EPA-450/3-75-057
August 1974
NATIONAL AIR DATA BRANCH
EMISSION DATA SYSTEMS
TRAINING MANUAL
U.S. ENVIRONMENTAL PROTECTION AGENCY
Office of Air and Waste Management
Office of Air Quality Planning and Standards
Research Triangle Park, North Carolina 27711
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EPA450/3-75-057
NATIONAL AIR DATA BRANCH
EMISSION DATA SYSTEMS
TRAINING MANUAL
by
PEDCo-Environmental Specialists, Inc.
Suite 13, Atkinson Square
Cincinnati, Ohio 45246
Contract No. 68-02-1375
EPA Project Officer: Archibald McQueen
Prepared for
ENVIRONMENTAL PROTECTION AGENCY
Office of Air and Waste Management
Office of Air Quality Planning and Standards
Research Triangle Park, North Carolina 27711
August 1974
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This report is issued by the Environmental Protection Agency to report
technical data of interest to a limited number of readers. Copies are
available free of charge to Federal employees, current contractors
and grantees, and nonprofit organizations - as supplies permit - from
the Air Pollution Technical Information Center, Environmental Protection
Agency, Research Triangle Park, North Carolina 27711; or, for a
fee, from the National Technical Information Service, 5285 Port Royal
Road, Springfield, Virginia 22161.
This report was furnished to the Environmental Protection Agency
by PEDCo-Environmental Specilaists, Inc. , Cincinnati, Ohio 45246,
in fulfillment of Contract No. 68-02-1375. The contents of this report
are reproduced herein as received from PEDCo-Environmental Specialists,
Inc. . The opinions, findings, and conclusions expressed are those
of the author and not necessarily those of the Environmental Protection
Agency. Mention of company or product names is not to be considered
as an endorsement by the Environmental Protection Agency.
Publication No. EPA-450/3-75-057
11
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ACKNOWLEDGMENT
This document was prepared for the U.S. Environmental
Protection Agency by PEDCo-Environmental Specialists, Inc.,
Cincinnati, Ohio. Mr. Donald J. Henz was the PEDCo
Project Manager. Principal author was Mr. John M. Zoller.
Mr. Arch A. MacQueen was the Project Officer for
the U.S. Environmental Protection Agency. The authors
appreciate the assistance and cooperation extended to them
by members of the U.S. Environmental Protection Agency.
>t.
111
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TABLE OF CONTENTS
Page
ACKNOWLEDGMENT :iii
LIST OF FIGURES vii
LIST OF TABLES *
1.0 INTRODUCTION 1-1
2.0 NATIONAL EMISSIONS DATA SYSTEM (NEDS) .2-1
2.1 Point Sources 2-2
2.1.1 Coding 2-2
2.1.2 Updating Point Source Data 2-29
2.1.3 Edit/Check Procedures 2-41
2.2 Area Sources 2-54
2.2.1 Data Development and Coding 2-56
2.2.2 Updating Area Source Data 2-60
2.2.3 Edit/Check Procedures 2-61
2.3 NEDS Output Formats 2-61
3.0 EMISSIONS INVENTORY SUBSYSTEM (EIS) 3-1
3.1 Synopsis of CDHS 3-1
3.2 Purpose and Capabilities of EIS 3-2
3.2.1 Purpose of EIS 3-2
3.2.2 Capabilities of EIS 3-3
3.3 NEDS-EIS Relationships 3-7
3.3.1 File Structures - NEDS/EIS 3-7
3.3.2 NEDS to EIS File Conversion 3-7
3.3.3 EIS to NEDS File Conversion 3-9
3.4 EIS Coding Requirements 3-9
v
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TABLE OF CONTENTS (continued)
Page
3.4.1 EIS Coding Instructions 3-13
3.4.2 Add, Change, and Delete 3-26
REFERENCES
APPENDIX A SAROAD CODING CHANGES FOR NEDS PURPOSES A-l
APPENDIX B STANDARD ABBREVIATIONS FOR USE IN B-l
COMMENTS
APPENDIX C TABLE FOR USE WHEN ASSIGNING PLANT C-l
IDENTIFICATION NUMBERS
APPENDIX D TEMPLATES OF NEDS POINT SOURCE CODING D-l
FORMS FOR USE WITH IBM FORTRAN CODING
FORMS
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LIST OF FIGURES
Figure Page
2.1 NEDS Point Source Coding Form with 2-3
Identification Columns Denoted
2.2 Typical Process Flow Diagram as Drawn 2-5
on Back of NEDS Coding Form
2.3 ..Allowable Emissions for Zero Emitters 2-18
and Unlimited Allowable Emissions
2.4 Allowable Emissions for Small or Well- 2-19
Controlled Sources
2.5 Example Process Weight Regulation 2-20
2.6 Calculation of Allowable Emissions for 2-21
Processes
2.7 Example Regulation for Indirect Heating 2-22
Equipment
2.8 Calculation of Allowable Emissions for 2-23
Boilers
2.9 Sample Standard Form 2-28
2.10 IBM FORTRAN Coding Form 2-30
2.11 Template for IBM FORTRAN Coding Form 2-32
2.12 Example of a Coded IBM FORTRAN Form 2-34
2.13 Example Delete Action Using Template 2-38
2.14 Example Change Action Using Template 2-40
with FORTRAN Form
2.15 Example Add Action Using Template with 2-42
FORTRAN Form
2.16 Edit/Check Printout Listing I - Invalid 2-44
Control Codes
vn
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LIST OF FIGURES (continued)
Figure Page
2.17 Edit/Check Printout Listing II - Data 2-45
Listing
2.18 Edit/Check Printout Listing III - Data 2-47
Field Errors
2.19 Edit/Check Printout Listing IV - Input 2-49
File Errors
2.20 , NEDS Area Source Coding Form 2-55
2.21 Point Source Listing 2-63
2.22 Area Source Listing 2-65
2.23 Area Source Fuel Usage - Residential 2-66
2.24 Area Source Fuel Usage - Commercial and 2-67
Institutional
2.25 Area Source Fuel Usage - Industrial 2-68
2.26 Count of Plants, Points, and SCC's 2-69
2.27 Condensed Point Source Listing 2-70
2.28 Allowed vs Computed Emissions 2-71
2.29 Nationwide, State, or County Emission 2-73
Summary
2.30 Stationary Source Fuel Summary Report 2-78
2.31 SCC Emissions Report 2-79
2.32 Highest Plant ID. by County 2-80
2.33 Weighted Sensitivity Analysis - Grand 2-81
Total
2.34 Weighted Sensitivity Analysis - Point 2-82
Sources
2.35 Plant Emissions Summary 2-85
3.1 Relationship Between EIS Transaction 3-8
Cards, EIS Master File Segments, and
NEDS Transaction Cards
Vlll
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LIST OF FIGURES (continued)
Figure Page
3.2 EIS Coding Form - Plant Identification 3-10
(Segment 0)
3.3 EIS Coding Form - Point Source (Segment 3-11
1)
3.4 EIS Coding Form - Machine/Process 3-12
(Segment 2)
IX
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LIST OF TABLES
Table Paqe
2.1 Estimation Method Code 2-14
2.2 Error Messages 2-51
x
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1.0 INTRODUCTION
An emissions inventory of pollution sources provides
data concerning the location, magnitude, frequency, and
duration of pollutant emissions and their relative con-
tribution to local pollution problems. This information is
used in establishing air monitoring networks and in design
and evaluation of pollution control programs. In conjunc-
tion with meteorological data, it is used to predict ambient
air quality. Because the emissions data are stored by
computer, they are easily retrieved for use in a variety of
summary report formats.
Three major computer systems have been developed to
perform these tasks. They are the National Emissions Data
System (NEDS), the Emissions Inventory Subsystem (EIS) of
.the Comprehensive Data Handling System (CDHS), and the
STARTER system.
This document is a supplement to the available in-
structional materials on NEDS and EIS. The STARTER system,
which is proprietary, is not discussed herein.
1-1
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2.0 NATIONAL EMISSIONS DATA SYSTEM (NEDS)
NEDS provides coding systems for emissions from both
point and area sources. Procedures are provided also for
updating information in the NEDS data bank and editing and
checking information that is to enter the data bank. These
procedures are explained-in this document. NEDS point and
area source emissions are complementary for particular
source categories. For example, industrial fuel usage which
is not accounted for in the point source record, is included
as an area source. There are also categories, such as motor
vehicle emissions, that are exclusively area sources.
When coding NEDS it is important to have available the
following list of references:
Guide for Compiling a Comprehensive Emission Inventory,
APTD-1135. (Reference 1)
SAROAD Station Coding Manual for Aerometric Sampling
Networks, APTD-0907. (Reference 2)
Federal Air Quality Control Regions, AP-102. (Ref-
erence 3)
Standard Industrial Classification Manual, 1972.
(Reference 4)
Compilation of Air Pollutant Emission Factors, Second
Edition, AP-42. (Reference 5)
SCC Listing. (Reference 6)
2-1
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NEDS Update Procedures. (Reference 7)
NEDS Edit Listing. (Reference 8)
National Emissions Data System Control Device Workbook,
APTD-1570. (Reference 9)
Up-to-date Point Source Listing
2.1 POINT SOURCES
Point sources emit or have the potential to emit pol-
lutants in quantities significant enough that each source is
considered individually in an emissions inventory. Criteria
for designation of point sources are given in Chapter 4 of
APTD-1135. The U.S. EPA regulations which define point
sources are also published in the Federal Register.
2.1.1 Coding
The NEDS point source form is shown in Figure 2.1.
Although detailed coding instructions are given in APTD-
1135, we briefly describe herein each entry field and indicate
items not fully covered in that reference.
The coding form includes six separate cards, all of
which are complementary. These cards are labeled 1 through
6. There is provision on the form for more than one card 6.
The use of multiple card 6's will be explained later.
When coding it is important to understand the concept
of "identifiers," "control codes," and "data fields." On.
each NEDS form there are certain identifiers which define
the plant, point, and process. The information fields which
serve as identifiers are indicated in Figure 2.1. The
first 13 columns are identifiers which are common to all six
2-2
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State
1
X
2
X
County
3
X
4
X
5
X
6
X
AQCR
7
X
8
X
9
X
Plant ID
Number
10
X
11
X
12
X
13
X
NATIONAL EMISSIONS DATA SYSTEM (NEDS)
ENVIRONMENTAL PROTECTION AGENCY
OFFICE OF AIR PROGRAMS
POINT SOURCE
Input Form
Name of Person
Completing Form .
Date..
14
15il6
~~
City
Ftint
14115
XiX
17
YCTO! i
Record SIC
1 1 i
-l^-p^-H
Yearol
Re c era
~r
Year of
Record
'iUz
Yearol
Record
.1
21
UTMCOO
IPP Horizontal
Ixess km
IS
Boiler Design
Capacity
'.0.6 BTU hr
|
*. A
Dec-
Feb
18|l9
L_L
NNUAL
Mar-
May
?0
21
2j 24125
T
Primary
Part.
23i24 25
THRl'PUT
June 1 Sept
Aug | Nov
22
T
"f"
RDINATES
Vertical
km He
23 29
i
Secondary
Part.
to
N
oPf
Hr day
...
parliculaie |
«ppqj
22|23J24J25I26:27
28
r
OR?
RA
D
28
SOj
28
30
31:32 33!
ghl Iff,
34
~T in
primary
'Sfa
:AL
TING
29
29
130
1
C
Secondary
S0?
3?! 331 34
!
35
36
Diarr, |lh
37 38
ONTROL E
Primary
NO,
13?
38
ill
Participate
3l|32i33,
ULLO'W
*
31
21
35: 35' 37
ELE EMISSIONS (tons
NO,
32;33
34_
35_|36J37_
39
STACK C
Temp r"Fi
-to|.
QUIPMEHT
Secondary
NO,
38
39
ye
38
39_
1"
m
39
40 -
S
!4of4
1^42143
Piimary
HC
1J42J43
0-)
1|42
i
HC
I40J41 42
1 1
ATA
How Rile (II3 nini
44i45!.|6
Sec
—
EMISS!
PP
43
44
or.dary
HC
45i46
ZT
|47 43
i
Prima
CO
47ra
49150
'y
49
Plume
II no si
51
52
Secondary
CO
50
51_
"
ON ESTIMATES (tons yeari
NO, |
45J46
45 46
!47T48n
1
J47T48
49
50
51152,
CO
49JSO
51
L
52
i 7i 48
±
49T50|5li52! 53
~
1
Rile (II3 nini
16J47
43
49150
1
54J55
Plume Height
il no stack-It.
51 52
!52i 54
• !
56157
55
P
56
"X
58i59J
I
intsW
imon St
| ^~
txjx"
60i61
th
nek
!59
ix
Contact -Personal
62 63[6
1
60
61!626
1 l'.5i 66i67J63!69
i
70
71
slej'ss ee!67
1
i
72
73
a=
o
74
7576J 77
1
63l69 70J71
72
73
O
u
73
Aj
74175J76I77
i I
79
P
0
78
A
cd
80
1
79
P
ESTIMATED CONTROL EFFICIENCY (•.)
Part.
OilJJ D-4 DD DDp/ DO
r±ctfrr:
so?
56|57!58
NO,
59.i6q|61
HC
62l63J6i
n
CO
65I66'67
cd
ea'egFo
71
EKC
f53]54S5i56T5~7T58
ttxrrr:
CO
59]60 [6l! 62~[63j64lfi5"
— — —I~T—1—i—
, ESTIMATION
METHOD
samta
G7 68 69
CO
70
72I73I741
75
7fi;77
78
179
cd
30
; Space
71
72
73
74175
76177
78
Yea
See
16
L
rta
Rcc
16
of
ord
of
ord
17
particular
S
I I
18
X
5T
1
f
?l|??|23
sec
III
211 2212?.
x xjx
1
1
H
soz
25126 27 28
'1TJ
IV
X
25
X
A
If
LLOWfl
7.0
31
ELE EMISSIONS (tons ye.
NO,
32T33 34|35]36l37
Fuel,Process
Solid Waste
Operating Rale
2JJ27 23
i
_j
j
-]-|-
29130I31
32
38
r)
HC
39140141
1
Maximum Design
Rate
331341351
i
•fj-
1
1
36
A
— *
,
37|33|39
'-(•"
i
i
42
Sullur
Sntenl '„
40J41J42
i
i
i
_i_
A
43144
1
45
Ash
Content ',
43J44J45
1
L
L_
46
«.
F
CO
i?M
Heat Content
1068T'J.scc
46
47
—
40
491501
—
—
si!
52
0.
o
c:
53
COV
SCr
Yea
M!
PLIANCE
EOULE
r [Month
551
56
57
~T m~
CO?.:PL
i
Year
sefsl
ANCE J
POATE
Month
60|61
TATIJS
Day
32i63
o.
p
64
CO
Reg 1
65I66I67J68
1
JTROLREGUL
Reg:
MZ2
5ll52i53|54!55J5o!S7
I
-
-
58 59 60
rr
61
62
—
63 64 65
66
67
63169
70
71 [72
S
0
71
C
c.;
72
ATIONS
Reg 3
73
74J75
76
77
73
74
75
76177
1
5
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cards. Columns 14 and 15 is the point identification which
is common to cards 2 through 6. The Source Classification
Code (SCC) entered in columns 18 through 25 identifies the
process. Columns 56 through 59 of card 2 (common stack
information) are identifiers for the "change action" of
card 2. The change procedure is explained later. The
concept of "identifiers" is important as no updating of NEDS
information can be accomplished without full use of the
identification codes. The computer system will not accept
any data where one of the identification codes are missing.
Columns 78 through 80 are used for the program's con-
trol codes. There are three control codes: action code,
format code, and card code. The action codes (Col. 78) are A,
D, and C which denote respectively, add, delete, and change.
The "P" in column 79 signifies the card has a point source
format. An "A" must be entered in this column to indicate
an area source format. The card number is entered in column
80. The column headings not discussed above signify data
fields.
Before coding a plant into the system, it is often
helpful to first draw a flow diagram of all operations
present. This helps identify the process and emission
points. An example of such a flow diagram is given in
Figure 2.2.
A few general instructions which should be kept in mind
when coding NEDS forms include the following:
2-4
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CO/1L
PULVERIZER
MIXIN6
BIN
X
xr.
J
TPH
1
f
fel-1
/SO TPH
Figure 2.2 Typical process flow diagram as drawn on back
of NEDS coding form.
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0 NEDS coding form field headings cannot be changed.
0 Decimal points cannot be placed in the fields except as
is preprinted on the coding form.
0 Only codes prescribed by EPA and found in APTD-1135 may
be used.
0 Columns which have no headings cannot be used.
0 Forms submitted must be clear and legible. All entries
must be made with a heavy pencil or a pen.
0 When the state or local agency makes a decision re-
garding coding procedures, it should be put in writing
and kept for convenient reference.
2.1.1.1 Card 1 - The purpose of card 1 is to identify and
locate the plant. When a facility has multiple emission
point ID's, complete spaces 14 through 74 of card 1 on
the first point source coding form only; on all other point
source coding forms relating to additional points within the
plant these spaces are left blank. Fill in columns 1
through 13 on all coding forms, there can be no blanks in
these columns.
State codes are given in Appendix A, Section 1, APTD-
1135. County codes are given,in APTD-0907. There are a few
exceptions, for NEDS purposes, to the codes listed in APTD-
0907. These exceptions are for the States of Connecticut,
Maine, and Massachusetts only, and are listed in Appendix A
of this report. A few cities in the United States are not
considered to be within any county, but rather are inde-
pendent entities. For these cities, the city code should be
\
entered in both "city" and "county" coding columns. Code
numbers for the Air Quality Control Regions are given in
2-6
-------�
Appendix A, Section 1, APTD-1135. The counties in each AQCR
are listed in AP-102. Use APTD-0907 and AP-102 to locate
the proper AQCR number. The plant iden-
tification number identifies each plant
or facility within a county. The number-
Stale I County
2.10
AQCR
719
Plant ID
Number
00
ing system is sequential, starting with the number one and
continuing until all facilities in the county are assigned
numbers. One person should be responsible for assigning
plant ID's and reporting this information to the AEROS
contact at the EPA Regional Office. A convenient method of
recording the assigned plant identification numbers is to
use a table of numbers and line through the number when it
is assigned. A blank table is provided in Appendix C for
this purpose. All columns in the plant ID field must be
filled in; for example, the proper entry for a plant with
ID number 5 is 0005, entered in columns 10 through 13.
If a source is within the city limits of a city listed
in APTD-0907, the 4-digit code number corresponding to
that city is entered in columns 14 through 17. Do not enter
a town or city code if the facility is located outside the
boundary of the city of address. Universal Transverse
Mercator (UTM) zones
can be located on
iaz
Utm
Zone
Yeaio!
Kecoid
3.
Establishment Name and Addiess
.1?l33[34l3d36J37| 3fl[3l>r
-------�
This holds true for all cards. The year of record must be
entered on cards 1 and 2. Name and address of the estab-
lishment are entered in columns 22 through 61. The estab-
lishment name should be the name which the facility itself
uses and which the state and/or local agency has on its
records. Use common abbreviations where possible. Identify
the location of the facility by giving a street address
rather than a post office box number. Include the city name
only if there is no SAROAD
.oi57|58|59l60|61
Conl'd •
62:6364
67
70 71
72!
7374
75
76
77
79
80
city code entered in
JUSTslilSlL
columns 14 through 17,
and enter the postal ZIP code when possible. The personal
contact at the plant is the person in charge of pollution
control activities. The ownership code identifies the owner
of the facility as either private, governmental (local,
State, or Federal), or utility (e.g., electric power plant).
Ownership codes are given in APTD-1135.
2.1.1.2 Card 2 - The function of card 2 is mainly to give
stack data and locate emission points via UTM coordinates.
This information is necessary for computer modeling.
Each facility usually has more than one emission point.
Cards 2 through 6 present the data peculiar to each emission
point within a plant. Several emission points may be
combined if they are similar and do not emit large amounts
of pollutants. If several points are combined into one
emission point, note this fact in "comments" (card 6) and
enter the representative stack data as explained later.
2-8
-------�
Each emission point within a plant is numbered con-
secutively starting with one. If there are
Yoard
Iccotd SIC
—_._ ._._...—._
1C. 17 IDMflbo 21
"T I i Ir
more than 99 points within a plant, the re- 'I0
maining points should be identified al-
phabetically as follows: AA, ABf AC,..., BA, BB, BC,...,ZZ.
Note that since both columns 14 and 15 of card 2 must be
filled in on every form, emission point one is entered as
01. Standard Industrial Classification (SIC) codes that are
also assigned an IPP Process code are given in Appendix A,
APTD-1135. All SIC codes are listed in the 1972 SIC Manual
(Reference 4). The SIC code .entered for all points within a
facility (except refuse disposal) should be that which
represents the principal activity of the facility. How-
ever, if the facility reports more than
one SIC, these SIC's should be used
with the appropriate processes. For
IPP1
fttr
Point
ID
YCTOl
ilJi_7
SIC
IPP
5!$.
UTM COORr
Honzontjl •
all waste disposal facilities (such as incinerators) SIC
4953 must be used. If the IPP code is not listed for a
process, leave the columns blank. Boilers are given the SIC
code representative of the plant and should always have the
appropriate IPP code from page A-42, Appendix A, APTD-1135.
Note that all boilers fired with oil or natural gas have an
IPP code of 00.
The UTM coordinates are taken from USGS maps. Ac-
curate location is necessary if
the information is to be used
for modeling air quality. If
Poml
cl:
ctccd
SIC
2071
IPP
UTM COORDINATES
Hori/onta!
