciprocating 1C engine fuel consumption - Tables A-27 to
           A-35
       •   Industrial process heating fuel consumption - Tables A-36 to
           A-44
For further analysis, Section 3.3 gives a detailed description of the
sources and reliability of these estimates.  These values are used in
Section 4 to determine regional emissions.  It should be noted that these
totals do not reflect total energy consumed by stationary sources since
electrical inputs from nonfossil-fuel sources are excluded.  Figure 1
shows the divisions by state that were used in this section.
                                  A-l

-------
                                                NEW
                                             ENGLAND
                                         PA      x*J
                                        ATLANTIC
                                    OHIO  ju-r^^° \X D£L
CENTRAL
        r
        KY
                                          ATLANTIC
              OKLA

            WEST SOUTH
Figure 1.  Divisions of the United States.

-------
                                  TABLE  A-l.   UTILITY BOILER FUEL CONSUMPTION  (EJ)
                                                      NEW ENGLAND



Utility Boilers




Tan gent i al
Single
Wall-Fired
Opposed Wall and
Turbo Furnace
Cyclone
Vertical and
Stoker
^
f. C Vt
3 13 3
<»- 0
•—  C
3 3 -r-
to o £
C 3
§.^
JQ
~& 4J J3

HJ 3
V. O
3 « C
S
0-^3
0.0046
0.0027

0.0007

	
	




a)
.^.
C

	 1
0.0003
0.0001

0.0001

0.0079
0.0001



01
-H
S-
.c

5
—
	 	 .

	

—
0.0006





r->

0.0272
0.0156

0.0044

0.0101
0.0019


•a
(- C
3 IO
M-
3 >a
OO 3

.£! 'i^ ^3
C71 t/t 3
••" QJ t.
n: ce (_>
0.0288
0.0288

0.0116

0.0018
	


3 TJ
M- C
3
C/l r™"
•0
E 3
3-0 ai
•r- •*- -a
T3 « 3
CU 41 i-
0.0724
0.0726

0.0293

0.0041
	


•a
C
i.  "D V
"^ w

O ft* t.
_1 QC O
0.0936
0.0938

0.0380

0.0054
„ 	


TJ
C
fO
a
3
r— T3 Ol
a--~-o
4-» Vt 3
O 
-------
TABLE A-2.  UTILITY BOILER FUEL CONSUMPTION  (EJ)
                  MIDDLE ATLANTIC



Utility Boilers




Tangential
Single
Wall -Fired
Opposed Wall and
Turbo Furnace
Cyclone
Vertical and
Stoker
•o
i. C l/l
3 fl 3
<4- O
•— V> C
3 3 T-
E!B

•*• 3 A
T3 +J .O
Z 03 I/)
0. 3022
0.1731

0.0484

0.0181
0.0126

TJ

3 VI C
<*- 3f-
'E Ji
'.C 3 J3
cn*J xi
•r- ••- 3
3; oo 'i£
3 .Q

_i eovt
0.0994
0.0573

0.0160

	
	




a
o o
H-O
0.5889
0.3363

0.0960

0.1816
0.0387


•a
3 a
3 rQ
l^> 3
-a ai
^ ^- -a
en in 3
••- 0) J-
in 0:0
0.0524
0.0524

0.0211

0.0032
	


3TJ
1- C
t/5 « —
a
!•§«,
•«~ *^ ^|
•a vi a
CD at v.
E: os cj
0.1317
0.1319

0.0532

0.0075
....


•a
c
14- r—
i— 
0.3543
0.3548

0.1433

0.0206
	




5
0.0096
0.0452

0.0040

	
	





^_
ia

^5
0.3639
0.4000

0.1473

0.0206
	





j»
3
4J V\
•a ia
xta
0.0147
0.0319

0.0164

0.0008
	




^
>— VI
to ,
+j Q>
0 3
1— U.
0.9675
0.7682

0.2597

0.2030
0.0387

                                                                              T-571

-------
                                  TABLE A-3.  UTILITY BOILER  FUEL  CONSUMPTION (EJ)
                                                 EAST-NORTH-CENTRAL




Utility Boilers



Tangential
Single
Wall -Fired
Opposed Wall and
Turbo Furnace
Cyclone
Vertical and
Stoker
-a
I- C u>
3 « 3
<«- o
t— U» C
3 3 -r-
t/> O E
C 3
E -I— 4-»
3 E"
•». 3 .a
a> "- 3
X CO l/>
0.8898
0.5131

0.1434
'
0.0536
0.0373

•o
§3
I. O
3 VI C
<*- 3-*-
•311
C/> -r- +J

•t- ••- 3
0.5371
0.3099

0.0865

0.4381
0.0373

^
§ 3
o
1. 1/1 C
f- O S

*" l!5
S.U J3
•r- 3
_j caul
0.2947
0.1699

0.0475

	
„ 	





a>

c
en
0.0180
0.0037

0.0071

0.0465
0.0030




(U
•If

I.
c
	
	

._ 	

	
0.0370







*<0i—
•4-> 10
O O
»~ 0
1.7396
0.9966

0.2845

0.5382
0.1146


•a
&- C
13 *O
4-
(XI 3
•o a>
en vi 3
•r- HI i.
0.0098
0.0098

0.0039

0.0006
	


3 -a
t- £
i — (O
3
g 3
3 T3  "O 0)
5 l/» 3
O 
*» l/» 3
O 0» t-
0.0660
0.0660

0.0266

0.0038





01
 
-------
TABLE A-4.  UTILITY BOILER FUEL  CONSUMPTION  (EJ)
                WEST-NORTH-CENTRAL



Utility Boilers




Tangential
Single
Wall -Fired
Opposed Wall and
Turbo Furnace
Cyclone
Vertical and
Stoker
XI
t- c 
3  C
H_ 3 •—
•3§l
"""e ^
^ §!S
Ot«> .O
x mi/I
0.1494
0.0862

0. 0240

0.1218
0.0104

-Q
si
i_ "> e
3 3v-
til

+j
c
o)
•t—
_l
0.0050
0.0010

0.0020

0.0129
0.0008



(U
+j
o
ID
(.
f-
^j

—
	

__

—
0.0103





^_
id^-
4-> ID
O O
1-0
0.4838
0.2771

0.0791

0.1496
0.0319


TJ
^S
4-
"3 «
1/1 3
XI OJ
i:^- "d
en in 3
•i- OJ l-
ic a; o
0.0013
0.0013

0.0005

0.0001
	


i.
= XI
ts
3
t/1 »~^
«
l^«
•r- 1- XI

•a
c
i- «
t- »-
!"• IQ
13 3
OO X» 0»
T" XI
T3 w 3 5 "S r"
OJ OJ l-
S:Q:O
0. 0032
0.0032

0.0013

0.0002
	

<-> 
Id •»- XI
•4J trt 3
o ai L-
h-a:o
0.0086
0.0086

0.0035

0.0005
._



—
*->
v>
•r-
C3
0.0002
0.0011

0.0001

—
__





. 	
•d
•M • —
O -r-
h- O
0.0088
0.0097

0.0036

0.0005
..




_
ia
i_
3
4^ in
£2
0.1163
0.2517

0.1291

0.0063
_.




<
r— W»
lOr—
+-* V
O 3
I-U-
0.6089
0.5385

0.2118

0.1564
0.0319

                                                                              T-573

-------
TABLE A-5.   UTILITY BOILER FUEL CONSUMPTION (EJ)
                 SOUTH ATLANTIC


Utility Boilers




Tangential
Single
Wall-Fired
Opposed Wall and
Turbo Furnace
Cyclone
Vertical and
Stoker
•a
i- C l/>
3 10 3
*- 2
*"- W C
3 3 'e
§•5 jj
^- E"~

acoa ia
0 0

1.1204
0.5872

0.1677

0.3171
0.0674

•o
S- C
14—
3 *O
LO 3
T) 4- C
13
01 I—
E 3
n ^ <1J
T3 I/I 3
QJ Q) t.
2: oe o
0.1446
0.1449

0.0585

0.0082
	


•a
s_ a
i — IO
3 3
c/) *Q 
*J Vt 3
o ai t.
t— CK JJ
0.3892
0.3898

0.1575

0.0226
	


0)
 ai
O 3
t-u.
1.5929
1.1839

0.4102

0.3436
0.0674

T-574

-------
                               TABLE A-6.  UTILITY BOILER FUEL CONSUMPTION (EJ)
                                                 EAST-SOUTH-CENTRAL


Utility Boilers




Tangenti al
Single
Wall -Fired
Opposed Wall and
Turbo Furnace
Cyclone

Vertical and
Stoker

-a
3 § 3
t- O
i— in C
3 3 •»-
CO O E
c S
-Is

^U «r— ^j
X m 
0.4104
0.2366

0.0662
'
0.0247

0.0172


•a
u SI
3 W> C
!*- 3t-
«S|3

•r— *r— "J
3C£D
0.2477
0.1430

0.0399

0.2021

0.0172


-a
C VI
10 3
t- Ul C
3 3-r-
al^

3» ** "Q
_l StO
0.1359
0.0784

0.0219

—

--





 t/l 3
••- 0) t.
n: aecj
0.0036
0.0036

0.0014

0.0002

—



ll
?>•—
i-ooi
•i— •*- T>
•O U) 3

0.0089
0.0089

0.0036

0.0005

—


1
•o
^§
*? «|j
*3 3
in "O ai
S W» 3
O 4» k.
	 i a£ o
0.0115
0.0115

0.0047

0.0007

—


1
_
43
3
r- T3 O>
*O -r- "O
4-* 4/1 3
o a» i-
i— aeo
0.0240
0.0240

0.0097

0.0014

--




ai
09
•^
Ul

O
0.0006
0.0031 .

0.0003

--

—

i



IO

o ••—
£o
0.0246
0.0271

0.0100

0.0014

—





IO
3

IO IO
ZUJ
0.0167
0.0361

0.0185

0.0009

--




^1
^«
•M (U
O 3
1— U.
0.8436
0.5229

0.1598

0.2505

0.0528


T-575
CO

-------
TABLE A->.  UTILITY BOILER FUEL CONSUMPTION  (EJ)
              WEST-SOUTH-CENTRAL




Utility Boilers





Tangential
Single
Wall-Fired
Opposed Wall and
Turbo Furnace
Cyclone
Vertical and
Stoker
•o
i~ C w>
3 a 3
4- O
•— l/l C
3 3 -p-
i/j a E
C 3

3 E -~
•"- 3 .O
•a +J ja

0.0346
0.0200

0.0056
*
0.0021
0.0014

•a
§vf
3
t- O
3 VI C
>*- 3-r-
•— O E
3 C 3
M •— +J

j± §!S
O>4J -G
.1- .^ 3
3; CQ to
0.0209
0.0121

0.0034

0.0171
0.0014

•Q

S(/l
3
0
s. m c
£o'i
r— C 3
3 f— 4-*
t/> E •»"
3 O
S4-> J3
•f- 3
_j oa
4J

C
en
—i
0.0007
0.0001

0.0003

0.0018
0.0001




0)
+j
'»—
o
01
1-
JC
4J
<
--
„_

__

--
0.0014








i—
IO r-
+J ed
0 0
t-0
0.0677
0.0388

0.0112

0.0210
0.0043



•a
= s
4-
'='«
Jo 3
•o o>
.G -i- "O
CD W 3
." 01 I-
a: 
0.0274
0.0275

0.0111

0.0016
_-



•a
s

to
3
"— "O  ut 3
O 
-------
                                TABLE A-8.  UTILITY BOILER FUEL CONSUMPTION (EJ)
                                                      MOUNTAIN



Utility Boilers




Tangential
Single
Wall-Fired
Opposed Mall and
Turbo Furnace
Cyclone
Vertical and
Stoker
. "2 -
i- C tfl
3 10 3
H- O
•— Ul C
J5fl
Ef- *>
^1S
TJ +J .O
*J J3
•t- -r- 3
ac eo •/)
0. 1099
0.0634

0.0177

0.0897
0.0076

•o
C VI
« 3
».«.g
£11
3 M- *J
«/l Ei-
3 J3
g-U XI
•i- 3
_1 CQI/>
0.0603
0.0348

0.0097

—
—




Ol
4->
•r-
C
O>
•r»
—1
0.0037
0.0008

0.0015

0.0095
0.0006



 IO
O O
t— u
0.3560
0.2040

0.0583

0.1102
0.0234


T3
i. C
3 10
1-
3 IO
l/l 3
T3 Ol
x: -r- -a
CD « 3
•.- 01 J-
3: 0:0
0.0042
0. 0042

0.0017

0.0003
	


&_
3TJ
<4- C
i— IO
3
V) "—
IO
§3
ID a>
•r- ^- "O
"O  3
tu a> t-
s: oe o
0.0105
0.0105

0.0042

0.0006
_.


•a
^ s
^
4- •—
i— IO
3 3
oo *a ai
T- -o
3 Ul 3
O Ol l-
_i a: cj
0.0136
0.0136

0.0055

0.0008
__


•a
g
IO
3
i— -a 01
IO *^ ^
+> t/l 3
0 O) t-
i— aeu
0.0283
0.0283

0.0114

0.0017
.—




at
4->
IO
^.v
^
l/t
a
0.0008
0.0036

0.0003

--
_ _






IO
^j r_
O *r~
t-o
0.0291
0.0319

0.0117

0.0017
	





10
i_
3
4-* (/)
10 10
3CIO
0.0675
0.1460

0.0749

0.0036
__,




^

•— */»
*O *~~
j » 
-------
TABLE A-9.  UTILITY BOILER FUEL  CONSUMPTION (EJ)
                     PACIFIC



Utility Boilers



Tangenti al
Single
Wall -Fired
Opposed Wall and
Turbo Furnace
Cycl one
Vertical and
Stoker
TJ
I- C -SI
3 IB 3
1- O
•— in c
3 3 —
 O E
C 3
£••-*>
•r- 3 J3
T3 *J J3
 j3
z «>«/»
0.0128
0.0074

0.0021

0. 0105
0.0009

•o
C V3

0.0070
0.0041

0.0011

--
	





03

C
DV
0.0004
0.0001

0.0002

0.0011
0.0001



  3
•r- 0) «-
3=0:0
0.0299
0.0299

0.0120

0.0018
.-


£_
•— «a
13
CO r—
10
3 T3 (I)
•5 I/I 3
OJ 0) l_
s: ee o
0.0750
0.0751

0. 0303

0. 0043
__


•o
i- «3
t-r-

CO "O  3
O 0» S-
_i aeo
0.0969
0.0971

0.0393

0.0056
__


•a
•o
,-

3
*J VI 3
O 0) t.
I-QSSJ
0.2018
0.2021

0.0816

0.0117
__



ai
*j
10

!^
4-1
V)
a
0.0055
0.0258

0.0023

--
	






,_
ID
£i
0.2073
0.2279

0.0839

0.0117
	






i_
3
ZC9
0.1018
0.2203

0.1130

0.0055
	




^

r— I/I
+j a>
O 3
t— U.
0.3506
0.4721

0.2037

0.0301
0.0028

                                                                              T-578

-------
                                TABLE A-10.  PACKAGED BOILER FUEL CONSUMPTION (EJ)
                                                     NEW ENGLAND
Packaged
Boilers
Watertube Boiler
Wall-Firing
>29 MW
Watertube Boiler
Stoker
>29 MW
Single Burner
Watertube
<29 MW
Single Burner
Scotch Firetube
<29 MW
Single Burner
HRT Firetube
<29 MW
Single Burner
Firebox Firetube
Single Burner
Cast Iron Boilers
Stoker Water-tubes
<29 MW
Stoker Firetubes
<29 MW
Steam or Hot
Water Units
(Residential Only)
Anthracite
i
—
—
—
—
i
_—
—
0.0001
0.0003
Bituminous
or Lignite
0.0046
0. 0042
0.0029
—
—
—
___
0.0138
0.0001
0.0001
Total
Coal
0.0046
0.0042
0.0029
—

_..
—
0.0138
0.0002
0.0004
Residual
Oil
0.0911
—
0.0851
0.1519
0.0595
0.0979
0.0378
—
.._
_ _ —
Distillate
Oil
0.0009
—
0.0011
0.0048
0.0028
0.0043
0.0351
—
...
0.1743
Total
Oil
0.0920
—
0.0862
0.1567
0.0623
0.1022
0.0729
---
...
0.1743
Natural
Gas
0.0260
—
0.0473
0.0025
0.0014
0.0023
0.0512
—
...
0.0197
Process
Gas



0.0001

0.0001
—
—
___
— — —
Total Fuel
0.1226
0.0042
0.1364
0.1593
0.0637
0.1046
0.1241
0.0138
0.0002
0.1944
T-b/9
I
ro

-------
                            TABLE A-ll.  PACKAGED BOILER  FUEL  CONSUMPTION  (EJ)
                                                 MIDDLE ATLANTIC
Packaged
Boilers
Water-tube Boiler
Wall-Firing
>29 MW
Watertube Boiler
Stoker
>29 MM
Single Burner
Watertube
<29 MW
Single Burner
Scotch Firetube
<2B MW
Single Burner
HRT Firetube
<29 MW
Single Burner
Firebox Firetube
Single Burner
Cast Iron Boilers
Stoker Watertubes
<29 MW
Stoker Firetubes
<29 MW
Steam or Hot
Water Units
(Residential Only)
Anthracite
i

—
—
—
_—
_.-
---
0.0321
0.0123
Bituminous
or Lignite
0.0581
0.0531
0.0361
—
—
—
...
0.1748
0.0701
0.0008
Total
Coal
0.0581
0.0531
0.0361
—
—
.._
—
0.1748
0.1022
0.0131
Residual
Oil
0.1847
—
0.1726
0.1606
0.0629
0.1035
0.0849
_„
_—
0.0649
Distillate
Oil
0.0134
—
0.0162
0.0350
0.0206
0.0316
0.0788
_.-
._.
0.2871
Total
Oil
0.1981
___
0.1888
0.1956
0.0835
0.1351
0.1637
._-
__.
0.3520
Natural
Gas
0.0817
—
0.1487
0.0313
0.0172
0.0290
0.1149
...
---
0.1104
Process
Gas
...
—
—
0.0011
	
0.0011
-__
---
---
...
Total Fuel
0.3379
0.0531
0.3736
0.2280
0.1007
0.1652
0.2786
0.1748
0.1022
0.7748
T-580
3s
I

OJ

-------
TABLE A-12.  PACKAGED BOILER FUEL CONSUMPTION (EJ)
                    EAST-NORTH-CENTRAL
Packaged
Boilers
Water-tube Boiler
Wall-Firing
>29 MW
Water-tube Boiler
Stoker
>29 MW
Single Burner
Watertube
<29 MW
Single Burner
Scotch Firetube
<29 MW
Single Burner
HRT Firetube
<29 MW
Single Burner
Firebox Firetube
Single Burner
Stoker Watertubes
<9 MW
Stoker Firetubes
<29 MW
Steam or Hot
Water Units
(Residential Only)
Anthracite
'


	


	


—


—


—

---
0.0053

0.0008

0.0010


Bituminous
or Lignite
0.2060


0.1883


0.1281


—


—


—

—
0.6193

0.2968 *

0.0043


Total
Coal
0.2060


0.1883


0.1281


—


—


—

—
0.6246

0.2976

0.0053


Residual
Oil
0.7130


— - —


0.0666


0.1558


0.0610


0.1004

0.0128
__-

—

0.0022


Distillate
Oil
0.0239


._.


0.0289


0.1570


0.0926


0.1419

0.0119
	

—

0. 1682


Total
Oil
0.7369


...


0.0955


0.3128


0.1536


0.2423

0.0247




0.1704


Natural
Gas
0.2329


...


0.4242


0.1528


0.0841


0.1413

0.0174
.__

—

0.2247


Process
Gas



—


	


0.0126


—


0.0126

_-.
	

—

—


Total Fuel
1.1758


0.1883


0.6478


0.4782


0.2377


0.3962

0.0421
0.6246

0.2976

0.4004


T-581

-------
TABLE A-13.   PACKAGED BOILER FUEL CONSUMPTION (EJ)
               WEST-NORTH-CENTRAL
Packaged
Boilers
Watertube Boiler
Wall-Firing
>29 MW
Watertube Boiler
Stoker
>29 MW
Single Burner
Watertube
<29 MW
Single Burner
Scotch Firetube
<29 MW
Single Burner
HRT Firetube
<29 MW
Single Burner
Firebox Firetube
Single Burner
Cast Iron Boilers
Stoker Water-tubes
<29 MW
Stoker Firetubes
<29 MW
Steam or Hot
Water Units
(Residential Only)
Anthracite
—
---
—
—
—
—
—
0.0053
0. 0001
_ __
Bituminous
or Lignite
0.0510
0.0466
0.0317
—
—
---
—
0.1533
0.0310
0.0012
Total
Coal
0.0510
0.0466
0.0317
—
—
...
---
0.1586
0.0311
0.0012
Residual
Oil
0.0204
—
0.0190
0.0227
0.0089
0.0146
0.0320
—
...
"• ~ ~
Distillate
Oil
0.0088
—
0.0107
0.0301
0.0177
0.0272
0.0297
---
---
0.0718
Total
Oil
0.0292
—
0.0297
0.0528
0.0266
0.0418
0.0617


0.0718
Natural
Gas
0.0854
—
0.1555
0.0949
0.0522
0.0877
0.0433
---

0.0851
Process
Gas
_-_
—
—
0.0002
—
0.0002
.__
.__
...
	
Total Fuel
0.1656
0.0466
0.2169
0.1479
0.0788
0.1297
0.1050
0.1586
0.0311
0.1581
T-582

-------
TABLE A-14.  PACAKGED BOILER FUEL CONSUMPTION (EJ)
                  SOUTH ATLANTIC
Packaged
Boilers
Watertube Boiler
Wall-Firing
>29 MW
Watertube Boiler
Stoker
>29 MW
Single Burner
Watertube
<29 MW
Single Burner
Scotch Firetube
<29 MW
Single Burner
HRT Firetube
<29 MW
Single Burner
Firebox Firetube
Single Burner
Cast Iron Boilers
Stoker Water-tubes
<29 MW
Stoker Firetubes
<29 MW
Steam or Hot
Water Units
(Residential Only)
Anthracite
t
—
—
—
—
---
—
0.0001
0.0004
Bituminous
or Lignite
0.0643
0.0587
0.0399
—
—
__.
0.1932
0.0766
0. 0024
Total
Coal
0.0643
0.0587
0.0399
—
—
_—
0.1932
0.0767
0.0028
Residual
Oil
0.2000
_--
0.1868
0.2641
0.1034
0.1702
0.0013
...
...
...
Distillate
Oil
0.0197

0.0239
0.0777
0.0458
0.0702
0.0012
---
---
0.1168
Total
Oil
0.2197

0.2107
0.3418
0.1492
0.2404
0.0025
...
...
0.1168
Natural
Gas
0.1476
— _ _
0.2687
0.0625
0.0344
0.0578
0.0017
...
...
0.0531
Process
Gas
---
...
	
0.0001
	
0.0001
-__
—
	
Total Fuel
0.4316
0.0587
0.5193
0.4044
0.1836
0.2983
0.0042
0.1932
0.0767
0.1727
T-583

-------
                              TABLE A-15.  PACKAGED BOILER FUEL CONSUMPTION  (EJ)
                                                EAST-SOUTH-CENTRAL
Packaged
Boilers
Water-tube Boiler
Wall-Firing
>29 MW
Watertube Boiler
Stoker
>29 MW
Single Burner
Watertube
<29 MW
Single Burner
Scotch Firetube
<29 MW
Single Burner
HRT Firetube
<29 MW
Single Burner
Firebox Firetube
Single Burner
Cast Iron Boilers
Stoker Watertubes
<29 MW
Stoker Firetubes
<29 MW
Steam or Hot
Water Units
(Residential Only)
Anthracite
i
—
—
—

— -
__.
...
0.0089
...
Bituminous
or Lignite
0.0592
0.0541
0.0368
—
—
—
_—
0.1778
0.0687
0.0016
Total
Coal
0.0592
0.0541
0.0368
—
—
—
___
0.1778
0.0776
0.0016
Residual
Oil
0.0064
—
0.0060
0.0127
0.0050
0.0082
0.0178
—
—
__ _
Distillate
Oil
0. 0063
—
0.0076
0.0359
0.0212
0.0325
0.0165
—
...
0.0093
Total
Oil
0.0127
—
0.0136
0.0486
0.0262
0.0407
0.0343

___
0.0093
Natural
Gas
0.0845
—
0.1538
0.0502
0.0276
0.0464
0.0241
---
...
0.0375
Process
Gas
---
—
—
0.0031
—
0.0031
„_
___
_._
_ _ _
Total Fuel
0.1564
0.0541
0.2042
0.1019
0.0538
0.0902
0.0584
0.1778
0.0776
0.0484
T-584
I
••^J

-------
                              TABLE A-16.   PACKAGED BOILER FUEL CONSUMPTION (EJ)
                                                WEST-SOUTH-CENTRAL
Packaged
Boilers
Water tube Boiler
Wall-Firing
>29 MW
Water-tube Boiler
Stoker
>29 MW
Single Burner
Water-tube
<29 MW
Single Burner
Scotch Firetube
<29 MW
Single Burner
HRT Firetube
<29 MW
Single Burner
Firebox Firetube
Single Burner
Cast Iron Boilers
Stoker Watertubes
<29 MW
Stoker Firetubes
<29 MW
Steam or Hot
Water Units
(Residential Only)
Anthracite
i
---
—
---
—
___
.._
0. 0105
_--
_«»
Bituminous
or Lignite
0.0173
0.0158
0.0108
---
—
._.

0.0521
—
— _ _
Total
Coal
0.0173
0.0158
0.0108
---
---
—
.._
0.0626
—
<•__
Residual
Oil
0.0198
—
0.0185
0.0373
0.0146
0.0243
0.0005
...
—
*« —
Distillate
Oil
0.0062
—
0.0075
0.0354
0.0209
0.0320
0.0005
...
—
0.0009
Total
Oil
0.0260

0.0260
0.0727
0.0355
0.0563
0.0010
—
—
0.0009
Natural
Gas
0.1355
—
0.2467
0.4022
0.2214
0.3720
0.0007
— -
—
0.0716
Process
Gas
---
—
—
0.0008
---
0.0008
—

...
— — _
Total Fuel
0.1788
0.0158
0.2835
0.4757
0.2569
0.4291
0.0017
0.0626
__.
0.0725
T-585
__l
00

-------
TABLE A-17.   PACKAGED BOILER FUEL CONSUMPTION (EJ)
                        MOUNTAIN
Packaged
Boilers
Watertube Boiler
Wall-Firing
>29 MW
Watertube Boiler
Stoker
>29 MW
Single Burner
Watertube
<29 Mkl
Single Burner
Scotch Firetube
<29 MW
Single Burner
HRT Firetube
>29 MW
Single Burner
Firebox Firetube
Single Burner
Cast Iron Boilers
Stoker Water-tubes
<29 MW
Stoker Firetubes
<29 MW
Steam or Hot
Water Units
(Residential Only)
Anthracite
...
—
—

—
...

—
„ _
...
Bituminous
or Lignite
0.0398
0.0354
0.0247
—
—
...
_„
0.1196
0.'0063
0.0006
Total
Coal
0.0398
0.0364
0.0247
---
—
—
...
0.1196
0.0063
0.0006
Residual
Oil
0.0064
—
0.0060
0.0134
0.0053
0.0087
0.0057
_—
—
0.0001
Distillate
Oil
0.0015

0.0018
0.0100
0.0059
0.0091
0.0053
---

0.0115
Total
Oil
0.0079

0.0078
0.0234
0.0112
0.0178
0.0110


0.0116
Natural
Gas
0.0381
---
0.0693
0.0377
0.0207
0.0348
0.0078
---
...
0.0391
Process
Gas
---
---
—
0.0008
—
0.0008
-__
---
...
	
Total Fuel
0.0858
0.0364
0.1018
0.0619
0.0319
0.0534
0.0188
0.1196
0.0063
0.0513
T-586

-------
                              TABLE  A-18.   PACKAGED BOILER FUEL CONSUMPTION (EJ)
                                                     PACIFIC
Packaged
Boilers
Watertube Boiler
Wall-Firing
>29 MW
Watertube Boiler
Stoker
>29 MW
Single Burner
Watertube
<9 MW
Single Burner
Scotch Firetube
<29 MW
Single Burner
HRT Firetube
<29 MW
Single Burner
Firebox Firetube
Single Burner
Cast Iron Boilers
Stoker Water-tubes
<29 MW
Stoker Firetubes
<29 MW
Steam or Hot
Mater Units
(Residential Only)
Anthracite
___
—
—
—
—
_._
—
—
0.0001
__«
Bituminous
or Lignite
0.0097
0.0089
0.0060
—
—
...
---
0.0291
0.0056
0.0001
Total
Coal
0.0097
0.0089
0.0060
—
—
.__
___
0.0291
0.0057
0.0001
Residual
Oil
0.0370
—
0.0345
0.1264
0.0495
0.0815
0.0023
-—
.__
0.0019
Distillate
Oil
0.0043
—
0.0053
0.0601
0.0354
0.0543
0.0021
-_.
.._
0.0400
Total
Oil
0.0413
—
0.0398
0.1865
0.0849
0.1358
0.0044
---
—
0.0419
Natural
Gas
0.0965
—
0.1758
0.1380
0.0760
0.1277
0.0031
—
_.-
0.0958
Process
Gas
---
—
—
0.0004
—
0.0004
.__
_.-
.__
--«•
Total Fuel
0.1475
0.0089
0.2216
0. 3249
0.1609
0.2639
0.0075
0.0291
0.0057
0.1378
T-587
ro
o

-------
  TABLE A-19.
WARM AIR FURNACE AND OTHER COMMERCIAL/
RESIDENTIAL COMBUSTION (EJ)

         NEW ENGLAND
Warm Air Furnaces
Warm Air Central Furnaces
Warm Air Room Heaters
Miscellaneous Commercial/
Residential Combustion
Distillate
Oil
0.2783
0.1440
--
Natural
Gasa
0.0825
0.0387
0.0267
Total
Fuel
0.3608
0.1827
0.0267
Includes bottled, tank, or LPG
                      MIDDLE ATLANTIC
Warm Air Furnaces
Warm Air Central Furnaces
Warm Air Room Heaters
Miscellaneous Commercial/
Residential Combustion
Distillate
Oil
0.4585
0.2375
--
Natural
Gasa
0.4629
0.2173
0.1498
Total
Fuel
0.9214
0.4548
0.1498
Includes bottled, tank, or LPG
                                A-21

-------
  TABLE A-20.  WARM AIR FURNACE AND OTHER COMMERCIAL/
               RESIDENTIAL COMBUSTION (EJ)

                     WEST-NORTH-CENTRAL
Warm Air Furnaces

Warm Air Central Furnaces
Warm Air Room Heaters
Miscellaneous Commercial/
Residential Combustion
Distillate
Oil
0.1146
0.0593
— —

Natural
6asa
0.3570
0.1676
0.1155

Total
Fuel
0.4716
0.2269
0.1155

Includes bottled, tank, or LPG
                     EAST-NORTH-CENTRAL
Warm Air Furnaces
Warm Air Central Furnaces
Warm Air Room Heaters
Miscellaneous Commercial/
Residential Combustion
Distillate
Oil
0.2685
0.1389
--
Natural
6asa
0.9423
0.4424
0.3049
Total
Fuel
1.2108
0.5813
0.3049
Includes bottled,  tank,  or LPG
                                A-22

-------
  TABLE  A-21.
WARM AIR FURNACE AND OTHER COMMERCIAL/
RESIDENTIAL COMBUSTION (EJ)

        SOUTH ATLANTIC
Warm Air Furnaces
Warm Air Central Furnaces
Warm Air Room Heaters
Miscellaneous Commercial/
Residential Combustion
Distillate
Oil
0.1864
0.0965
__
Natural
Gasa
0.2226
0.1045
0.0720
Total
Fuel
0.4090
0.2010
0.0720
Includes bottled, tank, or LPG
                     EAST-SOUTH-CENTRAL
Warm Air Furnaces

Warm Air Central Furnaces
Warm Air Room Heaters
Miscellaneous Commercial/
Residential Combustion
Distillate
Oil
0.0149
0.0077
— —

Natural
Gasa
0.1573
0.0738
0.0509

Total
Fuel
0.1722
0.0815
0.0509

Includes bottled, tank,  or LPG
                                A-23

-------
    TABLE A-22   WARM AIR FURNACE AND OTHER COMMERCIAL/
                 RESIDENTIAL COMBUSTION (EJ)

                       WEST-SOUTH-CENTRAL
Warm Air Furnaces

Warm Air Central Furnaces
Warm Air Room Heaters
Miscellaneous Commercial/
Residential Combustion
Distillate
Oil
0.0014
0.0007
	

Natural
Gasa
0 . 3004
0.1410
0.0972

Total
Fuel
0.3018
0.1417
0.0972

 Includes bottled, tank or LPG

                            MOUNTAIN
Warm Air Furnaces
Warm Air Central Furnaces
Warm Air Room Heaters
Miscellaneous Commercial/
Residential Combustion
Disti 1 late
Oil
0.0184
0.0095
—
Natural
Gasa
0.1640
0.0770
0.0530
Total
Fuel
0.1824
0.0865
0.0530
Includes bottled, tank or LPG
                            PACIFIC
Warm Air Furnaces

Warm Air Central Furnaces
Warm Air Room Heaters
Miscellaneous Commercial/
Residential Combustion
Distillate
Oil
0.0639
0.0331
_ _

Natural
Gasa
0.4020
0.1887
0.1300

Total
Fuel
0.4659
0.2218
0.1300

Includes bottled,  tank or LPG
                                  A-24

-------
      TABLE A-23.   GAS TURBINE FUEL CONSUMPTION (EJ)



                        NEW ENGLAND
Warm Air Furnaces
Gas Turbines >15 MW
Gas Turbines
4 MW to 15 MW
Gas Turbines
<4 MW
Natural
Gas
0.0050
0.0001
0.0001
Oil3
0.0123
0.3440
0.0001
Total
0.0173
0.3441
0.0002
Includes distillate, diesel, residual  oils
                      MIDDLE ATLANTIC
Warm Air Furnaces
Gas Turbines >15 MW
Gas Turbines
4 MW to 15 MW
Gas Turbines
<4 MW
Natural
Gas
0.0362
—

0.0001

Oila
0.1435
0.0200

0.0001

Total
0.1797
0.0200

0.0002

Includes distillate, diesel, residual  oils
                                A-25

-------
      TABLE A-24.   GAS TURBINE FUEL CONSUMPTION (EJ)



                     EAST-NORTH-CENTRAL
Warm Air Furnaces
Gas Turbines >15 MW
Gas Turbines
4 MW to 15 MW
Gas Turbines
<4 MW
Natural
Gas
0.0338
0.0038

0.0002

Oil3
0.0235
0.0080

0.0002

Total
0.0573
0.0118

0.0004

Includes distillate, diesel, residual oils
                     WEST-NORTH-CENTRAL
Warm Air Furnaces
Gas Turbines >15MW
Gas Turbines
4 MW to 15 MW
Gas Turbines

-------
       TABLE  A-25.   GAS  TURBINE  FUEL  CONSUMPTION  (EJ)



                        SOUTH  ATLANTIC
Warm Air Furnaces
Gas Turbines >15 MW
Gas Turbines
4 MW to 15 MW
Gas Turbines
<4 MW
Natural
Gas
0.0500
0.0006
0.0001
Oila
0.0632
0.0023
0.0001
Total
0.1132
0.0029
0.0002
 Includes distillate,  diesel,  residual  oils
                      EAST-SOUTH-CENTRAL
Warm Air Furnaces
Gas Turbines >15 MW
Gas Turbines
4 MW to 15 MW
Gas Turbines
<4 MW
Natural
Gas
0.0170
0.0050

0.0001

Oila
0.0112
0.0025

0.0001

Total
0.0282
0.0075

0.0002

alncludes distillate, diesel, residual  oils
                                 A-27

-------
      TABLE A-26.  GAS TURBINE FUEL CONSUMPTION (EJ)

                     WEST-SOUTH-CENTRAL
Warm Air Furnaces
Gas Turbines >15 MW
Gas Turbines
4 MW to 15 MW
Gas Turbines
<4 MW
Natural
Gas
0.0162
0.4052

0.0003

Oil3
0.0001
0.0053

0.0003

Total
0.0163
0.4105

0.0006

Includes distillate,  diesel,  residual  oils
                          MOUNTAIN
Warm Air Furnaces
Gas Turbines >15 MW
Gas Turbines
4 MW to 15 MW
Gas Turbines
<4 MW
Natural
Gas
0.0142
0.0291
0.0001
Oila
0.0026
0.1176
0.0001
Total
0.0168
0.1467
0.0002
Includes distillate, diesel, residual  oils
                          PACIFIC
Warm Air Furnaces
Gas Turbines >15 MW
Gas Turbines
4 MW to 15 MW
Gas Turbines
<4 MW
Natural
Gas
0.0156
0.0087
0.0001
Oil3
0.0025
0.0046
0.0001
Total
0.0181
0.0133
0.0002
Includes distillate, diesel, residual  oils
                                A-28

-------
                             TABLE A-27.  RECIPROCATING 1C ENGINE FUEL CONSUMPTION  (EJ)

                                                    NEW ENGLAND
Reciprocating 1C Engines
Compression Ignition
>75 kW/cyl
Spark Ignition
>75 kW/cyl
CI
75 kW to 75 kW/cyl
>1000 rpm
SI
75 kW to 75 kW/cyl
>1000 rpm
CI
<75 kW
SI
<75 kW
Natural
Gas
—
0.0028
— — —
0.0001
—
	
Distillate
Oil (Diesel)
0.0027
—
0.0005
—
—
—
Gasol ine
—
—
- —
_ _ _
—
—
Dual
(Oil + Gas)
0.0008 oil
0.0009 gas
—
_ _ _
— — —
—
—
Total
Fuel
0. 0044
0.0028
0.0005
0.0001
—
—
J*
IX)
                                                                                                      T-588

-------
3»
                               TABLE A-28.  RECIPROCATING  1C ENGINE FUEL CONSUMPTION  (EJ)



                                                    MIDDLE ATLANTIC
Reciprocating 1C Engines
Compression Ignition
>75 kW/cyl
Spark Ignition
>75 kW/cyl
CI
75 kW to 75 kW/cyl
>1000 rpm
SI
75 kW to 75 kW/cyl
>1000 rpm
CI
<75 kW
SI
<75 kW
Natural
Gas
—
0.0325
•"— —
0.0001
—
	
Distillate
Oil (Diesel)
0.0036
—
_ _ _
_ _ _
—
- —
Gasol ine
—
—
— — —
— — —
	
— _ _
Dual
(Oil + Gas)
0.0011 oil
0.0024 gas
—
_ _ •
_ _ «
—
---
Total
Fuel
0.0071
0.0325
___
0.0001
—
	

-------
                             TABLE A-29.   RECIPROCATING 1C ENGINE FUEL CONSUMPTION (EJ)

                                                 EAST-NORTH-CENTRAL
Reciprocating 1C Engines
Compression Ignition
>75 kW/cyl
Spark Ignition
>75 kW/cyl
CI
75 kW to 75 kW/cyl
>1000 rpm
SI
75 kW to 75 kW/cyl
>1000 rpm
CI
<75 kW
SI
<75 kW
N at ur al
Gas
—
0.0833
—
0.0007
—
—
Distillate
Oil (Diesel)
0.0075
---
0.0085
---
—
—
Gasol ine
—
—
—
0.0480
—
0.0280
Dual
(Oil + Gas)
0.0019 oil
0.0083 gas
—
—
—
—
—
Total
Fuel
0.0177
0.0833
0.0085
0.0487
—
0.0280
T-590
I
CO

-------
                             TABLE A-30.   RECIPROCATING 1C ENGINE FUEL CONSUMPTION (EJ)


                                                 WEST-NORTH-CENTRAL
Reciprocating 1C Engines
Compression Ignition
>75 kW/cyl
Spark Ignition
>75 kW/cyl
CI
75 kW to 75 kW/cyl
>1000 rpm
SI
75 kW to 75 kW/cyl
>1000 rpm
CI
<75 kW
SI
<75 kW
Natural
Gas
—
0.1144
__ —
0.0014
—
—
Distillate
Oil (Diesel)
0.0152
—
0.0778
— — —
—
—
Gasol ine
—
—
_ — _
0.0004
—
0.0003
Dual
(Oil + Gas)
0.0022 oil
0.0145 gas
—
—
— — —
—
—
Total
Fuel
0.0319
0.1144
0.0778
0.0018
—
0.0003
T-591
I
co
ro

-------
                            TABLE A-31.   RECIPROCATING 1C ENGINE FUEL CONSUMPTION  (EJ)


                                                  SOUTH ATLANTIC
Reciprocating 1C Engines
Compression Ignition
>75 kW/cyl
Spark Ignition
>75 kW/cyl
CI
75 kW to 75 kW/cyl
>1000 rpm
SI
75 kW to 75 kW/cyl
>1000 rpm
CI
<75 kW
SI
<75 kW
Natural
Gas
—
0.0454
-— —
0.0004
—
—
Distillate
Oil (Diesel)
0.0004
—
0.0014
— -••
—
—
Gasol ine
—
—
---
— ™ —
—
___
Dual
(Oil + Gas)
0.0012 oil
0.0039 gas
—
-— —
_ _ _
—
—
Total
Fuel
0.0055
0.0454
0.0014
0.0004
—
—
3=
I
OJ
OJ
                                                                                                     T-592

-------
                            TABLE A-32.  RECIPROCATING  1C  ENGINE  FUEL  CONSUMPTION  (EJ)



                                                EAST-SOUTH-CENTRAL
Reciprocating 1C Engines
Compression Ignition
>75 kW/cyl
Spark Ignition
>75 kW/cyl
CI
75 kW to 75 kW/cyl
>1000 rpm
SI
75 kW to 75 kW/cyl
>1000 rpm
CI
<75 kW
SI
<75 kW
Natural
Gas
—
0.0755
— — —
0.0006
—
—
Distillate
Oil (Diesel)
0.0033
—
— —
_ —
—
—
Gasol ine
—
—
— . _
""
—
___
Dual
(Oil + Gas)
0.0009 oil
0.0047 gas
—
— — —
— — —
—
—
Total
Fuel
0.0089
0.0755
— -—
0.0006
—
—
T-593
1=
I
co

-------
                             TABLE A-33.  RECIPROCATING 1C ENGINE FUEL CONSUMPTION  (EJ)

                                                 WEST-SOUTH-CENTRAL
Reciprocating 1C Engines
Compression Ignition
>75 kW/cyl
Spark Ignition
>75 kW/cyl
CI
75 kW to 75 kW/cyl
>1000 rpm
SI
75 kW to 75 kW/cyl
>1000 rpm
CI
<75 kW
SI
<75 kW
Natural
Gas
—
0.3594
__ _
0.0344
—
---
Distillate
Oil (Diesel)
0.0101
—
0.0001
- —
___
	
Gasoline
—
—
_ _ _
0.0200
—
0.0116
Dual
(Oil + Gas)
0.0029 oil
0.0168 gas
—
— —
__ _
—
—
Total
Fuel
0.0298
0.3594
0.0001
0.0544
—
0.0116
GO
171

-------
                             TABLE A-34.  RECIPROCATING 1C ENGINE FUEL CONSUMPTION (EJ)


                                                      MOUNTAIN
Reciprocating 1C Engines
Compression Ignition
>75 kW/cyl
Spark Ignition
>75 kW/cyl
CI
75 kW to 75 kW/cyl
>1000 rpin
SI
75 kW to 75 kW/cyl
>1000 rpm
CI
<75 kW
SI
<75 kW
Natural
Gas
—
0.0764
— —
0.0034
—
—
Distillate
Oil (Diesel)
0.0053
—
0.0240
_ w _
—
—
Gasol ine
—
—
— —
0.0155
—
0.0090
Dual
(Oil + Gas)
0.0009 oil
0.0048 gas
—
—
— — —
—
—
Total
Fuel
0.0110
0.0746
0.0240
0.0189
—
0.0090
T-595
3>
I

-------
                             TABLE  A-35.   RECIPROCATING  1C  ENGINE  FUEL  CONSUMPTION  (EJ)



                                                      PACIFIC
Reciprocating 1C Engines
Compression Ignition
>75 kW/cyl
Spark Ignition
>75 kW/cyl
CI
75 kW to 75 kW/cyl
>1000 rpm
SI
75 kW to 75 kW/cyl
>1000 rpm
CI
<75 kW
SI
<75 kW
Natural
Gas
—
0.0234
— —
0.0020
—
—
Distillate
Oil (Diesel)
0.0023
—
0.0168
---
—
—
Gasol ine
—
___
_ —
""
—
—
Dual
(Oil + Gas)
0.0002 oil
0.0016 gas
—
— — —
— — •
—
—
Total
Fuel
0. 0041
0.0234
0.0168
0.0020
—
—
33




OJ
                                                                                                      T-596

-------
TABLE A-36.  INDUSTRIAL PROCESS HEATING PRODUCTION'
                   NEW ENGLAND
 Industrial Process Heating
 Annual Production
  Cement Kilns
  Glass Melting Furnaces
  Glass Annealing Lehrs
  Coke Oven Underfire
  Steel Sintering Machines
  Open Hearth Furnaces
  Brick and Ceramic Kilns
  Catalytic Cracking
  Refinery Flares
  Iron and Steel Flares
0.1080 x 10' Mg
0.2936 x 107 Mg
0.2936 x 107 Mg
2.3660 x 107 Mg
0.0180 x 107 Mg
0.0440 x 107 Mg
11.770 x Mg NO /yrb
              /\
 Refinery Process Heating fuel consumption  in
 New England was negligible
 5NO  estimates
                            A-38

-------
TABLE A-37.  INDUSTRIAL PROCESS  HEATING  PRODUCTION
                 MIDDLE ATLANTIC
 Industrial Process Heating
 Annual Production
  Cement Kilns
  Glass Melting Furnaces
  Glass Annealing Lehrs
  Coke Oven Underfire
  Steel Sintering Machines
  Open Hearth Furnaces
  Brick and Ceramic Kilns
  Catalytic Cracking
  Refinery Flares
  Iron and Steel Flares
0.8310 x 107 Mg
0.2936 x 107 Mg
0.2936 x 107 Mg
2.3660 x 107 Mg
0.1585 x 107 Mg
1.1651 x 107 Mg
0.3411 x 107 Mg
0.2502 x 1011 A feed
848.00 Mg N0x/yra
103.90 Mg N0x/yra
    NO  estimates
      /\
  REFINERY PROCESS HEATING  FUEL  CONSUMPTION  (EJ)
                 MIDDLE ATLANTIC
Heater Type
Natural Draft
Forced Draft
Total
Gas Fuel
0.137
0.140
0.277
Oil Fuel
0.028
0.009
0.037
Total
0.165
0.149
0.314
                            A-39

-------
TABLE A-38.  INDUSTRIAL PROCESS HEATING PRODUCTION
                EAST-NORTH CENTRAL
 Industrial Process Heating
 Annual Production
  Cement Kilns
  Glass Melting Furnaces
  Glass Annealing Lehrs
  Coke Oven Underfire
  Steel Sintering Machines
  Open Hearth Furnaces
  Brick and Ceramic Kilns
  Catalytic Cracking
  Refinery Flares
  Iron and Steel Flares
1.5930 x 10  Mg
0.2927 x 107 Mg
0.2927 x 107 Mg
1.8753 x 107 Mg
0.2336 x 107 Mg
1.3940 x 107 Mg
0.6537 x 107 Mg
0.4239 x 1C11 I feed
1436.6 Mg N0x/yra
153.00 Mg N0x/yra
   NO  estimates
     A
  REFINERY PROCESS HEATING FUEL CONSUMPTION (EJ)
                EAST-NORTH-CENTRAL
Heater Type
Natural Draft
Forced Draft
Total
Gas Fuel
0.207
0.024
0.231
Oil Fuel
0.047
0.015
0.062
Total
0.254
0.039
0.293
                            A-40

-------
TABLE A-39.  INDUSTRIAL PROCESS HEATING  PRODUCTION
                WEST-NORTH-CENTRAL
 Industrial Process Heating
 Annual Production
  Cement Kilns
  Glass Melting Furnaces
  Glass Annealing Lehrs
  Coke Oven Underfire
  Steel Sintering Machines
  Open Hearth Furnaces
  Brick and Ceramic Kilns
  Catalytic Cracking
  Refinery Flares
  Iron and Steel Flares
0.4160 x 10' Mg
0.1874 x 107 Mg
0.1874 x 107 Mg
0.3637 x 107 Mg
0.0117 x 107 Mg
0.1705 x 10- Mg
0.1076 x 1011 H feed
364.60 Mg N0x/yra
7.6970 Mg N0x/yra
   NO   estimates
     X
  REFINERY PROCESS HEATING FUEL CONSUMPTION  (EJ)
                WEST-NORTH-CENTRAL
Heater Type
Natural Draft
Forced Draft
Total
Gas Fuel
0.052
0.006
0.058
Oil Fuel
0.012
0.004
0.016
Total
0.064
0.010
0.074
                            A-41

-------
TABLE A-40.  INDUSTRIAL PROCESS HEATING PRODUCTION
                  SOUTH ATLANTIC
 Industrial Process Heating
 Annual Production
  Cement Kilns
  Glass Melting Furnaces
  Glass Annealing Lehrs
  Coke Oven Underfire
  Steel Sintering Machines
  Open Hearth Furnaces
  Brick and Ceramic Kilns
  Catalytic Cracking
  Refinery Flares
  Iron and Steel Flares
0.7360 x 10' Mg
0.1730 x 107 Mg
0.1730 x 107 Mg
0.7560 x 107 Mg
0.0127 x 107 Mg
0.1242 x 107 Mg
0.3016 x 107 Mg
0.0273 x 1011 a feed
92.490 Mg N0x/yra
8.3320 Mg N0x/yra
   NO   estimates

  REFINERY PROCESS HEATING FUEL CONSUMPTION (EJ)
                   SOUTH ATLANTIC
Heater Type
Natural Draft
Forced Draft
Total
Gas Fuel
0.013
0.002
0.015
Oil Fuel
0.003
0.001
0.004
Total
0.016
0.003
0.019
                            A-42

-------
TABLE A-41.  INDUSTRIAL PROCESS HEATING PRODUCTION
                EAST-SOUTH-CENTRAL
 Industrial Process Heating
Annual Production
  Cement Kilns
  Glass Melting Furnaces
  Glass Annealing Lehrs
  Coke Oven Underfire
  Steel Sintering Machines
  Open Hearth Furnaces
  Brick and Ceramic Kilns
  Catalytic Cracking
  Refinery Flares
  Iron and Steel Flares
0.4630 x 10' Mg
0.2665 x 107 Mg
0.2665 x 107 Mg
0.0127 x 10' Mg
0.1242 x 107 Mg
0.1901 x 107 Mg
0.0757 x 1011 Mg
256.50 Mg NO /yrc
            X
8.3320 Mg N0/yr£
            A
   NO  estimates
     A
  REFINERY PROCESS HEATING  FUEL CONSUMPTION  (EJ)
                 EAST-SOUTH-CENTRAL
Heater Type
Natural Draft
Forced Draft
Total
Gas Fuel
0.037
0.004
0.041
Oil Fuel
0.008
0.003
0.011
Total
0.045
0.007
0.052
                            A-43

-------
TABLE A-42.  INDUSTRIAL PROCESS HEATING PRODUCTION
                WEST-SOUTH-CENTRAL
 Industrial Process Heating
 Annual Production
  Cement Kilns
  Glass Melting Furnaces
  Glass Annealing Lehrs
  Coke Oven Underfire
  Steel Sintering Machines
  Open Hearth Furnaces
  Brick and Ceramic Kilns
  Catalytic Cracking
  Refinery Flares
  Iron and Steel Flares
2.6160 x 10' Mg
0.2378 x 107 Mg
0.2378 x 107 Mg
0.0064 x 10' Mg
0.1242 x 107 Mg
1.0731 x 107 Mg
1.0690 x 1011 £
3621.0 Mg N0/yr
            X
4.1660 Mg N0x/yra
                feed
                a
   NOX estimates

  REFINERY PROCESS HEATING FUEL CONSUMPTION  (EJ)
                WEST-SOUTH-CENTRAL
Heater Type
Natural Draft
Forced Draft
Total
Gas Fuel
0.521
0.060
0.581
Oil Fuel
0.119
0.038
0.157
Total
0.640
0.098
0.738
                            A-44

-------
TABLE A-43.  INDUSTRIAL PROCESS HEATING PRODUCTION3
                     MOUNTAIN
 Industrial Process Heating
 Annual Production
  Cement Kilns
  Glass Melting Furnaces
  Glass Annealing Lehrs
  Coke Oven Underfire
  Steel Sintering Machines
  Open Hearth Furnaces
  Brick and Ceramic Kilns
  Catalytic Cracking
  Refinery Flares
  Iron and Steel Flares
 0.349 x 10' Mg
0.2280 x 10' Mg
0.0157 x 107 Mg
0.1242 x 107 Mg
0.1434 x 107 Mg
10.300 Mg N0x/yrb
 aRefinery Process Heating  Fuel  Consumption  in  the
 Mountain Region is  negligible
 NO  estimates
   X
                             A-45

-------
TABLE A-44.  INDUSTRIAL PROCESS HEATING PRODUCTION
                      PACIFIC
 Industrial Process Heating
 Annual Production
  Cement Kilns
  Glass Melting Furnaces
  Glass Annealing Lehrs
  Coke Oven Underfire
  Steel Sintering Machines
  Open Hearth Furnaces
  Brick and Ceramic Kilns
  Catalytic Cracking
  Refinery Flares
  Iron and Steel Flares
0.5890 x 10' Mg
0.0910 x 107 Mg
0.0910 x 107 Mg
0.1095 x 107 Mg
0.0157 x 107 Mg
0.2482 x 107 Mg
0.2416 x 107 Mg
0.3448 x 1011   feed
1168.0 Mg N0x/yra
10.300 Mg N0x/yra
   NOX estimates

  REFINERY PROCESS HEATING FUEL CONSUMPTION (EJ)
                     PACIFIC
Heater Type
Natural Draft
Forced Draft
Total
Gas Fuel
0.116
0.019
0.135
Oil Fuel
0.039
0.012
0.051
Total
0.155
0.031
0.186
                            A-46

-------
                                 APPENDIX  B
              NATIONAL FUEL CONSUMPTION TABLES  FOR  1985,  2000

       Appendix B gives national fuel consumption for  1985 and  2000.
Tabular summaries are presented as follows:
       9   National fuel consumption for 1985 -- Tables B-l to  B-6
       •   National fuel consumption for 2000 — Tables B-7 to  B-12
These summaries represent the reference high nuclear scenario.  Sections
3.4 and 3.5 present the rationale for choosing  these values as  well  as
their respective uncertainties.  Future fuel consumption  estimates are
used in Section 4 to project emissions nationally through the year 2000
and in Section 5 to evaluate future pollution potential from stationary
combustion sources.  Again, it should be realized that these values  do not
reflect total energy consumed by stationary sources since electrical
inputs from nonfossil-fuel sources are excluded.
                                     B-l

-------
                                  TABLE B-l.  UTILITY  BOILER FUEL CONSUMPTION (EJ)
                                              REFERENCE  CASE - HIGH NUCLEAR FOR 1985


Utility Boilers

Tan gent i al
Single
Wall-Fired
Opposed Wall and
Turbo Furnace
Cyclone
Vertical and
Stoker
^ls
^s!
•»- B 2
•o <-> .a
5.225
3.013

0.842

0.126
0.087

•o
S3
£ si
ill
£ 52
O>4-> A
•*- t- 3
3C COCO
3.154
1.820

0.508

1.034
0.088

•o
C 
4B -J
0
i_ v» C
£11
*is
*.3£
o ••- 3
_iaat/>
1,730
0.998

0.279

~
—



01
c

0.105
0.022

0.042

0.110
0.007



i- C
3   I/I
•o a
0.753
1.628

0.835

0.049
—



r- Wl
«^-
4-> 01
•22
12.050
8.672

2.945

1.381
0.269

ro
rsj
                                                                                                                 T-599(a)

-------
                               TABLE B-2.   PACKAGED BOILER FUEL CONSUMPTION (EJ)
                                           REFERENCE CASE — HIGH NUCLEAR FOR 1985
Packaged
Boilers
Wall -firing
Uatertubes
>29 MWa
Stoker Watertubes
>29 MWa
Single Burner
Watertubes
<29 fWa
Scotch Firetubes
<29 fWa
Single Burner
HRT Firetubes
<29 MHa
Firebox Firetubes
Cast Iron Boilers
Stoker Watertubes
<29 MWa
Stoker Firetubes
<29 MWa
Steam or Hot
Water Units
(Residential Only)
Anthracite
~
~
— -
~
—
~
~
0.012
.0.024
0.008
Bituminous
or Lignite
0.289
0.264
0.180
~
—
™
—
0.869
0.315
0.006 '
Total
Coal
0.289
0.264
0.180
—
—
—
~
0.881
0.339
0.014
Residual
Oil
0.875
--
0.817
1.297
0.508
0.836
0.268
—
—
0.095
Distillate
Oil
0.117
—
0.141
0.612
0.361
0.553
0.249
--
—
1.208
Total
Oil
0.992
--
0.958
1.909
0.869
1.389
0.517
__
~
1.303
Natural
Gas
1.133
—
2.064
0.119
0.653
1.098
0.322
--
—
0.900
Process
Gas
0.159
~
0.159
0.023
—
0.023
__
—
—
..
Total
Fuel
2.573
0.264
3.361
2.051
1.522
2.510
0.839
0.881
0.339
2.217
aHeat input T-600(a>
03

-------
    TABLE B-3(a).  WARM AIR FURNACE AND OTHER COMMERCIAL/
                   RESIDENTIAL COMBUSTION (EJ)
                   REFERENCE CASE — HIGH NUCLEAR FOR 1985
Warm Air Furnaces
Warm Air Central Furnaces
Warm Air Room Heaters
Miscellaneous Commercial/
Residential Combustion
Distillate
Oil
1.909
0.989
—
Natural
Gasa
2.648
1.243
0.857
Total
Fuel
4.557
2.232
0.857
 Includes bottled, tank or LPG
       TABLE B-3(b).   GAS TURBINE FUEL CONSUMPTION (EJ)
                      REFERENCE CASE — HIGH NUCLEAR FOR 1985
Gas Turbines
Gas Turbines >15 MWb
Gas Turbines .
4 MW to 15 MWD
Gas Turbines <4 MW
Natural Gas
0.358
0.609
0.001
Oila
0.440
0.752
0.002
Total
0.798
1.361
0.003
.Includes distillate,  diesel,  residual  oils
 Heat output
                             B-4

-------
                         TABLE B-4.  RECIPROCATING  1C ENGINE FUEL CONSUMPTION  (EJ)
                                     REFERENCE CASE — HIGH NUCLEAR  FOR  1985
Reciprocating 1C Engines
Compression Ignition
>75 kW/cyla
Spark Ignition
>75 kW/cyla
CI
75 kW to 75 kW/cyla
>1000 rpm
51 a
75 kW to 75 kW/cyl
>1000 rpm
CI
<75 kWa
51 a
<75 kWa
Natural
Gas
—
0.346
— — -
0.032
—
—
Distillate
Oil (Diesel)
0.082
—
0.166
__ _
—
—
Gasoline
—
—
— — —
0.108
—
0.063
Dual
(Oil + Gas)
0.079 gas
0.017 oil
—
— — —
__ _
—
—
Total
Fuel
0.178
0.346
0.166
0.140
—
0.063
CO

CJ1
          Power  output
                                                                                                   T-601

-------
  TABLE B-5.   INDUSTRIAL PROCESS HEATING PRODUCTION (EJ)
              REFERENCE CASE -HIGH NUCLEAR FOR 1985
   Industrial  Process Heating
Annual Production
   Cement Kilns
   Glass Melting Furnaces
   Glass Annealing Lehrs
   Coke Oven Underfire
   Steel Sintering Machines
   Open Hearth Furnaces
   Brick and Ceramic Kilns
   Catalytic Cracking
   Refinery Flares
   Iron and Steel Flares
7.767 x 107 Mg
1.556 x 107 Mg
1.556 x 107 Mg
5.753 x 107 Mg
4.896 x 107 Mg
3.257 x 107 Mg
3.187 x 107 Mg
2.315 x 10
          11
               feed
7844 Mg NO /yr
          A
341 Mg N0v/yra
         X
    NO estimates
TABLE B-6.  REFINERY PROCESS HEATING FUEL CONSUMPTION (EJ)
            REFERENCE CASE -- HIGH NUCLEAR FOR 1985
Heater Type
Natural Draft
Forced Draft
Total
Gas
1.129
0.129
1.258
Oil
0.259
0.081
0.340
Total Fuel
1.388
0.210
1.598
                           B-6

-------
                                   TABLE B-7.  UTILITY BOILER FUEL CONSUMPTION  (EJ)
                                               REFERENCE CASE -- HIGH NUCLEAR FOR  2000





Utility Boilers





Tangential
Single
Wall -Fired
Opposed Wall and
Turbo Furnace
Cyclone
Vertical and
Stoker
•o
i. c vt
3 «» 3
t- o
«— VI C
M 0*1
C 3
e i- *j
3 e--
••- 3 ja
TJ +J J3

6.879
3.967

1.109

--
0.065

•o
§4-> J3
a: CQ 
U
ia
s_
f
4->
C
—
__

	

~
0.064









^
rO r—
•n «
0 0
(-0
13.449
7.705

2.200

0.845
0.199



•o
S- c
•a It
O
(/) 3
"O  ia 3
•«- 0> J-
XOCO
0.247
0.247

0.100

0.007
	


t.
3-0
<*- C
i— m
3
(/>•—
IO
e 3
3 -0  3
m cu i_
ifoco
0.620
0.621

0.251

0.017
_..



•a
c
i- 
ia


- •**
4J
W>
a
0.045
0.213

0.019

--
	









^_
 Cl
O 3
I— lu
15.163
9.589

2.895

0.891
0.199

DO
I
                                                                                                                 T-602

-------
                                  TABLE B-8.  PACKAGED  BOILER FUEL CONSUMPTION (EJ)
                                              REFERENCE CASE — HIGH NUCLEAR FOR 2000
Packaged
Boilers
Mall Firing Watertubes
>29 MWa
Stoker Watertubes
>29 MWa
Single Burner
Watertubes
<29 MMa
Scotch Flretubes
<29 MWa
HRT Firetubes
<29 MWa
Firebox Firetubes
Cast Iron Boilers
Stoker Watertubes
<29 MWa
Stoker Firetubes
<29 MWa
Steam or Hot
Mater Units
(Residential Only)
Anthracite
—
~
—
~
~
~
—
0.017
0.033
0.011
Bituminous
or Lignite
0.406
0.371
0.252
—
—
~
—
1.221
0.443
0.009
Total
Coal
0.406
0.371
0.252
~
—
—
~
1.238
0.476
0.020
Residual
Oil
0.970
~
0.906
1.439
0.563
0.927
0.297
—
~
0.105
Distillate
Oil
0.129
—
0.157
0.679
0.400
0.614
0.276
--
—
1.340
Total
Oil
1.099
—
1.063
2.118
0.963
1.541
0.573
~
—
1.445
Natural
Gas
1.020
~
1.857
1.068
0.588
0.988
0.290
~
~
0.810
Process
Gas
0.143
~
0.143
0.021
~
0.021
--
~
~
"""
Total
Fuel
2.668
0.371
3.315
3.207
1.551
2.550
0.863
1.238
0.476
2.275
oo
i
CO
        Heat input
                                                                                                               T-603

-------
   TABLE B-9(a).  WARM  AIR FURNACE  AND OTHER  COMMERICAL/
                  RESIDENTIAL  COMBUSTION  (EJ)
                  REFERENCE  CASE  — HIGH  NUCLEAR  FOR  2000.
Warm Air Furnaces
Warm Air Central Furnaces
Warm Air Room Heaters
Miscellaneous Commercial/
Residential Combustion
Distillate
Oil
1.845
0.955
—
Natural
Gas
3.700
1.737
1.197
Total
Fuel
5.545
2.692
1.197
 Includes  bottled,  tank or  LP6
  TABLE B-9(b).   GAS TURBINE FUEL CONSUMPTION FOR 2000 (EJ)
                 REFERENCE CASE ~ HIGH NUCLEAR FOR  2000
Gas Turbines
Gas Turbines >15 MWb
Gas Turbines .
4 MW to 15 MWD
Gas Turbines
<4 MWb
Natural Gas
0.820
0.569
0.001
Oila
1.048
0.703
0.001
Total
1.868
1.272
0.002
^Includes distillates, diesel, residual oils
 Heat output
                             B-9

-------
                            TABLE  B-10.   RECIPROCATING  1C  ENGINE  FUEL  CONSUMPTION  (EJ)
                                          REFERENCE  CASE --  HIGH NUCLEAR  FOR  2000
CO
I
Reciprocating 1C Engines
Compression Ignition
>75 kW/cyla
Spark Ignition
>75 kW/cyla
CI
75 kW to 75 kW/cyla
>1000 rpm
SI
75 kW to 75 kW/cyla
>1000 rpm
CI
<75 kWa
SI
<75 kWa
Natural
Gas
...

0.130

___


0.030


___

__ —

Distillate
Oil (Diesel)
0.129

—

0.155


__ _


_ —

—__

Gasoline
...

— _

__-.


0.101


...

0.059

Dual
(Oil + Gas)
0.080 gas
0.028 oil
...