Verticil
km
,-J
78,»!.10 31 3?
HeijMC
"
2-9
-------�
possible (for large plants) the UTM coordinates should be
unique for each point. In some cases the plant location has
been expressed in latitude and longitude. When that is the
case, EPA can furnish a computer program for conversion of
latitude and longitude to UTM coordinates.
Enter stack parameters, as described in APTD-1135, in
columns 33 through 54 of card 2. If a source does not have
a definite stack,
,
33343
umiH) I leir.
STACK DAfA
OumiH) I leir.p {':n
Flo* Rale lllf mini
44[«{«Ij;l«8 folio
.±Ml3.tLloTp
Plume Height
lino stack It.
PomliW.
Common
56 Is"
enter zeros for
stack height,
diameter, and flow rate and enter the height of the emission
release point (above ground level) in columns 51 through 54,
plume height. Record the temperature of the released gases
in columns 40 through 43. When combining data on several
stacks onto one form, determine the appropriate stack data
by the formula on page 4-9 of APTD-1135 and indicate the
number of stacks combined in "comments."
If several points have a common stack, assign con-
secutive point ID numbers and enter the same numbers for
stack height, diameter, and temperature. The flow rate is
the amount contributed
)>y that particular
ource. The infor-
mation entered in columns 56 through 59 should complete the
.following sentence: "Points ID'S (columns 56 and 57) through
(columns 58 and 59) discharge emissions through one single
2-10
-------�
Pli!
Seer
and common stack." For example, if points 3, 4, and 5 have
a common stack, enter 0305 in columns 56 through 59 of card
2 for all three point ID's. If a point does not have a
common stack, enter 0000 in these columns.
2.1.1.3 Card 3 - The primary function of card 3 is to
record data on control equipment and estimated control
efficiency. Boiler design capacity is entered for boilers
only,- and not for other combustion units such as stationary
internal combustion engines or incinerators. Enter a zero
if this category is not applicable. The
boiler design capacity should always be
at least equal to or greater than the
product of maximum design rate and heat content (both
parameters found on card 6).
Control equipment codes are given in Appendix A, APTD-
1135. If no control equipment is used, enter three zeros in
the appropriate columns. Primary control equipment is a
control device whose main function is to reduce emissions of
that pollutant under which it is listed, or the first in a
series of control devices. Secondary control equipment is
either a device
Bailer Dtdf."
roli CjjMt'ty,
Pccvd !0SBIU hi
that follows pri-
mary equipment
Boilct Design
reai oil Capacity
Rccoid I lO'BJU hi
CONTROL EQUIPMENT
Pfiiraijr
Pail.
Secondary
Pail.
28
Ptraiy
QpjO
Secondary
J°2
PftfT-aiy
PLOio
Scconciai)
_ NOj
•IBbsUn
OlOlOloir
ISer
HC
«F
in series or a device that although designed primarily to
remove one pollutant affects removal of another. For
example, a fabric filter on a cement kiln primarily removes
2-11
-------�
particulates but also reacts with the alkaline particulate
filter cake to remove some of the S02 (Reference 5).
Therefore, the fabric filter would be listed as the primary
collector for particulate (if there were no other control
devices in series) and as a secondary control device for
S02. Equipment that functions as a normal part of the
process, such as a cyclone on a petroleum refinery catalytic
cracker, is not considered as a control device but as part
of the process. In such instances, do not enter codes for
the device as a control device.
Enter the estimated overall control efficiency whenever
possible. If
there is no
removal of a
acondaiy
CO
.•iSBOlSt 5253S
tSTIMATEO CONTROL EFFICIENCY (M
Pill.
$316
SO?
51510
NO,
bDJcotei
".IIP
HC
62 [63 [64
C0_
DBJeeJeF
68
6.9
win
72
73
74
75
»
80
'
pollutant, enter a right-justified zero for that pollutant.
A reference that may be used to obtain typical control
efficiencies is APTD-1570.
2.1.1.4 Card 4 - Card 4 gives operating information and
emission estimates. Percent annual throughput is the per-
cent of annual activity that occurs during each of the time
periods listed. If a source
YEJto!
Record
lilTz
\ PNNUAL f HRIIKUT
fill!)
aiS
May
>b[2l
June
Scpl
(i d.'y
NORMAL
;w
0
n
512
reports no seasonal vari-
ation, distribute the
throughput values evenly. The normal operating schedule
indicates the normal hours of operation per day, days per
week, and weeks per year for each specific point.
Part1
2-12
-------�
Emission estimates are the estimated annual emissions
from the point source. The emissions should be entered
except when estimation method 3 is used. In-process fuel
emissions need not be calculated.
The estimation method codes should be entered in
columns 66 through 70. These codes indicate on what basis
emission estimates were made. These codes are given in
Table -2.1.
If a pollutant is not emitted by the source, enter a
zero for the emissions estimate and for the corresponding
estimation method. Do this also when AP-42 lists a pol-
lutant as
EMISSION ESTIMATES (Ions yeail
T • • T_ T >°2 HUI
negligible. .oUifcusiM bisGiheii:
HC
CO
S9l60]6l|62l63]i>"4|6S M
LOlLfelzlfil
ESTIMATION
VETHOD I
00
1C CO
311
% Space
Heal
71|72T73]74|75P6777
7ii|79
If the
emission factor in the SCC list is zero, then either 3 or 0
can be entered as the estimation method. Note that pol-
lutants with zero as the estimation method always have zero
for the emission estimate.
If reliable source test data are available, use these
values to calculate the annual emissions. Take special care
to use code 1 only when source test data are used to cal-
culate annual emissions.
Code 2 denotes a material balance using engineering
knowledge and expertise of the process. Use code 2 only
when a material balance is performed.
Entry of estimation method 3 for a pollutant, with a
corresponding emission factor in the SCC listing will cause
2-13
-------�
Table 2.1 ESTIMATION METHOD CODE
Code Description of Method
0 Not applicable or emissions are known to be zero.
1 Source test results or other emission measure-
ments.
2 Material balance using engineering knowledge
and expertise of process.
3 Emissions computer calculated using emission
factors in the SCC listing. No emission
estimates need be coded on NEDS form.
4 Guess.
5 Emissions calculated using a special emission
factor differing from that in the SCC listing.
6 New source for which approval to construct
has been given but at which operation has
not yet begun. Emission estimates are zero.
7 Sources ceasing operation. Emission estimates
are zero.
2-14
-------�
automatic calculation of the emissions using that emission
factor. The emission estimates may then be. left blank for
that pollutant. Code 3 may not be used when there is no
corresponding emission factor in the SCC listing. When
using code 3, the annual operating rate, estimated control
efficiency, and sulfur or ash content (if appropriate) must
be entered on the coding form.
Code 4 signifies that a guess 4s the basis for the
emission calculations. If a given SCC is assigned no
emission factor, but an AP-42 factor for a similar process
is used as a basis for the emission estimate, enter a 4' for
the estimation method.
If an emission factor other than that contained in the
SCC listing is used to calculate the emission estimate, a
code 5 should be entered as the estimation method. An
example would be when AP-42 gives the emission factor as a
range and it is desired to use a factor in that range other
than the one in the SCC listing. The emission estimates
would then be calculated and entered based on the special
factor and estimation method code 5 would be .entered.
Code 6 should be used for new sources that have not yet
begun to operate. Code 7 should be ente'red for processes
ceasing operation*. This code should be used rather than
deleting the
process from*
the data
bank. Both codes will automatically estimate emissions as'
ONitSTK/lAItS ilons »eai
«[46J47J48
49J5051
HC-
52J53[54
5D 50 5V 58
J±L
• ' CO
59|i'.o|6l!f.7
63
65
pE
3
r.c
7
STIMAT
W.IHf
*>,fA
e; ox
7|7
ICf
0
7
CO
70
7
•. Space
Heat
71
72
73
74
75
76
f>
a
78
A
y
79 HO
p-fr
2-15
-------�
zero. Therefore no entries should be made in the emission
estimates field when either code 6 or 7 is entered in tne
estimation method field.
When filling out the NEDS form, perform all calculations
on the back of the form - not only emission calculations,
but also any other calculations required for an information
field. Also record any explanatory notes you feel may be
necessary. Any person reviewing the form can then determine
easily how the entries were obtained or resolve any dis-
crepancies .
The final information field on card 4 is % space heat
This field indicates the percent of fuel JN.
.00
used for space heating. If the par- fl\*cco
J7 Gil 69
70
• Space
V1I72 73
21510
78[79K£
A P 4
ticular point ID being coded happens
to be a process, a zero must be entered in column 73. A
whole number cannot be entered in this field unless.card 6
indicates that the point burns fuel..
2.1.1.5 Card 5 - Card 5 gives data on allowable emissions
and compliance status. Enter the year for which the emis-
sions are estimated as the year of record.
Calculate allowable emissions on the basis of appli-
cable regulations which were enforceable during the year of
record. Note that current regulations may not have been
applicable during that year. For all processes that are not
emitters of a specific pollutant, .enter a zero in the
appropriate column in the allowable emissions information
2-16
-------�
field. For example, see the NO emissions indicated on
-K
Figure 2.3. When an actual emission of zero tons per year
is shown because the source
is small or well-controlled,
allowable emissions are cal-
ALLCMM.E MISSIONS (Ions 'y"'l
NO,
SBataib'jbdbybs
JJJ-LLje
culated and entered on card 5, as shown for particulate
emissions on Figure 2.4. Where allowable emissions are
calculated to be less than 0.5 TPY, do not round off to
zero. In such cases enter a "1" in the appropriate column.
If no regulation is applicable to a pollutant emitted
by a source, enter 9's in the appropriate columns on card
5, as shown for SO- emissions in Figure 2.3*-. By use of
example allowable emission rates, obtained from Figure 2.5,
allowable process emissions of particulate can be calcu-
lated, as shown in Figure 2.6. Allowable process emissions
are based on the hourly maximum design rate (card 6, columns
33-39). By use of example allowable emission rates obtained
from Figure 2.7, allowable emissions of particulate from an
indirect heat exchanger can be calculated, as shown in
Figure 2.8. For boilers, allowable emissions are based on
the design capacity (card 3, columns 18-22).
The compliance status and compliance schedules are
entered as described in APTD-1135. Note that the compliance
schedule field has an entry only if a "2" or "3" has been
entered in column 53. Compliance update indicates the year,
month, and day of the most recent, change in compliance
HC
2-17
-------�
SUle
1 2
County
3
4
5
6
AQCR
7
8
9
Plant ID
Hunt*!
10
11
12
13
NATIONAL EMISSIONS DATA SYSTEM (NEDS)
ENVIRONMENTAL PROTECTION AGENCY
OFFICE OF AIR PROGRAMS
POINT SOURCE
Input Form
Name ol Person
Completing Form .
Date .
Cily
14 15
Point
ID
1415
16
17
Utm
Zone
18
ftcorrj
16
17
Yearol
Record
16
±
tearol
Record
16
J7,
Year of
Record
16TJ7
fear ol
Record
16
17
19
ttarol
Record 1 EsUblishmenl Name and Address
20
2JJ22 23
r
24
1 IPP
SIC [floss
18
19
20
21 22
Boiler Design
Capacity
106 BTU nr
isRg
20
21 22
23
25
26
27
28
UTM COO
Horizontal
. km
24
25 2S
Primary
Part.
23
24
25
'. ANNUAL THRUPUT
Dec- r Mar I June 1 Sept
Feb 1 May | Auj | Nov
I8
19ho
T
>}M«
JLL« 7700TPY-
rooo
Parlicu ate
18il9
T"
18
2_0
' II
19
20
21|22
I
ft?
sec
Ml
2li22l23
j
27
29
30
31
32
1
RDINATES .
Vertical
km
28
Secondary
Part.
!6
27
N
DPI
Hr day
?!
_2Z
28
OR
RA
D
Vk
28
3.C,
25>26
99
IV
24,25
27
9
28
9
Fire
Sol
26j27
28
29
30
31
32
34
3E 36
17
Heighl (It)
34 135
36
g39
40
Oum (II)
37J38139
CONTROL E
Primary (Secondary 1 Primary
so2 sdz 1 NO,
29 3obl[32
'
iAL
TIN
Wk
(
2?
9
f
dW
tin;
2?
2
G
1
1
33
3435
36
r
2-7
PailiculJle
31!32
- 1— •
i
LLOWd
30
9
31
9
"
34)35
1
3637
4 7
BLE EMISSIONS (
y*-
32
cess,
isle
Rate
siililM1
0 0
|
33
.,135
3G
J
41
42
43
44
STACK C
Temp i°F|
«oUl!«2
1
QUIPITENT
Secondary
NO,
^
ons ye
^
Fi33
o
39J40
39
._
y^
Kaiimum Design
Rale
3473?
Jo
3
37 38 ;39
B
0,0
-
S
s*
43
Primary
HC
41
S02
:
^
^
3
42
42
Slillur
Qjnlen! ',
4£
(
41I42
43
EM
47
2
^
4T
45J46
I
47
48
49
ATA
Flow Rate (It3
14 45
Set
3
SSI
44
3
^
-«!
46
ondary
HC
"jslie
'~r
ON
•15
'_
^
45
Ash
Conical ',
13
-
44
^
45
47
.:
47
ESTIM«
^
46J47
Hea
10« [
16
47
48
CO
S|
TE<
NC
1:
^
43
Co
!TU
p8
50
mm
151
51
50
3
52
53
54
E5
plume Height
II no slack II
51
52153
1
Secondary
CO
52
54
56
57
58
59
60
61
62
63
Contact - Personal
64
65
66 67
68
69
70
71
72
73
o
74
75
7S77
1
O
TJ
76
A
55
EST
Part.
53;54
,
55
(tons year!
«_...! - . HC
. i j _
J-lQj
CO
Gyisojsi
"j"r-f-J
*
52
1
lenl
sec
«9i5
-------�
I
M
VO
State
1
2
County
3
4
5
6
AQCR
7
8
9
Plant ID
Nratxi
10
11
13
13
NATIONAL EMISSIONS DATA SYSTEM (NEDS)
ENVIRONMENTAL PROTECTION AGENCY
OFFICE.OF AIR PROGRAMS
POINT SOURCE
Input Form
Hair* ol Person
Completing Form
Date
14
City
15
16
Point I
ID 1
!i
|
_15_
17
(Jim
Zone
T8]l9
Ydot
,'tcord
16
17
Yearof
tecord
16
17
Warol
Record
J6
17
Yard
record
:16
17
Year of
Record
16
17
Ye at oil
Record)
20
21 C2
r
SIC
iali9
Boile
Cap
10.5 f
JJ3J19
'.A
Dec
Feb
13
.12
20
21
23
24
IPP
Ftacss
22
Design
acity
TU hi
20
NNl
Ma
Ma
'0
21
22
ALTH
r I Ju
y JA
21 122
23
25
26
27
28
UTW COO
Horizontal
km
24
25T26|27
A.
Prirary
Part.
2-.U
RU
ne
•e
23
21
>UT
Sept-
Nov
24
Paiticu ate
.Jjllp
I
IS
II
19
20
21
22
73
1
:cc
HI
21 22
23
24
2
_2_5
29
30
Establislmenl Nan-e and Addiess
31|32
RDINATES
Verdca
km
28129
!
30
I
31
Secondatyl Pr sary
Part. 1 S02
•6
27
N
OPI
Hi day
26
"
25
IV
24
25
2*
fl
,.
OR1
RA
"»
28
--
23
F
TING
M yr
29J3C
/
^
29
21
31
'
LLOW,
^
30J3T
33
32
34 35
36l 37l 38
Height tin
33 34i35l36
H-t -
C
Secondary
SOZ
32
33 34
Da
?!
ONTROL E
Primary
KO,
^
«
Particutale
J?]33I34
etrtTws
Fuel|Processj
Solid Waste
Operating Rate
?6|27|28
29130
31
32
^ ,
>IONS 1
NO,
"
0
39 40 41 4
! 43 44|45
46J47I
STACK DATA
m ilti Ter.o ('"F) [ - Flo«
38I39I40 4
"1 r~
QUIF.VENT
Secondary
NO,
wtafjo 4
S(
1
ens 'yeail
2.7.
3339^.1
Maxinum Design Sut
Rate Come
33 34
3b|ju
37
3Bj39 40^4
i
I
142J43U4
ttT"
45
"I
48
43
solsi
I
Ra!e (l|3- mm
46i47J4a|49 50
"
Primary Secondary
HC HC
"|
EMISSI
Il4?l43h4
f-t-|
j }
HC
i'izIl'sTw
TTT
lur As
nl % Crntc.
f 42 4.)'44
-J
Primary I
CO
47!
DN ESTIMA
lintel??
'
1
f
J_
1
i
I
,
,
««Q|
_.
TE!
Nil
«
.1
(to
J
Sec
3
IS.
52
53 54
55
Plu.-ie HeigM
II no slack-It.
51J52|53
ond
CO
5L
ear
|T
L_J_.L_I._1 —
CO
1 1
Heal Conleri
ID6 BTU.scc
46
47
.
48
49
50
L
sry
52
f
5?
...I
54
5*57
J
55
56
58
59 60|6t
62
63
Contact - Personal
64
bSj 66:67
66i69
70
57 58I59 6oi61 6263J64
[ i
EST
'art,
ift
HC
!HA
«
57;S3|5-:!55|56
L_
52
t^>
|
53
cor.'Pt
SCHEC
54
55
TEC
57
~J
1 i
CONTROL El
NO,
53 59
L..LJ
1
57 5S|59
._! ,
ANCE
ULE
56
57
COf.'PL
t
Year
5S»
60 61
J
FICIENCY
HC
62
CO
60161 62
--J---T-
I
IANCE S
FCATE
Ivonth
60J61
6364
1
71
72
73
0
74
,65l66!67 63l63l70i71
CO
US
^lej'es
j
TATUS
Day
T'
Q.
UJ
34
66 '67
PE
r
66
3
75j
72 73174
1
oH ' 53
1
5TIMAT
VETHC
67163
1~
CO
Rej 1
C?T66i67,63
ICN
D
ir
70
CO
03170
71 72J73J74
!
•~ Scac:
Heat
7l]72|73 74
~f"n~
fTROLREGUL
Re? 2
69
70
51
52|53|54'55
56|57 59|59
1
60;61j62
63 64
1
65 66:67
68 69
70
71
OJ
O
7i
12
*c:
12
76J77
O
73
79
A P
75 76I77
-1!
;a
IA
,75 76J7
rfr
ATIONS
Res 3
73
74|?5
1
73
74
76
77
75;76 77
j
Cd
80
1
?
||
73
A
A
§
A"
P-
P
P
II
A
A
A
A
A
r-..
P
p
P
P
A0\
T|
cd
60
'•J
1
cd
5
cd
6
6
6
6
6
EPA IOURI 220
V'2
Figure 2.4 Allowable emissions for small or
well-controlled sources.
-------�
10
c
o
.o
- 1.0
to
1/1
CO
S o.i
__l
«s
GIVEN:
FIND:
3.80
tons
tons/hr
MAX. DESIGN RATE =
ANNUAL RATE = 2700
ALLOW. EMISSION
FROM FIGURE READ ALLOW.
= 2.7 Ibs/ton
2700 TPY = 3.6 tons/yr ALLOW. EMISSION _
EMISSION
THIS NO. OBTAINED FROM CARD 6,
COLUMNS 33 THRU 39(: NOTE:
NO. ON NEDS FORM IS NOT
ALWAYS IN TONS NOR IS IT
ALWAYS THE PROCESS WEIGHT. IN
SUCH CASES, THE NO. MUST BE
CONVERTED TO TONS PER HOUR,
PROCESS WEIGHT.
0.01
0,1
I I I I UNI I Illlll
I I I I Mil
5 10 100
PROCESS WEIGHT, tons/hr
1000
10,000
Figure 2.5 Example process weight regulation.
-------�
Stale
1
2
County
3
4 | 5 1 6
1 i
AQCR
7
8
9
Plant ID
Nunber
10
nhzlia
! 1
NATIONAL EMISSIONS DATA SYSTEM (NEDS)
ENVIRONMENTAL PROTECTION AGENCY
OFFICE OF AIR PROGRAMS
POINT SOURCE
Input Form
fteme ol Persan
Completing Fo/m .
Dale .
N)
I
CO
EsbblisHenl N.i.iie and Address
s
S[46U7|4B
XL 1_
U-A
Fl?w Rate |
745i46'47
"Gin
49
50
51 52
53
S4'55
I Plur* Htignl
|3,-nio! [II ns slacV-H.
48
49
50 51
1
52:53154
rrr.
56
57
^g
55
ii
591
60
61
62
58J53
n "
60j61_
63J64
|
162163
|
Contact • Personal
H5{ 66i 67)68
1 1 1
!64'65!66:67!
TTTTt
69|70
I
63J69j
7lf72J7J
1 1
70
71
o
74
75,76(77
|
o
ft
73
A
72 173
I
l
74 75 [76 177
73
P
•3
7_8_
A
cd
60
1
79
P
1
COJSTAUT
•2OOO Itrten '
•DO UOT
tUCLUO£
jU-PEOCtSS
FUEL UULESS
IT is co*.i.
EPA I OUR) 220
3/72
Figure 2.6 Calculation of allowable emissions for processes.
-------�
to
I
to
to
CO
o
JO
o
t— *
in
0.6
0.2
o
_l
_l
<
0.1
0.01
= 1111 Mil! I I I I Mil! I I I I Mill I I I I Mill I I I I I lid
10
100
1000
10,000
HEAT INPUT (TOTAL EQUIPMENT RATING), 10* BTUH
Figure 2.7 Example regulation for indirect heating equipment.