«. — —


-, — _


_.— —

« — ~

Total
Fuel
0.237

0.130

0.155


0.131


.. _ _

0.059

                                                                                                       T-604
           Heat output

-------
  TABLE B-ll.  INDUSTRIAL PROCESS HEATING  PRODUCTION  (EJ)
               REFERENCE CASE -- HIGH NUCLEAR FOR 2000
    Industrial Process Heating
Annual Production
    Cement Kilns
    Glass Melting Furnaces
    Glass Annealing Lehrs
    Coke Oven Underfire
    Steel Sintering Machines
    Open Hearth Furnaces
    Brick and Ceramic Kilns
    Catalytic Cracking
    Refinery Flares
    Iron and Steel Flares
9.343 x 107 Mg
1.872 x 107 Mg
1.872 x 107 Mg
1.872 x 107 Mg
6.921 x 107 Mg
5.889 x 107 Mg
3.918 x 107 Mg
3.834 x 1011 i feed
7942 Mg NO /yr'
          /\
386 Mg NO /yra
         f\
     NO estimates
TABLE B-12.  REFINERY PROCESS HEATING FUEL CONSUMPTION (EJ)
             REFERENCE CASE — HIGH NUCLEAR FOR 2000
Heater Type
Natural Draft
Forced Draft
Total
Gas
1.359
0.156
1.515
Oil
0.311
0.098
0.409
Total Fuel
1.670
0.254
1.924
                            B-ll

-------
                                 APPENDIX C
               NATIONAL CRITERIA POLLUTANT EMISSIONS FOR 1974

       Appendix C presents criteria pollutant emissions nationally for
1974.  Tabular summaries are presented as follows:
       •   Utility boiler criteria pollutant emissions — Table C-l
       •   Packaged boiler criteria pollutant emissions -- Table C-2
       •   Warm air furnace and miscellaneous combustion criteria
           pollutant emissions -- Table C-3
       0   Gas turbine criteria pollutant emissions — Table C-4
       •   Reciprocating 1C engine criteria pollutant emissions --
           Table C-5
       t   Industrial process heating criteria pollutant emissions --
           Table C-6
       These emission estimates are derived from the fuel consumption
estimates in Section 3.2 and the emission factors developed in Section
4.1.  These estimates are for uncontrolled NO  emissions, whereas, the
                                             J\
estimates for SO  and particulates are controlled.
                                    C-l

-------
TABLE C-l.   CRITERIA POLLUTANT EMISSIONS FOR THE UTILITY AND LARGE
            INDUSTRIAL BOILER SECTOR FOR 1974 (Gg)  (UNCONTROLLED N0x)
Furnace Design
Tangential


Wall Fired


Opposed Wall


Cyclone


Stoker & Vertical


Totals
Fuel
Coal
Oil
Gas
Coal
Oil
Gas
Coal
Oil
Gas
Coal
Oil
Gas
Coal
Oil
Gas

N0x
1,409.0
208.0
146.0
946.0
481.0
738.3
270.8
175.6
378.7
863.5
16.6
14.7
93.0
—
—
5,741.2
S0x
6,999.6
583.3
0.3
4,030.6
598.6
0.7
1,131.6
236.0
0.4
2,737.4
34.9
0.02
414.7
—
—
16,768.1
HC
4.8
1.4
1.0
2.6
2.2
2.1
0.9
0.6
1.1
10.4
0.5
0.4
1.6
—
—
29.6
CO
58.3
11.9
8.2
64.4
20.3
28.2
7.6
6.9
13.4
30.0
1.2
0.4
18.4
—
—
269.2
Part.
3,178.0
30.5
4.8
1,734.0
31.1
10.5
499.0
12.9
5.4
193.0
1.7
0.3
263.9
—
—
5,965.0
                               C-2

-------
TABLE C-2.  CRITERIA POLLUTANT EMISSIONS FOR THE PACKAGE BOILER SECTOR

            FOR  1974 (Gg)  (UNCONTROLLED NO )
                                           A
Equipment Design
Type
Watertubes
29 MW to 73 MWa

Watertubes
<29 MW

Firetubes
<29 MW

Otherb


Total
Fuel
Coal
Oil
Gas
Coal
Oil
Gas
Coal
Oil
Gas
Coal
Oil
Gas

N0x
290.0
232.8
318.5
278.2
116.4
180.0
107.0
429.3
241.7
4.4
107.7
39.0
2,345.0
S0x
1,402.0
269.0
0.3
2,280.0
298.0
5.7
839.0
1,048.0
0.7
20.4
242.0
0.3
6,405.4
HC
3.1
2.2
3.6
27.7
0.6
2.9
10.1
2.1
4.1
8.2
4.6
3.0
72.2
CO
11.7
2.8
8.4
34.1
2.2
14.5
15.5
8.4
20.7
19.7
28.8
8.6
175.4
Part.
935.8
24.3
1.6
2,787.8
24.1
2.9
1,016.0
98.7
6.3
8.2
20.8
3.8
4,930.3
 Heat input


blncludes cast iron and residential steam and hot water units
                                  C-3

-------
TABLE C-3.   CRITERIA POLLUTANT EMISSIONS FOR THE WARM AIR FURNACE

            AND MISCELLANEOUS COMBUSTION SECTOR FOR 1974 (Gg)

            (UNCONTROLLED NO )
                            A
Equipment
Warm Air Central
Furnace
Warm Air Room
Heater
Miscellaneous
Commercial and
Residential
Combustion
Total
Fuel
Oil
Gas
Oil
Gas
Gas

N0x
85.0
107.3
44.4
49.5
34.4
320.6
S0x
152.0
1.1
78.4
0.4
0.3
232.2
HC
6.5
10.5
3.4
5.0
4.3
29.7
CO
43.6
36.9
22.0
17.3
12.8
132.6
Part.
10.8
13.2
5.7
6.2
3.4
39.3
                               C-4

-------
TABLE C-4.  CRITERIA POLLUTANT EMISSIONS FOR THE GAS TURBINE SECTOR

            FOR 1974 (Gg)  (UNCONTROLLED NO  )
                                          >\
Equipment
Capacity Range
Gas Turbine
>15 MW
Gas Turbine
4 MW to 15 MW
Gas Turbine
<4 MW
Total
Fuel
Oil
Gas
Oil
Gas
Oil
Gas

N0x
97.4
41.3
209.5
91.2
0.4
0.2
440.0
S0x
2.8
0.5
6.2
1.0
0.01
0.002
10.5
HC
2.4
1.8
5.7
3.8
0.02
0.01
13.7
CO
12.4
10.3
27.2
23.1
0.2
0.2
73.4
Part.
4.3
1.3
8.9
2.8
0.02
0.007
17.3
                                  C-5

-------
TABLE C-5.  CRITERIA POLLUTANT EMISSIONS FOR THE RECIPROCATING 1C
            ENGINE SECTOR FOR 1974 (Gg) (UNCONTROLLED N0y)
Equipment
Capacity Range
1C Engines
>75 kW/cyl

1C Engines
75 kW to
75 kW/cyl

1C Engines
<75 kW
Total
Fuel
Oil
Gas
Dual
Oil
Gasoline
Gas
Gasoline

N0x
94.0
1,262.0
71.6
225.0
100.4
66.7
37.5
1,857.2
S0x
5.1
0.2
—
12.3
1.2
0.1
0.8
19.6
HC
6.1
451.0
29.1
14.7
33.7
23.9
19.6
578.1
CO
16.6
143.0
9.6
40.0
1,014.8
7.6
591.9
1,823.5
Part.
5.6
--
13.1
1.8
—
1,0
21.5
                               C-6

-------
TABLE C-6.  CRITERIA POLLUTANT  EMISSIONS  FOR  THE  INDUSTRIAL  PROCESS

            HEATING SECTOR FOR  1974  (Gg)  (UNCONTROLLED  NO  )
                                                         /\
Industrial Equipment
Category
Refinery Heaters
Cement Kilns
Glass Melting Furnaces
Glass Annealing Lehrs
Coke Oven Underfire
Steel Sintering Lines
Open Hearth Furnaces
Brick & Ceramic Kilns
Catalytic Cracking
Refinery Flares
Iron & Steel Flares
Total
NO
X
147.3
100.0
56.7
10.6
4.0
25.2
20.6
7.9
46.0
7.8
0.3
426.4
S0x
22.7
39.2
32.2
__
132.2
34.1
22.6
16.5
323.0
—
—
622.5
HC
20.5
—
—
—
—
—
—
1.3
144.5
—
—
166.3
CO
—
—
—
—
—
106.7
—
3.2
8,969.5
—
__
9,079.4
Part.
37.2
112.0
15.2
—
2,149.0
48.5
193.6
2,052.7
158.2
—
--
4,766.0
                                  C-7

-------
                                 APPENDIX D
                             EMISSION INVENTORY


       Summary emission tables are presented in Section 4.  A complete
listing of emissions of the 29 pollutants considered for each equipment
type, together with emission factors and NO  control factors, is given
                                           /\
in this appendix which has been subdivided into three parts.
D.I    NONCRITERIA POLLUTANT EMISSION FACTORS
       Emission factors for noncriteria pollutants for utility boilers are
presented in Tables D-l and D-2.  Factors for packaged boilers and warm
air furnaces are in Tables D-3 and D-4, respectively.  Trace element
emissions were not computed for other equipment types.
D.2    FORMULATION OF NOV EMISSION CONTROL FACTORS
                        X
       Controlled NO  emissions from a particular source type (A) firing
                    ^
a particular fuel (B) were calculated as:
 Emissions  =  (FC)  x (UEF) £fi  jp- + (1  -£f1)  x (FC)  x (UEF)        (D-l)
           v   	            J V	^	^
                     Term  1                    Term 2

where      FC  = total fuel consumption of fuel  "B" in  sources of the
                 type  "A"
           UEF = uncontrolled emission factor for source/fuel "A/B"
                                    D-l

-------
       TABLE D-l.   SECTOR  I NONCRITERIA  POLLUTANT  EMISSION  FACTORS
Equipment Type
Utility Boilers
Tangential
Anthracite
Bituminous
Lignite
Residual Oil
Distillate Oil
Natural Gas
Single Wall Fired
Anthracite
Bituminous
Lignite
Residual Oil
Distillate Oil
Natural Gas
Opposed Wall and
Turbo Furnace
Anthracite
Bituminous
Lignite
Residual Oil
Distillate Oil
Natural Gas
Cyclone
Anthracite
Bituminous &
Sub-bituminous
Lignite
Residual Oil
Distillate Oil
Natural Gas
Vertical & Stoker
Anthracite
Bituminous &
Sub-bituminous
Lignite
Residual Oil
Distillate Oil
Natural Gas
Sulfates
(ng/J)


4.73
16.80
3.01
12.90
3.01


4.73
16.80
3.01
12.90
3.01



4.73
16.80
3.01
12.90
3.01


4.73
16.80

3.01
12.90
3.01


4.73
16.80

3.01
12.90
3.01

POM'S
Range (pg/J)


0.96 to 121.30
0.96 to 121.30
0.96 to 121.30
0.86 to 0.86
0.86 to 0.86
0.31 to 27.48

0.40 to 121.30
0.40 to 121.30
0.40 to 121.30
0.86 to 0.86
0.86 to 0.86
0.31 to 27.48


0.40 to 121.30
0.40 to 121.30
0.40 to 121.30
0.86 to 0.86
0.86 to 0.86
0.31 to 27.48

1.84 to 1.84
1.84 to 1.84

1.84 to 1.84
0.86 to 0.86
0.86 to 0.86
0.31 to 0.31

0.47 to 121.30
0.47 to 121.30

0.47 to 121.30
0.86 to 0.86
0.86 to 0.86
0.31 to 0.86
Dry Removal Ash
(yg/J)a


0.59
0.52
0.37




0.59
0.52
0.37





0.59
0.52
0.37




0.59
0.52

0.37




0.59
0.52

0.37



Liquid Removal Ash
(pg/J)a


2.36
2.09
1.46




2.36
2.09
1.46





2.36
2.09
1.46




2.36
2.09

1.46




2.36
2.09

1.46



Ash generation factors based on 65 percent flyash of coal ash and
70 percent collection efficiency.  Assumed 80 percent of utilities use
sluice  (wet) removal and 20 percent dry removal  (Reference D-l).
                                                                              T-918
                                      D-2

-------
                              TABLE D-2.  METAL  EMISSION FACTORS  (ng/J) - SECTOR  I

Utility Boilers
Anthracite
Bituminous
Lignite
Residual Oil
Equipment Type
Utility Boilers
Anthracite
Bituminous
Lignite
Residual Oil
A1
86.0
81.6
3.7
Cu
558.9x10"'
356.8x10-'
202.1x10-'
150.5x10-'
Sb
O.Sxicr'
12.0x10-'
5.6x10*'
1.2x10"
Pb
98.9x10''
176.3x10-'
111.8x10-'
167.7x10-'
As
77.4x10"'
133.3x10-'
107.5x10"
1.2x10"'
ta
1419.0x10-'
472.9x10-'
417.0x10-'
150.5x10-'
Da
266.5x10-'
193.5x10-'
2450.0
141.9x10-'
Kg
8.2x10-'
6.9x10-'
3.4x10-'
2.2x10-'
Be
23.2x10-'
15.5x10-'
20.2x10''
Ho
77.4x10-'
73.1x10-'
22.8x10-'
150.5x10-'
B1
0.8x10"
9.02x10-'
21.5x10-'
N1
382.6x10-'
202.1x10"'
98.9x10-'
8.6x10-'
B
7.8x10*'
1.02
558.9x40-'
18.5x10-'
Se
4.3x10-'
51.6x10-'
47.3x10-'
171.9x10-''
Cd
. 1.1x10"
36.1x10"
3.8x10-'
1.7x10"'
V
120.4x10-'
356.8x10''
257.9x10-*
12.9
Co
275.1x10-'
32.7x10-'
34.6x10-'
73.1x10-'
Zn
0.3
2.8
0.8
0.2
Cr
902.8x10-'
128.9x10-'
94.6x10-'
184.9x10-'
Zr
0.1
0.3
0.4
0.1
o
OJ

-------
TABLE D-3.   PACKAGED BOILER SULFATE AND POM  EMISSIONS FACTORS
              AND LIQUID AND SOLID  ASH STREAM  GENERATION FACTORS
Equipment Type
Wall Firing Water-tubes
>29 MWb
Anthracite
Bituminous & Lignite
Residual Oil
Distillate Oil
Natural Gas
Stoker Firing Watertubes
>29 MWb
Anthracite
Bituminous & Lignite
Single Burner Watertubes
<29 MWb
Residual
Distillate
Natural Gas
Scotch Firetubes
Residual
Distillate
Natural Gas
Other
Firebox Firetubes
Residual
Distillate
Natural Gas
Cast Iron Boilers
Residual
Distillate
Natural Gas
Stoker Firing Watertubes
<29 MWb
Anthracite
Bituminous & Lignite
Stoker Firing Firetubes
Anthracite
Bituminous & Lignite
Sulfates
(ng/J)
4.73
16.80
12.90
3.01
0.00
4.73
16.80





-
ROM's Range
(P9/J)
1.217
1.217
1.206
1.206
0.310 to 27.380
14.330
14.330
1.206
1.206
0.310 to 27.380
9.730 to 12,795
9.730 to 12,795
0.310 to 17.400
9.730 to 12,795
9.730 to 12,795
0.279 to 27.400
14.900 -
14.900
0.279
40.560
40.560
40.560 to 3,354.0
40.560 to 3,354.0
Dry Removal
Ash ,
(g/J)
0.493
0.493
1.845
1.845






Liquid Removal
Ash a
(g/J)a
1.980
1.980







  Ash generation factors based on 65 percent flyash of  coal ash  and
  70 percent collection efficiency.  Assumed 80 percent of units use
  sluice water ash removal, 20 percent dry removal.


  Heat input
                                     D-4

-------
TABLE D-4.  WARM AIR FURNACE POM EMISSIONS FACTORS (pg/J)
Equipment Type
Warm Air
Central Furnaces
Warm Air
Room Heaters
Miscellaneous
Combustion
Fuel
Oil
Natural Gas
Oil
Natural Gas
Natural Gas
ROMs
(P9/J)
7.800
0.327
27.46
27.46
                              D-5

-------
           fi  = fraction of FC burned in controlled sources located  in
                 region "i"
           EFi = regulated emission factor assuming 100 percent compliance
                 for sources of type "A/B" in region "i" (EFi < UEF)

The first term is a sum over all regions "i" in which local control
regulations demand an emission factor lower than the uncontrolled value.
The second term accounts for the uncontrolled sources.
       In calculating the values fi, it was assumed that if a fraction "x"
of a particular fuel (e.g., residual oil) was consumed in region "i", the
fraction was equally distributed among the utility boilers firing that
fuel located within the region regardless of firing type.
       The form of the emission equation can be put into the convenient
form
                   Emi
issions  - (FC)  x (UEF)  x (1  - C,)
where
                          c,.
Cp then, is the factor by which controlled NO  emissions are lower
                                              s\
than uncontrolled.
D.3    EMISSION INVENTORY
       The emission inventory of Section 4 was computed by calculating the
emissions of 29 pollutants from a variety of sources which fire a number

                                    D-6

-------
of different fuels.   Summary tables are presented in Section 4 and a



complete listing  is  given  here.



       The computer  program which was utilized considered each source/fuel



combination in turn.   Flue gas  emissions were calculated as  a product  of



(fuel consumption) x (emission  factor)  x (1  - C.) where C.  is a



control factor.   Collected flyash was calculted as (fuel consumption)  x



(emission factor) x  C.,.



       After calculating emissions of each pollutant for each source/fuel



combination, sector  totals were calculated and listed for each fuel  and



effluent stream.  Finally, a grand total for all  sectors was calculated.



       An annotated  sample page of the  output is  shown in Figure  D-l and a



list  of fuel type codes  is given in Table D-5.  The complete emissions



listing is given  in  Tables D-6  through  D-9.   The  table in which a



particular pollutant species is found follows:







Table D-6 Pollutant  Group i     NO  SOY H  CO Part. Sulfate  POM
                                   A   J\  \j


Table D-7 Pollutant  Group ii    Ba Be B Cr Co Cu  Pb Mn Hg Mo



Table D-8 Pollutant  Group iii   Ni V Zn Zr As Bi  Al Sb Cd Se



Table D-9 Pollutant  Group iv    P Sr







       N0¥ emissions for utility boilers were calculated with an  assumed
         A


control level  (C^ described in Section D.2.  Uncontrolled N0x



emissions can  be  calculated by  dividing the controlled emissions  listed



here  by (1 - C,).  Cj is listed for each boiler/fuel combination.



Since the tables  were generated from a  computer listing, emissions for one



equipment type sometimes overlap two pages.
                                     D-7

-------
             Control factors for
a
CO
V and particulate (C.-?) / / Effluent streamX /^ "X


S~ "X
/ See Table D-5 for A
1 fuel designations 71
- 1






S f .


\ / Emission of indicated \
I 1 = T i ue gas ]
\ 2
V


= fly
ash
= hopper ash


iFUCLll-CNTRL FAC-I |EFF| 	 '
TYPE 1

2
2
9
a
4
4
9
5
t
6
7
r
$
a
9
10









.01
.01
.01
.01
.01
.01
.01
.06
2 3 STB
SECTOR
.65 1
.65 2
.65 1
.63 2
.69 1
.65 2
.69 1
.69 2
.29 1
.29 2
.29 1
.29 2
.29 1
.29 2
1
1

1 -

/
' ( Sector

title)
pollutants in meqagrams /^ \
V 0"
^^^
etric tonnes) p6r V6dr/
^•^
V 1 \
I EQUI DIT
onf t.VDe 1


^E;
^—- 	 •7^^^^^ / \ 1 Vx'"~\
^_^_ — • 	 ^>- 	 ^*^ /POLLUTANTS (nEGA6RAHS/YEARJX\ ^
NO*
UTILITY
.72160+06


.43960+06


.23696+06


.12983+09


.29568+09


.74222+09


.95946+09


.94309+04
.13799+06
SOX"/
BOILERS
.34792+07

.26700+07

.63702+06

.17130+09

.16894+06

.23714+06

.19926+06

.39060+04
.34020+03
HC
CO
PART .^
SULFAT

r^—
POM HI


POM LO
EQUIPMENT TYPE 101^ TANGENTIAL BOILERS
.22566+04

.13622+04

.74734+03

.43460+03

.16656+03

.42312+03

.54696+09

.21600+03
.97*24+03
.29369+05

.17741+09

.97326+04

.14363+04

.16856+04

.42312+04

.34696+04

.99600+03
.82782+04
.16476+07
.30S9H+07
.97297+06
.16069+07
.51599+06
.95827+06
.41552+05
.77166+05
.44635+04
.14943+04
.11234+05
.37515+04
.14546+05
.48495+04
.21600+03
.46762+04
.44045+05

.34087+03

.12716+09

.19966+03

.50614+04

.63526+04

.41059+04

.10846+03

.31622+03

.19089+03

.10472+03

.63870+01

.16871+00

.42391+00

.94746+00

.30986-01
.31041+02
.29297+01

.19271+01

.63778+00

.91096-01

.16871+00

.42351+00

.54746+00

.30988-01
.39141+00
EBUIPMENT TYPE EFFLUENT STREAM TOTAL —
1
2

I
2
a
a
4
*
9
9
6
6
7
T

8
9
IB
FLUE
SMS
.17523+07
.79630+07
.71307+04
.78321+09
FLYASH COLLECTN









.09
.09
.09
.09
.05
.05
.03
.12
CaUN»MENT
1
2

t
2
a
a
4
4
FLUE
SECTOR
.69 1
.69 2
.69 1
.69 2
.69 1
.69 t
.69 1
.65 2
.29 1
.29 2
.29 1
.29 2
.29 1
.29 2
1
1
1 -
UTILITY
.46650+06


.29390+04


.16110+06


.36830+04


.60083+09


.15113+06


.19527+06


.51A06+09
.64680+06
BOILERS
.20036+07

.15406+07

.48296+06

.39952+04

.18894+06

.23763+06

.13392+06

.16336+09
.73990+03
.32135+07
.59123+07
.10664+06

.63043+03

.64678+01

EQUIPMENT TYPE 102 - UALL FIRED BOILER
.13012+04

.76604+03

.43066+03

.90200+02

.16696+03

.42398+03

.94782+03

.10140+04
.21096+04
.33135+09

.20017+09

.10972+05

.29610+03

.26068+04

.63969+04

.64721+04

.26199+04
.26455+05
.90617+06
.16829+07
.53551+06
.99452+06
.26373+06
.52697+06
.86240+04
.161116+05
.44535+04
.14945+04
.11277+05
.37591+04
.14571+05
.48571+04
.10140+04
.10548+05
.25396+03

.19669+09

.73313+04

.33140+02

.30614+04

.63633+04

.41124+04

.50919+03

.16253+03

.11019+03

.60375+02

.13256+01

.16671+00

«42$3T»08

.94632+00

.14947+00
.67146+02
.60234+00

.36387+00

.19945+00

.43792-02

.16671+00

.42437+00

.94832+00

.14547-02
.76014+00
TYPE EFFLUENT STREAM TOTAL "
GAS
.20505+07
.46297+0?
.68722+04
.11913+06
FLYASH COLLECTN







SECT Oft
.65 1
.63 2
.65 1
.69 2
.65 1
.69 2
t -
UTILITY
.13602+06


.81995+09


.49017+09


BOILERS
.56022+06

.42963+06

.13469+06

.17759+07
.32305+07
EOUIPMENT TYPE 103 - OPPOSED
.36376+03

.21930+03

tl2U40+03

.36376+04

.21930+04

.12040+04

.25334+06
.47049+06
.14940+06
.27747+06
.79292+05
.14726+06
.66476+09

.42261+0$

.30730+01

HALL BOILER
.71002+U4

.94679+04

.20467+04

.90976*02

.30730+02

.16671+02

.16640+00

.10192+00

.39736-01

                                               Figure  D-l.   Sample emission listing.

-------
   TABLE D-5.  FUEL TYPE CODES
 1.   Anthracite
 2.   Eastern Bituminous
 3.   Central Bituminous
 4.   Western Bituminous
 5.   L i gn i te
 6.   High Sulfur Residual Oil
 7.   Medium Sulfur Residual Oil
 8.   Low Sulfur Residual Oil
 9.   Distillate Oil
10.   Natural Gas
11.   Process Gas
12.   Gasoline
13.   Processed Material3
14.   Coal (Bituminous c>r Lignite)
15.   Residual Oil
16.   Oil (Residual or Distillate)
17.   Dual Fuel (Oil and Gas)
Emission factors for industrial
 process heating are typically in
 units of "Grams of Pollutant per
 Gram of Product Produced."  The
 corresponding "fuel consumption"
 then has units of "grams of product
 processed."  In this way, all emis-
 sions can be calculated as ("fuel
 consumption") x (emission factor).
               D-9

-------
                                                   TABLE  D-6.   EMISSIONS  INVENTORY —  POLLUTANT  GROUP  1
                         FUEL -CNTRL F«C- EFF
                         TTPE  123  STH
                                                   NOX
                                                              SOI
                                                                         HC
                                                             POLLUTANTS  [fltG»6R»MS/ytttR I
                                                           CO        PfiKT                  SULFftT
                                                                                                                              POH HI
                                                                                                                                         POB LO
o
 I
 6
 T
 7
 a
 8
 t
19
           SECTOR
             .65
             .65
             .65
             .65
             .65
             .65
             .65
             .65
                1 - UTILITY BOILERS


                  .93560+06   .26700*07

                  .23898+06   .83702+06

                  ,12985+OS   .17130*05
     .01      .23    1
     ,01      .33    2
     .01      .23    1
     .01      ,J5    2
     .03      ,2 S    1
     ,01      .23    2
     ,01            1
     .0*            1
    'HEflT TYF": EFFLUENT STRESS  TOTAL  --
        Gas            .S7623+S7   .73630+07
                                                           .SSOSU+lf*
          COLIECTW

          SECTOR
            .45   j,
            .65
            ,45
            ,65
            ,65
            ,65
            ,65
                J - UTILSTT BOILERS
                  c«365G*OS   ,20038*07

                  .25390*04
,95
,05
,05
.03
.03
.03
.05
.12
         .28
         ,25
         .25
         .23
         .23
         ,23
                                                .60083*03
                                                           .15552*06
                           5   ,18S3s*05
                           6   .73590+03
      TTPE EFFLUENT STHE«« TOT«L  "
      SS           ,20505+07
FLT4SH COLLECTN
                                    SECTOR
                                      .63
                                      .63
                                      .63

                                      ^63
                                      .63
                    1 • UTILITY BOILERS
                  1   .13602+06  .56022+U6
                  2
                  1   ,B199S»09  .MZ98S+06
                      ."•5017 + 03
                                                                      .16856*03

                                                                      ,192312*05

                                                                      .51696+03
                                                                      .90200+02
                                                                                    EOUIPflENT TYPE  101

                                                                                            .3U59H+07
                                                                                 .17711+05

                                                                                 .97328*01
                                                                                                   04.
                                                                              TANGENTIAL  BOILEKS
                                                                                      ,<»MO«5 + 05   .31622*01   .25297*01

                                                                                      ,3HOS7»05   .1908-J + 03   ,13271+01

                                                                                      ,12716*05   ,10"i72!OB   ,85778*00

                                                                                      .1596810",   ,"j537a»CU   ,51096-0',

                                                                                      .50616*0':   .16671 + 07   -£6671 + 00
                                            j3oT*0!-f   .78521*05   ,32135*07
                                                                ,53133*07

                                                        £BUlPnEf«'T  TYPE   102
                                            S0l2*0t;   .35135*05   .90617 + 06

                                                 03   ,2001>-;-Oa   ,53551*06
                                                   .10972+08   ,28375*06
                                                               ,5a697+06
                                                                                 .26068*0*!
                                                                                            .3759H
                                                        .11313+06   .17759*07
                                                                   ,32399+07
                                                                                                           «LL FIR£0 SOILtK
                                                                                                                  .73513+01   .60375 + 02   ,1»«9*00

                                                                                                                  .331"»0+D2   ,132^6*01   ,«V92-02
                                                                                                                  .|S112'>*0I«   ,5««S2*Oij   .S

                                                                                                                  .50915 + 03   .ISSSTsOC   .1">3"»7.0?
                                                                                                                              .&71"»fe*02   ,7601l*»0a

                                                                                                                  ,581*784.03   ,"«2?61 + 03   .38730 + 01
                                        .36378+03  ,36378+OH   ,

                                                3  .21930+0*   !
                                                                  TYPE   103 - OPPOSED HSLL BOILER
                                                                                      .71002+Ut  .30976+02  ,l&Std+Cu

                                                                                      ,5i4S7S+o«  .30730*02  .10132 + 00

                                                                                      .20H8T+01  .16871+02  ,33736-01
                                                                   .79292+05
                                                                   .11726+06

-------
                                       TABLE D-6.   Continued
FUEL
TTPE








9
10
-CNTRL FSC- EFF
1 2 3 STR
.65 i
.65 2
.03 .25 1
.03 .25 2
.05 .25 1
.05 .25 2
.05 .25 1
.05 .25 2
.05 1
.07 1
EQUIPMENT TYPE EFFLUENT
1
2

2
2
I
3
S
9
«
t
T
7
e
6
10
FLUE GAS
f-LYASH COLLECTN
SECTOR 1
.02 .75 1
.02 .73 2
.02 .73 1
.02 .75 2
.75 1
.75 2
.0* .25 1
.00 .23 2
.04 .23 1
.04 .25 2
.04 .25 1
.04 .23 2
1
EQUIPMENT TYPE EFFLUENT
1
2

1
1
2
2
3
3
3
3
FLUE GAS
FLYASH COLLECTN
SECTOR 1
.30 1
.30 2
.30 1
.50 2
.50 1
.50 2
.SO 1
.50 2
EOUIPHENT TYPE EFFLUENT
1
2
FLUE GAS
»-LYASH COLLECTN
POLLU1ANTS (MKGaGHAMS/YLAH 1
NOX
.74130+04

.24217+05

.61002+03

.79088+03

.45982+04
.35215+06
SOX
.67872+04

.76156+05

.95918+U3

.62176+05

.1627S+04
.3774U+U3
MC
.17220+03

.67940+02

.17114+03

.22188+03

.90000+02
.10819+04
CO
.56910+03

.987bO+03

.24875+04

.32250+04

.22500+03
.13461+03

^
,
.
^
.
,
.
.
.
.
PANT
16164+05
30576+Ob
161)71 + 04
60237+03
4b521»04
15174+04
b901 7+04
19672*04
9()UOO»02
54094+U3
SULFAT
.63260+02

.20401+04

.25694+04

.16A56+04

.45191+02

POfl HI
.2331)7 + 01

,68002-01

.171 3U+UO

.27208+00

.12912-01
.34455+02
POP! LO
.83634-02

.66002-01

.17130 + 01)

.2220A+OU

.12912-01
.38983+00
STREAM TOTAL --
. '9150+06

- UTILITY
.86856+U3

.71024+06

.31238+05

.25255+04
.13679+07

BOILERS
.23602+06

.24564 + 1)7

.44278+05

.11608+05
.251185 + 04

.27989+03

.51140+06
•
EUUIPMENT
.10191+04

.83334+04

.11193+04

.72240+02
.28598+04

.23385+05

.37127+04

.18600+03
.
t
.
,
.
,
.
92988+06
TYPE 104
1297i+0b
36920+Ob
103'1*06
31134*06
76bUl«05
22950+06
27430+03
.21020+05

- CYCLONE BOILER
.26521+04

.27803+05

.41275+03

.30988+03
.136U2+03


.29037+00

.23744 + 1)1

.25178+00

.10329-01
.11981+01


.29037+00

.23744+01

.25178+00

.10329-01
.915UD+02
.38929+04

.77870+04

.14701+03
,13776+ub

.9102U+U4

.18300+01
.16856+03

.22274+03

.36722+03
.43400+03

.57350+03

.44530+03
.
.
.
.
.
64Ubn»03
213bU+03
84637+03
28212+03
26230+03
.36153+03

.23687+03


.241U2-01

,31649-Ul

.16697+01
.24102-01

.31649-01

.16903-01
STREAM TOTAL --
.87924+06

- UTILITY
.29371+05

.29590+03

.29590+03

.24210+04

.27715+07

BOILERS
.38259+05

.16432+06

.20913+06

.29088+04

.11303+05

.31596*05

,
•
EOUIPrFNT
.32809+03

.61490+03

.61490+03

.73330+02

.10U2n«Ob

.39270*04

.39270*04

.48330*03

.
.
.
*
.
.
.
.
19528*06
58035*06
TYPE 105
19781»0b
19781»0b
11790*06
11790+06
11533+06
11533+06
10829+05
10829+05
.31778+05

- VERTICAL + STCKEH
,51604+03

.18464+04

.23677+04

.27113+02

.46526+01

BOILEH
.11963-01

.120F2-01

.12072-01

.98773-03

.30017+01


.11963-01

.12072-01

.12072-01

.98773-03

STREAM TOTAL —
.90972+03
.41462+06
.16314+04
.183(i5»0b
.
26384+06
.47567+04
.37095-01
.37093-01
.26384+06
By Fuel -- Sector 1 total
1
2
3
4
3
6
7
0
9
10
ANTHRACITE
EASTERN BITUKIN.
CENTRAL aUUMIN.
WESTERN BUUMIN.
LIGNITE
HIGH s RES. OIL
MEU S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
NAJUR*L GAS
.29321+03
.14606+07
.15513+07
.44*>09«06
.77940+03
.11639+06
.29224+06
.37809+06
.61835+05
.11516+07
.38259+05
,6439b+07
,731)59 + 1)7
,14541*07
,74659+uS
,46585+06
.58446*06
.37807*06
, 23870+03
.14553*04
.32809+03
.55356+04
.11316+Ob
.129H&+04
.18898+04
.47 '30 + 03
.11868+04
.15394+04
.13200+04
.45339+04
• 10U28*Ob
.72948+05
.67Z63+OS
.21909+03
,6499S*04
.546-S9+04
.13710+03
.17740+Ob
.34025+04
.50639+05
.
.
.
,
39562+05
83U80+U7
b3*07
2bllb»07
.51806+06
.
.
.
.
.
14731*05
36966*05
47824*05
13200+04
16227+05
.51604+03
.81039+05
,89414+05
.32096+05
,69594+03
,12473+05
.15649+05
.10123+05
.66280+03

.11963-01
,b49K3+03
,33'tlb + 03
.18197*03
.10496*02
.41bF6*00
,104A3*01
.13497*01
.18937+00
.13429+03
.11963-01
.36029+01
.43790»ni
.10930+01
.31660*00
.41576*00
.10433*01
.13497*01
.45355-01
.15203*01
 BT  EFFLUENT  STREAMS --
1 FLUE G«S          ,55644+07
2 FLYASH COLLECTN
.16767+08  .29445*05
                    .26960+06  .59600+07
                              .10917+08
.2*267+06  .12li7+01  .13776+02

-------
                                                                     TABLE  D-6.   Continued
                         FUEL  -CNTKL FAC- EFF
                         TTPE   123  SIR
                                                   NOX
                                                              SOX
                                                                          HC
                                                                POLLUIANTS inEGAGKftHS/TEAH)
                                                             CO         PAHT                 SULFAT
                                                                                                                                POM MI
                                                                                                                   POH LO
CJ
 I
h->
ro
           SECTOR     2  -  PACKAGED BOILEKS
  »                 1    .27370+05  .92225+01
 10                 1    .27933+06  ,?7810»03
 11                 i    .39130*05  ,39000+02
 It           .50    1    .16122+06  .6272P+06
 1»           .50    2
 13           .05    1    .20511+06  .23990+06
 IS           .03    2
E8UIPRENT TYPE EFFLUENT STRE6B TOTAL --
  1 FLUE 6*5            .715J&+06  .B966A+06
  2 KYASH COLLECTS

           SECTOR     2  -  PACKAGED BOILEKS
 19           .50    1    .12555*04  ,?7Se&+9&
 i»           .50    2
ESUIPfiEN? TYPE EFFLUENT STRESH TOTAL "
  i FLUE 64S            .12535+36  ,77566*86
  g FLTSSH COLLECTS

           SECTOR     S  -  P«CKA6EO BOIUEKS
  f                 1    sS^SaS+Oft  ,11175+03
 10                 1    .16711*05
 IS                 1    ,12P57-'-P5
 13                 1    ,i096ft+0i  ,26679+06
EflUJc'HiMT TYPE EFFLUENf STRESS TCTSL --
  i FLUE ess
                                                                                     LQUIPPENT TYPt  201 - WALL FIHtD U-1UBE   >29.3
                                                                               3   .33150 + 0-5  ,65790+03              ,2b60(*+03   ,10i>13400  .10353 + 00
                                                                       .Sf.192 + 01   .035JO + 01  ,lb9b2*01                         ,2Slu?«-02  .28757*00
                                                                       ,50'00+03   .11700+01  ,22360+03                         .35585*01  ,10265-01
                                                                       .11220 + 01   ,20100 + 02  ,13t>3b*06              .85605+01   ,611kO<00  .62116 + 00
                                                                       .19110+01   .21013+Ot
                                                                                             ,23661*05
                                                                                             .12153+01
                                                                                  ,12358+OS  ,f6250+06
                                                                                                                    .17011+OE   ,S011S+0=
                                                                                     EQUIPRENT TYPE
                                                                                  .11650+U5
                                                                                                     262 - STOKER W-TUBE
                                                                                                                               >2S'.i
                                                - P«CKSS£0 BOILERS
                                                ,J0103*OS
                                    SECTOR
 11                 1    ,18791*3'?  .S70DU + UV

E8OJPBEMT TYPE CFFLUEdtT  STRESH TOfftL --
  i FtUE 6*S            .iOlW + OS  ,50391 + 06
                                                                       .aouss+oi
                                                                       .22100+03
                                                                       .51170*03
                                              .S6!»08*CH


                                              ,19178*03
                                                                    IV 7  TTPE  203
                                                          olS'SSCtOS  ,81160 + 03
                                                          ol453!.*OS  ,57160 + 01
                                                                                                           SINGLE BL'RNF.R  U-T
                                                                                                                    cSi031:03
.32*00+02
.61270+05
                                                         el73-:-D^OS   33D297 + Q5

                                                            EOOIPSENT  TTPE   201

                                                         ,83b9J*01   ,25Z72iO'»

                                                         ,32130+OW   ,36919+05
                                             »7S82540!'  .T17U3 + 00

                                             ,51655*05  .bOf.&OvOE

                                     SCOTCH FIHETUBE    <2^,i
                                             O13')37 + 0*  ,57U11»0*
                                                        ,26bu6*L)5
                                                                                                                               ,*<(9U7-:-CS
                                              2 - PACKAGED 805LEHS
                                                ,27202+85  ,13725+05
           SECTOR
  9                 I
 10                 1
 11                 1    .J8791 + U<»  .57000 + 01
 13                 1    .11206+06  .29351+06
EQUIPMENT TYPE EFFtUEWT  STREAM TOTAL —
  1 FLUE SAS            .23005*06  ,33731+Bfc
                                   SECTOR     2 *  PACKAGED BOILERS
                                      .IS    1    .37590+01  .73710+01
                                      .19    2
              ESUIPHENT  TYPE   205
        3  ,61180+05   ,29119+01
        1  .7T311 + 0«>   .23371 + 01
.32300+02  ,1631*0 + 04   ,19100 + 02
,52371 + 03  .20706«0<»   ,23812 + 05

.22576+01}  .10610+05   .29111 + 05
                         TYPE   206
                       .65819+01
                       .11620+01
                                                                                                         - FIRE80X  P1RETUBE
                                              .63000*02   .19320*01
                                                                                           .786S3 + 01   .77616*0'*

                                                                                           .90771*01   .129i6»OS

                                                                                   STOKER FIREO W-TUBE  <29.3
                                                                                           .99121*02   .21671-01
                                                                                                                                          ,77567*00
                                                                                                                  .55570*00
                                                                                                                  ,"'0i6'3 OS
                                                                                                                  .&9655 + OB

                                                                                                                  . 13S11 + 01
                                                                                                                                          .27U&7 + 00
                                                                                                                                          . SfiB'rF-OS
                                                                                                                                          .91919+01

                                                                                                                                          , 1S50T fH't.
,49237*01

.10099+02


.85110*00

-------
                                                                  TABLE  D-6.    Continued
                        FUEL  -CNTRL  FAC-  EFF
o
t—>
CO
TYPE 1 2 3 STR
14 .15 1
14 .15 2
EQUIPMENT TYPE EFFLUENT
i FLUE GAS
2 H.TASH COLLECTN
SECTOR Z
* 1
10 1
15 1
EQUIPMENT TYPE EFFLUENT
1 FLUE GAS
SECTOR 2
t .15 1
1 .15 2
14 .15 1
14 .15 2
EQUIPMENT TYPE EFFLUENT
1 FLUE SAS
2 FLTASH COLLECTN
SECTOR 2
» 1
10 1
19 1
EQUIPMENT TYPE EFFLUENT
1 FLUE SAS
SECTOR 2
1 1
9 1
10 1
14 1
19 1
NOX SOX
.27441+06 .22664+07

STREAM TOTAL —
.27817+06 .22738+07

- PACKAGED BOILEKS
.12217*05 .19638*05
.13622*05 .792011*02
.35860*05 .9399U+US
STREAM TOTAL --
.61720+05 .11371+06
- PACKAGED BOILEKS
.75180+04 .14742*03

,9952**05 .62199*06

STREAM TOTAL --
.10701*06 .83673*06

- PACKAGED BOILERS
.17752*05 .2866F+05
.52911+05 .16050+03
.66265+05 .17834+06
STREAM TOTAL —
.13693+06 .20717+06
- PACKAGED BOILEKS
.25102+0* .491*0+04
.48*00+05 .95480+05
.25353+05 .19162+03
.19723+04 .16*32+05
.11178+05 .33189+05
MC
.27594*03


.27657*03


.77630*02
.68640*03
.16770*03

.93193+03

.12600+03

.10U06+05


.10134+05


.10520+03
.90950+03
.33300+03

.13477+0*

.42980+0*
,*16?t*02
                                                                                   EQUIPMENT TYPE  208 - CAST IRON BOILERS
                                                                                        3   .66970*03             ,5<»531»03
                      .22704+04  .44880+03
                      .66300+03  .76245+04

                      .32230+04  .87430+04
                                                                                                                            .73514-01
                                                                                                                 .25176*04  .291139 + 01
                                                                                         .26954*01
                                                                                         .73514-01
                                                                                         .29U39+01
                                                                                                                 .30631+04  .56727+01  .56727+01
                                                                                   EQUIPMENT  TYPE  209 - STOKER F-T BOILER  <29.3
                                                                                .38640+04   .13170«0b             .19884+03  .14U82+03  .17046+01
                                                                                           .23P41+04
                                                                                .11676+05   .10087+07             .93326+04  .186*1+04  .22566+0?
                                                                                           .17801+06
                                                                                .15540 + 0!)   .10219*07
                                                                                           .18033+06
                                                                                                                 .95315+04  .20049+04  .21270*02
                                                                                   EQUIPMENT  TYPE   210  -  HRT  BOILERS    <29.S
                                                                                .44710+03   .10257+04              .79235+03  .33618+04  .25562+01
                                                                                .46010+04   .13910+04                         .146*5*02  .16579*00
                                                                                .12580 + 0*   .30710 + 05              .47774 + 04  .472"*6 + 04  .35969+01
                                 .63061+0*  .33127+05
                                                                  .55697+04  .81061+04  .63229*01
                                                                                   EQUIPMENT  TYPE  211  - RES/COMB  STEAM  +  HOT  WAI
                                                                                .15320+04   .42960+04             .66280*02  .111*7*02   .11147*02
                                                                                .26840+05   .67760+04             .26512+04  .13105+02   .13105+02
                                                                                .63382+04   .31691+04                         ,20523+00   .20523+00
                                                                                .17737+05   .39402+04             .18464+03  .875H5+01   .87505+01
                                                                                .10681+04   .57270+04             .69091+03  .102'5+03   .10275+01
                                                                     .15114+05   .53916+05   .23910+05
                                                                                                                 .37930+04   .135*7+03   .34243+02
                        SECTOR
                                  2  TOTAL
                                               .23443+07   .6J99S+07   .73200+05   .17802+06   .65490+07
                           BT  FUEL  —
                          1 ANTHRACITE
                          » UISTILLATE  OIL
                         10 NATURAL 6AS
                         It PROCESS GAS
                         14 BIT/LIG COAL
                         15 RESIDUAL OIL

                           BT  EFFLUENT  STREAMS
                          1 >-LUE  6AS
                          2 FLYASH  COLLECTN
.13787+05
.17000+06
.72340+06
.45745+05
.66548+06
.71585+06
.27027+uS
.2563U+U6
.6754b+u4
.48727+03
.45077+07
.16012+U7
.44870+04
.50U9A+04
,13775 + Ut)
.79260+03
.44668+05
.44675+04
.77210+04
.29*31+03
.26148+04
.73277+05
.12780+05
.23443+07  .63995+07   .73200+05  .17802+06
.27539+05
.16172+05
.17216+05
.764*0+03
.63343+07
.15299+06
                                            ,49397+07
                                            .16094+07
                                                                                                                .14691+06  .68180+09  .16120+03
.36454+03
.71131+04
.43642+05

.51632+05
.44156+09
.151*9+03
.1*230+05
.266^3+05
.52721+03
.18759+04
.247U1+03
.13703+02
.26640+02
.17768*01
.91748-01
.9*665+02
.24116*02
                                                       .14691+06   .68180+09   .16120+03

-------
                                                                     TABLE D-6.    Continued
                         FUEL -CNTHL FAC- EFF
                         TYPE  I   2   3  STR
      NOX        SOI

3 - HARM AIR FUKNALE.S
            SECTOR
  10                 1
  16                 1
EQUIPMENT  TTPE  EFFLUENT  SIRFAM TOTAL -•
   1 FLUE SAS            .19204*06  .15355*06

            SECTOR     3  -  WARM  AIR FURNACES

  It                 1    .14317*05  .78879*05
E8UIPBENT  TTPE  EFFLUENT  STREAM TOTAL --
   1 FLUE 6AS
                         10
           SECTOR     3 - WARM  AIR  FURNACES
                   1   .34400*05   .?S60U*03
          TTPE EFFLUENT STREAM TOTAL  --
  1 FLUE S»S           .34400*05   .25SOO+03
SECTOR    3 TOTAL
                                                                      .10^09*05
                                                                      .17113*05
                                                                      .3>tUOO*0'l
                                                                POLLUTANTS  (HEGAGRABS/TEARI
                                                             CO        PART                  SULFAT
                                                                                                                               POfl HI
                                       EQUIPMENT  TTPE   301  - WAR* A1H CENTRAL FURNACt
                                       092*05   ,V329t»05                        .10111*01
                                            5   .10818*05             .42329*0'*  .10945*02
                                                                                                                                           pon LO
                                                                                                                                         .10111*01
                                                                                                                                         .10945*02
                                                                                            .21110*05
                                                                                                                  .12329*04   .11956*02   .11956*02
                                                                                    EQUIPMENT TTPE  302 - WARM AIR SPACE HEATER
                                                                                 •17412+OS  .62393*04                         .3971.8*02
                                                                                 .22537»0!>  ,I)597S»01             .21903*04
                                                                                            .11637*05
                                                                                                                  .21903*0^
                                      EOUIPPEMT  TYPE   303  •  MISCELLANEOUS CORBUSTSON
                                    .12000*05   .43000*04
                                                                                 .12000*03  .43000*04

                                                                                         b  .40247*05
                                                                                                                  ,6«>232*M  .57338*02
                                                                                            .39843*0?
                                                                                            .56634+01
                                                                                                                                         ,"55506+02
a
 t
                           BV  FUEL  --
                         JO MUTuaat SOS
                         it USL
                                               .13U05+06
                          87  EFFLUENT  STRESRS --
                                 GAS            ,42070+06
                                                                      . 28863*05
                                                                      .18232*01
                                             « - GAS TURBINES
                                                                    .23831*05
                                                                    .16416*05
           SECTOR    1 " GSS  TURfHNfS
  ?                1   .•56360*0?

EQUIPMENT TTPE EFFLUENT STREAM  TOTAL "
  1 fLUE GAS           .13770*06   .32912

           SECTOR    » - ess  TURBINES
  §                1   .21133*06   .6195i*0*  .57321*04
 JQ                1   BS0792 + 05   .10296*04  .iP-376 + OM  .23119 + 03
EeUIP«ENT TTPE EFFLUENT STREBR  TOTAL --
  1 FLUE GAS           .30213*06   .722494U*  ,95697*04

           SECTOR
  9                1
 10                1
                                                                                    fOUIPfENT TYPE  401 • SIBPLE CYCLE
                                                                                           JT TVPE  402 -
                                                                                            .89715*01
                                                                                            .11782+05

                                                                                    EQUIPMENT TTPE  103 -
                                               .36500*03  .10700*02   .S9000+01   .47300*02  .15500*02
                                               .19400*03  .22000*01   .821)00*01   .49400*02  .60000*01
                                  TTPE  EFFLUENT SIHEft* TOTAL "
                          1  FLUE  GAS            .55900*03  .12900*02   ,18100*02   .96700*02  .21500*02
                        SECTOR
                                    TOTAL
                                               ,4
-------
                                                                    TABLE  D-6.    Concluded
                         FUEL -CNTRL FAC- iff
                         TTPE  123  STR
                                                   NOX
                                                              sox
                                                              POLLUTAN1S  (MCGAGHAhS/TCARI
                                                           CO         PANT                  SULFAT
                                                                                                                                   Hi
                                                                                                                  POM  to
                                    SECTOR    3 •
                           9                1
                          IT                1
                         EQUIPMENT TTPE EFFLUENT
                           i FLUE GAS

                                    SECTOR    5 •
                          IS                1
                         EQUIPMENT TTPE EFFLUENT
                           i FLUE GAS

                                    SECTOR    3 •
                           »                I
                         EQUIPMENT TTPE EFFLUENT
                           1 FLUE GAS

                                    SECTOR    3 •
                          10                1
                          12                1
                         EQUIPMENT TTPE EFFLUENT
                           i FLUE GAS
                         RECIPROCATING 1/C CNGINt
                        94011*05  .51786*04  .62100*04
                        7if,io*o5             .29U99»u5
                        STREAK TOTAL •-
                        16562406  .51786*04  .35109*05

                        • RECIPROCATING 1/C FNGINl
                        1261K»07  .17006*03  .t5121*06
                        STREAK TOTAt •-
                               7  .l7«6b+OJ  .45121*06
                         RECIPROCATING 1/C CNGINL
                               6  .12371*05  .lv«35«05
                               TOTAL --
                        22459*06  .12371*05  . 1K835.05

                        > RECIPROCATING 1/C ENGINt
                        fab73b»03  .975 kW
                                 .16902»0b  .55620*04
                                 .9599Bt04

                                 .26502*05  .35620*04

                                    F.OUIHBENT TTPE  50? - S.  I.        >75 kU
                                 .14390*06

                                 .14390*Db

                                    EOUIPfENT TTPE  503 - C.  I. 75kH-75kW/cyl
                                 .40377*05  .13287*05

                                 .40377*0^  .13287*05

                                    EOUIPHENT TTPE  504 - S.  I. 75kH-75kW/cy1
                                 .76110*0*
                                 .1014IU07  .16632*04

                                 .10224*07  .16632*04
o
 I
           SECTOR    3 •
 12                1
EQUIPMENT TTPt EFFLUENT
  1 FLUE GAS
SECTOR    9  TOTAL
•  RECIPROCATING 1/C ENGINt
 37926*05  .79870*03  .19045*05
 STREAM TOTAL --
.37926*05  .79870*03  .19643*05

.18570*07  .19906*05  .37*09*06
                            BT FUEL  --
                           9 UIST1LLATE  OIL
                          10 NATURAL GAS
                          12 GASOLINE
                          IT DUAL  (OIL * GAS)
                            BT EFFLUENT  STREAMS
                           i FLUE  GAS
                        .31860*06   .17550*03   .21045*05
                        .13285*07   .1K8}2*0*   .47308*06
                        .13831*06   .21679*04   .53865*05
                        .71610*05              .29099*03
   EQUIPMENT TTPE  306 - S. I.
.39197*06  .97020*03

.59197*06  .97020*03

.18232*0'  .21482*03
                                 .57279*05  .18849*05
                                 .13131*06
                                 .16068*07  .26334*04
                                 .95998*04
                                                                                                                           <75 kW
                                                 .18570*07   .19906*05   .37909*06   .18252*07   .21482*03

-------
                TABLE  D-7.   EMISSIONS INVENTORY  -- POLLUTANT  GROUP  ii
FUEL -CNTRL FAC- EFF
TTPC  123  STR
                     BA
  POLLUTANTS  (IIEGAGRAhS/YEARl
CR        CU        CO
                           PB

2
2
3
3
1
%
3
5
6 .01
6 .01
7 .01
7 .01
6 .01
8 .01
EQUIPMENT
1 FLUE
S BOTTH

2
2
S





.09
.05
.09
.05
.09
.OS
CO IPRENT
SECTOR 1
.65 1
.65 3
.65 1
.65 3
.65 1
.65 3
.65 1
.65 3
.23 1
.25 3
.25 1
.25 3
.23 1
.25 3
TTPE EFFLUENT
GAS
HOPPER ASH
SECTOR 1
.63 1
.65 3
.65 1
.65 S
.63 1
.65 3
.63 1
,65 S
.25 1
.25 S
.25 1
.25 S
.25 1
.29 S
TYPE EFFLUENT
FLUE GAS
BOTTW









.09
.09
HOPPER *SH
SECTOR 1
.65 1
.69 3
.69 1
.65 3
.65 1
.69 3
.65 1
.65 3
.29 1
.25 3
- UTILITT
.50B21+03
.16910+01
. JU67B+03
.10226+01
. 16830+03
.Sbin2+03
.12931+03
.13112+03
.27838+02
.92793+02
.69876+02
.23293+03
.90331+02
.30110+03
BOILEHS
.10131+02
,8u74B+o2
,244Qb+02
.18711*02
.13390*1)2
.26712*02
.10721+01
.21*12+01






EQUIPMENT TTPE 101
,2&7f,6 + 04
.53331+01
.16157+01
.32315+01
.88611+03
.1772B+0*
.29198*02
.58396*02
,36273*ul
,72317+02
.911)51*01
.18211+03
.11770+02
.23311+03
.33316+03
.5331)5*03
.20111*03
.3217B.03
.11033*03
•17653+Oi
.19956*01
.79S3H+01
.36273*0?
.57363*02
,91051*02
.1*399*03
.11770*03
.18611*03
,801)56*02
.31611+03
. 51919.02
,3115b*03
,2t»50>1)»02
.17092*01
,13340*01
.10995*02
.11311*02
,81J57*02
.35991*02
.21175*03
.16531*02
.27373*03
- TANGENTIAL BOILERS
.93736+03
.13100+01
.56581+03
.790U2+03
.31013+03
.13385+03
.10721*02
.15009+02
.29525+02
.11335+02
.71111+02
.10376*03
.95805+02
.13413+03
.46303+03
.19677+03
.27951+03
.11999+03
.15334+03
.65B26. + 02
.59764+01
.12820+01
.32S99+02
.14.i«l»02
,B?584*02
.35993*02
.10675*03
.46534*02
.12536+01
.25072+04
.75673+03
.15135*04
.41S15+03
.83030*03
.22126+02
.44253+02
,29b25+02
. 59050+ 02
.74] 11*0?
.14823*03
,958U5*02
,191bl+03
.17814+0?
,9BB1B*00
.10772.0?
,59652*00
.5909U+01
.32726*0(1
,17975+00
,99911-0?
.43022*00
.21463-01
.10799*01
.61408-01
.13960+01
,79381-01
.19747*03
, 29°2ft+ 04
,11317** 04
. 180*->6*04
,621H6*02
.99113*02
. 12090»0i
,19314*01
.29525*0*
.i»7?-»o*ni
, 74) 1U*0*
.11338*0*
.95805*0*
,15329*02
STREAF1 TOTAL "
.13007+01
.13356+0*
- UTILITT
.29303+03
.97677+03
.17702+03
.59007+03
.97032+02
. 32311+03
.26811+02
,89178+02
.Z7B3B+02
.92793+02
.70020+02
.233*0+03
.90173+02
.3(1158 + 03
.79299+02
.15838+03
BOILERS
.23312+02
.4656U+02
.11083+U2
.28127+02
.77191+01
.15117+02
.22251+00
.11503+00






.52321+01
.10906+05

.15133+01
• 30866-* 0':
.93231+03
,18616+01
.51103+03
.10221+01
. 60S99+01
.12120*02
.36273+01
,7?517+02
,91239+01
.18218+03
.11789+02
.23978*03
.89163*03
.1426B+04
eauiPiE
.19210*03
.30756*03
.11605*03
. 1B567+03
.63610+02
,10178+03
,10368*01
.16570+01
.36273+02
.57363*02
.91239*02
,11128+OS
.11789+03
.16613+03
.26521*03
.15791*01
NT TYPE 102
.19620+02
.29759+03
,29975*02
,17977*03
,16131*02
.98511*02
.381)61*00
.22819+01
.11341+02
.81357+02
.36071+02
,21?1B+03
.16607+02
.27116+03
.20238+0*
.28289+0*
.112*1+04
.18273+03
.26470 + 01!
.52941<-0'S
,37611*02
.20872*01
.56336+04
.61290+04
- bSLL FIREO BOILER
.54018*03
.75537*03
.32650+03
,45fa32*03
.17B97*03
,25013*03
.22251+01
.31152*01
.29525*02
.11335+02
.71261+02
,10397+03
.95956+02
.13434+03
.P6699+03
.11161+03
,16129+03
.69235+02
.88107+02
,37950+02
.12404+01
,26607+00
.32099+02
0113H + 02
,82751+02
.36071*02
.10692+03
.46607+02
.7?2B1*OS
.14456+04
.43665+03
,87SiO*03
,239i5*OJ
,47Bb
-------
                                                         TABLE  D-7.   Continued
                    FUEL -CNTRL F*C- tFF
                    TYPE  123  STR
                                          BA
                                                   BE
   POLLUTANTS (rllGAGRAMS/YEAHl
CR       CO        CU
                                                                                                  PH
                                                                                                                    MG
O
I
7 .05 .25 1
7 .05 .25 S
8 .05 .25 1
8 .05 .25 3
EQUIPMENT TTPE EFFLUENT
1 FLUE GAS
S bOTTM HOPPER ASH

•
SECTOR 1
1 .02 .75 1
2 .02 .75 3










CO





.02 .75 1
.02 .75 3
.75 1
.75 3
.0* .25 1
.04 .25 3
.0* .25 1
.04 .25 3
.04 .25 1
.04 .29 3
IPHCNT TTPE EFFLUENT
FLUE SAS
BOTTM HOPPER ASH
SECTOR 1
.50 1
.50 3
2 .50 1
2 .50 3
3 .50 1
3 .50 3
9 .50 1
9 .50 3
EQUIPMENT TTPE EFFLUENT
1 FLUE GAS
3 BOTTM HOPPER ASH
SECTOR 1 T01AL
BT FUEL --
1 ANTHRACITE
2 (.ASTERN BITUMIN.
3 CENTRAL BITUMIN.
4 WESTERN BITUMIN.
3 LIGNITE
& HIGH s RES. OIL
Y Mm c ore. nil



S LOW S RES. OIL
BT EFFLUENT STHEAMS
i FLUE GAS
3 BOTTH HflPPER ASH
.28264+02
.94213+02
.36644+02
.12215+03




.36B29+01
,73«>57 + 02
.47748+01
.95495+02
.36829+02
.58241+02
.47748+02
.75508+02
.14560+03
,8564'l+02
.18877+02
.11104+03
.29977+02
.41968+02
.38864+02
.54410+02
.334U3+02
.14560+02
.43306+02
.18877+02
.29977+02
,59934+02
.38864+02
,77729+02
.43680+00
.24838-01
.56631+nil
.32202-01
,29977+Oi
.47963+01
.38P64 + 0.!
.62183+01
STREAM TOTAL ~
.28580+03
.95267+03
- UTILITT
.30601+02
.10700+03
.25023+03
.03410+03
.33432+03
.11144+04
.17044+01
.56812*01
.39768*01
.13256+02
.52551+01
.17517+02
.13029+02
.26022+02
BOILERS
.24345+01
.48621+01
.19907+02
.39759+02
.27713+01
.59426+01






.85587+03
.18903+04
.20503+03
.32621+03
.66771+02
.39594+03
.37720+03
.52738+03
EQUIPMENT TTPE 101 - CYCLONE
.16116+03
.32233+03
.13179+04
.26458+04
.75474+02
.15U95+03
.22208+00
.44416+01
.51019+00
.10464+02
.68475+00
.13695+02
.20061+02
.32097+02
.16404+03
.26246+03
.12913+02
.20637+02
.22208+01
.35120+01
.51819+01
.81947+01
.68475+01
.10829+02
.51817+01
.31077+02
.42372+02
.25412+03
.47407+01
.28421+02
.87800+00
.51647+01
.20487+01
.12051+02
.27072+01
.15925+02
.56442+02
.7HD62+02
.46154+03
.645U4+03
.27713+02
.38798+02
.18076+01
.253U7+01
.42178+01
.59050+01
.55736+01
.78030+01
.23668+03
.10169+03
BOILER
.27fl«l+02
,1196«»02
.22799+03
,97fl6fl+02
.15448+02
.33138+01
. 20142*01
.87800+00
.46999+01
.20487+01
.62106+01
.27072+01
.48050+03
.96059+03

,754«?»02
.15096+03
.61723 + 1)3
.1P14S+U4
.S71V5+C2
.11449+03
.18U/6+01
,3bl53+Ul
.42178+01
.84357*01
.55736+01
.11147+1)2
.68103+01
.37891+00

.11)744*01
.59502-01
.87658*01
.4«65b+OU
.46463+00
.25826-01
.26340-01
.14978-02
.61460-01
.34948-02
.81215-01
.46181-02
.13966+FI4
.10698+04

.11286+02
.1HU21+01
.92307+0.:
.14746+04
.31251+01
.50001+01
.18076+01
.28922+00
.42178+01
.674A5+OU
.55736+01
,89177+Ou
STREAM TOTAL —
.62609+03
.20870+04
- UTILITT
.29133+02
.97109+02
.21304+02
.71015+02
.21304+02
.71015+02
.21963+02
.73210+02
.25113+02
.50163+02
BOILERS
.25098+01
.50197+01
.16949+01
.33850+01
.16949+01
.336511*01
.18206+00
.36411+00
.15559+04
.31375+04
.21126+03
,33773+1)4
.57929+02
.34676+03
EQUIPMENT TYPE 105
.82097+00
.16748+01
.11220+03
.224m+03
.11220+03
.22441+03
.49581+01
.99162+01
.10039+04
.16U91+04
.13966+02
.22346+02
.13966+02
.22346+02
.84830+00
.13557+01
.30165+02
.18108+03
.36075+01
,2163«. + 02
.36075+01
.21636+02
.31143+00
.18670+01
.55729+03
.77896+03
- VERTICAL
.62863+02
.88196+02
.39295+02
.5491K+02
.39295+02
.54918+02
.182116*01
.25488+01
.28424+03
.11878+03
+ STOKER
.10555+02
.45177+01
.19411+02
.83324+01
.19411+02
.83324+01
.10149+01
.21769+00
.76151+03
.15240+04
BOILER
. 152"7+03
,30b44+03
.52531+02
.10510+03
.52511+02
.10510+03
.475M + 01
.75146+01
.10494+02
.58190+OU

.90542+00
.50197-01
.74802+00
.41425-01
,7460?+OU
.41425-01
.30523-01
.16966-02
STREAM TOTAL --
.93705+02
.31235+03
.13384+05
.12624+03
.40520+04
.34871+04
.12673+04
.24428+04
.29727+03
. 74594+03
.96504+03
.30885+04
.10295+05
.60817+01
.12154+02
.50613+03
.75295+01
.22296 + 1)3
.19188+03
.69733+02
.14018+02



.16886+03
.33727+03
.23U19+03
.46040+03
.33762+05
.24V5B+01
.14774+05
.12715+05
.46207+04
.38177+03
.18772+03
.47104+03
.60939+03
.10892+05
.22870+05
.12917+03
.20696*03
.53406+04
.26130+03
.15938+04
.13716+0"
.49847+03
.56570+02
.23075+03
.57901+04
.74909+04
.20583+04
.32823+04
.37691+02
.22622+03
.43183+04
.21125*03
.11080+04
.95351+03
.34652+03
.55914+02
.24322+03
.61031+03
.78958+03
.62103+03
.16972+04
.14327+03
.20098+03
.10430+05
.15106+03
.41351+04
.35587+04
.12933*04
.11215*03
.17462*03
.43817*03
.56688*03
.43495+04
,60804+04
.50392+02
.21400*02
.34796*04
.15073+02
.12177*04
.10479*04
.38084*03
.31636+02
.11641+03
.29212+03
.37792+03
.24359+04
.10437+04
.26143+03
.52406+03
.17261+05
.45801+03
.69H5+04
.59530+04
.21641+04
.28941+03
. 218.17+03
.54772+03
.70860+03
.57533+04
.115U8+05
.24320+01
.13474+00
.84658+02
.95561+00
.34650+02
.29B20+0?
.10837+02
.82698+00
.11205+01
.28116+01
.36375+01
.80206*02
.44526*01
.11832+03
.17223+03

.83505+01
,13417+n^
.78590+Oi
.12546+02
.78590+01
.12546+02
,20530+Ou
.32848+Ou

.24274+02
.38837+02
.29521+04
.21768+0.!
,89559+OJ
.77075+04
.28010+00
.13700+02
.84399+02
.21178+04
.27399+04
.12948+04
.12973+04

-------
                                                                   TABLE D-7.    Continued
                     FUEL -CNTRL FAC- tFF
                     TYPE  123  STR
                                               B«
                                                          BE
                                                             POLLUTANTS  (MLGAGRAhS/YEAtt>
                                                          CR         CO         CU
                                                                                          P8
                                                                                                                HG
O

I—>
00
                      I*
                      15
                      19
          SECTOR    2 - PACKAGED BOILCKS
            .50   1   .98775+02  .78581+01
            .50   3   .32925+03  .15691+02
            .05   1   .90173+02
            .05   3   .30158+03
                                                                  .52U21+03
                     EQUIPMENT TTPE EFFLUENT STREAM TOTAL --
                       1 FLUC GAS           .18925+03  .78581+01
                       3 BOTTM HOPPER ASH   ,63083+03  .13691+02

                                SECTOR    z • PACKAGED BOILEKS
                      1»          ,50   1   .90253+02  .71801+01
                      11          .30   3   .30061+03  .11310+02
                     EOUIPHENT TTPE EFFLUENT STREAM TOTAL "
                       1 FLUC 6AS           .90253+02  .71601+01
                       3 BOTTM HOPPER ASH   .30061+03  .11310+02

                                SCCTOR    2 - PACKAGED BOILERS
                      15                1   .01507+02
                      13                3   .28169+03
                     EQUIPMENT TTPt CFFLUENT STREAM TOTAL —
                       1 FLUC 6AS           .80507+02
                       3 BOTTH HOPPER ASH   .28169+03
IS
13
SCCTQR    2 - PACKAGED BoILERS
        1   .13122+03
        3   .11739+03
                     EOUIPHENT TYPE EFFLUENT STREAM TOTAL "
                       1 FLUC SAS           .13122+03
                       3 BOTTn HOPPER ASH   .11739+03

                                SECTOR    2 - PACKAGED BOILERS
                      19                1   .061)96+02
                      IS                3   .28632+03
                     EOUIPHENT TTPE EFFLUCMT STREAM TOTAL "
                       1 FLUC GAS           .86196+02
                       3 80TTM HOPPER ASH   .28032+03

                                SECTOR    2 • PACKAGED BOILERS
                       I          .15   1   .56127+01  .1835S+00
                       1          .13   3   .18709+02  .9670*+00
                      1*          .15   1   .29691+03  .23621+02
                      1»          .15   3   .-J8969+03  .17175+02
                     EQUIPMENT TTPE EFFLUENT STREAM TOTAL —
                       1 FLUC GAS           .30252+03  .2»10H»02
                       3 BOTTM HOPPER ASH   .IOOAH+O*
                                                EQUIPMENT  TTPE   201  -  HALL FIRED H-TgflE  >29.3
                                             .61752+02   .16726+02   .16218+03   .89995+02  .21361+03  .31661+01  .36137+0*
                                             .10360+03   .10031+03   .25162+03   .38632+02  .1S729+03  .19206+00  .56167+04
.11789+02
.23576+03
.53200+03
.12762+01
.17533+03
.95U67+03
.17533+03
.95U67+03
.11012+02
.221)23+03
.11012+02
.22023+03
.17169+02
.31*78+03
.17169+02
.31976+03
.11271+02
.22*11+03
.11271+02
. 22*11+03
.15817+00
,32266+UO
.15637+01
.31271+01
.31277+01
.11709+03
.16613+03
.16261+03
.29003+03
.16607+02
.27116+03
.63333+02
.37117+03
EUUIPMENT TtPf 202
.59166+02 ,15263+02
.91666+02 ,91657+02
.59166+02
.91666+02
.15203+02
.91657+02
EQUIPMENT TTPE 203
.11012+03 .13531+02
.17111+03 .25608+03
.11012+03
.17111+03
.13531+02
.25600+03
EQUIPMENT TTPE 20*
.17189+03 .69112+02
.27657+03 .10672+03
.17169+03
.27657+03
.69112+02
.10672+03
EQUIPMENT TTPE 205
.11271+03 .11558+02
.17823+03 .26211+03
.11271+03
.17023+03
.11538+02
.26211+03
EQUIPMENT TTPE 206
.19312+02 .56116+01
.31001+02 .31888+02
.19161+03 .50276+02
.31112+03 .3U152+03
.21398+03
.31212+03
.56080+02
.33611+03
.95956+02
.13131+03
.27611+03
.30696+03
- STOKfK
.16617+03
.23265+03
.16617+03
.23265+03
- SINGLE
.89629+02
.12516+03
.69629+02
.12518+03
- SCOTCH
.11235+03
.19929+03
.11235+03
.19929+03
.10692+03
.16*07+02
.85P39+02
H-TUflE
.62231+02
.35299+02
.82231+02
.35299+02
BURNER M-T
.99872+02
.13531+02
.99872+02
.13531+02
FIRETUBE
.15662+03
.69112+02
.15062+03
.69112+02
- FIREBOX FIRETUBE
.91738+02 .10222+03
.128H3+03 .11556+02
.91736+02
.12613+03
- STOKER
.12111+02
.16992+02
.51763+03
.76536+03
.35971+03
.70235+03
.10222+03
.11558+02
.95936+02
.33960+03
.67920+03
>29.3
,222b2+nS
.11525+03
.22262+03
.11525+03
<29.3
.89629+02
.17926+03
.69629+02
.17926+U3
<29.i
.11235+03
.26170+03
.11235+03
.26170+03
<29.4
.91738+02
.16310+03
.91730+02
.18310+03
FIRED W-TU8E <29.3
.2n336»ni .29371+02
.67038+00 .59U20+U2
.27051+03 .73237+03
.11612+03 .11617+01
.27255+03
.11699+03
.76171+03
.15238+01
.13962+01
.79506-01
.16663+01
.27157+00
,31669+01
.17519+00
.31669+01
.17519+00
.13060+01
.71261-01
.13060+01
.71261-01
.20713+01
.11795+00
.20713+01
.11795+00
.13366+01
.76012-01
.13366+01
.76012-01
.17111+00
.96709-02
.10125+02
.57732+00
.10599+02
.58699+00
.95956*04
.15353+04
.13239+03
.73520+02
.33293+02
.53119+04
.33293+02
.53119+04
.69629+04
.11311+02
.69629+04
.11311+02
.11235+03
.22776+04
.11235+03
.22776+02
.91736+04
.11676+04
.91736+02
.11676+04
,16066+01
.25619+0*
.11)953 + 04
.17161+03
.11113+03
.177*3+03

-------
                                                         TABLE  D-7.   Concluded
                  FUEL -CNTRL  FAC- EFF

                  TYPE 1   1   S  STR
                                        B*
                                                  BE
   POLLUTANTS (M£GAGRAMS/YC«R>

CR       CO        CU
                            PB
O
 I
SEClOR 2
IS 1
13 3
E8UIPMENT TYPE EFFLUENT
i FLUE GAS
3 BOTTM HOPPER ASH
SECTOR 2
1 .15 1
1 .15 3
14 .15 1
1* .15 3
EQUIPMENT TYPE EFFLUENT
1 FLUE GAS
3 BOTTM HOPPER ASH
SECTOR 2
IS 1
15 3
EQUIPMENT TYPE EFFLUENT
i FLUE GAS
S BOTTM HOPPER ASM
SECTOR 2
1
1
1*
1*
19
13
E9U1PMENT TYPE EFFLUENT
1 FLUE GAS
3 BOTTM HOPPER ASH
SECTOR 2 TOTAL

BT FUEL --
1 ANTHRACITE
1* BIT/L1G COAL
IS RESIDUAL OIL
BT EFFLUENT STREAMS
1 FLUE GAS
3 BOTTM HOPPER ASH
- PACKAGED BOILERS
.27696+02
.92319*02
STREAM TOTAL --
. 1*7696 + 02
.92319*02
- PACKAGED
.11225»0i!
.3741«+02
.1076B+03
.35895*03
BOILERS
,9670*+00
. 19312+01
.H5669+01
.17110*02
,36uee*oi
.72177+0?
.36086+01
.72177+02

.31634+00
.64533+00
.56714+03
.113*3+0*
EQUIPMENT
.36066*02 .
.57070+02 .
.571)70 + 02 .
EQUIPMENT
»3fl6ft4+02 «
.621107 + 02
.70593+02
.11295+03
TYPE 208
1*267*02
63926*02
14267+02
83926*02
TYPE 209
11623*02
69775+02
18235+02
10936*03
- CAST IRON BOILERS
.29374+02 .32731+02
.41124+02 .14267+02
.29374+02 .32731+02
.41124+02 .14267+02
- STOKER F-T ROILE"
.24222+02
.33964+02
.19662+03
.27759+03
,4067i! + 01
.1740B+01
.98112*02
.42116+02
.29374+02
,58749*02
,293/4+02
.587*9*02
<29.3
.58719*02
.118U4*03
,2S5fc2*03
.531*4*03
.42602+00
.24339-01
.42602+00
.24339-01

.3*686+00
.19342-01
.37609+01
.20939+00
.29374*04
.16999*01
.29374*04
.46999*01

.32176+01
.51699*01
.39723+04
.63114+04
STREAM TOTAL --
.11891*03
.39637*03
- PACKAGED
.52551*02
.17517+03
.953*0+01
.190*1+02
BOILERS


.56'45+OS
.11349+01

.68475+01
.13695+03
.10928+03 =
.17495+03
EBUIPflENT
.68475+02 .
.10829+03 .
29858+02
17913+03
TYPE 210
27072+02
15925*03
.22284+03
.31157+03
.10218*03
.43857+02
- HRT BOILERS <29.
.55736+02
.78030+02
.62106+02
.27072+02
.32437*03
.64928*03
3
.55746+02
.11147+03
.41298+01
.22673*00

.61215*00
.46181-01
.429*1 + 0,;
.68564+04

.55736+02
.69177+01
STREAM TOTAL "
.52551*02
.17517*03
- PACKAGED
.3741B+01
.12173*02
.21301*01
.71015*01
.96000+01
.32667*02


BoILEHS
.32236+00
.6*473*00
.169*9*00
.33650*00


.68*75+01
.13695+03

.10545+00
.21^11+00
.11220+02
.22141*02
.12770*01
.25539+02
.66475+02 .
.10H29*03
EOUIPMENT
.12B95+02 ,
.20067*02
.13966*01
.22316*01 .
.12770*02
.20194*02 .
27072*02
15925+03
TYPE 211
38744+01
23?5fl+02
36075+00
21636+01
50485+01
29697+02
.55736+02
.78030+02
- RLS/COMM
.80742+01
.11328+02
.39295+01
.34918+01
.10394+02
.14552+02
.62106+02
,27072+02
.55736+02
.111*7+03
.61215*00
.46181-01
.55736+02
.89177+01
STEAM + HOT UA 1
.13557+01
.58075*00
.19411+01
.83324+00
.11582+02
.50485+01
.195CS+02
.393*6+02
.52551+01
.10510+02
.10394+02
.20768+02
.11629*00
.64473-02
.7*802-01
.41*25-02
.15145+00
.66121-02
.10725+01
.17233+01
,78590+OU
.12546+01
.10394*04
.16630+01
STREAM TOTAL --
.15672*02
.522*1*02

.17756+01

.89160+02
. 45816*04
.21019*01
».
.11021*0*
.36736+0*
.49183+00
.98323+00

.14737+03

.531911 + 01
. 14205*03


.49168*02
.96204*02
.12603+02
.48195+02

.10744+05

.17631*01
.94126*04
.13292*04

.32015+04
.75*23*04
.271161 40? .
.43096*02

.26339*04 .

.16459*03 .
.10154*04 .
.16339*0* .

.10944+04 .
.17395+04 .
92836+01
55119+02

25773+04

14923+03
70590+03
17222+04

37242+03
22049+04
.22396+02
.31371+02

.39777+04

.10671+03
.26345+04
.12364+04

.16564+04
.23193+04
.14679+02
.64620*01

.16107*0*

.10648*02
.77580+03
.82429*03

.11243*0*
.466*3*03
.35232+02
.70615+02

.62762+04

.32411+03
.440*5+01
.15155+01

.20921+0*
.41656+04
.34255+00
.19202-01

.30685*02

.67307+00
.22076*02
.79318*01

.29061*0?
.16207+01
.12252+04
.46*09+01

.11636+04

.15377+04
.57059+03
.59761*03

.74084+03
.44274+03

-------
                                       TABLE D-8.   EMISSIONS INVENTORY -- POLLUTANT  GROUP iii
                   FUEL -CNTHl FAC- EFF
                   TYPE  1   2   3 STR
NI
                            POLLUTANTS (HLfiAGRflhS/YEAR)
                                   AS       HI
                                                    AL
                                                                      CD
                                                                              SE
ro
O

1
2
S





.01
.01
.01
.01
.01
.01
19 IPnCNT
FLUE
HOTTK

2
2
3
3
»
*
5
3
6 .OS
6 .05
T .05
7 .05
6 .05
« .05
EOUIPflENT
SEC10R 1
.65 1
.65 3
.65 1
.65 3
.65 1
.65 3
.65 1
.65 3
.25 1
.25 3
.25 1
.25 3
.25 I
.25 3
TYPE EFFLUENT
GAS
HOPPER ASH
SECTOR 1
.65 1
.65 3
.65 1
.65 3
.65 1
.65 3
.65 1
.6* 3
.25 1
.25 3
.25 1
.25 3
.25 1
.25 3
TYPE EFFLUENT
1 FLUE GAS
3 BOTTH

2
2
3
3
 + 02
.«639b+02
.llb'Jh + OS
.11646+03
.15U55+03
.15U55+03
EQUIPHENT
.67n7««ci .
.407h9+n«t
,*n^J3H>5 .
.Zlf-ll+flt .
.?2"t7P + o3 .
.13502+04
.22S11+02
.13^,86+03
,9?7S3»01 .
.5567fc+02 .
.23293+02
.13976*03 .
.30110+02
.18U66+03
TYPF 101
35010+03
35010+03
21134+03
?1134+03
11594+U3
11594+03
57027+01
57027+01
2if>20 + 00
23620+00
59291+00
b9291+00
76b44»00
7b644+00
- TANGENTIAL ROILEHS
.23*90+02
.32977+02
.14180+02
.19907*02
.77794+01
.10921+02
.11*05+01
.1596A+01






,230i9+n6
.57->9/ + 06
.13901+06
,347b9+06
,76799+OS
.19075+06
.424?8+04
.10f>07 + nS
.72547+03
.16B71+04
.18711+0*
.42351+04
,23541+nt
.5*746+0*
,31f-5»-7 + 02
,7«513.+ 00
.3421f, + 00
.736^0+00
,i!7tia + UO
. 592^1*00
.69878 + 1)0
.7fe644+00
.90331+00
.95317+02
.5*435+0*
.57539+02
.32660+02
.3lb6b+02
.18027+02
.19959+01)
.11405 + 01)
.37899+00
,lt)b59*ni
.825P4+00
.46586+01
.10675+01
.60220+01
.13100+03
.2A121+n<
.79082+0^
,1697S+(U
.43S8b+0^
.93129+Oi
.25776+Oi
.55430+13
.337'»3»0^
.72547*01
.84701 + 0*1
.I82ll«n<
,10949+Oi
.23541+02
STREAM TOTAL —
.12418+0!)
.12622+05
- UTILITY
,3o?"o»nJ
. 36336*03
.18297*03
.21951+03
.10027+03
.12032+03
.10652+01
.12783+01
.16871*0*
.16871+01*
,*2*37+0*
,«2*37+0*
,54832+0*
.54837+0*
.1S918+US
.18918+05
BOILERS
.5391S+03
,539l«+o3
,3?572+03
.3267Z+03
,1785»+03
.17851+03
.28106+01
,28tU««+01
.25307+0*
.25307 + 01*
,6365b40t
.63655+0*
.622*0+0*
.A22««+V*
.1*559+05
.I*b59+0b

,»23?7+OU
.*?327«OH
.25S70+04
,25570+Ot
.l
-------
                                                 TABLE D-8.  Continued
o
ro
FUEL -CNTRL FAC- EFF
TYPE 123 STR
7 .05 .25 1
T .05 .25 3
8 .05 .25 1
8 .05 .25 S
EOUIPPIENT TYPE EFFLUENT
i FLUE GAS
3 BOTTH HOPPES ASH
SECTOR I
2 .02 .75 1
2 .02 .75 3
S .02 .75 1
S .02 .75 3
3 .75 1
3 .75 3
6 .0* .25 1
6 .01 .25 3
7 .01 .25 1
7 .01 .25 3
8 .01 .25 1
• .01 .25 3
EQUIPMENT TYPE EFFLUENT
1 FLUE GAS
S BOTTH HOPPER ASH
SECTOR 1
1 .50 1
t .50 3
2 .50 1
2 .30 3
3 .50 1
3 .50 3
9 .50 1
5 .50 t
EOUIPWENT TYPE EFFLUENT
i FLUE SAS
3 BOTTH HOPPER ASH
SECTOR 1 TOTAL

BY FUEL --
1 ANTHRACITE
Z EASTERN BITUHIN.
S CENTRAL BltUHIN.
1 MESTERN RITuniN.
9 LIGNITE
6 HIGH S RES, OIL
7 BED S RES. OIL
8 LOU S RES. OIL
BY EFFLUENT STREAKS
1 FLUE GAS
3 BOTTH HOPPER ASH
POLLUTANTS i MEGAGHAf S/TEAR >
NI
.17130+01
.17130*01
.22208*01
.22208*01
V
,25691+01
.25691+01
.33312+01
.3331U+01


*

,
itt
17106+02
17106+02
61073+02
61U73+02
ZR
,91213+01
.56528+02
.12215+02
.73287+02
AS
,23981+OU
.23981+00
.31092+00
.31092+00
81




AL
,7365f+0»
.17130 + 111
.95195+03
.22208+01
SH
,?39Ki+00
.28261 AUG
,31 09?+00
.36611+00
CO
,33103*OU
.16813*01
.13306*flU
.21129+01
SE
.31?b9»f)^
,73657»0i
.11116*0^
,95l95*0i
STKEAH TOTAL --
.17795+01
.18127+01
- UTILITY
.31621+02
.37915+02
.25857+03
.31029+03
.13267*02
,15920+02
.10329+03
.10329+03
.21102+03
.21102*03
.41K19+03
.31819+03
.72176+01
,72176+01
BOILERS
.56306+02
.56306+02
.16012+03
.16012+U3
.35378+02
.35378*02
.15191*03
.15191*03
*
•
21319+01
21319+01
.21600+03
.11771+01
.11201+03
.11201+03
.77718*01
.10913+02
EQUIPMENT TTPt 10** - CTCLONE
.*
-------
                                                                   TABLE  D-8.   Continued
                         FUEL -CNTRL  F»C-  iff
                         TYPE  123   STR
                                                   NI
                                                                         4.N
                                                              POLLUTANTS tMIGAGRAMS/YEARI
                                                           ZR         AS         BI
Sb
           CO
                      S£
a
 i
tNJ
ro
                          11
                          1*
                          IS
                          13
           SECTOR    2 - PACKAGED BOILEKS
             .30   1   .10207*11 J  .16175+03
             .50   B   .12219+03  .19175*03
             .05   1   .51832+01  .82218+01
             .05   3   .31832+01  .62218+01
                         EQUIPMENT  TYPE  EFFLUENT  STREAM  TOTAL  --
                           1  FLUE GAS           .55853+01   .81063+01
                           J  80TTM  HOPPER  ASH   .56057+01   .8106S+U1
                                              2  -  PACKAGED  BOILEKS
                                            1    .93262+02   .16b07+03
                                                11191*03   .16607*03
           SECTOR
 H          .50
 11          .5o   3
EQUIPMENT TYPE EFFLUENT STREAM TOTAL --
  I FLUE GAS           .93262*02  .16607*09
  3 BOTTH HOPPER ASH   .11191*03  .if.«.o7»o3

           SECTOR    2 - PACKAGED BnTLEKS
 IS                1   .51217*01  .76625*01
 IS                3   .31217*0*  .76825*01
EOUlPflENT TYPE EFFLUENT STREAM TOTAL —
  1 FLUE GAS           .51217+01  .76825*01
  3 BOTTM HOPPER ASH   .51217*01  .76825*01

           SECTOR    2 - PACKAGED BOILEHS
 IS                1   .81311*01  .12202*05
 13                3   .01311+01  .12202+05
EQUIPMENT TYPE EFFLUENT STREAM TOTAL --
  1 FLUE GAS           .81311+01  .12202+05
  9 HOTTM HOPPER ASH   .81311+01  .12202+05

           SECTOR    2 - PACKAGED BOILEHS
 IS                1   .52122*01  .76631*01
 IS                3   .52122*01  .76633*01
EQUIPMENT TYPE EFFLUENT STREAM TOTAL ~
  1 FLUE GAS           .52122*01  .7R633+01
  3 80TTM HOPPER ASH   .52122+01  .78633+01
                           1
                           1
                          11
                          11
           SECTOR    2 - PACKAGED BOILEHS
             .13   1   .80621+01  .25217+01
             .13   3   .1*6709 + 01  .25217 + 111
             .13   1   .30680+03  .51631+04
             .19   3   .36816+03  .51(31+03
                        EQUIPMENT TYPE EFFLUENT STREAM  TOTAL --
                           1 FLUE GAS            .31166+03   .31883+03
                           3 BOTTM. HOPPER ASH    .37783+03   .51883+03
.11267+01
.151179+03
.15079+03
.15775+01
.15775+01
.13037+01
.131137 + 01
.131137 + 01
.13037+01
.11065+03
.11085+03
.11085+03
.11085+03
.22370+03
.22370+03
.22370+03
.22370+03
.11116+03
.11116+03
.11116+03
.11116+03
.53326+01
.53326+01
.12086+01
.12886+01
.12910+01
.12910+01
EQUIPMENT TYPE 201
.13192+03 .66015+02
.79239+03 .68015+02
.3015P+D2 . 76765+00
.16095+03 .76765+00
.16206+03
.97331+03
.68613+02
.68613+02
EQUIPMENT TYPE. 202
.12051*03 .62171+02
.72103+03 .62171+02
.12051+03
.72103+03
.62171+02
.62171+02
EQUIPMENT TYPE 203
.28169+02 .71703+00
.16901+03 .71703+00
.26169+02
.16901+03
.71703+00
.71703+00
EQUIPMENT TYPE 201
.11739+02 .11368+01
.26811+03 .11386+01
.11739+02
.26811+03
.11368+01
.11388+01
EOUIPNENT TYPL 205
.28832+02 .73390+00
.17299+03 .73390+00
.28632+02
.17299+03
.73390+00
.73390+00
EQUIPMENT TYPE 206
.31001+01 .16008+01
.16619+02 .16066+01
.39633+03 .20131+03
.23816+01 .20151+03
.39963+03
.21005+01
.20611+03
.20611+03
- WALL FIRED U-TUBE
.15636+01 .11778+05
.61091+01 .11191+06
.23578+01
.51832+01
.15656+01
.61091+01
- STOKER
.11717+01
.58561+01
.11717+01
.58561+01
- SINGLE

- SCOTCH

- FIREBOX

- STOKER
.16088-01
.22596-01
.13721+02
.19266+02
.13710+02
.19288+02
.17136+03
.11713+06
W-TUBE
,10915+05
.10229+06
.10915+05
.10229+06
BURNER W-T
.22023+01
.51217+01
.22023+01
.51217*01
FIRETUSE
.31978+01
.01311+01
.31976+01
.81311+01
FIRETUBE
.22511+01
.52122+01
.22511*01
.52122+01
>29.i
.611hO»01
. 73752+01
.767*5*00
.90173+00
.69136+01
.82799+01
>29.1
.S6158+01
.67309+01
.56138+01
.67389+01
<29.3
.71703+00
.61507*00
.71703*00
.815U7+00
<29.3
.113fl8«01
.13122+01
,113b8+0l
.131^2+01
<29.i
.73SSO+00
.86196+00
.73390+00
.86196+00
F1REO W-TUBE <39.3
.160H6-01
.19312-01
.13160+06 .16171+02
.33619+06 .22169+02
.13160+06
.33619+06
.16190+02
.22166+02
.16526+02
.10560+0?
.10692+01
.60315+01
.19595+02
.16611+02
.16927+04
.96671+01
.16927+02
.96671+01
.99872+00
.56338+11
.99672+01)
.36336+01
.15662+01
.89178+01
.13662+01
.69178+01
.10222+01
.57661+01
.10222+01
.57661*01
.22596-01
.12925-01
.55666+02
.31602*02
.33709+02
.31615+02
.25162+04
.51655+01
.10966*01
.23576*04
.13513*01
.29013+04
.23265+04
,19910+Oi
.23265+04
.19910+01
.10213+01
.22023+04
.10213+01
.22023+04
.16269+01
.31976+04
.16269+03
.31976+02
,10181+01
.22511+02
.10161+01
.22311+04
.90362-01
.19312-01
.76536+04
.16129+02
.76626+02
.16118+04

-------
                                                            TABLE  D-8.   Concluded
                      FUEL  -CNTRL FAC- EFF

                      TTPE   123  SIR
   POLLUTANTS  (MEGAGRAKS/rEARI

ZH        AS         61
                              AL
CO
          Sf.
ro
to
SECTOR 2
19 1
IS 3
EQUIPMENT TYPE EFFLUENT
i FLUE GAS
3 BOTTM HOPPER ASH
SECTOR 2
1 .15 1
1 .13 3
1» .13 1
1» .13 3
EQUIPMENT TYPE EFFLUENT
1 l-LUE GAS
S BOTTM HOPPER ASH
SECTOR 2
IS 1
IS 3
EQUIPMENT TYPE EFFLUENT
I FLUE GAS
3 BOTTM HOPPER ASH
SECTOR 2
1 1
1 3
1* 1
14 3
IS 1
19 3
EQUIPMENT TYPE EFFLUENT
1 FLUE GAS
3 BOTTH HOPPER ASH
SECTOR 2 TOTAL

BY FUEL --
1 ANTHRACITE
1* HIT/LIG COAL
13 HESIOUAL OIL
BY EFFLUENT STREAMS
1 fLUE GAS
3 BOTTM HOPPER ASH
- PACKAGED
.16785*0*
.16785*0*
BOILERS
.75178*0*
.75176*0*
EQUIPMENT TYPE 208 - CAST IRON BOILERS
.*6160*02
.46160*02
.92319+01
.55391+02
.23*99+00
.23*99*00


.72177+03
.16785+0*
.23499+00
.27&96+00
.32731*00
.*e*6*+01
.3357l«fl«!
.72177+01
STREAM TOTAL --
.16785*0*
.16785*0*
- PACKAGED
.16124*02
.193*2*02
.11127*03
.13353*03
,25178+tl*
.25176*0*
BoILENS
.50*33*01
.50*33*01
.19814*03
.19814*03
.*6160*02
,*6160*02
.92319+01
.55391+02
.23*99+00
.23*99+00


EQUIPMENT TYKE 209 - STOKER
.10665*02
.10665*02
.1555*+U*
.15554*0*
.62007+01
.37238+02
.143*2+03
.66387+03
.32176+01
.32176+01
.74182+02
.74182+02
.32176-01
.15191-01
.49774+01
.69875+01
.72177+03
.16785+0*
F-T BOILER


.48817+05
.12204+06
.J3499+00
.27696+00
<29.J
.32176-01
.366H4-01
.67UU3+01
.6D4U4+01
.32731+00
.18*64+01

.H9191-01
.258*9-01
.20197+02
.11534*0?
.33571*04!
.72177*01

,18«76+0u
.38664-01
.27759+0.!
.59585+01
STREAM TOTAL "
.127*0*03
.15287*03
- PACKAGED
.318*9+0*
.318*9+0*
.20316*03
.2U31fl*U3
BOILERS
,*777*+0*
,*777*+0»
.13661*0*
.15661*0*
.1S002+03
.90110+03
.77*00+02
.77400+02
EQUIPMENT TYPE 210
.67385*02
.87585*02
.17517+02
.10510+03
.4*589+00
.44589+00
.30096+01
.7032.7 + 01
.*8S17+05
.12204+C6
- HRT BOILERS <79.


.13693+0*
.318*9*0*
.67323+01
.80791*01
3
,**5B9*00
.52551+00
.202*2+02
.11560+02

.62106+00
, 3503*+01
.27939+02
.59972+Oi

.63696+0.1
.13693+0.!
STREAM TOTAL —
.318*9+0*
.318*9+0*
- PACKAGED
.337*7+01
.6**7J«01
.22015+01
.26*17+01
.59394+03
.59394+03
,*777*+0»
,*777**0*
BOILEHS
.16611*01
.16811*01
.392011*01
.39200*01
.89091*03
.89091*03
.67585*02
.87585*02
.17517+02
.10510+03
.4*589+00
.*4589+00
EQUIPMENT TYPE 211
.35550*01
.35550*01
.30773+02
.30773+02
.16333+02
.16333+02
.20667+01
.12413+02
.26453+01
.17091+02
.32667+01
.19600+02
.10725+01
.10725+01
.14676+01
.14676+01
.83152-01
.83152-01


.13693*0*
.318*9*0*
.m»sp9»0d
.52551*00
.62106 + 01)
.3503*+01
.63698+Hc!
.13695 + 0.!
- RES/COMM STEAM + HOT UA1
.10725-01
.15064-01
.98474-01
.13824+00




.96580+03
.2*1*5+0*
.25539+03
.59394+03
.10725-01
. 12*95-01
.ispi'e+oo
.159117*00
.83152-01
.960110-01
.15064-01
.86164-02
.39958+00
.22610 + 0(1
.11562+00
.6533*+00
.60255-01
.128M5-Oi
,5*918+0j
,11768+Ou
.11879+0«:
,25539+Oi
STREAM TOTAL --
.60152+03
.60303+03

.60297+05

.65021+02
.13543+0*
.58878+03
.-
,3008*+05
.30213*05
.89631*03
.89651+03

.90527*05

.18*92*02
.21924+0*
.88316+05

.*526*»05
.*526**05
.50661*02
.30661+02

.18S69+05

.39105+02
.17211+05
.16191+0*

.9*34«+0*
,9*3**+0*
.81787+01
.49103+02

.67879+0*

.79636+02
.557*9+0*
.11334+0*

.96694+03
.56190+0*
.26233+01
.26233+01

,84085+03

.11798+02
.82081*03
.62*29+01

.42042+03
.42042+03
.10920+00
.13331+00

.66336+02

.14184+00
.6619*+02


.27396+02
.387*0+02
.12212+0*
.30084+04

.98735+06


.9*525+06
.42097+03

.28273+06
,70462+06
.226*4*00
.26997*00

.90660*02

.i?
-------
                                                  TABLE D-9.    EMISSIONS  INVENTORY — POLLUTANT GROUP  iv
                        FUEL -CNTRL FAC-  EFF
                        TYPE  123   SIR
                                                            SR
                                                                                     POLLUTANTS  IMEGAGRAMS/YEAR)
O
 I
ro
.01
.01
.01
.01
.01
.01
SECTOR
  .25
  .25
  .25
  .25
  .25
  .25
                                             1  - UTILITY BOILERS
                                                          .11010*01
                                               .22776*01   ,72S4f*02
                                                                                  EQUIPMENT  TYPE   101  -  TANGENTIAL BOILERS
                       .37173*01

                       .73907*01
                                                          ,1A?11*03
                                                          .36372*01
                                                          .?354l»03
                        EOUIPMENT TTPE  EFFLUENT  STREAM TOTAL —
                          1 FLUE 6*S                      .79777*01
                          3 BOTTM HOPPER  ASH    .13366*02   .1*9006*03
                             .03
                             .05
                             .05
                             .03
                             .05
                             .05
           SECTOR
             .25
             .25
             .25
             .25
             .25
             .25
                                             1  -  UTILITY BOILERS
            .22776*01

            .57289*01
                                               .74023*01
                            .11810*01
                            .72507*02
                            ,2970b*01
                            .18248*03
                            .38382*01
                            .23578*03
EQUIPMENT TYPE EFFLUENT STREAM TOTAL  --
  1 FLUE GAS                      .79898*01
  3 BOTTM HOPPER ASH   .15009*02  .49080*113

           SECTOR    1 - UTILITY BOILERS
  *  .05     .25   1              .47601*00
  t  .05     .25   3   .91603*00  .29241*02
  7  .05     .25   1              .11991*01
  T  .05     .25   3   .23175*01  .73657*02
  9  .05     .25   1              .15546*01
  8  .05     .25   3   .29981*01  .95495*02
EQUIPMENT TTPE EFFLUENT STREAM TOTAL  —
  1 FLUE GAS                      .32297*01
  3 HOTTM HOPPER ASH   .62286*01  .19839*03
                                   SECTOR
                          t   .0
-------
                                                                   TABLE  D-9.    Continued
                        FUEL -CNTRL FAC- EFF
                        TYPE  123  STR
                                                             SR
ro
en
           SECTOR    2 - PACKAGED BoILEHS
 19          .05   1              .3(1382*01
 19          .03   3   .7*023*01  .23578*03
EQUIPMENT TYPE EFFLUENT STREAM TOTAL --
  i FLUE s*s                      .S8382«oi
  3 BOTTM HOPPER *SH   .740234-01  .23578*03

           SEC10R    1 - PACKAGED BOtLEKS
EQUIPMENT TYPE EFFLUENT STREAM TOTAL --

           SECTOR    2 - PACKAGED BOILERS
 IS                1              .3b85i!*01
 IS                3   .691*2+01  .22023*03
EQUIPMENT TTPE EFFLUENT STRFAH TOTAL —
  1 FLUE GAS                      .39852*01
  ) BOTTM HOPPER ASH   .691*2*01  .22023*03

           SECTOR    2 - PACKAGED BOILERS
 19                1              ,569«tl»01
 IS                3   .10981*02  .5*976*03
COOIPBENT TYPE EFFLUENT STREAn TOTAL --
  i FLUE SAS                      .S69m«oi
  3 BOTTfl HOPPER ASH   .10961*02  .3*978+03

           SECTOR    2 - PACKAGED BOILEHS
 19                1              .36695*01
 19                3   .70769*01  .22529







EQUIPMENT TYPE  202 - STOKER U-TUBE      >29


EQUIPMENT TTPE  203 - SINGLE BURNER W-T  <29






E9UIPMENT TYPE  201 - SCOTCH FIRETUBE    <29







EQUIPMENT TYPE  205 - FIREBOX FIRETUBE   <29







EQUIPMENT TYPE  206 - STOKER  FIRED  H-TUBE <29


EQUIPMENT TYPE  208 - CAST IRON BOILERS






EQUIPMENT TTPE  209 - STOKER  F-T BOILER  <29

-------
                                                                  TABLE  D-9.   Concluded
                        FUEL  -CNTRL F«C- EFF
                        TYPE   1   2   J  STR
                                                            SH
                                                             POLLUTANTS (MEGAGRAMS/YEAH)
           SECTOR    2 - PACKAGED 8OILEHS
 IS                1              .2?29»*01

EQUIPMENT TYPE EFFLUENT STREAM TOTAL  --
  1 FLUE GAS                      .72291*01
  3 HOTTM HOPPER ASH   .12996*01   .13fc9b»03

           RECTOR    2 - PACKAGED ROILfHS
 IS                1              .1157b*UO
 IS                3   .00182*00   . 2Sb3'**02
EQUIPHENT TYPE EFFLUENT STHEAM TOTAL  —
  1 FLUE GAS                      .11576*00
  3 BOTTM HOPPER ASH   .90182*00   .25539*02
                                                                                  EQUIPMENT  TYPE   210  - HHT BOILERS
                                                                                  EOUIPnENF  TTPE   211  - RES/COMM STEAM + HOT WAI
O
 I
no
                       StCTOR
                                 Z TOTAL
                          BY FUEL --
                        IS RESIUUAL OIL
                                              ,39T»2»02  .1286S>*OH
                                              .39712*02
   BT EFFLUENT  STREAMS  -•
  1 FLUE 6A
-------
                                APPENDIX E


              REGIONAL STATIONARY SOURCE COMBUSTION CONTROLS




        This appendix presents state and local standards for new and



existing stationary combustion sources.  This information was obtained



through contacts with local regulatory agencies and from the Environmental



Reporter (Reference E-l).  Standards for new sources which are the same as



the Federal NSPS (Table 4-9) are not listed.  Table 4-12 of Section 4.4.2



shows the impact of these controls.  In 1974, controls of stationary



NO  sources caused only an estimated 1.6 percent reduction in NO .
  x                                                             x
                                     E-l

-------
                                   TABLE E-l.   REGIONAL  STATIONARY  SOURCE  COMBUSTION CONTROLS

REGION
NEW
ENGLAND

MIDDLE
ATLANTIC
SOUTH
ATLANTIC





STATE
CONNECTICUT
VERMONT
NEW YORK
New York
City
DELAWARE
New Castle
Co.
DISTRICT OF
COLUMBIA
FLORIDA
Tampa
MARYLAND
NORTH
CAROLINA
EQUIPMENT3
NEW OR HEAT INPUT
EXISTING TYPE CAPACITY0
Exist- Fuel >73 (250)
ing burning
New Fuel 1.5-73
burning (5-250)
Exist- Fuel "
ing burning
All GT
New Combustion >73 (250)
New GT >73 (250)
All GT, ICT 1?3 (250)
All Boilers >147.5 (500)
All Steam >147 (500)
generators
Exist- Steam >29 (100)
ing generators
Exist- Steam >2.9 (10)
ing boilers
• New Fuel ^73 (250)
burning
Exist- Boilers >73 (250)
ing
1
STANDARD
GAS OIL COAL
FIRED FIRED FIRED
86.1 (0.2) 129 (0.3) 387.3 (0.9)
86.1 (0.2) 129 (0.3) 301 (0.7)
86.1 (0.2) 129 (0.3) 387.3 (0.9)
387.3 (0.9) 387.3 (0.9) 387.3 (0.9)
129 (0.3)
. 129 (0.3)
86.1 (0.2) 129 (0.3)
73.2 (0.17) 77.5 (0.18) 86.1 (0.2)
86.1 (0.2) 129 (0.3) 129 (0.3)
86.1 (0.2) 129 (0.3) 301 (0.7)
86.1 (0.2) 129 (0.3) 301. (0.7)
86.1 (0.2) 129 (0.3) 215.2 (0.5)
258.2 (0.6) 258,2 (0.6) 559.4 (1.3)

EFFECTIVE
DATE

7/1/71
7/1/73

7/1/76

7/1/76

7/1/72

COMMENTS
Except GT, 1C
Except GT, 1C
Except GT, 1C; variances
permi tted
Except GT

Except for certain
sources governed by
operation permit
Except lignite

Applies to Priority I
AQCR's only

m
 i
ro
                  aGT refers to gas turbines;  1C refers to reciprocating internal combustion engines
                  bUnless stated otherwise, units are ng/J (Ib/HBtu)
                  cUnless stated otherwise, units are MW (MBtu/hr)

-------
                                                                 TABLE  E-l.    Continued


RtGION
WEST-
SOUTH-
rruToAi
I* Cn 1 l\nL












EAST-
NORTH-
CENTRAL

















•

STATE
OKLAHOMA

TEXAS
Dallas
Forth Worth
& Houston-
Galveston
ACQR'S







ILLINOIS
Lake, Mill,
Ou Page,
Me Henry,
Kara,
Grundy,
Kendall,
Kankakee,
Macon,
St. Clair,
Madison Cos.
Cook Co.



INDIANA


OHIO

tOUII'MtNla
NEW OR 1 HEAT INPUT
EXISTING TYPE CAPACITY0
New Fuel ^52.75 (50)
burning

All Steam >272,200
generators kg/hr max
(> 600, 000
Ibs/hr max)
continuous
capacity
Opposed
fired
Front
fired
Tangential
fired

Exist- Fuel >73 (250)
ing combustion








New Fuel ^59 (200)
combustion
Exist- Fuel
ing combustion 2.59 (200)
Exist- Fuel ^73 (250)
ing burning

Exist- Boilers >73 (250)
ing
STftNliAKU1'
GAS OIL COAL
FIRED FIRED FIRED
86.1 (0.2) 129 (0.3) 301 (0.7)








301 (0.7)

215.2 (0.5)

107.6 (0.25)


129 (0.3) 129 (0.3) 387.3 (0.9)









86.1 (0.2) 129 (0.3) 301 (0.7)


129 (0.3) 129 (0.3) 387.3 (0.9)
86.1 (0.2) 129 (0.3) 301 (0.7)


86.1 (0.2) 129 (0.3) 387.3 (0.9)
i
rrrr/~T]ur
Er r LC i 1 Vt
DATE



8/31/72

































COMMENTS
















Except cyclone &
horizonatally opposed
fired boilers burn-
ing solid fuel









i it
Applies to "Priority
iasin A" only - none
at present
Applies only to
'riority I regions
 I
CO
          aGT refers  to gas turbines;  1C refers  to reciprocating internal combustion engines
          bUnless stated otherwise,  units are ng/J (Ib/HBtu)
          cUnless stated otherwise,  units are MW (MBtu/hr)

-------
                                                       TABLE  E-l.    Continued

REGION
WEST-
NORTH-
rFNTRAI

MOUNTAIN














STATE
MINNESOTA
SOUTH
DAKOTA
NEW MEXICO




WYOMING








tQUI('MtNld
NEW OR 1 ! HEAT INPUT
EXISTING ' TYPE ] CAPACITY0
Exist- Boilers '73 (250)
ing
AH Fuel
burning
New Coal >73 (250)
burning
Exist- Coal >73 (250)
ing burning
New Gas > 1 . 055, 000
burning GJ/yr
(1,000,000
MBtu/yr)
Exist- Gas
ing burning
All Oil
burning
New Gas
burning
Exist- Gas
ing burning
New Oil 10.29 (1)
burning
New Oil <0.29 (1)
burning
Exist- Oil i?3 (250)
ing burning
Exist- Oil <73 (250)
ing burning
New Solid
fired
equip.
Exist- Solid
ing fired
equip.
ilANUAHu
GAS OIL CUAL
FIRED F1REO HRED
129 (0.3) 172.1 (0.4)
86.1 (0.2) 129 (0.3)
193.6 (0.45)
301 (0.7)
66.1 (0.2) 301 (0.7)
129 (0.3)
129 (0.3)
86.1 (0.2)
99 (0.23)
129 (0.3)
258.2 (0.6)
197.9 (0.45)
258.2 (0.6)
301 (0.7)

322.7 (0.75)

DATE



12/31/74
12/31/74
12/31/74











COMMENTS







Except 1C <59 (200)

Except 1C <59 (200)
Except 1C <59 (200)
Except 1C <59 (200)
Except 1C <59 (200)
Except 1C <59 (200)

Except 1C <59 (200)
except lignite
*GT refers to gas  turbines; 1C refers to reciprocating Internal combustion engines
bUnless stated otherwise, units are ng/J (Ib/MBtu)
cunless it*ted otherwise, units are 1*1 (MBtu/hr)

-------
                                                        1ABLE  E-1.    Continued

RfGlON
PACIFIC



































STATE
CALIFORNIA11
Bay Area APCD



Monterey Bay



San Diego

San Joaquin



Kern Co.

Santa
Barbara APCO


Cos. in SCAPCD:
LA Co.e




Orange Co.







lyuifMiNi4
NtW OR ' HLAI INPUT
EXISTING TYPE CAPACITY

New Heat >73 (250)
transfer
All Heat >513
transfer (1,750)
New Fuel
burning
All Fuel >440
burning (1,500)
All Fuel >.15 (50)
burning
New Fuel
burning
New Fuel >520
burning (1,775)
New Fuel
burning
New Fuel
burning
Any Fuel >520
burning (1,775)

All Equip. >520
(1.775)
All Equip. >520
(1.775)
New Equip. >73 (250)
Exist- Equip. 147-630
ing (500-2.150)
Exist- Equip. >630
ing (2,150)
Exist- Equip. >630
ing (2.150)
Exist- Equip.
ing
jUNI)l\Klt''
GAS 1 Oil 1 COAL
FIRED 1 F1RLO MRID
1

125 ppra 225 ppm

175 ppm 300 ppm

64 kg/hrf 64 kg/hrf 64 kg/hrf

225 ppm 225 ppm/hr

125 ppm 225 ppm 225 ppm

G4 kg/hrf 64 kg/hrf 64 kg/hrf

125 ppm 225 ppm 225 ppm

64 kg/hrf 64 kg/hrf 64 kg/hrf

64 kg/hrf 64 kg/hrf 64 kg/hrf

125 ppm 225 ppm


225 ppm 325 ppm _

125 ppm 225 ppm

125 ppm 225 ppm
225 ppm 325 ppm

225 ppm 325 ppm

225 ppm 325 ppm

125 ppm 225 ppm

rt r r r T i wr
LI * f- I 1 V t
DATE



4/19/75



9/16/76





1/1/75





1/1/75


12/31/71

12/31/74


12/31/72

12/31/72

12/31/72

12/31/75


COmtNTS



































SGT refers  to gas turbines;  1C  refers to reciprocating internal  combustion engines
 Unless  stated otherwise,  units are ng/J (Ib/MBtu)
cUnless  stated otherwise,  units are MH (HBtu/hr)
 All  ppm standards are at  3  percent 0?
eftules  put  into effect before SCAPCD was formed and replaced by  SCAPCU rules
f!40  Ibs/hr

-------
                                                             TABLE  E-l.    Concluded
REGION
PACIFIC
(Contin-
ued)

























STATE
San
Bernardino
Co.*


Riverside
Co.*





SCAPCD







Ventura Co.
APCD






1 QU 1 PMl N 1 d
NEW OR J HIAT INPUT
EXISTING j TYPE CAPACITY
Exist-
ing

Exist-
ing
Exist-
ing
Exist-
ing
Exist-
ing
New
ATI

All

AIT

All

New

New

All

All

Equip.


Steam .
generators
Equip.

Equip.

Equip.

Equip.
Fuel
burning
Fuel
burning
Steam
generating
Fuel
burning
Fuel
burning
Fuel
burning
Fuel
burning
Fuel
burning
>520
(1.775)

147-520
(500-1,775)
>205 (700)

>205 (700)

>520
(1.775)

523-629
(1,786-2.143)
>628
(2.143)
>163 (555)

161-523
(550-1,786)


>73 (250)

73-630
(250-2.150)
>630
(2.150)
SIANUA«Ob
GAS
F1RIO
125 ppm


125 ppm

225 ppm

125 ppm

125 ppm

64 kg/hrf
225 ppm

125 ppm

125 ppm

300 ppm

64 kg/hrf

125 ppm

250 ppm

125 ppm

OIL
FIRED
225 ppm


225 ppm

325 ppm

225 ppm

225 ppm

64 kg/hrf
325 ppm

225 ppm

225 ppm

400 ppm

64 kg/hrf

225 ppm

250 ppm

225 ppm

COAL
FIRED











64 kg/hrf
325 ppm

225 ppm

225 ppm

400 ppm

64 kg/hrf



250 ppm



EFFECTIVE
DATE
1/1/75


1/1/75

12/31/71

12/31/74

1/1/75








1/1/77









COtWENIS





Applies to West Central
Area Only
Applies to West Central
Area Only
Applies to Balance of
County













Except Peaking Units
at Kandalay


aGT refers to gas turbines;  1C  refers to reciprocating internal  combustion engines
bUnless  stated otherwise,  units are ng/J (Ib/MBtu)
cUnless  stated otherwise,  units are T1W (MBtu/hr)
dAll ppm standards are at  3  percent 0?
eRules put into effect before SCAPCD was formed and  replaced by  SCAPCU rules

-------
                          REFERENCES FOR APPENDIX E
E-l.  Environment Reporter, State Air Laws (2V.)  Bureau  of National
      Affairs, Inc., Washington, D.C.
                                      E-7

-------
                                APPENDIX F
         NATIONAL SOURCE POLLUTION POTENTIAL ASSESSMENT FOR 1974

        Appendix F presents the national source pollution potential
assessment for 1974.  This assessment was generated using the Source
Analysis Model (SAM) developed in Section 5.1.  The data used in this
assessment is discussed in Section 5.2.  This assessment is based on the
reference high nuclear energy projection scenario described in
Section 3.4.1.

        This assessment for 1974 suggests that coal-fired utilities  and  '
stokers are the most serious sources of pollution potential at present.
Beryllium is the most deleterious pollutant, having a single pollutant
impact factor two order of magnitude larger than other pollutants.  Cyclone
boilers represent the most significant single NO  source.  Finally,
                                                J\
opposed wall coal-fired boilers have the highest single source pollution
potential.  For a complete discussion of the results summarized here and the
conclusions of the source analysis modeling for 1974, refer to Sections 5.3
and 5.4 respectively..

        It should be noted here that this assessment is based on incomplete
data in some areas.  The health effect values are preliminary, denoting
ambient concentrations at which continuous exposure should be investigated
rather than indicating absolute standards.  Also, POM and trace element data
are highly variable depending on combustion conditions and fuel composition.

                                   F-l

-------
Thus, the assessment listing presented here should be considered as an
indicator of possibly serious pollution sources,  rather than as an absolute
ranking of pollution severity.
                                     F-2

-------
                 TABLE  F-l.   NATIONAL  POLLUTION  POTENTIAL  ASSESSMENT FOR  STATIONARY COMBUSTION  SOURCES IN 1974
                    INVERSION HEIGHT
                               (Ml
1900.
            197H ..  IMPACT PARAMETERS
WIND  SPEED =   4.500            RURAL POP. -
     IM/S)                       IP/KHJt
                      SECTOR   1 - UTILITY  BOILERS
 I
co
                    CONSUMPTIONS  TOTAL
                          SINGLE SOURCE
   2.6211    (1E1S KU/YRI
   .1124-01 (1E15 KJ/YRI
POLLUTimt
NOX
sox
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
Co
cu
PB
MN
NATURAL
.9824+09
.l!8+ll
.1529-01*
.1991-02*
.7322+10
.3651-01*
.5308*00*
.2844+00*
.1336+13
.2429+00*
.3491*10
.5778+00*
.4766+08
.8637+00*
.7074-01*
RURAL
.3224+10
.2434*11
.1800*03*
.2502+01*
.4097+11
.1677+00*
.4531+01*
.8677+00*
.1336+13
.2429+00*
.5828+10
.5778+00*
.3339+09
.6141+01*
.7914-01*
URBAN
.5216+10
.3617+11
.1840+03*
.4002*01*
.4726+11
.2482*00*
.7031*01*
.1368+01*
.1672*13
.2429+00*
.1036+11
.7478+00*
.2918+09
.4309+02*
.1279+00*
                           TOTAL
                                        .13677+13
                                                    .14192+13
       EQUIP TYPE  101 - TANGENTIAL BOILERS

           FRACTION:  RURAL s  .390
                     UKBAN =  .410

         GAUSSIAN  APPROXIMATED  SOURCE
      EFFECTIVE STACK HEI6HT =   180,0    IM>
                            POLLUTANT
                              HG
                              HO
                              NI
                              V
                              ZN
                              ZR
                              AS
                              BI
                              AL
                              SB
                              CO
                              SE
                              P
                              SR
                                                                .19631+13
22.34 URBAN POPL. = 359.7
SP/KK2I
FUEL TYPE 2 -
CONTROLS: NOX a
SOX =
PaRTICULATES s
NATURAL RURAL
.5991*00* .5991+00*
.1058-01* ,1058-01*
.7497+08 .1121*09
.5276*00* .5562*00*
.4142+00* .1927*01*
.3830-01* .3630-01*
.1975*00* .1975+00*
.2161-01* .2161-01*
.54H9+10 .6515 + 10
.1769-01* .6769-01*
.8899+08 .1029+09
.1848+00* .1848*00*
.0000 * .0000 *
,0000 a .0000 •
EASTERN SITUniN
.0000
.0000
.6500
URBAN
.2099*01*
.1058-01*
.5206+09
.7966*00*
.2767*01*
.3830-01*
.2460+UO*
.2161-01*
.9029+10
.1177+00*
.2114+10
.2688+00*
.0000 *
.0000 •
                                                     RURAL
                                                     URBAN
                                                                       IMPACT FACTORS
                       SINGLE  SOURCE
                           .3171+08
                           .7133+09
                                                            TOTAL IMPACT FACTOR =
                                                    AVERAGE SOURCE IMPACT FACTOR =
                          MULTIPLE SOURCE
                               .4366+10
                               .6826+11

                           .7262+11
                           .3112+03
                                         *  RATIO OF MAXIMUM SURFACE CONCENTRATION  PLUS BACK6ROUNO CONCENTRATION TO 101 OF MEG

-------
                                         TABLE  F-l.   Continued
INVERSION HEIGHT e
            (R)
                     1500.
                              1974  "  inPACT PARAMETERS
                 WIND SPEtD =   it.500            RURAL POP. =
                      (H/S)                        IP/KHZ)
  SECTOR  i - UTILITY BOILERS
CONSUMPTION!  TOTAL
      SINGLE SOURCE
     POLLUTANT
       NOX
       SOX
       HC
       CO
       PART
       SULFAT
       POM MI
       BA
       BE
       B
       CR
       CO
       CU
       PB
       MN

       TOTAL
   1.584    (1E15 KJ/TR)
   .1124-01 (1E1S KJ/YR)
NATURAL
.9824+09
.1643*11
.1529-01*
.1991-02*
.6982+10
.1681-01*
.9508+00*
.2644*00*
.1336*13
.2429*00*
.3491*10
.5778+00*
.11766+06
.8637+00*
.707i-oi*

.13713+13
 RURAL
.3224+10
.2629+11
.1800+03*
.2502+01*
.3875+11
.1780+00*
.4531+01*
.8677+00*
.1396+13
.2429+00*
.5828+10
.5778+00*
.3339+09
.6141+01*
.7911-01*

.14209+13
            EQUIP TYPE  101  -  TANGENTIAL BOILERS

                FRACTION!   RURAL =   .590
                           URBAN =   .410

              GAUSSIAN  APPROXIMATED  SOURCE
           EFFECTIVE  STACK  HEIGHT =   180.0    (HI
 URBAN
.5216+10
.4012+11
.1840+03*
.4002+01*
.4470+11
.2585+00*
.7031+01*
.1368+01*
.1872+13
.2429+00*
.1036+11
.7478+00*
.2918+09
.4309+02*
.1279+00*

.19845+13
POLLUTANT
  H6
  no
  NI
  V
  ZN
  ZR
  AS
  BI
  AL
  SB
  CD
  SE
  P
  SR
22.34 URBAN POPL. = 339.7
1P/KM2)

FUEL TTPE 3 - CENTRAL BITUMIN.
CONTROLS! NOX =
SOX x
PARTICULATES -
NATURAL RURAL
.5991+00* ,5991+00*
.1058-01* .1056-01*
.7497*08 .1121+09
.5276+00* .5562+00*
.4142+00* .1927+01*
.3830-01* .3830-01*
.1975+00* .1975+00*
.2161-01* .2161-01*
.5449+10 .8545+10
.1769-01* .6769-01*
.8899+08 .1029+09
.1848+00* .1848+00*
,0000 * .0000 *
.0000 * .0000 •
.0000
.0000
.6500
URBAN
.2099+01*
.105A-01*
.5206+0?
.7966+00*
.2767+01*
.3830-01*
.2480+00*
.2161-01*
.9029+10
.1177+00*
.2114+10
.2688+110*
.0000 *
.0000 *
                                   RURAL
                                   URBAN
                                                       IMPACT FACTORS
                         SINGLE  SOURCE
                             .3174+08
                             .7138+09
                                          TOTAL  IMPACT FACTOR «
                                  AVERAGE SOURCE  IMPACT FACTOR =
                               MULTIPLE SOURCE
                                     .2638+10
                                     .4123+11

                                 .4387+11
                                 .3111+09
                      *   RATIO OF  MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO iO«, OF MEG

-------
                                           TABLE  F-l.    Continued
INVCRSION HES8HT  *
            IN)
1300,
                                                  197t — IMPACT PARAMETERS
                                     WIND SPEED -   4.900            RURAL POP.
                                          (H/S)                        (P/KM2I
                                                                                    22. 34
                                                                                                    URGAN POPL. -  357.7
  SECTOR  i - UTILITY BOILERS
                         E8UIP  TYPE 101 - TANGENTIAL BOILERS
                                                                         FUEL TYPE  4  • WESTERN SITUHIN,
CONSUMPTION!  TOTAL =
      SINGLE SOURCE a
                        ,6690     <1E19 Ktl/YR)
                        ,1124-01  (1E1S KJ/YRJ
                                                 FRACTIONS
RURAL =
URBAN s
                                                .590
                                                .410
POLLUTANT
NOX
SOX
HC
CO
PART
SULFHT
pon Hi
BA
BE
8
CR
CO
cu
PB
HN
NATURAL
,9824+09
.1033+11
.1529-01*
.1991-02*
.6576+10
.3183-01*
.5300+00*
.2844+00*
.1336+13
.2429+00*
.3491+10
,5778+00*
.4766+08
.8637+00*
.7074-01*
RURAL
.3224+10
.2039+11
.1800+03*
.2502+01*
.3656+11
.1631+00*
.4531+01*
.6677+00*
.1336+13
.2429+00*
.5828+10
.5778+00*
.3339+09
.6141+01*
.7914-01*
URBAN
.5216+10
.3222+11
.1610+03*
.4002+01*
.4219+11
.2436+00*
.7031+01*
.1368+01*
.1872+13
.2429+00*
.1036+11
.7478+00*
.2918+09
.4309+02*
,1279+00*
       TOTAL
                     .13630+13
                                  .14109+13
                                               GAUSSIAN APPROXIMATED SOURCE
                                            EFFECTIVE STACK HEIGHT =   180.0
                                                                    POLLUTANT
                                                                      HS
                                                                      MO
                                                                      NI
                                                                      V
                                                                      ZN
                                                                      ZR
                                                                      AS
                                                                      Bl
                                                                      AL
                                                                      ss
                                                                      CO
                                                                      SE
                                                                      p
                                                                      SR
                                              .19741+13
CONTROLS! NOX =


NATURAL
.5991+009
.1058-019
.7497+08
.5276+00*
.4142+00*
.3830-01*
.1975+00*
.2161-01*
.5449+10
.1769-01*
.0899+08
.1B48+00*
.0000 *
.0000 *
SOX a
PARTICULATES i
RURAL
.5991+00*
.1058-01*
.1121+09
.5562+00*
,1927+01*
.3830-01*
.1975+00*
.2161-01*
.6545+10
.6769-01*
.1029+09
.1S46+00*
.0000 •
.0000 *
.0000
.0000
.6500
URBAN
.2099+01*
.1058-U1*
.5206+09
.7966+00*
.2767+01*
.3630-Ul*
.2180+00*
.2161-01*
.9029+10
.1177+00*
.2114+10
.2680+00*
.0000 *
.0000 *
                                  RURAL
                                  URBAN
                                                      IMPACT FACTORS
                         SINSLE SOURCt
                             .3192+08
                             .7101+09
                                          TOTAL IMPACT FACTOR
                                 AVERA6E SOURCE IMPACT FACTOR
                                                                 MULTIPLE SOURCE
                                                                      .1437+10
                                                                      .2290+11

                                                                  .2394+11
                                                                  .3097+09
                      •   RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO lop OF MEG

-------
                                                                TABLE  F-l.   Continued
INVERSION  HEIGHT =   1900.
                                                                          1974 -- IMPACT PARAMETERS
                                                              WIND SPEED =   4.500            RURAL POP.
                                                                  (W/Sl                        


-------
                                                                  TABLE  F-l.   Continued
                        INVERSION HEIGHT
                                    (Hi
                                             1300.
                          1974 -- IMPACT PARAMETERS
              WIND SPEED s   4.500            RURAL POP.  =
                  IM/S)                        IP/KN2)
                                       22.34
                                                                                                                            URBAN POPL.  a  339.7
                          SECTOR  t - UTILITT  BOILERS
                        CONSUMPTION:   TOTAL
                              SINGLE  SOURCE
.1960    (1E1S KJ/VR)
.7142-03 (1E13 KJ/TRI
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
MN
NATURAL
.2547+09
.7767+10
.3202-01*
.3202-02*
.3093+07
.1177+00*
.7943-02*
,4269+00*
.0000 *
.9231.02*
,4105+10
.6370*08
.9194+07
.2308*08
.4672-01*
RURAL
.8187+09
.1655+11
.1600+03*
.2503+01*
.5530+08
.2489+00*
.4008+01*
.1171+07
.0000 *
.9231-02*
.6443+10
.6370+08
.3059+08
.1134+09
.5513-01*
URBAN
.1320+10
.2710+11
.1840+03*
.4003+01*
.6481+08
.3294+00*
.6506+01*
.1520+01*
.0000 *
.9231-02*
.1098+11
.8816+08
.3366+08
.7455+09
.1039+00*
—I
                               TOTAL
                                             .43*39+11
                                                         .55959+11
 EOUIP TTPE 101 - TANGENTIAL BOILERS

     FRACTION!   RURAL  =   .320
                URBAN  =   ,6AO

   GAUSSIAN APPROXIMATED  SOURCE
EFFECTIVE STACK HEIGHT =   110.0    (HI
                       POLLUTANT
                         H6
                         NO
                         NI
                         V
                         ZN
                         ZR
                         AS
                         BI
                         AL
                         sa
                         CO
                         SE
                         p
                         SR
                                                                      ,75041+11
                                                                                                                     FUEL TYPE  6 -  HIGH S  RES.  OIL
CONTROLS; NOX a


NATURAL
.4051+00*
.4672-01*
.2457+11
.6630+10
.7342-01*
.1468-01*
.3738-02*
.0000 *
.4027+07
.3707-02*
.1549+00*
.1076+08
.0000 *
.4044-02*
SOX a
PARTICULATES a
RURAL
.4051+00*
.4672-01*
.2502+11
.6701+10
,1586+01*
.1466-01*
.3738-02*
.0000 *
.1348+09
.5371-01*
.2299+00*
.1076+08
.0000 *
.4044-02*
.0140
.0000
.2500
URBAN
,1905+Ul*
.4672-01*
.2659+11
.8095+10
.2426+01*
.1466-01*
.5416.01*
.0000 *
,9559+07
.1037+00*
,1164+07
.1444+09
.0000 *
.4044.02*
                                                                              IMPACT  FACTORS
SINGLE SOURCE
RURAL .1250+07
URBAN .2699+08
TOTAL IMPACT FACTOR *
AVERAGE SOURCE IMPACT FACTOR s
MULTIPLE SOURCE
,1098+OB
.5037+09
.5147+09
.1676+06
                                              *   RATIO OF MAXIMUM SURFACE CONCENTRATION  PLUS BACKGROUND CONCENTRATION  TO  10« OF MEG

-------
                                                                  TABLE  F-l.   Continued
1971 -- IMPACT PARAMETERS
INVERSION HEIGHT *
»M>
SECTOR i • UTILITY
CONSUMPTION! TOTAL *
SINGLE SOURCE =
1300.

BOILERS
.1920
.7112-02
WIND SPEED = 1.500

-------
                                          TABLE F-l.    Continued
INVERSION HEIGHT
            in)
                     139S.
                          1974 -- IMPACT PARAMETERS
              HINQ SPEtD =   4.500            RURAL POP.
                  IK/SI                        (P/KM2!
                                                                                   29.34
                                                   URBAN POPL.  =
                                                     (P/KM2!
                                                                                                                   399.7
  SECTOR  1 *• UTILITY 801LERS
                                             eauip TYPE 101  -  TANGENTIAL BOILERS
CONSUMPTION!   TOTAL
      SINGLE  SOURCE
.6360    I1E15 KJ/YRI
,7112-02 (1E15 KJ/TRl
FRACTIONS   RURAL
           UKBAN
.320
.680
POLLUTANT
NOX
sox
HC
CO
PART
SULF*T
POH HI
BA
BE
B
CR
CO
CU
PB
NN
NATURAL
,25i|T+09
.8306+09
.3202-01*
.3202-02*
.5093+07
.2942-01*
.7943-02*
.4369+00*
.0000 *
.9231-02*
.4105+10
.6370+08
.5194+07
.2309+08
.4672-01*
RURAL
.6187+09
.1936+10
.1800+OSe
.2503+01*
.5538+08
. 1607+00*
.4008+01*
.1171+07
.0000 *
.9231-02*
.6443+10
.6370+08
.3859+08
.1134+09
. 5513-01*
URBAN
.1320+10
.3262+10
.1640+03*
.4003+01*
.6481+08
.2411+00*
.6508+01*
.1520+01*
.0000 >
.9231-02*
.1098+11
.8818+08
.3368+08
,7455+09
.1039+00*
                                               GAUSSIAN APPROXIMATED SOURCE
                                            EFFECTIVE STACK  HEIGHT s   110.0
  FUEL TYPE  S - LOW  S RES.  OIL

CONTROLS:   NOX 3   .0140
           SOX »   .0000
  PARTICULATES *   .2500
POLLUTANT
HG
MO
Nl
V
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR
NATURAL
.4051+00*
,4672-Ola
.2457+11
.6630+10
.7342-01*
.1468-01*
.3736-02*
.0000 *
.4027+07
.3707-02*
.1549+00*
.1076+08
.0000 *
.4044-02*
RURHL
.4051+00*
.4672-01*
.2502+11
.6701+10
.15S6+01*
.1468.01*
.3738-02*
.0000 *
.1348+09
.5371-01*
.2299+00*
.1076+08
.0000 *
.4044-02*
URBAN
.1905+U1*
.4672-01*
.2659+11
.6095+10
.2426+01*
.1468-01*
.5416-01*
.0000 *
.9559+07
.1037+00*
.1164+07
.1444+09
.0000 *
.4044-U2*
       TOTAL
                     .36499+11
                                 .41341+11
                                              .91203+11
                                                      IMPACT FACTORS
SINGLE SOURCE
RURAL .9236+06
URBAN .1842+08
TOTAL IMPACT FACTOR a
AVERAGE SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
.2632+08
.1115+10
.1142+10
.1282+08
                      *   RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION  TO
                                                                                                  OF MEG

-------
                                                                   TABLE F-l.    Continued
                           INVERSION HEIGHT a
                                       in)
                                                1500.
                              1974  —  IMPACT PARAMETERS
                 WIND SPEED -    4.300            RURAL POP.
                                                   (P/KM2)
                                                                                                               22.34
                                                                   URBAN POPL.
                                                                     (P/KH2)
                                                                                                                                            =  SS9.7
                             SECTOR  i - UTILITY BOILERS
                                                                         EQUIP TTPE  101  -  TANGENTIAL BOILERS
                                                                                                                         FUEL TTPE  9 - DISTILLATE OIL
                           CONSUMPTION!  TOTAL =
                                 SINGLE SOURCE =
   .3600-01 (1E15 KJ/YRI
   .7142-02 UE15 KJ/TRI
                FRACTION!  RURAL
                          UKBAN
                       .580
                       .420
                        CONTROLS!  NOX
                                  SOX
                          PARTICULATES
 I

O
                                POLLUTANT
                                  NOX
                                  SOX
                                  HC
                                  CO
                                  PART
                                  SULFAT
                                  POR HI
                                  BA
                                  BE
                                  B
                                  CR
                                  CO
                                  CU
                                  PB
                                  TOTAL
NATURAL
.2547+09
.2157+09
.2234+00*
.9772-02*
.2979+00*
.1373-01*
.7949-02*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                .47033+09
 RURAL
.6187+09
.9642+09
.1802+03*
.2506+01*
.1096+02
.1450+00
.4006+01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                             .13829+10
                                                              RURAL
                                                              URBAN
                                                                           GAUSSIAN  APPROXIMATED  SOURCE
                                                                        EFFECTIVE STACK  HEIGHT  =    110.0
                                                                                                            in)
 URBAN
.1320+10
.9824+09
.1642+03*
.4006+01*
.1296+02
.2255+00
.6500+01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.23026+10
POLLUTANT
  HG
  MO
  NI
  V
  ZN
  ZR
  AS
  BI
  AL
  SB
  CD
  SE
  P
  SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                                  IMPACT FACTORS
                         SINGLE SOURCE
                             .3089+05
                             .8283+06
                                                                      TOTAL IMPACT FACTOR
                                                             AVERAGE SOURCE IMPACT FACTOR
                                MULTIPLE SOURCE
                                     .9032*09
                                     .1753+07

                                 .1844+07
                                 .3658+06
 RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                           .0140
                           .0000
                           .0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                 *  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND  CONCENTRATION  TO  1011  OF  ME6

-------
                                          TABLE  F-l.   Continued
INVERSION HEIGHT
                     1900.
                              19T1*  •'  IMPACT  PARAMETERS
                 HIND SPEED  «   
-------
                                                                  TABLE F-l.   Continued
                      INVERSION HEIGHT
                                  (HI
                                          1900.
             1974  —
WIND SPEED =    
NATURAL
.2526+00*
.4460-02*
.6354+00*
.2225+00*
.1746+00*
.1615-01*
.8329-01*
.9110-02*
.1177+10
' .7460-02*
.6746+00*
.7792-01*
.0000 •
.0000 »


RURAL
.2526+00*
.4460-02*
.7B07+00*
.2510+00*
.16A7+01*
.1615-01*
.6329-01*
.911U-02*
.5051+10
.5746-01*
.7496+00*
.7792-01*
.0000 *
.0000 *


URBAN
.1753+01*
,4460-02*
,1001+09
,4914+00*
.2528+01*
.1615-01*
.1337+00*
.9110-1)2*
.2074+10
.1075+00*
.5046+U9
.1619+00*
.0000 *
.0000 *

                             TOTAL
                                          .9T22T+12
                                                       .39278+12    .11367+13
                                                        RURAL
                                                        URBAN
                                                                            IMPACT FACTORS
        SINGLE SOURCE
            .1324+08
            .4096+09
                                                                TOTAL  IMPACT FACTOR *
                                                       AVERAGE SOURCE  IMPACT FACTOR *
       MULTIPLE SOURCE
            .2494+10
            .5360+11

        .5609+11
        .1756+09
                                           •  RATIO OF HAXinUn SURFACE  CONCENTRATION PLUS BACKGROUND CONCENTRATION TO  10K  OF HE6

-------
                                        TABLE F-l.    Continued
INVERSION HEI6HT  e
            (Ht
                     1SOO.
                                                  1971 — IMPACT PARAMETERS
                                     HIND SPEED x   0.500            RURAL POP.
                                          
-------
                              TABLE  F-1.   Continued
INVERSION HEIGHT =
(Ml
1900.
197<« -- IMPACT PARAMETERS
WIND SPEED = 4.900 RURAL POP.
IM/SI IP/KM2I
SECTOR i • UTILITY BOILERS
CONSUMPTION TOTAL
SINGLE SOURCE


POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
MN
= .9010
= .4740-02


.NATURAL
.2429+09
.3067+10
.6449-02*
.1641-02*
.1366+10
.1342-01*
.2238+00*
.1199+00*
.9632+12
.1024+00*
.7263+09
.2436+00*
.9929+00*
.3641+00*
.2982-01*
(1E15 HJ/TR)
(1E1S KJ/TR1


RURAL
.9434+09
.7467+10
.1800+03*
.2502+01*
.8883+10
.1447+00*
.4224+01*
.7092+00*
.5632+12
.1024+00*
.1311+10
.2436+00*
,7636+01*
.5642+01*
.3823-01*
EOUIP TTPE 102 - WALL FIRED BOILER
FRACTION! RURAL =
URBAN =
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT a
URBAN
.1566+10
.1275+11
.1840+03*
.4002+01*
.1029+11
.2251+00*
.6724+01*
.1203+01*
.1100+13
.1024+00*
.2447+10
.4136+00*
.6599+01*
.4299+02*
.8697-01*
.990
.410
SOURCE
180.0
POLLUTANT
HG
no
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR

                                                                            22.34
                                                       URBAN  POPL.
                                                         (P/KM2)
                                                                                                         =  SJ9.7
                                                                                      FUEL TTPE  4 - WESTERN B1TUHIN.
                                                                                    CONTROLS:  NOX
                                                                                               sox
                                                                                      PARTICIPATES
                                                                         (M)
                                                                            NATURAL
                                                                            .2526+00*
                                                                            .4460-02*
                                                                            .6354+00*
                                                                            .2225+00*
                                                                            .1746+00*
                                                                            .1615-01*
                                                                            .8329-01*
                                                                            .9110-02*
                                                                            .1177+10
                                                                            .7460-OE*
                                                                            .6746+00*
                                                                            .7792-01*
                                                                            .0000   *
                                                                            .0000   *
                                                    RURftL
                                                   .2526+00*
                                                   .4160-02*
                                                   .7807+00*
                                                   .2510+00*
                                                   .1687+01*
                                                   .1615-01*
                                                   .8329-01*
                                                   .91111-02*
                                                   .5051+10
                                                   .5746-01*
                                                   .7496+00*
                                                   .7792-01*
                                                   .0000   *
                                                   .0000   *
                                                                 .0014
                                                                 .0000
                                                                 .6500
                                             URBAN
                                            .1753+01*
                                            .1460-02*
                                            .1083+09
                                            .4914+00*
                                            .2528+01*
                                            .1615-01*
                                            .1337+00*
                                            .9110-112*
                                            .2074+10
                                            .1075+00*
                                            .5016+1)9
                                            .1619+00*
                                            .0000   *
                                            .0000   *
TOTAL
              .96979+12
                           .9868J+12
                                       .11287+13
                           RURAL
                           URBAN
                                               IMPACT FACTORS
SINGLE SOURCE
    .1311+08
    .4060+09
                                   TOTAL IMPACT FACTOR
                          AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
     .6174+09
     .1759+11

 .1841+11
 .1742+09
               *  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10K OF  MEG

-------
                                            TABLE F-l.    Continued
INVERSION HEIGHT
            (HI
13004
             1974 --
WIND SPEED s   4.500
     IH/SI
IMPACT PARAMETERS
           RURAL POP,
             (P/KH2I
  SECTOR  1 - UTILITY BOILERS
CONSUMPTIONI   TOTAL
      SINGLE  SOURCE
   .1100-01 (U19 KJ/YRI
   .i)7«0-02 (1E15 KJ/YRI
POLLUTANT
NOX
SOX
HC
CO
PART
SULMT
PON HI
BA
BC
B
CR
CO
CU
PB
HN
NATURAL
.2879+09
.4087+09
.6146-01*
.2031-02*
.2383*10
.2763-02*
.2238+00*
.7316+08
.7394+12
. 5530-01*
.4109+09
.2371+00*
.3131+00*
.2327+00*
.2606-01*
RURAL
.1080+10
.1184+10
.1801+03*
.2502+01*
.1432+11
.1340+00*
.4224+01*
.4173+09
.7394+12
.5530-01*
.7777+09
,2571+00*
.7396+01*
.5510+01*
.3446*01*
URBAN
.1783+10
.2115+10
.1841+03*
.4002+01*
.1655+11
.2145+00*
.6724+01*
.1392+09
.1276+13
.5530-01*
.1490+10
.4271+00*
.6355+01*
.4245+02*
.8320-01*
       TOTAL
                     .74388+12
                                  .76196+12
        EQUIP TYPE 102  -  WALL FIRED BOILER

            FRACTION!   RURAL =   .700
                       URBAN =   .300

          6AUSSIAN APPROXIMATED  SOURCE
       EFFECTIVE STACK  HEIGHT =   180.0    (HI
                              POLLUTANT
                                HG
                                no
                                NI
                                V
                                ZN
                                ZR
                                AS
                                B!
                                AL
                                SB
                                CO
                                SE
                                P
                                SR
                                              .12999+13
22.31
URBAN POPL. = 359
CP/KN2I

FUEL TYPE 3 -
CONTROLS! NOX *


NATURAL
.1260+00*
.1424-02*
.3074+00*
.1612+00*
.4944-01*
.26A7-01*
.6717-01*
.2190-01*
.9405+09
.3330-02*
.6994-01*
.7590-01*
.0000 *
.0000 *
SOX e
PARTICULATES s
RURAL
.126U+00*
.1424.02*
.4527+00*
.1698+00*
.1562+01*
.2687-01*
.6717-01*
.2190-01*
.4826+10
.5333-01*
.1449+00*
.7S9U-01*
.0000 •
.0000 *
LIGNITE
.0000
.0000
.6500
URBAN
.1626+U1*
.1424.02*
.9485+00*
.4301+00*
.2402+01*
.2687-01*
.1176+00*
.2190-01*
.1660+10
•1033+00*
.9199+00*
.1599+00*
.0000 *
.0000 *
                                  RURAL
                                  URBAN
                                                      IMPACT FACTORS
                        SINGLE SOURCE
                             .1702+08
                             .4674+09
                                          TOTAL IMPACT FACTOR s
                                 AVERA6C SOURCE IMPACT FACTOR a
                           MULTIPLE SOURCE
                                .2765+08
                                .3234+09

                            .3330+09
                            .1521+09
                      *   RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND  CONCENTRATION TO 101 OF MEG

-------
                                  TABLE  F-l.   Continued
1974 •• IMPACT PARAMETERS
INVERSION HEIGHT *
(HI
SECTOR 1 - UTILITY
CONSUMPTIONS TOTAL •
SINGLE SOURCE *
1900.

BOILERS
.I960
.1479-02
MIND SPEED a 4.500
in/si
EQUIP TYPE 102
iicis KJ/YRI FRACTION:
(1E19 KJ/YR1
RURAL POP.
(P/KM2)
• WALL FIRED BOILER
RURAL a .320
URBAN = .680
GAUSSIAN APPROXIMATED SOURCE

POLLUTANT
NOX
sox
HC
CO
PART
SULFAT
POM HI
BA
ee
B
CR
CO
CU
PB
MN

NATURAL
.••612408
.6204+09
.6631.02*
.1025-02*
.2392*00*
. 2*37-01*
.1649-02*
.9046.01*
.0000 *
.1911-02*
. 8127*09
.5992*00*
.2398*00*
.3563*00*
.9674-02*
EFFECTIVE STACK
RURAL URBAN
.ieai*09 .3126*09
.1498*10 .2552+10
.1800*03* .1840*03*
.2501*01* .4001*01*
.1090*02* .1290+02*
.1556*00* .2361+00*
.4002+01* .6502+01*
.6738+00* .1174+01*
.0000 * .0000 *
.1911-02* .1911-02*
.5459*09 .9967+09
.5592+00*' .7292+00*
.7323+01* .6282*01*
.5634*01* .4258*02*
.1608-01* .6682-01*
HEIGHT = 110.0
POLLUTANT
HG
MO
M
V
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR

                                                                       (M)
22.34 URBAN POPL. = 359.