-------�
Sbl?
1 2
Coynty
3
4
5
6
AQCR
7
8
9
Plant ID
Hsmber
10
11
12
13
NATIONAL EMISSIONS DATA SYSTEM (NEDS)
ENVIRONMENTAL PROTECTION AGENCY
OFFICE OF AIR PROGRAMS
POINT SOURCE
Input Form
Dale .
Name of Person
I
to
CO
ESTIMATED CONTROL EFFICIENCY (M
CPA (OUR) 220 '
Figure 2.8 Calculation of allowable emissions for boilers.
-------�
gojsj
52
5
C->
£1
o
O
53
2
COMPL
SCKEC
Ycai
54J55
15
ANCE
ULE
Monlh
56157
1?
COMPL
I
Yeat
S3l5D
?h
ANCE V
PDATE
Monlh
eolei
1?
fATUS
Day
32J63
|V
Q_
<
C_J
UJ
5!
CO
Regl
SBleeTeTfea
TIT
1TROL REGUL
Re82
69176171172
ATIONS
Ret 3
73
74
75
76
77
|
-------�
Regional Office. If an in-process fuel is used list the
appropriate SCC on another card 6 of the same point ID.
If a single boiler burns more than one fuel type, enter
an SCC for each fuel on one form. Each separate boiler,
however, is given a separate point ID number and entered on
a separate form.
A number of small processes or boilers that emit a very
limited amount of pollutants may be combined onto one
coding form. This can be done if the processes are the same
or the boilers burn the same types of fuel. For example, if
three small boilers each burn natural gas and distillate
fuel oil and it is desired to combine them onto one coding
form, the resulting form would show one SCC for a natural
gas boiler and one for a distillate oil boiler. Fuel usages
for the three boilers are combined and entered next to the
appropriate SCC. The total of all three boiler design
capacities is entered on card 3, and representative stack
data is selected by use of the formula described in APTD-
1135. Unless an emission source is very small, however,
each source is assigned its own point ID and requires its
own NEDS form.
Operating rate indicates the actual annual fuel,
process, or solid
waste charging rate
for the year of
record, given in
/C Jl ol
"iccotd
ir.
-
IV
_..
see
1
IR
II
i:i|2P
-T"
1
r
I
in
•> *
27
71
IV
74
—
7S
-
Fuel(P'Ocess
SohiJ Wasle
Opera
'lT
-
rv
-
78
ing Rale
?•)
2
30 3 1! 37
5
7
0
Mjitmuii Design
Rale
lihaRs
"
...
30)37 |38 [39
j4;o 6
I
1"
Sullur
Oinlcnl •.
i'4'o^r
1
i
..-L
1
4V
Conl
the units that correspond to each SCC, as given in the SCC
2-25
-------�
list. Take particular care to ensure that the numbers are
entered in the units corresponding to the SCC.
Maximum design rate gives the maximum hourly rate of
operation, again in the SCC units used for annual operating
rate.
Enter sulfur or ash contents of a fuel in the appro-
priate columns. If this information is not applicable
(e.g.r the SCC is not for a fuel), enter zeros in columns 42
and 45. Zeros are also entered
for solid waste unless the waste
has a high or unusual sulfur
content. Enter a heat content
value for all fuels. For all other SCC's, including solid
waste, enter a zero in column 50. The correct units are
millions of BTU's per SCC unit.
The comments section provides any necessary clarifi-
cation of the information corresponding to the SCC. Com-
ments must be
fl
j
_
3_4
_.
urn
F
"
—
jm |
Me
.:.
es
3.7.
jn
3JC3?
" i
i
"T
Sullu
CCnlenl
40U|
3i
...._
(
4~2
6
Co
43
As
nlen
9.
!•..
«
£
t
i
46
—
-
If]
06 [
47
-
Co
TU
48
ten
sc
49
-
50
...
§>
!
entered when-
ever an SCC
ending in 99
i
I
...
.B
....
SCC
49
60
._
Comments
51
2
•,2
-
03
K
54
L
55
L
56
N
67
5
58
59
1
60
3
Gl
O
-
62
Q
63
—
64
t
65
R
G6
y
67
68
E
69
A
70
—
s
n
-
b
O
72
73
-
74
-
75
_
76177
-
—
o
ft
78
A
A
A
A
/9
[<
P
P
P
P
cd
80
6
i.
6
6
or an "all other" SCC is used. Note that only one line may
Le used per SCC. Comments may not extend beyond column 70
nor may they continue on the line below. Abbreviations must
be intelligible. Standard abbreviations for use in comments
are given in Appendix B. Source code and confidentiality of
data are entered as described in APTD-1135.
2-26
-------�
2.1.1.7 Standard Forms - Standard NEDS forms having a great
deal of pre-entered data can be prepared for ordinary
processes. An example standard form is shown in Figure 2.9.
The use of pre-entered information reduces coding errors,
saves time, and allows nontechnical personnel to perform
large segments of work.
When compiling a set of standard forms, title and
number each form for easy identification and access. In the
margin enter any helpful information, such as identifying
other forms for related processes. Note the SCC units on
the form, as well as the state code. Since most counties do
not have more than 99 plants, enter zeros in columns 10 and
11. Since ownership of any one type of process is normally
the same, this code can be entered on the standard forms.
Fill in the SIC and IPP codes, except for boilers, which are
assigned the SIC describing the plant.
Usually it is known whether a process will entail
a stack height or a plume height, and the appropriate zeros
can be entered. If a source normally does not have a common
stack, enter zeros. If the form is not for a boiler, enter
a zero for boiler design capacity. For many pollutants
control equipment is not applicable, and zeros can be
entered in the columns for control equipment and efficiency.
It is useful to note in the margin the codes for often-used
control equipment and estimated control efficiencies if
these are not reported by the source.
2-27
-------�
Stale
1
o
2
6
County
3
4
5
6
AQf
7 la i
'• iant lu
Number
•"•BL FRESH FEEL
BEflUCDY
'ONAL £..;!SS!ONS DATA SYSTEM (NEDS)
VIRONMENTAL PROTECTION AGENCY
OFFICE OF AIR PROGRAMS '
WOTC: FOR CEFIWfBJEJ
U5E MCMS WTORU 74
AMDFORM.*(FUBE5>
POINT SOURCE
Input Form
Name of Person
Completing Form .
Date
14
City
15
Paint
ID
r
15
16
17
Utm
Zone
18
Yearof
Record
16
17
Year a!
Record
4i
17
Yearof
Record
16J17
UJ
Yearof
Record-
16j17
tear of
(ecord
IS
17
19
Yearof
Record
20
21
>?
TC.C--2
SIC
is'igbo
2
911
21
1
Boiler Oesij!
Capacity
156 BTU iir
isiiy
•, A
Dec-
Feb
isTis"
2
5
20 {21
NNL
Ma
H<
20
AL
r-
y
21
2|5
23 24|25
I
•>
I
Boa
"o
'
fe
0
3P
ss
73
26
27
Establishment Name and Address
28
UTM COO
Horizontal
kin
1 -
^E
Primary
P:;!.
21
0
THRU
June
Au»
22
2
Participate
18
19
I
I
18
3
20
II
19
0_
20
~
21
?2
23
£1
23
sec
III
21
0
22
0
23
1
Z4J25,
3UT
Sept-
Nov
24 25
A.
24
5
27
29
30
31
32
33
RDINATES
Vertical
km
28I29
5P -01
Secondary
Part.
;6
0,
27
0
28
0
NOR,
OPERA
ID
Hr day y/;
26127
2
rs
4|7
25i26 27
9l"9|9
IV
24
0
25
1
26
30
31
0
Primary
'9
30 131
0,'0
!AL
TIN
Wk
29
5
t
07
23J291
9|9.
G
S"
30
2
_0
F
T
31
32
34
35
M
37
Height (ft)
33
34I35
C
Seco.ndjry
S02
32! 33
C
:c
;c
32
0
34
0
...21
..-I7
Particu
"33^
I
LLOW/i
30 [31
ONI
P
•>-,
o
2
ale
[35
36
RO
lira
NO
30
"6"
38! 39
40
Diam (ft)
37I38J39
LE
ry
X
3V
ro
'3fi[37
BLE EMISSIONS (
NO,.
32 33
9 9"
Fuel(Process|
Solid Waste
Operating Rale
27
28
29
30
31
32
34J35
30
9
1
41
42
43
44
STACK C
Temp (''F")
4oUl
QUIPMENT
Secondary
NOX
1
1
Q.
V
feC
4I>
0
i
)
P
41
0_
S02
38 39].l6{41
ons/ye
37]33
9\9
REG. 2
0 CONST
39
9
Maximum Design
Rale
33
34
3'j
3li
_J
37
38
39
;o
9
^J
9
42
r
!,na
HC
42
ul
42
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EM
431
.JJ
8-n-;
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9
Sullui
Oonlertt 'i,
41)
,
,
41
42
0
43
,_£_
45
46
47
48
ATA
Flo* Rate
44
0
Se
44
oj
SSI
44
45
BO
ond
HC
45
Lor
ON
71
•»s
.4B/
rcm
44|'45
9|9
Ash
Content %
43
—
44
45
0
46,47
LE
ary
46
0
49
50
51
N3/min)
48
(2. O2
Pnnu
CO
0
49
2
ry
49
50
52
53
54
55
plume Height
If no stack-It.
51
52,53! 5-;
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CO
SO
0
51
0
ESTIMATES (tons/yea
5 NOX
46
—
"i
tfPLIE-
-I-72
•!Gl47
9l91
48|49l50l51
LOlt
S TO UUIT5
CO
48|49i50
9|9
9
Heal Content
106 BTU/scc
46
47
.
48
49
50
0
51
9
52
0
0
f"
81.5
Par
53
) TAG
220
87
52I531
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52
9
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53
54
56
55
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%
55
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ton,
HC
COMPL
SCHEC
Year
54'55
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56
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57
59
60
oro
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57|58
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IANCE
)ULE
Month
56
51 52
53
54
55
56
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«•
0
61
Contact -Personal
62
63
64
65|
66
67
68
69, 7C
71
72
73
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f
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75
76
77
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A
*.
601
61
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3NTROL EF
NOX
59
60
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63
64
PCCUU
'FICIENCY
HC
62
63
,
64
0
B8L TEED
1370
CO 38C
59
COMPL
I
Year
53
^59
T
IANCE S
PDATE
Month
60j61
62
63
TATUS
Day
32
63
r1
0.
o
LLJ
54
65
6G 67
T
r%!
C(
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0
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r
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£
)
67
63
69
70
71
72
73
74
75
76
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--coumeFF.roRcoBoit
-
STIMAT
WETHC
jfjea
|
CO
Regl
65 66
67
68
69
ION
0
he
69
70
CO
70
71
72 73
•„ Space
Heat
71
72
1TROL REGUL
Reg 2
69
70
Comments
57
58
59
60161
62 63
64
65
66
67
68
69
70
71
S
p
71
P
72
O
O
72
1
73
o
74
75
74]75
76(77
76
ATIONS
Reg 3
73
74
75
76
77
77
73
74
75
76
77
79
P
C
O
"o
78
A
ER.
c=
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•=t
73
A
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78
A
1
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rt
78
A
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cd
80
1
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cd
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6
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S
I
EPA (Du'll 220
3/72
Figure 2.9 Sample standard form.
-------�
Codes for year-round continuous operation of a source
can be pre-entered. Recording the SCC listing emission
factors in the margin saves time and insures use of the
proper factor. If the source does not supply space heat,
this entry can be made. Pre-entries are often made for some
allowable emission information (if zero or unlimited), SCC,
confidentiality, and .source codes. If the SCC is not a
fuel, enter zeros for sulfur, ash, and heat contents. For
fuels, enter the typical heat contents.
2.1.2 Updating Point Source Data
Updating information in NEDS involves either entering
data on new sources or updating information already in NEDS.
For new sources, follow the procedures already described.
For sources .already in NEDS., compare the new information
with the current .NEDS printout. If the new information
indicates more emission points than are entered in NEDS, add
these points to the NEDS system. When data for an emission
point require changes, these changes can be coded on IBM
FORTRAN coding forms or on NEDS forms with the proper action
(column 78) indicated. An IBM FORTRAN coding form is shown
in Figure 2.10.
The three processes entailed in updating are: deletion,
change, and addition. The deletion procedure is utilized to
delete data on any plant, point within a plant, or process
within a point that is invalid in the data bank. The change
procedure is utilized to change any data field other than an
2-29
-------�
IBM
FORTRAN Coding Form
GX28-7327-6U/M050-
Printed in U.S.A.
paoG'AM
PBOG»Af/MER
DATE
P'JNCHINC
iNir- jCIIONj
GRAPHIC
PUNCH
PAGE OF
CA'rtu ELECIRC NUWa£«*
FORTRAN STATEMENT
IDENTIFICATION
ScOL'EMCE
III!
I • !
I i
I i
! i i
•A itondoid cord form, IBM *t*c>ro S8KIS7. ii o-oilobU
g KolemrnM IfOm thi. fo
-------�
identifier in an existing record on the data bank. The
addition procedure is utilized to add data on a new plant,
point, or process or to re-add.a plant, point, or process
which was deleted to make a correction.
If the deletion, changes, and additions are coded
correctly, they need not be separated, since they can be
handled during a single computer run. The procedures are
performed by the computer in the following order: delete,
change, and add. A deletion and addition of the same card
or cards for a given point are done on the same run. A
deletion and change of the same card cannot be handled on
the same run, nor can change and addition of the same card,
since this would result in duplicate cards.
The update procedure is determined by the entry in
column 78 on each card. If a D is coded and punched in
column 78, the delete procedure will be activated; C denotes
the change procedure, and A, the addition procedure.
For any update action the card affected must be prop-
erly identified. Figure 2.11 shows a template of each NEDS
card that can be used with IBM FORTRAN coding forms. Full-
sized templates which may be removed and used are included
in Appendix D of this document. Source identifiers are
indicated on the templates. No change procedure can be
initiated unless all the identifier codes are completed. An
example of a fully coded IBM FORTRAN form is shown in Figure
2.12. The identifier must always be filled out, and no
2-31
-------�
TEMPLATE FOR CARD 1
State"
1 2
County
3
4
5
6
• QCR
/I 8
V
PIlKt IB
Number
10 111
T
13
13
City
u
15
16
17
Ut«
Zone
18
19
Vr of,
Rec.| Establishment Name ind Addreti
20
21
22
23
24
25
26|27
28
29
30
31
32
33
34
33
36
37
38 J39 |<0
|
41
42
43
44
45
46
47
48
49
50
51
5J
13
54
33
56
57
58
39
60
61
Coatact-Persoial
62
63
64
65
66
*•
67
68
09
70
71
72
73
*
o
74
75
76
77
w
«
78
X
79
P
cd
80
1
TEMPLATE FOR CARD 2
/NOTE: This 1s an
Identifier for purposes
State! County
1
X
2
X
3|-4
X X
5
X
6
A OCR
7
8
9
Plant ID
Number
10
II |I3
-
13
Point
ID
1' 15
X
_
X
Yrot
Rec.
I«ll7
SIC
•i?
19
20|2I
IPP
Pro.
22|23
1
UTM COO
Horizontal
lira
24
23
26|27
RDINATES
Vertical
km
28
29J30
31
32
Height (It)
33,3 /i .Plume Heigh
Temp(°r) (flow Rate (ftymin) IfioitaeMt
40
41
42
43
44
45
46
47 48
— [
49
30
51
52
33
54
s of change action only
Points »ith
Common Stack
55 56(57
1-
J
58
X
LS9
X
60
61
62
63
64
65
66
47
65,69
70
71
72
73
74
75
76
77
|
78
I
cdl
III""''
P
_j
'I
TEMPLATE FOR CARD 3
State
1
2
County
3
4
3
6
AQCR
7
8
9
Plant ID
Number
I0|ll
III'
T
rl2|!3
Point
ID
14
15
Ttof
Rec.
I6J17
1
ioifer Design
Capacity
KTBTU hr
18
19
20
21
22
Primary
Part.
rn
24
25
Secondar
Part.
26
27
28
Primary
S0}
29
30 31
1
• CON1
tecondar
S02
32
33
34
ROL EQU
Primary
NO,
35
36
37
PMENT
econdarv
NO,
39
39UO
!
Primary
HC
41
-<2
43
«condar
HC
44
45
46
Primary Secondan
CO 1 CO
47
4>
4950
n
31
52
ESTIftU
Pan.
53
54
55
TED CON
SO;
56
5738
1
TROLtf
NO,
59
60
61
ICIENCY
HC
62
63
64
%)
CO
65
A6
67
U
69
70
71
72
73
74
73
76
77
:
w
«
71
t
79
P
cd
80
1
Figure 2.11 Template for IBM FORTRAN coding form.
-------�
TEMPLATE FOR CARD 4
5*A
NNUAl TKRUPUT NORMAL . ESTIMATION -
Plant ID Point Yr.of Dec- Mar- lune-Sept.
Stats
1 2
Count,
71
4
5
6
AgCR
7
a
9
Number
lOlll |I2
>|x
13
ID
14
15
*
Rec. I feb
16
17
ie
19
Ma,
20 21
Aug
22
23
Ho,
24
25
OPERATION
p.
Hr/til
26
27
»k
28
»»/,r
29|30
1
EMISSION ESTIMATES (tout ,««r) ,
Parllculato
31
32
33
34
35
36
37
S02
38
39
40
41
42
43
44
NO, | HC
45
46
47
Ai
49
50l5l[52
II
53
54
55|56|97
1
58
CO
59
60{6I
1
62|«3|64
65
f METHOD
f (sojNtLHlC
66[67
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ft8
69
CO
10
*«•«•, r .
Heat |
71
72
73|74
.1
75
76
77
.
78
I
r
79|30
'!•
TEMPLATE FOR CARD 5
to
Plant 1
State
1 12
IJI
Count,
3
'I '
A
1
AQCR
7 8(9
i COMPLIANCE COMP. STATUS ._ *
3 Point Yc of
Number
10
ID
Rec.
Participate
20(21
1
22
23
24
SO,
25
26
27|23
29
30
31
NO,
12
13
34J35
1
3607
38
HC
39|40
1
IT
CO
50
5IJ52
f
E
o
53
SCHEDULE
Year
54
35
Month
56
57
UPDATE
Vear (Month
58
59|60|61
If
Da,
62
63
^
u
64
CONTROL REGULATIONS ..
Rtf.l | Ref.2
65^6
67
68|«9
f
70
71
72
Rec.l
73
74
73
76
—
77
w
78
I
H!
79J80J
p|s|
TEMPLATE FOR CARD 6
FBI! Proco» % % S a (
Plant ID . Point Vr.of
State
1 2
Count,
3|<
3
6
"
AQCR
7
a|9
Number
10
II
IjllJ
ID
14
15
Rec.
16
17
sec
1
18
X
II
19
20
III
2ll22
23
IV
24
23
>
Solid Waste Mailmun 0»i» Sulfur ASH Heat Conttit • ! ~
Operatinc Rate
26
27
28
29
30
31
32
Rale
331
34
35
36
37
31
39
Content
•0
41
42
Content] 10° BTU/icc
43k4
45J46
1
47
48
49
50
ComHiits |M
51
52
93
54
53
36|37
58
39
60
41
07.
63
44
,45166
67
61
69
70
71
£
72
73
74
73
76
77
«
78
I
1"
79
P
30
(
Figure 2.11 (continued). Template for IBM FORTRAN coding form.
-------�
IBM
! ''" ''S"v'''
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FORTRAN C
D*IE
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ftjriCMt.NC
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G".\FM1C
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Figure 2.12 Example of a coded IBM FORTRAN form.
-------�
change in these columns may be made. To correct an iden-
tifier, code a delete and an add. In other words, the
erroneous identity must be deleted from the program and the
correct identity must be added. Columns 56 through 59 of
card 2 are treated as an identifier when coding a change for
card 2. In these cases, the entries in columns 56 through
59 must be identical to the information in the data bank.
To add common stack information, even if these columns were
originally blank, the user must follow a delete/add pro-
cedure.
When updating data on sources already in NEDS, always
update the year of record on each card updated. When up-
dating, the plant or point identification should not be
changed unless it is necessary for correction. If the plant
or point is changed, the EPA Regional Office should be
notified of any changes.
2.1.2.1 Deletion Procedure - The deletion procedure is
utilized to:
1. Delete data on any plant, point within a plant, or
process within a point that is identified incorrectly. If a
plant is initially coded for the wrong state, AQCR, or
county, the identification is incorrect. Also, if an SCC is
incorrectly coded, the identification is incorrect.
2. Delete an incorrect SCC by deleting a card 6 and
adding the correct card 6 in the same computer run.
3. Delete an incorrect data field when the field should
be blank. If the incorrect data field is on cards 2 to 5,
2-35
-------�
card 2 is deleted and data for the complete point (cards 2
to 6) are added with the incorrect data field left blank.
If the incorrect data field is on card 6, card 6 is deleted
then re-added with the incorrect data field left blank.
4. Delete a point or points when a change is made in
the field for "Points with Common Stack" (card 2, columns
56-59). After the point or points are deleted, with a card
2 deletion, they must be re-added with all cards (2 to 6).
The deletion procedure is set up so that only a card 1,
2, or 6 is deleted. The deletion of a card 1 removes the
complete array of plant data from the master file. Deletion
of card 2 removes all data regarding that specific point
from the master file. That is, cards 2 through 6 are
automatically removed with the deletion of card 2. The
deletion of a card 6 removes data on that specific process
from the master file.
Use the following procedures and a blank NEDS Form (OMB
No. 158-R009S) or an IBM FORTRAN coding form'to delete
information from the master file.
1. To delete information for an entire plant, .complete
the identification columns (1-13) for that plant and enter
DPI in columns 78 through 80.
2. To delete data on a specific point, complete the
identification columns (1-15) for that point and enter DP2
in columns 78 through 80.
3. To delete data on a specific process, complete the
identification columns (1-15 and 18-25) for that process and
enter DP6 in columns 78 through 80.
2-36
-------�
4. If you are using a. NEDS point source form, indicate
the card on which the deletion occurs with an asterisk (*)
in the margin of the form so that only that card will be
keypunched.
5. Entering the proper information in the appropriate
columns of an IBM FORTRAN form will also make the deletion.
Exercise care to ensure that only the desired data for
plants, points, or SCC's are deleted. Once the deletion is
completed, retrieval of lost data is impossible. Use a
current NEDS point source printout to double check iden-
tifications .
An example of how a template can be helpful in coding a
delete action on an IBM FORTRAN form is shown in Figure
2.13.
2.1.2.2 Change Procedure - The change procedure is utilized
to:
1. Change any data fields, except "Points with Common
Stack," which are blank or incorrect on the NEDS point
source.
2. Change any data field, except "Points with Common
Stack," that has changed as a result of a change in process,
design, or operating rate.
The change procedure is set up so that any data field
on cards 1 to 6 can be changed. To minimize both coding
errors and keypunch errors, code only the data field that is
to be changed. Changes must be consistent with all coding
procedures presented herein and in Chapter 4, APTD-1135.
2-37
-------�
IBM
FORTRAN Coding Form
GX28-7327-6 U/M 050'
Printed In U.S.A.
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Figure 2.13 Example delete action using template.
-------�
Use the following procedures and a blank NEDS form or
IBM FORTRAN form to change any data field in a point source
record on this master file.
1. Complete only the card on which the change is coded.
2. Code only the complete data field that contains the
change, using coding procedures presented in APTD-1135.
3. Complete columns 1 to 12 of card 1, columns 1 to 15
and 56 to 59 of cards 2, columns 1 to 15 of cards 3 to'5,
and columns 1 to 15 and 18 to 25 of card 6 with the iden-
tification as given in the NEDS point source printout.
4. Enter CP in columns 78 and 79, and the appropriate
card number in column 80.
5. If you are using a NEDS form, indicate the card on
which the change occurs with an asterisk (*) in the margin
of the form so that only that card will be keypunched.
6. Entering the proper information in the appropriate
columns of an IBM FORTRAN form is an alternative method of
making the change.
Exercise care to ensure that only the desired data
field is changed and that the correct identification is
used.
For sources ceasing operation, enter code 7 in columns
66 through 70 of card 4. This will denote that the source
f
has ceased operation and that the emissions are zero. A
plant or point ceasing operation should not be deleted from
the NEDS data bank. An example of a change action using a
template is shown iff Figure 2.14.
2-39
-------�
IBM
FORTRAN Coding Form
GX2B-7327-6U/M050"
Printed in U.S.A.
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NOTE: This Is an
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Figure 2.14 Example change action using template with FORTRAN form.
-------�
2.1.2.3 Addition Procedure - The addition procedure is used
to add data on new plants, points within existing plants, or
processes within a given point. Also, the addition pro-
cedure is used to re-add data on plants, points, or pro-
cesses which were deleted for purposes of correcting the
identification of creating a blank in an information field.
Use the standard NEDS point source form or the IBM FORTRAN
coding form and the coding procedures as previously shown..
The only problem that could result from addition of
data on new points is a duplicate record. Use a current
point source listing to obtain identifications of plants
currently in NEDS. New plant identification numbers are
assigned by the NEDS contact personnel in each EPA Regional
Office.
Where approval has been given to construct a new- source
but operation has not begun, enter a code 6 on card 4,
columns 66 through 70. This code defines new nonoperating
sources.
An example of an add action using a template is shown
in Figure 2.15.
2.1.3 Edit/Check Procedures
After the NEDS forms are keypunched, they are run
through the EPA edit/check program, which detects mechanical
errors such as missing SCO's or embedded blanks. The NEDS
Edit Listing consists of four separate types of listings.
Some of the listings are actual rejections while others
are only listings of sorted data and file transactions.
2-41
-------�
IBM
FORTRAN Coding Form
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-------�
Listing I, Figure 2.16, is a list in card format only
for cards with a source code in column 79 other than "A" or
upii or for p0int source cards with a card number in column
80 other than 1 to 6. The message "Invalid Control Value"
is printed under the card listing. The cards are rejected;
therefore, the data is not updated.
Listing II, Figure 2.17, is a listing of input data
sorted by state, county, plant, point,.and reformatted from
an 80 column card input to a 97 character line. The format
for this listing is as follows:
Point Source Cards:
Column
1-2
3-6
7-9
10-13
14-15
16-23
24-26
27-97
Area Source Cards;
Column
1-2
3-6
7-9
10-23
24-97
Name
State code
County code
999-no meaning
Plant ID
Point ID
SCC code
AQCR
Input card data start-
ing with Plant ID
Name
State code
County code
AQCR
Blank
Input card data start-
ing with AQCR
2-43
-------�
<•'•; ? J?0s I L A STEEL COP lit*--} -(.A 33622 J.8.MIL8UWN P ADI
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API
AP2
AP3
APi, ' •
AP5
DPI
CPl
CPl
CPl
CP4
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DPI
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AP2
AP3
APS
AP2
AP3
APS
DPI
API
AP2
AP3
AP<»
APS
CPl
CP2
CP3
CP'f
CP5
API
AP2 •
APS
API
AP2
AP3
AP*
APS
DPI
API
AP2
AP3
AP4
Figure 2.17 Edit/check printout Listing II - data listing,
-------�
The only check required on this listing is to see that all
data has the correct state code by checking the first and
last line of this listing. This listing will be used later
to check other errors.
Listing III, Figure 2.18, is titled "Data Field Errors
in Input Cards." This is the fourth listing in the print-
out, but the next listing to check. This listing consists
of the phrase "Invalid Data Field X in Point (or Area) Card"
followed by an 80 column card listing. The field numbers (X)
are meaningless as the incorrect field is underlined with
asterisks. If multiple fields of a single .card are- in error,
each error will appear as a separate line of print. The
following errors will be underlined in this listing:
1. Embedded blanks—any numeric field with an em-
bedded blank will be underlined.
2. Numeric fields--any numeric field with nonnumeric
data will be underlined.
3. Identification fields—any field classified as
identification (state, county, plan-t, point, AQCR,
and SCC) which is blank will be underlined.
4. Year of record--year of record must be completed
on cards 1 and 2 and must be in range of 1960 to
1979.
5. State number—state number will be underlined if
greater than 55.
6. Points with common stack--if the action code is
add, the point ID must be within the interval for
the points with common stack, or the points with
common stack field will be underlined. If the
action code is change, the points with common ;
stack field must be the same as originally stored.
>.'he errors in Listing III will cause the complete card to be
rejected and will sometimes cause an error to occur in
2-46
-------�
RUIi DATE.
_PAGc
to
I
JJ.IA
IlWAlIU
INVALID
I..VJL lu
INVALID
l.tVALlU
INVAL lu
INVALID
i.OU<.O99900 150 17325252 S2 5od 752 00 01
FlbiC 56 li-. Cul.il LAr^o: ^DOic.LV'j^CO 1:01 /3 1C 0
FlLLO il IN Pu'lliF LAnu: i 5 02 C L'5'» <« 000 / o 1 7 J 007O 09500 0
FILLU 31 IN PLIM LAhL: 2502009^900070173 OU70 095CO 0
' ***
FitLL '•'i IN PCIM CAi-U: 250<;CC'»9SCCC 7U 1 7325(jLOL75 1O6 15 20 01
•***•**
FILL'J bfc IN PU1M CAM): 25bi LCSSSLOb 701 7 j 50 ' 0
FItLU 110fc 15 10 01
FltLC 5o II. FLINT LArlj: 25i,2Cc'»l.Sl,ai; 702 73 2C 0 ,
FltLO ^ IN PUNI CAKU: iSUtti.«SuUU501 M2525252 503:>52 °JJ..,.,, °l
FItLU 5£, Ii'< PC1NF LAhC: iiObOo^'y^OoOSO 1 73 loU 0
FitLC 21 IN FCINF CArC: 25 1 5LO';9VOOOsol /3 C210 09990 0
FlLLL Jl IN PUIM LAM>: 25 1 bti.'aVSoO^^i} 1 73 C210 09990 0
*•*
FItLD ^i I.'4 PJInI CAr^u: i3liLo^ VVOOu^Ol 732 52 52 52bOU 7 52 00 01
FlhLU t>6 IN rLIM LAt-t,: 25 L buvll 'JOOO'.0 1 /3 1C 0
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**
FlLLU 21 IN fLlNl CARL,: ^523 CC-Jy VoOU'iOl 7 3 C210 09990 0
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FILLu Jl IN ruINF CArU: 2323CC'/9yoOC-;o 1 73 C21O 09990 0
***
flcLL <..Si-y9UO J^Ol 7 3 10 0
HELU 26Av)ySivuO.Olyol 73 00 00
FIELL 5o In PoINT CAi»u: 2S2o*CS4SbOb 'iOl 73 It 0
HltLO 7* IN PCIM CARU: t*OOiOS(990uOvOl /2101002021555503 21 132 23 B2
* ** - "
AP*
APS
AP3
AP3
AP*o
APS
AP*
APS
AP*
APS
CP3
CP3
CP4
CP5
API
AP3
AP3
AP4
APS
AP*
APS
CP6
Figure 2.18 Edit/check printout Listing III - data field errors
-------�
Listing IV. Errors in Listing III must be corrected first,
and the corresponding error in Listing IV marked off.
Listing IV, Figure 2.19, is a listing of the actual
file transactions and includes the Input File Errors (Re-
jections) on the left side of the page and the Output File
Transactions (Data Updated) on the right side. These Output
File Transactions refer to point records 1, 2, and 3 and
area records. Point record 1 represents card 1, point
record 2 represents cards 2 to 5 or any one or more of these
cards, and point record 3 represents card 6. An area record
represents all six cards for area sources. The Input File
Errors refer to point records, cards, and specific error
messages determined by the action code. The identification
of each specific transaction is given in the following
format:
Column Point Record Area Record
1-2 State State
3-6 County County
7-9 999 AQCR
10-13 Plant ID Blank
14-15 Point ID Blank
16-23 SCC Blank
The data card requirements and error messages will be listed
separately for each action code.
Add., The add action code is used to add a new plant, a
jiew point to an existing plant, or a new SCC to an existing
point. To add a new plant, point, or SCC, the specific
2-48
-------�
PUN
DATE PAGE 1
07/03/74
IU.HL.T HILc. fc^t-.-rS OUlPUT FILE IRANSACTIC
ACT1CN LCUE MJT CiCtLh A Ct. Oi.it. t. tt
POINT
PCINT
POINT
POINT
POINT
POINT
POINT
PCINT
RECORD
RECOFD
RECORD
RECORD
RECORD
RECORD
RECORD
RECORD
1
1
2
3
1
1
1
1
ADDED
DELFTED
DELETED
DELE TED
CHANGED
CHANGED
CHANGED
CHANGED
INS
2500409990015
2501209990010
250120999001001
25012099900100150300105
2502009990002
2502009990002
2502009990002
2502009990002
LMA.'.uc it •;._ T Hw«j ; L* £ yu •< _ i &" u Lf"-' £^iJ*JJu-**'l^LO\j£'Uv
PCINT
POINT
P.IIilT
POINT
pui.'ir
POINT
<> -" I N T
P. 'INT
POINT
P C I N T
POINT
PCINT
POINT
POINT
PC- INT
POINT
PQINT
iMvOLL bi ALL CC. J) li< PJI.«T (.Af.0: 25172G99SUu2lCl
ADD PI CC ,\~I I .<:.:!« t 2il/20999JJ21Cl
PQINT
PCINT
POINT
PCINT
POINT
MATLritD ADD - ARtA t40040207
RECORD
I-EC 3RD
PECC1RO
f.ECO.~D
^ ECGKO
RECORD
RECUf-D
RECORD
RECORD
RECORD
' RECORD
F.ECUSO
RECUPD
SECORD
'RECUrO
RECORD
RECORD
RECORD
"RECORD
RECORD
RECORD
1
2
3
3
3
3
2
3
1
1
2
"3
2
3
1
"1
2
1
1
2
3
1
DELETED
"DELETED
DELETED
DELETED
DELETED
"DELETED'
DELETED
" DELETED
ADDED
DELETED
DELETED
DELETED
DELETED
DELETED
ADDED
CHANGED
CHANGED
' ADDED
DELETED
UELE TED
DELETED
ADDED
2502009990007
250200999000701
2502009990007013020040.'.
25020099900070130200402
25020099900070130200403
25020099900070130200499
250200999000702
25020099900070250300102
2502009990007
2506009990005
250600999000501
25060099900050130200399
250600999030502
25060099900050230200701
2506009990005
2515009990004
251500999000401
2523009990009
2525609990049
252560999004901
25256099900490150300202
2526409990009
*t4 Ju4o 2 J 7
440 U»tU2 0 7
440C40207
P 3 1 N T
POINT
PCINT
poi,-a
PCINT
PCINT
POINT
RECORD
RECORD
RECOFD
RECOFD
RECORD
RECORD
RECORD
1
2
3
2
3
3
CHANGED
CHANGED
CHANGED
CHANGED
CHANGED
' CHANGED
CHANGED
4400409990009
440040999000901
440040999000-70110100202
440C4 09990010
440040999001001
44004099900100130502001
44004099900100130502002
Figure 2.19 Edit/check printout Listing IV - input file errors.
-------�
cards must be included to create point records 1, 2, or 3.
Point record 1 must be added before point records 2 and 3,
and point record 2 must be added before point record 3 is
added. If any card for a specific point record is rejected
in Listing III, that point record will be rejected, and any
other point records requiring it will be rejected (point
record 3 is rejected if point record 2 is rejected). See
Table 2.2 for error messages.
Listings I, II, and III should be used to correct any
errors found in Listing IV. These three listings will
indicate that the problem is either a keypunch error or a
coding error. The forms should be corrected from the
listings and rekeypunched, or if the cards are available,
correct the cards from the listing.
Change. Change action code is used to update data
currently stored for a plant, point, or SCC. To submit a
change only the card containing the update must be sub-
mitted. Duplicate change cards for the same card must not
be submitted. See Table 2.2 for error messages.
Delete. Delete action code is used to remove an
entire plant, specific point, or specific SCC whenever
incorrect. To delete an entire plant submit a card 1
''elete, to delete a point submit a card 2., and to delete an
:;CC submit a card 6. See Table 2.2 for error messages.
In making the necessary corrections, it is very helpful
o have the card deck. Access to a keypunch machine is also
2-50
-------�
Table 2.2 Error Hess acres
ADD ERROR MESSAGES
Error Message
Should be Add Cd X in Area/
Point Card: Card ID
K)
I
First Card of Area Add Not 1
Matched Add - Area
Matched Add - Point 1; Matched
Add - Point 2; Matched Add -
Point 3
Pt 2 Add With No Pt 1
Pt 3 With No Pt 2
Meaning
X is the card number that the
program is expecting. The
program is expecting cards 1-6
for area sources and cards 2-5
for point sources. The message
appears if the card X is miss-
ing or duplicated.
First card of an area source is
not card 1.
The identification of an area
source matches an existing area
source.
The identification of the point
record being added matches a
record already on the existing
file.
Point record 2 (cards 2-5) is
correct but cannot be added
because there is no point
record 1.
Point record 3 is correct but
cannot be added because there
is no point record 2.
Correction
If area source, correct
error -and res-ubmit all six
cards. If point source,
correct error and resubmit all
cards 2-6 for the point.
Correct error and resubmit all
six area source cards.
If the data is for the same area
source and is updating the data,
change the action code to "i:"
and resubmit.
Check plant names and identifi-
cation for new data vs old
printout. If the plants or
points match, change the action
code.to "C" and resubmit. If
the plant is new, assign a new
plant ID as instructed by R.O.
and resubmit as adds.
Correct card 1 and resubmit all
the cards for the plant.
Correct cards for point record
2, resubmit all the cards for
the point.
-------�
Table 2.2 (continued) Error Messages
Error Message
Add Pt Cd not 1, 2, or 6
Add Pt 6 follows Cd 1
Dup Cd 1 for Add Point
Meaning
A new plant, point, or SCC is
being added but the first card
of the point record is not 1,
2 , or 6.
Cards 2-5 of the point are
missing.
Duplicate card 1 for the same
plant.
Correction
Resubmit all cards necessary to
correct the record.
Resubmit cards 2-6 for the point.
If point record 1 was added,
check Listing II to see if all
card 1's were the same. If
they were, ignore the message.
If they were different, use a
change action code to resubmit
the correct information on card 3.
CHANGE ERROR MESSAGES
Error Message
Change ID not found
Card number is >6
Transaction not complete
Invalid SCC in P6 card
Meaning
The corresponding record for the
specific ID cannot be found on
Master File.
Card number is greater than 6
for change card for area source.
Change ID could not be found
and was rejected.
The SCC is nonnumeric for a
card 6 change.
Correction
Resubmit all cards for the plant
with an action code of "A".
Resubmit change card with
correct card number.
Check plant names and identifi-
cations and if new plant, re-
submit as add.
Correct the SCC and resubmit
only card 6.
-------�
Table 2.2 (continued) Error Messages
Error Message
Invalid Plant in PI card or
Invalid Pt ID in Pt card
Meaning
The plant or point ID was. non-
numeric for change cards.
Correction
Correct the plant or point
ID's and resubmit the cards with
change action codes.
DELETE ERROR MESSAGES
Error Message
Delete not found
NJ
I
LTI
u>
Meaning
Data could not be deleted
because has not been stored.
Correction
Check the ID to make sure that
the correct ID was used. If the
correct ID was used, forget. If
incorrect ID was used, resubmit
correct delete.
MISCELLANEOUS ERROR MESSAGES
Error Message
End of Transaction File. Data
errors on next page.
Action Code Not D, C, or A
Meaning
Normal end of Listing IV.
Incorrect action code in
column 78.
Correction
None required.
Resubmit data with specific cards
submitted determined by correct
action .code.
-------�
useful. If a keypunch machine is not available, remove the
incorrect card and enter data for the entire card (as
corrected) on an IBM FORTRAN form. AS a precaution retain
the incorrect cards until all corrections and edit/checks
are made.
If a keypunch machine is available, remove the in-
correct card, correct or re-punch as necessary, and insert
in the proper location. After the corrections are made, run
the card deck through the edit/check program again to ensure
that no errors are present.
The edit/check program is currently being expanded to
catch logic errors in addition to mechanical errors. As an
example, excessively high values for stack heights signal a
possible error. This type of output can be expected in the
future, but has not yet been incorporated into the edit/
check program.
2.2 AREA SOURCES
Area sources represent a collection of many small
sources. Individually, each source may emit only a very
small amount, but collectively the impact may be great.
Among the major area source categories are fuel combustion
(as in residential heating), incineration, vehicular emis-
sions, evaporative emissions, and various other combustion
sources such .as forest fires or slash burning. The NEDS
area source coding form tabulates area source data by
county. An area source coding form is shown in Figure 2.20.
At present there are no EPA requirements for state
submittal of area source emissions data in the NEDS area
2-54
-------�
HZ
Cow IT
AREA SOURCE
Input Form
Dita
>'ll[l2J13|l« 15.16
i •—'—
MISSION UTMATES (1C2 lorul
SO, I NO, I HC
TTT
SULFURCONTE1T.lv.
Ajlh: 3'l:i.'.| Dili. I Reui,
i Oil O.I
loi4l|42^43
~rii
ASH CONTENT iv
A.^?i. 1 B't'J"i.
Coal 1 Coil
n!»s"i«M7U«!M
»»».
13' ton
Niiw o> PefiM
C«;5leti«| Fora
.
13! :ons
RESIDENTIAL FUEL
Dili. Oil 1 fiei*. Oil
1C< Oil. Id4 Gil.
Hit. Gil
107 11.1
3I70J71J73J
Ii73i73l;
tzik
ft t!
NJ
I
U1
U1
13111 12 1}J14 15JT
COWERCIAL AID INSTITUTIONAL FUEL
D'li. Oil Rend. 0
-------�
source format. Therefore the National Air Data Branch
(NADB) serves as the chief originator and verifier of the
data in the NEDS area source data bank. NADB welcomes
voluntary submittal by state and local agencies of area
source data which is an improvement over the data generated
internally. The basic practices and procedures relating to
internally generated data and data submittals from outside
NADB are described below.
2.2.1 Data Development and Coding
2.2.1.1 NADB-Produced Data - Originally the data incor-
porated into the NEDS area source data bank was collected
according to the procedures outlined in Chapter 5, APTD-
1135. This work was accomplished by in-house NADB efforts
and NADB contractors and produced data that was represen-
tative of the years 1969 to 1971. Subsequently all of this
data has been updated through in-house efforts to a common
year of record, 1972.