-------
                                      TABLE  F-l.   Continued
INVERSION HEISHT
                    1300.
             1971  —  II1PACT PARAMETERS
HIND SPEED *   4.500            RURAL POP.
     IM/S)                        (P/KM2)
                                                                                   22.
                                                                                                    URBAN POPL.  =
                                                                                                      (P/KHZ)
                                                                                                                  939,7
  SECTOR   i  • UTILITY BOILERS
        EOUIP TYPE  102  -  WALL FIRED BOILER
                                                                                             FUEL TYPE  T -  RED   s RES. OIL
CONSUMPTIONS TOTAL
SINGLE SOURCE



POLLUTANT
NOX
SOX
HC
CO
PART
SUtFAT
POM HI
BA
BE
8
CR
CO
CU
PB
UN
a .4930
* .1479-02



NATURAL
•4812+oe
.1869409
.6631-02*
.1025-02*
.2352+00*
.1218-01*
.1643-02*
.9046-01*
.0000 *
.1911-02*
. 8127+09
.5592+00*
.2398+00*
.3563+00*
.967*1-02*
(1E1S KJ/YR)
(1E15 KJ/YR)



RURAL
.1881+09
.1*976+09
.1800+03*
.2501+01*
.1090+02*
.1434+00*
. 4002+01*
.6738+00*
.0000 *
.1911-02*
. 5459+09
.5592+00*
.7323+01*
.5634+01*
.1608-01*
FRACTIONS RURAL =
URBAN =

GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT s
URBAN
.3126+09
.8704+09
.1840+03.
.4001+01*
.1290+02*
,2239+00*
.6502+01*
.1174+01*
.0000 *
.1911-02*
.9987+09
.7292+00*
.6282+01*
.1258+02*
.6682-01*
.320
,680

SOURCE
110.0
POLLUTANT
HO
HO
MI
V
2N
ZR
AS
SI
AL
SB
CO
SE
P
SR

CONTROLS! NOX *



(Ml
NATURAL
.8388-01*
.9674-02*
.3866+10
.5251+09
.1520-01*
,3041-02*.
.7740-03*
.0000 *
.2245+00*
,7675-03*
.3207-01*
.2764+00*
.0000 *
,8373-03*

SOX •
PARTICULATES *


RURAL
.8388-01*
.9674-02*
.4325+10
.5322+09
.1520+01*
.3041-02*
.7740-03*
.0000 *
.3907+07
.5077-01*
.1071+00*
.2764+00*
.0000 *
.8373-03*

.048G
.0000
.2500


URBAN
.15B4+01*
.9674-02*
.7109+10
.7530+09
.2368+01*
.3041-U2*
.5119-01*
.0000 *
.1653+01*
.looa+uo*
.8821+09*
,3604+VO*
.0000 *
. 0373*03*

       TOTAL
                    .19509+10
                                 .60001+10
                                              .10044+11
                                  RURAL
                                  URBAN
                                                      IMPACT FACTORS
        SINGLE  SOURCE
            .1360+06
            .3613+07
                                          TOTAL IMPACT FACTOR «
                                 AVERAGE SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
     .1451+00
     .8190+09

 .8335+09
 .2500+07
                     *  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION  TO  1,0« OF MEG

-------
                                                                  TABLE  F-l.   Continued
                          INVERSION HEIGHT =
                                     (Ht
                                              1900.
                                           1974 «  IMPACT PARAMETERS
                              UINO SPEED =   1.500            RURAL POP* =
                                   (N/SI                       (P/KN2)
                                                                                                            22.34
                                   URBAN POPL.  =   399.7
                                     (K/KM2)
                           SECTOR  i - OTILITT BOILERS
                                                                      EQUIP TYPE 102 -  HALL  FIRED BOILER
                                                                                                                      FUEL TYPE   8  - LOW  S RES. OIL
CONSUMPTION t TOTAL
SINGLE SOURCE



POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
pon HI
BA
BE
B
CR
CO
CU
PB
HN
a .6370
= .1X79-02



NATURAL
.4612+08
.4516+08
.6631.02*
.1025-02*
.2352+00*
.6091-02*
.1645-02*
.9046-01*
.0000 *
.1911-02*
.3127+09
.9592+00*
.2396+00*
.3563+00*
.9671-02*
(1E19 KJ/YR)
(1E15 KJ/YR)



RURAL
.1681+09
.1359+09
.1800+03*
.2501+01*
.1090+02*
.1373+00*
.1002+01*
.6738+00*
.0000 *
.1911-02*
.94&9+09
.5592+00*
.7323+01*
.5631+01*
.1806-01*
FRACTION! RURAL =
URBAN s

GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT =
URBAN
.3126+09
.2446+09
.1A40+03*
.1001+01*
.1290+02*
.2178+00*
.6502+01*
.1171+01*
.0000 *
.1911-02*
.9967+09
.7292+00*
.6262+01*
.1256+02*
.6662-01*
.320
.680

SOURCE
110.0
POLLUTANT
HG
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR

CONTROLS! NOX =



(H)
NATURAL
.8338-01*
.9674-02*
.3666+10
.5251+09
.1520-01*
.3041-02*
.7740-03*
.0000 •
.2245+00*
.7675-03*
.3207-01*
.2761+00*
.0000 •
.6373-03*

SOX *
PARTICULATES =


RURAL
.Bsee-oi*
.9674-02*
.4325+10
.5322+09
.1528+01*
.3041-02*
.7710-03*
.0000 *
.3907+07
.5077-01*
.1071+00*
.2764+00*
.0000 *
.8373-03*

.0480
.0000
.2300


URBAN
.1564+01*
.9674-02*
.7109+10
.7530+09
.2368+01*
.3041-U2*
.5119-01*
.0000 *
.1653+01*
.1008+UO*
.8821+00*
.3604+00*
.0000 *
.6373-03*

 I

CO
TOT»L
              .18173+10
                           .97260+10
                                       .91169+10
                                                           RURAL
                                                           URBAN
                                                                               IMPACT FACTORS
                                      SINGLE SOURCE
                                          .1279+06
                                          .3368+07
                                                                   TOTAL IMPACT FACTOR «
                                                          AVERAGE SOURCE IMPACT FACTOR 8
MULTIPLE SOURCE
     .1763+06
     .9923+09

 .1010+10
 .2349+07
                                               *   RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG

-------
                     TABLE  F-l.    Continued
INVERSION HEIGHT •
tn>
1900.
SECTOR i - UTILITY BOILERS
CONSUMPTION: TOTAL
SINGLE SOURCE


POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POH HI
BA
BE
8
CR
CO
CU
PB
MN
TOTAL






« .1690
» .1179-02


NATURAL
.1812+08
.1176+07
.1626-01*
.1195-02*
.6168-01*
.2813-02*
.1615-02*
.0000
' .0000
.0000
.0000
.0000
.0000
.0000
.0000
.19300*08






1971 -- IMPACT PARAMETERS
UINO SPEED = 1.500 RURAL POP.
IM/S) iP/KHZ)
EQUIP TYPE 102 - WALL FIRED BOILER
(1E13 KJ/YR) FRACTION! RURAL s .580
(1E15 KJ/YR 1 URBAN s .120
GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT s 110.0
RURAL URBAN POLLUTANT
.1881+09 .3126+09 KG
.1813+07 .9182+07 MO
.1000+01* .1610+03* NI
.2501+01 .1001+01* V
.1073+02 .1273+02* ZN
.1311+00 .2116+00* ZR
.1002+01 .6502+01* AS
.0000 .0000 * BI
.0000 .0000 * AL
.0000 .0000 * SB
.0000 .0000 * • CD
.0000 .0000 * SET
.0000 .0000 * P
.0000 .0000 • SR
.0000 .0000 *
.19296+09 .32179+09
IMPACT FACTORS
SINGLE SOURCE MULTIPLE SOURCE
RURAL 1311. .2837+06
URBAN .1158+06 .5555+07
TOTAL IMPACT FACTOR * .5811+07
AVERAGE SOURCE IMPACT FACTOR * .5112+05
                                                             22.31
                                                                              URBAN POPL.
                                                                                tP/KHZ)
                                                                                         s  399.7
                                                                       FUEL TYPE   9 - DISTILLATE OIL

                                                                     CONTROLS!  NOX s    .0180
                                                                               SOX «    .0000
                                                                       PARTICULATES *    .0000
                                                         (N)
                                                             NATURAL       RURAL        URBAN
                                                             .0000        .0000         .0000
                                                             .0000        .0000         .0000
                                                             .0000        .0000         .0000
                                                             .0000        .0000         .0000
                                                             .0000        .0000         .0000
                                                             .0000        ,0000         .0000
                                                             .0000        .0000         .0000
                                                             .0000        .0000         .0000
                                                             .0000        .0000         .0000
                                                             .0000        .0000         .0000
                                                             .0000        .0000         .0000
                                                             .0000        .0000         .0000
                                                             .0000        .0000         .0000
                                                             .0000        .0000         .0000
*  RATIO OF  MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION  TO  10*. OF HE6

-------
                                                                  TABLE F-l.    Continued
                       INVERSION HEISHT
                                   mi
                                           1300*
                                             1974 -- IMPACT PARAMETERS
                                 WIND  SPEED *   4.500            RURAL POP. -
                                      »H/S)                        IP/KHZ)
                                                  22.34
                                                                   URBAN POPL.
                                                                     (P/KM2I
                                                                                                                                       =  JS9.7
                         SECTOR   i  - UTILITY BOILERS
                                                                    EQUIP TYPE 102 - WALL FIRED BOILER
                                                                                                                    FUEL TYPE 10 - NATURAL SAS
                       CONSUMPTIONS  TOTAL *
                            SINGLE SOURCE a
                   2.153    (1E1S  KJ/TR)
                   .2943-02 UE13  KJ/YR)
                                                                        FRACTION!
                          RURAL
                          UNBAN
                       .590
                       .410
 I
r\3
O
POLLUTANT
  NOX
  SOX
  HC
  CO
  PART
  SULFAT
  POM HI
  BA
  BE
  B
  CR
  CO
  CU
  PB
  MN

  TOTAL
                                           NATURAL
                                           .2301*09
                                           .2295-01*
                                           .3264-01*
                                           .7100-02*
                                           .3509*00*
                                           .0000   *
                                           .4152*00*
                                           .0000
                                           .0000
                                           .0000
                                           .0000
                                           .0000
                                           .0000
                                           .0000
                                           .0000
                .83008*09
 RURAL
.6301*09
.3146*01*
.1001*03*
.2507*01*
.1102*02*
.0000   *
.4413*01*
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
                                                                      GAUSSIAN APPROXIMATED SOURCE
                                                                   EFFECTIVE STACK HEIGHT a   60.00
                        CONTROLSt   NOX
                                   SOX
                          PARTICULATES
                                                                                                       (Ml
.63005+09
 URBAN
.9656*09
.6896*01
.1641+03
.4007+01
.1302+02
.0000
.6915*01
,0000
.0000
.0000
,0000
.0000
.0000
.0000
.0000
                                          .96558*09
POLLUTANT
  HG
  MO
  M
  V
  ZNI
  ZR
  AS
  81
  AL
  S3
  CO
  SE
  P
  SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 RURAL
.0000
.0000
.0000
.ooou
.0000
.0000
.0000
.0000
.0000
.0000
.ooou
.0000
.0000
.0000
                           .1240
                           .0000
                           .0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                         RURAL
                                                         URBAN
                                                                             IMPACT FACTORS
                                         SINGLE  SOURCE
                                             .1406*05
                                             .3345+06
                                                                 TOTAL IHP'ACT FACTOR
                                                        AVERAGE SOURCE IMPACT FACTOR
                                MULTIPLE  SOURCE
                                     .6922+07
                                     .1212*09

                                 .1281*09
                                 .1537*06
                                            •  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG

-------
                                                                TABLE  F-l.   Continued
                        INVERSION HEIGHT s
                                    IPO
                                            1900.
             1974 .. IMPACT PARAMETERS
MIND SPEED  s   4.500            RURAL POP.
     (H/S»                        (P/KH2)
                                                                                                          22.34
URBAN POPL.
  (P/KH2)
                                                                                                                                      a  359.T
                          SECTOR  I - UTILITY BOILERS
                                                                    EQUIP TYPE 103  -  OPPOSED HALL BOILER
                                                                                                                   FUEL TYPE  2 - EASTERN BITUMIN.
CONSUMPTION! TOTAL
SINGLE SOURCE



POLLUTANT
NOX
sox
HC
CO
PART
SULF*T
POH HI
BA
BE
B
CR
CO
cu
PB
MN
- .4230
= .1699-01



NATURAL
.2779+10
.2188411
.2311-01*
.2311-02*
.1036+11
.5518-01*
.8023+00*
.1*298+00*
.2019+13
.3671+00*
.7030+10
.8734+00*
.1567+09
.4749+08
.1069+00*
UE1S KJ/YRI
(1E15 RJ/YRI



RURAL
. 8427+10
.3174+11
.1600+03*
.2502+01*
.4421+11
.1864+00*
.4802+01*
.1299+08
.2019+13
.3671+00*
.1145+11
.8734+00*
.9311+09
.2607+09
.1153+00*
FRACTION) RURAL =
URBAN =

GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT =
URBAN
,1315+11
.4357+11
.1840+03*
.4002+01*
.5052+11
.2669+00*
.7302+01*
.1513+01*
.2555+13
.3671+00*
,2000+11
.1225+08
.8172+09
.1753+10
.1641+00*
.590
.410

SOURCE
100. 0
POLLUTANT
HG
no
Nl
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR

CONTROLS: NOX &



IMS
NATURAL
.9055+00*
.1599-01*
.2293+09
.7975+00*
.6260+00*
.57B9-01*
.2986+00*
.3266-01*
.9130+10
.2674-01*
.2433+09
.2793+00*
.0000 *
.0000 *

SOX E
PARTICULATES =


RUKAL
.9055+00*
.1599-01*
.2644+09
.6261+00*
.2139+01*
.5789-01*
.2986+UO*
.3266-01*
.1163+11
.7674-01*
.2752+09
.2793+00*
.0000 *
.0000 *

.0014
.0000
.6500


URBAN
.2405+01*
.1599-01*
.1091+10
.1994+US
.2979+01*
.5789-01*
,3490+UO*
.3266-01*
.1364+11
.1267+00*
.3871+10
.3633+00*
.0000 *
.0000 •

 I
ro
                               TOTAL
                                            .20709+13
                                                         .21281+13
                                                                     .27039+13
                                                                             IMPACT  FACTORS
SINGLE SOURCE
RURAL .4754+08
URBAN .9726+09
TOTAL IMPACT FACTOR =
AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
.6962+09
.9926+10
.1062+11
.4268+09
                                             •  RATIO OF  MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG

-------
                                                                 TABLE  F-l.   Continued
INVERSION HEI8MT <
(HI
1900.
197* -- IMPACT PARAMETERS
WIND SPEED e 4.500 RURAL POP. »
(M/S» (P/KM2)
SECTOR i - UTILITY BOILERS
CONSUHPTIONI TOTAL
SINGLE SOURCE


POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
PON HI
BA
BC
B
CR
CO
CU
PB
HN
• .2530
= .1699-01


NATURAL
.2779+10
.2765+11
.2311-01*
.2311-02*
.1033*11
.7073-01*
.8023+00*
.1296+00*
.2019+13
.9671+00*
.7050+10
.6734+00*
.1567+09
.4743+06
.1069+00*
(1E1S KJ/YR)
I1E15 KJ/YR)


RURAL
.6*27+10
,3771+11
.1800+03*
.2502+01*
.4396+11
.2020+00*
.4602+01*
.1259+06
.2019+13
.3671+00*
.1145+11
.6734+00*
.9311+09
.2607+09
.1153+00*
EQUIP TYPE 103 - OPPOSED UALL BOILER
FRACTION! RURAL =
URBAN =
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT =
URBAN
.1345+11
.4954+11
.1640+03*
.4002+01*
.5029+11
.2626+00*
.7302+01*
.1513+01*
.2555+13
.3671+00*
.2000+11
.1225+06
.6172+09
.1753+10
.1641+00*
.590
.410
SOURCE
160.0 (1
POLLUTANT
HG
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR

                                                                                                           22.34
                                                                                                                            URBAN POPL.
                                                                                                                              IP/KM >
                                                                                                                                        =   359.1
                                                                                                                     FUEL TYPE  3 •  CENTRAL BITUMIN.
 I
ro
ro
                               TOTAL
                                                                                                                   CONTROLS!   NOX
                                                                                                                              SOX
                                                                                                                     PARTICULATES
                                             .20767+13
                                                         .21336+13
                                                          RURAL
                                                          URBAN
                                                                      .27097+13
                                                                              IMPACT FACTORS
SINGLE SOURCE
    .4767+06
    .9747+09
                                                                  TOTAL IMPACT FACTOR «
                                                         AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
     .4220+09
     .3997+10

 .6419+10
 .4278+09
                                                                                                           NATURAL
                                                                                                           .9055+00*
                                                                                                           .1599-01*
                                                                                                           .2293+09
                                                                                                           .7975+00*
                                                                                                           ,6260+00*
                                                                                                           .5789-01*
                                                                                                           .2986+00*
                                                                                                           .3266-01*
                                                                                                           .9130+10
                                                                                                           .2674-01*
                                                                                                           .2433+09
                                                                                                           .2793+00*
                                                                                                           .0000   *
                                                                                                           .0000   *
                                                    RURAL
                                                   .9055+00*
                                                   .1599-01*
                                                   .2844+09
                                                   .8261+00*
                                                   .2139+01*
                                                   .5789-01*
                                                   .2986+00*
                                                   .3266-01*
                                                   .1163+11
                                                   .7674-01*
                                                   .2752+09
                                                   .2793+00*
                                                   .0000   *
                                                   .0000   •
                                                                 .0014
                                                                 .0000
                                                                 .6500
                                             URBAN
                                            .2405+01*
                                            .1599-01*
                                            .1091+10
                                            .1994+08
                                            .2979+01*
                                            .5789-01*
                                            .3490+UO*
                                            .3266-01*
                                            .1364+11
                                            .1267+00*
                                            .3871+10
                                            .3633+00*
                                            .0000   *
                                            .0000   *
                                             *  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF MEG

-------
                                                                 TABLE F-1.   Continued
                         INVERSION HEI6HT
                                             isoo.
             1971  ••  IMPACT PARAMETERS
WIND SPEED •   1.900            RURAL POP. =
     (N/SJ                       (P/KH2)
                                                                                                            22.34
                                                                                                                            URBAN POPL.
                                                                                                                              (P/KM2I
                                                                                                                                        2  399.T
                           SECTOR  1 • UTILITY BOILERS
                                                                     EQUIP TYPE 103 » OPPOSED MALL BOILER
                                                        FUEL  TYPE  * - WESTERN BITUMIN.
CON|UMPTIONJ TOTAL
SINGLE SOURCE



POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POK HI
BA
BE
B
CR
CO
CU
PB
PIN
• .1*90
• .1699-01



NATURAL
.2779+10
.1592*11
.2311-01*
.2311-02*
.9983+10
.1811-01*
.8023+00*
.1298+00*
.2019*13
.3671*00*
.7030+10
.8731+00*
.1567+09
.1715+08
.1069+00*
UElS KJ/YR)
(1E1S K«I/YR)



RURAL
.8127+10
.2577+11
.1000+03*
.2502+01*
.1363+11
.1793+00*
.1802+01*
.1259+08
.2019+13
.3671+00*
.1115+11
.8731+00*
.9311+09
.2607+09
.1153+00*
FRACTION: RURAL s
URBAN s

GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHY s
URBAN
.1345+11
.3760+11
.1610+03*
.1002+01*
.1991+11
.2598+00*
.7302+01*
.1513+01*
.2555+13
.3671+00*
.2000+11
.1225+08
.8172+09
.1753+10
.1611+00*
.590
.110

SOURCE
180.0
POLLUTANT
HG
no
NI
V
ZN
ZR
AS
EX
AL
SB
CO
SE
P
SR

CONTROLS! NOX c



(NI
NATURAL
.9055+00*
,1599-01*
.229J+09
.7975+00*
.6260+00*
.5789-01*
.2986+00*
.3266-01*
.9130+10
.2671-01*
.2133+09
.2793+00*
.0000 «
.0000 *

SOX s
PARTICULATES *


RURAL
.9055+00*
.1599-01*
.2811+09
.8261+00*
.2139+01*
.5789-01*
.2986+00*
.3266-01*
.1163+11
.7671-01*
.2752+09
.2793+00*
.0000 *
.0000 •

.0011
.0000
.6500


URBAN
.2105+01*
.1599-01*
.1091+10
.1991+09
.2979+01*
.5789-01*
•3190+OOa
.3266-01*
.1361+11
.1267+00*
.3871+10
.3633+00*
.0000 •
•0000 •

ro
CO
                               TOTAL
                                             .20611+13
                                                          .21219+19
                                                                       .26971+13
                                                           RURAL
                                                           URBAN
                                                                              IMPACT FACTORS
        SINGLE  SOURCE
            .1739+08
            .9703+09
                                                                  TOTAL IMPACT FACTOR *
                                                          AVERAGE SOURCE IMPACT FACTOR e
MULTIPLE SOURCE
     .2301+09
     .3277+10

 .3508+10
 .1258+09
                                              •  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF ME6

-------
                                                                TABLE  F-l.   Continued
INVERSION HEIGHT =
(N)
1900.
197* -- IMPACT PARAMETERS
WIND SPEED = 4. 500 RURAL POP. *

.p.
                            TOTAL
                                         .26897+13
                                                      .27404+13
                                                       RURAL
                                                       URBAN
                                                                  .33022+13
                                                                          IMPACT  FACTORS
SINGLE SOURCE
    .6122+08
    .1168+10
                                                              TOTAL IMPACT FACTOR
                                                      AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
     .5296+08
     .4404+09

 .4933+09
 .3992+09
22.34
URBAN POPL. 3 359.
(P/KM2)

FUEL TTPE 5 -
CONTROLS! NOX =
"

NATURAL
.4516+00*
.5105-02*
.2043+08
.5779+00*
.1772+00*
.9631-01*
.2408+00*
.7850-01*
.8324+10
.1194*01*
.2507+00*
.2721+00*
.0000 *
.0000 *
SOX =
PARTICULATCS x
RURAL
.4516+00*
.5105-02*
.4154+08
.6065+00*
.1690+01*
.9631-01*
.2406+00*
.785U-Q1*
.1083+11
.6194-01*
.3257+00*
.2721+00*
.0000 *
.0000 *
LIGNITE
.0000
.0000
.6500
URBAN
.1952+01*
.5105-02*
.3076+09
.8468+00*
.2530+01*
.9631-01*
.2912+00*
.7650-01*
.1283+11
.1119+00*
.6009+U9
.3561+00*
.0000 *
.0000 *
                                          •  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10» Of MEG

-------
                                                                 TABLE  F-1.   Continued
                        INVERSION HEIGHT *
                                    (Ml
                                             1900.
                              19T4  --  IMPACT PARAMETERS
                 WIND SPEED =    4.300            RURAL POP.
                      (M/S)                        (P/KH2)
                          SECTOR  i • UTILITY BOILERS
                         EQUIP TYPE  103  -  OPPOSED WALL BOILER
ro
en
                        CONSUMPTION!  TOTAL
                              SINGLE SOURCE
                             POLLUTANT
                               NOX
                               SOX
                               HC
                               CO
                               PART
                               SULFAT
                               PON HI
                               BA
                               BE
                               B
                               CR
                               CO
                               cu
                               PB
                               MN

                               TOTAL
   .7900-01 (1E15 KJ/YR)
   .7390-02 (1E15
                                                                          FRACTIONI
RURAL
URBAN
                           GAUSSIAN APPROXIMATED
                        EFFECTIVE STACK  HEIGHT  =
NATURAL       RURAL        URBAN
.9205+09     .2707+10     .4299+10
.8401+10     .1826+11     .3009+11
.3314-01*    .1800+03*    .1840+03*
.4816-02*    .2505+01*    .4005+01*
.6661+07     .7129+08     .8340+08
.1218+00*    .2530+00*    .3335+00*
.8219-02*    .4008+01*    .6508+01*
.4920+00*    .3938+07     .1535+01*
.0000   •    .0000   *    .0000   *
.9551-02*    .9551-02*    .9551-02*
.4248+10     .6985+10     .1112+11
.6588+08     .6988+08     ,9091+08
.7512+07     .5934+08     .4830+08
.2389+08     .1141+09     .7457+09
.4834-01*    .5679-01*    .1059+00*

.49969+11    .61146+11    .82299+11
  .320
  .680

  SOURCE
s   110.0
 POLLUTANT
   HG
   NO
   NI
   V
   ZN
   ZR
   AS
   BI
   AL
   SB
   CO
   SE
   P
   SR
22.34 URBAN
POPL. B 399.7
IP/KM2)
FUEL TYPE 6
CONTROLS! NOX
sox
PARTICULATES
NATURAL RURAL
.4191+00* .4191+00*
.4634-01* .4034-01*
.2542+11 .2588+11
.6860+10 .7253+10
.7597-01* .1589+01*
.1519-01* .1519-01*
.3868-02* .3868-02*
.0000 * .0000 *
.5030+07 .1431+09
.3835-02* .5384-01*
.1603+00* .2353+00*
.1224+08 .1224+08
.0000 * .0000 *
.4184-02* .4184-02*
- HIGH S RES. OIL
s .0480
3 .0000
= .2500
URBAN
.1919+01*
.4834-01*
.2744+11
.8346+10
.2429+01*
.1519-01*
.5429-01*
.0000 *
.1177*05
.1038+00*
.3028+07
.1491+OS
.0000 •
.4184-02*
                                                           RURAL
                                                           URBAN
                                                                               IMPACT FACTORS
                         SINGLE  SOURCE
                             .1366+07
                             .2960+08
                                                                   TOTAL IMPACT  FACTOR
                                                          AVERAGE SOURCE IMPACT  FACTOR
     MULTIPLE SOURCE
          .4673+07
          .2192+09

      .2199+09
      .2097+08
                                              *  RATIO OF MAXIMUM SURFACE  CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG

-------
                                                                TABLE  F-l.   Continued
INVERSION HEIGHT •
(HI
1500.
1974 -- IMPACT PARAMETERS
WIND SPEED = 4.500 RURAL POP. =
(M/Sl 

SECTOR 1 • UTILITY BOILERS CONSUMPTION! TOTAL SINGLE SOURCE POLLUTANT NOX SOX HC CO PART SULFAT pon HI BA BE B CR CO cu PB UN « .1990 = .7390-02 NATURAL .9205+09 .2795+10 .3314-01* .4816-02* .6661+07 .6088-01* .8219-02* .4520+00* .0000 * .9551-02* .121(8*10 .6568+08 .7512+07 .2385+08 .4834-01* I1E15 KJ/YRI (1C1S KJ/YRI RURAL .2707+10 .6293+10 .1600+03* .2505+01* .7129+08 .1921+00* .HOU8+01* .3948+07 .0000 * .9551-02* .6565+10 .6568+08 .5534+08 .1141+09 .5675-01* EQUIP TYPE 103 - OPPOSED WALL BOILER FRACTION! RURAL = URBAN x GAUSSIAN APPROXIMATED EFFECTIVE STACK HEIGHT = URBAN .4295+10 .1019+11 .1640+03* .4005+01* .6340+06 .2726+00* .6508+01* .1535+01* .0000 * .9551-02* .1112+11 .9091+08 .4630+08 .7457+09 .1055+00* .320 .660 SOURCE 110.0 (1 POLLUTANT . H6 MO NI V ZN ZR AS BI AL SB CD SE P SR 22.34 URBAN POPL. = 339.T (P/KM2) FUEL TYPE 7 - "ED S RES. OIL CONTROLSI NOX = NATURAL .4191+00* .4634-01* .2542+11 .6860+10 .7597-01* .1519-01* .3668-02* .0000 • .5030+07 .3835-02* .1603+00* .1224+08 .0000 • .4184-02* SOX 3 PARTICULATES = RURAL .4191+00* .4634-01* .2566+11 .7253+10 .1589+01* .1519-01* .3666-02* .0000 * .1431+09 .5364-01* .2353+00* .1224+08 ,0000 * .4184.02* .0460 .0000 .2500 URBAN .1919+01* ,4«S4-01* ,2744+11 .6346+10 .2429+01* .1519-01* .5429-01* .0000 * .1177+09 .1038+00* .3028+07 .1491+08 .0000 • .4164-02* I ro TOTAL .40364+11 .49178+11 .62692+11 RURAL URBAN IMPACT FACTORS SINGLE SOURCE .1099+07 .2253+08 TOTAL IMPACT FACTOR AVERAGE SOURCE IMPACT FACTOR MULTIPLE SOURCE .9467+07 .4129+09 .4224+09 .1569+08 * RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF MEG


-------
                                                                  TABLE F-1.    Continued
                         INVERSION  HCI6HT
                                     INI
                                              1300.
                              1971  -•  IMPACT  PARAMETERS
                 WIND SPEED s   4.500             RURAL POP.
                      (PI/SI                        (P/KM2)
                           SECTOR   i  .  UTILITY  BOILERS
                                                                      ECUIP TYPE 103 - OPPOSED WALL BOILER
ro
                         CONSUMPTIONI   TOTAL
                               SINGLE  SOURCE
                              POLLUTUN?
                                NOX
                                SOX
                                HC
                                CO
                                PART
                                SULFAT
                                POM HI
                                BA
                                BE
                                B
                                CR
                                CO
                                CU
                                PB
                                HN

                                TOTAL
   .8960    (1E15 KJ/YRI
   .7390-02 (1E15 KJ/YR)
                             FRACTIONS
                           RURAL
                           UK8AN
                       .320
                       .680
NATURAL
.9205409
.9046409
.3314-01*
.4816-02*
.6661407
.3044-01*
.8219.02.
.19204-00*
.0000   *
.9591-02*
.4248410
.6588*06
.7512407
.2389408
.4834-01*

.38*73411
 RURAL
.2707410
.2115410
.1800403*
.2505401*
.7129408
,1617400*
.4008401*
.39S8407
.0000   •
.9551-02*
.6985410
.6588408
.5534408
.1141409
.5679-01*

.43030411
                                                                        GAUSSIAN APPROXIMATED SOURCE
                                                                     EFFECTIVE STACK HEIGHT =   110.0
                                                                                                         (Ml
 URBAN
.H295+10
.3634410
.1840403*
.4005401*
.8340408
.2422400*
.6508401*
.1535401*
.0000   *
.9551-02*
.1112411
.9091408
.4830408
.7457409
.1055400*

,55835+11
POLLUTANT
  HG
  no
  HI
  V
  ZN
  ZR
  AS
  BI
  AL
  SB
  CO
  SE
  P
  SR
22.34 URBAN
POPL. s 359.7
(P/KH2)
FUEL TYPE 8
CONTROLS! NOX
SOX
PARTICULATES
NATURAL RURAL
.4191400* .4191400*
.4834-01* .4834-01*
.2542411 .2586411
.6860410 .7253410
.7597-01* .1589401*
,1519-gl* .1519-01*
.3868-02* .3868-02*
.0000 • .0000 *
.5030407 .1431409
,3835-02* .5384-01*
.1603400* .2393400*
.1224408 .1224408
.0000 * .0000 *
.4184-02* .4184.02*
• LOU S RES. OIL
z .0480
a .0000
> .2500
URBAN
.1919401*
.4834-01*
.2744411
.8346410
.2429401*
.1519-01*
.5429-01*
.0000 *
.1177405
.1038400*
.302841)7
.1491408
.0000 •
.4184-02*
                                                           RURAL
                                                           URBAN
                                                                               IMPACT FACTORS
                         SINGLE SOURCE
                             .1006407
                             .2008408
                                                                   TOTAL IMPACT FACTOR «
                                                          AVERAGE SOURCE IMPACT FACTOR *
                               MULTIPLE SOURCE
                                     .1124408
                                     .4768409

                                 .4880409
                                 .1398408
                                               •   RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10«  Of  MEB

-------
                                                                  TABLE F-l.    Continued
INVERSION HEIGHT  B   1900.
                                                                           197H -- IMPACT PARAMETERS
                                                              MIND SPEED «   <».500            RURAL POP.
                                                                   (M/SI                        (P/KM2)
                                                                                    22.34
                                                                   URBAN POPL.  =  599.7
                                                                     IP/KM2)
                          SECTOR  1 - UTILITY BOILERS
                                                                      EQUIP  TYPE  103 - OPPOSED WALL BOILER
                                                                                                                      FUEL TYPE  9 - DISTILLATE OIL
 I
ro
CO
                        CONSUMPTION!  TOTAL
                              SINGLE SOURCE
                             POLLUTANT
                               NOX
                               SOX
                               HC
                               CO
                               PART
                               SULFAT
                               POM HI
                               BA
                               BE
                               B
                               CR
                               CO
                               CU
                               PB
                               MN

                               TOTAL
                        .1500-01  (1E1S KJ/YR)
                        .7390-02  I1E19 KJ/YR)
                                                                         FRACTIONS
                          RURAL
                          URBAN
                                                                                             .380
                                             CONTROLS!  NOX
                                                        SOX
                                               PARTICULATES
                     NATURAL
                     .9205*09
                     .2232+09
                     .2312+00*
                     .9780-02*
                     .3062*00*
                     .1*20-01*
                     .8219-02*
                     .0000
                     .0000
                     .0000
                     .0000
                     .0000
                     .0000
                     .0000
                     .0000
                                             .11*36+10
 RURAL
.2707+10
.9717+09
.1802+03*
.2906+01*
.1097+02*
.H008+01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                          .32788+10
                                                                        GAUSSIAN  APPROXIMATED SOURCE
                                                                     EFFECTIVE  STACK HEIGHT r   110.0
                                                                                                        (Ml
 URBAN
.H299+10
.9899+09
.1812+03*
.4006+01*
.1297+02*
.2259+00*
.6908+01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.92892+10
POLLUTANT
  HG
  no
  NI
  V
  ZN
  ZR
  AS
  BI
  AL
  SB
  CD
  SE
  P
  SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                           .0180
                                           .0000
                                           .0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                           RURAL
                                                           URBAN
                                                                               IMPACT  FACTORS
                                             SINGLE SOURCE
                                                  .7329+09
                                                  .1901+07
                                                                   TOTAL  IMPACT  FACTOR
                                                          AVERAGE SOURCE  IMPACT  FACTOR
                                MULTIPLE SOURCE
                                     .8623+09
                                     .1621+07

                                 .1707+07
                                 .8*10+06
                                              *  RATIO OF MAXIMUM SURFACE  CONCENTRATION  PLUS BACKGROUND CONCENTRATION TO 10* OF HE9

-------
                                                                  TABLE  F-1.   Continued
                        INVERSION HEIGHT s
                                    INI
                1500.
                              1971 -- IMPACT PARAMETERS
                 HIND SPEtD =   4.300            RURAL POP.
                      (M/SI                        (P/KN2I
                                                                               22.34
                                                                                                                            URBAN POPL. =
                                                                                                                              1P/KM2)
                                                                                                               839.T
                         SECTOR  i - UTILITY BOILERS

                       CONSUMPTION!  TOTAL »   1.258
                             SIN6LC SOURCE a   .1380-01
                                         EOUIP  TYPE 103 - OPPOSED WALL BOILER
                            (1E19  KJ/YR)
                            (1E19  KJ/YR)
                             FRACTIONI
                                        RURAL =
                                        URBAN s
.590
.410
ro
POLLUTANT
  NOX
  SOX
  HC
  CO
  PART
  SULFAT
  POM HI
  BA
  BE
  B
  CR
  CO
  CU
  PB
  HN

  TOTAL
NATURAL
.2795+10
.1077+00*
.2469+00*
.3072-01*
.1646+00
.0000
.3483+07
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

•28006+10
RURAL
.7265+10
.3293+01
.1802+03
.2531+01
.1063+02
.0000
.2076+08
.0000
.0000 i
.0000 i
.0000 i
.0000 <
.0000 «
.0000 «
.0000 •
URBAN
.1126+11
* .6963+01*
• .1842+03*
• .4031+01
• .1283+02
• .0000
.3031+08
• .0000
> .0000
i .0000
> .0000
< ,0000
.0000
.0000
.0000
                                                        .73061+10
                                                                       6AUSSIAN APPROXinATED SOURCE
                                                                    EFFECTIVE  STACK HEIGHT =   60.00
                                                                                           POLLUTANT
                                                                                             H6
                                                                                             HO
                                                                                             NI
                                                                                             V
                                                                                             in
                                                                                             2R
                                                                                             AS
                                                                                             BI
                                                                                             AL
                                                                                             SB
                                                                                             CO
                                                                                             SE
                                                                                             p
                                                                                             SR
                                                                     .11107+11
  FUEL TYPE 10 - NATURAL SAS

CONTROLSS  NOX a   .0700
           SOX s   .0000
  PARTICULATES =   .0000
                                                                           (Hi
               NATURAL
               .0000
               .0000
               .0000
               .0000
               .0000
               .0000
               .0000
               .0000
               .0000
               .0000
               .0000
               .0000
               .0000
               .0000
      RURAL
     .0000
     .0000
     .0000
     .0000
     .oouo
     .0000
     .0000
     .0000
     .0000
     .0000
     .0000
     .0000
     .0000
     .0000
  URBAN
 .0000
 .0000
 .0000
 .0000
 .0000
 .0000
 .0000
 .0000
 .0000
 .0000
 .0000
.0000
.0000
.0000
                                                                             IMPACT FACTORS
SINGLE SOURCE
RURAL .1632+06
URBAN .4067+07
TOTAL IMPACT FACTOR *
AVERAGE SOURCE IMPACT FACTOR a
MULTIPLE SOURCE
.8773+07
.1520+09
.1607+09
.1764+07
                                               RATIO OF MAXIMUM  SURFACE  CONCENTRATION PLUS BACKGROUND CONCENTRATION TO io«  OF  MEG

-------
                                                                 TABLE  F-l.   Continued
                         INVERSION HEIGHT
                                     (ft)
                                              1900.
                          1971 -- IMPACT PARAMETERS
              WIND  SPEED  =   1.500            RURAL POP.
                   
-------
                                                                 TABLE F-1.    Continued
                       INVERSION HEIGHT
                                            1SOO.
                             1971 -- IMPACT PARAMETERS
                WIND SPEED =   4.500            RURAL POP.
                     IM/S)                        (P/KM2)
                                                                                                           22.34
                                                                                                                            URBAN POPL.  =  3S9.T
                                                                                                                              

SECTOR 1 - UTILITY BOILERS EQUIP TYPE 104 - CYCLONE BOILER FUEL TYPE 3 - CENTRAL BITUMIN. CONSUMPTION! TOTAL SINGLE SOURCE 1.292 (1E1S KJ/TRI .1357-01 (1E15 KJ/TRI FRACTION: RURAL URBAN .590 .110 POLLUTANT NOX SOX HC CO PART SULFAT POM HI BA BE B CR CO CU PB flN NATURAL .4969+10 .2509+11 .1384+00* .3084-02* .2314+09 .5651-01* .9773-02* .3433+00* .1613+13 .2932+00* .4946+10 .6976+00* .8804+09 .1219+08 .8559-01* RURAL .1502+11 .3499+11 .1801+03* .2504+01* .1893+10' .1877+00* .4010+01* .9266+00* .1613+13 .2932+00* .6246+10 .6976+00* .5709+09 .7544+08 .9360-01* URBAN .2395+11 .4678+11 ,1841+03* ,4004+01* .2205+10 .2682+00* .6510+01* .1427+01* .2149+13 .2932+00* .1465+11 .8676+00* .4999+09 .5182+09 .1425+00* I OJ TOTAL .16555+13 .16695+13 GAUSSIAN APPROXinATEO SOURCE EFFECTIVE STACK HEIGHT = 180.0 POLLUTANT US HO All V ZN ZR AS 61 AL SB CO SE P SR .22531+13 tfll CONTROLS: NOX a NATURAL •7232+00* .1277-01* .1325+09 .6370+00* .5001+00* .4624-01* .2365+00* .2609-01* .7293+10 .2136-01* .1406+09 .2231+00* .0000 » .0000 * SOX * PARTICULATES a RURAL .7232+00* .1277-01* .1733+09 .6656+00* .2013+01* .4624-01* .2385+00* .2609-01* ,9797+10 .7136-01* .1679+09 .2231+00* .0000 • .0000 • .0166 .0000 .7500 URBAN .2223+01* .1277-01* .7482+09 .9059+00* .2853+01* .4624-01* .2869+00* .2609-01* .1180+11 .1214+00* .2987+10 .3071+00* .0000 * .0000 • RURAL URBAN IMPACT FACTORS SINGLE SOURCE .3761+08 .8105+09 TOTAL IMPACT FACTOR « AVERAGE SOURCE IMPACT FACTOR * MULTIPLE SOURCE .2112+10 .3163+11 .3374+11 .3545+09 • RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF MEG


-------
                                                                 TABLE F-l.    Continued
                         INVERSION HEIGHT
                                     (HI
                                             1900.
             197* —  IMPACT PARAMETERS
WIND SPEED =    4.500            RURAL POP.
     (n/S)                        IP/KM2)
                                                                                                            22.51
                                   URBAN  POPL.
                                     (P/KH2I
                                                                                                                                        =  399.7
                           SECTOR  1 -  UTILITY BOILERS
                                                                      EQUIP  TTPE 100 • CTCLONE BOILER
                                                                                                                     FUEL TTPE  5 - LIGNITE
 I
CO
CONSUnPTIONI TOTAL
SINGLE SOURCE



POLLUTANT
NOX
SOX
HC
CO
PART
SUtFAT
POM HI
BA
BE
B
CR
CO
CU
PB
UN
« .1370
= .1357-01



NATURAL
.2*«2+10
.29*7*10
.1753+00*
.5616-02*
.7861+10
.7912-02*
.9773-02*
.8166+09
.2117+13
.1581+00*
.2963+10
.7361+00*
.8964+00*
.6663+00*
.7*62-01*
I1E1S KJ/TR)
(1E1S KJ/TR)



RURAL
.7*75+10
. 73*7+10
.1802+03*
.2506+01*
.4151+11
.1391+00*
.*010+01*
.2673+10
.2117+13
.ise*+oo*
,5
-------
                                                                 TABLE  F-l.   Continued
                       INVERSION HEIGHT
                                   tni
1900.
             1974 -- IMPACT  PARAMETERS
MINO SPEED =   4.500            RURAL POP. =   22.34
     <«/s>                        IP/KHZ)
                                                                                URBAN POPL.
                                                                                  (P/KM2I
                                                                                                                                       =  359.7
                         SECTOR  1 - UTILITY  BOILERS
                       CONSUMPTION*  TOTAL *
                             SINGLE SOURCE =
   .1200-01 (1E15 KJ/TR)
   ,1979-02 (1E19 KJ/TR)
 I
CO
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
FIN
NATURAL
.4069+08
.1040+10
.6211-01*
.1599-02*
.3147+00*
.3260-01*
.2201-02*
.1210+00*
.0000 *
.2558-02*
.4939+09
.7482+00*
.3209+00*
.4768+00*
.1295-01*
RURAL
.1642+09
.2432+10
.1801+03*
.2502+01*
.1098+02*
.1638+00*
.4002+01*
.7044+00*
.0000 *
.2558-02*
.8236+09
.7482+00*
.7404+01*
.5755+01*
.2135-01*
URBAN
.2739+09
.4103+10
.1841+03*
.4002+01*
.1298+02*
.24M3+00*
.6502+01*
.1204+01*
.0000 *
.2558-02*
.1464+10
.9182+00*
.6363+01*
.4270+02*
.7009-01*
                              TOTAL
                                            .83514+10
                                                         .11216+11
        EQUIP TTPE 104  -  CYCLONE BOILER

            FRACTION!   RURAL  s   .320
                       URBAN  =   .680

          GAUSSIAN APPROXIMATED  SOURCE
       EFFECTIVE STACK  HEIGHT =    110.0
                              POLLUTANT
                                HG
                                MO
                                NI
                                V
                                ZN
                                ZR
                                AS
                                BI
                                AL
                                SB
                                CD
                                SE
                                P
                                SR
                                                                     .19824+11
                                                                                                                     FUEL  TYPE  6 - HIGH S KES. OIL
                                                                                                       IM)
CONTROLS i NOX *


NATURAL
.1172+00*
.1295-01*
.5955+10
.8217+09
.2034-01*
.4068-02*
.1036-02*
.0000 *
.3004+00*
.1027-02*
.4291-01*
.3699+00*
.0000 *
.1120-02*
SOX s
PARTICULATES •
RURAL
.1123+00*
.1295-01*
.6920+10
.6761+09
.1533+01*
.4066-02*
.1036*02*
.00011 *
.1243+08
.5103-01*
.1179+00*
.3699+00*
.0000 *
.1120-02*
.0390
.0000
.2500
URBAN
.1612+01*
.1295-01*
.8829+10
.1155+10
.2373+01*
.H068.ua*
.5146-01*
.0000 *
.1729+01*
.1010+00*
•8929+00*
.4539+00*
.0000 *
.1120-02*
                                                         RURAL
                                                         URBAN
                                                                             IMPACT FACTORS
                        SIN6LE SOURCE
                             .2506+06
                             .5692+07
                                                                 TOTAL IMPACT FACTOR
                                                        AVERAGE SOURCE IMPACT FACTOR
                           MULTIPLE SOURCE
                                .4862+06
                                .2347+08

                            .2396+08
                            .3951+07
                                             *  RATIO  OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO
                                                                                                                          OF ME 6

-------
                                                                 TABLE  F-l.    Continued
INVERSION  HEIGHT B   1500.
                                                                           1974 — IMPACT PARAMETERS
                                                               WIND  SPEED =   4.500            RURAL POP.
                                                                    (H/SI                        (P/KM2)
                                                                                  22.34
                                   URBAN  POPL.
                                     (P/KM2*
                                                                                                               ±   S59.7
                            SECTOR  1 - UTILITY BOILERS
                                                                      EOUIP TTPE 10* - CYCLONE BOILER
                                                                                                                      FUEL TTPE  7 • MEO  S  HES.  OIL
CONSUMPTION! TOTAL
SINGLE SOURCE



POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BC
B
CR
CO
CU
PB
MN
s .2800-01
a .1979-02



NATURAL
.4069+06
.3226+09
.6211-01*
.1599-02*
..1147+00*
.1630-01*
.2201-02*
.1210+00*
.0000 •
.2556-02*
.4939+09
.7482+00*
.3209+00*
.4766+00*
.1295-01*
(1E19 KJ/YR(
I1E13 KJ/TRI



RURAL
.1642+09
.6157+09
.1601+03*
.2502+01*
.1098+02*
.1475+00*
.4002+01*
.7044+00*
.0000 *
.2556-02*
.6236+09
.7462+00*
.7404+01*
.5755+01*
.2135-01*
FRACTION! RURAL *
IWBAN s

GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT =
URBAN
.2739+09
.1407+10
.1841+03*
.4002+01*
.1296+02*
.2280+00*
.6502+01*
.1204+01*
.0000 *
.2556-02*
.1464+10
.9162+00*
.6363+01*
.4270+02*
.7009-01*
.320
.660

SOURCE
110.0
POLLUTANT
H6
HO
M
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR

CONTROLS! NOX c



(A)
NATURAL
.1122+00*
.1295-01*
.5955+10
.8217+09
.2034-01*
.4066-02*
.1036-02*
.0000 •
.3004+00*
.1027-02*
.4291-01*
.3699+00*
.0000 *
.1120-02*

SOX B
PARTICULATES s


RURAL
.1122*00*
.1295-01*
.6920+10
.6761+09
.1533+01*
.4066-02*
.1036-02*
.0000 *
.1243+06
.5103-01*
.1179+00*
.3699+00*
.0000 •
.1120-02*

.0390
.0000
.2500


URBAN
.1612+01*
.1295-01*
,6629+10
.1155+10
.2373+01*
.4066-U2*
.5146-01*
.0000 •
.1729+01*
.1010+UO*
.6929+00*
.4539+00*
.0000 *
.1120-02*

co
                                TOTAL
                                              .763*1+10
                                                           .95994+10
                                                                        .13129+11
                                                            RURAL
                                                            URBAN
                                                                               IMPACT FACTORS
                                             SINGLE  SOURCE
                                                 .2145+06
                                                 .4723+07
                                                                    TOTAL  IMPACT FACTOR «
                                                           AVERAGE  SOURCE  IMPACT FACTOR *
MULTIPLE SOURCE
     .9710+06
     .4544+08

 .4641+08
 .3280+07
                                               *  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10« OF HE6

-------
                    INVERSION HEIGHT
                                (Ml
                                         1900.
        TABLE  F-1.   Continued

             1974  --  IMPACT PARAMETERS
HIND SPEED =   4.500            RURAL POP.
     (M/S)                        IP/KM2I
                                                                                                       22.31
                                   URBAN POPL.
                                     

s 999.7 I CO StCTOR 1 - UTILITY BOILERS CONSUMPTION! TOTAL SINGLE SOURCE POLLUTANT NOX SOX HC CO PART SULFM POM HI BA BE B CR CO CU PB TOTAL EQUIP TYPE 10H - CYCLONE BOILER FUEL TYPE 8 - LOW S RES. OIL : .3700-01 i .1979-02 NATURAL .4069+08 .8643+08 .6211-01* .1599-02* .3147+00* .8151-02* .2201-02* .1210*00* .0000 • .2558-02* .4939+09 .7482+00* .3209+00* .4768+00* .1295-01* I1C15 KJ/YR) I1E1S KJ/YR) RURAL .1642+09 .2413+09 .1801+03* .2502+01* .1098+02* .1394+00* .40U2+01* .7014+00* .0000 * .2558-02* .8236+09 .7482+00* .7404+01* .5755+01* .2139-01* FRACTION! RURAL = URBAN a GAUSSIAN APPROXIMATED EFFECTIVE STACK HEIGHT = URBAN .2739+09 ,4?70*09 .1641+03* .4002+01* .1298+02* .2199+00* .6502+01* .1204+01* ,0000 * .2558-02* .1464+10 .9182+00* .6363+01* .4270+02* .7009-01* .320 .680 SOURCE 110.0 POLLUTANT HG MO NI V ZN ZR AS BI AL SB CO SE P SR (Ml CONTROLS! NOX x NATURAL .1122*00* .1295-01* .5955+10 .8217+09 .2034-01* .4068-02* .1096-02* .0000 * .3004+00* .1027-02* .H291-01* .3699+00* .0000 * .1120-02* SOX * PARTICULATES e RURAL .1122+00* .1295-01* .69211 + 10 .8761+09 .1533+01* .4068-02* .1036-02* .0000 * .1243+08 .5103-01* .1179+00* .3699+00* .0000 * .1120-02* .0390 .0000 .2500 URBAN .1613+01* .1295-01* .6429+10 .1155+10 .2373+01* .4068-02* .5146-01* .0000 • •1729+01* .1010+00* .6929+00* .4539+00* .0000 * .1120-02* .73979+10 .90290+10 .12149+11 RURAL URBAN IMPACT FACTORS SINGLE SOURCE .2016+06 .4370+07 TOTAL IMPACT FACTOR AVERAGE SOURCE IMPACT FACTOR MULTIPLE SOURCE .1206+07 .5556+08 .9677+08 .3036+07 * RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG


-------
                                                                  TABLE  F-l.    Continued
                INVERSION HEIGHT
                            IMI
                                     1300.
                              197* —  IMPACT  PARAMETERS
                 MIND SPEED =   ».500            RUHAL POP.
                      IH/SI                        IP/KM2I
                                                  22.
                                                                   URBAN POPL. =  339.7
                                                                     IP/KM2I
                  SECTOR  i - UTILITY  BOILERS
                CONSUMPTION:   TOTAL *
                      SIN6LE  SOURCE =
   .61DO>01 (1E13 KJ/YR)
   .2321-02 I1E13 KJ/TR)
OJ
CT>
                     POLLUTANT
                       NOK
                       SOX
                       HC
                       CO
                       PART
                       SULFAT
                       POM HI
                       BA
                       BE
                       B
                       CR
                       CO
                       CU
                       PB
                       MN

                       TOTAL
NATURAL
.1372*09
.1810-02*
.2903*00
.3523-02
.2767+00
.0000
.3274+00*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                     .13716*09
 RURAL
.3894+09
.3127*01*
.1803+03*
.2504+01*
.109H+02
.0000
.H32T+01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
             .389"»i»+09
            EQUIP TTPE  10*  -  CTCLONE BOILER

                FRACTION:   RURAL  =  .590
                           URBAN  =  .tlO

              GAUSSIAN  APPROXIMATED SOURCE
           EFFECTIVE STACK  HEI6HT *    60.00
                                               FUEL TYPE 10 - NATURAL SAS

                                             CONTROLSI  NOX *   .0000
                                                        SOX =   .0000
                                               PARTICULATES =   .0000
 URBAN
.6137+09
.6877*01*
.1643+03*
.tOOt+01*
.129>»*02
.0000
.6827*01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                          .61369+09
POLLUTANT
  HG
  HO
  NI
  V
  ZN
  ZR
  AS
  Bl
  AL
  SB
  CD
  SE
  P
  SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 URBAN
.0000
.onoo
.0000
.0000
.0000
.0000
.0000
,0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                  RURAL
                                                  URBAN
                                                                       IMPACT FACTORS
                         SINGLE SOURCE
                             8700.
                             .2208+06
                                                          TOTAL  IMPACT FACTOR
                                                 AVERAGE SOURCE  IMPACT FACTOR
                                MULTIPLE  SOURCE
                                     .1349+06
                                     .2379+07

                                 .2314+07
                                 .93611+05
                                      *  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION  TO  10» OF HE6

-------
                                                                 TABLE  F-l.   Continued
                      INVERSION HEIGHT
                                  tM>
                                           1900.
 I
oo
                        SECTOR  i - UTILITY BOILERS
                      CONSUMPTION!  TOTAL
                            SINGLE SOURCE
                           POLLUTANT
                             NOX
                             SOX
                             HC
                             CO
                             PART
                             SULFAT
                             POM HI
                             BA
                             BE
                             B
                             CR
                             CO
                             CU
                             PB
                             TOTAL
                             1974 -- IMPACT PARAMETERS
                 MIND SPEED =   ».500            RURAL POP.  =
                     in/Si                        

EQUIP TTPE 105 - VERTICAL + STOKER BOILER (Pit : .1090 •• .4356-03 (1E13 KJ/YR) I1E19 KJ/YR) FRACTION! RURAL = .800 URBAN e .200 GAUSSIAN APPROXIMATED SOURCE NATURAL .1853+00* .3022+00* .8073-02* .6337-03* .1667+00* .3990-03* .0000 * .1521.01* .7734+11 .6949.04* .3204+09 .1889+00* .8203.01* .1836-01* .8025.02* RURAL .4665+01* .3427+01* .1800+03* .2501+01* .1083+02* .1316+00* .0000 • .5985+00* .7754+11 .6949-04* .6120+09 .1889+00* .7165+01* .5296+01* .16*3-01* EFFECTIVE STACK URBAN .8685+01* .7177+01* .1840+03* .4001+01* .1283+02* .2121+00* .0000 * .1099+01* .6137+12 .6949-04* .1178+10 .3589+00* .6124+01* .4224+02* .6517-01* HEIGHT = 180.0 POLLUTANT HG no N: V ZN ZR AS Bl AL SB CO SE P SR 22.34 URBAN POPL. = S59 IP/KM) .ER FUEL TYPE 1 • CONTROLS! NOX a NATURAL . 2855-01* .4395-03* .11204-00* .6889-02* .1457-02* .8469-03* .4395-02* .7165-04* .0000 * .4350-04* .1836-02* .6173-03* .0000 * .0000 * SOX • PARTICULATES • RURAL .2835-01* .4395-03* .2573*00* .3546-01* .1514+01* .8469.03* .4395-02* .7165-04* .0000 * .5004-01* .7684.01* .6173-03* .0000 * .0000 * ANTHRACITE .0000 .0000 .5000 URBAN .1528+01* ,4395-OJ* .7530+00* .2758+00* .2354+01* .8469-03* .5462-01* .7165-04. .0000 • .1000+00* .8518+00* .8465.01* .0000 * .0000 * .77669*11 .77997*11 .61488+12 RURAL URBAN IMPACT FACTORS SINGLE SOURCE .1742+07 .2212+09 TOTAL IMPACT FACTOR = AVERAGE SOURCE IMPACT FACTOR = MULTIPLE SOURCE .3486+09 .1107+11 .1142+11 .4563+08 * RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10*, OF MEG


-------
                                                                 TABLE  F-l.   Continued
INVERSION  HEIGHT a   1900.
                                                                      1974 -- IMPACT  PARAMETERS
                                                         HIND SPEED =   4.900           RURAL POP.
                                                              IH/S)                        (P/KM2)
                                                                                   22. 3<*
                                                                                                   URBAN POPL.
                                                                                                      (P/KM2)
                                                                                                               =  539.T
 I
CO
00
                      SCCTOR  1  •  UTILITY BOILERS
                    CONSUMPTION!   TOTAL
                          SINGLE  SOURCE
                         POLLUTANT
                           NOX
                           SOX
                           HC
                           CO
                           PART
                           SULFAT
                           POM HI
                           BA
                           BE
                           B
                           CR
                           CO
                           CU
                           PB
                           MN

                           TOTAL
                                         .91798411
                                                                 EQUIP TTPE 109  -  VERTICAL + STOKER BOILER
                                                                                                   (HI
                                                                                                                 FUEL TTPE   2  -  EASTERN  BITUMIN.
i .1100
: .0396.03


NATURAL
.1B53+00«
.4235408
.3850-02*
.2459-03*
.9843400*
.ms-02*
.0000 »
.1102-01*
.9176*11
.9*10-02*
.3769400*
.2239-01*
.9081-01*
.3346-01*
.2741-02*
UE19 KJ/TR)
I1E19 KJ/TR)


RURAL
.4685+01*
.1553+09
.1600403*
.2900401*
.1165402*
.1326400*
.0000 *
.5944400*
.9176411
.9410-02*
.1899401*
.2239-01*
.7134401*
.5311401*
.1114-01*
FRACTION! RURAL =
URBAN x
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT e
URBAN
.8685401*
.2909+09
.1840+03*
.4000+01*
.1365+02*
.2131+00*
.0000 *
.1094401*
.5681412
.9410-02*
.4725401*
.1924400*
.6092401*
.4226402*
.5988-01*
.590
.410
SOURCE
180.0
POLLUTANT
HG
HO
NI
V
ZN
ZR
AS
BI
AL
sa
CD
SE
p
SR

                                                     .91911+11
                                                                  .58839412
CONTROLS; NOX *


NATURAL
.2321-01*
.1*099-03*
.5839-01*
.2044-01*
.1605-01*
.1464-02*
.7654-02*-
.8372-03*
.4757400*
.6856-03*
.6200-01*
.7161*02*
.0000 *
.0000 *
SOX a
PARTICULATES *
RURftL
.2321-01*
.4099-03*
.2037400*
.4902-01*
.1529401*
.14B4-02*
.7654-02*
.8372-03*
.1715409
.5069-01*
.1370400*
.7161-02*
.0000 •
.0000 •
.0000
.0000
.5000
URBAN
.1523+01*
.4099-05*
,6994+uO*
.2894+00*
.2369+01*
.1464-02*
.5807-01*
.6372-03*
.1904401*
.10074UO*
.9120400*
.9119-01*
.0000 *
.0000 *
                                                      RURAL
                                                      URBAN
                                                                          IMPACT FACTORS
                                             SINGLE SOURCE
                                                 .1160407
                                                 .2116409
                                                              TOTAL IMPACT FACTOR
                                                     AVERA6E SOURCE IMPACT FACTOR
MULTIPLE SOURCE
     .1728409
     .2191+11

 .2206411
 .8749+06
                                         •  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS  BACKGROUND CONCENTRATION TO 10» OF MEG

-------
                                                                 TABLE F-1.    Continued
                      INVERSION HEIGHT
                                  (H)
                                           1900.
 i
oo
to
                        SECTOR  1 . UTILITY BOILERS
                      CONSUMPTION!  TOTAL
                            SIN6LE SOURCE s
                           POLLUTANT
                             NOX
                             SOX
                             HC
                             CO
                             PART
                             SULFAT
                             POM MI
                             BA
                             BE
                             a
                             CR
                             CO
                             CU
                             PB
                             RN

                             TOTAL
               . 1974 — IMPACT PARAMETERS
    KIND  SPEED  =   1.500            RURAL POP.
         IM/St                        IP/KM2)
            EQUIP TYPE 105 - VERTICAL + STOKER BOILER
i .1100
•• .4356-03
(1E19 KJ/TR)
(1E15 KJ/YRI
FRACTIONS

RURAL = .590
URBAN a .410
GAUSSIAN APPROXIMATED SOURCE

NATURAL
.1853+00*
.9092+08
.3850-02*
.2459-03*
.9629+00*
.1814-02*
•0000 •
.1102-01*
.9176+11
.9410-02*
.9769+00*
.2239-01*
.9081-01*
.33*6-01*
.27*1-02*

RURAL
.4685+01*
.3038+09
.1800+03*
.2500+01*
.1163+02*
.1330+00*
.0000 *
.9944+00*
.5176+11
.9410-02*
.1859+01*
.2239-01*
.7134+01*
.9311+01*
.1114*01*
EFFECTIVE STACK
URBAN
.8665+01*
.5592+09
.1840+03*
.4000+01*
.1363+02*
.2135+00*
.0000 *
.1094+01*
.5861+12
.9410-02*
.4725+01*
.1924+00*
.6092+01*
.4226+02*
.9988-01*
HEIGHT e 180.0
POLLUTANT
HG
no
NI
V
ZN
ZH
AS
BI
AL
SB
CO
se
p
SR

                                           .918*7*11
.920(0+11
                                                                     .58861+12
22.34 URBAN
POPL. = 859.7
IP/KM2>
.EH FUEL TYPE 3
CONTROLS: NOX
SOX
PARTICULATES
NATURAL RURAL
.2321-01* .2321-01*
.4099-03* .4099-03*
.5839-01* .2037+00*
.2044-01* .4902-01*
.1605-01* .1529+01*
.1484-02* .1484-02*
.7654-02* .7694-02*
.8372-03* .8372-03*
.4757+00* .1719+09
.6856-03* .9069-01*
.6200-01* .1370+00*
.7161-02* .7161-02*
.0000 • .0000 *
.0000 * .0000 *
- CENTRAL BITUHIN,
• .0000
* .0000
* .5000
URBAN
.1523+01*
.4099-US*
.6994+00*
.2894+00*
.2369+01*
.1484-02*
.9807-01*
.8372-03*
.1904+01*
.1007+UO*
.9120+00*
.9119-01*
.0000 *
.0000 •
                                                         RURAL
                                                         URBAN
                                                                            IMPACT FACTORS
            SINGLE SOURCE
                .1163+07
                .2117+09
                                                                TOTAL IMPACT FACTOR =
                                                        AVERAGE SOURCE IMPACT FACTOR a
MULTIPLE SOURCE
     .1733+09
     .2192+11

 .2209+11
 .8790+08
                                            *  RATIO OF MAXIMUM  SURFACE CONCENTRATION PLUS BACKGROUND  CONCENTRATION TO 10,X OF MEG

-------
                                                                TABLE  F-l.    Continued
                        INVERSION HEIGHT
                                   (Ml
                                            1500.
             197* •• IMPACT PARAMETERS
WIND SPEED  a    4.500            RURAL POP.
     IM/St                        (P/KM2I
                                                                                                          22.34
                                   URBAN POPL.
                                     IP/KM2I
                                                                                                                                      =  359.7
                         SECTOR  1 - UTILITY BOILERS
                                                                    EQUIP TYPE 105 - VERTICAL + STOKER BOILER
                                                                                                                    FUEL TYPE   5  •  LIGNITE
CONSUMPTION TOTAL
SINGLE SOURCE



POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
cu
PB
HN
* .9000-02
B .4356-03



NATURAL
.1853+00*
.2763+00*
.5627-02*
.3699-03*
.2049+06
.2539-03*
.0000 *
.1366+00*
.6795+11
.5082-02*
.2798+00*
.2362-01*
.2877-01*
.2138-01*
.2399-02*
(1E1S KJ/YRl
I1E19 KJ/YRl



RURAL
,4665+01*
.3403+01*
.1800+03*
.2500+01*
.2250+09
.1315+00*
.0000 *
.7222+00*
.6795+11
.5082-02*
.1758+01*
.2362-01*
.7112+01*
.5299+01*
.1080-01*
FRACTION) RURAL z
URBAN =

GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT =
.700
.300

SOURCE
160.0
URBAN POLLUTANT
.6665+01*
.7153+01*
.1640+03*
.4000+01*
.2634+09
.2120+00*
.0000 *
.1222+01*
.6043+12
.5082-02*
.4628+01*
.1936+00*
.6070*01*
.4224*02*
.5954-01*
H6
NO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR

CONTROLS! NOX «



(M)
NATURAL
.1158-01*
.1309-03*
.2625-01*
.1461-01*
.4543-02*
.2469-02*
.6173-02*
.2013-02*
.4337+00*
.3061-03*
.6427-02*
.6975-02*
.0000 *
.0000 *

SOX a
PARTICULATES =


RURAL
.115S-01*
.1309-03*
.1736+00*
.4339-01*
.1517+01*
.2469-02*
.6173-02*
.2013-02*
.1343+09
.5031-01*
.6143-01*
.6975-02*
.0000 *
.0000 *

.0000
.0000
.5000


URBAN
.1512+01*
.1309-03*
.6693+00*
.2637+00*
.2357+01*
,.2469-02*
.5659-01*
.2013-U2*
.1862+01*
.1003+UO*
.8564+00*
.9101-01*
.0000 *
.0000 *

 I
-p>
o
                              TOTAL
                                            .67966+11
                                                         .68173+11
                                                          RURAL
                                                          URBAN
                                                                     .60*57+12
                                                                             IMPACT FACTORS
        SINGLE  SOURCE
            .1523+07
            .2175+09
                                                                 TOT*L IMPACT F»CTOR a
                                                         AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
     .2202+08
     .1348+10

 .1370+10
 .6631*08
                                             *  RATIO  OF  MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF ME6

-------
                                           TABLE  F-1.    Continued
INVERSION HE1SHT
            tfll
                     1900.
                                     WIND
  SECTOR  2 * PACKAGED BOILERS

CONSUHPTIONI   TOTAL *
      SINGLE  SOURCE =
                                                                      (P/KM2I
                                            EOUIP TTPE 201  -  WALL FIRED W-TUSE
    POLLUTANT
      NOX
      SOX
      HC
      CO
      PART
      SULFAT
      POH HI
      8A
      BC
      B
      CR
      CO
      CU
      PB
      HN

      TOTAL
1 .8500-01
= .7922-03


NATURAL
.2589+08
•2643+07
.2600-01*
.3380-03*
.89*3-01*
.3195-02*
.2588-02*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000






I1E15 KJ/TR
(1E15 KJ/YR


RURAL
.9598+08
.1018+08
.1800+03*
.2500+01*
.1076+02*
.1344+00*
.4003+01*
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *

1 FRACTION! RURAL = .330
' URBAN = .670
EFFKT^^TlrrT1""" S°URCE
E,««™ ST*CK HEI8HT " <">•<>»
1583?r,9 POLLUTANT
.1583+09 up
.1922+08 HO
.1840+03* ...
.4000+01* v
.1276+02* ZN
.2149+00* ™
.6503+01* t,
.0000 --
.0000
.0000
.0000
. 0000
.0000
• 0000
.0000
BI
AL
SB
CO
se
p
SR
                                                                               >29
"'" URBAN POPL. 3 359.7
CP/KB2J
» "" FUEL TTPE 9 - DISTILLATE OIL
CONTROLS! NOX s .0000
SOX a .0000
PARTICULATES * .0000
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
• 0000



                   .28535+08
                                •10616+09    .17791+09
                                                   I«PACT FACTORS
SINGLE SOURCE
RURAL 2372.
URBAN .6385+05
TOTAL IMPACT FACTOR a
AVERAGE SOURCE IMPACT FACTOR s
MULTIPLE SOURCE
.8398+05
.1590+07
.«67
-------
                                         TABLE F-l.    Continued
INVCRS10N HEICHT
            (HI
                     1SOO.
                              1974  —  IMPACT PARAMETERS
                 WIND SPEED  a    4.900            RURAL POP.
                      29 HH

                FRACTION:   RURAL =  .610
                           URBAN =  .390
                                                                                              FUEL TYPE 10 - NATURAL GAS
NATURAL
.2254*08
.4250-02*
.3360-01*
.7799-03*
.1987-01*
.0000   *
.5878-01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.22941*08
 RURAL
.8907*08
.3128401
.1800*03
.2501*01
.1069*02
.0000
.4059*01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.89066*08
                                                GAUSSIAN APPROXIMATED SOURCE
                                             EFFECTIVE STACK HEIGHT =   80.00
                                             CONTROLS)  NOX
                                                        SOX
                                               PARTICULATES
                                                                                (HI
 URBAN
.1406*09
.6676*01*
.1640*03*
.4001*01*
.1269*02*
.0000
.6559*01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                          .1*0611*09
POLLUTANT
  HG
  no
  NI
  V
  ZN
  ZR
  AS
  BI
  At
  SB
  CO
  SE
  p
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                           .0000
                                           .0000
                                           .0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                   RURAL
                                   URBAN
                                                       InPACT  FACTORS
                         SINGLE SOURCE
                             1900.
                             .9099+09
                                           TOTAL  IMPACT FACTOR
                                  AVERAGE  SOURCE  IHPACT FACTOR
                                MULTIPLE  SOURCE
                                     .1358+07
                                     .2311*08

                                 .2447+08
                                 .2089*09
                         RATIO OF MAXIMUM SURFACE  CONCENTRATION  PLUS  BACKGROUND  CONCENTRATION  TO 101  OF MEG

-------

INVERSION HEIGHT *
t M 1
I ni

1500.