For future maintenance of the area source data base,
NADB plans an annual update of the area source data. This
update is to be completed by January of each year and will
provide data typical of the year previous to the year just
ended. For instance, in January 1975, the data base will be
updated to reflect calendar year 1973. This time lag is
necessitated because publications required to perform the
update are not available until late in the year. To sim-
plify the updating procedure the methodology for reporting
data is being computerized for a number of area source
categories. Computerized methods are for reporting area
2-56
-------�
source, residential, commercial-institutional, and indus-
trial use of coal, oil, natural gas, and LPG, highway use of
gasoline and diesel fuel, railroad fuel use, off-highway
fuel use, vessels fuel use, and estimation of total gasoline
consumption and organic solvent use. Computerized methods
for the above categories will be used to make the 1973 area
source update. The computerized methods are more detailed
than those presently described in APTD-1135.
In addition to the computerization effort, data is now
being collected for area source categories where data in
NEDS was previously missing or incomplete. This includes
forest wildfires, slash and prescribed burning, agricultural
burning, unpaved roads and airstrips, agricultural land
tilling, and heavy construction sites. New emission factors
have been developed for these categories. This data will be
incorporated into the data bank at the time of the 1973
update. For the remaining categories, NADB will update the
data manually using in-house personnel.
2.2.1.2 Data Submitted by State and Local Agencies - NADB
recognizes that in certain cases state and local agencies,
through their specific knowledge of local situations, can
provide more accurate area source data than that determined
by NADB. Therefore, in order to improve the quality of the
data base, such data submittals are encouraged. To avoid
unnecessary duplication of effort, state and local agencies
contemplating such data submittals should be aware of the
NADB programs for reporting area source data. It is not
2-57
-------�
worth the effort involved, for a. state or local agency to
prepare area source data that is inferior to or duplicates
the data prepared by NADB. It is very helpful, however, for
state and local agencies to submit data which will improve
upon or supplement the data generated by NADB. It is asked
that the following guidelines be followed when submitting
area source data:
1. The data must be submitted in the standard NEDS
area source format, either on coding forms,
punched cards, or card image tape.
2. Appropriate documentation should accompany the
data to indicate the source of the data and how
the data were derived, if 'necessary.
There are numerous reasons for requiring documentation to
accompany the data. First, NADB must have some criteria to
determine whether the data submitted is in fact an improve-
ment over the existing NADB data. Second, NADB must be able
to answer questions conerning the data base. If no ref-
erences are available, NADB can only refer the questioner to
the agency that supplied the data. In addition, NADB is
interested in identifying new sources of information which
may be useful for refinement of the present methods for
reporting area source data. The documentation does not need
to be extensive. If the data are obtained directly from
another reference, simply citing that reference will be
sufficient. If the area source data are calculated based on
other data, include a sample calculation to show the method
for deriving the area source data. It is not necessary to
submit extensive sheets of calculations or all the inter-
2-58
-------�
mediate date. use?, in calculations since determination of the
method used to derive the data is the prime consideration.
It is suggested that state or local agencies devote
their efforts in the direction of providing data for source
categories not covered by the NADB computerized techniques.
cs,
However, in many cases improvements can be made to the data
provided by the computerized techniques by contacting local
fuel dealers to determine local fuel consumption or con-
ducting surveys of organic solvent users. However, we
anticipate that more improvement in the overall quality of
the data could be obtained through local input into such
categories as solid waste burning or measurement of vehicle
miles. For these categories, NADB does not have the re-
sources to obtain the data for the entire nation on a county
basis and must rely on national averages to predict local
quantities.
In addition, the area source input form is being re-
designed. This change will correct some current data
processing problems as well as allow for more flexibility in
coding data. The switch to the new format will take place
at the time of the 1973 area source update. For data
collection efforts during 1974 the existing area source form
may continue to be used. However, data submitted after
January 1975 must be in the new area source format. Copies
of the new area source forms will be available from EPA
Regional Offices. The basic changes to the NEDS area source
form are as follows:
2-59
-------�
1. For cards 1 to 4, the only changes will be some
rearrangement of the data fields. The field for
county population will be deleted.
2. On card 5, the fields for rock handling and
storage and coal refuse burning will be deleted.
Emissions from these categories should be ac-
counted for as point sources. New fields for
coding of land tilling, miscellaneous wind ero-
sion, and agricultural burning will be added.
3. An optional card 7 will be added. If desired,
card 7 may be used to input emissions data for any
field included on cards 1 to 5 or to add emissions
data for an additional source category not shown
on cards 1 to 5. This procedure will allow emis-
sions to be hand calculated for a particular
source category and inserted into the data bank to
override machine calculated emissions. This
procedure is'desirable, since for many source
categories, emissions can be more accurately-
determined through a series of calculations rather
than simple application of an emission factor as
performed by the computer.
4. In addition to the redesign of the input format, a
number of systems changes will be made to increase
the flexibility and accuracy of the NEDS area
source data base. The provision will be included
for having state-specific or county-specific
emission factors rather than one single emission
factor for the entire nation as is now the case.
This will be particularly useful for categories
such as motor vehicles and fugitive dust sources
for which local variations in emission factors may
be considerable. Finally, a new area source
report output format will be designed. This
output format will be more readable than the
current area source report and will show emissions
for individual area source categories as well as
total area source emissions for a county.
2.2.2 Updating Area Source Data
Area source information is updated in the same manner
as that for point sources by use of delete, change, or add
procedures. The area source identifier is the first nine
columns. The action code (D, C, or A) is entered in column
2-60
-------�
78. Column 79 identifies the card as an area source card
(enter an A), and column 80 gives the card number.
In deletion of area source information, deleting card 1
deletes all six cards. This is the only delete procedure
the computer accepts. That is, an individual card cannot be
deleted; data for the entire area source form are deleted by
deleting card 1. New information is added with NEDS area
source coding forms.
2.2.3 Edit/Check Procedures
The edit/check program is also run on area source cards
and is printed out in the same manner as the program for
point sources (see Figures 2.16 to 2.19). The resulting
printout lists the errors contained in the card deck, using
the error messages listed in Table 2.2. Again, it is help-
ful to have both the card deck and keypunch machine avail-
able when making the corrections.
If a keypunch machine is available, insert the correct
or repunched card in the deck to replace the incorrect card.
If a keypunch machine is not available, remove the incorrect
card and enter the correct data on an IBM FORTRAN coding
form.
2.3 NEDS OUTPUT FORMATS
A number of output formats are available in NEDS.
Following is a list of these formats with numbers of the
figures that exemplify the formats.
2-61
-------�
Point source listing Figure 2.21
Area source listing Figure 2.22
Area source fuel usage Figures 2.23, 2.24,
and 2.25
Count of plants, points, Figure 2.26
and SCC's
Condensed point source listing Figure 2.27
Allowed vs computed emissions Figure 2.28
Emission summary Figure 2.29
Stationary source 'fuel summary Figure 2.30
SCC emissions report Figure 2.31
Highest plant ID by county Figure 2.32
Weighted sensitivity analysis Figures 2.33
and 2.34
Plant emissions summary Figure 2.35
Other available output formats include: missing data
items, gridding capability, input to models, and data tape.
A brief description of the output formats and selection
options follow:
1. Point Source Listing (Figure 2.21) - By far most
voluminous of all NEDS reports, this listing
provides a page for each SCC of each emission
point, showing all NEDS information as it appears
on the latest NEDS coding sheet. If a plant has
three emission points, each point having two SCC
codes, there will be six pages of computer print-
out for the plant. The volume of output may be
greatly reduced by various select options built
into this program. The report selects all emis-
sion points in one of the. following categories:
State
State/County
State/County/Plant
State/County/Plant/Point
SCC (any part I; I + II; I, II, + III)
Ownership Code
SIC
Emission Estimate Method
Any combination of the above
2-62
-------�
FILE CREATED ON TUESDAY AUGUST 28, 1973
NATIONAL EMISSION DATA SYSTEM
POINT SOURCE LISTING
STATEU4): ILLINOIS
AOCR(070)I METROPOLITAN ST. LOUIS IILL-MO) CITY(OOOO): MISSING NAME
. ___P.LAHT .ID:. 0001 _ POINT ID: 01 ,._
. N4MF.-ADDCESS.: .UL__PWR ..CO WOOD RVR STA EAST ALTON 6202* SICI4911): ELECTRIC SJPVICFS
PERSONAL CONTACT: E A SHULTZ SCC(1-01-006-011: EXTCOMB BOILER -ELECTRIC GfNEPATN -NATURAL GAS
->100M»
-------�
2. Area Gouxce Report (Figure 2.22) - This option, if
selected, will produce for the Region, State, or
given County, the format of Figure 2.22. The data
presented should be exactly what the latest NEDS
form submitted by the respective states for each
County indicated. The retrieval keys are as
follows:
State
State/County
3. Area Source Fuel Usage Summary (Figures 2.23,
2.24, and 2.25) - The select options are Region or
State. Figures 2.23, 2.24 and 2.25 show that for
each County, total fuel usages are given by fuel
category for residential, commercial and institu-
tional, and industrial area sources. The retrieval
key is by state.
4. Count of Plants, Points, and SCC's (Figure 2.26) -
This output can be used for housekeeping purposes.
Only a national printout is possible.
5. Condensed Point Source Listing (Figure 2.27) - For
a given State, County, AQCR and SCC sort com-
bination, this program lists a five line summary
of emission points emitting above a specified
tonnage of pollutant per year. Notice that al-
though the heading criteria is for particulates,
all existing pollutant quantities are given. The
retrieval keys are the same as for the point
source listing.
6. Allowed vs Computed Emissions (Figure 2.28) -
Output consists of plant/point identification
parameters, point within a specified AQCR, and
.lists the allowable and computer calculated
emissions in condensed form. The retrieval keys
are as follows:
State
State/County
State/County/Plant
State/County/Plant/Point
SCC
Ownership
SIC
Estimation Method
AQCR
2-64
-------�
SOUP.r.E ID: A STATE- 26 COUNTY- 42flO &OCP- 070 YEAR- 70
M-EST-PRT m<)-TONS 1 = ' "" If3l "EM-EST-S'!2I 1-T 3-T'KiS ) = ' ' 2*51 F/1-E ST-MOXI 1 00-TUN SI = ' I E1-EST-HC I 100-TONS > = "" f
E*-=ST-CO( UO-TONSIs ! 1 SULH-AMTH-C jAl= I T S'lLF-? I T'IM-r.OAL= 2.31 * S'IL^-D IST-TI L= 0.21
T S'JIF-RES !U-OIL= ' l.6l « A SH-A.N'"H-CGAL = I t ASH-HITUM-COAL= 9.4| RES-ANT H ( 10-TONS I = " I'
. RES-ni TU'M 10-TONS) = 1856|PES-DIS-C!tU IOE
-------�
NATION&L EMISSIONS DATA SYSTEM (M2DSI
£WIPQ;,"1ENTAL PKCTECTIDN AGENCY.
APPLIED TECHNOLOGY DIVISION
AREA SOURCE FUFL USAGE REPORT
ST8TE: OHIO
*****
INDUSTRIAL FUEL
***************
"PAGE 7
DAT? 09/20/72
UPDATE DATE MONDAY SEPTEMBER IB, 1972
NJ
I
CTi
00
***COUN7Y*»*
A1AHS
ALLEN
A SHI AMI
ASHTAPULA
ATHFNS
A'lGLAI Zc
...... BELMONT .. .'....
PROWN :
PUTI ER
CACROLL
... CHAMPAIGN
CLARK
.... CLFRHONT . .
CLTNTCN
C1LUWRI&N&
COSHOCTIN
CRAWFORD
CUYAK1GA
DARKF.
nFFiAnc*
.. DELAWARE.
FRIE
CAIDFIELD
CAYCTTF
FRANKLIN
FULTON
G = A!ir,A
GFADGA
G°.FP»JF
GIIF^'.'SHY
. HSM1LT3N
HANCOCK
HAR01N
HAPRI SON
H=NRY
HIGHLAND
HOCKING
HOLMES
HIIRHM
JACKSON
ANTH. COAL BITUf. COAL
10 TONS 10 TONS
1250
11070
6156
1=22*
. . 2061
4815
. . . . 545*
1303
_ _ . 17992
1503
3366
21613
4905
2817
145R9
4050
8965
2=7167
6921
3285
4518
C2?4
7065
2'. 4 2
7408?
68S5
1247
6174
7983
3465
145107
5814
3438
1305
4509
2745
2349
3924
6903
3213
OIST. OIL
lOiOOO GALS.
4
44
23
72
8
18
20
5
68
6
V3
81
18
11
55
15
33
1115
26
12
17 . .
35
27
e
278
26
5
23
30
13
544
22
13
5
17
10
9
15
26
12
RESID. OIL
10.000 GALS.
2
19
10
31
3
8
9
2
29 ....
2
6
35
8
5
24
7
14
482
11
5
7
15
11
4
120
11
2 .
10
13
6
235
7
6
2
3
4
4
6
11
5
NAT; GAS . wnoo COKE PROCESS GAS
10E7 CUFT 100 TONS 10 TONS 10E7 CUFT
4ft
198
391
106
584
104
27
530
266
167
236
21
216
244
3076
92
27
23
177 .
31
Figure 2.25 Area source fuel usage - industrial.
-------�
OCT 13, I97j
NATIONAL EMISSIONS DATA SYSTEM
PAGE: 1
NJ
I
(Tl
ST
NO
01
02
03
04
05
06
07
03
09
10
11
12
13
14
15
17
IB
19
20
21
22
23
24
26
27
23
29
30
31
32
34
35
36
37
39
39
40
41
42
43
44
45
46
47
48
49
50
51
52
54
55
ST.\T; roTii ,\jjd£p
PLANTS
ALAiAMA
ALASKA
AS I {UNA
APX VISAS
CALIFORNIA
CliL JRAOO
CONNECTICUT
DELAWARE
HIST COLUMBIA
FLORIDA
GE'mi A
HAW 4 I I
IGAHiT
ILLU4HI S
IN') [ANA
KANSAS
KENTUCKY
LOUISIANA
MM NF . .
MARYLAND
MASSACHUSETTS
HIC'IICIN
MINNESOTA
MISSOURI
MUMTANA
NEBRASKA
NEVADA
NEW HAMPSHIRE
NEW JEa.SF.Y
NEW ME v ICQ
NORTH CIH'JLINA
NCn'Tll. >TAi"JTA
CHI 0
OLAMU'IA
o-
-------�
_i^i. IiJ E 12AX_AU G'JSi..2_2_,_ 15 7.3
_N_-i_L_J ij'LA-k f_.*_!_? .-3 J./LJ'i 0 A T A S Y S T_ E_H_
_ CjyinrNJ^O _PT!.-JT SrjJ-C" LJ^TINC. fCf PAR_TI C'.ILATE:_
FOU VCL" viLuis > THAN "OR" ="TO"' b"""'
EMISSIONS ARE IN SHORT TONS PER.YEAR
PART SOX NOX HC CO
ASHL'JY JCW:* STATION OWNERSHIP: UTILITY 105 2,470 753 8 25
2>>: ''! S") fi> | ?.!. 42^0: ST. LOUIS CITY . - YTA.T OF KCCOSO: 1970
070: v"" ip'-L i TAM ST. LOU'S (ILL-MQI ; __ _
61 T: 'cL'-c"fS'"'jTi'i: p^rcriTf,;^"- "MCOIU." EFFICIENCY FFF = 97.6"? p'oTST": 61
fSTI'1'-T" 3Y M) USEO EMISSIONS FACTfV.S SIC = 4911 SCC = 1-01-002-01
0021: KCPl. r,3£Ni) AV1: OwIMR SH[ P: UTILITY 5 2.060 ' 525 5 18
t*: ^TSSP'IRT 22^-0: JACKSON ' Y-JIL-PC—? -clp P: _ .19-LP-- -_ __- -
03i:."vcTc ipp.L T y i.-| KV.JiG CITY (K^N-f^O) " " "" ~'
COC: f."':T;i = ij;,;L COLLrCT":g - L1W FFPICT^NCY FFC „ 99.01; P'jplT: 04
FSTixMCr'aY (3) USF.'J 'rMJSSIOMS FACTOkS " SIC = 4911 SCC = 1-01-002-01
OQ?1 : KCPL GBANO AVE OWNERSHIP: UTILITY. . 5 .2«_000 510 5 17
M 2ft: ^ISS^'i"! . •- 22^-0: JACKSON YEAR UK R~ECCJRD:" ' i'970
I 0-4: l'i:TC7priLIT/>n' KANSAS CITY (KA't-"?) •
": C.;NT^;FU'-;AL C'JLLFCTPR - LO*. JFFICIENCY EFF = 99.3't POINT: 03
AT=, SY (3) USCU EMISSIONS Ff.CTJRS SIC = 4911 SCC = 1-01-002-01
"0071 : KC P"C" r.PA.-^o AVE " • OWNiE.f SHIP": UT'IL'ITY - 2"" IVOOflT " ""255 3" "" 9'
'6: "tSsmiRI 2240: JACKSON YEAR OF RECORD: .1970.
" T ".Of."! L-I TAN KANSAS CITY (KAN-MD
El1IRTfL'J'"'*l_C5.l-kECTnP-_- LQW_cFfI_C IJ_NCY Ef_F = 9J-?* PO INT : 02_
,Tr "n'Y "13) USED F>is"51-n:JS" FACtOFS" "SIC = 4911 "SCC =" l"-01-002-01"
OOO1 : KCPf.L M"'\"'5[)Sc °LANT 1LR 1 OV7?TSHTp: UTILITY : 3T870" 5B,TOO "" 7,430' 75 249"
?•,: Mt$"-i||RI _ 2020: HC-NXY YcAR OF 'kfcC >H>- 1970
"T3"9:~~S"n"ufHw"cvr"MlYs.~>ukl.~™ "~ ~" ----._--.- . - THI S"OATA'' I S"CONF IOENTIAL' ""
?Jli cLt:C'ROSTATIC °RECIPITOR - Hi;DIU'"l EFFICIENCY EFF = 95.-OI fni"IT:_02_ __ _ ___
"FST!"A>t: 3Y~f"3f. USED EKISST'INS FACTORS' S"lC = 4"911 SC'C ="'1-01-002-01' " " """ "~ """ """
OOOT : KC°CL MnNTROSC -PL'ANT_ 3LR_1 Oh'iER_SHIP: IITIUTY 3, (HO 58,_700 _ 7,480_ _ 75 2_49
"HiNSY VtATTjF"(;'EC"--'li:0": 1970" ' ; " ~" ""
THIS D\TA IS CONFIDS'IT; AL
: -L^f/TCJSTATY'c t> '= F. C I P"!"* "• 5" - «VoiU;r c FF I r I -cf Y Z'F '- "^.-j'- ~!~rr.:'f":" I
rTM'.T" 5Y (1) 'IS' i c-J!r ;i"''S FACTO=S- SIC = 4^;i SCC = :--Oi-uO;-0!
Figure 2.27 Condensed point source listing.
-------�
NATIONAL
ro
I
EMISSION DATA SYSTEM
"VERSUS COMPUTED EMISSIONS
PAGE
.OAT.I--OCTOBER .».B,_l?73.
FILE CREATED ON: AUGUST 28, 1973
STAT=<26)t MISSOURI
~AOCP<070): METROPOLITAN ST. LOUIS (ILL-MO)
PLANT NAME AMD ADDRESS: UNION ELECTRIC CO,HIGHWAY K..LA8AOIE
POINT NUMBER : 0).
SCC N»MC
SCCl : EXTCOSR BOILER
SCC2: EXTCOM8 BOILER
ALLOWED EMISSIONS:
COMPUTED EMISSIONS:
SCCl:
SCr.2:
TOTAL:
REGULATIONS:
YEAR OF PECORO
ELECTRIC GEK'ERATN BITUMINOUS COAL MOOMMBTU PULVWET 72
ELECTRIC GF.NERATM RESIDUAL OIL >100MMBTU/H°. GENL 72
PART
3tl70
4.010
<1
4.010
SOX
36,900
62.100
23
82.200
NOX HC CO
lo.ooo.ooo 10,000,000 10,000,000 "
21,600 216 720
152 3 4
21,800 219 725
POINT NUMBER: 02
SCC NAME
SCCl: EXTCOMB BOILER EL^CTOIC G1NERATN BITUMINOUS COAL
SCC2: EXTC1M8 BCILPR ELECTRIC CENSBATN RESIDUAL OIL
PART SOX
COMPUTED EMISSIONS:
~ " SCCl: ' 19? ' 15,700,
TOTAL: 191 15,700
... sEGULjTIONS. —
NOX
iO, 000, 000
4,?. 30
26
4,163
YEAR OF RECORD
>100I»*»TU PULVWET 72 " "
>100M«BTU/HR CFNL 72
HC CO
lo.ooo.ooo 10,000.000 " ~
41 138
42 138
Figure 2.28 Allowed vs computed emissions.
-------�
7. Emissions Sun-nary Report (Figure 2.29) - This
report illustrates the CFR Appendix D type format
of emissions accounted for in NEDS throughout the
entire U.S. Point and area sources are 'included
in this report. The retrieval keys are as follows:
Nation
State
EPA Region
State
State/County
AQCR
State portions of interstate AQCR's
8. Stationary Source Fuel Summary (Figure 2.30) -
Similar to the Area Source Fuel Summary, this
format identifies fuel usages for stationary point
sources. This report may be obtained on a County-
by-.County basis. However, arrangements have been
made to also provide entire State or AQCR
outputs (by County) through the control card
mechanism built into this program. The retrieval
keys are as follows:
Nation
State
AQCR
County
9. SCC Emissions Report (Figure 2.31) - Total emis-
sions in tons/year of SIP pollutants by county
number and SCC category are summarized in this
format. Also given is the number of sources
available per SCC for each county. This report is
available by State.
10. Highest Plant ID by County (Figure 2.32) - This
report provides a means of checking the highest
plant ID in each county which exists in NEDS at
any time. The Highest Plant Number by County
report is to aid state and local agencies in
selection of plant sources not presently in the
system by state' and local agencies. This output
is run on a national basis only.
11. Weighted Sensitivity .Programs (Figures 2.33 and
2.34) - The two outputs differ only in the "source
class" breakdown. Giving total numbers of sources
for a State, the first option lists total emis-
sions, possible percent error, and total error in
tons per year for area sources and point sources
for SIP pollutants. The: second- option presents
the same data for fuel combustion, industrial
2-72
-------�
'.lAFA SYSTrM
__ENVlJON««£.MTaL.. PROTECTI0v AGf-.-'CY.
'IDE EMISSIONS HEP'1ciT RUN DATE: SEPTEMBER 6. 1973
g»«a<>»»»»«»»»oit _ EMISSIONS AS OF: AUGUST 2f. 1973
UNITED STATKS
J.UEL ..COMBUSTION
-Pi.'tTICJJL.A.TES . S0«__ . . NOA, HC CO
/. _YB_ TONS / YR . _ TONS /..ff . .. „ ._ fONs /.YR .._ JONS.y_._Y*
EXTERNAL COQUET 10S
PEC1'>E"T1AL KUEI.
ANT~->4Cirt COAL 12344 32313 3703 3U*b 111094
J>_ COAL . ' 7un«,2 307605 11659 79062 ~ 355781
392336 87434 " 21*64 " ~ 36 t" A77 OM (POINT')
ire COAL 1^246 47636 liWJl 152 3417
iji? CO'iL _324i/'!SP _ _ 15564214 3*05051 _ 52722 169408
Lir-MlTY" " "" ~ " 377M1 "" 75152 ~~TP.uvf>~' 239 5*95304
_3EPI'1UA|._OIi. 2?1!.7?.- 11542h3 523372 10f«l _ 157»0
oisi'tLLArS'i-iL • "~ '.Vn.i " "" 123*4 ' 222*9" " • --- bl2 ••- - 619
^JATyJAL :>AJ^ 2''971_ 5B/4 _ _92Mt)7 _ 1H97 27o36
.^^ I3<,u£ 27571 144 39472b
4?7 713V3 39<»1 _ 10 333
"~7Yl 'o" 302"' " 63" ~ 295
OfH- a • 2S27 20^0 0 _ 0 _ 0
TOTaL" (tLtc' l-€M) 335?.'4^H " 1S:*56647 6'lO~5MO bt>319 6507477
4NT- iACI It (tO^L
"or-i SI.O~T.ES
10020
13507S2
I22".o92
22-«14
9037^7
227449?
0109
173-J53
524730
56
11730
16718
1721
234*0
53154
f£ ___ _
POT T "SOURCES ~ " 15470 6759 S276~" " "233 "" " "~ " 466
OIL_._. ._. _ .'
VUWCES 13l"56 " ~" 46799 52 7H9198 L1.7J594 9570 ....._. _*-384b27.
DISTILLATE OIL
Figure 2.29 Nationwide, state, or county emission summary
-------�
NJ
I
•> • ** C £ S 2 u b j ]
•-L' 'iM^r.ES 2^,K2
-•••; ' S.u-'C'-IS 5h-sj5
4t£A Si!.-"C£S 6
; p'H'.T.. M,U'-Cr-:s_ 16-7J4 ._
POI: T S'Hi-Ct'S 2.US
-:>
4«£a sruiPCES 1460
°OI'-T SoUHCFS 1"U315
1 lOUlu PETROL G5S
H*r,ac"'VT S"uaCtS lb?
eOI'-.T SJl'-Ct5 11460
n T H - 1-
DOIdT SOURCES 5277
»o£i SOURCES 1412216
POI^T Si'U^CES 1761795
COMM-IMSTITuTIOr.'.CL FUEL
flNTH-aCITE CMOL
POI-%SSMU»CES 2^8
aUEo SOURCES J44492
t'OP T bi^U^CES 57223
~~" POI'.T SOURCES ' 499
PE5 I ^uflL OIL
pol'r^s'ou-CES 569hS
OI?TILL'.TE "1L
ftai'i 5.M.J-JCES 60M61
"01 -T >.iU''CtS 746
joEu bon^CES 17737
nuE" S'M'^CES 102
LIOUID PET^'"L 045
PQL-T Si;U"CES 2
TOTf. 1 (Cu'.'f'-IMST)
u£;i S'lut-CES 27517y
= 01'. T S.iU^CES 7^392
OTHFO (POIM 1 ' 274]
TOT4L (E»TF.RM«L I.O^BI
SRF4 iOJKCeS 1952279
"OI»'T SOUHCFS 5190356
INTERN4L C0^3U5TIOM (POINT)
ELECTOIC GE.^-E^fll ION
**3i\li
743
24923
0
130921 .
26503
29
14109
1321
0
4779
1200R13
3335077
5ft 1
1818
221818
83432
5961^1
806H3
217820
4515
560
2539
2
49
1
1036^2
211
2965007
20465555
11*3*3
222*16
71J3*6-
71
3538
584
117117
1104
3413
954
516042
4226567
221
363
26351
1 71dl
1VO
13-3UO
243443
, 30U7
93J52
36265
41
625
11
497708
- 7^665
246
"" " "1264356
10407568
3200
5789
4^515
15556
12
12409
48
117
25112
32
3413
61
07205
88998
4
21
5728
1646
11
6715
647
12172
132
7463
2863
8
140
1
32096
- 5663
0
160979
213
- 7625
495
1114C36
0
460787
507
117
23-75
142
3413
7724
24461
6057679
133
151
20623
4661
29
446
1100
611
19b
16670
6»06
8
125
2
40693
12 = 71
0
12578227
Figure 2.29 (continued). Nationwide, state, or county emission summary,
-------�
to
I
-o
•TISTILL.iTE .,[i_
l.'It r-cL
lMn0cT=!aL FUEL
DISTILLATE OIL
N4TU-AL fi»S
.-ITH--P
TOTAL ( I viUiKT-M »L)
COMM-IHSTITUTIONAL
nTH^U
TOTJL tCOMW-IN'ST!
F.NGINE-TF STIMG
OTH-^
TOTflL (ENti TESTNfiJ
OTH-P [p'Miyn
TOTtL UNTfxNAL COMq)
TOTAL (FUEL COi-JSTlO*)
a"Eft SOURCES' '
"01 VT SOURCES
INDUSTRIAL ^"OCf.SS («OI»iTJ
CWEMICA| V4 '--'jF 4C fU>* I ^G
FDOP/^G^ICll'.TU^^L
^ECONOA^V ''KTALS
«INFDiL PunnyCTs
PET''OLE'J'< I'"UST«Y
p vePi^-s T 10'.
LrITM^UBl'C.MCTvg
TF«TTLE •»AM|FuCTJ"lNG
INOv-OCFSS FUEL
OTHro/'inT Cl. 1SSIFIEO
TOT'>2 eoiis
47 V7
53 99
172 72
151 0
323 72
0 0
3*H5 11032
520?«4l 20*765^7
23"211 VOh
137745(1 35-9731
l*e*JOf» 906^0
469^231 302; 1^6
*1^R»(9 15765-.8
A*"M*O . "25I5
3-><;* 191%
n o
27130 ' 29f>4»
hl*4 102^1
75*7773 6159777
3V7*8 6*3°
2321* 1*29
191 18
.'il^fl
J J07
1 r 0 0 3
2M9
175
1*59
' 7
8332SO
1328
11
1339
397
0
397
0
S52909
126*356
. 11260577
U2990
1197^
3990?3
"H
0
7
17127
5*6
6S-.377
5162
49
209
14*
331
51
27637
60*
161
12
28365
133
9
1*2
377
0
377
220
29788
227722
190767
2170M8
2233H
112*79
3619
10*56
7515*8
22777
22361-iS
1027
3*0
1*310
97755
5*70616
17*99
43222
181
124
2*
2011
2159
311
10423
1302
929
75
13040
808
3
611
9*0
0
9*0
0
16950
623111
12595177
1*33
2692630
1212565
22-96 •
7300205
740*89
2110
39
0
1
5356
31335
17dl3079
75076
122991
544
Figure 2.29 (continued). Nationwide, state, or county emission summary.
-------�
78*5
60902
i ; Mr"-' l:f,--,c.i-!lO:i 17-M9
J)s.c—. '••'•,• ' . - . . 1 Ij.^'/b
TOT'L (-C3 -:'JT[4L) 29*325
10172
49070
24*17*
B*2236'
179*192
S1Q436
24Q4o26
i
O1^ SITE IMC] -iE^aTION
».:'FA_S.O.U-CF_S
31^*9
1275
39-4
763
a-?F t Sou«CF."
£.OIVT Source S _
..PIL-'T.S.UdNCf;^,
ll^O
2410
0_
19-
0
TOT.-.l (CCMV-I.NST)
AWE.A ,SOy_^C_f.^ _.
POIr f SOURCES"
70b03
I
-O
ON SITE
sr,U-»Ct" >
OPFM
. POI'iT S^UxCrf
"aUTO iuO'V".!' CI? V"«T"lON
147H77
1*
536
.-I39..
.116
.-._.. 1.
1-«7B3
24646
. POIvT_SOU«Cr'S_
TOT'L (I* OU^Tk I SL )
_ ?"F'_S0.1|>V?E^ _
°OI;'T S'lu'Scis
1«233
6536
0
3435
26624
1356
""81926"
278
552
0
106552
2186
123230
58767
222212
35057
3_
79
532*8.
11008
204320"
3472
7*0
0
15220
24e*61
6056*5
555530
48823
_ 17
22
_25020
21930
63*61
11263
TOTnL (SOL III -fASTt JISP)
POI- T ?r.u«CFS
13^713
14t357
305^7
_3454»3
'93927'
1296233
157015
801991
65-003
3464687
36d339
L«NO VF.HICLF5
vfHici.es
"
TOTA|:
OIE5EL
344770
?l'b73
" 11^00
377^*3
206M02
12344
7437
4SK.1699
6B5779
261797
10322889
1397178
B22577
127*264b
57097621
575*393
4507067
67359081
Figure 2.29 (continued). Nationwide, state, or -county emission summary,
-------�
N)
I
f'FF HIGHWAY lb*-* 321-0 *4tj6*7 2h2*21
3Iorc£Fl
•••ILITi-Y 147*75 2«1M 7n/»«7 3*3120
CIVIL .-1-439 Io7fc 7o22 37369
TOTAL (AIRCRAFT) 211135 *2071 113H21 513031
VF.SSFLS
BITUMINOUS CO-iL l/?73 31b3 Ivl 1273
OIF^FL ^UtL 13«67 3553T1 4J002 27334
PFSI^UAL fit. MI36 26242 1S7*5 787
(j»srn IMI «23 514 Io095 56*S6
ToTtL (VESSELS) 21799 65474 . 75033 1)6250
(5AS HANOLlN'i EVAP LOSS 000 913379
Tf)T»L (THANSPORTATIOKI 71BOtfl 6r)250l 781*195 " 14517727
«««i^"«.«t«l
5| t^H PUO'.IK •• ??027fci 0 25915 259150
SOLVF.'iT EV»POWftTION LOSS 000 13B3B55
TOT.>L <*ISCFi L'^iOU5-) 22027R (1 2s915 Io43005
OTH-J (DOIMT) IP 0 0 0
GWA'-iO TOTAL
A9EA SOURCES 3507V13 35B9103 9237179 17664687
PilI».-T SOllrtCFS IP^Os^BO 26666961 11V40707 5ilfl396
TOTtL 16*04-JV3 30256064 211778B6 235030H5
070172
26«166
losUei
36o317
21353B
31*362
896217
5729 •
3S268
52
311523
355573
0
69695361
777451
0
777*51
0
7*560610
31276595
105337205
Figure 2.29 (continued). Nationwide, state, or county emission summary,
-------�
_„*.?_« SI'..* I "V-ii^Y SOU°C£ FUEL SI.I"MAKY Bj:>3RT_««_«
UATTT|«|_ ^MISSION r>ATA
SNVICHNHr'JTAL PD<"ITECT ION AGE'lCY
USER FILE CREATEOATP
TUESDAY AUGUST 2fli 1973
COUNTY FUEL R=PORT:CALIFORNIA COUNTY: VENTURA ' ' " ". " DATE OF PUN
****************** 10/17/73
Afj'J'IAL FUTL SUMMARY
ANTH CO»L BIT^ COAL «5SID OIL" DIST OIL NAT GAS ' "ROC GAS " C 3KE WOOD
TONS TON? 1000 GALS 1000 G4LS 10E6 CUFT 10E6 CUFT TONS T'JNS
_. _ 210 - 0650 12?°.
1P Q 0 • 1500 * * 0
100^0 3650 ^!.00
5360 " 1*190 "" " " "1200'
TXT
to ELrC r.= M • 5*3 275*7
I •IN^USTPIH 372
CO T-ITII. 372 5*3 29271?
CO"M-IMSTL
TOTAL 160^069
TOTAL 12?02 - 5e03 16*753« 1200
LIGNITE BAGASSE . SW/CDAL LIG-PFT-.O DIESEL • GASOLINE JET
TO'IS TONS TONS 1000 GALS 1000 GALS 1000 T.ALS 1000 GALS
_
TP! AL
iNTFPNL fOHp
cL^C GEN
T^ HL
FN",-tF.ST"
TOTAL
TOTAL
Figure 2.30 Stationary source fuel summary report
-------�
*****SCC EMISSIONS REPORT (TONS/YR)»»«*«
UPDATE DATE: TUESDAY AUGUST 28, 1973
NJ
I
•vj
STATE: 01
**•***'
***COUNTY**«
02*0
0260
0280
0360
0520
0540
- . - - ,.-. QS6o
_.___ . . 0580
0660
06SO
0720
sec
** *
10200*01
10200601
3070010*
30700105
30700106
30*00301
30700601
3 07s <;<;<;•}
50300201
3039S999
50300105
50300201
10200702
30501602
305J2001
50200201
50300^01
50300201
10200*01
50300201
10100601
1-020020*
10200601
30*00202
30*00301
30*00330
' 30*00399
30500201
30500202
30500302
30500301
3050J802
305JDR03
30502)07
39000*01
40200101
503D0201
1020020*
10200*01
10200*02
10200601
102J0602
50300105
30502501
50300105
10200101
10200*01
10200902
3070010*
30700105
30700106
50300201
50300202
50300599
10200601
10200902
FkFQ
»«•*•*
1001 )
(001 )
(001)
(001)
(001)
(001)
(001)
(001)
(001)
(003)
I 005)
(005)
(0011
(001)
(001)
(001)
(003)
(002)
(001)
(001 )
(001 I
(001)
(001)
(001)
(003)
(001)
(001)
(001 )
(002)
(001)
(002)
(002)
(001)
(001)
noil
(001)
(001 )
(001)
(001)
(0031
(002)
1033)
(002)
(001 )
(001 )
(001)
(001)
(031)
(001)
1301)
(001)
(002)
(001 )
(001)
(001)
(003)
PART
*w»K
10. 1
12.0
2i07*.0
*10.0
821.0
12.8
0.0
0.0
63.9
0.0
1*1.*
681.8
1,017.5
96.6
98.8
57.9
1*2.0
127.5
1.*
212.5
4.4
2S.O
1.3
22*. ft
663.2
0.0
0.0
42.0
2, 36*. 9
1,66*.*
669.*
7,220.0
102.0
05.0
0.0
0.0
21.3
192.0
11.*
30.?
7.5
2.3
85.*
18.8
22.8
1,56*. I
10.7
82.5
4,303.5
300.0
600.7
102.0
*1.6
0.0
31.0
713.3
S02
* **•
27*.*
0.7
1,025.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
2.0
0.0
55.5
0.0
0.0
0.0
0.0
0.0
147.1
0.0
0.2
37.7
0.2
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0. 0
0.0
0.0
0.0
0.0
0.0
0.0
9R.O
170.6
2*1 .0
0.3
0.0
1.2
0.0
0.0
4,256.0
1,3H.8
4.5
750.0
0.0
0.0
0.0
2.6
0.0
1.0
41.6
NOX
*« •
45. ft
26*. 5
0.0
0.0
0.0
0.0
O.O
0.0
7.5
0.0
20.2
33.*
370.0
0.0
0.0
4.3
16.7
15. 1
24.5
25.0
177.3
21.3
82.5
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
2.5
40.3
?9..6
79.1
9ft. 4
29.4
12.2
0.0
3.3
1 ,260.0
262.5
30.0
0.0
0.0
0.0
12.0
15.6
0.0
395.9
27ft. 9
HC
* "
2.3
3.5
0.0
0.0
, 0.0
0.0
0.0
0.0
15.0
0.0
222.1
150.5
7*.0
0.0
0.0
13.6
33.*
30.0
1.7
50.0
0.3
1.4
l.l
0.0
0.0
0.0
0.0
0.0
0.0
T.O
0.0
0.0
0.0
0.0
0.0
380.3
">. 0
2.7
1.5
4.0
1 .3
0.*
13*. 2
0.0
35. R
2.1
13.1
ft.O
0.0
1.0
0.0
2*.0
78.0
0.0
5.2
55.4
f.C
# =
3.0
19. ft
12, 300.0
0.0
2,050.0
103.3
T.O
0.0
117.5
0.0
2,624.7
2,015.7
7*.0
0.0
0.0
170.*
417.5
375.1
1.6
625.0
5.0
2.9
6.1
OiO
13,295.7
0.0
o. •>
o.n
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
62. ft
5.4
2.0
5. 3
7. 1
2.2
1,5*5.5
0.0
422.5
70.0
17.5
fr.O
8,999.9
0.0
1,500.0
300.0
221.0
0.0
29.3
55.4
Figure 2.31 SCC emissions report.
-------�
E C=?A;eO CN THURSOiY APRIL 19, 1T - 3 ' 05
NATIONAL EMISSICNS DATA SVSTEf
S C U R C E INVENTORY
HIGHEST PLANT NtPBER BY COUNTY
'
STATE CCUNTY . PLANT ID
CALIFORNIA ALANPDA 05 0060 0030
AL°R'E ••" C5 C140
ANACCP ' 05 0220 0005
3UTTC 05 0560 OOlfe
, CALAV63AS 05 C?60 OCC4
COLUSA 05 1540 0006
CONTRA COSTA 05 1620 GC39
CEL NCRTe - C5 2CCO CC2C
EL CCRAOC C5 2230 0003
FPESNO 05 282'J CC<.2
GLEIJN . .05 296C CCCS
MU"BCLOT 05 2200 C0?2
05 338C LC22
N) ~ ...... ..... INYO C5 246C CCC7
I i KERN C5 3A80 0031
00 .- - - KE;}N ,,5 ?4en
0 .. . KINGS C5 352: CC11
• • • • . • LAKE 05 36AG 0007
LASSEN . C5 3fiC: COC8
------------ ........ ~ ----- ..... LCS 4NGELES ' •.' • - - • -• 05 42CC
. LCS ANG?LES 05 A200
MAOERA ' 05 4?2C 001*
f A3 IN ' 05 «.CO
"~ ...... " ."/.:; I PCSA ' . 05 4420
" MC'ICOCINO ', .05 454C CC3F
--------- ~- ...... MERCEC . , ".. 05 4600 OOG5
KCr.CC .. 05 4740 000"
--•-••• MG'JO C5 476C COC4'
' • C5 4P60 CC23
NEVADA 05 5C8: CC14
.OF'ANGE . '" ' c; 544; cc?c
PLACE" OS 5940 0012
PLUt-iS 05 6020 0012
PlVFRSICE C5 642C CC74
SIVERSICE 05 6420
StCRAMENTC 05 6600 0034
SAN BENITO 05 6660 CC1C
SAN BFR^KCINC 05 67CO 0029
SAN BERNARDINO 05 67CC
Figure 2.32 Highest plant ID by county,
-------�
"ST4TF EMISSIONS
MISS.ilia I
RUN DATE: OCTOBER 12i 1973
EMISSIONS AS OF: AUGUST 28, 1973
"SOURCE
ORlVSa TABLE T
TOTAL
5.00
"04 T A"
NO.
' 235
?36
E CLASSES
SOU°CFS
POINT S?UPC:S
TOTAL
PERCENT
7.90
. 6.46
5.00
TONS / Y3
7491.
9172.
11843.
"THE TA «
5.00
I
00
3CE CL4S3=S
A 'SnuftcVs'
TINT SOUR:';5
TONS / YK
B"n5"."
75 ".C?^.
PESCT'IT
""13.91
TONS / YR
16777."
61198.
TOTAL
5.00
63456.
r.'ocr
NCX
64 f A
tin.
?35
2.' 6
ALLOWABLE
S1USC: CLASSES
TCTAL
2550:*..
490547.
HC
7.07
7.07
5.00
TCNS / YR
17653.
1767?..
24Q77.
THET4
NO.
" •> T c"
POINT SO
TOTAL
T|S / YF
437 J?.
457797.
ALLCWABLE EPftOP "
PERCENT . _ TONS / YR
1.05 " " 4354.
3.24 1415.
I.CO
4578.
CC
"DATA ""
236
snii°c^ CLASSES
"4«i "SOU?C;S~-
POI^JT SOURCES
TONS /
ALLOWABLE EPPP= "
EPCENT TONS / YR
10.25 ' " 201600."
5.73 360966.
TOTAL
826894S.
5.00
413447.
Figure 2.33 Weighted sensitivity analysis - grand total.