TABLE F-l
WIND Sf
It
SECTOR 8 . PACKAGED BOILERS
CONSUMPTION! TOTAL a -linn ..-.. 	
SINGLE SOURCE

POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
a*
BE
B
CR
CO
cu
PB
m
.-_.„ jitia no/TR)
a .7922-03 C1E15 KJ/TR)

NATURAL
.2254+08
.9250-02
.4380-01
.7799-03
•1907-01
.0000
•5878-01
• OOOO
.0000
.oooo
.0000
.0000
.oooo
.0000
.oooo

RURAL
.8507+08
• .3128+01*
• .1800+03*
• .2501+01*
.1069+02*
.0000 *
.4059401*
.0000
.0000
.oooo
.oooo
.oooo
.0000
.oooo
.0000
. Continued
1974 — IMPACT P«
•EEO a 4.500
1/S)
EOUIP'TrPE 201 - HALL
FRACTIONS RURAL s
URBAN =

GAUSSIA
EFFECTIVE
URBAN
.1406+09
.6878+01
.1840+03
.4001+01
.1269+02
.0000
.6559+01
.0000
.0000
.0000
• OOOO
.0000
.0000
.0000
.0000

RAHETERS
RURAL POP,
(P/KM2I
FIREO W-TUBE
.610
.390

N APPROXIMATED SOURCE
STACK HEIGHT x 80.00
POLLUTANT
HG
* «0
* NI
» V
ZN
ZR
AS
BI
AL
SB
CO
sc
p
SR


= "'** URBAN POPL. = 359.7
(P/KM2)
«9«K FUEL TTPE 11 - PROCESS BAS
CONTROLS! NOX * .0000
SOX a .nnnn

NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.oooo
.oooo
.0000
.0000
.oooo
.0000
.0000
.0000
PARTICULATE
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.oooo
.0000
.oooo
.0000
• oooo
.0000
.0000
.0000
S a .0000
URBAN
* .0000
* .0000
.oooo
.0000
.0000
.0000
.0000
.0000
.0000
.oooo
.0000
.0000
.0000
.0000

                                TOTKL
                                              .289*1+00    ,85066+08    .1»06»+09
OJ
                                                                                IMPACT FACTORS
SINGLE SOURCE
RURAL 1900.
URBAN .5059+05
TOTAL IMPACT FACTOR »
AVERAGE SOURCE IMPACT FACTOR a
MULTIPLE SOURCE
.1902+06
.3238+07
.3*28+07
.2089+05
                                              •  RATIO OF
                                                                  SURFACE CONCENTRATE PLUS BACKSROUN0 CONCENTRATION TO ... OF HEe

-------
                                                                 TABLE  F-l.    Continued
                     INVERSION HEIGHT
                                 (Ml
                                          1500.
 I
-JS.
                       SECTOR  2 - PACKAGED  BOILERS
                     CONSUMPTION I   TOTAL *
                           SINGLE  SOURCE
                          POLLUTANT
                            NOX
                            SOX
                            HC
                            CO
                            PART
                            SULFAT
                            POM HI
                            BA
                            BE
                            B
                            CR
                            CO
                            CU
                            PB
                            HN

                            TOTM.
                                     IMPACT PARAMETERS
                 WIND SPEED *   4.500            RURAL POP.
                     (M/SI                        (P/KM2I
                                                                  EQUIP TYPE 201  -  WALL FIRED W-TUBE
: .5100
: .7922-03


NATURAL
.2569+08
.3956+09
.1906-01*
.3466-05*
.2530+09
.1780-01*
.2588-02*
.1386+00*
.1235+12
.1184+00*
.6976+06
.2817+00*
.6392+00*
.4210+00*
.3448-01*
(1E1S KJ/YRt
(1E1S KJ/TRI


RURAL
.9598+08
.8897+09
.1600+03*
.2500+01*
.1446+10
.1490+00*
.4003+01*
.7220+00*
.1235+12
.1184+00*
.1218+09
.2817+00*
.7723+01*
.5699+01*
.4269-01*
FRACTION! RURAL *
URBAN =
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT =
URBAN
.1583+09
.1462+10
.1840+03*
.4000+01*
.1670+10
.2295+00*
.6503+01*
.1222+01*
.6600+12
.1184+00*
.2227+09
.4517+00*
.6661+01*
.4264+02*
.9163-01*
.500
.500
SOURCE
80.00
POLLUTANT
HG
HO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR

22. 34 URBAN POPL. e 339. T
IP/KM2I

1 UK FUEL TYPE 11 - BIT/LI6 COAL
CONTROLS! NOX z
SOX 3
PARTICULATES =
NATURAL RURAL
.2920+00* .2920+00*
. 5157-02* .515T-02*
.7346+00* .0799+00*
.2572+00* .2658+00*
.2019+00* .1715+01*
.1067-01* .1667-01*
.9630-01* .9630-01*
.1053-01* .1053-01*
.1051+09 .6795+09
.6626-02* .5863-01*
.7600+00* .6550+00*
.9009-01* .9009-01*
.0000 * .0000 *
.0000 * .0000 *
.0000
.0000
.5000
URBAN
.1792+01*
.5157-02*
.1129+03
.5261+00*
.2555+01*
.1867-01*
.1467+00*
.10S3-U1*
.1762+09
.1086+00*
.4584+05
.1741+00*
.0000 •
.0000 *
.12*39+12
             .12678+12
                                                                   .66968+12
                                                       RURAL
                                                       URBAN
                                                                           IMPACT FACTORS
                        SINGLE SOURCE
                            .2032+07
                            .2387+09
                                                               TOTAL IMPACT FACTOR •
                                                      AVERAGE SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
     .9117+09
     .7685+11

 .7776+11
 .1208+09
                                           •  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10p OF MEG

-------
                        INVERSION HEIGHT
                                    (ft)
                                             1900.
                    TABLE  F-T.   Continued
                             1974 -- IMPACT PARAMETERS
                WIND SPEED ~   4.500            RURAL POP.
                     IM/S)                        IP/KM2)
                                                                                                            22.34
                                        URBAN POPL.
                                           (P/KM2)
                                                                                                                                         =  3S9.7
                          SECTOR  E - PACKAGED BOILERS
                                                                     EQUIP TYPE 201 - WALL FIREO H-TUBC  >29
                                                                                                                      FUEL TYPE 15 - RESIDUAL OIL
                        CONSUMPTION!  TOTAL
                              SIN6LE SOURCE
   .6S7Q     (1E19 KJ/YR)
   .7922-03  (1E13 KJ/YR)
                                                                         FRACTION!
RURAL =
URBAN s
.600
.1100
POLLUTANT
NOX
SOX
HC
CO
PART
SUL?*T
pon HI
8A
BE
B
CR
CO
CU
PB
HN
NATURAL
.2589+08
.6121+08
.2600-01*
.JJ80-OJ*
.4292+00*
.1369-01*
.2588-02*
.1017+00*
.0000 *
.2146-02*
•1356+09
.6284+00*
.2696+00*
.4005+00*
.1087-01*
RUHAL
.9596+06
.1592+09
.1600+03*
.2500+01*
.1110+0?*
.1449+00*
.4003+01*
.6850+00*
.0000 *
.2148-02*
.2286+09
.6284+00*
.7353+01*
.5678+01*
.1920-01*
URBAN
.1583+09
.2768+09
.1640+03*
.4000+01*
.1310+02*
.2254+00*
.6503+01*
.1185+01*
.0000 *
.2148-02*
.4089+09
.7984+00*
.6311+01*
.4262+02*
.6802-01*
 I
-p>
en
.20790+10
             .25189+10
                                                                        GAUSSIAN APPROXIMATED SOURCE
                                                                     EFFECTIVE STACK HEI6HT a   80.00
                                                                                            POLLUTANT
                                                                                              H6
                                                                                              no
                                                                                              NI
                                                                                              V
                                                                                              zt
                                                                                              ZR
                                                                                              AS
                                                                                              Bl
                                                                                              AL
                                                                                              SB
                                                                                              CO
                                                                                              SE
                                                                                              P
                                                                                              SR
                          .57958+10
                                                           IN)
CONTROLS: NOX =


NATURAL
.9427-01*
.1087-01*
.1630+10
.2265+09
.1709-01*
.3417-02*
.6698-03*
.0000 *
.2523+00*
.8626-03*
.3604-01*
.3107+00*
.0000 *
,9mo-03*
SOX *
PARTICULATES s
RURAL
,9<»27-01*
.1087-016
.1805+10
.2294+09
.1530+01*
.3417-02*
.6696-03*
.0000 *
.2761+07
.5066-01*
.1110+00*
.3107+00*
.0000 *
.9110-03*
.0000
.0000
.0500
URBAN
.1594+01*
.1087-U1*
.1632+10
.3193+09
.2370+01*
.3417-02*
.5129-01*
.0000 •
.1681+01*
.1009+00*
.8660+00*
.3947+00*
.0000 *
.9410-03*
                                                           RURAL
                                                           URBAN
                                                                              IMPACT FACTORS
                        SINGLE SOURCE
                            .5626+05
                            .2085+07
                                                                  TOTAL IMPACT FACTOR *
                                                          AVERA6C SOURCE IMPACT FACTOR *
     MULTIPLE  SOURCE
          .2714+06
          .6705+09

      .6977+09
      .6677+06
                                              *  RATIO OF MAXIMUM  SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION  TO  10* OF MES

-------
                                                                 TABLE F-l.    Continued
INVERSION HEIGHT >   1900.
                                                                         1974 -- IMPACT PARAMETERS
                                                             WIND  SPEED =   4.900            RURAL POP. =   22,34
                                                                  CM/SI                        IP/KHZ)
                                                                                                   URBAN POPL.
                                                                                                     (P/KH2)
                                                                                                               r  359.7
                          SECTOR  2 - PACKAGED BOILERS
                                                                    EOUIP TYPE 202 - STOKER W-TOBE
                                                                                                       >29«H
                                                                                                                    FUEL TTPE 14 - BIT/LIG COAL
CONSUMPTION 1 TOTAL
SINGLE SOURCE



POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
UN
* .4660
> .5099-03



NATURAL
.5996+07
.32004-09
.2396-01*
.1393-02*
.1696+09
.1145-01*
.1623-02*
.8916-01*
.79*6+11
.7615-01*
.3044+oe
.1812+00*
.4111+00*
.2708+00*
.2216-01*
(1E19 KJ/YRI
(1E15 KJ/YRI



RURAL
.2725+06
.7660+09
.1800+03*
.2501+01*
.9669+09
.1127+00*
.4002+01*
.6729+00*
.7946+11
.7615-01*
.5644+06
.1812+00*
.7494+01*
.5549+01*
.3058-01*
FRACTION) RURAL =
URBAN s

GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT a
URBAN
.4615+06
.1296+10
.1040+03*
.4001+01*
.1116+10
.2232+00*
.6502+01*
.1172+01*
.6159+12
.7615-01*
.1069+09
.3512+00*
.6453+01*
.4249+02*
.7932-01*
.630
.370

SOURCE
80.00
POLLUTANT
H6
MO
NI
V
ZN
ZR
AS
BI
AL
SB
CO
SE
P
SR

CONTROLSI NOX *



(M)
NATURAL
.1678+00*
.3317-02*
.4725+00*
.1654+00*
.1299+00*
.1201-01*
.6194-01*
.6774-02*
.4700+06
.9546-02*
.5017+00*
.5794-01*
.0000 *
.0000 *

SOX =
PARTICULATES =


RURAL
.1876+00*
.3317-02*
.6176+00*
.1940+00*
.1642+01*
.1201-01*
.6194-01*
.6774-02*
.3661+09
.5555-01*
.5767+00*
.5794-01*
.0000 •
.0000 •

.0000
.0000
.5000


URBAN
.1688+01*
.3317-02*
.3833+07
,4343+Op*
.2463+01*
.1201-01*
.1124+00*
.6774-02*
.6261+03
.1055+00*
.2213+08
.1420+00*
.0000 *
.0000 *

                               Tom
CD
                                            .80038+11
                                                         .61644+11
                                                                      .61693+12
                                                          RURAL
                                                          URBAN
                                                                              IMPACT FACTORS
                                             SINGLE SOURCE
                                                 .1624+07
                                                 .2225+09
                                                                  TOTAL  IMPACT FACTOR
                                                         AVERAGE  SOURCE  IMPACT FACTOR
MULTIPLE SOURCE
     .1051+10
     .7529+11

 .7635+11
 .6347+08
                                             •  RATIO OF MAXIMUM  SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101  OF  ME6

-------
                                                                  TABLE  F-l.   Continued
INVERSION HEIGHT  *    1900.
                                                                            197H .. IMPACT PARAMETERS
                                                               WIND SPEED «   *.500            RURAL POP.
                                                                    
-------
                                                                  TABLE F-l.    Continued
                    INVERSION HEIGHT
                                         1900.
                                              197H  .-  IHPACT PARAMETERS
                                 WIND SPEED z    H.500            RURAL POP.
                                      in/S)                        (P/KH2)
                                                                                                        22. SM
                                                                   URBAN POPL.  =  359.7
                                                                     IP/KPI2»
                      SECTOR  2 - PACKAGED BOILERS
                                                                  EQUIP  TYPE  203 - SINGLE BURNER U-T  <29 MM
CONSUMPTION!  TOTAL *
      SINGLE SOURCE =
                                            1.690    (lElb KJ/YRI
                                            .1392-03 (1E1S KJ/YR)
                                                                      FRACTION:
                                                        RURAL
                                                        URBAN
                                   .900
                                   .100
                          FUEL  TYPE  10  - NATURAL SAS

                        CONTROLS!  NOX  *    .0000
                                  SOX  *    .0000
                          PARTICULATES  =    .0000
 I
-P>
00
POLLUTANT
  NOX
  SOX
  HC
  CO
  PART
  SULFAT
  POR HI
  BA
  BE
  B
  CR
  CO
  CU
  PB
  AN

  TOTAL
                                         NATURAL
                                         .2811+06
                                         .3625-01*
                                         .2250-01*
                                         .1136-02*
                                         .6000-01*
                                         ,fl82-01*
                                         .8977-01*
                                         .0000
                                         .0000
                                         .0000
                                         .0000
                                         .0000
                                         .0000
                                         .0000
                                         .0000
                .28109406
 RURAL
.1346+07
.3181+01*
.1*00+03*
.3501+01*
.10734-02*
.1731+00*
.10*0+01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.13161407
                                                                    GAUSSIAN  APPROXIMATED SOURCE
                                                                 EFFECTIVE  STACK HEIGHT =   30.00
                                                URBAN
                                               .2293+07
                                               .6931+01*
                                               .1840+03*
                                               .4001 + 1)1*
                                               .1273+02*
                                               .2536+00*
                                               .6590+01*
                                               .0000   *
                                               .0000   *
                                               .0000   *
                                               .0000   *
                                               .0000   *
                                               .0000   •
                                               .0000   *
                                               .0000   *

                                               .22927+07
POLLUTANT
  HG
  MO
  NI
  V
  ZN
  ZR
  AS
  BI
  AL
  SB
  CD
  SE
  P
  SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                       RURAL
                                                       URBAN
                                                                           IMPACT FACTORS
                                         SINGLE SOURCE
                                             30.07
                                             821.7
                                                               TOTAL IBPACT FACTOR  =
                                                      AVERAGE SOURCE IBPACT FACTOR  =
                                MULTIPLE  SOURCE
                                     .3283+06
                                     .1001+07

                                 .1329+07
                                 109.5
                                          *  RATIO OF HAXinUn SURFACE CONCENTRATION PLUS BACKGROUND  CONCENTRATION TO 10«  OF  HE6

-------
                                            TABLE F-l.    Continued
INVERSION HEIGHT
            tn>
                     1900.
                          1974 — IMPACT PARAMETERS
              MIND  SPEED =   4.500            RURAL POP.
                   IM/S)                        (P/KH2I
                                                                                    22.3*
                                                        URBAN POPL.
                                                          (P/KH2)
                                                                                                                 =   S39.T
  SECTOR  i - PACKAGED BOILERS
CONSUMPTION!  TOTAL
      SINGLE SOURCE
     POLLUTANT
       NOX
       SOX
       HC
       CO
       PART
       SULFAT
       POM HI
       8A
       BE
       B
       CR
       CO
       CU
       PB
       HN

       TOTAL
.1300    (1E15  KJ/TR)
.1804-03 I IE15  KJ/TR)
 EQUIP TYPE 203 -  SINGLE  BURNER  M-T  <29 HH
     FRACTION:   RURAL  =   .900
                URBAN  =   .100
  FUEL TTPE 11 - PROCESS 8AS

CONTROLS!  NOX a   .0000
           SOX *   .0000
  PARTICULATES *   .0000
NATURAL
.9787+06
.7287-01*
.2915-014
.1475-024
.7773-01«
.0000 <
.1163+00*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.2466+07
> .3198+0l«
1 .1800+03
I .2501+01
i .1074+02
1 .0000
t .4116+01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.4144+07
> .6948+01*
.1840+03*
.4001+01*
.1274+02*
.0000 *
.6616+01*
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
                     .37868+06
                                  .24661+07
   GAUSSIAN APPROXIMATED  SOURCE
EFFECTIVE STACK HEIGHT  =    30.00     (HI
                       POLLUTANT       NATURAL
                          HG            .0000
                          MO            .0000
                          NI            .0000
                          V            .0000
                          ZN            .0000
                          ZR            .0000
                          AS            .0000
                          BI            .0000
                          AL            .0000
                          SB            .0000
                          CO            .0000
                          SE            .0000
                          p            .0000
                          SR            .0000
                                              .41458+07
                                                                          RURAL        URBAN
                                                                         .0000         .0000
                                                                         .0000         .0000
                                                                         .0000         .0000
                                                                         .0000         .0000
                                                                         .0000         .0000
                                                                         .0000         .0000
                                                                         .0000         .0000
                                                                         .0000         .0000
                                                                         .0000         .0000
                                                                         .0000         .0000
                                                                         .0000         .0000
                                                                         .0000         .0000
                                                                         .0000         .0000
                                                                         .0000         .0000
                                   RURAL
                                   URBAN
                                                      IMPACT FACTORS
                      SINGLE SOURCE
                         55.09
                         1491.
                                          TOTAL IMPACT FACTOR
                                  AVERAGE SOURCE IMPACT FACTOR
                     MULTIPLE SOURCE
                          .3573+05
                          .1074+06

                      .1432+06
                      198.6
                         RATIO OF  MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 19* OF ME6

-------
                                                                 TABLE F-l.    Continued
                       INVERSION HEIGHT
                                   (Ml
                                            1500.
             1974  -- IMPACT PARAMETERS
WIND SPEED  =    4.500            RURAL POP.  =   22.34
     (M/SI                        

URBAN POPL. »P/KM2> » 399.7 SECTOR 2 - PACKAGED BOILERS EQUIP TYPE 203 - SIN6LE BURNER H-T <29 MW FUEL TTPE 15 - RESIDUAL OIL I cn o CONSUMPTION! TOTAL SINGLE SOURCE POLLUTANT NOX SOX HC CO PART SULFAT POM HI BA BE B CR CO CU PB flN B .5950 i .9989-04 NATURAL .6188+06 .6108+07 .8166-02* .4228-03* .4950+00* .1500-01* .0000 * .1111+00* .0000 * .2354-02* .1001+08 .6686+00* .2954+00* .4388+00* .1191-01* (1E15 KJ/TR) I1E15 KJ/YR) RURAL .2762+07 .14B4+08 .1600+03* .2500+01* .1116+02* .1462+00* .0000 * .6947+00* .0000 * .23S4-02* .1658+08 .6806+00* .7379+01* .8717+01* .2032-01* FRACTION: RURAL = URBAN s GAUSSIAN APPROXIMATED EFFECTIVE STACK HEIGHT s URBAN .4640+07 .2532+08 .1840+03* .4000+01* .1316+02* .2267+00* .0000 * .1195+01* .0000 • .2354-02* .2935+08 .8586+00* .6337+01* .4266+02* .6906-01* .700 .300 SOURCE 30.00 POLLUTANT HG HO NI V ZN ZR AS BI AL SB CD SE P SR CONTROLSI NOX x (H) NATURAL .0000 * .1191-01* .1016+09 .1565+08 .1872-01* .3744-02* .0000 * .0000 * .2765+00* .0000 * .0000 * .3404+00* .0000 * .1031-02* SOX = PARTICULATES a RURAL .0000 * .1191-01* .1114+09 .1584+08 .1531+01* .3744-02* .0000 * .0000 * .2472+06 .0000 * .0000 * .3404+00* .0000 * .1031-02* .0000 .0000 .0000 URBAN .0000 * .1191-01* .2507 + 1)9 .2154+03 .2372+01* .3744-02* .0000 .0000 .1705+01 .0000 .0000 .4244+00 .0000 .1031-1)2* TOTAL .13398+09 .16145+09 .33151+09 RURAL URBAN IMPACT FACTORS SINGLE SOURCE 3607. .1192+06 TOTAL IMPACT FACTOR = AVERA6E SOURCE IMPACT FACTOR = MULTIPLE SOURCE .1504+08 .2131+09 .2281+09 .3830+05 • RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG


-------
                                                                 TABLE  F-1.   Continued
                      INVERSION  HEIGHT
                                  cm
                                          1900.
                                           197<4 -- IMPACT PARAMETERS
                              WIND SPEED *   4.500            RURAL POP.  s
                                   01<
.3965*011
.16004-031
.25004-01
.1073+02
.1333+00
.3442+08
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
> .8918+01*
> .7715+01*
> .1840+03*
.4000+01*
.1273+02*
.2140+00*
.4691+08
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
 EQUIP TYPE 204 - SCOTCH  FIRETUBE    <29

     FRACTION!   RURAL  •   .660
                URBAN  =   .340

   GAUSSIAN APPROXIMATED  SOURCE
EFFECTIVE STACK HEIGHT =    20.00     IMI
  FUEL TYPE  9 • DISTILLATE OIL

CONTROLSl  NOX •   .0000
           SOX B   .0000
  PARTICIPATES «   .0000
 I
171
TOTAL
              .14433+08
                          .34420+08
                                       .469104-08
POLLUTANT
HG
no
HI
V
ZN
2R
AS
81
AL
SB
CD
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.00(10
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                        RURAL
                                                        URBAN
                                                                            IMPACT  FACTORS
                                      SINGLE SOURCE
                                          768.9
                                          .1687*05
                                                                TOTAL IMPACT FACTOR  *
                                                       AVERAGE SOURCE IMPACT FACTOR  =
                    MULTIPLE SOURCE
                          .8139+07
                          .9223+08

                      .1004+09
                      6243.
                                           *  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG

-------
                                                                  TABLE  F-l.   Continued
                      INVERSION HEIGHT
                                          1300.
                                              1971 -- IMPACT PARAMETERS
                                 MIND  SPEED =   4.500            RUKAL POP.
                                      
-------
                                                                  TABLE  F-l.   Continued
                      INVERSION HEIGHT s
                                  in)
                                          1900.
                                             1971 •- IMPACT PARAMETERS
                                 WIND  SPEED =   4.500            RURAL POP.
                                      IN/SI                         (P/KH21
                                                                                URBAN POP!..
                                                                                   {P/KH2I
                                                                                                                                       a  359.7
                        SECTOR   £  - PACKAGED BOILERS
                                                                   EQUIP TYPE 201 - SCOTCH FIRETUBE
                                                                                                       <29«N
 I
CJ1
co
                      CONSUMPTION!  TOTAL
                            SINGLE SOURCE
POLLUTANT
  NOX
  SOX
  HC
  CO
  PART
  SULFAT
  pon HI
  BA
  BE
  B
  CR
  CO
  CU
  PB
  (IN

  TOTAL
                   .1900-01
                   .6909-04
NATURAL
.1873406
.5763-03*
.2622-01*
.1326-02*
.5346-01*
.0000   *
.1608*09
.0000   *
.0000   *
.0000   •
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *

.16096+09
            I1E15 KU/TR)
            <1E19 KJ/YRI
                                                                       FRACTION)
              RURAL  s
              URBAN  8
,900
.100
                                                                                         FUEL TYPE 11
                                                                                       CONTROLS:
                                                                                                                                   PROCESS EAS
 RURAL
.8595+06
.3126*01*
.1600403*
.2SU1401*
.1072402*
.0000   *
.3496409
.0000
.0000
.0000 .
.0000
.0000
.0000
.0000
.0000

.35049409
                                                                     GAUSSIAN APPROXIMATED SOURCE
                                                                  EFFECTIVE STACK HEIGHT a   20.00
         NOX *   .0000
         SOX «   .0000
PARTICULATES •   .0000
                                                                                                      (Ml
 URBAN
.1157+07
.6676+01*
.1610+03*
.1001+01*
.1272+02*
.0000   *
.4677409
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *

.16912+09
                                                                                          POLLUTANT
                                                                                            HG
                                                                                            MO
                                                                                            NI
                                                                                            V
                                                                                            ZN
                                                                                            ZR
                                                                                            AS
                                                                                            BI
                                                                                            AL
                                                                                            SB
                                                                                            CO
                                                                                            SE
                                                                                            P
                                                                                            SR
               NATURAL
               .0000
               .0000
               .0000
               .0000
               .0000
               .0000
               .0000
               .0000
               .0000
               .0000
               .0000
               .0000
               .0000
               .0000
    RURAL
   .0000
   .0000
   .0000
   .0000
   .0000
   .0000
   .0000
   .0000
   .0000
   .0000
   .0000
   .0000
   .0000
   .0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                        RURAL
                                                        URBAN
                                                                            IMPACT FACTORS
                                         SINGLE SOURCE
                                            7630.
                                            .1667406
                                                                TOTAL IMPACT FACTOR a
                                                       AVERAGE SOURCE IMPACT FACTOR a
                                            MULTIPLE SOURCE
                                                 .1936407
                                                 .4610407

                                              .6576407
                                              .2392405
                                            •   RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION  TO  10X,OF MEG

-------
                                                                 TABLE  F-l.   Continued
                         INVERSION HEIGHT s
                                    IN)
                                             1900.
                              1974  --  IMPACT PARAMETERS
                 HIND SPEED  =    4.500            RURAL POP.
                      IH/SI                        (P/KN2I
                          SECTOR  2 • PACKA6EO BOILERS
                                                                      EQUIP TYPE 204 -  SCOTCH FIRETUBE
                        CONSUMPTION:  TOTAL *
                              SINGLE SOURCE >
cn
                             POLLUTANT
                               NOX
                               SOX
                               HC
                               CO
                               PART
                               SULFAT
                               POM HI
                               BA
                               BE
                               B
                               CM
                               CO
                               CU
                               PB
                               HN

                               TOTAL
   .9150    (1E15 KJ/TR)
   .3196-01 (1E19 KJ/TR)
                FRACTIONI  RURAL =
                          URBAN n
                       .700
                       .300
NATURAL
.1017*06
.1376+07
.6135-02*
.2126-03*
.3719+00*
.1127-01*
.1606+08
.6369-01*
.0000   *
.1769-02*
.2160+07
.5174+00*
.2219+00*
.3297+00*
.8951-02*

.46928+08
 RURAL
.4816+06
.3562+07
.1800+03*
.2500+01*
.1104+02*
.1425+00*
.4323+08
.6670*00*
.0000   *
.1768-02*
.3627+07
.5174+00*
.73115+01*
.5607+01*
.1735-01*

.79259+08
                                                                        GAUSSIAN APPROXIMATED  SOURCE
                                                                     EFFECTIVE STACK HEIGHT  z    20.00
 URBAN
.8196+06
.6186+07
.1840+03*
.4000+01*
.1304+02*
.2230+00*
.5396+06
.1167+01*
.0000   *
.1768-02*
.6473+07
.6874+00*
.6264+01*
.4255+02*
.6609-01*

.12928+09
POLLUTANT
  He
  HO
  NI
  V
  ZN
  ZR
  AS
  BI
  AL
  SB
  CO
  SE
  P
  SR
                                                                                                         IN)
22.34 URBAN POPL. a 359.7
(P/KM2)
IflH FUEL TTPE 13 -
CONTROLS! NOX *
SOX »
PARTICULATES *
NATURAL RURAL
.0000 * .0000 •
.6951-02* .6951-02*
.2164+00 .2472+08
.3587+07 .3632+07
.1407-01* .1527+01*
.2613-02* .2813-02*
.0000 • .0000 •
.0000 * .0000 •
.2077+00* .3213+09
.0000 • .0000 *
.0000 • .0000 •
.2557+00* .2557+00*
.0000 • .0000 *
.0000 • .0000 •
RESIDUAL OIL
.0000
.0000
.0000
URBAN
.0000 *
.8951-02*
.5210+06
.4746+07
.2367+01*
.2813-02*
.0000 •
.0000 •
.1636+01*
.0000 •
.0000 •
.3398+00*
.0000 •
.0000 *
                                                           RURAL
                                                           URBAN
                                                                               IMPACT  FACTORS
                         SINGLE  SOURCE
                             1771.
                             .4650+05
                                                                   TOTAL IMPACT FACTOR  a
                                                          AVERAGE SOURCE IMPACT FACTOR  *
                                MULTIPLE  SOURCE
                                     .3664+06
                                     .4125+09

                                 .4491+09
                                 .1519+05
                                              •  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACK6ROUNO CONCENTRATION TO  101  OF  ME6

-------
                                                                  TABLE  F-l.    Continued
                    INVERSION HEIGHT
                                Ifli
              1500.
             1974 •-  IMPACT  PARAMETERS
WIND SPEED a   4.300            RURAL POP.
                                  (P/KM2I
                                                                             22.34
                                                                                              URBAN POPL.
                                                                                                IP/KHZ I
                        S59.T
                      SECTOR  a . PACKAGED BOILERS
                   CONSUMPTION!  TOTAL «
                         SINSLE SOURCE »
                                                                 EQUIP TYPE  205  -  FIREBOX FIRETUBE   <2»
                 .4030    J1E15 KJ/TR)
                 .2564-04 (1EI» KJ/YR)
POLLUTANT
NOX
SOU
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
UN
NATURAL RURAL URBAN
.4694+00* .1889*01* .8889+01.
.7623+00* .3907+01* ,7657+01*
.2180-02* .1600+03* .ie
-------
                                                                  TABLE F-l.    Continued
                       INVERSION HEIGHT
                                   (HI
                                           1900.
                          1974 -- IMPACT PARAMETERS
              WIND SPEED =   4.500            RURAL POP.
                  IN/S)                        IP/KHZ>
                                                                                                          22.SU
                                        URBAN POPL.
                                          (P/KM2)
                                                                                                                                       r   359.7
                         SECTOR  2 - PACKAGED BOILERS
                                                                    EQUIP TTPE  205  - FIREBOX FIRETUBE   <29 MU
                                                                                                                    FUEL  TTPE  10  -  NATURAL  BAS
                       CONSUMPTION!  TOTAL
                            SINGLE SOURCE
                           POLLUTANT
                             NOX
                             SOX
                             HC
                             CO
                             PANT
                             SULFAT
                             PON HI
                             BA
                             BE
                             B
                             CR
                             CO
                             CU
                             PB
                             HN

                             TOTAL
.8990    (1E15 KJ/YR)
.4006-04  (1E15 KJ/TR)
                                                                        FRACTION:
RURAL
URBAN
.900
.100
                                           .00000
CONTROLS!  NOX
           sox
  PARTICULATES
.0000
.0000
.0000
NATURAL
. 0649+00
.3353-02
.1521-01
.7694-03
.3102-01
,0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RUKAL
.5385+01
.3128+01
,1«UO+03
.2501+01
.1070+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.9385+01
.6878+01
.1840+03
.4001+01
.1270+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                        .00000
                       GAUSSIAN APPROXIMATED SOURCE
                    EFFECTIVE STACK HEIGHT =   20.00
                                            POLLUTANT
                                              HG
                                              MO
                                              HI
                                              V
                                              ZN
                                              ZR
                                              AS
                                              BI
                                              AL
                                              SB
                                              CO
                                              SE
                                              P
                                              SR
                                                                     .00000
                                                                                                      in)
                        NATURAL
                        .0000
                        .0000
                        .0000
                        .0000
                        .0000
                        .0000
                        .0000
                        .0000
                        .0000
                        .0000
                        .0000
                        .0000
                        .0000
                        .0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
en
                                                         RURAL
                                                         URBAN
                                                                             IMPACT  FACTORS
                     SINGLE SOURCE
                         .0000
                         .0000
                                                                 TOTAL IMPACT  FACTOR  *
                                                        AVERAGE SOURCE IMPACT  FACTOR  =
     MULTIPLE SOURCE
          .0000
          .0000

      .0000
      .0000
                                            »  RATIO OF MAXIMUM SURFACE  CONCENTRATION  PLUS BACKGROUND CONCENTRATION TO 10» OF MEG

-------
                                                                 TABLE F-l.    Continued
                       INVERSION HEIGHT  r
                                   mi
                                            1900.
                                           1974 — IMPACT PARAMETERS
                              MIND SPEED *    .1600+03*
I .2501+OH
.1072+02*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.1114+07
1 .68A1+01
1 .1610+03
> . 4001+01
> .1272+02
,0000
.0000
,0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
I
Cn
                                                                      GAUSSIAN APPROXIMATED SOURCE
                                                                   EFFECTIVE STACK HEIGHT c   20.00
  FUEL TYPE 11 • PROCESS SA3

CONTROLS!  NOX z   .0000
           SOX *   .0000
  PARTICULATES «   .0000
                                                                                                       (HI
TOTAL
              .14626+06
                           .65870+06
POLLUTANT
HS
MO
NI
V
2N
ZR
AS
BI
AL
SB
CO
SE
P
SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
,0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                       .11142+07
                                                         RURAL
                                                         URBAN
                                                                             IMPACT FACTORS
                                      SINGLE SOURCE
                                          14.72
                                          400.8
                                                                 TOTAL IMPACT FACTOR
                                                        AVERAGE SOURCE IMPACT FACTOR
                   MULTIPLE SOURCE
                        3774.
                        .1142+05

                     .1520+05
                     53.32
                                             *  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10»  OF  MES

-------
                                                                 TABLE  F-l.    Continued
                        INVERSION HEISHT
                                    (HI
                                             1500.
                                           1974  —  IMPACT PARAMETERS
                              WIND SPEED 1   4.500            RURAL POP.
                                   (H/S)                       IP/KN2)
                                                                                                           22.SH
                                   URBAN  POPL. s
                                     IP/KHZ»
                                                                                                                                          559.7
                          SECTOR  2 - PACKAGED BOILERS
                                                                     EQUIP TYPE 209 - FIREBOX  FIRETU8E   <29 HM
                                                                                                                     FUEL  TYPE  13  •  RESIDUAL OIL
CONSUMPTION! TOTAL
SINGLE SOURCE



POLLUTANT
NOX
SOX
HC
CO
PART
SULFM
POM HI
BA
BE
B
CR
CO
CU
PB
UN
3 .6090
= .2965-04



NATURAL
.9599+05
.1211+07
.5730-02*
.2265-03*
,3474+00*
.1053-01*
,1619+08
.7817-01*
.0000 *
.1652-02*
.1910+07
.4832+00*
.2073+00*
.3079+00*
.6360-02*
(lElb KJ/YR)
(1E1S KJ/YR)



RURAL
.4765+06
.3161+07
.1600+03*
.2500+01*
.1101+02*
.1418+00*
.3862+08
.6615+00*
.0000 *
.1652-02*
.3217+07
.4832+00*
.7291+01*
.5586+01*
.1676-01*
FRACTIONS RURAL s
URBAN *

GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT *
URBAN
.6165+06
.5501+07
.1B40+03*
.4000+01*
.1301+02*
.2223+00*
.5264+06
.1162+01*
.0000 *
.1652-02*
.5755+07
.6532+00*
.6249+01*
.4253+02*
.6550-01*
.700
.300

SOURCE
20.00
POLLUTANT
H6
no
NI
V
2N
2R
AS
BI
AL
SB
CO
SE
P
SR

CONTROLS! NOX = .0000
SOX x .0000
PARTICULATES « .0000

(HI
NATURAL RURAL URBAN
.0000 * .0000 * .0000 >
.6360-02* .8360-02* ,6360-OZ*
.2022+08 .2219+06 .4676+0*
.3187+07 .3227+07 .4229+07
.1314-01* .1526+01* .2366+01*
.2626-02* .2628-02* .2628-02*
.0000
.0000
.1940+00
.0000
.0000
.2389+00
.0000
.0000
.0000
.0000
.9877+00
.0000
.0000
.2389+00
.0000
.0000
.0000 *
.0000 *
.1623+01*
.0000 •
.0000 *
.3229+00*
.0000 *
.0000 *

 I
in
00
TOTAL
              .42811+08
                           .70898+08
                                       .11571+09
                                                           RURAL
                                                           URBAN
                                                                              IMPACT FACTORS
                                      SINGLE SOURCE
                                          1584.
                                          .4162+05
                                                                  TOTAL IMPACT FACTOR =
                                                          AVERAGE SOURCE IMPACT FACTOR a
MULTIPLE SOURCE
     .2262+08
     .2547+09

 .2773+09
 .1399+05
                                              *  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION  TO  10» OF HE 6

-------
                                                                  TABLE F-l.    Continued
                      INVERSION HEIGHT
                                  tM>
              1900.
             1974 -- IMPACT  PARAMETERS
WIND SPEED =   4.590            RURAL POP.
     IH/Si                        (P/KHZ)
                                                                                                          22.34
         URBAN POPL.
           (P/Kn2l
                                                                                                                                       a  359.7
                        SECTOR  2 - PACKAGED BOILERS
                      CONSUMPTION!  TOTAL
                            SINGLE SOURCE
                 .2100-01  (1E15 KJ/YRI
                 .1951-03  I1E15 KJ/YR)
        (.QUIP TYPE 206 -  STOKER  FIRED  V-TUBE <29 MW

            FRACTIONI   RURAL  =   .763
                       URBAN  s   .240
 I
01
vo
TOTAL
  FUEL TYPE  1 - ANTHRACITE

CONTROLS:  NOX s   .0000
           SOX *   .0000
  PARTICULATES *   .1900
POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
B
CR
CO
CU
PB
MN
NATURAL
.2467+07
,1076+08
.5565-01*
.1707-01*
.1025+08
.1075-01*
.0000 *
.4095+00*
.5214+11
.1871-02*
.3050+09
.5138+07
.1061+07
.4946+00*
.2161+00*
RURAL
.8711+07
.2466+08
.1001+03*
.2517+01*
.5769+08
.1420+00*
.0000 *
.9928+00*
.5214+11
.1671-02*
.4525+09
.5138+07
.5868+07
.5772+01*
.2245+00*
URBAN
.1426+08
.4133+08
.1841+03*
.4017+1)1*
.6659+08
.2225+00*
.0000 *
.1493+01*
.5886+12
.1871-02*
.7388+09
.6279+07
.5161+07
.4272+02*
.2733+00*
                                                                      GAUSSIAN APPROXIMATED SOURCE
                                                                   EFFECTIVE  STACK HEI6HT =   30.00
                                                                                                      IMI
              .92476+11
                           .526964-11
                                       .58945+12
POLLUTANT
HG
MO
NI
V
ZN
ZR
AS
BI
AL
S8
CO
SE
P
SR
NATURAL
.7636+00*
.1184-01*
.1965+07
.1855+00*
.3923-01*
.2281-01*
.1184+000
.0000 *
.0000 *
.0000 *
.0000 *
,1662-01*
.0000 •
.0000 *
RURAL
.7636+00*
.1184-01*
.2625+07
.2141+00*
.1552+01*
.2281-01*
.1184+00*
.0000 *
.0000 •
.0000 •
.0000 *
.1662-01*
.0000 *
.0000 *
URBAN
.2264+01*
.1184-01*
.7109+07
.4544+00*
.2392+01*
.2281-01*
.1688+00*
.0000
.0000
.0000
.0000
.1007+00
.0000
.0000
                                                         RURAL
                                                         URBAN
                                                                             IMPACT FACTORS
                                      SINGLE SOURCE
                                          .1177+07
                                          .2120+09
                                                                 TOTAL  IMPACT FACTOR •
                                                        AVERAGE  SOURCE  IMPACT FACTOR *
                           MULTIPLE SOURCE
                                .9628+08
                                .5476+10

                             .5572+10
                             .5178+08
                                            •  RATIO OF MAXIMUM  SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10« OF MEG

-------
                                                                 TABLE  F-1.   Continued
                         INVERSION HEIGHT
                                     (Ml
                                              1500.
                              1974  --  IMPACT PARAMETERS
                 WIND SPEED =    1.500            RURAL POP.
                     MM/SI                        (P/KM2)
                           SECTOR  2 - PACKAGED  BOILERS
                                                                      EOUIP TYPE 206 - STOKER FIRED U-TUBE <29 MW
O1
O
                         CONSUMPTION!   TOTAL
                               SIN6LE  SOURCE
                              POLLUTANT
                                NOX
                                SOX
                                MC
                                CO
                                PART
                                SULFAT
                                PON  HI
                                BA
                                BE
                                B
                                CR
                                CO
                                CU
                                PB
                                MN

                                TOTAL
   1.533    (1E15 KJ/YR)
   ,1951-03 (1E15 KJ/YR)
                                                                          FRACTION!
                          RURAL
                          UHBAN
                       .590
                       .410
NATURAL
.2467*07
.9663*08
.3339+00*
.3095-02*
.1452+09
.3010-01*
.0000   •
.2967+00*
.3489+11
.2534+00*
.1556+00
.6030+00*
.3469+06
.9012+00*
.7381-01*

.35173+11
 RURAL
.8711+07
.1952+09
.1803+03*
.2504+01*
.6487+09
.1693+00*
.0000   *
.8801+00*
.3489+11
.2534+00*
.2484+08
.6030+00*
.2381+07
.6179+01*
.8222-01*

.35874+11
                                                                        6AUSSIAN APPROXIMATED SOURCE
                                                                     EFFECTIVE STACK HEIGHT =   30.00
                                                                                                         (M)
 URBAN
.1426+08
.3135+09
.1843+03*
,4004+01*
.7431+09
,2498+00*
.0000   *
.1380+01*
.5713+12
.2534+00*
.4206+06
.7730+00*
.2082+07
.4312+02*
.1310+00*

.57248+12
POLLUTANT
  HG
  MO
  NI
  V
  ZN
  ZR
  AS
  Bl
  AL
  S8
  CO
  SE
  P
  SR
22.34 URBAN POPL. = 359.7
IP/KH2I
19 MW FUEL TYPE 14 -
CONTROLS 1 NOX =
SOX =
PARTICULATES c
NATURAL RURAL
.6251+00* .6251+00*
.1104-01* .1104.01*
.4918+06 .7250+06
.5506+00* .5792+00*
.4322+00* .1945+01*
.3996-01* .3996-01*
.2061+00* .2061+00*
.2255-01* .2255-01*
.2261+08 .1035+09
.1846-01* .6846-01*
.5698+06 .6553+06
.1928+00* .1928+00*
.0000 * .0000 •
.0000 * .0000 *
BIT/LIG COAL
.0000
.0000
.1500
URBAN
.2125+01*
.1104-01*
.2675+07
.8195+00*
.2785+01*
.3996-Ul*
.2566+00*
.2255-01*
.3529+08
.1185+00*
.8681+07
.2769+00*
.0000 *
.0000 *
                                                           RURAL
                                                           URBAN
                                                                               IMPACT FACTORS
                         SINGLE SOURCE
                             .8014+06
                             .2059+09
                                                                   TOTAL IMPACT FACTOR
                                                          AVERAGE SOURCE IMPACT FACTOR
                                MULTIPLE  SOURCE
                                     .3714+10
                                     .6639+12

                                 .6670+12
                                 .6490+08
                                               •  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO IOC OF HE6

-------
                                         TABLE  F-l.    Continued
INVERSION HEIGHT
                     1900.
                                     1974  --  IMPACT  PARAMETERS
                        WIND SPEED =   4.500             RURAL POP.
                             
                                                                                                                    359.7
  SECTOR  t
CONSUMPTION!  TOTAL x
      SINGLE SOURCE =
PACKAGED BOILERS

          .1810
                                             EQUIP TYPE 208 - CAST IRON BOILERS
                                                                                              FUEL TTPE  9 • DISTILLATE OIL
                   (1E15 KJ/TR)
                   (1E15 KJ/TR)
FRACTIONI  RURAL =
           UHBAN s
                                    .600
                                    .400
     POLLUTANT
       NOX
       SOX
       HC
       CO
       PART
       SULFAT
       pen HI
       BA
       BE
       B
       CS
       CO
       CU
       PB
       m

       TOTAL
       NATURAL
       .6993-01*
       •1405+00*
       .4455-03*
       .1658-04*
       .5111-02*
       .3819-03*
       .0000   *
       .0000   *
       .0000   *
       .0000   *
       .0000   *
       .0000   »
       .0000   *
       .0000   *
       .0000   *

       .00000
 RURAL
.4570+01*
.3266+01*
.18004-03*
,2500+01*
.1067+02*
.1316+00*
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   •
.0000   •
.0000   *

.00000
                                                GAUSSIAN APPROXIMATED SOURCE
                                             EFFECTIVE STACK HEIGHT a   20.00
                                             CONTROLSI  NOX
                                                        SOX
                                               PARTICULATtS
 URBAN
.8570+01*
.7016+01*
.1840+03
.4000+01
.1267+02
.2121+00
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
POLLUTANT
  HG
  HO
  NI
  V
  ZN
  ZR
  AS
  61
  AL
  SB
  CO
  SE
  P
  SR
                                   NATURAL
                                   .0000
                                   .0000
                                   .0000
                                   .0000
                                   .0000
                                   .0000
                                   .0000
                                   .0000
                                   ,0000
                                   .0000
                                   .0000
                                   ,0000
                                   .0000
                                   .0000
 RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                           .0000
                                           .0000
                                           .0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                   RURAL
                                   URBAN
                                                      IMPACT FACTORS
                                SINGLE  SOURCE
                                    .0000
                                    .0000
                                          TOTAL IMPACT FACTOR
                                  AVERAGE SOURCE IMPACT FACTOR
                               MULTIPLE SOURCE
                                    .0000
                                    .0000

                                .0000
                                .0000
                      *  RATIO OF  MAXIMUM  SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO  10»  OF  MEG

-------
                                                                  TABLE F-l.    Continued
                         INVERSION HEIGHT
                                     (Ml
 1900.
                  197*  --  IMPACT PARAMETERS
     WIND SPEED  =    4.500            HURAL POP.
          (fl/S)                        IP/KH2).
                                                               22.34
                                                                                URBAN POPL.
                                                                                  4P/KH2)
                                                                                            *  359.T
                           SECTOR  2 • PACKAGED BOILERS
                                                                      teuiP TYPE 20B - CAST IRON BOILERS
                         CONSUMPTION!   TOTAL  =
                               SINGLE  SOURCE  =
   .2610
   .7173-05
(1E19 KJ/TRI
(1E1S KJ/TR)
FRACTION:
           RURAL
           UKBAN
.700
.300
O1
ro
                              POLLUTANT
                                NOX
                                SOX
                                HC
                                CO
                                PART
                                SULFAT
                                PON HI
                                BA
                                BE
                                B
                                CR
                                CO
                                CU
                                PB
                                NN

                                TOTAL
NATURAL
.0261-01*
.6004-03*
.4163-02
.1377-03
.3629-02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
                                                          .00000
              GAUSSIAN APPROXIMATED SOURCE
            EFFECTIVE STACK HEIGHT i   20.00    (Ml
                                   POLLUTANT       NATURAL
                                     HG            .0000
                                     NO            .0000
                                     NI            .0000
                                     v             .0000
                                     ZN            .0000
                                     ZR            .0000
                                     AS            .0000
                                     BI            .0000
                                     AL            .0000
                                     SB            .0000
                                     CO            .0000
                                     SE            .0000
                                     P             .0000
                                     SR            .0000
                                                                       .00000
  FUEL TTPE 10 - NATURAL BAS

CONTROLSI  NOX *   .0000
           SOX *   .0000
  PARTICULATES *   .0000
RURAL URBAN
.45834-01* .8583+01*
.3126+01* .6876+01
.1600+03* .1BOO+03
.2500+01* .4000+01
.1067+02* .1267+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.01)00
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                RURAL        URBAN
                                               .0000        .0000
                                               .0000        .0000
                                               .0000        .0000
                                               .0000        .0000
                                               .0000        .0000
                                               .0000        .0000
                                               .0000        .0000
                                               .0000        .0000
                                               .0000        .0000
                                               .0000        .0000
                                               .0000        .0000
                                               •0000        .0000
                                               .0000        .0000
                                               .0000        .0000
                                                           RURAL
                                                           URBAN
                                                                               IMPACT FACTORS
                        SINGLE SOURCE
                            .0000
                            .0000
                                                                   TOTAL  IMPACT FACTOR «
                                                          AVERAGE SOURCE  IMPACT FACTOR «
                                MULTIPLE SOURCE
                                     .0000
                                     .0000

                                 .0000
                                 .0000
                                                 RATIO  OF  MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF MEG

-------
                                                                 TABLE  F-l.   Continued
                        INVERSION  HE16HT
                                            1500.
                1974 -- IMPACT PARAMETERS
    HIND SPEE-D =   4.500            RURAL POP.
         (n/SI                        (P/KH2I
                                    URBAN  POPL.
                                      IP/KM2I
                                                                                                                                        i  S59.7
                          SECTOR  2  •  PACKAGED BOILERS
                        CONSUMPTION!   TOTAL
                              SIN6LE  SOURCE
                             POLLUTANT
                               NOSt
                               SOX
                               HC
                               CO
                               PART
                               SULFAT
                               POH HI
                               8A
                               BE
                               B
                               CR
                               CO
                               CU
                               PB
                               HN

                               TOTAL
                                                                     EQUIP TYPE 206 - CAST  IRON  BOILERS
.1950
i .5527-05
(1E15 KJ/YR)
(If IS KJ/YR)
FRACTION:

RURAL = .600
URBAN * .400
GAUSSIAN APPROXIMATED SOURCE

NATURAL
.2270+00*
.7133+00*
.1061-02*
.4195-04*
.6432-01*
.1949-02*
.0000 *
.1447-01*
.0000 •
.0000 *
.9640+00*
.8947-01*
.3638-01*
.5702-01*
.1548-02*

RURAL
.4727+01*
.3868+01*
.1800+03*
.2500+01*
.1073+02*
.1332+00*
.0000 *
.5976+00*
.0000 *
.0000 *
.2462+01*
.6947-01*
.7122+01*
.5335+01*
.9951-02*
EFFECTIVE STACK
URBAN
.8727+01*
.7616+01*
.1840+03*
.4000+01*
.1273+02*
.2137+00*
.0000 *
.1096+01*
.0000 *
.0000 «
,5332+01*
.2595+00*
.6080+01*
.4226+02*
.5869-01*
HEIGHT * 20.00
POLLUTANT
HG
HO
NI
V
?.N
ZR
AS
BI
AL
SB
CO
SE
P
SR

                                                            FUEL TYPE  19  -  RESIDUAL OIL

                                                          CONTROLSI . NOX  =    .0000
                                                                    SOX  «    .0000
                                                            PARTICULATES  s    .0000
                                             .15603+07
                                                                                                        (HI
.16684+07
             .46975+07
NATURAL
.0000 *
.1548-02*
.1440+07
.1203+06
.2433-02*
.0000 •
.0000 «
.0000 •
.3592-01*
.0000 *
.0000 *
.4423-01*
.0000 *
.0000 *
RURAL
.0000
.1546-02
.1745+07
.1232+06
.ISlS+Oli
.0000
.0000
.0000
.8296+00
.0000
.0000
.4423-01
.0000
.0000
URBAN
» .0000 *
> .1548-02*
.4466+07
.2317+06
> .2355+01*
.0000 *
.0000 *
.0000 *
.1464+01*
.0000 *
.0000 *
.1263+00*
.0000 *
.0000 *
CO
                                                          RURAL
                                                          URBAN
                                                                              IMPACT FACTORS
            SINGLE SOURCE
               41.74
               1690.
                                                                  TOTAL IMPACT FACTOR
                                                         AVERAGE SOURCE IMPACT FACTOR
MULTIPLE SOURCE
     .8835+06
     .2384+06

 .2473+08
 700.9
                                              *   RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF MEG

-------
                                                                TABLE F-l.    Continued
                         INVERSION HEIGHT
                                     (HI
                                              1900.
             1974 --  IMPACT PARAMETERS
HIND SPEED  =    it.500            RURAL POP.
     
-------
                                                                  TABLE  F-1.   Continued
                        INVERSION HEI6HT
                                    INf
                                            1900.
                              1974 --  IMPACT  PARAMETERS
                 WIND SPEED =   4.500             RURAL  POP.
                      (M/SI                        (P/KM2I
                         SECTOR   2  . PACKAGED BOILERS
                         EQUIP TYPE 209 - STOKER  F-T  BOILER
                        CONSUMPTIONS  TOTAL
                              SINGLE SOURCE
                             POLLUTANT
                               NOX
                               SOX
                               HC
                               CO
                               PART
                               SULFflT
                               Pori  HI
                               8A
                               6E
                               B
                               CR
                               CO
                               CU
                               f>B
                               HN

                               TOTAL
   .5560    (1E15 KJ/YR>
   .2447-04 (1E15 KJ/TR)
FRACTIONI  RURAL *
           UNBAN s
.990
.410
                                                                       GAUSSIAN APPROXIMATED SOURCE
                        EFFECTIVE STACK HEIGHT *   20.00
NATURAL       RURAL        URBAN                POLLUTANT
.9778+00*    .5478+01*    .9478+01*               HG
.5456+07     .1242+08     .2076+08                HO
.9832-01*    .1801+03*    .1841+03*               N!
.1147-02*    .2501+01*    .4001+01*               V
.8008+07     .3974+08     .4569+08                ZN
.1122-01*    .1425+00*    .2229+00*               ZR
.1453+07     .4251+07     .6001+07                AS
.8738-01*    .6707+00*    .1171+01*               BI
.3077+10     .3077+10     .1543+12                AL
.7463-01*    .7463-01*    .7463-01*               SB
.6967+06     .1276+07     .2400+07                CO
.1776+00*    .1776+00*    .3476+00*               SE
.4029+00*    .7486+01*    .6445+01*               P
.2654+00*    .5543+01*    .4249+02*               SR
.2174-01*    .3014-01*    .7888-01*

.90934+10    .31406+10    .15454+12
                                                                                                        (Ml
22.3* URBAN POPL. • 3S9.7
(P/KM2)
MM FUEL TTPE It •
CONTROLS! NOX *
SOX «
PARTICIPATES *
NATURAL RURAL
.0000 * .0000 *
.3231-02* .3251-02*
,1631*00* .6084+00*-
,1621*008 .1907*00*
.1273+00* .1640+01*
.1177-01* . 1177.01*
.6070-01* .6070-01*
.0000 • .0000 «
.1067+37 .6197+07
.0000 * .0000 *
.4917+00* .9667+00*
.5679-01* .5679-01*
.0000 * .0000 •
.0000 * .0000 •
BIT/LI6 COAL
.0000
.0000
.1500
URBAN
.0000 *
.3251-02*
.9002+uS
.1310+00*
.2*80+01*
.1177-01*
.1111+00*
.0000 *
.1856+07
.0000 *
.4959+04
.1408+00*
.0000 *
.0000 *
Ol
                                                          RURAL
                                                          URBAN
                                                                              IMPACT FACTORS
                         SINGLE  SOURCE
                             .7016+05
                             .5552+08
                                                                  TOTAL IMPAct FACTOR •
                                                         AVERAGE SOURCE IMPACT FACTOR 3
                MULTIPLE  SOURCE
                     .9409+09
                     .5171+12

                 .9181+12
                 .2280+08
                                              •  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION  TO 10S OF HE6

-------
                                                                  TABLE  F-l.   Continued
                       INVERSION HEIGHT
                                   (Ml
                1900.
                             1971 — IMPACT PARAMETERS
                 WIND  SPEED =   4.500            RURAL POP.
                      CM/SI                        IP/KHZ)
                                                                                                          22.3*1
                                                      URBAN POPL.
                                                        IP/KHZ)
                                                                                                                                       =  a&9.7
                        SECTOR  2 - PACKAGED BOILERS
                                                                    EQUIP TYPE 210 -  HRT  BOILERS   <29 MU
                                                                                                                    FUEL TYPE  9 - DISTILLATE OIL
-n
01
en
                      CONSUMPTIONS  TOTAL
                            SINGLE SOURCE
POLLUTANT
  NOX
  SOX
  HC
  CO
  PART
  SULFAT
  POM HI
  BA
  BE
  B
  CR
  CO
" cu
  PB
  ON

  TOTAL
                   .2630    (1E19 KJ/YRl
                   .2964-04 (1E19 KJ/YR)
                                                                        FRACTION!
                                       RURAL -
                                       URBAN E
                       .660
                       .340
                                           NATURAL
                                           .3894+00*
                                           .7660+00*
                                           .2307-02*
                                           .9606-04*
                                           .3000-01*
                                           .2127-02*
                                           .1269+06
                                           .0000
                                           .0000
                                           .0000
                                           .0000
                                           .0000
                                           .0000
                                           .0000
                                           .0000
.12894+06
              RURAL
             .4669+01*
             .3911+01*
             .1600+03*
             .2500+01*
             .1070+02*
             .1334+00*
             .3071*06
             .0000
             .0000
             .0000
             .0000
             .0000
             .0000
             .0000
             .ogoo

             .30706+08
                                                         RURAL
                                                         URBAN
                                                                      GAUSSIAN APPROXIMATED SOURCE
                                                                   EFFECTIVE STACK HEIGHT *   20.00
                        CONTROLS!  NOX
                                  SOX
                          PARTICULATES
                                                                                                       in)
 URBAN
.6669+01*
.7661+01*
.1640+03*
.4000+01*
.1270+02*
.2139+00*
.4164+06
.0000   *
.0000   *
.0000   •
.0000   *
.0000   *
.0000   *
.0000   *
.0000   •

.41639+06
POLLUTANT
  HG
  HO
  NI
  V
  ZN
  ZR
  AS
  BI
  AL
  SB
  CO
  SE
  P
  SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                           .0000
                           .0000
                           .0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                             IMPACT FACTORS
                                         SINGLE  SOURCE
                                             666.0
                                             .1505+09
                                                                 TOTAL IMPACT FACTOR
                                                        AVERAGE SOURCE IMPACT FACTOR
                                            MULTIPLE SOURCE
                                                  .4607+07
                                                  .5207+08

                                              .5668+08
                                              SS70.
                                            •  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO lp» OF  MEG

-------
                                         TABLE  F-l.   Continued
INVERSION HEIGHT
                     1900.
                              1974  —  IMPACT  PARAMETERS
                 WIND SPEED =   
-------
                                                                 TABLE F-1.   Continued
INVERSION  HEIGHT s   1500.
                                                                            197H  .. mPACT PARAMETERS
                                                               WIND SPEED =   4.500            RURAL POP.
                                                                    
                                                                                  22.34
         URBAN  POPL.
           IP/KH2I
                                                                                                              «  359.7
                            SECTOR  2 - PACKAGED BOILERS
                          CONSUMPTIONI  TOTAL
                                SINGLE SOURCE
                               POLLUTANT
                                 NOX
                                 SOX
                                 HC
                                 CO
                                 PART
                                 SULFAT
                                 POM HI
                                 BA
                                 BE
                                 B
                                 CR
                                 CO
                                 CU
                                 PB
                                 nn

                                 TOTAL
                                            EQUIP TTPE 210 - HRT BOILERS   <29
r .9700
> .2985-04


NATURAL
.9625*05
.1211*07
.5997-02*
.2265-03*
.7374+00*
.1053-01*
.1619+08
.7817-01*
.0000 *
.1652-02*
.1910+07
.4832+00*
.2073+00*
.3079+00*
.8360-02*
I1E15 KJ/YRt
I1E15 KJ/YRI


RURAL
.4787+06
.3161+07
,1800+03*
.2500+01*
.1140+02*
.1418*00*
,3862*08
,6615*00*
,0000 *
,1652-02*
.3217+07
.4832*00*
,7291+01*
,5586+01*
,1676-01*
FRACTIONS RURAL s
URBAN •
GAUSSIAN APPROXIMATED
EFFECTIVE STACK HEIGHT «
URBAN
.8187+06
.5501+07
.1840*03*
.4000*01*
.1340*02*
.2223*00*
.5264*08
.1162*01*
.0000 *
.1652-02*
.5755+07
.6532+00*
.6249+01*
.4253+02*
.6550-01*
.700
.300
' SOURCE
20.00
POLLUTANT
HG
, no
NI
V
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR

  FUEL TYPE  15  -  RESIDUAL OIL

CONTROLS!   NOX  z    .0000
           SOX  *    .0000
  PARTICULATES  *    .0000
POLLUTANT
HG
, no
NI
V
ZN
ZR
AS
BI
AL
SB
CD
SE
P
SR
NATURAL
.0000 »
.8360-024
.2022*08
.3187*07
. 1314-011
.2628-021
.0000 <
.0000 <
.1940+001
.0000 <
.0000 <
.2389+001
.0000 l
.0000 <
RURAL
. .0000 •
> .6360-02*
.2219*08
.3227*07
> .1526*01*
> .2628-02*
> .0000 *
> .0000 *
> .9877*00*
» .0000 *
t .0000 •
» .2389*00*
1 .0000 *
• .0000 *
URBAN
.0000 •
.8360-02*
.4676*08
.4229*07
.2366*01*
.2628-02*
.0000 •
.0000 •
.1623*01*
.0000 •
.0000 •
.3229*00*
.0000 *
,0000 *
                                               .1*2811+08    .70896*08
                                                                        .11571+09
CO
                                                                                IMPACT FACTORS
SINGLE SOURCE
RURAL 158*.
URBAN .4162+09
TOTAL IMPACT FACTOR a
AVERAGE SOURCE IMPACT FACTOR *
MULTIPLE SOURCE
.1374+08
.1548+09
.1685+09
.1359+05

-------
                                                                 TABLE  F-l.   Continued
                       INVERSION  HEIGHT
                                   IN)
                1500.
                              1974  --  IMPACT PARAMETERS
                 WIND  SPEED  =    4.500            RURAL POP.
                      IN/SI                         (P/KH2I
                                                                               22.3*
                                                                   URBAN POPL.
                                                                     (P/KM2I
                                                                                                               399.7
                         SECTOR  2  •  PACKAGED  BOILERS
                                        EQUIP TYPE 211 • Res/conn STEAK * HOT MAT
                       CONSUMPTION:   TOTAL  *
                             SINGLE  SOURCE  »
                   .1400-01  (1E19 KJ/YRI
                   .2025-06  I1E19 KJ/YRI
                            FRACTION!  RURAL
                                       URBAN
                                    .760
                                    .240
 I
CTi
VO
POLLUTANT
  NOX
  SOX
  HC
  CO
  PART
  SULFAT
  POM HI
  BA
  BE
  a
  CR
  CO
  CU
  PB
  HN

  TOTAL
NATURAL
.2770-06*
.6778-06*
.4743-06*
.2132-06*
.6323-06
.8950-09
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
      WIDTH

 RURAL
.4500+01*
.3125+01*
.1600+03*
.2500+01*
.1067+02*
.1312+00*
.0000   •
.0000   •
.0000   •
.0000   *
.0000   •
.0000   *
.0000   *
.0000   •
.0000   *

.00000
                                                                           DISTRIBUTED SOURCE
                                                                        .7914+05            LENGTH
                                               FUEL TYPE  1 - ANTHRACITE

                                             CONTROLSI  NOX »   .0000
                                                        SOX *   ,0000
                                               PARTICIPATES *   .0000
 URBAN
.6500+01*
.6675+01*
,18tO+03»
.4000+01*
.1267+02*
.2117+00*
.0000   *
.0000   *
.0000
.0000
,0000
.0000
.0000
.0000
.0000

,00000
                                                                                           POLLUTANT
                                                                                             H6
                                                                                             no
                                                                                             NI
                                                                                             V
                                                                                             ZN
                                                                                             ZR
                                                                                             AS
                                                                                             BI
                                                                                             AL
                                                                                             SB
                                                                                             CO
                                                                                             SE
                                                                                             P
                                                                                             SR
.7944+03

    NATURAL
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
 RURAL        URBAN
.0000        .0000
.0000        .0000
.0000        .0000
.0000        .0000
.0000        .0000
.0000        .0000
.0000        .0000
.0000        .0000
.0000        .0000
.0000        .0000
.0000        .0000
.0000        .0000
.0000        .0000
.0000        .0000
                                                                             IMPACT FACTORS
                                                         RURAL
                                                         URBAN
                                         SINGLE SOURCE
                                             .0000
                                             .0000
                                                                 TOTAL IMPACT FACTOR =
                                                        AVERAGE SOURCE IMPACT FACTOR «
                                            MULTIPLE SOURCE
                                                 .0000
                                                 .0000

                                             .0000
                                             .0000
                                             •  RATIO  OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO
                                                                                                                          OF ME 6

-------
                                          TABLE  F-l.   Continued
INVERSION HEIGHT *   1900.
                                                  1974 — IMPACT PARAMETERS
                                      HIND SPEED =   4.500            RURAL POP.
                                          iH/S>                        IP/KH2I
                                                                                    22.34
                                                      URBAN POPL.
                                                        IP/KH2)
                                                                                                                   559.7
  SECTOR  2 - PACKAGED BOILERS
                                             EQUIP TYPE 211 - RES/COMH STEAM * HOT UAT
                                                                                              FUEL  TYPE   9  - DISTILLATE  OIL
CONSUMPTIONt  TOTAL
      SINGLE SOURCE
     POLLUTANT
       NOX
       SOX
       HC
       CO
       PART
       SULFAT
       POM HI
       BA
       BE
       B
       CR
       CO
       CU
       PB
       MN

       TOTAL
                        .8800     (1E15 KJ/TR)
                        .2025-06  I1E1S KJ/YR)
                     NATURAL
                     .B497-07*
                     .2099-06*
                     .7307-08
                     .4712-09
                     .1986-07
                     .5699-09
                     .0000
                     .0000
                     .0000
                     .0000
                     .0000
                     .0000
                     .0000
                     .0000
                     .0000

                     .00000
      UIDTH

 RURAL
.4500*01*
.3129*01*
.1800*03*
.2500*01*
.1067*02*
.1312*00*
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *

.00000
                                                 FRACTIONS
              RURAL
              URBAN
 .600
 .400
            CONTROLS!  NOX
                      SOX
              PARTICULATE8
                                                    DISTRIBUTED SOURCE
                                                  .7944*09            LENGTH a
 URBAN
.8500+01*
.6679*01*
.1810*03
.4000*01
.1267*02
.2117*00
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
POLLUTANT
  HG
  no
  NI
  V
  ZN
  ZR
  AS
  BI
  AL
  SB
  CO
  SE
  P
  SR
.7944*05

    NATURAL
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .01)00
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
 RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
              .0000
              .0000
              .0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                   RURAL
                                   URBAN
                                                       IMPACT FACTORS
                                             SINGLE SOURCE
                                                  .0000
                                                  .0000
                                          TOTAL IMPACT FACTOR =
                                 AVERAGE SOURCE IMPACT FACTOR =
                   MULTIPLE SOURCE
                        .0000
                        .0000

                    .0000
                    .0000
                      *   RATIO  OF  MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10X OF HEB

-------
                                                                 TABLE  F-l.   Continued
                       INVERSION HEIGHT a
                                   (HI
                1500,
                              197*  —  tflPACT PARAHCTERS
                 WIND SPEED B   H.SOO             RURAL POP.
                      (H/SI                        IP/KH2)
                                                                                                           42.34
                                                                   URBAN POPL.  «
                                                                      (P/KH2I
                                                                                                                                            359.7
                         SECTOR  z - PACKAGED BOILERS
                       CONSUMPTION!  TOTAL *
                             SINGLE SOURCE *
                   .7370     (1E1S  KJ/YR)
                   .1079-06 (1E15  KtJ/YR)
                         teuiP TYPE  211  •  RESXCOHH  STEAM  * HOT WAT

                             FRACTIONI   RURAL  a   .790
                                        UK8AN  »   .300
                                                                                                                     FUEL  TYPE  10  -  NATURAL  GAS
                                                          CONTROLS!  NOX
                                                                     SOX
                                                            PARTICULATES
                                                               WIDTH
                                                                            DISTRIBUTED SOURCE
                                                                         .79*1+03            LENGTH
 I
-vl
POLLUTANT
  NOX
  SOX
  HC
  CO
  PART
  SULMT
  PON HI
  BA
  BE
  B
  CR
  CO
  CU
  PB
  m

  TOTAL
NATURAL
.2831-07*
.0000   *
.2799-06*
.7079-10
.9719-08
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
 RURAL
.1*900+01*
.0000
.1600+03
.2500+01
.1067+02
,0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
 URBAN
.8500+01*
.0000   *
.1640+03*
.11000+01*
.1267+02*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
                                                                                            POLLUTANT
                                                                                              H6
                                                                                              no
                                                                                              ZN
                                                                                              2R
                                                                                              AS
                                                                                              BI
                                                                                              AL
                                                                                              SB
                                                                                              CO
                                                                                              SE
                                                                                              P
                                                                                              SR
.7944+05

    NATURAL
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
 RURAL
,0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                 .0000
                                                                 .0000
                                                                 .0000
 URBAN
.0000   *
.0000
,0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                              IMPACT FACTORS
                                                          RURAL
                                                          URBAN
                                         SINGLE  SOURCE
                                             .0000
                                             .0000
                                                                  TOTAL IMPACT FACTOR »
                                                         AVERAGE SOURCE IMPACT FACTOR -
                                            MULTIPLE SOURCE
                                                 .0000
                                                 .0000

                                              .0000
                                              .0000
                                             •  RATIO OF MAXIMUM SURFACE CONCENTRATION  PLUS BACKGROUND CONCENTRATION TO
                                                                                                                           OF NE6

-------
                                                                  TABLE F-l.    Continued
                        INVERSION HEIGHT
                                    CM)
                                             1900.
                          1974 •- IMPACT PARAMETERS
              WIND SPEED »   4.500            RURAU POP.
                  «M/S(                        IP/KHZ)
                                                                                                           22.34
                                                       URBAN POPL.
                                                         IP/KHZ)
                                                                                                                                        »  3S9.7
                          SECTOR  f •  PACKAGED  BOILERS
ro
                        CONSUMPTIONI   TOTAL
                              SIN6LE  SOURCE
                             POLLUTANT
                               NOX
                               SOX
                               HC
                               CO
                               PART
                               SULFAT
                               POB HI
                               BA
                               BC
                               B
                               CR
                               CO
                               CU
                               PB
                               flN

                               TOTAL
.1100-01 (1C15 KJ/TRt
.2029*06 (1E19 KJ/TR>
EOUIP TTPE 211  -  RES/COMH STEAH + HOT WAT

    FRACTION:   RURAL  =   .590
               UHBAN  m   .410
                                                                                                                     FUEL TTPE 14 - BIT/LIE COAL
CONTROLS I  NOX
           SOX
  PARTICULATES
.0000
.0000
.0000
NATURAL
.2770-06
.2665-05
.5534-06
.2491-07
.7376-06
.3173-08
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
• .4500+01*
• .3123+01*
.1800+03*
.2500+01*
.1067+02*
.1312+00*
.0000 , *
.0000 *
.0000 *
.0000 •
.0000 *
.0000 *
.0000 *
.0000 *
.0000 *
URBAN
.6500+01*
.6875+01*
.1640+03
.4000+01
.1267+02
.2117+00
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                            DISTRIBUTED SOURCE
                                                               WIDTH »   .7944+05            LENGTH
                                            POLLUTANT
                                              He
                                              no
                                              NI
                                              V
                                              ZN
                                              ZR
                                              AS
                                              BI
                                              AL
                                              SB
                                              CD
                                              SE
                                              P
                                              SR
                                                                                                        .7944+05
NATURAL
.0000
.0000
.0000
.0000
.3600-07
.0000
.0000
.0000
.1067-05
.0000
.0000
.0000
.0000
.0000
RURAL
.0000 <
.0000
.0000
.0000
.1513+01
.0000
.0000
.0000
.7937+00
.0000
.0000
.0000
.0000
.0000
URBAN
.0000 *
.0000
.0000
.0000
.2353+01
.0000
.0000
.0000
.1429+01
.0000
.0000
.0000
.0000
.0000
                                             .00000
                                                          .00000
                                                                      .00000
                                                          RURAL
                                                          URBAN
                                                                              IMPACT FACTORS
                     SINGLE SOURCE
                         .0000
                         .0000
                                                                  TOTAL IMPACT FACTOR a
                                                         AVERAKC SOURCE IMPACT FACTOR *
                    MULTIPLE SOURCE
                         .0000
                         .0000

                     .0000
                     .0000
                                              *  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION  TO  10« OF NEC

-------
                                                                  TABLE  F-l.   Continued
                      INVERSION HEIGHT
                                  tni
                                           1500.
                              1974  —  IMPACT  PARAMETERS
                 HIND SPEED =    4.500             RURAL POP.  =
                      CH/S)                        (P/KM2I
                                                  22.34
                                                                   URBAN POPL. =  359.7
                        SECTOR  2 -  PACKAGED BOILERS
                      CONSUMPTION:   TOTAL  *
                            SINGLE  SOURCE  *
   .6900-01 I1E15 KJ/YR)
   .2025-06 I1E15 KJ/YR)
            EQUIP  TYPE  211  - KES/COmi STEAM * HOT MAT

                FRACTION I   RURAL =   .600
                           URBAN a   .400
                                                                                                                    FUEL TYPE 15 - RESIDUAL OIL
                                             CONTROLS!  NOX *
                                                        SOX *
                                               PARTICULATES *
 I
-^1
CO
                           POLLUTANT
                             NOX
                             SOX
                             HC
                             CO
                             PART
                             SULFAT
                             POfl Hi
                             BA
                             BE
                             B
                             CR
                             CO
                             CU
                             PB
                             TOTAL
NATURAL
.2503-06*
.9288-06*
.1650-06*
.2391-09*
.1710-06*
.2441-08*
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   •
.0000   •

.00000
                                                              MIOTH
                                                                           DISTRIBUTED SOURCE
                                                                        .7944+05            LENGTH e
                                                                                                      .7944+05
 RURAL
.1500+01*
.3125+01*
.1800+03*
.2500+01*
.1067+02
.1312+00
.0000
.0000
,0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
 URBAN
.8500+01*
.6875+01*
.1640+03*
.4000+01*
.1267+02*
.2117+00*
.0000   *
.0000   *
,0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *

.00000
POLLUTANT
  HS
  NO
  NI
  V
  ZN
  ZR
  AS
  BI
  AL
  SB
  CO
  SE
  p
  SR
NATURAL
.0000
.0000
.5633-05
.1661-05
.0000
.0000
.0000
.0000
.4498-07
.0000
.0000
.0000
.0000
.0000
 RURAL
.0000
.0000
.1453+00
.2857-01
.0000
.0000
.0000
.0000
.7937+00
.0000
.0000
.0000
.0000
.0000   *
                                           .0000
                                           .0000
                                           .0000
 URBAN
.0000   *
.0000
.6410+00
.2689+00
.0000
.0000
.0000
.0000
.11*29+01
.0000
.0000
.0000
.0000
.0000
                                                         RURAL
                                                         URBAN
                                                                            IMPACT FACTORS
                         SINGLE SOURCE
                             .0000
                             .0000
                                                                 TOTAL  IMPACT FACTOR
                                                        AVERAGE  SOURCE  IMPACT FACTOR
                               MULTIPLE SOURCE
                                    .0000
                                    .0000

                                .0000
                                .0000
                                            *  RATIO OF MAXIMUM  SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10»  OF  HE 6

-------
                                          TABLE  F-l.   Continued
INVERSION HEIGHT s
            (HI
                     1300.
                              1974 -- IMPACT PARAMETERS
                 HIND SPEED  =   4.900            RURAL POP.
                      IH/SI                        IP/KM2)
                                                  22.34
                                                      URBAN POPL.
                                                        (P/KM2I
                                                                                                                =  SS9.T
  SECTOR  3 - WARM AIR FURNACES
                                             EQUIP TYPE 301 - WARM AIR CENTRAL FURNACE
CONSUMPTION!  TOTAL =
      SINGLE SOURCE =
   3.091    (1E19 KJ/TRI
   .1079-06 (1E19 KJ/TRI
                FRACTION:  RURAL =
                          URBAN s
                       .700
                       .300
                          FUEL  TTPE  10 - NATURAL SAS

                        CONTROLS!  NOX *    .0000
                                  SOX -    .0000
                          PARTICULATES =    .0000
                                       UIDTH
                                                    DISTRIBUTED SOURCE
                                                 .7944+05            LENGTH a   .7944*05
     POLLUTANT
       NOX
       SOX
       HC
       CO
       PART
       SULFAT
       pon HI
       BA
       BE
       B
       CM
       CO
       CU
       PB
       TOTAL
NATURAL
.2831-07*
.0000   •
.2799-08*
.9877-10*
.4719-08
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
 RURAL
,4500+01
.0000
.1800*03
.2500+01
.1067402
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
 URBAN
.8500*01
.0000
.1640*03
.4000*01
.1267*02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
,0000
.0000

.00000
POLLUTANT
  HS
  MO
  Nl
  V
  ZN
  ZR
  AS
  BI
  AL
  SB
  CO
  SE
  P
  SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 RURAL
.0000
.0000
.0000
.ooou
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                   RURAL
                                   URBAN
                                                      IMPACT FACTORS
                         SINGLE  SOURCE
                             .0000
                             .0000
                                          TOTAL IMPACT FACTOR *
                                  AVERAGE SOURCE IMPACT FACTOR a
                               MULTIPLE SOURCE
                                     .0000
                                     .0000

                                 .0000
                                 .0000
                      *  RATIO  OF  MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF ME6

-------
                       INVERSION HEIGHT
                                   (HI
                                            1900.
                      TABLE  F-1.   Continued
                              19T<»  --  IMPACT  PARAMETERS
                 WIND SPEED =   H.500             RURAL POP.
                      4H/SI                        (P/KW2I
                                                  22.3*
                                                                   URBAN POPL.
                                                                     IP/KHZ!
                                                                                                                                        i  S59.T
                         SECTOR   3  -  HARM  AIR FURNACES
                                                                    EQUIP TYPE 301 - WARM AIR CENTRAL FURNACE
                       CONSUMPTION!   TOTAL  =
                             SIN6LE  SOURCE  »
   1.409    (1E19 KJ/TRI
   .2025-06 (1E19 KJ/TRI
en
                            POLLUTANT
                              NOX
                              SOX
                              HC
                              CO
                              PART
                              SULFAT
                              POM HI
                              BA
                              BE
                              B
                              CR
                              CO
                              CU
                              PB
                              TOTAL
NATURAL
.9423-07*
.2099-06*
.7261-08*
.1789-09*
.1986-07*
.9695-09*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
                                                              WIDTH
 RURAL
.4500+01*
.3125+01.
.1800+03*
.2500*01*
.1067+02*
.1312+00*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
                FRACTION!  RURAL =
                          URBAN s
                       .600
                       .400
                                                                           DISTRIBUTED SOURCE
                                                                        .7944+05            LENGTH s   .7944+03
                          FUEL TTPE 16 • OIL

                        CONTROLS!   NOX 3   .0000
                                   SOX *   .0000
                          PARTICIPATES «   .0000
 URBAN
.6500+01*
.6875+01*
.1840+03*
.4000+01*
.1267+02*
.2117+00*
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   •
.0000   *

.00000
POLLUTANT
  H6
  MO
  NI
  V
  ZN
  ZR
  AS
  SI
  AL
  SB
  CO
  SE
  P
  SR
NATURAL
.0000
.0000
.0000
,0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                         RURAL
                                                         URBAN
                                                                             IMPACT FACTORS
                         SINGLE  SOURCE
                             .0000
                             .0000
                                                                 TOTAL IMPACT FACTOR
                                                        AVERAGE SOURCE IMPACT FACTOR
                               MULTIPLE SOURCE
                                    .0000
                                    .0000

                                .0000
                                .0000
                                             •   RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG

-------
                                                                   TABLE F-l.    Continued
                        INVERSION HEIGHT
                                    (Ml
                                            1SOO.
                                             197* — IMPACT PARAMETERS
                                 WIND  SPEED -   it.500            RURAL POP. =
                                      IH/Sl                        IP/KHZ)
                                                                                URBAN POPL.
                                                                                  (P/KM2)
                                                                                                                                           359.T
                         SECTOR  3 • HARM AIR FURNACES
                       CONSUMPTION:  TOTAL *
                             SINGLE SOURCE *
                   1.191    11E1S KJ/TRI
                   .1079-06 tlEli KJ/TR)
                                                               WIDTH
            EQUIP  TYPE 302 - WARM AIR SPACE HEATER

                FRACTION*  RURAL s  .700
                          URBAN =  .300

                  DISTRIBUTED SOURCE
                .7944+08            LENGTH a   .7944+05
                                                                         FUEL TYPE 10 - NATURAL BAS

                                                                       CONTROLS!  NOX a   .0000
                                                                                  SOX »   .0000
                                                                         PARTICULATES *   .0000
 I
--J
CTi
POLLUTANT
  NOX
  SOX
  HC
  CO
  PART
  SULFAT
  FOR HI
  BA
  BE
  8
  CR
  CO
  CU
  PB
  UN

  TOTAL
NATURAL
.2631-07
.0000
.2799-08
.9677-10
.H719-08
.0000
.0000
.0000
.0000
,0000
.0000
.0000
.0000
.0000
.0000

,00000
 RURAL
.1500+01*
.0000   *
.1SOO+03*
.2500+01*
.1067+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
 URBAN
.asoo+oi
.0000
.let0+03
.4000+01
.1267+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
                                                                                            POLLUTANT
                                                                                              HG
                                                                                              MO
                                                                                              NI
                                                                                              V
                                                                                              ZN
                                                                                              ZR
                                                                                              AS
                                                                                              BI
                                                                                              AL
                                                                                              SB
                                                                                              CO
                                                                                              SE
                                                                                              P
                                                                                              SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                              IMPACT FACTORS
                                                          RURAL
                                                          URBAN
                                         SINGLE  SOURCE
                                             .0000
                                             .0000
                                                                  TOTAL IMPACT FACTOR =
                                                         AVERAGE SOURCE IMPACT FACTOR *
                                             MULTIPLE  SOURCE
                                                  .0000
                                                  .0000

                                              .0000
                                              .0000
                                             *  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF HC6

-------
                                            TABLE F-l.    Continued
INVERSION HEIGHT e
            IN)
                     1900.
                              1971  —  IMPACT  PARAMETERS
                 KINO  SPEED  »    4.500             RURAL POP.
                      IN/SI                         

22.34 URBAN POPL. IP/KN2I = 359.7 SECTOR 3 - MARK AIR FURNACES COUIP TYPE 302 - WARfl AIR SPACE HEATER CONSUMPTIONS TOTAL * SINGLE SOURCE * .7270 UE15 KJ/TR) ,2029-06 (1E1S KJ/TRI WIDTH POLLUTANT NOX SOX HC CO PART SULFAT POM HI BA BE B CR CO CU PB MN TOTAL NATURAL .9423-07* .2095-06* .7261-08* .4789-09* .1586-07* .5695-09* .0000 .0000 .0000 .0000 .1)000 .0000 .0000 .0000 .0000 .00000 RURAL .4500*01* .3125*01* .1800+03* .2500*01* .1067*02* .1312*00* .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .00000 FRACTION) RURAL URBAN .600 .100 DISTRIBUTED SOURCE .7944*05 LENGTH FUEL TYPE 16 - OIL CONTROLSl NOX = .0000 SOX * .0000 PARTICULATE8 * .0000 URBAN .6500*01* .6875*01* .1840*03* .4000*01* .1267*02* ,2117*00* .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .00000 POLLUTANT HG MO M V ZN ZR AS BI AL SB CO se P SR .7944*05 NATURAL .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 RURAL .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 URBAN .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 RURAL URBAN IMPACT FACTORS SINGLE SOURCE .0000 .0000 TOTAL IMPACT FACTOR a AVERAGE SOURCE IMPACT FACTOR = MULTIPLE SOURCE .0000 .0000 .0000 .0000 • RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION T° 10* OF NEG


-------
                                                                  TABLE  F-1.   Continued
                       INVERSION HEIGHT
                                  (Ml
                                           1SOO.
                              1971*  •-  IMPACT PARAMETERS
                 WIND SPEED  =    4.500            RURAL POP*
                      (N/S)                        IP/KM2I
                                                                   URBAN POPL.  =  359.7
                                                                     (P/KM2I
                        SECTOR  8 * WARM AIM FURNACES

                      CONSUMPTION!  TOTAL «  1.0000    (1E15 KJ/YR)
                            SIN8LE SOURCE •   .1079-06 (1E1S KJ/TR)
                                                                    EQUIP  TYPE  303 - MISCELLANEOUS COMBUSTION
                                                                                                                    FUEL TYPE 10 - NATURAL SAS
                             FRACTION!  RURAL =
                                       URBAN =
                                   .700
                                   .300
                                             CONTROLS!  NOX
                                                        SOX
                                               PARTICULATES
                                                              WIDTH
                                                                          DISTRIBUTED SOURCE
                                                                        .7941+09            LEN6TH s   .7944+05
CO
                           POLLUTANT
                             NOX
                             SOX
                             HC
                             CO
                             PART
                             SULFAT
                             POM HI
                             BA
                             BE
                             B
                             CR
                             CO
                             CU
                             PB
                             HN

                             TOTAL
NATURAL
.2631-07*
.0000   *
.2799-08*
.9677-10*
.4719-06
.0000
• 0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
 RURAL
.4500401*
.0000   *
.1800+03*
.2500+01*
.1067+02*
.0000
.0000
.0000
.0000
«oooo
.0000
.0000
.0000
.0000
.0000

.00000
 URBAN
.6500+01
.0000
.1640+03
.4000+01
.1267+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
POLLUTANT
  HG
  MO
  NI
  V
  ZN
  ZR
  AS
  BI
  AL
  SB
  CO
  SE
  P
  SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
• 0000
                                           .0000
                                           .0000
                                           .0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                             IMPACT FACTORS
                                                         RURAL
                                                         URBAN
                         SINGLE  SOURCE
                             .0000
                             .0000
                                                                 TOTAL  IMPACT FACTOR
                                                        AVERAGE  SOURCE  IMPACT FACTOR
                                MULTIPLE SOURCE
                                     .0000
                                     .0000

                                 .0000
                                 .0000
                                            *  RATIO OF  MAXIMUM SURFACE  CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG

-------
                                         TABLE  F-l.   Continued
INVERSION HEIGHT a
            (Ml
                     1900.
                              1974  »  IMPACT  PARAMETERS
                 WIND  SPEEO  «    4.500             RURAL POP.
                      IM/SI                         (P/KH2)
                                                                                    22.
                                                                   URBAN POPL. s
                                                                      

339.T SECTOR * - GAS TURBINES EQUIP TYPE *01 - SIMPLE CYCLE FUEL TYPE 9 • DISTILLATE OIL CONSUMPTIONi TOTAL * SINGLE SOURCE * .26*0 (1E19 KJ/YR) .9673-03 (1E19 KJ/YRI FRACTION! RURAL URBAN .490 .910 CONTROLSt NOX SOX PARTICIPATES POLLUTANT NOX SOX HC CO PART SULFAT POM HI BA BE B CR CO CU PB TOTAL NATURAL .1236+09 .1225+07 .6236*06 .4304+00* .2*14+07 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .12782+09 RURAL .2656+09 .2615+07 .4558+08 .2930+01* .10(56+08 .0000 .0000 .•oooo .0000 .0000 .0000 .0000 .0000 .0000 .0000 .32*62+09 GAUSSIAN APPROXIMATED SOURCE EFFECTIVE STACK HEIGHT = 10.00 (HI URBAN .3918+09 .4262+07 .4698+08 .4430+01* .1249+08 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .49909+09 POLLUTANT H6 NO MI V ZN ZR AS BI «L se CD SE P SR NATURAL .0000 .0000 .0000 .0000 .0000 .0000 .00120 .0000 .0000 .0000 .0000 .0000 .0000 .0000 RURAL .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 URBAN .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 IMPACT FACTORS SINGLE SOURCE RURAL 7292. URBAN .1637+06 TOTAL IMPACT FACTOR = AVERAGE SOURCE IMPACT FACTOR = MULTIPLE SOURCE .9698+06 .2279+08 .2376+08 .8704+09 • RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 104 OF MEG


-------
                                                                  TABLE  F-l.   Continued
                          INVERSION  HEIGHT c   1500.
                                                               WIND SPEED
                                                                    (N/S)
                                              1971 -- IMPACT PARAMETERS
                                               4.500            RURAL POP.  =   22.31
                                                                  (P/KH2I
                                    URBAN POPL.
                                      (P/KM2I
                                                                                                                   359.7
                            SECTOR
                                     • GAS TURBINES
CONSUMPTIONI   TOTAL =    .2120
      SINGLE  SOURCE =    .9673-03
                                                          (1E1S KJ/TR)
                                                          (1E1S K J/TR 1
                                        EQUIP TYPE 101 - SIMPLE CYCLE    >19 MM

                                            FRACTIONl  RURAL x  .292
                                                                                                                       FUEL TYPE  10  -  NATURAL  9AS
 I
CO
o
POLLUTANT
  NOX
  SOX
  HC
  CO
  PART
  SULFAT
  POM HI
  BA
  BE
  B
  CR
  CO
  CU
  PB
  rm

  TOTAL
NATURAL
.5295+08
.9789+05
.6236+06
.1187+00*
.5791+06
.0000
.0000
.0000
.0000
.oooo
• oooo
.0000
.oooo
.0000
.0000

.91253+08

RURAL
.1161+09
.2903+06
.1558+08
.2919+01
.3236+07
.oooo
.0000
.0000
.0000
'.oooo
.'oooo
.0000
.0000
.0000
.0000
.169*9+0*
GAUSSIA
EFFECTIVE
UNBAN
.1728+09
.5212+06
.1658+08
• .1119+01
.3731+07
.0000
.0000
.0000
.0000
.oooo
.0000
.0000
.oooo
.0000
.0000
.22360+09
N APPROXIMATED SOURCE
STACK HEIGHT r 10.00
POLLUTANT
HG
MO
NI
i v
ZN
ZR
AS
BI
AL
SB
CO
SE
p
SR


                                                                                      CONTROLS I  NOX
                                                                                                 SOX
                                                                                        PARTICULATES
                                                                                                         in)
                                                                                                             NATURAL
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                 RURAL
                                .0000
                                .0000
                                .0000
                                .0000
                                .0000
                                .0000
                                .0000
                                • 0000
                                .0000
                                .0000
                                • oooo
                                .0000
                                .0000
                                .0000
                                              .0000
                                              .0000
                                              .0000
                                                                                                              URBAN
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .oooo
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                                                                             .0000
                                                           RURAL
                                                           URBAN
                                                                               IMPACT FACTORS
                                        SINGLE  SOURCE
                                           9697.
                                           .8013+05
                                                                   TOTAL I«P»CT  FACTOR  a
                                                          AVERAGE SOURCE IMPACT  FACTOR  =
MULTIPLE SOURCE
     .2366+06
     .1218+08

 41272+08
 .5802+09
                                                 RATIO OF MAXIMUM  SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF HCG

-------
                                                                  TABLE  F-l.   Continued
                      INVERSION HEIGHT a
                                  in)
                                           19DO.
                 1974  —  IMPACT PARAMETERS
    WIND  SPEED  a    4.500            RURAL POP, s   22.34
         (M/SI                         IP/KM2)
                                                                                URBAN POPL.
                                                                                   1P/KM2*
                                                                                                                                       s  359.7
                        SECTOR  * - GAS TURBINES
                         EQUIP  TYPE  404  -  SIMPLE  CYCLE  4 TO 15 HH
                                                                         FUEL TYPE  9 - DISTILLATE OIL
00
                      CONSUMPTIONI  TOTAL
                            SINGLE SOURCE
                           POLLUTANT
                             NOX
                             SOX
                             HC
                             CO
                             PART
                             SULFAT
                             POH HI
                             BA
                             BE
                             B
                             CR
                             CO
                             CU
                             PB
                             TOTAL
   .5790    (1E15 KJ/YR)
   .5274-03 (1C15 KJ/YRI
                                                              WIDTH
                FRACTION!  RURAL =   .550
                          URBAN =   .450

                   DISTRIBUTED  SOURCE
                .7944+05             LENGTH
                                             CONTROLS!  NOX a
                                                        SOX =
                                                PART1CULATES *
                                                                                                       .7944+05
NATURAL
.1466-02*
.5381-04*
.3983-04*
.1903-05*
.6314-04*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
 RURAL
.4501+01*
.3125+01*
.1800+03*
.2500+01*
.1067+02*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
 URBAN
.6501+01
.6675+01
.1640+03
.4000+01
.1267+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
POLLUTANT
  HG
  no
  NI
  v
  ZN
  ZR
  AS
  BI
  AL
  SB
  CO
  SE
  P
  SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
,0000
.0000
.0000
.0000
.0000
,0000
.0000   *
 RURAL
.0000
.0000
.0000
.0000
.0000
,0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                           .0000
                                           • 0000
                                           .0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                         RURAL,
                                                         URBAN
                                                                             IMPACT  FACTORS
                         SINGLE  SOURCE
                             .0000
                             .0000
                                                                 TOTAL IMPACT FACTOR
                                                        AVERAGE SOURCE IMPACT FACTOR
                               MULTIPLE SOURCE
                                    .0000
                                    .0000

                                .0000
                                .0000
                                            *  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10« OF MCG

-------
                                                                  TABLE F-l.    Continued
                        INVERSION HEIGHT
                                    (H)
                                            1900.
                                             1971 — IMPACT PARAMETERS
                                 UIND SPEED s   1.500            RURAL POP.
                                     IM/S(                        (P/KM2I
                                                                                URBAN POPL.  =  559.7
                                                                                  (P/KM2)
                         SECTOR  0 - GAS TURBINES
                                                                     EQUIP TTPE  101  -  SIMPLE CTCLE 4 TO 15 NU
                                                                                                                     FUEL TYPE 10 - NATURAL 8AS
00
ro
                       CONSUMPTION!  TOTAL
                             SINGLE SOURCE
POLLUTANT
  NOX
  SOX
  HC
  CO
  PART
  SULFAT
  POM HI
  BA
  BC
  B
  CM
  CO
  CU
  PB
  HN

  TOTAL
                   .1680    I1E15  KJ/TR)
                   .9274-03 (1E15  KJ/TR)
                                            FRACTIONI
                                       RURAL
                                       URBAN
                                   .700
                                   .900
                                             CONTROLS!  NOX
                                                        SOX
                                               PARTICULATES
                                                               WIDTH
                                                                            DISTRIBUTED  SOURCE
                                                                         ,7911+09            LEN6TH
NATURAL
.7609*03*
.1106-01*
.3299-01*
.1987-09*
.3218-01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
 RURAL
.1901+01*
.9129+01*
.1800+03
.2900+01
.1067+02*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
 URBAN
.8501+01
.6875+01
.1610+03*
.4000+01*
.1267+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
                                                                                            POLLUTANT
                                                                                              HG
                                                                                              MO
                                                                                              NI
                                                                                              V
                                                                                              ZN
                                                                                              ZR
                                                                                              AS
                                                                                              BI
                                                                                              AL
                                                                                              SB
                                                                                              CD
                                                                                              SE
                                                                                              P
                                                                                              SR
.7911+09

    NATURAL
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
 RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                               .0000
                               .0000
                               .0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                              IMPACT FACTORS
                                                          RURAL
                                                          URBAN
                                         SINGLE SOURCE
                                             .0000
                                             .0000
                                                                  TOTAL IMPACT FACTOR *
                                                         AVERAGE SOURCE IMPACT FACTOR *
                                             MULTIPLE SOURCE
                                                  .0000
                                                  .0000

                                              .0000
                                              .0000
                                             •  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION  TO  10* OF  MEG

-------
                                                                  TABLE  F-l.   Continued
                      INVERSION HEIGHT
                                   .3125+01'
.1800+05'
.2500+01
.1067+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
• .6500+01*
> .6875+01
> .1910+03
."4000+01
.1267+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                          DISTRIBUTED SOURCE
                                                                       .7911+05            LENGTH =
                                                                                          POLLUTANT
                                                                                            HG
                                                                                            MO
                                                                                            NI
                                                                                            V
                                                                                            ZN
                                                                                            ZR
                                                                                            AS
                                                                                            BI
                                                                                            AL
                                                                                            SB
                                                                                            CO
                                                                                            SE
                                                                                            P
                                                                                            SR
                                                                                                      .7911+05
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000 .
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
,0000
                                           .00000
                                                        .00000
                                                                     .00000
                                                                            IMPACT FACTORS
                                                         RURAL
                                                         URBAN
                                        SINGLE SOURCE
                                            .0000
                                            .0000
                           MULTIPLE SOURCE
                                .0000
                                .0000
                                                                TOTAL IMPACT FACTOR =   .0000
                                                        AVERAGE SOURCE IMPACT FACTOR =   .0000
                                            *  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO IOK'OF MEG

-------
                        INVERSION HEIGHT
                                    (Ml
                                             1900.
                                     TABLE  F-l.   Continued
                                              197*  — IMPACT PARAMETERS
                                 WIND SPEED s   t.500            RURAL POP.
                                     (H/SI                        (P/KM2)
                                                                                                            22.3<»
                                                                                                                             URBAN POPL.  =  559.7
                          SECTOR  * • GAS TURBINES
                                                                      EQUIP  TYPE »06 - SIMPLE CYCLE   <4 HH
                        CONSUMPTION:  TOTAL *
                              SINGLE SOURCE a
                   .1000-02  I1E19  KJ/TR)
                   .316H-05  (1E19  KJ/YRI
                            FRACTIONI  RURAL a
                                       URBAN =
                                   .TOO
                                   .300
                                                                WIDTH  =
                                                                            DISTRIBUTED SOURCE
                                                                          .79*4409            LENGTH *   .7944405
                                               FUEL TYPE 10 - NATURAL SAS

                                             CONTROLSI  NOX *   .0000
                                                        SOX B   .0000
                                               PARTICULATES *   .0000
CO
POLLUTANT
  NOX
  SOX
  HC
  CO
  PART
  SULFAT
  POM HI
  BA
  BC
  B
  CR
  CO
  CU
  P8
  MN

  TOTAL
NATURAL
.46A3-OS*
.6638-07*
.1979-06*
.1192-07*
.1931-06*
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   *
.0000   •
.0000   *
.0000   *

.00000
 RURAL
.14500+01*
.3125401*
.1800403
.2500401
.1067402
.0000
.0000
.0000
.0000
.0000
,0000
.0000
.0000
.0000
.0000

.00000
 URBAN
.8500*01
.6675401
.1640403
.1000401
.1267402
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
                                                                                            POLLUTANT
                                                                                              H6
                                                                                              MO
                                                                                              NI
                                                                                              V
                                                                                              ZN
                                                                                              ZR
                                                                                              AS
                                                                                              BI
                                                                                              AL
                                                                                              SB
                                                                                              CO
                                                                                              SE
                                                                                              P
                                                                                              SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
• 0000
                                                           RURAL
                                                           URBAN
                                                                               IMPACT FACTORS
                                         SINGLE  SOURCE
                                             .0000
                                             .0000
                                                                   TOTAL  IMPACT FACTOR
                                                          AVERAGE  SOURCE  IMPACT FACTOR
                                             MULTIPLE  SOURCE
                                                  .0000
                                                  .0000

                                              .0000
                                              .0000
                                              *  RATIO OF MAXIMUM  SURFACE  CONCENTRATION  PLUS BACKGROUND CONCENTRATION TO 101 OF HES

-------
                                                                  TABLE F-l.    Continued
                         INVERSION HEIGHT «   1500
                                     (HI
                                              1974  -•  IMPACT PARAMETERS
                                 HIND SPEED  s    4.500            RURAL POP. *   22.34
                                      CM/S)                        IP/KM2I
                           SECTOR  S - RECIPROCATING 1/C ENGINE
                                                                       EOOIP  TfPE 501 - C. I.
                                                                                                   >75 KN/CH
                                                                                                                              URBAN POPL. »  959.7
                                                                                                                                (P/KH2!
                                                                                                                       FUEL TYPE  9 « DISTILLATE OIL
 I
00
en
POLLUTANT
  NOX
  SOX
  HC
  CO
  PART
  SULFAT
  POD HI
  BA
  BE
  8
  CR
  CO
  CU
  PB
  MN

  TOTAL
NATURAL
.4090+07
.5468+05
.3246+05
.5089-01*
.7163+05
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.42692+07

   GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT  s   10.00
                        POLLUTANT
                         HG
                         «0
                         NI
                         V
                         ZN
                         81
                         AL
                         SB
                         CO
                         SE
                         P
                         SR
RURAL
.9740+07
.1712+06
.6766+07
.2551+01
.5569+06
.0000
.0000
.0000
.0000
.9000
.0000
.0000
.0000
.0000
.0000
URBAN
.1476+08
.3111+06
.6915+07
* .4051+01*
.6478+06
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                                                         (HI
 NATURAL
 .0000
 .UOOO
 .0000
 .0000
 .0000
 .0000
 .0000
 .uooo
 .0000
 .0000
 .0000
 .0000
.0000
.0000
                                                                                       CONTROLS!   NOX
                                                                                                  SOX
                                                                                         PARTICULATES
                                                                                                                           RURAL
                                                                                                                          .0000
                                                                                                                          .0000
                                                                                                                          .0000
                                                                                                                          .0000
                                                                                                                          .0000
                                                                                                                          .0000
                                                                                                                          .0000
                                                                                                                          .0000
                                                                                                                          .0000
                                                                                                                          .0000
                                                                                                                          .0000
                                                                                                                          .0000
                                                                                                                         .0000
                                                                                                                         .0000
                                                                                                                                        .0000
                                                                                                                                        .0000
                                                                                                                                        .0000
  URBAN
 .0000
 .0000
 .0008
 .0000
 .0000
 .0000
 .0000
 .0000
 .0000
 .0000
 • 0000
 .0000
.0000
.0000
                            .1729H+08
                                         .22636+08
                                                                              IMPACT FACTORS
SINGLE SOURCE
RURAL sss.o
URBAN 8143.
TOTAL IMPACT FACTOR *
AVERAGE SOURCE IMPACT FACTOR =
MULTIPLE SOURCE
.9685+06
.5121+07
.6089+07
1937.
                                                 RATIO  OF HAXlnUM SURFACE CONCENTRATION PLUS  BACKGROUND CONCENTRATION TO 101, OF KEG

-------
                                                                  TABLE  F-1.   Continued
INVERSION HEI6HT e   1900.
                                                                           197H  -.  IMPACT PARAMETERS
                                                              WIND SPEED  =    4.SOO            RURAL POP. =   22.34
                                                                   IM/S)                        (P/KM2I
                                                                                                    URBAN POPL.
                                                                                                       (P/KM2I
                                                                                                                a   319.7
                          SECTOR  5 - RECIPROCATING I/C ENGINE
 I
00
cr>
                        CONSUMPTIONS  TOTAL
                              SINGLE SOURCE
     POLLUTANT
       NOX
       SOX
       HC
       CO
       PART
       SULFAT
       POM HI
       BA
       BE
       B
       CR
       CO'
       CU
       PB
       HN

       TOTAL
                        .7000-01  (1E13 KJ/YR)
                        .1717-04  (1C19 KJ/YR)
                                             NATURAL
                                             .1973+07
                                             .0000   *
                                             .5087+06
                                             .2230-01*
                                             .0000
                                             .0000
                                             .0000
                                             .0000
                                             .0000
                                             .0000
                                             .0000
                                             .0000
                                             .0000
                                             .0000
                                             .0000
                     .24817+07
 RURAL
.51*7+07
.0000
.0048+06
.2522+01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                  .49622+08
            EQUIP  TYPE 501 - C. I.       >7S KH/CYL
               FRACTION:  RURAL =  .BOO
                          URBAN =  .200
              GAUSSIAN APPROXIMATED SOURCE
           EFFECTIVE STACK HEIGHT =   10.00    (HI
                                                                                                                      FUEL TYPE 17 - DUAL (OIL + 6ASJ
                                             CONTROLS!  NOX
                                                        SOX
                                               PARTICULATES
 URBAN
.7968+07
.0000   *
.4136+08
.4022+01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.49332+08
POLLUTANT
  HG
  HO
  NI
  V
  ZN
  ZR
  AS
  81
  AL
  SB
  CD
  SE
  P
  SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                           .0000
                                           .0000
                                           .0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                               IHPACT  FACTORS
                                                           RURAL
                                                           URBAN
                                             SINSLE SOURCE
                                                 1019.
                                                 .1775+09
                                                                   TOTAL IMPACT  FACTOR
                                                          AVERAGE SOURCE IMPACT  FACTOR
                                MULTIPLE SOURCE
                                     .3324+07
                                     .14*7+08

                                 .1779+08
                                 4364.
                                              •  RATIO OF MAXIMUM SURFACE  CONCENTRATION PLUS  BACKGROUND  CONCENTRATION TO  101 OF HE6

-------
                                                                 TABLE  F-l.   Continued
                       INVERSION HEIGHT
                                   tut
                                            1900.
                                              1974  ..  IMPACT PARAMETERS
                                 WIND  SPEED  a    11.500            RURAL POP.
                                      (H/SI                         (P/KH2)
                                                                                                           22. 3*
                                                                                URBAN POPL.
                                                                                   (P/KM2)
                                                                                                                                        =  339.T
                         SECTOR  3 - RECIPROCATING I/C ENGINE
 I
CO
                       CONSUMPTIONt  TOTAL
                             SINGLE SOURCE
POLLUTANT
  NOX
  SOX
  HC
  CO
  PART
  SULFAT
  PON HI
  BA
  BE
  e
  CR
  CO
  CU
  PB
  MM

  TOTAL
                   .6130    (1E15  KJ/TRI
                   .1717-04 (1E15  KJ/TR)
                         EOUIP  TTPE  302  -  S.  I.       >75 KH/CYL

                             FRACTION!   RURAL  «   .990
                                        URBAN  K   .ISO
                                                                                                                     FUEL TYPE 10 - NATURAL 6AS
NATURAL
.3509407
.4471-02*
.7604*06
.2678-01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.12773*07
                                                          RURAL
                                                         .65*2+07
                                                         .3129*01*
                                                         .5419*06
                                                         .2529*01*
                                                         .0000
                                                         .0000
                                                         .0000
                                                         .0000
                                                         .0000
                                                         .0000
                                                         .0000
                                                         .0000
                                                         .0000
                                                         .0000
                                                         .0000
                                                         .62733+06
                                                                       6AUSSIAN  APPROXIMATED  SOURCE
                                                                    EFFECTIVE  STACK  HEIGHT  =    10.00
                                             CONTROLS:  NOX
                                                        SOX
                                               PARTICULATES
                                                                                                        (M)
 URBAN
.1302+06
.6679+01*
.5536*06
.4029*01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.66394+08
POLLUTANT
  HG
  MO
  HI
  V
  ZN
  ZR
  AS
  81
  AL
  SB
  CO
  SE
  P
  SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                           .0000
                                           .0000
                                           .0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                          RURAL
                                                          URBAN
                                                                              IMPACT  FACTORS
                                         SINGLE  SOURCE
                                             1*01.
                                             .2460*09
                                                                  TOTAL IMPACT FACTOR *
                                                         AVERAGE SOURCE IMPACT FACTOR 3
                                            MULTIPLE SOURCE
                                                  .5640*08
                                                  .1747*09

                                              .2311+09
                                              1662.
                                             *  RATIO OF MAXIMUM SURFACE CONCENTRATION  PLUS BACKGROUND CONCENTRATION TO 10V OF MEG

-------
                                                                  TABLE  F-l.    Continued
                        INVERSION HEIGHT =
                                   in)
                                            1500.
                                              197*  -- IMPACT PARAMETERS
                                 HIND  SPEtD s   1.500            RURAL POP. *   22.3-4
                                      IN/S)                        (P/KM2>
                                                                                URBAN POPL.
                                                                                  IP/KM2I
                                                                                            «  359.7
                          SECTOR  s - RECIPROCATING i/c ENGINE
                                                                     EQUIP TYPE S03 - C.  I.  79  KK TO 75 KW/CVl
                                                                                                                     FUEL TYPE  9 - DISTILLATE OIL
                       CONSUMPTION!  TOTAL =
                             SINGLE SOURCE x
                   .1290    (1E15 KJ/YR)
                   .1207-05 (1E1S KJ/YR)
                             FRACTION:   RURAL
                                        URBAN
                                    .850
                                    .150
                                                               WIDTH
                                                                            DISTRIBUTED SOURCE
                                                                         .79<»<*+05            LENGTH
                                             CONTROLS!  NOX
                                                        SOX
                                               PARTICULATES
CO
CO
POLLUTANT
  NOX
  SOX
  HC
  CO
  PART
  SULPAT
  POM HI
  BA
  BE
  B
  CR
  CO
  cu
  PB
  HN

  TOTAL
NATURAL
,1603-OH*
.1103-05*
.1059-05*
.2881-07*
.126H-OS*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
 RURAL
.4500+01*
.3125+01
.1800+03
.2500+01
.1067+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
 URBAN
.8500+01
.6875+01
.1H40+03
.1*000 + 01
.1267+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
                                                                                            POLLUTANT
                                                                                              H6
                                                                                              MO
                                                                                              NI
                                                                                              V
                                                                                              ZN
                                                                                              ZR
                                                                                              AS
                                                                                              BI
                                                                                              AL
                                                                                              SB
                                                                                              CO
                                                                                              SE
                                                                                              P
                                                                                              SR
,791t+Q5

    NATURAL
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
 RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                               .0000
                               .0000
                               .0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                          RURAL
                                                          URBAN
                                                                              IMPACT FACTORS
                                        SINGLE SOURCE
                                             .0000
                                             .0000
                                                                  TOTAL IMPACT FACTOR
                                                         AVERAGE SOURCE IMPACT FACTOR
                                             MULTIPLE SOURCE
                                                  .0000
                                                  .0000

                                              .0000
                                              .0000
                                             *  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION  TO 10* OF  MEG

-------
                                                                 TABLE  F-1.   Continued
                       INVERSION HEIGHT a
                                   IN)
                1500.
                              1974  --  IMPACT  PARAMETERS
                 WIND SPEtD s    4.500             RURAL POP.
                      (M/SI                        (P/KH2I
                                                                               22.3*
                                                                                                URBAN POPL.
                                                                                                   (P/KB2J
                                                                                                             «   339.T
                         SECTOR  g - RECIPROCATING i/c ENGINE
                                                                     EQUIP TYPE 904  -  S.  I.  75  K* TO 75 KK/CYL
                                                                                         FUEL TYPE 10 - NATURAL  6AS
                       CONSUMPTION!  TOTAL =
                             SINGLE SOURCE s
                   .4300-01 I1C1S KJ/TR)
                   .1207-09 I1C19 KJ/YR)
                                             FRACTIONI
                                        RURAL
                                        URBAN
                                    .500
                                    .500
                                                               WIDTH
                                                                            DISTRIBUTED SOURCE
                                                                         .7944+05            LEN6TH
 I
CO
POLLUTANT
  NOX
  SOX
  HC
  CO
  PART
  SULFAT
  POM HI
  BA
  BE
  B
  CR
  CO
  CU
  PB
  flN

  TOTAL
NATURAL
.1429-04*
.0000   *
.5109-09*
.1629-07*
.0000
.0000
.0000 ,
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
 RURAL
.4500+01*
.0000
.1600+03
.2500+01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
 URBAN
.8500+01
.0000
.1640+03
.4000+01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
                                                                                            POLLUTANT
                                                                                              HS
                                                                                              MO
                                                                                              NI
                                                                                              V
                                                                                              ZN
                                                                                              ZR
                                                                                              AS
                                                                                              BI
                                                                                              AL
                                                                                              SB
                                                                                              CO
                                                                                              SE
                                                                                              p
                                                                                              SR
.7944+05

    NATURAL
    .0000
    .0000
    .0000
    .0000
    .0000
    .0600
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
    .0000
                                              CONTROLSI   NOX
                                                         SOX
                                                PARTICULATES
 RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                               .0000
                               .0000
                               .0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                          RURAL
                                                          URBAN
                                                                              IMPACT FACTORS
                                         SINGLE  SOURCE
                                             .0000
                                             .0000
                                                                  TOTAL IMPACT  FACTOR
                                                         AVERAGE SOURCE IMPACT  FACTOR
                                            MULTIPLE SOURCE
                                                 .0000
                                                 .0000

                                             .0000
                                             .0000
                                             •  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101'OF ME6

-------
                                                                  TABLE  F-l.   Continued
                       INVERSION HEIGHT r
                                   in)
                                           1900.
                              1974  —  IMPACT PARAMETERS
                 WIND SPEED  =    
-------
                                          TABLE  F-l.   Continued
INVERSION HEIGHT a   1900.
                                                  1971 --  IMPACT PARAMETERS
                                      WIND  SPEED =   4.500            RURAL POP.
                                           tM/S)                         (P/KM2I
                                                                                    22.34
                                                                                                     URBAN POPL.
                                                                                                       (P/KN2>
                                                                                                                 =  399.7
  SECTOR  9 - RECIPROCATING I/C EN6INE
CONSUHPTIONI  TOTAL
      SINGLE SOURCE
     POLLUTANT
       NOX
       SOX
       HC
       CO
       PART
       SUtFAT
       POn HI
       BA
       BE
       8
       CR
       CO
       CU
       PB
       (IN

       TOTAL
                        .4900-01  (1E19 KJ/TR)
                        .2616-08  
-------
                       INVERSION HEIGHT
                                   (M)
                                            1300.
                                                                  TABLE  F-l.   Continued
                                                                         197H — 1HPACT PARAMETERS
                                                            WIND SPEED -   t,500            RURAL POP.
                                                                                                           22.34
                                                                                                URBAN POPL,
                                                                                                  (P/KM2I
                                                                                                            «  359.7
                         SECTOR  6 -  INC.  PROCESS  COMBUSTION
                                                                    EQUIP TYPE 601 - CEMENT KILNS
                       CONSUMPTION!   TOTAL n
                             SINGLE  SOURCE =
                   .7296+08 Hg
                   .3330+04 Mg
                                                                        FRACTION!
                                       RURAL
                                       URBAN
                       .»SO
                       .550
                         FUEL  TYPE  IS  -  PROCESSED  CIAT'L

                       CONTROLS!  NOX  c    .0000
                                  SOX  «    .0000
                         PARTICULATES  a    .BBOO
VO
ro
POLLUTANT
  NOX
  SOX
  MC
  CO
  PART
  SULFAT
  POM HI
  BA
  BE
  B
  CR
  CO
  CU
  PB
  HN

  TOTAL
NATURAL
.6*16+00*
.1326+07
.0000
.0000
.8760+07
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.10086+08
                                                          RURAL
                                                         .3112+01*
                                                         .3632+07
                                                         .0000
                                                         .0000
                                                         .4643+08
                                                         .0000
                                                         .0000
                                                         .0000
                                                         .0000
                                                         .0000
                                                         .0000
                                                         .0000
                                                         .0000
                                                         .0000
                                                         .0000
                             .50067+08
                                                                      GAUSSIAN APPROXIMATED SOURCE
                                                                   EFFECTIVE STACK HEIGHT =   25.00
                                                                                                       (Ml
 URBAN
.9142+01*
.6397+07
.0000
.0000
.5350+08
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.59996+06
POLLUTANT
  H6
  MO
  NI
  V
  ZN
  ZR
  AS
  BI
  AL
  SB
  CO
  SE
  p
  SR
NATURAL       RURAL        URBAN
.0000        .0000        .0000
.0000        .0000        .0000
.0000        .0000        .0000
.0000        .0000        ,0000
.0000        .0000        ,0000
.0000        .0000        ,0000
.0000        .0000        .0000
.0000        .0000        .0000
.0000        .0000        .0000
.0000        .0000        ,0000
.0000        .0000        .0000
.0000        .0000        .0000
.0000        .0000        .0000
.0000        .0000        .0000
                                                                             IMPACT FACTORS
                                                          RURAL
                                                          URBAN
                                         SINGLE SOURCE
                                             1116.
                                             .2155+05
                                                                 TOTAL IBPACT FACTOR *
                                                         AVERAGE SOURCE IMPACT FACTOR *
                                             MULTIPLE  SOURCE
                                                  .1103+07
                                                  .2596+08

                                              .2707+08
                                              .1235+05
                                             *   RATIO  OF  MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO io» OF MEG

-------
                       INVERSION HEI6HT
                                   (H)
                1900.
                       TABLE  F-l.   Continued

                              19T» — IMPACT PARAMETERS
                 MtNO SPEED «   «.900            RURAL POP.
                      tn/S)                        (P/KPI2)
                                                                               22.34
                                                                                                URBAN POPL.
                                                                                                   (P/KN2I
                              a   599.7
                         SECTOR  6 - INO. PROCESS COMBUSTION
                      CONSUMPTION?  TOTAL *
                             SIN6LE SOURCE *
                   .1462+08 Hg
                   .5400+03 Hg
 I
U3
CO
POLLUTANT
  NOX
  SOX
  HC
  CO
  PART
  SULFAT
  POU HI
  BA
  BE
  B
  CR
  CO
  CU
  PB
  NN

  TOTAL
NATURAL
«5356-01«
.385T-01»
.0000
.0000
•19HO-01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
                         EQUIP TYPE 602 - GLASS MELTINS FURNACES

                             FRACTION!  RURAL =  .150
                                        URBAN a  .850

                           GAUSSIAN APPROXIMATED SOURCE
                        EFFECTIVE STACK HEIGHT a   55.00    (PH
                                                                                                                     FUEL TYPE 13  -  PROCESSED  HAT'L
RURAL
.tSbl+Ol
.3161+01
.0000
.0000
.1069+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
* .6551*01*
* .6910+01*
.0000
.0000
.1269+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                                           POLLUTANT
                                                                                             HG
                                                                                             50
                                                                                             NI
                                                                                             v
                                                                                             ZN
                                                                                             ZR
                                                                                             AS
                                                                                             BI
                                                                                             AL
                                                                                             SB
                                                                                             CO
                                                                                             SE
                                                                                             P
                                                                                             SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
,0000
.0000
.0000
.0000
        CONTROLS:  NOX a   .0000
                   sox *   .0000
          PARTICULATES s   ,0000
  RURAL        URBAN
 .0000         .0000
 .0000         .0000
 .0000         .0000
 .0000         .0000
 .0000         .0000
 .0000         .0000
 .0000         .0000
 .0000         .0000
 .0000         .0000
 .0000         .0000
 .0000         .0000
 .0000        .0000
.0000        .0000
•0000        .0000
                                                        .00000
                                                                     .00000
                                                                            IWACT FACTORS
                                                         RURAL
                                                         URBAN
                                        SINGLE SOURCE
                                            .0000
                                            .0000
                                            MULTIPLE SOURCE
                                                 .0000
                                                 .0000
                                                                TOTAL inPACT FACTOR a   .0000
                                                        AVERAGE SOURCE IMPACT FACTOR «   .0000
                                            «  RATIO  OF  MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF BEG

-------
                                                                  TABLE F-l.    Continued
                        INVERSION HCI6HT
                                    in)
                                            1900.
WIND SPEED =
     in/si
                                                  .. IMPACT PARAMETERS
                                                 5(TO            RURAL POP.
                                                                  (P/KH2)
                                                                                                                            URBAN POPL. a  S5».7
 I
UD
                         SECTOR  & •  INO. PROCESS COMBUSTION

                       CONSUMPTION!   TOTAL *    .1462+08 Hg
                             SINGLE SOURCE *    . 1020+03 Hg
POLLUTANT       NATURAL       RURAL
  NOX           .1S9T-02     .H502+01
  SOX           .0000        .0000
  HC            .0000        .0000
  CO            .0000        .0000
  PART          .0000        .0000
  SULFAT        .0000        .0000
  PON HI        .0000        .0000
  BA            .0000        .0000
  BE            .0000        .0000
  B             .0000        .0000
  CM            .0000        .0000
  CO            .0000        .0000
  CU            .0000        .0000
  PB            .0000        .0000
  UN            .0000        .0000

  TOTAL         .00000       .00000
 EQUIP TYPE 603 • GLASS ANNEALING  LEHRS

     FRACTION!   RURAL *  .190
                URBAN s  .690

   GAUSSIAN APPROXIMATE!] SOURCE
EFFECTIVE STACK HEIGHT =   95.00
                                                                                                                     FUEL TYPE 18 - PROCESSED PIAT'L
                                                                                       CONTROLS!  NOX
                                                                                                  SOX
                                                                                         PARTICULATES
          URBAN
         .8502*01*
         .0000
         .0000
         .0000
         .0000
         .0000
         .0000
         .0000
         .0000
         .0000
         .0000
         .0000
         .0000
         .0000
         .0000

         .00000
                                                                                            POLLUTANT
                                                                                              HG
                                                                                              no
                                                                                              NI
                                                                                              V
                                                                                              ZN
                                                                                              ZR
                                                                                              AS
                                                                                              BI
                                                                                              AL
                                                                                              SB
                                                                                              CO
                                                                                              SE
                                                                                              P
                                                                                              SR
                                        NATURAL
                                        .0000
                                        .0000
                                        .0000
                                        .0000
                                        .0000
                                        .0000
                                        .0000
                                        .0000
                                        .0000
                                        .0000
                                        .0000
                                        .0000
                                        .0000
                                        .0000
 RURAL
.0000
.0000
.GOOD
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                         .0000
                                                                         .0000
                                                                         .0000
 URBAN
.0000
.0000
.0000
.OOOD
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                              IMPACT FACTORS
                                                          RURAL
                                                          URBAN
                                         SINGLE SOURCE
                                             .0000
                                             .0000
                                                                  TOTAL IHPACT FACTOR *
                                                         AVERAGE SOURCE IMPACT FACTOR «
                            MULTIPLE SOURCE
                                 .0000
                                 .0000

                             .0000
                             iDOOO
                                             •  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG

-------
                                                                  TABLE  F-l.   Continued
                      INVERSION HEIGHT
                                  (Ml
                                           1SOO.
                                              197"*  --  IMPACT PARAMETERS
                                 WIND  SPEED  =   1.500            RURAL POP.
                                      (M/St                         (P/KM2)
                                                                                                           22.3*
                                                                                URBAN POPL.
                                                                                   IP/KH2J
                                                                                                                                        =   959.7
                        SECTOR  & - INO. PROCESS COMBUSTION
                      CONSUMPTION!  TOTAL =
                            SINGLE SOURCE »
                   .5405+08 Hg
                   .3640+04 Hg
tn
POLLUTANT
  NOX
  SOX
  HC
  CO
  PART
  SULFAT
  POM HI
  BA
  BE
  6
  CR
  CO
  cu
  PB
  MN

  TOTAL
NATURAL
.2555-01*
.2782+06
• 0000
.0000
.3869*08
.0000
.0000
.0000
.0000
.0000
.0000
.0000
• 0000
.0000
.0000

.38960+08
 RURAL
.4526+01*
.1018+07
.0000
.0000
.1889+09
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.18996+09
 EOUIP TYPE 604 - COKE OVEN UNOERFIRE

     FRACTION:  RURAL =  .eoo
                UNBAN =  .200

   GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT =   30.00     (M
                                                                                         FUEL TYPE IS - PROCESSED MAT'L
                                                                       CONTROLS:  NOX
                                                                                  sox
                                                                         PARTICULATES
   URBAN
  .8526+01*
  .1905+07
  .0000
  .0000
  .2171+09
  .0000
  .0000
  .0000
  .0000
  .0000
  .0000
  .0000
  .0000
  • 0000
  .0000

  .21903+09
                                                                                           POLLUTANT
                                                                                             HG
                                                                                             no
                                                                                             NI
                                                                                             v
                                                                                             ZN
                                                                                             ZR
                                                                                             AS
                                                                                             BI
                                                                                             AL
                                                                                             SB
                                                                                             CD
                                                                                             SE
                                                                                             P
                                                                                             SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
• 0000
.0000
 RURAL
.0000
.0000
.0000
.0000
,0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                             .0000
                                                                             .0000
                                                                             .0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                         RURAL
                                                         URBAN
                                                                             IMPACT FACTORS
                                         SINGLE  SOURCE
                                             t211.
                                             .7879+05
                                                                 TOTAL IMPACT FACTOR
                                                        AVERAGE SOURCE IMPACT FACTOR
                                            MULTIPLE SOURCE
                                                 .5041+08
                                                 .23*0+09

                                              .28*4+09
                                              .1915+05
                                            *  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG

-------
                                          TABLE F-l.    Continued
INVERSION HEIGHT
            (PI)
                     1900.
                           1974  -- IMPACT PARAMETERS
              WIND  SPEED  -   4.500            RURAL POP. =
                   (N/SI                        IP/KM2)
                                                                                    22.34
                                   URBAN POPL.
                                     IP/KM2)
                                                                                                                *  SS9.T
  SECTOR  6 - 1ND. PROCESS COMBUSTION
                                             EQUIP TTPE 605 - STEEL SINTERING MACHINES
                                                                                              FUEL  TTPE  15 - PROCESSED MAT«L
CONSUMPTION I   TOTAL
      SIN6LE  SOURCE
     POLLUTANT
       NOX
       SOX
       HC
       CO
       PART
       SULFAT
       PON HI
       BA
       BE
       B
       CR
       CO
       CU
       PB
       MN

       TOTAL
.4599+08 Mg
.1720+04 Mg
FRACTION!   RURAL =
           URBAN =
    .550
    .1)50
CONTROLS!   NOX
           SOX
  PARTICULATES
.0000
.0000
.0000
NATURAL
.3751-01'
.6402-01<
.0000
.1567-01
.9618*00
.0000
• 0000
.0000
.0000
.0000
• oooo
.0000
.0000
.0000
.0000
RURAL
> .4530*01
I .3109*01
.0000
.2516*01
.1163*02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.6536*01
.6939*01
.0000
.4016*01
.1363*02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                     .00000
                                  .00000
                        GAUSSIAN APPROXIMATED SOURCE
                     EFFECTIVE  STACK HEIGHT s   45.00
                                            POLLUTANT
                                              HG
                                              MO
                                              NI
                                              V
                                              ZN
                                              ZR
                                              AS
                                              BI
                                              AL
                                              SB
                                              CO
                                              SE
                                              P
                                              SR
                                               .00000
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                       IMPACT FACTORS
                                   RURAL
                                   URBAN
                      SINGLE  SOURCE
                          .0000
                          .0000
                                           TOTAL  IMPACT FACTOR c
                                  AVERAGE SOURCE  IMPACT FACTOR a
MULTIPLE SOURCE
     .0000
     .0000

 .0000
 .0000
                      *   RATIO  OF  MAXIMUM  SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF MEG

-------
                                                                  TABLE  F-l.   Continued
                    INVERSION HEIGHT
                                (HJ
                                        1500,
             1971 —  IMPACT  PARAMETERS
HIND SPEED *   1.500             RURAL POP.  s
               .»             CP/KN2I
               22.31
                                URBAN  POPL.
                                  (P/KH2)
                                                                                                                                        359.7
-n
 i
                      SECTOR   6  »  IND. PROCESS COMBUSTION
                    CONSUMPTION!   TOTAL *    .3059+08 Mg
                          SINGLE SOURCE a    .4090+04 Mg
                         POLLUTANT
                           NOX
                           SOX
                           HC
                           CO
                           PART
                           SULF»T
                           POM  HI
                           BA
                           BE
                           B
                           CR
                           CO
                           CU
                           PB
                           MN
                           TOTAL         .10713+07     .10720+06
        EQUIP TYPE 606 -  OPEN HEARTH  FURNCE  (OILl
                                                        FUEL TYPE 13 - PROCESSED HAT'L
NATURAL
.1063+001
.1501 + 001
.0000
.0000
.1071+07
.0000
.0000
.0000
.0000
.0000
.0000
• oooo
tOooo
• oooo
• 0000
RURAL
> .1606+01
> .3275+01
.0000
.oooo
.1072+06
.oooo
.0000
.0000
.0000
.0000
.oooo
.oooo
.oooo
.0000
.0000
            FRACTION!   RURAL  =
                       URBAN  r
.550
.<»50
        CONTROLS:  NOX
                   sox
          PARTICULATES
.0000
.0000
.0000
          GAUSSIAN APPROXIMATED  SOURCE
       EFFECTIVE STACK HEIGHT  s    15.00
          URBAN               POLLUTANT
                                                                                                    in)
         .8606+01
         .7025+01
         .0000
         .0000
         .1259+06
         .0000
         .0000
         .0000
         .0000
         .0000
         .0000
         .0000
         .0000
         ,0000
         .0000

         .12529+08
 HG
 MO
 NI
 V
 ZN
 ZR
 AS
 BI
 AL
 SB
 CO
 SE
 P
 SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
RURAL
.0000
.0000
.0000
»oooo
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                          IMPACT FACTORS
SINGLE SOURCE
RURAL 239.5
URBAN 1507.
TOTAL IMPACT FACTOR *
AVERAGE SOURCE IMPACT FACTOR s
MULTIPLE SOURCE
.9652+06
.1517+06
.1615+08
2160.
                                          •   RATIO  OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND  CONCENTRATION TO io« OF MEG

-------
                                                                 TABLE  F-l.   Continued
                      INVERSION HEIGHT
                                  (M)
                                           1900.
             1971  --  IMPACT  PARAMETERS
WIND SPEED =   «.9oo             RURAL POP. =
     (N/S)                        (P/KM2I
                   22.Jt
                                    URBAN POPL.  =   399.7
                                      IP/KM2I
  SECTOR  6 - IND. PROCESS COMBUSTION

CONSUMPTIONI  TOTAL s   .2994+08 Mg
      SINGLE SOURCE s   .1000+04 Mg
                                                                   EQUIP TYPE 607 - BRICK + CERAMIC KILNS
                                                                                                                    FUEL TYPE IS - PROCESSED MAT'L
POLLUTANT       NATURAL
  NOX           .7411-01*
  SOX           .1000+00*
  HC            .9928-02
  CO            .1482-03
  PART          .1349+08
  SULFAT        .0000
  POM HI        .0000
  BA            .0000
  BE            .0000
  B             .0000
  CR            .0000
  CO            .0000
  cu            .0000
  PB            .0000
  HN            .0000
                             TOTAL          .13491+08
<£>
00
                                                         RURAL
                                                        ."•57H+01*
                                                        .3229+01*
                                                        .1800+03
                                                        .2900+01
                                                        .6672+08
                                                        .0000
                                                        .0000
                                                        .0000
                                                        .0000
                                                        .0000
                                                        .0000
                                                        .0000
                                                        .0000
                                                        .0000
                                                        .0000
                                                        .66717+08
                                                        RURAL
                                                        URBAN
                                                                       FRACTION:  RURAL
                                                                                  URBAN
                                .800
                                .200
                                                                     GAUSSIAN APPROXIMATED SOURCE
                                                                  EFFECTIVE STACK HEIGHT =   29.00
                           CONTROLSI   NOX
                                      SOX
                             PARTICULATES
          URBAN
         .8574+01
         .6979+01
         .181*0 + 03
         .4000+01
         .7670+08
         .0000
         .0000
         .0000
         .0000
         .0000
         .0000
         .0000
         .0000
         .0000
         .0000

         ,7670»+08
                                                                                                      (Ml
   POLLUTANT
     H6
     MO
     NI
     V
     ZN
     ZR
     AS
     BI
     AL
     SB
     CO
     SE
     P
     SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                                                  RURAL
                                                                                                 .0000
                                                                                                 .0000
                                                                                                 .0000
                                                                                                 .0000
                                                                                                 .0000
                                                                                                 .0000
                                                                                                 .0000
                                                                                                 .0000
                                                                                                 .0000
                                                                                                 .0000
                                                                                                 .0000
                                                                                                 .0000
                                                                                                 .0000
                                                                                                 .0000
                           .0000
                           .0000
                           .0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                            IMPACT FACTORS
        SINGLE  SOURCE
            1*90.
            .2799+05
                                                                TOTAL IMPACT FACTOR
                                                       AVERA6C SOURCE IMPACT FACTOR
MULTIPLE SOURCE
     .3570+08
     .1692+09

 .2009+09
 6711.
                                           *  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10» OF MEG

-------
                                            TABLE  F-1.   Continued
INVtRSlON HEI6HT
            (HI
1900.
                 197*  —  IMPACT PARAMETERS
    WIND  SPEED  a    4.500             RURAL POP. =
         (M/SI                         (P/KM2I
                                                                                     22.31*
                                                                                 URBAN  POPL.
                                                                                   (FVKM2I
                                                                                             =   559.T
  SECTOR  6 - IND. PROCESS COMBUSTION
                                              EQUIP TYPE 608 - CAT  CRACK1N6 IFCCUI
CONSUMPTION!  TOTAL >
      SINSLC SOURCE =
   .2175+12 i feed
   .1000*04 I feed
     POLLUTANT
       NOX
       SOX
       MC
       CO
       PART
       SULFAT
       PO* HI
       e*
       BC
       e
       CR
       CO
       cu
       PB
       UN

       TOTAL
NATURAL
.2005-01*
.1767+00*
.6317-01*
.3920-01
.9225-01
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
 RURAL
.4520+01*
.3302+01*
.1601+03*
.2539+01
.1076+02
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
                FRACTION:
                          RURAL
                          URBAN
                       .600
                       .100
                          FUEL TYPE 13 - PROCESSED MAT'L

                        CONTROLS*  NOX =   .0000
                                   SOX s   .0000
                          PARTICULATES a   .0000
                                                GAUSSIAN APPROXIMATED SOURCE
                                             EFFECTIVE STACK HEIGHT =   30.00
                                                                                 IH)
 URBAN
.8520+01*
,7052+01*
.16M-1 + 03*
.4039+01*
.1276+02*
.0000   *
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
POLLUTANT
  H6
  MO
  NI
  V
  ZN
  ZR
  AS
  61
  AL
  SB
  CO
  SE
  P
  SR
NATURAL       RURAL        URBAN
.0000        .0000        .0000
.0000        .0000        .0000
.0000        .0000        .0000
.0000        .0000        .0000
.0000        .OOOU        .0000
.0000        .0000        .0000
.0000        .0000        .0000
.0000        .0000        .0000
.0000        .0000        .0000
.0000        .0000        .0000
.0000        .0000        .0000
.0000        .0000        .0000
.0000        .0000        .0000
.0000        .0000        .0000
                                   RURAL
                                   URBAN
                                                       IMPACT FACTORS
                         SINGLE SOURCE
                             .0000
                             .0000
                                           TOTAL IMPACT FACTOR »
                                  AVERAGE SOURCE IMPACT FACTOR =
                               MULTIPLE SOURCE
                                     .0000
                                     .0000

                                 .0000
                                 .0000
                      *  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS  BACKGROUND CONCENTRATION TO 10« OF MEG

-------
                                                                  TABLE  F-l.   Continued
                      INVERSION HEIGHT
                                  (HI
                                           1SOO.
                 1970  —  IMPACT .PARAMETERS
    MIND SPEED  a    1.500             RURAL POP.
         IH/St                         IP/KM2I
                                                                                                           22. SI
                                                                                URBAN POPL.
                                                                                  IP/KM2I
                                                                                                                                       B  SS9.T
                        SECTOR  « - INO. PROCESS COMBUSTION
                                                                    EQUIP TYPE £09 - REFINERT FLARES
                      CONSUMPTION!  TOTAL •
                            SIN6LE SOURCE B
   .7369404 Hg
   .1000*01 Hg
                                                                        FRACTION!
                          RURAL  =
                          URBAN  E
                                                                                            .600
O
O
                           POLLUTANT
                             NOX
                             SOX
                             HC
                             CO
                             PART
                             SULFAT
                             PON HI
                             BA
                             BE
                             8
                             CR
                             CO
                             CU
                             PB
                             TOTAL
NATURAL
.2190-01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
 RURAL
.«S22»01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
                                                                      GAUSSIAN APPROXIMATED SOURCE
                                                                   EFFECTIVE STACK HEIGHT 8   60.00
                                                FUEL TYPE 15 . PROCESSED MAT«L

                                             CONTROLSI  NOX •   .0000
                                                        SOX •   .0000
                                                PARTICIPATES »   .0000
                                                                                                       (HI
 URBAN
.6922*01*
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000

.00000
POLLUTANT
  HG
  HO
  NI
  V
  ZN
  ZR
  AS
  BI
  AL
  SB
  CO
  SE
  P
  SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 RURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 URBAN
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
                                                                             IMPACT FACTORS
                                                         RURAL
                                                         URBAN
                         SINGLE SOURCE
                             .0000
                             .0000
                                                                 TOTAL IMPACT FACTOR •
                                                        AVERAGE SOURCE IMPACT FACTOR *
                                MULTIPLE SOURCE
                                     .0000
                                     .0000

                                 .0000
                                 .0000
                                            •  RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO  10B  OP  MEG

-------
                                           TABLE  F-1.   Continued
INVERSION HEIGHT
            ini
                     1500.
                              197*  --  IMPACT  PARAMETERS
                 HIND SPEED =   i».500             RURAL POP.
                      
-------
                                    TABLE  F-l.    Continued
                                               -• IMPACT PARAMETERS
INVERSION HEIGHT e
(Ml
SECTOR 6 - IND.
CONSUMPTION) TOTAL
SINGLE SOURCE



POLLUTANT
NOX
SOX
HC
CO
PART
SULFAT
POM HI
BA
BE
8
CR
CO
CU
PB
MN
1500. HIND SPEtO = 4.500 RURAL POP. =
(M/SI (P/KM2I
22.34 URBAN POPL. = 359.7
(P/KH2I
PROCESS COMBUSTION EQUIP TYPE 612 - REF . HTR.-NAT. DRAFT. GAS FUEL TTPE 1J • PROCESSED MAT
= .1061+01 (icia KJ/TRI FRACTION: RURAL = .boo
= .1000-02 UE15 KJ/YRI URBAN = .400

GAUSSIAN APPROXIMATED SOURCE
EFFECTIVE STACK HEIGHT = 15.00 0+08 .4636+08 HG
.6705+00* .3796+01* .7546+01* MO
.9640+06 .8070+08 .6254+06 NI
.UOOO * .0000 * .0000 * V
.4259+06 .5022+07 .5808+07 ZN
.0000
.UOOO
.0000
.0000
.UOOO
.UOOO
.0000
.0000
.0000
.0000
.oouo
.oouo
.0000
.oouo
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
ZR
AS
BI
AL
SB
CD
SE
p
SR

CONTROLS: NOX = .0000
SOX = .0000
PARTICULATES = .0000

>
NATURAL RURAL URBAN
.0000
.0000
.0000
.ooon
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.ooou
.0000
.0000
.ooou
.ooou
.0000
.ooou
.0000
.0000
.0000
.0000 .
.0000
.0000
.0000
.0000
.0000
.uooo
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000















 I
o
TOTAL
                          .11629+09
                                       .13473+09
                           RURAL
                           URBAN
                                              IMPACT FACTORS
                                                                 SINGLE SOURCE
                                                                     2596.
                                                                     .1)846+05
                                   TOTAL  IMPACT FACTOR
                          AVERAGE SOURCE  IMPACT FACTOR
MULTIPLE SOURCE
     .1654+07
     .2056+06

 .2222+08
 .2094+05
               *  RATIO OF MAXIMUM SURFACE  CONCENTRATION PLUS BACKGROUND  CONCENTRATION TO ion OF MEG

-------
                        INVERSION HEIGHT
                                    CM)
                                             1900.
                     TABLE  F-l.   Continued
                              1974  --  IMPACT  PARAMETERS
                 WIND  SPEED  «    
-------
INVERSION HEIGHT =   1500.
                                           TABLE F-l.    Continued

                                                   1974 — IMPACT PARAMETERS
                                      WIND  SPEED  =   1.500            RURAL POP. -
                                           IN/S)                        IP/KM2I
                                                                                    22.30
                                                                                                     URBAN  PQPL.
                                                                                                       (P/KH2>
                                                                                                                 s   559,7
  SECTOR  « . INO. PROCESS COMBUSTION
                                              EOUIP  TTPE 6m - REF. HTR.-FOR. ORAFTiGAS
 I
—i
O
CONSUMPTION!  TOTAL
      SIN6LE SOURCE
     POLLUTANT
       NOX
       SOX
       HC
       CO
       PART
       SULFAT
       POM HI
       BA
       BE
       B
       CR
       CO
       CU
       PB
       MN

       TOTAL
                        .1215+00
                        .1000-02
                     NATURAL
                     .2447*08
                     .6705*00*
                     .9640*06
                     .0000    *
                     .8259*06
                     .0000
                     .0000
                     .0000
                     .0000
                     .0000
                     .0000
                     .0000
                     .0000
                     .0000
                     .0000

                     .26279*08
(1E19 KJ/YR)
(1E15 KJ/YR)
                                                 FRACTION!
                                                                                   RURAL
                                                                                   UHBAN
 .600
 .too
          FUEL  TTPE  is  -  PROCESSED  MAT»L

        CONTROLS)  NOX  =    .0000
                  SOX  *    .0000
          PARTICULATES  *    .0000
  RURAL
 .5913+08
 .3796*01*
 .6076*06
 .0000   *
 .5022*07
 .0000
 .0000
 .0000
 .0000
 .0000
 .0000
 .0000
 .0000
 .0000
 .0000

 .14992*09
                                                GAUSSIAN  APPROXIMATED SOURCE
                                             EFFECTIVE  STACK HEIGHT 3   15.00
                                                                                (Ml
                                                                       URBAN
                                                                      .8606*08
                                                                      .75>»6*01*
                                                                      ,6251*08
                                                                      .0000   *
                                                                      .5808+07
                                                                      .0000
                                                                      .0000
                                                                      .0000
                                                                      .0000
                                                                      .0000
                                                                      .0000
                                                                      .0000
                                                                      .0000
                                                                      .0000
                                                                      .0000
                                               .17640+09
POLLUTANT
  HG
  MO
  NI
  V
  ZN
  ZR
  AS
  BI
  AL
  SB
  CO
  SE
  P
  SR
NATURAL
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
 RURAL        URBAN
.0000        .0000
.0000        .0000
.0000        .0000
.0000        .0000
.0000        .0000
.0000        .0000
.0000        .0000
.0000        .0000
.0000        .0000
.0000        .0000
.OOOU        .0000
.0000        .0000
.0000        .0000
.0000        .0000
                                                       IMPACT FACTORS
SINGLE SOURCE
RURAL 3215.
URBAN .6345*05
TOTAL IMPACT FACTOR a
AVERAGE SOURCE IMPACT FACTOR »
MULTIPLE SOURCE
.2345*06
.3085*07
.3319*07
.2731+05
                      •   RATIO  OF  HAXlnun  SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 10* OF MEG

-------
                                                                  TABLE F-l.    Continued
                       INVERSION HEIGHT
                                  (Ml
                                           1500.
                              1974  —  IMPACT PARAMETERS
                 WIND SPEED =   4.500             RURAL POP.
                      (H/SJ                        SP/KM2I
                                                                                                           22.34
                                                                     URBAN  POPL.
                                                                       

= 859.7 SECTOR 6 - IND. PROCESS COMBUSTION EQUIP TTPE 615 - REF. HTR.-FOR. ORAFT.OIL CONSUMPTION! TOTAL « SINGLE SOURCE • .7641-01 .1000-02 (1E15 KJ/YRI (1E15 KJ/YRI FRACTION) RURAL URBAN .600 .400 POLLUTANT NOX SOX HC CO PART SULFAT POM HI BA BE B CR CO cu PB MN TOTAL NATURAL .5144+oa .1496+08 .9970+06 .0000 * .2273+08 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .90125+08 o en RURAL .1226+09 .2971+08 .8076+08 .0000 * .9806+08 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .33115+09 RURAL URBAN GAUSSIAN APPROXIMATED SOURCE EFFECTIVE STACK HEIGHT « 15.00 URBAN .1659+09 .4741+06 .8255+08 .0000 * .1122+09 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .1*2800 + 09 POLLUTANT H6 no NI v ZN ZR AS BI AL SB CD SE P SR IMPACT FACTORS FUEL TTPE 13 - PROCESSED BAT«L CONTROLSI NOX * .0000 SOX * .0000 PARTICULATES * .0000 NATURAL .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 SINGLE SOURCE 7398. .1540+06 TOTAL IMPACT FACTOR * AVERAGE SOURCE IMPACT FACTOR = MULTIPLE SOURCE .3392+06 .4705+07 .5045+07 .6602+05 RURAL URBAN .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 .0000 * RATIO OF MAXIMUM SURFACE CONCENTRATION PLUS BACKGROUND CONCENTRATION TO 101 OF MEG "XOT SUMH


-------
TABLE  F-l.  Continued
        X97i» .. SUMMARY
SOURCE
UTILITY BOILERS
TANGENTIAL BOILERS
EASTERN BITUMIN.

CENTRAL BITUMIN.

WESTERN BITUMIN.

LIGNITE

HIGH S RES. OIL


HCD S RES. OIL


LOW S RES. OIL


DISTILLATE OIL
NATURAL GAS
WALL FIRED BOILER
EASTERN BITUMIN.

CENTRAL BITUHIN,

WESTERN BITUHIN.

LIGNITE

HIGH S RES. OIL
flED S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
NATURAL GAS
OPPOSED WALL BOILER
EASTERN BITUMIN.

CENTRAL BITUHIN.

WESTERN BITUHIN.

LI9NITE

HIGH s RES. OIL


MED S RES. OIL


LOW S RES. OIL


8

G

6

6

G


G


6


G
G

G

G

G

G

6
G
6
G
6

6

6

G

G

G


G


G
SINGLE
RURAL

.31705*08

.31744+08

.31518+06

.00611408

.12501+07


.10075+07


.92355+06


.30895+05
.22914+05

.13243+08

.13338+08

.13110+08

.17022+08

.15838+06
.13602+06
.12794+06
.431U7+04
.11075+C5

.47541+08

. 47669+08

.47395+08

.61222+08

.13660+07


.10986+07


.10060+07
SINGLE
URBAN TOTAL SINGLE SOURCE

.71335+09

.7138<« + 09

.71010+09

.85153+09

.26993+08


.20639+08


. 18418+08


.82825+06
.57325+06

.40961+09

.41201+09

.40599+09

.46743+09

.42179+07
.36129+07
.33879+07
.11575+06
.35452+06

.97264+09

.97470+09

.97028+09

.11878+10

.29602+08


.22551+OB


.20085+08

.72622+11

.43870+11

.23939+11

.13382+10

.51468+09


.98898+09


.11416+10


.18437+07
.32150+08

.56094+11.

.34087+11

.18409+11

.35304+09

.38684+09
.83350+09
.10099+10
.58411+07
.12807+09

.10624+11

.64187+10

.35077+10

.49332+09

.21985+09


.42238+09


.48803+09

.31118+09

.31140+09

.30974+09

.28389+09

.18755+08


.14357+08


.12820+08


.36576+06
.24855+06

.17575+09

.17680+09

.17419+09

.15214+09

.29188+07
.250U3+07
.23447+07
.51115+05
.15366+06

.42689*09

.42775+09

.42378+09

.39920+09

.20567+08


.15686+08


.13979+08

NOX
cu
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX
CU
SE
NOX
NOX

NOX
AL
NOX
AL
NOX
AL
NOX
CR
NOX
NOX
NOX
NOX
NOX

NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SC
NOX

SOX
NI
SPX
NI
SOX
NI
SOX
AL
SOX
PB

SOX
PB

SOX
PB

SOX
PART

SOX

SOX

SOX

SOX
AL
SOX
sox
sox
SOX


sox
PB
SOX
PB
sox
, PB
SOX
CU
sox
PB

sox
PB

sox

PORT
AL
PART
AL
PART
AL
PART

PART
NI

PART
NI

PART
NI


POM HI

PART

PART

PART

PART

CR
CR
CR



PART
NI
PART
NI
PART
NI
PART
NI
PART
NI

PART
NI

PART

BE
CO
BE
CO
BE
CD
BA

CR
V

CR
V

CR
V




BE

BE

BE

BA

NI
NI
NI



BE
AL
BE
AL
BE
AL
a«
AL
CR
V

CR
V

CR

CR

CR

CR

BE

CO
AL

CO
AL

CO
AL




CR

CR

CR

BE

V
V
V



CR
CO
CR
CO
CR
CO
BE

CO
AL

CO
AL

CO

-------
                                            TABLE F-l.    Continued
 I
o
               SOURCE
                DISTILLATE OIL
                NATURAL 6AS
        CYCLONE  BOILER
                EASTERN BITUniN.

                CENTRAL BITUNIN.

                LIGNITE

                HIGH S RES. OIL
                NED  S RES. OIL
                LOW  S RES. OIL
                NATURAL SAS
        VERTICAL *  STOKER BOILER
                ANTHRACITE
              1  EASTERN BITUMIN.
                CENTRAL BITUniN.
                LIGNITE

PACKAGED BOILERS
        WALL FIRED  W-TUBE  >2?Mu
                DISTILLATE OIL
                NATURAL GAS
                PROCESS GAS
                BIT/LIG COAL

                RESIDUAL OIL
        STOKER W-TUBE     >29 MW
                BIT/LIG COAL

        SINGLE BURNER W-T  <29 MW
                DISTILLATE OIL
                NATURAL GAS
                PROCESS GAS
                RESIDUAL OIL
        SCOTCH FIRETUBC    <29 MM
                DISTILLATE OIL
                NATURAL GAS
                PROCESS GAS
                RESIDUAL OIL

        FIREBOX F1RETUBE   <29 HV
                DISTILLATE OIL
                NATURAL  GAS
                PROCESS  GAS
                RESIDUAL  OIL
1971 -- SUHMARY

6
G
6

G

G

G
6
G
G
e
G
6
G
SINGLE
RURAL
.73219+03
.16322406
.37169+08

.37609*08

.46931+06

.25056*06
.21115+06
.20162+06
.87001+01
.17*16+07
.11597*07
.11630+07
.19230+07
SINGLE
URBAN TOTAL SINGLE SOURCE
.19011+07
.10672+07
.00653+09

.810146+1)9

.98797+09

.56920+07
.17226+07
.13699+07
.22075+1)6
.22116+09
.21163+09
.21173+09
.21717+09
.17069+07
.16073+09
.11161+10

.337
-------
                                                                  TABLE  F-l.   Continued
o
00
                                     SOURCE
                BIT/US COAL

        CAST IRON BOILERS
                DISTILLATE OIL
                NATURAL GAS
                RESIDUAL OIL
        STOKER F-T BOILER  <29 MK
                ANTHRACITE

                BIT/LIS COAL

        HRT BOILERS   15 HW
                DISTILLATE OIL
                NATURAL GAS
        SIMPLE CTCLE 4-15 MM
                DISTILLATE OIL
                NATURAL GAS
        SIMPLE CTCLE   <4 MM
                DISTILLATE OIL
                NATURAL GAS

RECIPROCATING I/C ENGINE
        C. I.       >79 Kk/CVi.
                DISTILLATE OIL
                DUAL (OIL + GAS)
        Si I.       >7S KM/CVL
                NATURAL GAS
        C. 1. 75 KM-75 KN/CYL
                DISTILLATE OIL
1974 -- SUMMARY
6
6
G
G
G
G
G
6
G
D
D
0
D
0
D
D
0
D
D
G
G
D
0
D
0
G "
G
G
0
SINGLE
RURAL
.80143+06
.00000
.00000
.41741+02
.12289+06
.70160+05
.68596+03
.00000
.15839+04
.00000
.00000
.00000
•ooooo
.00000
.00000
.00000
.00000
.00000
.00000-
.72520+01*
.3697i + o<«
.00000
.00000
.ooooo
.ooooo
.38501+03
•10192+04
.14014+04
.ooooo
SINGLE
URBAN TOTAL SINGLE SOURCE
.2059S+09 .66697+12 .84903+08
.00000
.00000
.16897+01
.98699+08
.55518+06
.15050+05
.00000
.1*1620+05
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.16370+06
.801)30+05
.00000
.00000
.00000
.00000
.8l<*25+0i«
.17745+05
.24602+05
.00000
.ooooo
.00000
. 24728+08
.10812+11
.51808+12
.56680+08
.00000
.16850+09
.ooooo
.00000
.00000
.00000
.00000
.00000
.ooooo
.00000
.00000
.00000
.23755+08
.12717+08
.00000
.00000
.00000
.ooooo
.60893+07
.17790+08
.23110+09
.ooooo
.00000
.00000
. 70094+03
.23780+08
.22804+08
.55697+0*
.00000
.13595+05
.ooooo
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
,00000
.87040+05
.58024+05
.00000
.00000
.00000
.ooooo
.19365+04
.43644+04
.48815+04
.ooooo
POLLUTANTS EXCEEDING 10i MEG
NOX SOX PART BE CR
CU NI AL CO
NI V
SOX PART POM HI BE CR
CO
SOX PART POM HI BE CR
AL
POM HI
NOX SOX POM HI CR NI
V




NOX SOX HC PAHT
NOX SOX HC PART


NOX SOX HC PART
NOX HC
NOX HC


-------
                                               TABLE  F-l.   Concluded
                                                         1974  ..  SUMMARY
 I
o
                SOURCE
         S. I . 75 KX-75 KN/CfL
                 NATURAL GAS
                 GASOLINE
         S. I.           
-------
                                APPENDIX G
               POLLUTION POTENTIAL SUMMARIES FOR THE ENERGY
                   PROJECTION SCENARIOS IN 1985 AND 2000

        Appendix G presents the summaries of pollution potential for the
energy projection scenarios developed in Section 3.4.  These summaries are
given as follows:

        •   Reference high nuclear energy scenario for 1985: G-l; 2000: G-2
        •   Reference low nuclear energy scenario for 1985: G-3; 2000: G-4
        •   Conservation energy scenario for 1985: G-5; 2000: G-6
        •   Electrification energy scenario for 1985: G-7; 2000: G-8
        •   Synthetics energy scenario for 1985: G-9; 2000: G-10

        The energy projections used in these scenarios are described in
Section 3.4.1.  The assessment of pollution potential for these rankings
was developed using the Source Analysis Model (SAM) described in Section 5.1.
These summaries show that coal-fired sources will continue to be major
pollution sources in the future.  Pollution from natural  gas-fired equipment
should be less significant due to the decreased dependence on natural gas
usage.  The reference low nuclear scenario shows the largest pollution
potential through the year 2000.  The synthetics scenario represents the
lowest total pollution potential.   This low pollution potential results
primarily from using synthetic liquids and gases instead of coal for
stationary combustion.   A complete discussion of the results and conclusions

                                   G-l

-------
of these scenarios is given in Sections 5.3 and 5.4 respectively.
        The results given in these summaries should not be considered as
absolute results.   They are based on  very tenuous  future conditions.   In
addition, some of the data, particularly for POMs  and trace metals, is
preliminary -- to be updated from ongoing testing.   The results  are only
meant as indications of future pollution potential.
                                    G-2

-------
              TABLE  6-1.   POLLUTION POTENTIAL OF THE  REFERENCE HIGH NUCLEAR ENERGY  SCENARIO FOR 1985
                                                        1983 — SUMMARY
CT5
CO
SOURCE
UTILITY BOILERS
TANGENTIAL BOILERS
EASTERN BITUniN.