-------�
WIGHT:-". s-:>;s!"iV;TY ANALYSIS C:P""JT 2
fA'IO'UL ck'! S 5 I ;''!S OftTA SYS'F"
?'.-:" CMISSIC:-:S
SUN OiTK:_OCTCi3E^ 12, 1^7
"E.UTSS~IC'NS'~AS"OFS AUGUST ?B,'1973"
to
I
00
SOURCE HIER4PCHY
POINT
TH'Tt
NO.
129 FU(
'In1; ~"lt-:OUSTRiiL
1=0 SOLID WASTE
':? CLASSES
TONS / 'YP
(POIMT)
937.
0.
THHT1 =
5.18
SOX
FU=L Cf
INnijSTRIAL PcnC?SS (c
SQL 10 WASTE OIS°OS\L
391.
OP 1V£R TABLE 2
10.31
fi.?3
6.46
_
TONS"/ Y
57A6.
7111.
9172.
ALLOWABLE EPROR
~P? = CF'-lT"" ".' TONS"/ YR
5.75 _ 55169.
11 . = « " 26463.
2 8 4-. 8 i 1!' 4.
TOTAL"
TH'TA
NO." ' " SOU?.C =
12" FUvL Cr
1^5 I'nu3T=IAL PRrCS^S (f
1°0 S^LIO t>:'STe DISPOSAL
231 QTHEK (POI'IT)
7.07
~T1 903*9.
NOX
TONS / YH
12257.
0.
—?;oo":4;
HT
•S.18"
ALLCWAPLE
PEPCc.'lT
7.25
31.92
176.92
7.07
"61198".
TCNS / YR
17217.
3=12.
706.
17671.
DATA
'~»n.'
179
t90
m'J-T5J M
SOLIO W4ST?
S 'IPCI.NT)
•nns~rvB-
510?.
or
--S77vrr
^CTJ :
ALLOWABLE ERROR
;NT TONS / YR
3.A6
32.74
"3.24
1322.
140.
1415.
Figure 2.34 Weighted sensitivity analysis - point sources.
-------�
_PATA __ _ _ __ _ _• ALLOWABLE
"N.-I. "^PMS'C: CLASSES Yn>i's"/' Y° ~ """PERCENT " ' TONS / "v«
12'_ FU=L r-«1UST!'~l; 6??40SO. _ 5.74 ?539g8.
"l*5 " IN'--.UST=IAL PROCESS "(POINT) ~~ 61*33. " 53.02 "' 35628."
190_ SCL IT WASTE DISPOSAL _ 7*63. _ 166.39 _ . 12*25.
231 OTH = H (POINT) 0.
TOTAL 63C25'!. 5.73 360966.
NOTE: N!=GATIVC TH:TAS AND P=»CEVT ALLOWABLE FFPORS (SIGWA) DENOTE VALUES GIVEN TO THE PROGRAM
to
I
CO
CO
Figure 2.34 (continued). Weighted sensitivity analysis - point sources.
-------�
process, "301:'a . waste, and miscellaneous sources.
The retrieval keys are the same as for the emis-
sions summary report.
12. Plant Emission Report (Figure 2.35) - This useful
output totals all emission point emissions within
all facilities in a given state by fuel combustion
and process, and lists the state, county, AQCR,
and plant numbers. It also shows the plant name
and grand total emissions. The retrieval keys
are:
Nation
State
AQCR
Printouts can be requested through NEDS contact per-
sonnel in the EPA Regional Office.
2-84
-------�
,-M iSil TIS -J.cPO.-.T <7-.i;:<;/YR)»*« UPDATE OiTE F?iDAY ,= S3rUi-Y 25, 1S73
SU7= CJU-.TV PL-'lT A^C. PLA.,7 :.iK A.'.U Aj=,LiS
«#«#<: v «'•»..« a .'..si v. *«, », »< -,-x-}»;:iiif i!,4vi?itii
01 C560 GOOJ 003 OCNCHOCLAYrhYNG ~~ " "PROC ~" "
I 0 i
Ci 02-- d OJOt OC3 fi.iT' LGYi- iO."hLcJ <)-.^t
•• • • TUT
01 055 C " 000; U03 rtfcAULUMbHK 01 PC ' CK'jC
crvg
T.iT
Ul OiiO OOOi C03 MCHVALVci CUPOLA " " " "' PSDC
1 ..; 1
01 0560 000 1 01,3 HGOl.it i fiiHHLI MfuC
1 Ji
Ul Ub&O . OOCB 003 L EEBRUb-BKAiF i(l ~ • - p-r--{_ - •-
1 j'i
K> 01 0560 000-5 003 SMI IHcSiWYLO CKl'C
1 C0l:a
00 " ' . 1 L T
01 05oO 00 lO OJ3 hK«Mc EfUCKSTILt Hv^l.
CO ••'.3
' " ' TCT
01 &360 UOll 003 ANNIjTONCO.'iCSAS P * ji.
CG-^rf
i J i
' ' 01 C5AC 0012 003 SC.NAT GAS PT.1C
i 2 i
Cl (.551. OJJi 003 BPC!iNTFbPK-r«fX f":--
CI— '05,V-OoOr T.03- WOINTP,PP-UTD ~ ~ ' ' " PP.C
T "T
~ 01 05So " "OOO'a "CC3 "hPOIwTPfcPP-LANu ""' " ' PK.TC
T..T
01 05flO 0004 003 «POiNTPEPP-SH4t« Pr.lC
CJMB
to,
PAF.T
...V
" "5A3A"
0
5404
U
29
2?
- o -
0
<;1
159
0
LJ*>
C
<:2F5
3'JC
Jdd
0
*
1664
0
1664' "
122
0
122
4
A
0
C
45
- o ~ *
3
'. 3 '
0
*
S02
f-r-f
0
J
33
j B
0
L'1
t
v'
O
0
— -o— -
. ... -Q---
0
u
1;
0
- o •
c
0
0
- - - Q -
0
" "" 0 '"
c
98
0 ' "
336
31
' " 31 '"
0
4-t
:iC,X
i..;i
" o
c
u
U
lol
T61'
C
0
J
-~ c
0
0
u
0
C
u
•j
o
0
0
0
c
... . _ 0
0
0
115
Ii5
41
' 0
270
0
14
17
• 17
HC
""
0
0
u
16
16
C
0
5
C" '
0
0
0
0
0
u
0
°
- -c
c
~°
0
0
"
c
0
u
12
•""12 "
0
3
•" 3 ~-
.Q . .
2
L
0
2
^
CO
**
0
0
• • " o
c
a
3
c -• - •
0
bi
- " 1359 "
0
1359
U
0
0
C
0
0
.. . -36 .
0
36 ' "
0
C
c
o
c
0
0' "
c
0 " "" "
0
5
- - - -- 5 -
I
1
o ' •
C
- o
c
0
c
Figure 2.35 Plant emissions summary.
-------�
3.0 EMISSIONS INVENTORY SUBSYSTEM (EIS)
3.1 SYNOPSIS OF CDHS
The U.S. Environmental Protection Agency has developed
the Comprehensive Data Handling System (CDHS) for use by
state and local air pollution control agencies. These
agencies can install CDHS on their own computers, or on
computers to which they have access, without incurring the
significant costs involved with developing computer software
systems. CDHS includes four subsystems:
1. Air Quality Data Handling Subsystem (AQDHS)
2. Enforcement Management Subsystem (EMS)
3. Emissions Inventory Subsystem (EIS)
4. Emissions Inventory Subsystem/Permit and Regis-
tration (EIS/PR)
The AQDHS is for storage and retrieval of air quality moni-
toring data; it corresponds functionally to the SAROAD
system of EPA. The EMS is for storage and retrieval of
compliance data, including features for scheduling enforce-
ment activities; EMS corresponds functionally to the Com-
pliance Data System of EPA. The EIS is for storage and
retrieval of point source and area source emissions data; it
corresponds functionally to the NEDS of EPA. EIS/PR per-
3-1
-------�
forms all the funccj.ons of EIS and also allows user to
store, retrieve, and maintain any data which would be useful
in his permit and registration operation. Any or all sub-
systems of CDHS are available to state and local agencies
from EPA on request. EPA is committed to the support and
maintenance of the CDHS subsystems. The CDHS subsystems and
the corresponding EPA systems are mutually supportive, since
data from each EPA system can be direct input to the corre-
sponding CDHS subsystem, and vice versa.
3.2 PURPOSE AND CAPABILITIES OF EIS
3.2.1 Purpose of EIS
The EIS was developed to provide state and local air
pollution control agencies with a fully developed software
capability for computerized handling of point source and
area source emissions data. The EIS can accept emissions
data directly from NEDS for updating purposes and also can
produce emissions data in a format suitable for updating the
NEDS system. This updating capability provides the oppor-
tunity for EPA to maintain NEDS on a more current basis than
it. possible with present manual updating procedures. The
updating capability of EIS simplifies the procedures by
which a state can meet the semiannual reporting require-
men'-s of NEDS. For more detailed information on this
3 . • ,
? • tern, refer to Comprehensive Data Handling System (CDHS),
'.:.'missions_Inventory Subsystem Users Guide, APTD-1550 (Ref-
10) and Comprehensive Data Handling System (CDHS) ,
3-2
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Emissions Inventory Subsystem Program Documentation, APTD-
1551 (Reference 11).
3.2.2 Capabilities of EIS
The reporting capabilities of EIS are indicated by the
following summary of some important features of the system.
9 Input to EIS is from cards keypunched from EIS load
sheets or from NEDS cards or card image format which
EIS will convert to its own internal format.
0 EIS card 23 contains the emission factor used to
estimate a specific pollutant emission, if a factor was
used. EIS allows the user to generate a table of
emission factors versus SCO's (table supplied by EPA)
which the system can use to automatically calculate
controlled emission estimates.
0 A file maintenance program updates the master file from
EIS transactions keypunched from EIS load sheets or
from EIS transactions generated from NEDS cards.
0 Five output programs produce three printed reports and
two types of punched card or magnetic tape output.
0 The EIS system contains the same information as NEDS,
with added features, that make it a more useful tool
for state and local agencies.
Three major reports are routinely available from EIS.
1. File Summary Report - This report summarizes the
following data values from the master file with
the breakpoints specified by the list of allowable
user names: source count (summary of sources
emitting a specified pollutant), estimated emis-
sions, actual (measured) emissions, allowable
emissions (based on standards), and control
equipment costs'.
2. File Listing - A detailed formatted listing of the
EIS master file.
3. NEDS Area Source Report - A formatted listing of
NEDS area source records.
Since EIS is programmed in COBOL, an easily maintainable
programming language, users of EIS with programming services
available could expand the EIS reporting capabilities.
3-3
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A retrieval program selects data to be output from the
master file. The data are specified through retrieval cards
that include names of data fields, sort specifications, and
operational qualifiers. The qualifiers or relational
operator codes, allow data in specified fields of each
record to be compared with numeric or alphanumeric literal
values designated by the user. The qualifier codes are:
Code Meaning
= equal
< less than
> greater than
N= not equal
N< not less than
N> not greater than
The relational operator codes can be used to compare any of
the data elements in the following lists. Formats and
programming language constraints are discussed in detail in
APTD-1550.
The following list of names from the fixed segment may
be referenced in a retrieval specification statement in
either EIS fixed format or COBOL language. Segments are
explained in Section 3.4.
AQCR PROPERTY-AREA
CITY SEGMENT-DAY
CONTACT SEGMENT-ID
COUNTY SEGMENT-YEAR
DATE-OF-SEGMENT STATE
3-4
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LOCAL-CONTROL TELEPHONE
NUMBER-OF-EMPLOYEES USER-CONTROL-REGION
OWNER USER-PLANT-ID
PLANT-ID UTM-ZONE
PRINCIPAL-PRODUCT
The following two names from the fixed segment may be ref-
erences in a retrieval specification in the COBOL language
only.
ESTABLISHMENT
MAILING-ADDRESS
The following list of names from the repeating portion
of the point source segment may be referenced in a retrieval
specification statement in either EIS fixed format or COBOL
language.
ALLOWABLE ESTIMATION-METHOD
CNTL-EQUIP-COST . MEASURED
CONTROL-EQUIPMENT POLLUTANT-ID
EMISSION-UNITS PRIMARY
EMISSIONS SECONDARY
EST-CNTROL-EFF TEST-METHOD
ESTIMATES
The following list of names from the point source segment
may be referenced in a retrieval specification statement in
either EIS fixed format or COBOL language.
3-5
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ANNUAL-THRUPUT
BOILER-DESIGN-CAPACITY
COMPLIANCE-SCHEDULE
COMPLIANCE-SCHEDULE-MONTH
COMPLIANCE-SCHEDULE-YEAR
COMPLIANCE-STATUS
COMPLIANCE-STATUS-DAY
COMPLIANCE-STATUS-MONTH
COMPLIANCE-STATUS-UPDATE
COMPLIANCE-STATUS-YEAR
CONTROL-REGULATIONS
DAY-WEEK
DEC-FEE
DIAMETER
ECAP
JUN-AUG
LATITUDE
LATITUDE-DEGREE
LATITUDE-MINUTE
LATITUDE-SECOND
LONGITUDE
LONGITUDE-DEGREE
LONGITUDE-MINUTE
LONGITUDE-SECOND
MAR-MAY
NEDS
NORMAL-OPERATING
PLUME
POINT-ID
POINT-SOURCE-DATE
POINTS-PER-STACK
REG-1
REG-2
REG-3
SEP-NOV
SIC
STACK-HEAT
STACK-DATA
TEMPERATURE
USER
UTM-COORDINATES
*
UTM-HORIZONTAL
UTM-VERTICAL
VELOCITY
WEEK-YEAR
EMISSION-NBR
FLOW-RATE
HEIGHT
HOURS-DAY
IPP
A sorting option allows for sorting retrieved data into
ascending or descending sequence by data field before print-
ing. For example, it is possible to retrieve all records
that contain a specified pollutant ID and to sort the records
in descending sequence by plant within county and in as-
cending sequence by pollutant ID.
3-6
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3.3 NEDS-EIS RELATIONSHIPS
3.3.1 File Structures - NEDS/EIS
The EIS master file is divided into three hierarchical
levels called Segment Type 0, Segment Type 1, and Segment
Type 2. Segment Type 0 contains plant ID and location data.
Segment Type 1 contains point source identification, op-
erating, compliance, control, and emissions data. Segment
Type 2 contains point source operating rates and fuel data.
Input to the master file segments is from nine EIS cards.
The relationships between these EIS transaction cards, the
EIS master file segments, and NEDS transaction cards are
illustrated in Figure 3.1.
3.3.2 NEDS to EIS File Conversion
A program is provided for converting NEDS point source
input cards to EIS transaction card format. Most data items
in the EIS transaction records that have no corresponding
data items in the NEDS input records are set to blank.
Items for which values are assigned are:
0 Set-ID (Segment-1-ID)
0 Pollutant-ID (SAROAD codes)
0 Segment-2-ID
0 Emission-Factor-Source (This flags another program to
insert emission factors into the transaction cards)
Another program is provided for converting NEDS area
source input to EIS area source transaction card format.
Data items not having corresponding data items in the NEDS
transactions are set to blank except for the following,
which are assigned by the system:
3-7
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EIS SEGMENTS
TYPEO
SEGMENT
EIS CARDS
X
EIS CD03
EIS CD 02
' EIS CD 01
NEDS POINT SOURCE
CARD
NEDS CDi
Lo
i
CO
TYPE I
SEGMENT
. TYPE2
SEGMENT
EIS CD13
EIS CD12
EIS CD1I
/
EIS CD23 1
X
EIS CD22
/
- EIS CD21
NEDS CD5
NEDS CD4
NEDSCD3
NEDS CD2
NEDSCD6
Figure 3.1 Relationship between EIS transaction cards, EIS master
file segments, and NEDS transaction cards.
-------�
0 User-Plant-ID
0 Plant-ID
0 Number of Employees
0 Set-ID
0 Neds-Point-ID
0 User-Point-ID
0 SIC
0 IPP
0 Pollutant-ID
0 Estimation Method
0 SCC
0 Fuel, Process, Solid Waste Rate
The programs assigned codes are not necessarily synonymous
with the titles of the fields, but rather are specific for
area source applications.
3.3.3 EIS to NEDS File Conversion
Two programs are provided to generate NEDS point source
or area source transaction cards from the EIS master file.
A listing of errors that occurred during the conversion is
produced. The point source or area source cards produced
can be listed by separate programs if desired.
3.4 EIS CODING REQUIREMENTS
Figures 3.2 through 3.4 illustrate the input coding
forms used for EIS. The following pages present expla-
nations of the fields on the coding forms, instructions for
coding, and the add, change, and delete procedures for EIS.
3-9
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Suit
1 i 2
1
Cour-i,
3 ! 4 ' S 6
1 i i
AOC"
7.89
!
NlimC-r
10 M ' 1! 13
! ! !
Oj'e ot Record
'"'
14 15
'6 i 17 18
i i
EMISSION INVENTORY SUBSYSTEM :£iS)
COMPREHENSIVE DATA HANDLING
SYSTEM iCDHSi
Name O* Person
Completing form_
Date_
Coni'ol
Region
19 : 20 ! 21
Control
22! 33
!
U*er Pt»ni 10
24 25 ' 25 ; 2? : 28 ' 29 | 30 ; 31 t 32 ! 33 ' 3-* j 35
; '• i M i > ' .' i i
C.l<
:6 37 . 38 | 39
i ! !
UTM
Zo-e
40 •: 4t
1
o
42
Contact Pcrjo'"!'
43 : « r 45 ' « 1 47 48 49 so 51 52 . 53 54 55 . 56 . 57
! i j i | ; i :;•!•.'
T«l«Dr>onc
53 59 60 • 61 : 62 6] ' 64 65 ; 65 G7
; i ! i ; i ' i i
PfOC'pat Produrt
68 1 63 70 /' J '2 | 73 '. 74'] 75 i '6.. T>
> i i f i i ! 1 !
i
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?9
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ECr~
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i
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1 • i ! : 1 i 1 i i i 1 1 i 1 ! i I 1 i 1 1 ! 1 1 : ! 1 1 1 1 i ! i ! 1 i I ; ' : ; i
: :;':..
^
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0| 3
*
a
80
Figure 3.2 EIS coding form - plant identification (Segment 0).
-------�
Si
1
!•
County
AQCR
PUnt ID
Number
Dm
VMf
O< Record
O.y
18
EMISSION INVENTORY SUBSYSTEM (EISI
COMPREHENSIVE DATA HANDLING
SYSTEM (CDHSt
POINT SOURCE
(Segrncr-t I)
Inpot Form
Name of Person
Completing Form^
Date
ID
19
20
Point ID
NEDS
2'
22
User
23
24
25
2S
27
29 I 29
1
30
31
UTM CoOfdinma
Horizontal
32
33
34
35
Verticil
36
37
38
Latitude
0«,
M,n
Soc
Longnudo
D*g
1
Mm
50
51
S«
52|53
i
X Annual Thruput
Oflc-
F*b
54 I 55
1
Mar.
M.y
55
57
Aio
58 ! 59
j
Sect.
Nov
60
61
Normal
Operating
Hr
62 | 63
D
64
Wk
65
66
Boiler
i
•* Soace
Heat
1
:
*
i
c
i
80
S«l1
Id
t9
20
21
H«
22
Qht
23
24
:5
Dum
26
27
Ttmp
!3 ! 29
|
30
31
Slack Oaia
Fkxw R4I0
32
33
34
Vatoci
40
r'
Plum* Height
PTJ wth
Common
Stack
51
cs
P '
52
Co
Sc
Yr
53
54
mo
ed
Wo
55
56
Yr
$7
56
romp Sla
Upd»t«
Mo
59 160
1
0»y
51
62
c
«
63
Bt8l
64
65
66
67
Control fleguljliont
Reg!
63
69
70 i 71
1
72
Reg 3
73
•
1
c
2
; ]
ao
UJ
I
^
19
20
Polluti
ID
21
22
23
^1
24
25
Control
• EQu'Omenl Cott
26
27
28
21
30
31
i
i
i
A
32
Pnnwv
Control
33
34
35
Secondjry
Control
Equipment
36
37
3B
Ejlimeted
Control
Elfieieney
39
40
41
i
1
i
i
i
i
1
^
.
42
43
En
E
44
illioni
limali
45
46
47
43
' Measured
Emissions
49
50
51
52
53
54
55
Allowable
Emissions
59
t u
—
•V
IT
71
72
73
74
75
76 | 77
a
78
1
t
1
1
1
1
1
1
1
1
1
1
1
1
1
1
e
79
3
3
3
3
3
3
i
3
3
3
3
3
3
3
3
3
|
83
i
Figure 3.3 EIS coding form - point source (Segment 1).
-------�
Sot*
t
2
Co«j*fv
3
4
S
6
AQCR
7
a
9
Flint !O
ID
H
12
13
nf nitrnift
Ve»r
14 [ 15
|
Otv
16
17
18
EMISSION INVENTORY SUBSYSTEM (EIS)
COMPREHENSIVE DATA HANDLING
SYSTEM (CDHS)
Machine - Process
(Segment 2)
Input form
Name of Person
Completing Form_
Date
S«9l
ID
19 ! 20
|
S.,2
IO
21 | 22
1
-
2]
"
2« | ?5
. 1
«
25
C
lit
2'
2.