CENTRAL BITUHIN.

WESTERN BITUniN.

LIGNITE

HIGH S RES. OIL


RED S RES. OIL


LOU S RES. OIL


DISTILLATE OIL
NATURAL GAS
HALL FIRED BOILER
EASTERN BITURIN.

CENTRAL BITUKIN.

WESTERN BITUHIN.

LIGNITE

HIGH S RES. OIL
nCO S RES. OIL
LOU S RES. OIL
DISTILLATE OIL
NATURAL GAS
OPPOSED WALL BOILER
EASTERN BITUHIN.

CENTRAL BITUHIN.

WESTERN BITUHIN.

LIGNITE

HIGH S RES. OIL


flEO S HES. OIL


LOW S RES. OIL


G

G

6

G

G


G


G


G
G

G

G

G

G

G
G
G
G
G

G

G

G

G

G


G


G
SINGLE
RURAL

.34010+06

.31*062+08

.33934+08

.43998+06

.13722+07


.11057+07


.10134+07


.32872+05
.24899+05

.14222+08

.14280+06

.11169+06

.16433+08

.17341+06
•14B85+06
.13996+06
.41768+04
.13722+05

.51466+06

.51548+08

.51361+08

.66769+08

.14935+07


.1199B+07


.10960+07
SINGLE
URBAN

.76865+09

.76931+09

.76733+09

.92414+09

.29625+08


.22645+1)8


.20205+08


.88134+06
.62474+06

.44243+09

. 44412+09

.44115+09

.50848+09

.46189+07
.39543+07
.37071+07
.11236+06
.34619+06

.10552+10

.10562+10

.10530+10

.12961+10

.32338+08


.24592+08


.21882+08
TOTAL SINGLE SOURCE

.15576+12

.94106+11

.51482+11

.28901+10 .

.44988+09


.86412+09


.99714+09


.15618+07
.23251+08

.12062+12

.73143+11

.39822+11

.76433+09

.3373^+09
.72628+09
.67990+09
.45154+07
.82994+08

.22948+11

.13848+11

.73801+10

.10719+10

.19125+09


.36688+09


.42333+09

.33521+09

.33551+09

.33463+09

.30804+09

.20584+08


.15753+08


.14064+08


.36923+06
.27081+06

.18979+09

.19051+09

.18923+09

.16545+09

.31963+07
.27366+07
.25656+07
.49612+05
.15003+06

.46299+09

.46344+09

.46203+09

.43557+09

.22468+08


.17106+08


.15231+08

NOX
CU
NOX
CU
NOX
CU
NOX
Crt
NOX
CU
se
NOX
CU
SE
NOX
CU
SE
NOX
NOX

NOX
AL
NOX
AL
NOX
AL
NOX
CR
NOX
NOX
NOX
NOX
NOX

NOX
CU
NOX
CU
NOX
cu
NOX
CM
NOX
CU
SE
NOX
CU
SE
NOX

SOX
NI
sux
NI
sox
NI
SOX
AL
SOX
P6

SOX
PB

SOX
PH

SOX
PART

SOX

SOX

SOX

SOX
AL
SUX
SUX
SOX
sox


sox
pa
sox
PB
sox
PB
sox
,cu
sox
PB

sox
PB

sox

PART
AL
PART
AL
PART
AL
PART

PART
NI

PART
NI

PART
NI


POM HI

PART

PART

PART

PART

CR
CR
CR



PART
NI
PART
NI
PART
NI
PART
NI
PART
NI

PART
NI

PART

BE
CO
BE
CO
BE
CO
BA

CR
V

CR
V

CR
V




BE

BE

BE

BA

NI
NI
NI



PE:
AL
BE
AL
BE
AL
BA
AL
CR
V

CR
V

CR

CR

CR

CR

BC

CO
AL

CO
AL

CO
AL




CR

CR

CR

BE

V
V
V



CR
CO
CR
CO
CR
CO
BE

CO
AL

CO
AL

CO

-------
                             TABLE  G-l.   Continued
SOURCE
                DISTILLATE OIL
                NATURAL GAS
        CYCLONE BOILER
                EASTERN BITUnlN.

                CENTRAL BITUnlN.

                LIGNITE

                HIGH S RES. OIL
                MEO  S RES. OIL
                LOU  S RES. OIL
                NATURAL GAS
        VERTICAL + STOKER BOILER
                ANTHRACITE
                EASTERN BITUMIN.
                CENTRAL BITUMIN.
                LIGNITE

PACKAGED BOILERS
        WALL FIRED U-TUBE  >29«w
                DISTILLATE OIL
                NATURAL GAS
                PROCESS GAS
                BIT/L1G COAL

                RESIDUAL OIL
        STOKER W-TUBE      >29 HW
                BIT/LIG COAL

        SINGLE BURNER W-T  <29 KM
                DISTILLATE OIL
                NATURAL GAS
                PROCESS GAS
                RESIDUAL OIL
        SCOTCH FIRETUBE    «9«n
                DISTILLATE OIL
                NATURAL GAS
                PROCESS GAS
                RESIDUAL OIL
        FIREBOX FIRETUBE   <29 NH
                DISTILLATE OIL
                NATURAL GAS
                PROCESS GAS
                RESIDUAL OIL
        STOKER FIRED H-TUBE <29 HW
                ANTHRACITE

                BIT/LIG COAL
1905 -- SUMMARY

6
G
6

6

G

G
G
G
G
G
G
G
G
SINGLE
RURAL
.73400+05
.14632+06
.41187+06

.41319+08

.53757+08

.27521+U6
.23557*06
.22147+06
.95569+04
.19131+07
.12739+07
.12775+07
.16730+07
SINGLE
URBAN TOTAL SINGLE SOURCE
.19063+07
.36127+07
.68831+09

.69016+09

.10855+10

.62532+07
.51861+07
.18007+07
.21251+06
.24298+09
.23250+09
.23260+09
.23691+09
.13621+07
.91793+06
.36059+10

.29663+11

.29435+10

.21932+08
.10059+08
.50561+06
.22185+07
.10010+11
.19107+11
.19116+11
.11701+10
.61323+06
.15676+07
.36852+09

.38917+09

.36326+09

.43402+07
.36033+07
.33354+07
.10507+06
.50127+06
.96075+08
.96121+06
.72643+06
oni I IITAIUTC rv^fcmuc i n«
"ULLUTAnlo tr
CU PB
SE
NOX
NOX
NOX
CU
NOX
CU
NOX
CR
NOX
NOX
NOX
NOX
BE
SOX
SOX
PART
SOX
POM HI
SOX
PB
SOX
PB
SUX
AL
SOX
SOX
sox

CH
BE
BE
BE
M.C.t-l-' •»''
NI


PART
NI
PART
NI
PART

CR
CR
CR





V


BE
AL
BE
AL
BA

NI
NI
NI





nee
AL


CH
CD
CR
CO
BE

V
V
V





6
G
6
G

G
G

.14931+04
.98660+03
.96660+03
.31111+07

.60693+05
.20035+07

.41124+05
.26654+05
.26654+05
.26227+09

.22613+07
.24442+09

.41315+07
.15728+08
.22041+07
.18423+11

.10386+10
.47551+11

.28016+05
.10997+05
.10997+05
.13269+09

.94091+06
.91699+06

NOX
NOX
NOX
NOX
AL
NOX
NOX
AL
SOX

SOX

SOX
SOX



PART

CR
PART



BE

NI
BE



CR

V
CR

                            .00000
                            .29537+02
                            .53670+02
                            .39446+04

                            .64466+03
                            .41850+01
                            .65602+01
                            .19331+04

                            .75353+03
                            .00000
                            .61517+01
                            .17261+04

                            .12932+07

                            .68035+06
.00000
.81312+03
.14574+1)4
.13055+06

.16536+05
.96981+05
.16503+06
.50764+05

.16533+05
.00000
.22506+09
.45400+05

.23293+09

.22623+09
.00000
.15994+07
.17063+06
.31265+09

.19141+09
.37788+09
.86064+07
.67290+09

.13100+09
.00000
.10386+09
.41935+09

.34669+10

.11539+12
.00000
.10769+03
.19404+03
.41925+05

.66602+04
.13735+05
.26233+05
.16582+05

.61187+04
.00000
.29845+02
.11830+05

.56667+08

.93273+08
NOX
NOX
NOX    SOX    CH

PON HI
POM HI
NOX    POH HI
sox    pon HI CR

pon HI
NOX
sox
       pon HI CR
NOX    sox    PART
CO     CU     NI
NOX    sox    PART
CU     NI     AL
NI





NI




NI

BE

BE
CO
V

CR

CR

-------
                                                    TABLE  G-l.   Continued
                                                           198S -- SUMMARY
on




















MRH








MS









auuKlb
CAST IRON BOILERS
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
STOKER F-T BOILER 15 HW
DISTILLATE OIL
NATURAL GAS
SIMPLE CYCLE 4 TO IS MM
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE <4 NW
DISTILLATE OIL
NATURAL GAS


6
G
6

e

6


6
6
G

D
0
0
0
0


0
D

0
0

0


6
6

0
0

D
0
SINGLE
RURAL

,00000
.00000
.45852+02

•13500+06

.77069+05


.75363+03
•00000
.17281+04

•OOOUO
.00000
•uoouo
,00000
•ooooo


•ooooo
•ooooo

.00000
.ooooo

.00000


.50105+04
.31935+04

.00000
.ooooo

.ooooo
•ooooo
SINGLE
URBAN

.00000
.00000
.18563+04

.1081(2+09

.60991+06


.16533+05
.00000
.45100+05

.00000
.00000
.00000
.ODOOO
.00000


.00000
.ooooo

.ooooo
.00000

.ooooo


.11041+06
.67860+09

,00000
,00000

.ooooo
.ooooo
TOTAL SINGLE SOURCE

.00000
.ooooo
.37294+08

.25417+11

.32266+12


.85493+08
.00000
.25236+09

.00000
.00000
.00000
.ooooo
.ooooo


.ooooo
.00000

.00000
.00000

.00000


.26731+08
.18132+08

•OOOOO
.00000

.00000
.00000

.ooooo
.00000
.77004+03

.26124+08

.29052+08


.61187+04
.00000
.14830+09

.00000
.00000
.00000
.00000
.00000


.ooooo
.00000

.00000
.ooooo

.00000


.58765+09
.48992+09

.00000
.00000

.00000
.ooooo
POLLUTANTS EXCEEDING 10» RE6



NI V

SOX PART POH HI BE CR
CO
SOX PART POM HI BE CR
AL

pon HI

SOX POH HI CR Nt V

















' NOX SOX HC PART
NOX SOX HC PART






RtCIPROCATINC 1/C ENGINE










C. I. >7S KW/CVL
DISTILLATE OIL
DUAL (OIL + GAS)
5. I. >79 KW/CVL
NATURAL GAS
C. I. 76KW-75KH/CYL
DISTILLATE OIL
S. I. 75KW-75KK/CU
NATURAL GAS
GASOLINE

e
6

6

0

0
0

.39339+03
.11045+04

•15395+0*

.00000

.oooon
.00000

.82530+0*
.19131+05

.27027+03

.00000

.ooooo
.00000

.93843+07
.26328+08

.10805+09

.00000

.00000
.00000

,19653+04
.47097+04

.33626+04

,00000

.00000
,00000

NOX SOX HC PART
NOX HC

NOX HC






-------
                                                TABLE  G-l.   Concluded
                                                         1985  -- SUMMARY
                 SOURCE
        S.  I.           <75
               GASOLINE

INO.  PROCESS COMBUSTION
        CEMENT KILNS
               PROCESSED MAT'L
        GLASS MELTING FURNACES
               PROCESSED MflT'L
        GLASS ANNEALING LEHRS
               PROCESSED MAT'L
        COKE OVtN UNQERFIRE
               PROCESSED MAT'L
        STEEL SINTERING MACHINES
               PROCESSED MAT'L
        OPEN HEARTH FURNCE (OILt
               PROCESSED MAT'L
        BRICK + CERAMIC KILNS
               PROCESSED MAT'
        CAT CRACKING tFCCUt
               PROCESSED MAT'L
        REFINERY FLARES
               PROCESSED MAT'L
        IRON + STEEL FLARES
               PROCESSED MAT'L
        REF. HTR.-NAT. DRAFT.SAS
               PROCESSED MAT'L
        REF. HTR.-NAT. DRAFT.OIL
               PROCESSED MAT'L
        REF. HTR.-FOK. DRftFT.GAS
               PROCESSED MAT'L
        REF. HTR.-FOR. DRAFT.OIL
               PROCESSED MAT'L


'L
1
'L
'L
'L
IES
'L
!L }
'L
'{.
L
L
L
iAS
'L
IIL
'L
>AS
'L
^IL
'L

0
G
G
6
G
G
G
G
G
G
G
G
G
G
G
SINGLE
HURflL
.ODOUO
.12286+01
.00000
.00000
»'»&&17+0'>
.00000
.26306+03
.16372 + 01*
.00000
.00000
.uoooo
,28Jt240it
.72H76 + 0
-------
             TABLE  G-2.   POLLUTION POTENTIAL OF THE  REFERENCE HIGH NUCLEAR ENERGY SCENARIO FOR 2000
                                                        2000 -- SUMMARY
CD
SOURCE
UTILITY BOILERS
TANGENTIAL BOILERS
EASTERN BITUMIN.

CENTRAL BITUHIN.

WESTERN BITUHIN.

LIGNITE

HIGH S RES. OIL


neo s RES. OIL


LOU S RES. OIL


DISTILLATE OIL
WALL FIRED BOILER
EASTERN BITUHIN.

CENTRAL BITUHIN.

WESTERN BITUnlN.

LIGNITE

HIGH S RES. OIL
NEO S RES. OIL
LOU S RES. OIL
DISTILLATE OIL
OPPOSED WALL BOILER
EASTERN BITUHIN.

CENTRAL BITUHIN.

WESTERN BITUHIN.

LIGNITE

HIGH S RES. OIL


HED S RES. OIL


LOW S RES. OIL
•



e

6

6

6

G


6


6


B

6

6

6

6

8
G
G
G

G

8

G

e

G


G


G


SINGLE
RURAL

.37765+08

.37809+08

.57721+06

.48886+08

.12323*07


.12029+07


.11334+07


.39327+09

.15813+08

.19830+08

.19784+08

.20972+08

' .16296+06
.16046+06
.15495+06
.24849+04

.97138+08

.97174+08

. 98034+08

.71150+08

.13927+07


.12769+07


.11998+07


SINGLE
URBAN TOTAL SINGLE SOURCE

.85506+09

.89515+09

.85346+09

.10274+10

.29249+08


.24*39+08


.22588+08


.99124+06

.49279+09

.49323+09

.49201+09

.96803+09

.43273+07
.42565+07
.40931+07
.68214+05

.11718+10

.11724+10

.11884+10

.14391+10

.28819+08


.25800+08


.23748+08



.22810+12

.13777+12

.75396+11

.42300+10

.60739+09


.14760+10


.17645*10


.26686+07

.17688+12

.10693+12

.98452+11

.11243+10

.90017+09
.12377+10
.15379+10
.43338+07

.33553+11

.20236+11

.11262+11

.15670+10

.27003+09


.60924+09


.72749+09



,37287+09

.37304+09

.37217+09

.34244+09

.17964+08


.17000+08


.15722+08


.42001+06

.21137+09

.21197+09

.21104+09

.18481+09

.29947+07
.29458+07
.28328+07
.30091+09

.91419+09

,91441+09

.52148+09

.48369+09

.20042+08


.17952+08


,16933+08



NOX
cu
NOX
CU
NOX
CU
NOX
C«
NOX
CU
se
NOX
CU
sc
NOX
CU
SE
NOX

NOX
AL
NOX
AL
NOX
AL
NOX
CR
NOX
NOX
NOX
NOX

NOX
CU
NOX
CU
NOX
cu
NOX
CR
NOX
cu
SE
NOX
CU
SC
NOX
CU
SE

sox
NI
sox
Nl
SOX
NI
SOX
AL
SOX
PB

SOX
PB

SOX
PB

SOX

SOX

SOX

SOX

SOX
AL
SOX
SOX
SOX
sox

SOX
PB
sox
pa
sox
PB
SOX
cu
sox
pa

sox
PB

sox
PB


PART
AL
PART
AL
PART
AL
PART

PART
NI

PART
NI

PART
NI



PART

PART

PART

PART

CR
CR
CR


PART
NI
PART
NI
PART
NI
PART
NI
PART
NI

PART
NI

PART
NI


BE
CO
BE
CD
BE
CO
BA

CR
V

CR
V

CR
V



BE

BE

BE

BA

NI
NI
NI


BE
AL
BE
AL
BE
AL
BA
AL
CR
V

CR
V

-CR
V


CR

CR

CR

BE

CO
AL

CO
AL

CO
AL



CR

CR

CR

BE

V
V
V


CR
CO
CK
CO
CR
CO
BE

CO
AL

CO
AL

CO
AL


-------
                                                                 TABLE  G-2.    Continued
£75
 I
00
                                   SOURCE
                DISTILLATE  OIL     6
        CYCLONE BOILER
                CENTRAL BITUniN.   G

                LIGNITE           6

                HIGH S RES.  OIL    6
                NED  S RES.  OIL    G
                LOU  S RES.  OIL    G
        VERTICAL + STOKER BOILER
                ANTHRACITE         G
                EASTERN BITUHIN.   G
                CENTRAL BITUNIN.   6
                LIGNITE           G

PACKAGED BOILERS
        WALL FIRED U-TUBE   >29 HU
                DISTILLATE  OIL     G
                NATURAL GAS        6
                PROCESS GAS        6
                BIT/LIG COAL      G

                RESIDUAL OIL      6
        STOKER  W-TUBE      >29 MW
                BIT/LI6 COAL      6

        SINGLE  BURNER H-T   <29 MW
                DISTILLATE  OIL     G
                NATURAL GAS        6
                PROCESS GAS        G
                RESIDUAL OIL      6
        SCOTCH  FIRETUBE    <29 MW
                DISTILLATE  OIL     6
                NATURAL GAS        G
                PROCESS GAS        S
                RESIDUAL OIL      G
        FIREBOX FIRETUBE   <29 MW
                DISTILLATE OIL     G
                NATURAL GAS        G
                PROCESS GAS        6
                RESIDUAL OIL      G
        STOKER  FIRED  U-TUBE  <29 MW
                ANTHRACITE         9

                BIT/LIB COAL      6

        CAST IRON  BOILERS
                DISTILLATE OIL     6
                NATURAL GAS        G
                RESIDUAL OIL      6
        STOKER  F-T BOILER   <29 MW
                ANTHRACITE         6
                                                                           2000 -- SUMMARY
SINGLE
RURAL
.924&9405
.06269408
.60198+08
.30821*06
.26379+06
.24801+06
.21123+07
.14265+07
.14306+07
.18734+07
.12158+04
.63641+03
.63389+03
.94826+07
.66988+05
.22432+07
.17483+02
.32928+02
.59797+02
.42785+04
.94585+03
.90223+04
.96137+04
.21647+04
.84381+03
.00000
.47462+01
.19391+04
•1*481407
.98579406
.00000
.00000
.91345+02
.19117+06
SINGLE
URBAN
.13816+07
.99702+09
.12154+10
.70015+07
.58090+07
.53752+07
.27206+09
.26032+09
.26044+09
.267SO+U9
.34040+05
.17371+05
.17331+05
.29362+09
.29059+07
.27366+09
.53144+03
.90804+03
.16269+04
.14244+06
.20756+09
.10859+06
.20708+06
.56839+05
.18512+05
.00000
.13198+03
.50833+05
.26081+09
.25330+09
.00000
.00000
.20785+04
.12140+09
TOTAL SINGLE SOURCE
.15626+07 .61069+06
.24541+11
.24269+10
.17190+08
.34659+08
.41518+08
.82452410
.16050+11
.16058+11
.93607+09
.37909+07
.92228407
.12881+07
.76151411
.12762410
.74781411
.33856+06
.16063+07
.17140+06
.41460409
.18797409
.38070409
.88728+07
.83593+09
.16263+09
.00000
.54719+04
.51561+09
.54579+10
.65343+12
.00000
.00000
.46296408
.39969+11
.43608+09
.40676+09
.48596+07
.40345+07
.37345+07
.56126+08
.10797+09
.10762+09
.81561+08
.23208+05
.71630+04
.71456+04
.14895+09
.10426+07
.10267+09
.19223+03
.12044+03
.21651+03
.45728+05
.76813+04
.15379+05
.29360+05
.16567+05
.68510+04
.00000
.17470+02
.16604+05
.63694408
.10443409
.00000
.00000
.86219403
.29251408
NOX
NOX
cu
NOX
CR
NOX
NOX
NOX
BE
SOX
SOX
PART
NOX
NOX
NOX
NOX
AL
NOX
NOX
AL
SOX
NOX
NOX
NOX
PON HI
PON HI
NOX
SOX
PDN HI
NOX
SOX
NOX
CO
NOX
CU
NI
sox
sox
SOX
PB
sux
AL
SOX
SOX
sox
CR
BE
BE
BE
SOX
SOX
SOX
SOX
SOX
PON HI
PON HI
PON HI
SOX
CU
SOX
NI
V
PART

PART
NI
PART
CR
CR
CR

PART
CR
PART
CR
CR
CR
PART
NI
PART
AL

PON HI

BE
AL
BA
NI
NI
NI

BC
NI
BE
NI
NI
NI
BC
BC
CO

BC

CR
CO
BE
V
V
V

CR
V
CR
V
V
V
CR
CR

CR

-------
TABLE  G-2.  Continued
        2000 -- SUMMARY


BIT/LIB COAL
HRT BOILERS <29 NW
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
RES/CONN STCAn + HOT WAT
ANTHRACITE
DISTILLATE OIL
NATURAL GAS
BIT/LIB COAL
RESIDUAL OIL
HARM AIR FURNACES
HARM AIR CENTRAL FURNACE
NATURAL GAS
OIL
HARM AIR SPACE HEATER
NATURAL GAS
OIL
MISCELLANEOUS COMBUSTION
NATURAL GAS
9AS TURBINES
SIMPLE CTCLE MS MM
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE 3.7-15 MM
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE O.7 MU
DISTILLATE OIL
NATURAL GAS
RECIPROCATING t/C ENGINE
C. I. >73 KW/CU
DISTILLATE OIL
DUAL (OIL + GAS)
S. I. >73 KW/CVL
NATURAL GAS
C. It 75KW-7SCH/CU
DISTILLATE OIL
S. It 7SKH-75KK/CYL
NATURAL GAS
GASOLINE
S. It <75 KU
GASOLINE


G

G
6
6
0
0
0
0
0


0
D
0
0
D


G
6
D
D
D
D


G
6
6
D
D
D
0
SINGLE
RURAL
.86302+05

.8*J81+03
.00000
.19351*01*
.00000
.00000
.00000
.ODOOO
.00000


tOOOOO
.00000
.00000
.00000
.00000


.32121+01*
.27197+04
.00000
.00000
.00000
.00000


. 38684+03
.12061+0*
.17239+04
.00000
.00000
.00000
.00000
SINGLE-
URBAN
.66289+08

.16512+09
.00000
.50833+05
.00000
.00000
.00000
.00000
.00000


.00000
.00000
.00000
.00000
.00000


.66101+05
.95697+05
.00000
.00000
.00000
.00000


.79693+04
.20646+09
.30262+09
.00000
.00000
.00000
.00000
POLLUTANTS EXCEEDING 10
TOTAL SINGLE SOURCE
.50741+12

.10612+09
,00000
.31326+09
.00000
.00000
.00000
.00000
.00000


.00000
.00000
.00000
.00000
.00000


.38231+08
.3*102+08
.00000
.00000
.00000
.00000


.1*297+08
.32036+08
.45*55+08
.00000
.00000
.00000
.00000
.28050+08

.69510+04
.00000
.16604+09
.00000
.00000
.00000
.00000
.00000


.00000
.00000
.00000
.00000
.00000


,33287+05
.40228+05
.00000
.00000
.00000
,00000


.19033+04
.30940+04
.60045+04
.00000
.00000
.00000
.00000
CO
SOX PART POM HI BE
AL
POM HI
SOX POM HI CR NI










NOX SOX HC PART
NOX SOX HC PART




NOX sox HC PART
NOX HC
NOX HC



                                                            CR

-------
                                                                  TABLE  G-2.   Concluded
                                                                           2000  -- SUMMARY
era
 i
o
                                   SOURCE
INO.  PROCESS  COMBUSTION
        CEMENT KILNS
               PROCESSED WAT'L
        GLASS MELTING FURNACES
               PROCESSED MAT'L
        6LASS ANNEALING LEHRS
               PROCESSED MAT'L
        COKE  OVEN UNDE.RFIRE
               PROCESSED MAT'L
        STEEL SINTERING MACHINES
               PROCESSED MAT'L
        OPEN  HEARTH FUHNCE IOIL)
               PROCESSED HAT'L
        BRICK + CERAMIC KILNS
               PROCESSED MAT'L
        CAT CRACKING IFCCU)
               PROCESSED HAT'L
        REFINERY FLARES
               PROCESSED MAT'L
        IRON + STEEL FLAKES
               PROCESSED MAT'L
        REF. HTR.-NAT. DRAFT.GAS
               PROCESSED MAT'L
        REF. HTR.-NAT. DRAFT.OIL
               PROCESSED MAT'L
        RCF. HTR.-FOR. DRAFT.GAS
               PROCESSED MAT'L
        REF. HTR.-FOR. ORAFT.OIL
               PROCESSED HAT'L

'L
>
'L
'L
'L
its
'L
!L )
L
L
L
L
L
iAS
L
IL
L
iAS
L
IIL
L

6
G
G
G
G
G
G
G
6
G
G
6
G
G
SINGLE
KURAL
.13758+04
.00000
.00000
.52202*01
.00000
.29458+03
. 183J4+01
.00000
.00000
.00000
.29«23tOt
.71*486+04
.3S226+04
.79094*04
SINGLE
URBAN
.26502+05
.00000
.00000
.96910+05
.00000
.55435+04
.33989+05
.00000
.00000
.00000
.53482+05
.14882+06
.67779+05
.15987+06
TOTAL SINGLE SOURCE
.40416+08
.00000
.00000
.42464+09
.00000
.24126+08
.30002+09
.00000
.00000
.00000
.29836+08
.18668+08
.43220+07
.63821+07
.15195+05
.00000
.00000
.23558+05
.00000
.26566+04
.82544+04
.00000
.00000
.00000
.23158+05
.63998+05
.29225+05
.68695+05
SO'X PART


SOX PART

PART
PART



NOX HC PART
NOX SOX HC
NOX HC PART
NOX SOX HC
                                                                                                                                      PART
                                                                                                                                      PART
                  "FIN

-------
TABLE G-3.  POLLUTION  POTENTIAL OF THE REFERENCE LOW NUCLEAR  ENERGY SCENARIO FOR 1985
                                   1985 -- SUMMARY
SOURCE
UTILITY BOILERS
TANGENTIAL BOILERS
EASTERN BITuntN.

CENTRAL BITUniN.

WESTERN BITUntN.

LIGNITE

HIGH S RES. OIL


NED S RES. OIL


LOU S RES. OIL


DISTILLATE OIL
NATURAL GAS
WALL FIRED BOILER
EASTERN BITUniN.

CENTRAL BITUniN.

WESTERN BITUNIN.

LIGNITE

HIGH S RES. OIL
NED S RES. OIL
LOW S RCS. OIL
DISTILLATE OIL
NATURAL GAS
OPPOSED WALL BOILER
EASTERN BITUniN.

CENTRAL BITUniN.

WESTERN BITUniN.

LIGNITE

HIGH S RES. OIL


HEO S RES. OIL


LOW S RES. OIL


G

G

G

G

6


6


6


G
G

6

G

G

G

G
6
G
G
G

6

G

G

G

6


G


G •
SINGLE
RURAL

.5*010+08

.31052+08

.33931+08

.13998+08

.18722+07


.11057+07


.10130+07


.32872+05
.24859+05

.11222+08

.11280+08

.11169+08

.18133+08

.173*1+06
.11885+06
.13998+06
.11768+04
.13722+05

.51186+08

.51518+08

.51361+08

.66789+08

.11935+07


.11998+07


.109BO+07
SINGLE
URBAN

.76865+09

.76931+09

.76733+09

.92111+09

.29629+08


.22615+08


.20205*08


.88131+06
.62171+06

.11213+09

.11112+09

.11115+09

.50818+09

.1A199+U7
.39513+07
.37071+07
.11236+06
.31619+06

.10552+10

.10562+10

.10530+10

.12961+10

.32338+08


.21592+08


.21862+08
TOTAL SINGLE SOURCE

.27259+12

.16170+12

.90109+11

.50570+10

.11988+09


.86112+09


.99711+09


.15618+07
.23251+08

.21110+12

.12600+12

.69697+11

.13378+10

.33738+09
.72628+09
.87990+09
.15151+07
.82991+08

.10159+11

.21233+11

.13265+11

.16757+10

.19123+09


.36688+09


.12333+09

.33521+09

.33551+09

.33163+09

.30801+09

.20581+08


.15753+08


.11061+08


.38923+06
.27091+06

.18979+09

.19051+09

.18923+09

.16515+09

.31963+07
.27366+07
.25656+07
.19612+05
.15003+06

.16299+09

.16311+09

.16203+09

.13557+09

.22168+08


.17106+08


.15231+08

MOX
CU
NOX
CU
NOX
CU
NOX
CH
NOX
eu
SE
MOX
CU
SE
NOX
CU
SE
NOX
NOX

NOX
AL
NOX
AL
NOX
AL
NOX
C»
NOX
NOX
NOX
NOX
NOX

NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
rox
cu
SE
NOX

SOX
NI
SOX
NI
SOX
NI
SOX
AL
SOX
PB

SOX
PB

SOX
PB

sox
PART

SOX

SOX

SOX

sox
AL
SOx
SOX
sox
sox


sox
pa
sox
PB
sox
PH
so»
CH
SOX
PB

SOX
PB

SOX

PART
AL
PART
AL
PART
AL
PART

PART
NI

PART
NI

PART
NI


POM HI

PART

PART

PART

PART

CR
CR
CR



PART
NI
PART
NZ
PART
NI
PART
NI
PART
NI

PART
NI

PART

BE
CO
9E
CO
8E
CO
BA

CR
V

CR
V

CR
V




BE

BE

BE

BA

NI
NI
NI



BE
AL
BE
AL
BE
AL
BA
AL
CR
V

CR
V

CR

CR

CR

CR

BE

CO
AL

CO
AL

CO
AL




CR

CR

CR

BC

V
V
V



CR
CD
CR
CO
CR
CO
BE

CO
AL

CO
AL

CO

-------
                                                                 TABLE  6-3.   Continued
CD

ro
                                 SOURCE
                DISTILLATE OIL
                NATURAL 6AS
        CYCLONE BOILER
                EASTERN BITUHIN.

                CENTRAL BITUMIN.

                LIGNITE

                HIGH S RES. OIL
                BED  S RES. OIL
                LOW  S RES. OIL
                NATURAL GAS
        VERTICAL + STOKER BOILER
                ANTHRACITE
                EASTERN BITUntN.
                CENTRAL BITUMIN.
                LIGNITE

PACKAGED BOILERS
        WALL FIRED W-TUBE  >29 HU
                DISTILLATE: OIL
                NATURAL GAS
                PROCESS GAS
                BIT/LIG COAL

                RESIDUAL OIL
        STOKER  W-TUBE      >29 MW
                BIT/LIG COAL

        SINGLE  BURNER U-T  <29 MU
                DISTILLATE OIL
                NATURAL GAS
                PROCESS GAS
                RESIDUAL OIL
        SCOTCH  FIRETUBC    <29 HW
                DISTILLATE OIL
                NATURAL GAS
                PROCESS GAS
                RESIDUAL OIL
        FIREBOX FIRETUBE   «9 MU
                DISTILLATE OIL
                NATURAL GAS
                PROCESS GAS
                RESIDUAL OIL
        STOKER  FIRED U-TURE <29 MW
                ANTHRACITE

                BIT/LIG COAL
1985 -- SUMMARY

6
6
G

G

G

G
G
G
G
G
G
G
6
SINGLE
RURAL
.73400+05
.14692+06
.41187+08

.41319+08

.53757+08

.27524+06
.23557*06
.22147+06
.95569+04
.19131*07
.12739*07
.12775+07
.16730+07
SINGLE
URBAN TOTAL SINGLE SOURCE
.19063+07
.36127+07
.88834+09

.89046+09

.10655+10

.62532+07
.51881+07
.48007+07
.24251+06
.24298+09
.23250+09
.23260+09
.23891+09
.13624*07
.94793+08
.63103+10

.51697+11

.51511+10

.21932*06
.40059*08
.505&4+06
.22185+07
.17512+11
.33962+11
.33978+11
.20483+10
.84323+06
.15676+07
.38892+09

.38947+09

.36328+09

.43402+07
.36053+07
.33354+07
.10507+06
.50127+08
.96075+06
.96121+08
.72843+08
r um
CU
SE
NOX
NOX
NOX
CU
luOX
CU
NOX
CR
NOX
NOX
NOX
NOX
BE
SOX
SOX
PART
iTAMTtt rvrrrnTNfl 101
I1DI*15 t. AI.C.I.U 1NU AUM
PH NI V
sox
POM HI
SOX
PW
SOX
PR
SOX
AL
sex
sox
sox

CR
BE
BE
BE


PART
NI
PART
NI
PART

CR
CR
CR







BE
AL
BE
AL
BA

NI
NI
NI





MEG
AL


CR
CO
CR
CO
BE

V
V
V





G
G
G
G

G
6

6
G
G
6
G
6
G
G
G
G
6
G
G

G

.14931+04
.96660+03
.98660+03
.31111+07

.60693+05
.20035+07

.00000
.29537+02
.53670+02
.39446+04
.64466+03
.44850+04
.856B2+04
.19331+04
.75353+03
.00000
.81517+01
.17281+04
'.12932+07

.68035+06

.41124+05
.26654+05
.26654+05
.26227+09

.22613+07
.24442+09

.00000
.81312+03
.14574+04
.13055+06
.18536+05
.96961+05
.18503+06
.50764+05
.16533+05
.00000
.22508+03
.45400+05
.23293+09

.22623+09

.41315+07
.15728+06
.22044+07
.64736+11

.10388+10
.83205+11

.00000
.15994+07
.17083+06
.34285+09
.15141+09
.377.8.8 + 09
.88084+07
.67290+09
.13100+09
.00000
.10386+05
.41535+09
.60721+10

.72698+12

.28046+05
.10997+05
.10997+05
.13269+09

.94094+06
.91699+06

.ooono
.10789+03
.19404+03
.41925+05
.68602+04
.13735+05
.26233+05
.16582+05
.61187+04
.00000
.29845+02
.14630+05
.56867+06

.93273+06 »

NOX
NOX
NOX
NOX
AL
NOX
NOX
AL

NOX
NOX
NOX
POM
POM
NOX
SOX
POH

NOX
SOX
NOX
CO
NOX
CU
SOX


sox

sox
sox




sox
HI
HI
POM
POM
HI
1

POM
Sux
CU
sox
Nt



PART

CR
PART




CR


HI
HI CR



HI CR
PART
NI
PART
AL



BE

NI
BE




NI



Nt



NI
BE

BE
CO



CR

V
CR




V



V



V
CR

CR


-------
                                                  TABLE  6-3.   Continued
                                                        1985 -- SUMMARY
£7)




















WAR"








BAS









SOURCE.
CAST IRON BOILERS
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
STOKER F-T BOILER <29 HH
ANTHRACITE

BIT/LIG COAL

HRT BOILERS <29 HH
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
RES/COMM STEAM + HOT WAT
ANTHRACITE
DISTILLATE OIL
NATURAL GAS
BIT/LIG COAL
RESIDUAL OIL
AIR FURNACES
WARM AIR CENTRAL FURNACE
NATURAL GAS
OIL
WARM AIR SPACE HEATER
NATURAL GAS
OIL
MISCELLANEOUS COMBUSTION
NATURAL GAS
TURBINES
SIMPLE CYCLE >15 MK
DISTILLATE OIL
NATURAL 6AS
SIMPLE CYCLE 3.7-15 MW
DISTILLATE OIL
NATURAL GAS
SIMPLE CYCLE <3.7 HH
DISTILLATE OIL
NATURAL GAS


G
G
G

G

6


G
G
G

0
0
D
D
D


D
D

0
D

D


G
G

0
D

0
0
SINGLE
RURHL

.00000
.00000
.15852+02

.13500+06

.77069+05


.75353+03
.OOOUO
.17281+01

•00000
.00000
.00000
.00000
.00000


.00000
.00000

.00000
.00000

.00000


.50105+04
.31935+04

.00000
.00000

.00000
.00000
SINGLE
UNBflN

.00000
.00000
.18563*0'*

.10842+09

.60991+08


.16533+05
.00000
.45400+05

.00000
.00000
.00000
.00000
.00000


.00000
.00000

.00000
.00000

.00000


.11041+06
.67360+05

.00000
,00000

.00000
.00000
TOTAL SINGLE SOURCE

.00000
.00000
.37294+08

.44483'+!!

.56465+12


.65493+08
.00000
.25236+09

.OOOOU
.00000
.00000
.ooonu
.00000


.00000
.00000

.00000
.00000

.00000


.26731+08
.14132+08

.00000
.00000

.00000
.00000

.00000
.00000
.77004+03

.26124+00

.25052+08


.61187+04
.OOOOU
.14830+09

.00000
.00000
.00000
• .00000
.00000


.00000
.00000

.00000
.00000

.00000


.58765+05
.48992+05

.00000
.00000

.00000
.00000



NI V

SOX PART POM HI BE CR
CO
SOX PART POM MI BE CR
AL

POM HI

SOX POM HI CR NI V

















NOX SOX HC PART
NOX SOX HC PART






RECIPROCATING 1/C ENGINE










C. I. >75 KH/CYL
DISTILLATE OIL
DUAL (OIL + GAS)
S. I. >7!> KH/CYL
NATURAL GAS
C. I. 75KH-75KH/CH
DISTILLATE OIL
S. I. 75KH-75KW/CU
NATURAL GAS
GASOLINE

G
G

G

D

D
D

.39339+03
.11045+04

.15395+04

.00000

.00000
.00000

.82930+04
.19131+05

.27027+05

.00000

.00000
.00000

.93843+07
.26328+08

.10805+09

.00000

.00000
.00000

.19653+04
.47097+04

.53626+04

.00000

.00000
.00000

NOX SOX HC PANT
NOX HC

NOX HC






-------
                                                                 TABLE G-3.    Concluded
                                SOURCE
                                                                        19B5 — SUMMARY
                         5. I.
                                 GASOLINE
                                         <75 kW
£75
INO. PROCESS  COMBUSTION
        CEMENT  KILNS
                PROCESSED MAT'L
        GLOSS MELTING FURNACES
                PROCESStD MAT'L
        GLASS ANNEALING LEHRS
                PROCESSED MAT
        COKE  OVEN  UNOiHFIRE
                PROCESSED MAT'L
        STEEL SINTERING MACHINES
                PROCESSED MAT'L
        OPEN  HEARTH FURNCE (OIL)
                PROCESSED MAT'L
        BRICK +  CERAMIC KILNS
                PROCESSED MAT'L
        C«T CRACKING (FCCU)
                PROCESSED MAT'L
        REFINERY FLARES
                PROCESSED MAT'L
        IRON  +  STEEL FLARES
                PROCESSED MAT'L
        REF.  HTR.-NAT. DHAFTtGAS
                PROCESSED MAT'L
        REF.  HTR.-NAT. URAFT
                PROCESSED MAT'L
        REF.  HTR.-FOR. DRAFT,GAS
                PROCESSED MAT'L
        REF.  hTR.-FOR. DRAFT.OIL
                PROCESSED MAT'L


L
i
L
'L
L
if c
1 to
L
>l 1
. L 1
L
L
L
L
L
'AS
L
>IL
L
• AS
L
IlL
L

P
G
G
6
G
G
G
G
G
G
G
G
G
G
G
SINGLE
RURAL
.00000
.12286404
.00000
.00000
.16617 + 014
.00000
.26306+03
.16372+04
.00000
.00000
.00000
.28342+04
•72HT6+OU
,3Uj76+0"t
.7B166+04
SINGLE
URBAN
.00000
.23669+05
.00000
.00000
.66553+05
.00000
."^SlO + Oi*
.30311+05
.00000
.00000
.00000
.52926+05
.11(766 + 06
.67531+05
.16143+06
TOTAL SINGLE SOURCE
.00000
.30097+08
.onooo
.oooou
.31524+09
.00000
.17912+08
.22273+09
.00000
.00000
.00000
.24478+09
.15566+08
.35667+07
.53381+07
.00000
.13571+05
.00000
.00000
.21040+05
.00000
.23727+04
.73720+04
.OOOUO
.00000
.00000
.22871+05
.63421+05
.29075+05
.69261+05

SOX PART


SOX PART

PART
PART



NOX HC PART
NOX SOX HC
NOX HC PART
NOX SOX HC
                                                                                                                                   PART
                                                                                                                                   PART
               "FIN

-------
               TABLE G-4.   POLLUTION POTENTIAL OF THE  REFERENCE LOW NUCLEAR  ENERGY  SCENARIO FOR 2000
                                                      2000 -- SUMMARY
CT3




cn
SUUKCt
UTILITY BOILERS
TANGENTIAL BOILERS
EASTERN BITUniN.

CENTRAL BITUniN.

WESTERN BITUMIN.

LIGNITE

HIGH S RES. OIL


MED S RES. OIL


LOW S RES. OIL


DISTILLATE OIL
WALL FIRED BOILER
EASTERN BITUMIN.

CENTRAL BITUniN.

WESTERN BITUHIN.

LIGNITE

HIGH S RES. OIL
M.ED S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
OPPOSED WALL BOILER
EASTERN BITUMIN,

CENTRAL BITUMIN.

WESTERN BITUMIN.

LIGNITE

HIGH 3 RES. OIL


MED S RES. OIL


LOW S RES. OIL




6

S

G

G

G


6


e


G

G

G

G

G

6
e
G
G

G

G

e

6

G


6


6


SINGLE
RURAL

.37785+08

.37809+08

.37721+08

.40886+08

.12323+07


.12029+07


.11334+07


.39327+05

.15813+08

.15830+08

.15784+08

.20572+08

.16296+06
.16046+06
.15455+06
.24845+04

.57138+08

;57174+OB

.58034+08

.74150+08

.13927+07


.12765+07


.11998+07


SINGLE
URBAN

.85506+09

.85545+09

.85346+09

.10274+10

.25249+08


.24435+06


.22588+08


.95124+06

.49279+09

.49323+09

.49201+09

.56803+09

.43273+07
.42565+07
.40931+07
.68214+05

.11718+10

.11724+10

.11884+10

.14391+10

.28819+08


.25800+08


.23748+08


TOTAL SINGLE SOURCE

.39924+12

.24111+12

.13193+12

.74033+10

.60739+09


.14760+10


.17645+10


.26686+07

.30953+12

.18713+12

.10230+12

.19676+10

.50017+09
.12377+10
.15379+10
.43338+07

.58726+11

.35417+11

.19707+11

.27422+10

.27003+09


.60924+09


.72749+09



,37287+09

.37304+09

.37217+09

.34244+09

.17564+08


.17000+08


.15722+08


.42001+06

.21137+09

.21157+09

.21104+09

.18481+09

.29947+07
.29458+07
.28328+07
.30091+05

.51415+09

.51441+09

.52148+09

.48365+09

.20042+08


.17952+08


.16533+08



NOX
CU
NOX
CU
NOX
CU
NOX
C»
NOX
CU
SE
NOX
CU
SE
NOX
CU
SE
NOX

NOX
AL
NOX
AL
NOX
AL
NOX
CR
NOX
NOX
NOX
NOX

NOX
CU
NOX
cu
NOX
CU
NOX
CR
NOX
CU
SC
NOX
CU
SE
NOX
CU
5E

SOX
Nl
SOX
Nl
SOX
Nl
sox
AL
sox
PB

sox
PB

sox
PB

SOX

sox

sox

sox

sox
AL
sox
sox
sox
sox

sox
PB
sox
PB
sox
PB
sox
CU
sox
PB

sox
PB

sox
PB


PART
AL
PART
AL
PART
AL
PART

PART
Nl

PART
Nl

PART
m



PART

PART

PART

PART

CR
CR
CR


PART
Nl
PART
Nl
PART
Nl
PART
Nl
PART
Nl

PART
Nl

PART
Nl


BE
CO
BE
CO
BE
CD
BA

CR
V

CR
V

CR
V



BE

BE

BE

BA

Nl
Nl
Nl


BE
AL
BE
AL
BE
AL
BA
AL
CR
V

CR
V

CR
V


CR

CR

CR

BE

CO
AL

CO
AL

CO
AL



CR

CR

CR

BE

V
V
V


CR
CO
CR
CO
CR
CD
BE

CO
AL

CO
AL

CO
AL


-------
                                                                  TABLE G-4.    Continued
o
 I
01
                                  SOURCE
                DISTILLATE OIL     G
        CTCLONE BOILER
                CENTRAL BITUMIN.    G

                LIGNITE            G

                HIGH S RES. OIL     G
                RED  S RES. OIL     G
                LOU  S RES. OIL     G
        VERTICAL + STOKER BOILER
                ANTHRACITE         6
                EASTERN BITUMIN.    6
                CENTRAL BITUMIN.    G
                LIGNITE            6

PACKAGED BOILERS
        HALL FIRED U-TUBE  >29 MW
                DISTILLATE OIL     G
                NATURAL GAS        G
                PROCESS GAS        G
                BIT/LI6 COAL       G

                RESIDUAL OIL       G
        STOKER W-TUBE      >29 MW
                BIT/LIG COAL       G

        SINGLE BURNER U-T  <29 KW
                DISTILLATE OIL     G
                NATURAL GAS        G
                PROCESS GAS        G
                RESIDUAL OIL       G
        SCOTCH FIRETUBE    <29 MW
                DISTILLATE OIL     G
                NATURAL GAS        G
                PROCESS GAS        G
                RESIDUAL OIL       G
        FIREBOX FIRETUBE   <29 KW
                DISTILLATE OIL     G
                NATURAL GAS        G
                PROCESS GAS        G
                RESIDUAL OIL       G
        STOKER FIRED W-TUBE <29 MW
                ANTHRACITE         G

                BIT/LIG COAL       G

        CAST IRON BOILERS
                DISTILLATE OIL     G
                NATURAL GAS        G
                RESIDUAL OIL       G
        STOKER F-T BOILER  <29 MW
                ANTHRACITE         G
                                                                          2000 — SUMMARY
SINGLE
RURAL
.46269+08
.60198+08
.30821+06
.26379+06
.24801*06
.21423*07
.14265*07
.14306*07
.18734*07
.12158*04
.63641*03
.63389+03
.34826+07
.66988+05
.22432+07
.17483+02
.32928+02
.59797+02
.42765+04
.94565+03
.50223+04
.96137+04
.21647+04
.84381+03
.00000
.47462+01
.19351+04
.14481+07
.98579+06
.00000
.00000
.51345+02
SINGLE
URBAN
.13816+07
.99702+09
.12154+10
.70015+1)7
.58090+07
.53752+07
.27206*09
.26032*09
.26044*09
.26750*09
.34040*05
.17371+05
.17331*05
.29362*09
.25059*07
.27366*09
.53144+03
.90804+03
.16269+04
.14244+06
.20756+05
.10859+06
.20708+06
.56839+05
.18512+05
.00000
.13198+03
.50833*05
.26081+09
.25330+09
.00000
.00000
.20785+04
TOTAL SINGLE SOURCE
.15626*07 .61069*06
.42946*11
.42485+10
.17190*08
.34659*08
.41518*08
.14429*11
.28100*11
.28113*11
.16381*10
.37909*07
.92228*07
.12881*07
.13327*12
.12762*10
.13086*12
.33856*06
.16063*07
.17140*06
.41460*09
.18797*09
.38070*09
.68728*07
.83593+09
.16263+09
.00000
.54715+04
.51561+09
.95502+10
.11436+13
.00000
.00000
.46296+08
.43608+09
.40676*09
,4B59b+07
.40345+07
.37345+07
.56126+08
.10757+09
. 10762+09
.81561+08
.23208+05
.71630+04
.71456+04
.14855+09
.10426+07
.10267+09
.19223+03
.12044+03
.21651+03
.457*8+05
.76813+04
.15379+05
.29360+05
.18567+05
.68510+04
.00000
.17470+02
.16604+05
.63694+08
.10443+09
.00000
.00000
.86219+03
HULLUI
NOX
NOX
CU
NOX
CR
NOX
NOX
NOX
BE
*SOX
SOX
PART
NOX
NOX
NOX
NOX
AL
NOX
NOX
AL
SOX
NOX
NOX
NOX
POM HI
POM HI
NOX
SOX
POM HI
NOX
SOX
NOX
CO
NOX
CU
NI
Ami &
SOX
SOX
PR
SOX
AL
SOX
SOX
SOX
CR
BE
BE
BE
SOX
SOX
SOX
SOX
SOX
POM
POM
POM
SOX
CO-
SCX
NI
V
t.xie.c.uin
PART
NI
PART
CR
CR
CR

PART
CR
PART
CR
HI
HI CR
HI CR
PART
NI
PART
AL

l*» 1 u»
BE
AL
BA
NI
NI
NI

BE
Nt
BE
NI
NI
NI
BE
BE
CD

nc.u
CR
CD
BE
V
V
V

CR
V
CR
V
V
V
CR
CR

                                                              .15117*06
                                                                           .12140*09
                                                                                       .69946*11
                                                                                                    .29251+08
                                                                                                                                            CR

-------
                                                      TABLE 6-4.   Continued
                                                            2000 -- SUMMART
CT5
I







,
B1T/LS6 COAL
HRT BOILERS <29 HW
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
RES/COHH STEAM + HOT WAT
ANTHRACITE
DISTILLATE OIL
NATURAL GAS
BIT/LIB COAL
RESIDUAL OIL


G

G
G
G
0
0
0
0
0
SINGLE
RURAL
•86302+05

.84381+03
.00000
•I9351t0»
.00000
.00000
.00000
•ooooo
.00000
	 IMPACT
SINGLE
URBAN
•66289+09

.16512+09
.00000
.50833+05
.00000
.00000
.ooooo
.00000
.00000
FACTORS -• 	

POLLUTANTS EXCEEDING It
TOTAL SINGLE SOURCE
.66793+12

.10612+09
.00000
.31326+09
.00000
.00000
.00000
.00000
.ooooo
.28050+08

.68510+04
.00000
.16604+05
.00000
.00000 '
.00000
.ooooo
.00010
CO
SOX PART POM HI BE
AL
POM HI
SOX POM HI CR NI

M«RH «IR FURNACES




GAS




WARN AIR CENTRAL FURNACE
NATURAL 6AS
OIL
WARN AIR SPACE HEATER
NATURAL 6AS
OIL
MISCELLANEOUS COMBUSTION
NATURAL 6AS
TURBINES
SIMPLE CTCLE >15 NW
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE 3.T-15 MM
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE <3.7 HW
DISTILLATE OIL
NATURAL 6AS

0
D
0
D
0


G
G
D
D
0
D

.ooooo
.00000
•ooooo
•ooooo
•ooooo


.32123+04
• 27197+0i(
•ooooo
•ooooo
.00000
.00000

.ooooo
.00000
.00000
.00000
.00000


.66104+05
.55697+05
.00000
.00000
.00000
.00000

.ooooo
.00000
.00000
.00000
.00000


.38231+08
.34102+08
.00000
.ooooo
.00000
.ooooo

.00000
.00000
.ooooo
.00000
.OOPOO


.35287+05
.40228+05
.ooooo
.ooooo
.ooooo
.ooooo






NOX SOX HC PART
MOX SOX HC PART


RECIPROCATIN6 I/C ENGINE






C. I. >7S KW/CYL
DISTILLATE OIL
DUAL (OIL + GAS)
*• '• >7S KW/CYL
NATURAL GAS
£• t« 75KW-75KW/CYL
DISTILLATE OIL
S- '• 75KW-75KW/CYL
NATURAL GAS
GASOLINE '
s« 1« <75 kW
GASOLINE

G
G
G
0
D
D
0

4386811+03
.12061+04
.17239+04
•OOOOO
.00000
.00000
•ooooo

.79693+04
.20646+05
.30262+05
.00000
.00000
.ooooo
.00000

.14297+Ofl
.32036+06
.45455+08
.00000
.00000
.00000
.oonnn

.19033+04
.50940+04
.60045+04
.00000
.00000
.ooooo
. nnnnn

NOX SOX HC PART
NOX HC
NOX HC



                                                                                                                  CR

-------
                                                                 TABLE G-4.    Concluded
                                                                      2000 -- SUMMARY
CO
                               SOURCE
INDt  PROCESS  COMBUSTION
        CEMENT KILNS
               PROCESSED MAT'L
        GLOSS flELTJNG FURNACES
               PROCESSED MAT
        GLASS ANNEALING LEHRS
               PROCESSED MAT'L
        COKE  OVEN UNUEHFIRE
               PROCESSED MAT'L
        STEEL SINTERING MACHINES
               PROCESSED MAT'L
        OPEN HEARTH FURNCE (OIL!
               PROCESSED MAT'L
        BRICK + CERAMIC KILNS
               PROCESSED MAT'L
        CAT CRACKING 
               PROCESSED M«T«L
        REFINERY FLARES
               PROCESSED MAT'L
        IRON + STEEL FLARES
               PROCESSED MAT'L
        REP. HTR.-NAT.  DRAFT.GAS
               PROCESSED MAT
        REF. HTR.-NAT.  DRAFT.OIL
               PROCESSED MAT
        REF. HTR.-FOR.  DRAFT,GAS
               PROCESSED PIAT'L
        REF. HTR.-FOR.  DRAFT,OIL
               PROCESSED MAT'L

•L
•L
•L
•L
jrc
VLo
•L
[L )
'L
'L
'L
L
'L
* A C
ifla
L
IIL
L
' A C
• «;>
L
IT 1
IIL
L

G
G
e
G
G
6
G
G
G
G
6
6
G
G
SINGLE:
MURAL
.137!>fl-fO
-------
TABLE G-5.  POLLUTION POTENTIAL OF THE CONSERVATION ENERGY SCENARIO FOR  1985
                                    19«5 -- SUMMARY
SUUKCt.
UTILITY BOILERS
TANGENTIAL BOILERS
EASTERN BITUHIN.

CENTRAL BITUHIN.

WESTERN BITUHIN.

LIGNITE

HIGH S RES. OIL


WED S RES. OIL


LOW S RES. OIL


DISTILLATE OIL
NATURAL GAS
HALL FIRED BOILER
EASTERN B1TUHIN.

CENTRAL BITUHIN.

WESTERN BITUHIN.

LIGNITE

HIGH S RES. OIL
HED S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
NATURAL, 6AS
OPPOSED- WALL BOILER
EASTERN BITUMIN.

CENTRAL BITUMIN.

WESTERN BITUMIN.

LIGNITE

HIGH S RES. OIL


MCO S RES. OIL


LOW S RES. OIL


G

G

G

G

6


G


6


G
G

G

G

6

6

G
G
G
G
G

G

6

6

e

G


G


G
SINGLE
RURAL

.43740+08

.3383i»+08

.33742+08

.43678+08

.13732+07


•11068+07


•10145+07


.33937+09
.2237J+05

.11150+08

.142311+08

.14128+08

.18368+08

.17397+06
.14941+06
.14054+06
.47352+04
,12007+03

.91099+08

.51148+08

.50998+08

.66258+08

.19005+07


.12068+07


.11090+07
SINGLE
URBAN

•76461+09

.76532+09

.76365+09

.91820+09

.29654+08


.22674+08


.20234+08


.90990+06
.96055+06

.44094+09

.44327+09

.44040+09

.50728+09

.46337+07
.39691+07
.37219+07
.12716+06
.30490+06

.10480+10

.10487+10

.10463+10

.12863+10

.32520+08


.24774+08


.22064+08
TOTAL SINGLE SOURCE

.13325+12

.80522+11

.44065+11

.24704+10

.40906+09


.78592+09


.90724+09


.14650+07
.30626+08

.10337+12

.62771+11

.34190+11

.65592+09 *

.30745+09
.66251+09
.80259+09
.46137+07
.10795+09

.19601+11

.11825+11

.64778+10

.9.1474+09

.17472+09


.33577+09


.38776+09

.33343+09

.33374+09

.33300+09

.30604+09
S
.20604+08

I
.15772+08


.14084+08


,40184+06
,24303+06

.18913+09

.19014+09

.18890+09

.16504+09

.32066+07
.27468+07
.25759+07
.56154+05
.13210+06

.43981+09

.46014+09

.45906+09

.43228+09

.22594+08


.17232+08


.15357+08

NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX
CU
SE
NOX
NOX

NOX
AL
NOX
AL
NOX
AL
NOX
CR
NOX
NOX
NOX
NOX
NOX

NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
cu
SE
NOX

SOX
MI
SOX
NI
SOX
NI
SOX
AL
SOX
PB

SOX
PB

sox
PB

sox
PART

SOX

sox

sox

sox
At
sox
sox
sox
sox


sox
PB
sox
PB
sox
PB
sox
GU
SOX
PB

sox
PB

sox

PART
AL
PART
AL
PART
AL
PART

PART
NI

PART
NI

PART
NI


pon HI

PART

PART

PART

PART

CR
CR
CR



PART
NI
PART
NI
PART
M.
PART
NI
PART
NI

PART
NI

PART

BE
CD
BE
CD
BE
CD
BA

CR
V

CR
V

CR
V




BE

BE

BE

BA

NI
NI
NI



BE
AL
BE
AL
BE
AL
BA
AL
CR
V

CR
V

CR

CR

CR

CR

BE

CO
AL

CO
AL

CO
AL




CR

CR

CR

BE

V
V
V



CR
CO
CR
CD
CR
CD
BE

CO
AL

CO
AL

CO

-------
                                                                 TABLE  G-5.   Continued
IN3
O
                                 SOURCE
                OISTILt*TE OIL
                NATURAL GAS
        CYCLONE BOILER
                EASTERN BITUHIN.

                CENTRAL BITUHIN.

                LIGNITE

                HIGH S RES. OIL
                HCD  S RES. OIL
                LOU  S RES. OIL
                NATURAL GAS
        VERTICAL + STOKER  BOILER
                ANTHRACITE
                EASTERN BITUfllN.
                CENTRAL BITUNIN.
                LIGNITE

PACKAGED BOILERS
        WALL FIRED W-TU8E   >29 MW
                DISTILLATE OIL
                NATURAL GAS
                PROCESS GAS
                BIT/LI6 COAL

                RESIDUAL OIL
        STOKER  W-TUBE       >29 HW
                BIT/LIG COAL

        SINGLE  BURNER  H-T   (29 MW
                DISTILLATE OIL
                NATURAL 6AS
                PROCESS GAS
                RESIDUAL OIL
        SCOTCH  FIRETUBE    <29 MW
                DISTILLATE OIL
                NATURAL GAS
                PROCESS GAS
                RESIDUAL OIL

        FIREBOX FIRETUBE   <29 MW
                DISTILLATE OIL
                NATURAL GAS
                PROCESS GAS
                RESIDUAL OIL
        STOKE"  FIRED W-TUBE <29 MW
                ANTHRACITE

                BIT/LIG COAL
1985 -- SUHMARf

G
G
G

G

G

G
G
6
G
6
G
6
6
SINGLE
RURAL
.60462+05
.128U4+06
.41187+08

.41319+08

.537S7+08

.27524+06
.23557+06
.22147+06
.95569+04
.19131+07
.12739+07
.12775+07
.16740+07
SINBLE
UKBAN TOTAL SINGLE SOURCE
.20885+07
.31821+07
.88834+09

.89046+09

.10855+10

.62532+07
.51881+07
.48007+07
.24251+06
.24298+09
.23250+09
.23260+09
.23891+09
.13564+07
.12325+09
.36059+10

.29663+11

.29435+10

.21932+06
.40059+08
.50564+08
.22185+07
.10010+11
.19407+11
.19416+11
.11704+10
.92386+06
.13802+07
.38852+09

.38947+09

.36328+09

.43402+07
,36033+07
.33354+07
.10507+06
.50127+00
.96075+08
.96121+08
.72843+08

POCLUTAWTS EXCEEDING ion *"c
cu Pa NI v
SE
NOX
NOX
NOX
CU
NOX
CU
NOX
CR
NOX
NOX
NOX
NOX
BE
SOX
SOX-
PART
SOX
PON HI
SOX
PB
SUX
PB
SOX
AL
SUX
SOX
SOX

CH
BE.
BE
Bt


PART
M
PART
NI
PART

CR
CR
CR







BE
AL
BE
AL
BA

NI
NI
NI





nt w
AL


CR
CO
CR
CD
BE

V
V
V





G
G
G
G

G
G

G
G
G
G
G
G
G
G

G
G
G
G
G *

G
•S1474+03
.11116+04
•11116+04
.30979+07

.99498+05
.199S5+07

.15613+02
.29600+02
.596V2+02
.38236+04
.84466+03
.44850+04
.85918+04
.19373+04

.75353+03
.uoouo
.82102+01
.17281+04
.12932+07

.88035+06
.23057+05
.29954+05
.29954+05
.26200+09

.22292+07
.24424+09

.47464+03
.81414+03
.16282+04
.12731+06
.18538+05
.96981+03
.18513+06
.50882+05

.16533+05
.00000
.22603+03
,45400+05
.23293+09

.22623+09
.21209+07
.16055+08
.22483+07
.72550+11

.93794+09
.71252+11

.24973+06
.14543+07
.17314+06
.30619+09
.13873+09
.34318+09
.00036+07
.61830+09

.12001+09
.00000
.94790+0*
.38052+09
.52034+10

.62278+12
.15717+05
.12360+05
.12360+05
.13255+09

.92739+06
.91627+06

.17168+03
.10605+03
.21673+03
.40869+05
,68602+04
,13735+05
.26246+05
.16621+05

.61187+04
.00000
,29992+02
.14830+05
,56887+08

.93273+08
NOX
NOX
NOX
NOX
AL
NOX
NOX
AL
SOX
NOX
NOX
NOX
pon
POM
NOX
NOX
V
POM

NOX
SOX
NOX
CO
NOX
SOX


SUX

SOX
SOX




SOX
HI
HI
PON
SOX

HI


POM
SOX
CU
SUX



PART

CR
PART




CR


HI
PON HI




HI CR
PART
NI
PART



BE

NI
BC




NI



CR




NI
BC

BE



CR

V
CR




V



NI




V
CR

CR

-------
                                                     TABLE  6-5.   Continued
                                                              1963 -- SUHMARY
CD
 I
rsi
SUUHLL


CAST IRON BOILERS
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
STOKER F-T BOILER <29 MW
ANTHRACITE

BIT/LIG COAL

HRT BOILERS <29 MW
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
RES/COMM STEAM + HOT HAT
ANTHRACITE
DISTILLATE OIL
NATURAL GAS
BIT/LIG COAL
RESIDUAL OIL
HARM AIR FURNACES
WARM AIR CENTRAL FURNACE
NATURAL GAS
OIL
WARM AIR SPACE HEATER
NATURAL GAS
OIL
MISCELLANEOUS COMBUSTION
NATURAL GAS
GAS TURBINES
SIMPLE CYCLE >15 MW
DISTILLATE OIL
NATURAL GAS
SIMPLE CYCLE 3.7-15 MW
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE <8.7 MW
DISTILLATE OIL
NATURAL GAS
RECIPROCATING I/C ENGINE
C. I. >7b KW/CYL
DISTILLATE OIL
DUAL (OIL + GAS)
S. I. >75 KW/CYL
NATURAL GAS
C. I. 75KW-75KH/CYL
DISTILLATE OIL
S. I. 75KU-75KM/CYL
NATURAL GAS




6
G
G

6

e


e
G
6

D
0
0
0
0


D
0

D
D

0


6
6

D
D

0
0


S
B

G

D

D
SINGLE
RURAL


.00000
.00000
.45852+02

.13500+06

.77069+05


.75353+03
.00000
.17281+04

.00000
.00000
.00000
.ooouo
.00000


.00000
.00000

.00000
.00000

.00000


.55069+04
.29615+04

.00000
.00000

.00000
.00000


.39494+03
.11047+04

.15395+04

.00000

.udooo
SINGLE
URBAN


.00000
.00000
.18563+04

.10642+09

.60991+08


.16533+05
.00000
.45400+03

.00000
.00000
.00000
.00000
.00000


.00000
.00000

.00000
.00000

.00000


.12183+06
.62751+03

.00000
.00000

.00000
.00000


.82779+04
.19134+05

.27027+05

.00000

.00000

TOTAL


.00000
.00000
.34173+08

.38120+11

.48389+12


.78319+08
.00000
.23119+09

.00000
.00000
.00000
.00000
.00000


.00000
.00000 '

.00000
.00000

.00000


.20643+08
.11567+08

.00000
.00000

.00000
.00000


.80363+07
.24962+08

.10805+09

.00000

.00000

SINGLE SOURCE


.00000
.00000
.77004+03

.26124+08

.25032+08


.61187+04
.00000
.14830+09

.00000
.00000
.00000
.00000
.00000


.00000
.00000

.00000
.00000

.00000


.64630+03
.45298+05

.00000
.00000

.00000
.00000


.19715+04
.47107+04

.53626+04

.00000

.00000
POLLUTANTS EXCEEDING 101 MEB

CU NI AL CO



NI V

SOX PART POM HI BE CR
CO
SOX PART POM HI BE CR
AL

POM HI

SOX POM HI CR NI V

















NOX SOX HC PART
NOX SOX HC PART








NOX • SOX HC PART
NOX HC

NOX HC





-------
                                                                 TABLE G-5.    Concluded
CD
 I
ro
ro
                                    SOURCE
                GASOLINE
        S.  I.           
'L
n i
LL. 1
'L
'L
'L
'L
'L
L AC
•HO
'L
I Tl
' 1 U
'L
i AC
'Ad
L
ITI
>^L
L
D
0
6
G
6
G
6
6
e
e
G
6
G
e
e
e
SINGLE
RUR«L
.UOOUO
.00000
• 122t>6*0<»
.OOQUO
.OOOUO
.16617*01
.00000
.26306+03
.16372+01
.00000
.00000
.00000
.20311+01
.72381+0*
.31319+04
.raotT+o*
SINGLE
URBAN
.00000
.00000
.23669+05
.00000
.00000
.86553 + 1)5
.00000
.19510+Ot
.30311+05
.00000
.00000
.00000
.52877+05
.1*753+06
.67439+05
.16123+06
TOTAL SINGLE SOURCE
.00000 .00000
.00000
.32159+08
.00000
.onooo
.33787+09
.00000
.19193+08
.23873+09
.00000
.00000
.00000
.26210+08
.16637+08
.36260+07
,57053+07
.00000
.13571+05
.00000
.00000
.21040+05
.00000
.23727+04
.73720+04
.00000
.00000
.00000
.22850+05
.63356+05
.29035+05
.69176+05

SOX PART


SOX PART

PART
PART



NOX HC PART
NOX SUX HC
NOX HC PART
NOX SOX HC
                                                                                                                                      PART
                                                                                                                                      PART
                  •FIN

-------
               TABLE  G-6.   POLLUTION POTENTIAL OF THE CONSERVATION  ENERGY  SCENARIO FOR 2000
                                                       2000 --
cn
i
ro
co
SOURCE
UTILITY BOILERS
TANGENTIAL BOILERS
EASTERN BITUMIN.

CENTRAL BITUMIN.

WESTERN BITUniN.

LIGNITE

HIGH S RESi OIL


flEO S RES. OIL


LOU S RES. OIL


DISTILLATE OIL
WALL FIRED BOILER
EASTERN BITUniN.

CENTRAL BITUHIN.

WESTERN BITUniN.

LIGNITE

HIGH S RES. OIL
MED S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
OPPOSED WALL BOILER
EASTERN BITUfllN.

CENTRAL BITUniN.

WESTERN BITUHIN.

LISNITE

HIGH S RES. OIL


BED S RES. OIL


LOW S RES. OIL




6

6

e

6

9


e


9


6

6

e

G

G

6
6
G
6

6

G

G

6

G


6


G


SINGLE
RURAL

.38126+06

.38135*08

.88029+08

.49325*08

.14773+07


.12334*07


.11336+07


.39S7H+05

.15936+08

.16010+08

.13883+08

.20674+08

.18459+06
.16415+06
.15568+06
.36146+04

.57730+08

.57767+08

.57577+08

.74979+08

.13596+07


.13117+07


.12153+07


SINGLE
URBAN

.86140+09

.86143+09

.85972+09

.10357+10

.31697+08


.25267+08


.22592+08


.95522+06

.49559+09

.49764+09

.49428+09

.56999+09

.49103+07
.43581+07
,41230+07
.98094+05

.11828+10

.11833+10

.11802+10

.14548+10

.33186+U8


.26691+08


.24143+08


TOTAL SINGLE SOURCE

.16417+12

.99128+11

.54248+11

.30475+10

.43360+09


.86841+09


.10044+10


.15249+07

.12709+12

.77096+11

.41967+11

.80596+09

.32306+09
.72113+09
.88157+09
.35482+07

.24195+11

.14593+11

.79899+10

.11316+10

.17684+09


.33857+09


.42094+09



.37567+09

.37369+09

,37492+09

.34524+09

.22027+08


.17976+08


.15725+08


.42182+06

.21259+09

.21348+09

.21203+09

.18547+09

.33981+07
.30161+07
.28535+07
.43296+05

.51902+09

.51925+09

.51784+09

.48893+09

.23066+08


.18570+08


.16806+08



NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX
CU
SE
NOX

NOX
AL
NOX
AL
NOX
AL
NOX
CR
NOX
NOX
NOX
NOX

NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX
CU
SE

SOX
NI
SOX
NI
SUX
NI
SOX
AL
SOX
PB

SOX
PB

sox
PB

SOX

SOX

SOX

SOX

SOX
AL
sox
sox
SUX
sox

sox
PB
sox
pa
sox
PB
sox
cu
sox
PB

sox
Pt)

SUX
PB


PART
AL
PART
AL
PART
AL
PART

PART
NI

PART
NI

PART
NI



PART

PART

PART

PART

CR
CR
CR


PART
NI
PART
NI
PART
NI
PART
NI
PART
NI

PART
NI

PART
NI


BE
CO
BE
CO
BE
CO
BA

CR
V

CR
V

CR
V



BE

BE

BE

BA

NI
NI
NI


BE
AL
BE
AL
BE
AL
BA
AL
CR
V

CR
V

CR
V


CR

CR

CR

BE

CO
AL

CO
AL

CO
AL



CR

CR

CR

BE

V
V
V


CR
CO
CR
CO
CR
CD
BE

CO
AL

CO
AL

CO
AL


-------
                                                                TABLE G-6.    Continued
£73
 I
ro
                                  SOURCE
                DISTILLATE OIL
        CYCLONE BOILER
                CENTRAL BITUMIN.

                LIGNITE

                HIGH S RES. OIL
                RED  S RES. OIL
                LOW  S RES. OIL
        VERTICAL * STOKER  BOILER
                ANTHRACITE
                EASTERN BITUHIN.
                CENTRAL BITUHIN.
                LIGNITE

PACKAGED BOILERS
        WALL FIRED U-TUBE   >29 HU
                DISTILLATE OIL  •
                NATURAL GAS
                PROCESS GAS
                BIT/LIG COAL
                RESIDUAL OIL
        STOKER  W-TUBE      >29 HW
                BIT/LIS COAL
        SINGLE  BURNER W-T   
-------
                                                       TABLE  6-6.   Continued
                                                                2000 -- SUMMARY
IN}
C_n











UARI








8AS








SUUKtt.
HRT BOILERS «9.3 MW
DISTILLATE OIL
NATURAL GAS
RESIDUAL OIL
RES/CONM STEAM + HOT WAT
ANTHRACITE
DISTILLATE OIL
NATURAL GAS
BIT/LIS COAL
RESIDUAL OIL
* AIR FURNACES
WARM AIR CENTRAL FURNACE
NATURAL GAS
OIL
HARM AIR SPACE HEATER
NATURAL GAS
OIL
MISCELLANEOUS COMBUSTION
NATURAL GAS
TURBINES
SIMPLE CTCLE >15 MW
DISTILLATE OIL
SIMPLE CYCLE 3.7-13 MW
DISTILLATE OIL
NATURAL GAS
SIMPLE CYCLE <3,7 MW
DISTILLATE OIL
NATURAL GAS


e
6
G

D
D
0
D
D


D
D

0
D

0


6

D
0

D
D
SINGLE
RURAL

.S4381+03
.OOOUO
.19391+04

.00000
.00000
.00000
.00000
.00000


,00000
.00000

.00000
.00000

.00000


.31944+04

.00000
.00000

.00000
.00000
SINGLE
URBAN

.18512*05
.00000
.50833+05

.00000
.00000
.00000
.00000
.00000


.00000
.00000

.00000
,00000

.00000


.63815+05

.00000
.00000

.00000
.00000
TOTAL SINGLE SOURCE

.90668+08
.00000
.26771+09

.00000
.00000
.00000
.00000
.00000


.00000
.00000

.00000
.00000

.00000


.39660+08

.00000
.00000

.00000
.00000

.68510+04
.00000
.16604+05

.00000
.00000
.00000
.00000
.00000


.00000
.00000

.00000
.00000

.00000


.35131+03

.00000
.00000

.00000
.00000
POLLUTANT
AL

POM HI

SOX POM

















NOX SOX






RECIPROCATING I/C ENGINE











I NO






C. I. >75 KW/CYL
DISTILLATE OIL
DUAL (OIL * GAS)
S. I. >7S KW/CYL
NATURAL GAS
C. I. 75KW-75KW/CYL
DISTILLATE OIL
S. I. 75KW-75KW/CYL
GASOLINE
S. I. <73 KM
GASOLINE
. PROCESS COMBUSTION '
CEMENT KILNS
PROCESSED MAT'L
GLASS MELTING FURNACES
PROCESSED MAT'L
GLASS ANNEALING LEHRS
PROCESSED MAT'L

G
6

0

0

D

D


G

G

6

.36807+03
.12008+04

.17239+04

,00000

.00000

.00000


.13758+04

.00000

.00000

.74961+04
.20514+05

.30262+05

.00000

.00000

.00000


.26302+05

.00000

.00000

.19636+08
.36857*08

.45455+08

.00000

.00000

.00000


.40425+08

.00000

.00000

.17937+04
.50635+04

.60045+04

.00000

.00000

.00000


.15195+05

.00000

.00000

NOX SOX
NOX HC

NOX HC






'

SOX PART




                                                                                                            HC
                                                                                                                 PART
                                                                                                           HC
                                                                                                                 PART
                t*

-------
                                                                TABLE G-6.    Concluded
CD

ro
en
"FIN
                                    SOURCE
          COKE OVEN UNDERFIRE
                  PROCESSED MAT'L
          STEEL SINTERING MACHINES
                  PROCESSED MAT'L
          OPEN HEARTH FURNCE  (OIL)
                  PROCESSED MAT
          BRICK + CERAMIC KILNS
                  PROCESSED HAT'L
          CAT CRACKING (f-CCU)
                  PROCESSED MAT'L
          REFINERY FLARES
                  PROCESSED M
          IRON + STEEL FLARES
                  PROCESSED MAT'L
          REF. HTR.-NAT. DRAFT
                  PROCESSED MAT'L
          REF. HTR.-NAT. ORAFT.OIL
                  PROCESSED MAT'L
          REF. HTR.-FOR. DRAFT.6AS
                  PROCESSLD MAT'L
          REF. HTR.-FOR. DRAFT.OIL
                  PROCESSED MAT'L
                                                                            2000 -- SUMMAKT

L
Iff
• E.O
L
' 1 1
' L f
'L
L
L
L
L
;* C
IR3
L
in
'1 L
L
; AC
'Wo
L
itl
'*U
L

G
G
6
e
G
G
G
G
G
G
6-
SINGLE
RUHAL
.S22U?*OH
.OOOUO
.291)50 + 03
.IBSiH-tOt
.UOOUO
.00000
.00000
.29697+OH
.T^Stt+OH
.35265+04
.7917J+OH
— -- jnpALi f
SINGLE
UKBAN
.96910+05
.00000
.55MJ5+OH
.3J939+05
.00000
.00000
.00000
.5"»217+03
. m892»l)6
,67«i»l + 05
.16000+06
TOTAL SINGLE SOURCE
.12)176 + 09
.00000
.21132+08
.30010+09
.00000
.00000
.00000
.30236+08
.1A8B1+08
.43260+07
.63871+07
.23558+05
.00000
.26566+04
.82544+04
.00000
.00000
.00000
.23469+0!
.61040+05
.29252+05
.68750+05
SOX PART

PART
PART



NOX HC PART
NOX SOX HC
NOX HC PART
NOX SOX HC
                                                                                                                                      PART
                                                                                                                                      PART

-------
                    TABLE 6-7.   POLLUTION POTENTIAL OF  THE ELECTRIFICATION  ENERGY SCENARIO FOR  1985
                                                        19&5 -- SUttMART
ST)
ro
•-J
SUUKLfc.
UTILITY BOILERS
TANGENTIAL BOILERS
EASTERN BITUM1N.

CENTRAL BITUHIN.

WESTERN BITUNIN.

LIGNITE

HIGH S RES. OIL


NED S RES. OIL


LOU S RES. OIL


DISTILLATE OIL
NATURAL GAS
HALL FIRED BOILER
EASTERN BITUniN.

CENTRAL BITUHIN.

WESTERN BITUHIN.

LIGNITE

HIGH S RES. OIL
MED S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
NATURAL GAS
OPPOSED WALL BOILER
EASTERN BITUP1IN.

CENTRAL BITUNIN.

WESTERN BITUHIN.

LIGNITE

HIGH S RES. OIL


MED S RES. OIL


LOW S RES. OIL


G

G

G

G

G


S


6


G
G

6

G

G

S

6
S
G
G
G

G

6

G

G

G


G


G
SINGLE
RURAL

.33999+08

.34039+08

.33953+06

.43952+08

.13732+07


.11066+07


.10145+07


.33937+05
.29020+05

.14213+08

.14265+08

.14164+06

.16434+08
!
.17397+06
.14941+06
.14054+06
.473S2+04
.15251+05

.51470 + 08-

.51530+06

.51344+08

.66804+06

.15005+07


.12068+07


.11050+07
SINGLE
URBAN

.76846+09

.76911+09

.76772+09

.92326+09

.29654+06


.22674+08


.20234+08


.90990+06
.62733+06

.44220+09

.44362+09

.44096+09

.50853+09

.46337+07
.39691+07
.37219+07
.12716+06
.38608+06

.10549+10

.10559+10

.10527+10

.12965+10

.32520+08


.24774+08


.22064+06
TOTAL SINGLE SOURCE

.17480+12

.10562+12

.97620+11

.32432+10

.26677+09


.51652+09


.59609+09


.96263+06
.24396+06

.13533+12

.82014+11

.44689+11

.85629+09

.20201+09
.43517+09
.52740+09
.30501+07
.96689+08

.85754+11

,15540+11

.65049+10

.12035+10

.11480+09


.27056+09


.25477+09

.33513+09

.33542+09

.33460+09

.30775+09

.20604+08


.15772+08


.1*084+08


.40184+06
.27197+06

.16969+09

.19030+09

.16913+09

.16546+09

.32066+07
.27468+07
.25759+07
.56154+05
.16729+06

.46287+09

.46331+09

.46191+09

.43571+09

.22594+08


.17232+08


.15357+08

NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX
CU
SE
NOX
NOX

NOX
AL
NOX
AL
NOX
AL
NOX
CR
NOX
NOX
NOX
NOX
NOX

NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX

SOX
NI
sox
Nl
SOX
Nl
sox
AL
sox
PB

SOX
PB

SOX
PB

SOX
PART

sox

sox

sox

SOX
AL
sox
sox
sox
sox


sox
PB
sox
PB
sox
PB
sox
'Cu
sox
PB

sox
PB

sox

PART
AL
PART
AL
PART
AL
PART

PART
NI

PART
NI

PART
NI


POH HI

PART

PART

PART

PART

CR
CR
CR



PART
NI
PART
NI
PART
NI
PART
NI
PART
NI

PART
NI

PART

BE
CO
BE
CD
BE
CD
BA

CR
V

CR
V

CR
V




BE

BE

BE

BA

NI
NI
NI



BE
AL
BE
AL
BE
AL
BA
AL
CR
V

CR
V

CR

CR

CR

CR

BE

CO
AL

CO
AL

CO
AL




CR

CR

CR

BE

V
V
V



CR
CD
CR
CD
CR
CD
BE

CO
AL

CO
AL

CO

-------
                                                                 TABLE G-7.    Continued
CD
CO
                                  SOURCE
                DISTILLATE OIL     G
                NATURAL GAS       G
        CYCLONE BOILER
                EASTERN BITUnlN.   G

                CENTRAL BITUHIN.   G

                LIGNITE           G

                HIGH S RES. OIL    6
                flLO  S HES. OIL    G
                LOW  S RES. OIL    6
                NATURAL GAS       G
        VERTICAL + STOKER  BOILER
                ANTHRACITE        6
                EASTERN BITUNIN.   G
                CENTRAL BITUNIN.   G
                LIGNITE           6

PACKAGED BOILERS
        WALL FIRED W-TUBE   >29 HW
                DISTILLATE OIL     6
                NATURAL GAS       6
                PROCESS GAS       G
                BIT/LIG COAL     ' 6

                RESIDUAL OIL      S
        STOKER W-TUBE      >29 MM
                BIT/LIG COAL      6

        SINGLE BURNER W-T   <29 HW
                DISTILLATE OIL     G
                NATURAL GAS       6
                PROCESS GAS       G
                RESIDUAL OIL      G
        SCOTCH FIRETUBt    <29 HW
                DISTILLATE OIL     6
                NATURAL GAS       G
                PROCESS GAS       G
                RESIDUAL OIL      G

        FIREBOX FIRETUBE   <29 MM
                DISTILLATE OIL     6
                NATURAL GAS       6
                PROCESS GAS       G
                RESIDUAL OIL      G
       , STOKER FIRED W-TURE <29 HW
                ANTHRACITE        G
                                                                          1965 — SUhHARY
                                  BIT/US COAL
                                                     G
SINGLE
RURAL

.80162+05
.16209406
.11187406

.11319408

.53757408

.27521+06
.23557+06
.22117+06
.95569+01
.19131+07
.12739+07
'.12775+07
.167*0+07
.16691+01
.11116+01
.11121+01
.30981+07

.60117+05
.19956+07

.15613+02
.29600+02
.599U8+02
.38891+01
.61166+03
,116!>0 + 0l
.85918+01
.19373+01

.75363+03
.00000
.62111+01
.17281+01
.12992+07

.86035+06
SINGLE
URBAN

.20665+07
.10196+07
.66831+09

.89016+09

.10855+10

.62532+07
.51881+07
.18007+07
.21251+06
.21298+09
.23250+09
.23260+09
.23891+09
,15871+05
.29951+05
.29967+05
.26200+09

.22537+07
. 21121+09

.17161+03
.61111+03
.16285+01
.12915+06,
.16536+05
.96981+05
.16513+06
.50882+05

.16533+05
.00000
.22605+03
.15100+05
.23293+09

.22623+09
TOTAL SINGLE SOURCE

.89132+06
.11017+09
.36059+10

.29663+11

.29135+10

.21932+08
.10059+08
.50561+08
.22165+07
.10010+11
.19107+11
.19116+11
.11701+10
.11666+07
.16008+06
.22131+07
.71162+11

.93562+09
.69666+11

.21615+06
.11501*07
.17269+06
.30617+09
.13665+09
.31222+09
.79606+07
.60998+09

.11636+09
.00000
.91529+01
.37536+09
.51013+10

.61131+12

.92386+06
.17137+07
.36652+09

.38917+09

.36326+09

.13102+07
.36033+07
.33351+07
.10507+06
.50127+06
.96075+06
.96121+08
.72613+08
.31287+05
.12360+05
.12366+05
.13255+09

.93775+06
.91626+09

.17166+03
.10805+03
.21677+03
.11167+05
.66602+01
.13735+05
.26216+05
.16621+05

.61167+01
.00000
.29995+02
.11630+05
.56667+06

.93273+08
PULLUI
CU
SE
NOX
NOX
NOX
CU
NOX
CU
NOX
CR
NOX
NOX
NOX
NOX
BE
SOX
SOX
PART
NOX
NOX
NOX
NOX
AL
NOX
NOX
AL
SOX
NOX
NOX
NOX
pon HI
POM HI
NOX
NOX
V
pon HI

NOX
sox
NOX
co
NOX
fl« 1 3 C.H
PB

SOX
pon HI
sox
PB
SOX
PB
sox
AL
sox
sox
sox

CR
Bt
BE
BE
SOX


SOX

SOX
sox




SOX


pon HI
SOX




pon HI
sox
cu
sox
UC-C.uiNb
NI



PART
NI
PART
NI
PART

CR
CR
CR








PART

CR
PART




CR



pon HI




CR
PART
NI
PART
' 1U»
V



BE
AL
BE
AL
BA

NI
NI
NI








BE

NI
BE




NI



CR




NI
BE

BE
ncu
AL



CR
CO
CR
CD
BE

V
V
V








CR

V
CR




V



NI




V
CR

C«

-------
                                                                  TABLE  G-7.   Continued
                                                                             1985 — SUMMARV
ro
                                    SOURCE
        CAST IRON BOILERS
                DISTILLATE  OIL
                NATURAL  GAS
                RESIDUAL OIL
        STOKER  F-T BOILER   <29  HW
                ANTHRACITE

                BIT/LIG  COAL

        HRT  BORERS   <29  HU
                DISTILLATE  OIL
                NATURAL  GAS
                RESIDUAL OIL
        RES/COMN STEACI + HOT  WAT
                ANTHRACITE
                DISTILLATE  OIL
                NATURAL  GAS
                EIT/L1G  COAL
                RESIDUAL OIL

UARH AIR FURNACES
        WARN AIR CENTRAL FURNACE
                NATURAL GAS
                OIL
        WARN AIR SPACE HEATER
                NATURAL GAS
                OIL
        MISCELLANEOUS COMBUSTION
                NATURAL GAS

6AS TURBINES
        SIMPLE CTCLE    >15 NW
                DISTILLATE OIL
                NATURAL GAS
        SIMPLE CTCLE 3.7-15 MW
                DISTILLATE OIL
                NATURAL GAS
        SIMPLE CYCLE   <3.7 UK
                DISTILLATE OIL
                NATURAL GAS

RECIPROCATING I/C ENGINE
        C.  I.       >7S KW/CYL
                DISTILLATE OIL
                DUAL  (OIL  + GAS)
        S.  I.       >7S ICW/CYL
                NATURAL GAS
        C.  I.         75 KK-75KK/CYL
                DISTILLATE OIL
        S.  I.         75KW-75KH/CVL
                NATURAL GAS

6
G
G
6
G
G
6
G
0
0
0
D
0
D
0
0
D
D
G
G
0
D
0
D
G
G
G
0
0
SINGLE
RURAL
.00000
.UOOUO
.438!>2 + 02
.13500+06
.77069+03
.753*3+03
.00000
.17281+04
.1)0000
.00000
.UOOUO
.00000
.00000
.UOOUO
.00000
.00000
.110000
.00000
.42901+04
.24474+ 0*
.00000
.00000
.00000
.ooouo
.39310+03
.11045+04
.15395+0"*
.00000
.ooouo
SINGLE
URBAN
.00000
.00000
.18563+04
.106*2+09
.60991+08
.16533+05
.00000
.45400+05
.00000
.ouooo
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.93043+05
.500<)4+05
.00000
.00000
.00000
.00000
.82483+0*
.19130+09
.27027+09
.00000
.00000
TOTAL SINGLE SOURCE
.00000
.00000
.33714+08
.37394+11
.47467+12
.77254+08
.00000
.22806+09
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
,00000
.25256+08
.14798+08
.00000
.00000
.00000
.00000
.97216+07
.26601+08
.10809+09
.00000
.00000
.00000
.00000
.77004+03
.26124+08
.25052+08
.61187+04
.00000
.14830+09
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.49554+05
.36146+05
.00000
.00000
.00000
,00000
.19641+04
.47095+04
.53626+04
.00000
.00000
TUI.I.IM A" ga c.Alc.c.u*nt? iu» nc.v
CU NI AL CD
NI V
SOX PART PON HI BE CR
CO
SOX PART PON HI BE CR
AL
PON HI
SOX POM HI CR NI V




NOX sox HC PART
NOX SOX HC PAKT


NOX SOX HC PANT
NOX HC
NOX HC



-------
                                                                 TABLE  G-7.   Concluded
                                                                          1985 --  SUMMARY
O

CO
o
                                  SOURCE
                GASOLINE
        S.  I.           L
1ES
L
'L }
'L
'L
L
L
L
>AS
'L
>IL
'L
iAS
L
IIL
L
0
D
G
G
G
G
G
G
G
6
G
G
6
G
G
G
SINGLE
RURAL
.00000
.OOOUO
,12286 + 01*
.00000
.OOOUO
.t6617 + 0i»
.00000
.26306*03
.163T2+OH
.00000
.00000
.00000
.27662+01*
.70545 + 01*
.331b2*0i»
.75715+0"*
	 inK-flti i-
SINGLE
UKBAN
.00000
.00000
.23669+05
.00000
.00000
.66553+05
.00000
.t95lO+Oi*
.30311+05
.00000
.00000
.00000
.51119+05
.1H263+06
.6H317+05
.15506+06
TOTAL SINGLE SOURCE
.00000 .00000
.00000
.38615*08
.00000
.00000
.40610+09
.00000
.23070+08
.2S689+09
.00000
.00000
.00000
.30510+08
.193H6+OB
.1*3898+07
.66259+07
.00000
.13571+05
.00000
.00000
.2101*0+05
.00000
.23727 + 0<*
,73720+Ot
.00000
.00000
.00000
.22119+05
.61264+05
.27728+05
.66565+05

SOX PART


SOX PART

PART
PART



NOX HC PART
NOX SOX HC
NOX HC PART
NOX SOX HC
                                                                                                                                     PART
                                                                                                                                     PART
                 •flu

-------
                 TABLE G-8.  POLLUTION POTENTIAL OF THE  ELECTRIFICATION  ENERGY SCENARIO FOR 2000
                                                     2000 -- SUMMARY
CD
I
co
SUUKLt
UTILITT BOILERS
TANGEdTIAL BOILERS
EASTERN BITUniN.

CENTRAL BITimiN.

WESTERN BITUniN.

LI6NITE

HIGH S RES. OIL


RED S RES. OIL


LOU S RES. OIL


DISTILLATE OIL
NATURAL' GAS
HALL FIRED BOILER
EASTERN BITUMIN.

CENTRAL BITUHIN.

WESTERN BITUniN.

LIGNITE

HI6H S RES. OIL
MED S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
NATURAL GAS
OPPOSED WALL BOILER
EASTERN BITUMIN.

CENTRAL BITUniN.

WESTERN BITUMIN.

LIGNITE

HIGH S RES. OIL


flED S HES. OIL


LOU S RES. OIL


G

6

G

S

G


G


G


G
G

G

G

6

G

G
G
6
G
G

G

6

G

G

G


G


G
SINGLE
RURAL

.37626+08

.37895+08

.377*1+08

.48966+08

.135S5+07


.12035+07


.11333+07


•35215+05
.28016+05

.15820+08

U5853+08

.15793+08

.20574+08

,1912«+06
.15671+06
.15311+06
.17233+0*
.12039+05

.57193+08

.57235+08

.57119+08

.7*250+06

.1*160+07


, .12728+07


.119S3+OT
SINGLE
URBAN

.85581+09

.85690+09

.85383+09

.10289+10

.28521+08


.2*41*5+08


.22586+08


.9*9*5+06
.702*0+06

.49290+09

.*9382+09

,*9217+09

.56805+09

.50934+07
,*1535+07
.*05*0+07
,*757*+05
.30517+06

.11727+10

.117314 + 10

,1171»+10

.14*09+10

,29*76+08


.25702+08


.23636+DA
TOTAL SINGLE SOURCE

.25569+12

.15*53+12

.8*«69+ll

.*7*56+10

.62962+09


.13559+10


.16202+10


.2*456+07
.12706+08

.19311+12

.11986+12

.65507+11

.12589+10

.5*05*+09
.11091+10
.13986+10
.277*9+07
.35550+08

.37606+11

.22683+11

.12*31+11

.17567+10

.25358+09


.55732+09


.66486+09

.37320+09

.37369+09

,3723»+09

.3*295+09

.19829+09


.17008+08


.15721+08


.41919+06
.30*52+06

.211*2+09

.21182+09

.21111+09

.18*82+09

.352*7+07
.267*5+07
.28057+07
.20981+05
.13222+06

.51*55+09

.51485+09

.51398+09

,*8»2*+09

.20497+08


.1768*+08


.16*55+08

NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX
CU
SE
NOX
NOX

NOX
AL
NOX
AL
NOX
AL
NOX
CH
NOX
NOX
NOX
NOX
NOX

NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX

sox
NI
sox
Nl
sux
MI
sox
AL
SUX
P8

SOX
PH

sox
PU

sox
PART

SOX

SOX

sox

sox
AL
sox
sox
sox
sox


sox
pa
SOX
PB
sox
PH
SUX
c,"
sox
PB

sox
PB

sox

PART
AL
PART
AL
PART
AL
PART

PART
NI

PART
NI

PART
NI


POfl HI

PART

PART

PART

PART

CR
CR
CR



PART
HI
PART
NI
PART
NI
PART
NI
PART
NI

PART
NI

PART

8C
CO
BE
CO
BE
CD
BA

CR
V

CR
V

CR
V




BE

BE

BE

BA

NI
NI
NI



BE
AL
BE
AL
BE
AL
BA
AL
CR
V

CR
V

CR

CR

CR

CR

BC

CO
AL

CO
AL

CO
AL




CR

CR

CR

BE

V
V
V



CR
CO
CR
CO
CR
CO
BE

CO
AL

CO
AL

CO

-------
                                                                  TABLE  6-8.   Continued
GO
                                   SOURCE
                DISTILLATE  OIL
                NATURAL  GAS
        CTCLOKE BOILER
                CENTRAL  RITUMIN.

                LIGNITE

                HIGH S HES. OIL
                WED  S RES. OIL
                LOU  S HES. OIL
        VERTICAL + STOKER BOILER
                ANTHRACITE
                EASTERN  BITUHIN.
                CENTRAL  BITUPIIN.
                LI6NITE

PACKA6ED BOILERS
        WALL FIRED W-TUBE   >29 MM
                DISTILLATE  OIL
                NATURAL  GAS •
                PROCESS  GAS
                BIT/LIG  COAL

                RESIDUAL OIL
        STOKER H-TUBE      >29 MW
                BIT/LIG  COAL

        SINGLE BURNER W-T   <29 KW
                DISTILLATE  OIL
                NATURAL  GAS
                PROCESS  GAS
                RESIDUAL OIL
        SCOTCH FIRETUBE     <29 MW
                DISTILLATE  OIL
                NATUHAL  GAS
                PROCESS  GAS
                RESIDUAL OIL
        FIREBOX FIRETUHt   <29 MM
                DISTILLATE  OIL
                NATURAL  GAS
                PROCESS  GAS
                RESIDUAL OIL
        STOKER FIRED M-TUBE <29 MM
                ANTHRACITE

                BIT/LIG  COAL

        CAST IRON BOILERS
                DISTILLATE  OIL
2000 -- SUMMARY

G
G
G

6

G
G
G
G
G
6
G
SINGLE
RURBL
.47923+05
.181M + 06
.46269+08

.6019A+08

.30821+06
.26379+06
.24801+06
.21423+07
,142b5+07
.14306+07
.18734+07
SINGLE
URBAN TOTAL SINGLE SOURCE
.12700+07
.45007+U7
.99702+09

.12154+10

.70015+07
.58090+07
.53752+07
.27206+09
.26032+09
.26044+09
.26750+09
.13183+07
.57378+08
.24541+11

.24269+10

.17190+08
.34659+08
.41518+08
.82452+10
.16050+11
.16058+11
.93607+09
.56120+06
.19524+07
.43608*09

.40676+09

.48596+07
.40345+07
.37345+07
.56126+06
.10757+09
.10762+09
.61561+06
POLLUTANTS EXCEEDING 101
CU P« NI V
SE
NOX
NOX
NOX
CU
NOX
CR
NOX
NOX
NOX
BE
SOX
SOX
PART
SUX
PUM HI
SOX
PB
SOX
AL
SUX
SOX
SUX
CR
Bt
Bt
BE.


PART
NI
PART

CR
CR
CR






BE
AL
BA

NI
NI
NI




BEG
AL


CR
CD
BE

V
V
V




G
G
6
G

G
G

S
e
6
6
e
s
6
e
6
G
G
G
6

6

.12305+04
.83802+03
.83802+03
.34330+07

.66954+05
.22042+07

.17483+02
.32976+02
.39896+02
.42650+04
.9*585+03
.50223+04
.96194+04
.21647+04
.84381+03
.00000
.57627+01
.19351+04
.14401+07

.96579+06

.34276+05
.22838+05
.22838+05
.29259+09

.25054+07
.27282+09

.53144+03
.90882+1)3
.16285+04
.14213+06
.20756+05
.10859+06
.20713+06
.56839+05
. 18512+09
.00000
.15965+03
.50833+05
.26081+09

.25390+09

.31449+07
.10661+08
.14932+07
.18144+12

.10511+10
.17621+12

.27896+06
.14139+07
.15093+06
.34082+09
.15486+09
.33482+09
.78036+07
.68838+09
.13398+09
.00000
.58307+04
.42484+09
.13049+11

.15621+13

.23371+05
.94182+04
.94182+04
.14801+09

.10423+07
.10233+09

.19223+03
.12056+03
.21676+03
,45625+05
.76813+04
.15379+05
.29367+05
.18567+05
.68510+04
.00000
.21172+02
.16604+05
.63694+06

.10443+09

NOX
NOX
NOX
NOX
AL
NOX
NOX
AL
sox
NOX
NOX
SOX
PON
pon
NOX
sox
POfl

NOX
sox
NOX
CO
NOX
CU
sox


SOX

sox
sox




CR
HI
HI
PON
POM
HI


pon
SOX
co
sox
NI



PART

CR
PART




NI


HI
HI CR



HI CR
PART
NI
PART
AL



BE

NI
BE




V



NI



NI
BE

BE
CO



CR

V
CR








V



V
CR

CR

                                                              .00000
                                                                           .00000
                                                                                        .00000
                                                                                                    .noooo

-------
                                                     TABLE 6-8.   Continued
                                                             2000 -- SUHMAKT
GO
I
to
to
auunit

RESIDUAL OIL
STOKER F't BOILER <29 MW
ANTHRACITE

BIT/LIB COAL

HRt BOILERS <29 MM
DISTILLATE OIL
NATURAL GAS
RESIUUAL OIL
RES/COHH STEAM 4 HOT WAT
ANTHRACITE
DISTILLATE OIL
NATURAL GAS
BIT/LIB COAL
RESIDUAL OIL
UARH AIR FURNACES
WARM AIR CENTRAL FURNACE
NATURAL GAS
OIL
WARM AIR SPACE HEATER
NATURAL GAS
OIL
MISCELLANEOUS COMBUSTION
NATURAL GAS
CAS TURBINES
SIMPLE CYCLE MS MW
DISTILLATE OIL
NATURAL GAS
SIHPLE CTCLE 3.T-15 HW
DISTILLATE OIL
NATURAL GAS
SIMPLE CTCLE <3.7 MW
DISTILLATE OIL
NATURAL GAS
RECIPROCATING I/C ENGINE
C. I. >75 KW/CYL
DISTILLATE OIL
DUAL (OIL + GAS)
S, I. >75 KW/CYL
NATURAL GAS
C. I. 75KW-75KW/CYL
DISTILLATE OIL
S. I. 75KW-75KW/CYL
NATURAL GAS
GASOLINE
S. I. <75 KW
GASOLINE


G

G

G


G
G
G

b
0
0
0
0


D
0

D
D

D


6
6

0
D

0
0


6
G

6

0

D
D .

0
SINGLE
RURAL
.S1345402

.15117+06

.66302+09


.84361403
.00000
.19351404

.00000
.00000
.0001)0
.00000
.00000


.00000
.00000

.00000
.ooouo

.00000


.3169940"*
.200S5404

.00000
.00000

.00000
.00000


. 5860
-------
                                                                 TABLE 6-8.    Concluded
                                                                         20UO --  SUMMARY
 I
CO
                                 SOURCE
IND.  PROCESS  COMBUSTION
        CE«ENT KILNS
               PROCESSED MAT'L
        GLASS MELTING FURNACES
               PROCESSLO MAT'L
        GLASS ANNEALING LEHHS
               PROCESSED MAT'L
        COKE  OVtN UNdtHFIRE
               PROCESSLO WAT'L
        STEEL SINTERING MACHINES
               PROCESSED MAT'L
        OPEN HEARTH FURNCE IOIL)
               PROCESSED MBT'L
        BRICK + CERAMIC KILNS
               PROCESSED MAT'L
        CAT CRACKING (FCCU)
               PROCCSSEU MAT'L
        REFINERY FLARES
               PROCESSED MAT'L
        IRON * STEEL FLARES
               PROCESSED MAT'L
        RCF, HTR.-NAT. JRAFT.GAS
               PROCESSED MAT'L
        REF. HTR.-NAT. URAFT.OIL
               PROCESSLO MAT'L
        REF. HTR.-FOR. URAFT.GAS
               PROCESSED MAT'L
        REF. HTR.-FOR. DRAFT.OIL
               PROCESSED MAT'L

'L
>
'L
'L
'L
tfC
iLa
'L
>i i
.L I
'L
'L
L
'L
L
rAS
'L
HL
L
iAS
L
llL
L

6
G
G
G
G
G
6
e
G
G
G
G
G
G
SINGLE
RURAL
.137bfl-fOM
.oonuo
.00000
.52202*0"*
.00000
.29tb8+03
.IBSJt+OI
.00000
.0001)0
.000 DO
.29697+0*
.TUStS+OH
.35265+01
.79172+0*
---- IMPALT ^
SINGLE
URBAN
.26502+05
.00000
.00000
.96910+05
.00000
.55H35+0*
.33939+05
.00000
.00000
.00000
.5H217+U5
.11*892 + 06
.67811+03
.16000+06
TOTAL SINGLE SOURCE
.15983+08
.00000
.00000
.18311+09
.00000
.27145+06
.31133+09
.00000
.00000
.00000
.31396+08
.21191+08
.1908»+07
.7231H+07
.15195+05
.00000
.00000
.23556+05
.00000
.26566+04
.62511+01
.00000
.00000
.00000
.23469+05
.64040+05
.29252+09
.66750+05
SOX PART


SOX PART

PART
PART



NOX HC PART
NOX SOX HC
NOX HC PART
NOX SOX HC
                                                                                                                                    PART
                                                                                                                                    PART
                "FIN

-------
                   TABLE G-9.   POLLUTION POTENTIAL OF THE  SYNTHETICS ENERGY SCENARIO  FOR 1985
                                                        1985 -- SUMMARY
CD
CO
cn
3UUKIC.
BOILERS
TANGENTIAL BOILERS
EASTERN BITUHIN.

CENTRAL BITUHIN.

WESTERN BITUniN.

LIGNITE

HIGH S RES. OIL


BED S RES. OIL


LOW S RES. OIL


DISTILLATE OIL
NATURAL GAS
MALL FIRED BOILER
EASTERN BITUHIN.

CENTRAL BITUHIN.

WESTERN BITUHIN,

LIGNITE

HIGH S RES. OIL
AED S RES. OIL
LOW S RES. OIL
DISTILLATE OIL
NATURAL GAS
OPPOSED WALL BOILER
EASTERN BITUHIN.

CENTRAL BITUHIN.

WESTERN BITUHIN,

LIGNITE

HIGH S RES. OIL


HED S RES. OIL


LOW S RES. OIL


6

6

G

G

G


G


G


G
G

G

6

G

G

G
G
B
G
G

G

G

G

B

B


G


B
SINGLE
RURAL

.34724+08

.34723+08

.34561+08

.44600+08

.12328+07


.10867+07


.10123+07


.31774+05
,.21210+05

.14413+06

.14460+08

.14337+08

.18689+08

.15867+06
.14540+06
.13909+06
.32915+04
.10693+05

.52033+08

.32107+08

.51935+08

.67079+08

.13929+07


.11871+07


.10853+07
SINGLE
UHBAN

.76193+09

.78176+09

.77902+09

.93322+09

.25988+08


.22169+08


.20177+08


.85323+06
.53066+06

.44639+09

.44758+09

.44430+U9

.51326+09

.42186+07
.38593+07
.36640+07
.89270+05
.27162+06

.10650+10

.10662+10

.10635+10

.13005+10

.29642+08


.24272+08


.21563+08
TOTAL SINGLE SOURCE

.80047+11

.48309+11

.26419+11

.14782+10

.63540+09


.13619+10


.16032+10


.24346+07
.35640+08

.61492+11

.37233+11

.20262+11

.39012+09

.49590+09
.11414+10
.14077+10
.57709+07
.11743+09

.11702+11

.70624+10

.38665+10

.54330+09

.28240+09


.58284+09


.67167+09

..14108+09

.34101+09

.33979+09

.31179+09

.16066+08


.15423+08


.14044+08


.37679+06
,23008+06

.19133+09

.19204+09

.19062+09

.16706+09

.29196+07
.26708+07
.23496+07
.39403+05
.11767+06

.46737+09

.46790+09

,46667+09

.43711+09

.20602+08


.16885+08


.15010+08

NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
* CU
SE
NOX
CU
SE
NOX
cu
SE
NOX
NOX

NOX
AL
NOX
AL
NOX
AL
NOX
CR
NOX
NOX
NOX
NOX
NOX

NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX

sox
NI
sux
NI
SOX
NI
SOX
AL
SUX
PB

sox
PB

sox
PB

SOX
PART

SOX

SOX

SOX

sox
AL
SOX
sox
sox
sox


sox
PB
SOX
PH
sox
PB
SOX
CU
sox
PB

sox
PB

SOX

PART
AL
PART
AL
PART
AL
PART

PART
NI

PART
NI

PART
NI


POH MI

PART

PART

PART

PART

CR
CR
CR



PART
NI
PART
NI
PART
NI
PART
NI
PART
NI

PART
NI

PART

BE
CO
BE
CO
BE
CD
BA

CR
V

CR
V

CR
V




BE

BE

BE

BA

NI
NI
NI



9E
AL
BE
AL
BE
AL
BA
AL
CR
V

CR
V

CR

CR

CR

CR

BE

CO
AL

CO
AL

CO
AL




CR

CR

CR

BE

V
V
V



CR
CD
CR
CO
CR
CO
BE

CO
AL

CO
AL

CO

-------
                                                                 TABLE G-9.   Continued
en
 i
en
                               SOURCE
                                DISTILLATE  OIL
                                NATURAL  GAS
                        CYCLONE BOILER
                                EASTERN  BITUI1IN.

                                CENTRAL  BITUMIN.

                                LIGNITE

                                HIGH S RES. OIL
                                MED  S RES. OIL
                                LOW  S RES. OIL
                                NATURAL  GAS
                        VERTICAL * STOKER BOILER
                                ANTHRACITE
                                EASTERN  BITUHIN.
                                CENTRAL  BITUMIN.
                                LIGNITE
PACM6EO BOILERS
        WALL FIRED W-TU8E   >29 HW
                DISTILLATE  OIL     G
                NATURAL  GAS       G
                PROCESS  GAS       G
                BIT/LIE  COAL       G

                RESIDUAL OIL       G
        STOKER W-TUBE       >29 MW
                BIT/CIS  COAL       G

        SINGLE BURNER  W-T   <29 MW
                DISTILLATE  OIL     G
                NATURAL  GAS       6
                PROCESS  GAS       G
                RESIDUAL OIL       G
        SCOTCH FIRETUBE     <29 HW
                DISTILLATE  OIL     G
                NATURAL  GAS       G
                PROCESS  GAS       G
                RESIDUAL OIL       6
        FIREBOX FIRETUBE   <29 MW
                DISTILLATE  OIL     G
                NATURAL  GAS       G
                PROCESS  GAS       G
                RESIDUAL OIL       G
        STOKER FIRED W-TUBC <29 MW
                ANTHRACITE         G

                BIT/LIG  COAL       G
1965 — SUMMARY

G
G
G

G

G

G
6
G
G
G
G
G
B
SINGLE
RURAL
.60915+05
,11427+06
.41187+08

.41319+08

.53757+08

.27524+06
.23557+06
.22147+06
.95569+01
.19131+07
.12739+07
.127/5+07
.16740+07
SINGLE
UKBAN TOTAL SINGLE SOURCE
.15903+07
.28390*07
.88834*09

.89046+09

.10835+10

.62532+07
.51861+07
,48007+07
.24251+06
.24298+09
.23250+09
.23260+09
.23891+09
.18300+07
.13431+09
.25241+10

.20764+11

.20604+10

.21932+06
.10059*08
.50564+08
.22185+07
.70072+10
.13585+11
.13591+11
.81930+09
,.70327+06
.12314+07
.38652+09

,38917+09

.36328+09

.43402+07
.36033+07
.33354+07
.10507+06
.90127+08
.96075+08
.96121+08
.72813+08
PHI 1 IITAMTV fYfrenti:
"ULuUTW'15 t r
CU PB
SE
NOX
NOX
NOX
CU
NOX
CU
NOX
CR
NOX
NOX
NOX
NOX
BE
SOX
sox
PART
SOX
POH HI
SOX
PB
SOX
PH
SOX
AL
SOX
SOX
sox

CR
Bt
BE
BE
\ *• (. *. V A "
NI


PART
NI
PART
NI
PART

CR
CR
CR





IG 1 0 K
V


BC
AL
BE
AL
BA

NI
NI
NI





MEG
AL


CR
CO
CR
CD
BE

V
V
V





.14931+04
.98321+03
.98321+03
.30733+07
.99732+05
.19745+07
.19613+02
.29537+02
.53670+02
.38931+04
.84466+03
.44850+04
.89682+04
.19331+04
.75353+03
.00000
.82395+01
.17281+04
.12932+07
.88035+06
.41124+09
.26600+05
.26600+05
.26146+09
.22356+07
.24380+09
.47464+03
.81312+03.
.14574+04
.12927+1)6
.18536+05
.96981+05
.18503+06
.50761+05
.16533+05
.00000
.22748+03
.45400+05
.23293+09
.22623+09
.41209+07
.15888+08
.22247+07
.11015+12
.10239+10
.10620+12
.27190+06
.16180+07
.17276+06
.33847+09
.15099+09
.38234+09
.89147+07
.67135+09
.13064+09
.00000
.10624+05
.41420+09
.79173+10
.91780+12
.28016+05
.10974+05
,10974+05
.13228+09
.93009+06
.91448+08
.17168+03
.10789+03
.19404+03
.41507+05
.66602+04
.13735+09
.26233+09
,16582+09
.61187+04
.00000
.30163+02
.14830+05
.96887+08
.93273+08
NOX
NOX
NOX
NOX
AL
NOX
NOX
AL
SOX
NOX
NOX
NOX
POM
POM
NOX
sox
POM
NOX
sox
NOX
CO
NOX
CU
sox
sox
sox
sox
SOX
HI
HI
POM
POM
HI
POM
sox
cu
sox
NI
PART
CR
PART
CR
HI
HI CR
HI CR
PART
NI
PART
AL
BE
NI
BE
NI
NI
NI
BE
BE
CO
CR
V
CR
V
V
V
CR
CR

-------
                                                                 TABLE  6-9.   Continued
 I
OJ
                                  SOURCE
        COST  IRON BOILERS
                DISTILLATE OIL
                NATURAL GAS
                RESIDUAL OIL
        STOKER  F-T BOILER  <29 MW
                ANTHRACITE

                BIT/LIB COAL

        HRT BOILERS    <29  MW
                DISTILLATE Olt
                NATURAL GAS
                RESIDUAL OIL
        RES/COMH STEtn + HOT WAT
                ANTHRACITE   '
                DISTILLATE OIL
                NATURAL 6AS
                BIT/LIG COAL
                RESIDUAL OIL

WAR* AIR FURNACES
        WARM  AIR CENTRAL FURNACE
                NATURAL GAS
                OIL
        HARM  AIR SPACE HEATER
                NATURAL GAS
                OIL
        MISCELLANEOUS COMBUSTION
                NATURAL 6AS

8AS TURBINES
        SIMPLE CYCLE   >15  MM
                DISTILLATE OIL
                NATURAL GAS
        SIMPLE CYCLE 3.7-13  MM
                DISTILLATE OIL
                NATURAL GAS
        SIMPLE CYCLE   <3.7  MW
                DISTILLATE OIL
                NATURAL 6AS

RCCIPROCATINQ I/C EN6INE
        C. I.       >75KM/CYL
                DISTILLATE OIL
                DUAL  (OIL  +  GAS)
        S. I.       >75KW/CYL
                NATURAL 6AS
        C. I. 75KM-75KM/CYL
                DISTILLATE OIL
        S. I. 75KW-75KH/CYL
                NATURAL GAS
                GASOLINE

e
G
6
G
6
G
G
G
D
D
D
D
D
D
D
D
0
0
e
G
0
0
D
D
8
G
G
0
0
D
SINGLE
HURAL
.00000
.00000
.45852+02
.13500+06
,77069+05
.75353+03
.00000
.17281+04
,00000
.00000
,00000
.00000
.00000
.00000
.uoooo
.00000
.00000
.00000
.432M+04
.24623+04
.00000
lOoooo
.00000
.00000
.39201+03
.10946+04
.15395+04
.00000
.00000
.00000
SINGLE
URBAN
.00000
.00000
.18563+04
.10842+09
.60991+08
.16533+09
.00000
.45400+05
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.93607+09
.S0285+OS
,00000
.00000
.00000
.00000
.82437+04
.18867+09
.27027+09
.00000
.00000
.00000
TOTAL SINGLE SOURCE
.00000
.00000
.37196+08
.57997+11
.73591+12
.85256+08
.00000
.25166+09
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.24277+08
.14193+08
.00000
.00000
.00000
.00000
.10099+08
.28697+08
.10805+09
.00000
.00000
.00000
.00000
.00000
.77004+03
.26124+08
.25052+08
.61187+04
.00000
.14830+05
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
,49859+05
,36320+05
.00000
.00000
.00000
,00000
,19630+04
.46492+04
.53626+04
.00000
.00000
.ooouo
NI V
SOX PART POM HI BE CR
CO
SOX PART POM HI BC CR
AL
POM HI
SOX POM HI CR NI V




NOX SOX HC PART
NOX SOX HC PART


NOX SOX HC PART
NOX HC
NOX HC



-------
                                                                  TABLE  G-9.   Concluded
                                                                           1985  -- SUMMARY
                                   SOURCE
 I
CO
00
                                            <75  KW
               GASOLINE

INO.  PROCESS  COMBUSTION
        CEMEN1 KILNS
               PROCESSED NAT'L
        GLASS MELTING FURNACES
               PROCESSED MAT'L
        GLASS ANNEALING LEHRS
               PROCESSED HAT'L
        COKE  OVEN UNDERFIRE
               PROCESSED MAT'L
        STEEL SINTERING MACHINES
               PROCESSED MAT'L
        OPEN  HEARTH FURNCE (OIL)
               PROCESSED MAT'L
        BRICK » CERAMIC KILNS
               PROCESSED MAT
        CAT CRACKING IFCCUI
               PROCESSED MAT'L
        REFINERY FLARES
               PROCESSED NAT'L
        IRON  + STEEL FLARES
               PROCESSED MAT'L
        REF.  HTR.-NAT. DRAFT,GAS
               PROCESSED MAT'L
        REF.  HTR.-NAT. URAFT.OIL
               PROCESSED MAT'L
        REF.  HTR.-FOR. DRAFT,GAS
               PROCESSED MAT'L
        REF.  HTR.-FOR. DRAFT,OIL
               PROCESSED MAT'L

4
•L
>L
'L
'L
IES
'L
!L )
'L
'L
L
L
L
i AS
L
111
'IL
L
>AS
L
>1L
L
-
D
G
G
G
G
G
G
G
8
G
6
G
G
G
6
SINGLE
RURAL
.00000
.12286+04
.00000
.00000
.46617+04
.00000
.26306+03
.16372+OH
.00000
.00000
.00000
.Z76^1*OH
.TOttO+OW
.3309ct+0t
.7S99H+01
SINGLE
URBAN
.00000
.23669*05
.00000
.00000
.86553+05
.00000
.49510+04
.30311+05
.00000
.00000
.00000
.51099+05
.1H2HS+06
.64293+05
.15486+06
TOTAL SINGLE SOURCE
.00000
.42607+08
.00000
.00000
.44955+09
.00000
.25539*08
.31764+09
.00000
.00000
.00000
.33727+08
.21415+08
.96852+07
.73106+07
.00000
.13571+05
.00000
.00000
.21040+05
,»0000
,23727+04
.73720+04
.00000
.00000
.00000
.22096+05
.61218+05
.27687+05
.66*80+09

SOX PART


SOX PART

PART
PART



NOX HC PART
NOX SOX HC
NOX HC PART
NOX SOX HC
                                                                                                                                      PAHT
                                                                                                                                      PART
                  •FIN

-------
               TABLE G-10.   POLLUTION POTENTIAL OF  THE SYNTHETICS ENERGY SCENARIO  FOR 2000
                                                      aooo -- SUMMARY
co
3GURCL
UTILITT BOILERS
TANGENTIAL BOILERS
EASTERN BITUMIN.

CENTRAL BITUfllN.

WESTERN BITUMIN.

LIGNITE

HIGH S RES. OIL

.
MCD S RES. OIL


LOW S RES. OIL


DISTILLATE OIL
NATURAL GAS
HALL FIRED BOILER
EASTERN BITUMIN.

CENTRAL BITUMIN,

WESTERN BITUMIN,

LIGNITE

HIGH S RES. OIL
MEO S RES. OIL
LOU S RES. OIL
DISTILLATE OIL
NATURAL GAS
OPPOSED WALL BOILER
EASTERN BITUMIN.

CENTRAL BITUMIN.

WESTERN BITUNtN.

LIGNITE

HIGH S RES, OIL


BED S RES. OIL


LOU S RES. OIL


G

G

G

6

6


6


S


G
G

6

6

G

G

e
s
s
G
G

G

G

G

6

G


G


G
SINGLE
RURAL

.36409+08

,38202+08

.36066+06

.49406+08

.12304+07


.11861+07


411313+07


.33277+05
.23751+05

.15966+08

.15966+08

.15895+08

.20641+06

.16202+06
.15832+06
.1S3<>1+06
.15376+04
.11974+05

.57923+06

•50037+06

(S78SB+08

.79116+06

.12670+07
f

.12420+07


.11914+07
SINGLE
URBAN

.86663+09

.86270+09

.86064+09

.10373+10

.25197+06


.24000+06


.22533+06


.69680+06
.59416+06

.49634+09

.49694+09

.49449+09

.56933+09

.43021+07
.41992+07
.40677+07
.42763+05
.30412+06

.11664+10

.11682+10

.11653+10

.14573+10

.26076+06


.24869+08


.23940+08
TOTAL SINGLE SOURCE

.55429+11

-.33309+11

.18229+11

.10242+10

..15769 + 10


.37760+10


,458524-10


.65527+07
.16177+08

.42714+11

.25835+11

,14086+11

.27022+09

.12953+10
.31795+10
.39603+10
.70724+07
.53319+08

.61458+10

.49165+10

,26934+10

.36043+09

,63660+09


..15300 + 10


.16761+10

.37798+09

.37625+09

,37541+09

.34576+09

.17528+08


.16699+08


.15685+06


.39596+06
.25762+06

.21292+09

.21318+09

.21212+09

.16525+09

.29778+07
.29061+07
.26152+07
.18652+05
.13175+06

.52060+09

.52141+09

.52013+09

.48977+09

.16144+08


.17308+06


.16369+06

NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
cu
SE
NOX
CU
SE
NOX
NOX

NOX
AL
NOX
AL
NOX
AL
NOX
CW
NOX
NOX
NOX
NOX
NOX

NOX
CU
NOX
CU
NOX
CU
NOX
CR
NOX
CU
SE
NOX
CU
SE
NOX

SOX
NI
sox
NI
SUX
NI
SOX
AL
sox
PB

SOX
PB

sox
PB

SOX
PART

SOX

SOX

sox

sox
AL
sox
sox
sox
sox


SOX
PB
SOX
PB
sox
PB
sox
CU
sox
PB

sox
PB

sox

PART
AL
PART
AL
PART
AL
PART

PART
NI

PART
NI

PART
NI


POM HI

PART

PART

PART

PART

CR
CR
CR



PART
NI
PART
NI
PART
NI
PART
NI
PART
NI

PART
NI

PART

BE
CO
BE
CO
BE
CO
BA

CR
V

CR
V

CR
V




BE

BE

BE

BA

NI
NI
NI



BE
AL
BE
AL
BE
AL
B«
AL
CR
V

CR
V

CR

CR

CR

CR

BE

CO
AL

CO
AL

CO
AL




CR

CR

CR

BE

V
V
V



CR
CD
CR
CO
CH
CO
BE

CO
AL

CO
AL

CO

-------
                                                                 TABLE  G-10.   Continued
en
^
o
                                SOURCE
                                 DISTILLATE OIL
                                 NATURAL  GAS
                         CYCLONE BOILER
                                 CENTRAL  BITUNIN.

                                 LIGNITE

                                 HIGH S RES.  OIL
                                 NED  S RES.  OIL
                                 LOU  S RES.  OIL
                         VERTICAL + STOKER BOILER
                                 ANTHRACITE
                                 EASTERN  BITUNIN.
                                 CENTRAL  BITUNIN.
                                 LIGNITE
PACKAGED BOILERS
        WALL FIRED U-TUBE   >29 MM
                DISTILLATE  OIL    G
                NATURAL  GAS       G
                PROCESS  GAS       6
                BIT/LIG  COAL       6

                RESIDUAL OIL       G
        STOKER W-TUBE      >29 MW
                BIT/LIG  COAL       6

        SINGLE BURNER w-T   <29 MW
                DISTILLATE  OIL    G
                NATURAL  GAS       G
                PROCESS  GAS       G
                RESIDUAL OIL       G
        SCOTCH FIRETUB6.     <29 MW
                DISTILLATE  OIL    6
                NATURAL  GAS       G
                PROCESS  GAS       G
                RESIDUAL OIL       G
        FIREBOX FIRETUBE   <29 MW
                DISTILLATE  OIL    6
                NATURAL  GAS       6
                PROCESS  GAS       G
                RESIDUAL OIL       G
        STOKER FIRED H-TUBE <29 MW
                ANTHRACITE         G

                BIT/LIG  COAL       6

        CAST IRON BOILERS
                DISTILLATE  OIL    G
                NATURAL  GAS       G
2000 -- SUMMARY

G
G
G

G

6
G
G
G
G
G
6
SINGLE
RURAL
.4*062+05
.12796+06
.46269+08

.60198*08

.30621+06
.26379+06
.2*601+06
.21*123 + 07
.11265+07
.1*306+07
.16734+07
SINGLE
URBAN TOTAL SINGLE SOURCE
.11737+07
.31786+07
.99702+09

.12154+10

.70015+07
.56090+07
.53752+07
.27206+09
.26032+09
.26044+09
.26750+09
.345*6+07
.60981+08
.12270+11

.12134+10

.17190+06
.34659+08
.41516+06
.41226+10
.60250+10
.60286+10
.46804+09
.51652+06
.13786+07
.43606+09

.40676+09

.46596+07
.40345+07
.37345+07
.56126+08
.10757+09
.10762+09
.61561+08
POLLUTANTS EXCEEDING 10K
CU PB NI V
SE
NOX
NOX
NOX
CU
NOX
CR
NOX
NOX
MOX
BE
sox
SOX
PART
sox
POM HI
sox
PB
sox
AL
SOX
SOX
sox
C«
BE
BE
BE


PART
NI
PART

CR
CR
CR






BE
AL
Bfl

NI
NI
NI




MEG
AL


CR
CD
BE

V
V
V




•91235+03
.56233+03
.56233+03
,34273+07
•66258+05
•22003+07
•17*83+02
.32833+02
•59668+02
•42663+04
•94565+03
•50223+04
,96079+04
.216*7+04
•64361+03
.00000
•00000
•19351+0*
.14461+07
,96579+06
.25816+05
.15453+05
,15453+05
.29246+09
.24656+07
.27273+09
.53144+03
.90663+03
.16256+04
.14216+06
.20756+05
.10859+06
.20692+06
.56839+1)5
.16512+05
.00000
,00000
.50633+05
.26081+09
,25330+09
.44964+07
.10421+06
.14594+07
.20561+12
.19802+10
,20198+12
,52986+06
.20361+07
.21762+06
,64731+09
.29*0*+09
.46371+09
.11266+06
.13076+10
..25449+09
.00000
.00000
.60707+09
.14799+11
.17714+13
.17596+05
.63696+04
.63696+04
,14794+09
,10341+07
.10229+09
.19223+03
.12025+03
.21628+03
.45634+05
.76813+04
.15379+05
.29339+05
,18567+05
.66510+04
.00000
.00000
.16604+05
.63694+08
.10443+09
NOX
NOX
NOX
NOX
AL
NOX
NOX
AL
SOX
NOX
NOX
MOX
pon HI
pon HI
pon HI
sox
pon HI
sox
NOX
CO
NOX
                                             SOX


                                             SOX     PART    BE

                                             SOX     CR      NI

                                             SOX     PART    BE
                                                                                                                     SOX
                                                                                                                            CR
                                                                                                                     PON HI CR .
                                                                                                                     POH HI CR

                                                                                                                     sox    PART
                                                                                                                     CU     M
                                                                                                                     SOX    PART
                                                                                                              CU     NI     AL
                                                                                                                                   NI
                                                                                                                                   NI
                                                           NI

                                                           BE

                                                           BE
                                                           cn
                                                     CR

                                                     v

                                                     CR
                                                     V

                                                     CR

                                                     CR
                                                           .00000
                                                           .00000
.00000
.00000
.00000
.00000
.00000
.00000

-------
CD

-p.
                                     SOURCE
               •RESIDUAL  OIL
        STOKER F-T BOILER  <29  MM
                ANTHRACITE

                BIT/LIB COAL

        HRT BOILERS   <29 MM
                DISTILLATE  OIL
                NATURAL GAS
                RESIDUAL  OIL
        RES/COMPI STEAM +  HOT  UAT
                ANTHRACITE
                DISTILLATE  OIL
                NATURAL GAS
                BIT/LI6 COAL
                RESIDUAL  OIL

HARH AIR FURNACES
        WASH AIR CENTRAL  FURNACE
                NATURAL GAS
                OIL
        WARM AIR SPACE HEATCR
                NATURAL GAS
                OIL
        MISCELLANEOUS COMBUSTION
                NATURAL GAS

GAS TURBINES
        SIMPLE CYCLE   >13 MW
                DISTILLATE  OIL
                NATURAL GAS
        SIMPLE CTCLE 3.7-15 MU
                DISTILLATE  OIL
                NATURAL GAS
        SIMPLE CTCLE  <3.7 HW
                DISTILLATE  OIL
                NATURAL GAS

RECIPROCATING I/C ENGINE
        C. I.       >75KW/CYL
                DISTILLATE  OIL
                DUAL (OIL + GAS)
        S. I.       >75KW/CYL
                NATURAL GAS
        C. I. 75KW-75KW/CYL
                DISTILLATE  OIL
        S. I. 75KU-75KW/CYL
                NATURAL GAS
                GASOLINE
        S. I.          <73 KM
                GASOLINE
                                                                  TABLE 6-10.   Continued
                                                                             2000 -- SUMMARY
6
e
6
U>« IB
0
0
0
0
D
D
D
D
D
D
G
S
0
D
0
0
6
6
e
0
0
D
SINGLE
RURAL
.913*5+02
.15117*06
.86302*05
.8*381+03
.0001)0
.19351+0*
.00000
.ooouo
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.33094+0*
.211*5+0*
.00000
.00000
.00000
.00000
.385*1+03
.11997+014
.17239+04
.00000
.00000
.00000
SINGLE
URBAN
.20705+0*
.121*0+09
.68269+00
.18512+05
.00000
.50833+05
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.68*09+05
.11075*03
.00000
.00000
.00000
.00000 •
.793*8+0*
.20*96+03
.30262+09
.00000
,00000
.00000
TOTAL SINGLE SOURCE
.72*55+06 .86219+09 NI V
..108*1 + 12
,1375*+13
.16606+09
.00000
.*9025+09
.00000
.00090
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.32638+08
.21*61+08
.00000
.00000
.00000
.00000
.16*83+08
.50371+08
.15155+08
.00000
.00000
.00000
.29231+08 SOX PART POM HI BE
CO
.28050+08 SOX PART PON HI BE
AU
.68510+0* POM HI
.00000
.16601+03 SOX POM HI CR NI
.00000
.00000
.00000
.ooouo
.00000
.00000
.00000
.00000
.00000
.00000
.36510+03 NOX SOX HC PAHT
.29698 + 03 NOX SOX HC PAKT
.00000
.00000
.00000
.00000
.18997+0* NOX SOX HC PART
.30589+0* NOX HC
.600*5+0* NOX HC
.00000
.00000
.00000
PIE 6
CR
CR
V











                                                                 .00000
                                                                             .00000
                                                                                          .00000
                                                                                                       .00000

-------
                                                                 TABLE  G-10.   Concluded
                                                                         2000  --  SUMMARY
CD
 I
-Pi
ro
                                 SOURCE
INO.  PROCESS COMBUSTION
        CERENT  KILNS
               PROCESSED HAT'L
        GLASS MELTING FURNACES
               PROCESSED BAT
        CLASS ANNEALING LEHRS
               PROCESSED HAT'L
        COKE OVEN UNOERFIRE
               PROCESSED HAT
        STEEL SINTERING MACHINES
               PROCESSED flAT'L
        OPEN HEARTH FbKNCE (OIL)
               PROCESSED HAT'L
        BRICK + CERAMIC KILNS
               PROCESSED MAT'L
        CAT CRACKING (FCCU)
               PROCESSED MAT'L
        REFINERY FLARES
               PROCESSED BAT'L
        IRON + STEEL FLARES
               PROCESSED MAT'L
        REF. HTR.-NAT. ORAFTt
               PROCESSED MAT'L
        REF. HTR.-NAT. DRAFT.OIL
               PROCESSED HAT'L
        REF. HTR.-FOR. URAFT.
               PROCESSED MAT
        REF. HTft.-FOR. ORAFTtOlL
               PROCESSED MAT'L

'L
'L
'L
L
IF Q
IC.9
L
'L }
L
L
L
L
L
'A e
iAS
L
IT 1
UU
L
>AS
L
tii
IIL
L

6
e
6
6
G
6
G
G
G
6
G
G
G
B
SINGLE
RURAL
.13758*0t
.00000
.00000
.92202+04
.00000
.291*18+03
. 1633<*+0i»
.UOOOO
.00000
.00000
.292*8+01
.732T5+OH
.ass-tz+OH
.TB40S*Oi>
SINGLE
URBAN
.26502+05
.00000
.00000
.96910+05
.00000
.55
-------
                                 APPENDIX H

                POLLUTION POTENTIAL TRENDS TO THE YEAR 2000
                    FOR THE ENERGY PROJECTION SCENARIOS
       Appendix H gives the pollution potential trends of the energy

projection scenarios  described  in Section 3.4.1.  These graphs are

displayed as follows:

       •   Reference  high nuclear scenario:  H-l to H-5

       t   Reference  low nuclear scenario:  H-6 to H-10

       •   Conservation scenario:  H-ll to H-15

       •   Electrification scenario:  H-16 to H-20

       •   Synthetics  scenario:  H-21 to H-25

The pollution potential values  for these scenarios were obtained using the

Source Analysis Model  (SAM) described in Section 5.1.  The plots show the

total national pollution impact factors for each equipment type.  For

example, the impact value for coal-fired utility boilers results from the

summation of total  impact factors for all coal-fired equipment types

within the utility  boiler sector.

       The plots displayed here show that coal fired sources have the

highest total source  impact through the year 2000 due to the increasing

dependence on coal  as  an energy source.  Natural gas-fired sources become

less important due  to  decreased use of natural gas as an energy resource.

For further perusal,  Sections 5.3 and 5.4 discuss the results and

conclusions of the  trends assessment through the year 2000.

                                    H-l

-------
                                                                      Coal
   1011
o
09
CO
I

Ho
B
   10
     10
    109
      1974
        Figure H-l.  Reference high nuclear scenario trends  in  pollution
                     potential for utility and  large industrial  boilers.
                                  H-2

-------
   1012
   1011
o
(0
u_
Q.

E


15

O
   1010
    10"
    10"
      1974
                                                                       Coal
                                                                      Gas
1985

Year
2000
     Figure  H-2.   Reference high nuclear scenario trends in pollution
                   potential for packaged boilers.
                                 H-3

-------
   108  -
o
S
03
CO
Q.

E


15
    106
    10s
      1974
1985


Year
2000
        Figure  H-3.   Reference high nuclear scenario trends in pollution

                     potential for gas turbines.
                                   H-4

-------
o


(0
u.


T3
(0
Q.

E


15
                                                                       Oil
      1974
1985

Year
2000
       Figure H-4.  Reference high nuclear  scenario trends in pollution

                    potential for reciprocating  1C engines.
                                 H-5

-------
   109
   10"
o
73
«J
u.

73

-------
   1013
                                                                   -OCoal
   10
     12
                                                                           *

                                                                           <
   101
o
CO
LL.


T>
CO
a

E
o
1010
   109
                     Reference low nuclear scenario  trends  in  pollution

                     potential for utility and  large  industrial  boilers.
                                     H-7

-------
  io13 r
  1012
o
Z
   10
     10
"5
o
   109
                                                                    Coal
                                                                      2
                                                                  -©Gas
   108
      1974
          1985
          Year
2000
        Figure H-7.
Reference low nuclear scenario trends in pollution
potential for packaged boilers.
                                    H-8

-------
   10
     10
   10"
                                                                       S
                                                                        1
03
*-»
o
   106
   105
     1974
           Figure H-8.
      1985                               2000

      Year


Reference low nuclear scenario trends  in
pollution potential for gas turbines.
                                     H-9

-------
10
  ,10
 10"
 105
                                                                   Oil
    1974
1985

Year
2000
    Figure H-9.   Reference low nuclear scenario trends in pollution
                 potential for reciprocating 1C engines.
                                   H-10

-------
  10
    10
   109
o
«  10"

£


2
o
    107
    106
      1974
                                                                   i
                                                                   i
                                                              Proc. Material(a)
                                 JL
1985

Year
                                                                  2000
     ^Emission factors given as a function of processed material


     Fiaure H-10   Reference low nuclear scenario trends  in pollution
     ngure n iu.  potentia] for industrial process heating.
                                       H-ll

-------

1012 r
                                                                  Coal
 10"
 10s
                                                                 Gas
    1974
           1985

           Year
2000
   Figure H-ll.
Conservation scenario trends in pollution potential
for utility and large industrial  boilers.
                                 H-12

-------
                                                                          i
   1012
                                            Coal
   1011
o
a
a.

o
to
a,

E
   10
     10
                                                                   -© Oil
   108
                                                                     Gas
   108
     1974
     1985


     Year
2000
            Figure  H-12.
Conservation scenario trends in pollution

potential for packaged boilers.
                                   H-13

-------
   108
%
9
u.
CO
a



"5
**
o
   10"
   10s
      1974
1985

Year
2000
           Figure H-13.  Conservation  scenario trends in pollution

                         potential  for gas  turbines.
                                  H-14

-------
o
CO
u.


o
«8
ex

E
o
      1974
                                          2000
          Figure H-14.
Conservation scenario trends in pollution

potential for reciprocating 1C engines.
                                  H-15

-------
   10"
§  10'

CO
u.
«
a.

E


To

o
   107
   106
      1974
 (a)
1985

Year
                                                                        I
                                                                        4
                                                                Proc. Material*8'
2000
    Emission factors given as a function of  processed  material
            Figure H-15.   Conservation scenario trends  in pollution

                          potential for industrial process  combustion.
                                   H-16

-------
  1012
                                                                    Coal
  101
CO

E 1010
   109
   10e
                                                                    Gas
     1974
      1985

      Year
2000
          Figure H-16.
Electrification scenario trends in pollution
potential for utility and large industrial boilers,
                                    H-17

-------
                                                                     Coal
  1012
                                                   o
                                                   i
€
to
u.
1
0.

75
•5
   1010
   109
                                                                   -OGas
   10"
      1974
      Figure H-17.
          1985                                2000

          Year

Electrification scenario trends in pollution
potential for packaged boilers.
                                  H-18

-------
                                                                      1
    10s
eg
u.
OB
Q.



"5

S
    107
     1974
1985

Year
2000
        Figure H-18.  Electrification scenario trends  in pollution
                      potential for gas turbines.
                                      H-19

-------
10'
10s  -
   1974
         1985

         Year
2000
     Figure H-19,
Electrification scenario trends in pollution
potential for reciprocating 1C engines.
                           H-20

-------
   109
o
CO
u
a
a

E
o
10"
   107
                                                    Proc. Material'8'


                                                    	©
                                                              Gas
                                                                  -©
                                                                  Oil
      1974
                            1985

                            Year
2000
   ^'Emission factors given as a function of processed material




       Figure H-20.   Electrification  scenario  trends  in pollution

                      potential  for  industrial  process  combustion.
                                      H-21

-------
  1012
  1011
u
CD
ts
CO

I  1010
                                                                      Coal
                                          Oil
   109
                                                                      Gas
   108,

     1974
  1985


  Year
2000
              Figure H-21.
Synthetics scenario trends in pollution

potential for utility and large  industrial

bo i1ers.
                                      H-22

-------
   1012
   101
cs
UL
«B
a
E

3
o
                                                                      Coal
   109
   10s
                                                                      Gas
     1974
1985
Year
2000
          Figure H-22.  Synthetics scenario trends in pollution
                        potential for packaged boilers.
                                      H-23

-------
                                                                     i
   108
o
CO
Q.

E


To

o
   106
   105
     1974
  1985


  Year
2000
               Figure H-23.
Synthetics scenario trends in pollution

potential for gas turbines.
                                      H-24

-------
1974
                                      2000
        Figure H-24.
Synthetics scenario trends in pollution
potential for reciprocating 1C engines.
                                 H-25

-------
                                                                      I
                                                            Proc. Material'"
 107
 106
    1974
1985
Year
2000
(a)
   Emission factors given as a function of processed material

           Figure  H-25.   Synthetics  scenario  trends in pollution
                         potential for  industrial  process combustion.
                                  H-26

-------
                                TECHNICAL REPORT DATA
                         (Please read Iituructions on the reverse before completing)
  DEPORT NO
EPA-600/7 - 78-l20b
                               |3. RECIPIENT'S ACCESSION NO.
. TITLE AMD SUBTITLE
Emission Characterization of Stationary NOx
 Sources: Volume n.  Data Supplement
                               ,5. REPORT DATE
                                      August 1978
                               6. PERFORMING ORGANIZATION CODE
. AUTHORIS)
K. G.Salvesen, M.Herther, K.J. Wolfe, andE.Chu
                                                     B. PERFORMING ORGANIZATION REPORT NO.
i. PERFORMING ORGANIZATION NAME AND ADDRESS
Acurex Corporation/Energy and Environmental Div.
485 Clyde Avenue
Mountain View, California 94042
                               10. PROGRAM ELEMENT NO.
                               EHE624A
                               11. CONTRACT/GRANT NO.

                               68-02-2160
12. SPONSORING AGENCY NAME AND ADDRESS
                                                     13. TYPE OF REPORT AND PERIOD COVERED
EPA,  Office of Research and Development
Industrial Environmental Research Laboratory
Research Triangle Park, NC  27711
                               Special: 1-10/77
                               14. SPONSORING AGENCY CODE
                                 EPA/600/13
15.SUPPLEMENTARY NOTES JERL-RTP project officer is JoshuaS. Bowen, Mail Drop 65,
919/541-2470.
16. ABSTRACT
          The report gives results of an inventory of gaseous, liquid, and solid
effluents from stationary NOx sources, projected to the year 2000, and ranks them
according to their potential for environmental hazard.  It classifies sources accor-
ding to their pollution formation characteristics, and gives results of a compilation
of emission factors and regional and national fuel consumption data for specific
equipment/fuel types. It gives results of an emission inventory for NOx, SOx, CO,
HC, particulates, sulfates,  POM, and liquid or solid effluents. It projects emissions
to 1985 and to 2000 for five energy scenarios, depicting alternative uses of coal,
nuclear power, and synthetic fuels. It  ranks sources by nationwide emissions loading
for 1974,  1985, and 2000. It describes a source analysis model used to estimate pol-
lution hazard, considering ambient dispersion, population exposure, background
concentrations, and health-based impact threshold limits. It applies the model the
model to the emission inventory to produce source rankings based on both single-
pollutant and total-multimedia impact factors.
17.
                             KEY WORDS AND DOCUMENT ANALYSIS
                DESCRIPTORS
                                          b.lDENTIFIERS/OPEN ENDED TERMS
                                              COSATl Field/Group
Air Pollution
Nitrogen Oxides
Organic Compounds
Inorganic Compounds
Fossil Fuels
Dust
Boilers
Gas Turbines
Internal Combustion
 Engines
Ranking
Inventories
Air Pollution Control
Stationary Sources
Environmental Assess-
 ment
Particulates
Emission Factors
13 B
07B
07C

21D
11G
13A
13G

21G
12 B
15E
18. DISTRIBUTION STATEMENT
 Unlimited
                                          Unclassified
                                                283
                    20 SECURITY CLASS (This pageJ
                    Unclassified
                                                                  22. PRICE
EPA Form 2220-1 (9-73)
                  H-27

-------