IV
29 | 30
I
N'-tmb
31 | 32
|
etc
f
33
1
34
D
«"
F.,,1
Sol
Oo-i
PfO
d w
il.ng
Ran
h
• IIT
um Dflnijn
Rale
«!.,|«j»
~rn
S^lltj
Coocw
51 j"
1
1
53
Come
SJ 155
1
1
56
C
5JJ53
1
Heal
59 | CO
1
I
61
62
63
6*
65 I 66
|
67 f 58 ! 69
70
71
72
73
74
75
76
77
9
78
2
c
7?
1
'.
CO
5? 58 59
71 72 73 74
K)
S?o'
-
_
~
slg2
—
Puiiotait
ID
Em-si'On Facio-
_
--
32
33
i
,
34
i
i
j
i
i
1
i
1
1
i
35
36
—
Ac
S J
3;
u
1 J
:a
Pollul^rit
ID
39
JO
41
Emution FacJO'
j
i
—
j
~
-]
-H
\.
>--
_A_.
Ll_
i
i
t
i
—
Ac
s e
•
€ "
•
—
Pollutant
ID
fm-ssion F«ciof
|
—
_
—
1
i
i
1
i
x
1
i
I
i
i
i
1
1
ac
1 2
^
—
—
I '
•
78
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
c 1
-j ! . .
3
3
3
1
3
3
3
3
3
3
3
3
3
3
3
3
1
Figure 3.4 EIS coding form - machine/process (Segment 2}.
-------�
3.4.1 EIS Coding Instructions
All EIS fields which correspond to a NEDS field are to
be coded according to the NEDS procedures. When establish-
ing an EIS system it is suggested that the NEDS to EIS
conversion program be used to build an EIS data base from
existing NEDS data. The EIS data base can then be updated.
3.4.1.1 Card Columns 1-18 of All Cards:
1. State Code: State identification number as defined
by the SAROAD air quality numbering system.
2. County Code: Codes to be used are listed in the
SAROAD Station Coding Manual for Aerometric Sampling Networks/
APTD-0907 (Reference 2).
3. AQCR Number: Number for the Air Quality Control
Region in which the plant is located.
4. Plant ID: Identification of each source in a county.
The numbering system is sequential, starting with the number
one and continuing until all facilities containing point
sources that are located in a given county are assigned a
number. This must be identical to the NEDS plant ID.
5. Date of Record: The Julian date for the data recorded
on the card. The format for this field is YYDDD.
3.4.1.2 Card 01
1. Control Region: A user-defined field to identify
state or county control areas.
2. Local Control: A user-defined field to identify
plants that are physically in one control .region but have
control responsibility in another region.
3-13
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3. Plant ID: A user-defined field to be used if the
local identification conventions differ from those of NEDS.
4. City: The 4-digit SAROAD code number correspond-
ing to the city in which the source is located. A few
cities in the United States are not considered to be inside
any county but are considered independent entities. In such
cases, enter the city code in both the city and county code
fields.
5. UTM Zone: The zone number must be known in order to
locate the point source via the UTM coordinate system; this
number is found on all USGS maps showing UTM coordinates.
While some states are within a single UTM zone, many states
and counties are in two UTM zones. For this reason a UTM
zone number is required for each record.
6. Ownership: A single alphabetic character ownership
code. Select the code from the following list:
Symbol Ownership
P Private
L Local government
S State government
F Federal government
U Utility
7. Contact: The last name of the person responsible for
pollution control activity at the source. If the respon-
sible individual is not identifiable, record a descriptive
and appropriate title.
3-14
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8. Telephone: The area code and telephone number of the
person to be contacted.
9. Principal Product: A brief description of the
principal product produced at the plant.
10. Card Number: 01
11. Transaction Code: The transaction codes are:
A - Add
C - Change
D - Delete
3.4.1.3 Card 02
1. Name and Address: Provide a descriptive name for the
facility and a usable mailing address. Use common abbre-
viations whenever possible. The address should include a
street number, city, and zip code. The zip code appears in
the last five positions of the field.
2. Number of Employees: Number of persons working at
this location.
3. Property Area: The area, to the nearest tenth acre,
of land occupied by the facility.
4. Card Number: 02.
5. Transaction Code:. The transaction codes are:
A - Add
C - Change
D - Delete
3.4.1.4 Card 03
1. Mailing Address: Address of the person to contact if
it is different from the establishment name and address.
3-15
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2. Card Number: 03.
3. Transaction Code: The transaction codes are:
A - Add
C - Change
D - Delete
3.4.1.5 Card 11
1. Segment ID: Each point source set (cards, 11, 12
and 13) creates a point source segment in the master file.
Each point source segment under the same facility segment
must have a unique segment ID number. This number must also
be used to reference a segment when making a change or
deletion.
2. Point ID (NEDS): A sequential number designated for
each.pollutant discharge point within the facility.
3. Point ID (Local): A field for a user-defined point
source identification when the NEDS point ID is not suf-
ficient to show local control.
4. SIC Code: Information needed to use the source data
for modeling air quality. Enter the appropriate Standard
Industrial Classification code.
5. IPP code: Complete this column with the standard
process code.
6. UTM Horizontal and Vertical Coordinates: The UTM
coordinate system is another means of identifying the
location of the point source. Obtain coordinates from USGS
maps or equivalent with scales less than 1:62,500. Fill
3-16
-------�
spaces in these columns with numbers or zeros. Accuracy
within 0.1 kilometer is desired.
7. Latitude and Longitude: An alternative means of
identifying the location of the point source. Obtain
coordinates from USGS maps or equivalent.
8. Percent Annual Throughput: The annual production,
consumption, throughput, or other valid number representing
operation of the source is proportionally divided into four
3-month periods, as described below. The weighted portion
of production occurring in each period is reported as a
percentage of total annual throughput. The field is divided
into four equal subfields of two numbers each. The first
two positions are for December through February; in se-
quence, the next are for March through May, June through
August, and September through November.
9. Normal Operating: Enter the hours per day, days per
week, and weeks per year that the source operates under
normal and usual conditions.
10. Boiler Design Capacity: A boiler is defined as con-
sisting of a burner, firebox, heat exchanger, and a means of
directing a flow of gases, through the unit. Units are in
millions of BTU per hour based on the maximum input capacity
or design of the boiler.
11. .Space Heat Percent: Estimate the percent of total
fuel used for space heating at the plant. If no fuel is
used for space heating, enter a zero in this field.
3-17
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12. Card Number: 11
13. Transaction Code: The transaction codes are:
A - Add
C - Change
D - Delete
3.4.1.6 Card 12
1. Segment ID: Enter the same number as in the segment
ID of the 11 card.
2. Stack Height: If the exact location of the discharge
of pollutants is well defined, there will be a stack or some
other enclosed, constrained, or physically bound area
where pollutants are emitted. In such instances, the stack
height is the vertical distance between the point of emis-
sion and ground level. If no stack can be identified or if
there is.a changing locus of emissions within the facility,
complete only the Plume Height and Temperature fields, enter
zeros in the remaining stack data fields.
3. Stack Equivalent Diameter: The stack diameter is the
inside diameter of a round gas exit at the point of emis-
sion; for non-round exits, it is an equivalent diameter
calculated from the cross-sectional area at point of dis-
charge. Using a measured or estimated cross-sectional area,
the equivalent diameter (De) is. calculated as follows:
De = 1.128
where A is in square feet.
4. Stack Temperature: Report the temperature (°F) of
the exhaust stream at the stack exit under normal operating
3-18
-------�
conditions. If measured temperatures are not available,
estimate to the nearest 50°F.
5. Exhaust Flow Rate: Record the design or maximum
exhaust-gas volume unless measurements are available. Units
are cubic feet per minute, representing the total volume of
exhaust gas released at the operating temperature of the
stack (assume gas pressure is the same as normal atmospheric
pressure).
6. Velocity: Record the design or maximum exhaust-gas
velocity unless actual measurements are available. Units
are feet per minute.
7. Plume Height: Use this field if zeros were entered
in the previous fields on stack data (except for temper-
ature) . Plume height is a gross estimate, used only when
the source has no definable stack.
8. Points with Common Stack: Columns 48 and 49 contain
the NEDS point ID of the first point source discharging
through the stack. Columns 50 and 51 contain-the NEDS point
ID of the last point source discharging through the stack.
For a complete definition of common stack see APTD-1135.
9. Compliance Status: Select one of the following codes
to record the present status of the source under existing
legal requirements:
1 Source is in compliance with the most stringent
air pollution control requirements.
3-19
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2 Source is not in compliance with existing
legislation and no variance has been given.
3 Source is not in compliance with existing
legislation but a variance has been given.
4 Compliance status is unknown.
10. Compliance Schedule: If the compliance status code
is 2 or 3, enter the year and month by which this source
must be in compliance.
11. Compliance Update: Enter the day, month and year of
the most recent change in compliance status for the source. .
Leave the field blank if compliance status has been reported
as unknown (code 4). If the source is in compliance with
existing air pollution control legislation, record the time
that such legislation was enacted.
12. ECAP: Certain point sources are required to submit
to government agencies an Emergency Control Action Program
that specifies a detailed plan for immediately reducing
emissions whenever air pollution in an area is considered an
emergency condition. Use the following list of codes to denote
whether an ECAP has been submitted to an appropriate gov-
ernment agency. Leave blank if status is unknown.
0 ECAP is not required
1 ECAP is required but has not been submitted
2 ECAP has been submitted
13. Control Regulations: This field is used to identify
air pollution control regulations that are in effect and
apply to the source.
3-20
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14. Card Number: 12
15. Transaction Code: The transaction codes are:
A - Add
C - Change
D - Delete
3.4.1.7 Card 13
1. Segment ID: Enter the same number as in the segment
ID of the 11 card.
2. Pollutant ID: A 5-digit code that represents the
pollutants whose emissions are being measured. Source is
SAROAD Parameter Coding Manual, APTD-0633 (Reference 12).
3. Control Equipment Cost: Enter the annual cost of
maintenance and operation of pollution control equipment.
4. Primary Control Equipment: Complete this field with
the Control Equipment Identification Code. Report only
control devices that reduce the uncontrolled emissions
normally associated with the specific source process.
5. Secondary Control Equipment: If an additional con-
trol device is installed for this pollutant, enter the
Control Equipment Identification Code in this field.
6. Estimated Control. Efficiency: Enter the overall
collection efficiencies (weight percent) of all control
equipment at the point source. Assume that the pollutant
load entering the control equipment is the normal, uncon-
trolled quantity for that specific process.
7. Emissions Estimate: Enter the annual controlled
emissions from the point source (tons per year). These
3-21
-------�
calculations should include the effects of pollutant removal
by installed control equipment.
8. Emissions Measured: Enter the annual controlled
emissions from the point source (tons per year) as measured
by test equipment. These measurements can be compared
against the estimates to check the validity of the emission
factors.
9.. Allowable Emissions: Enter the maximum emissions
(tons per year) that the source is legally allowed to
discharge into the atmosphere.
. 10. Emission Units: This field is for future expansion
of the system. It will eventually allow the user to specify
units for emissions in other than NEDS units. Currently,
the system ignores this field.
11. Estimation Method: Use the NEDS code list (Table
2.1) to specify the method used to ascertain estimated
emissions. If code 3 is used, the file maintenance program
will calculate the estimated emissions if all 'the factors
are present.
12. Test Method: A user-defined code to indicate the
method used to ascertain the measured emissions.
13. Card Number: 13
14. Transaction Code: The transaction codes are:
A - Add
C - Change
D - Delete
3-22
-------�
3.4.1.8 Card 21
1. Segment 1 ID: Enter the same number as in the
segment ID of the 11 card for the point source to which this
segment belongs.
2. Segment. 2 ID: Each fuel process set . (Cards 21, 22, and
23) creates a fuel-process segment in the master file. Each
fuel-process segment under the same point source segment
must have a unique Segment 2 ID number. This number must
also be used to reference a particular segment when making a
change or deletion.
3. SCC Code: Enter the Source Classification Code
process description that most nearly describes the process,
by its 8-digit numerical code. If the most appropriate
SCC description appears to be significantly different from
the actual process, enter nothing in this field, but enter
NEW SCC NEEDED in the Source Description field of the 22
card.
4. BEG Code: Enter the Basic Equipment Classification
code that describes the equipment or process for this
source. The last two digits are used to sequentially number
identical units at the same source.
5. Fuel Units: This field is for future expansion of
the system. It will eventually allow the user to specify
units for the fuel-process field in other than NEDS units.
Currently, the system ignores this field.
6. Fuel, Process, Solid Waste: Report the annual figures
in this field using the units associated with the SCC code
for the process.
3-23
-------�
7. Maximum Design: Enter the maximum hourly design rate
of the process equipment, or the upper operating limit that
generally would not be exceeded in normal practice. Units
are those corresponding to the SCC for the process.
8. Sulfur and Ash Content: Fill in these columns for
all combustion processes. If the process does not burn.
fuel, enter zero.
9. Heat Content: Complete this field only when the
process involves combustion. Units are millions of BTU per
SCC.
10. Card Number: 21
'?
11. Transaction Code: The transaction codes are:
A - Add
C - Change
D - Delete
3.4.1.9 Card 22
1. Segment 1 ID: Enter the same number as on the
Segment 1 ID of the 21 card.
2. Segment 2 ID: Enter the same number as on the
Segment 2 ID of the 21 card.
3. Confidentiality of Data: Process information occa-
sionally is collected by a government agency under a guar-
antee that the data will be treated in a confidential manner
and will not be released to the public. This column in-
dicates whether any data for this source are officially
considered confidential. A one (1)' indicates confidential
3-24
-------�
classification, a two (2) no classification, and a blank
indicates unknown status.
4. Source Code: Needed for NEDS reporting. Enter the
following codes for the process category: B - Boiler, P -
Process, C - Other Combustion unit.
5. Source Description: Enter a brief description of the
source or comments as needed.
6. Emission Factor Source: If this field contains a T
the emission factors insertion program will insert the
appropriate emission factors from a table of SCC codes.
7. Card Number: 22
8. Transaction Code: The transaction codes are:
A - Add
C - Change
D - Delete
3.4.1.10 Card 23
1. Segment 1 ID: Enter the same number as in the
Segment 1 ID of the 21 card.
2. Segment 2 ID: Enter the same number as in the
Segment 2 ID of the 21 card.
3. Pollutant ID Code: This field is a 5-digit code
that represents the pollutant whose emissions are being
measured. The source is APTD-0633.
4. Emission Factor: The emission factor is a statis-
tical average of the rate at which a pollutant is released
to the atmosphere as a result of some activity, such as
3-25
-------�
combustion or industrial production, divided by the level of
that activity. The emission factors for each SCC are given
in AP-42.
5. Ash/Sulfur Code: This code indicates whether the ash
or sulfur percentage is to be used in the calculation of
estimated emissions. The codes are: A - Ash, S - Sulfur,
and blank - neither applies.
6. Emission Factor Units: This field is for future
expansion. Eventually it will indicate units in which the
emission factors are expressed. The emission factors are
now treated as standard NEDS units.
7. Card Number: 23
8. Transaction Code: The transaction codes are:
A - Add
C - Change
D - Delete
Note: Card columns 23 to 38 may be repeated two more times
on the same 23 card to allow storage of up to- three sets of
emission factors information on each card.
3.4.2 Add, Change, and Delete
3.4.2.1 Add Cards - Records are created or added to the
master file by the following combinations of add cards.
Only those fields with the name filled in are required. All
other fields may be blanks. At least the three cards shown
in each segment are required to create each 'segment.
3-26
-------�
To add a plant segment (type j3 segment) :
KEY
KEY
KEY
DATE
pi
p2
p3
A
A
A
1 13 14 18
0 To add a point source segment (type 1 segment), which
is allowed to have subordinate to it up to six machine
process segments (type 2 segments):
KEY
KEY
KEY
DATE
ID
ID
ID
POLL. ID
11
12
13
A
A
A
13 14 18 19 2021
up to 16
25 78 79 80 cards
up to 6
KEY
KEY
KEY
DATE
ID
ID
ID
1D2
ID2
ID2
POLL. ID
21
22
23
A
A
A
1
13 14 18 19 2021 22 23
27 78 79 80
sets with
up to 16
23 cards
per set
Up to 16 unique pollutant ID-1 s are allowed. Thus, multiple-
type 13A and 23A cards are allowed. One, two or three
pollutant ID's can be present on any type 23A card. Also,
since up to six (there must be at least one) machine process
(type 2) segments can be subordinate to any point source
(type 1) segment, there can be up to six sets of the 21A/
22A/multiple 23A-type cards following the last 13A card of
each point source segment.
3.4.2.2 Change Cards - Any record on an existing master
file can be changed through the use of a change card. De-
pending on the segment type being changed, certain fields on
3-27
-------�
the card must be filled in. Other than these required
fields, any other field on the card that is non-blank will
replace the corresponding field of the indicated record on
the master file.
To change a field in a master file record, use only the
single transaction card that contains that field. For
example, assume that the field called Compliance-Status is
to be changed. This field is part of the point source (type
1) segment and is included in the type 12 transaction card.
Thus only a type 12 change card is required. The type 11
and 13 cards are unnecessary.
Following is the format for each type of change card,
with the required fields filled in by name.
0 Type 01 change card:
KEY
1 13
3 Type
KEY
1 13
5 Type
KEY
1 13
5 Type
KEY
1 13
5 Type
KEY
1 13
| DATE • 01 C J
14 18 78 79 80
02 change card:
I DATE 02 C |
14 18 78 79 80
03 change card:
| DATE ... [ 03 [cj
14 18 78 79 80
11 change card:
| DATE ID | 11 |C |
14 18 19 20 78 79 80
12 Change card:
| DATE ID | 12 C |
14 18 19 20 78 79 80
3-28
-------�
o
o
0 Type 3.3 change card:
| KEY | DATE-. | .ID ] POLL. ID | | 13 |C [
1 13 14 18 19 20 21 25 78 79 80
Type 21 change card:
KEY j DATE | ID | ID2 | | 21 |c |
1 13 " 14 18 19 20 21 22 78 79 80
Type 22 change card:
| KEY | DATE | ID | ID2 | | 22 JC |
1 13 14 18 19 20 21 22 78 79 80
0 Type 23 change card:
I KEY | DATE I ID I ID2 | POLL. ID I 23 |C I
1 13 14 18 19 20 21 22 23 27 78 79 80
3.4.2.3 Delete Cards - Three segments (or segment combinations)
can be selected from an existing master file. The following
cards, with required fields filled in, illustrate how to
delete these segments.
0 Delete an entire logical record of plant (type j3)
segment and all subordinate point source (type 1) and
machine process (type 2) segments
| KEY | | 01 | D |
1 13 78 79 80
0 Delete a point source (type 1) segment and all sub-
ordinate machine process (type 2) segments:
I KEY I I ID I I 11 I D I
1 13 19 20 78 79 80
0 Delete machine process (type 2) segment:
I KEY | | ID | ID2 | | 21 | D |
1 13 19 20 21 22 78 79 80
In general the Key, ID'S, card number, and transaction
code are required for all types of transactions. In ad-
3-29
-------�
dition, the pollutant ID and date are required for adding or
changing information in the master file.
3-30
-------�
REFERENCES
1. Guide for Compiling a Comprehensive Emission Inventory.
U.S. Environmental Protection Agency, Office of Air
Programs. GAP Publication No. APTD-1135. Research
Triangle Park, North Carolina. Revised, March 1973.
2. SAROAD Station Coding Manual for Aerometric Sampling
Networks. U.S. Environmental Protection Agency,
Office of Air Programs. OAP Publication No. APTD-0907.
Research Triangle Park, North Carolina. February 1972.
3. Federal Air Quality Control Regions. U.S. Environ-
mental Protection Agency, Office of Air Programs. OAP
Publication No. AP-102. Rockville, Maryland. January
1972.
4. Standard Industrial Classification Manual, 1972. U.S.
Bureau of the Budget, Office of Statistical Standards.
Washington, D.C. 1972.
5. Compilation of Air Pollutant Emission Factors, Second
Edition. U.S. Environmental Protection Agency, Office
of Air Programs. OAP Publication No. AP-42. Research
Triangle Park, North Carolina. April 1973.
6. Source Classification Code and Emission Factor List-
ing, dated December 1973, issued by NADB.
7. Required NEDS Update Procedures, Part 2 of OAQPS
Guideline Series No. 1.2-009. November 2, 1973.
8. NEDS Edit Listings, dated July 25, 1974, issued by
NADB.
9. National Emissions Data System Control Device Workbook,
U.S. Environmental Protection Agency, Office of Air
Programs. OAP Publication No. APTD-1570. Research
Triangle Park, North Carolina. July 1973.
10. Comprehensive Data Handling System (CDHS), Emissions
Inventory Subsystem Users Guide. U.S. Environmental
Protection Agency, Office of Air Programs. OAP
Publication No. APTD-1550. Research Triangle Park,
North Carolina. July 1973.
3-31
-------�
11. Comprehensive Data Handling System (CDHS) Emissions
Inventory Subsystem Program Documentation. U.S.
Environmental Protection Agency, Office of Air
Programs. OAP Publication APTD-1551. Research
Triangle Park, North Carolina. July 1973.
12. SAROAD Parameter Coding Manual. U.S. Environmental
Protection Agency, Office of Air Programs. OAP
Publication No. APTD-0633. Research Triangle Park,
North Carolina. July 1971.
3-32
-------�
APPENDIX A
SAROAD CODING CHANGES FOR NEDS PURPOSES,
A-l
-------�
APPENDIX A
SAROAD CODING CHANGES FOR NEDS PURPOSES
For NEDS purposes, county code numbers in this Appendix
should be entered in lieu of the Regional Planning District
codes in the SAROAD Coding Manual. The states involved are
Connecticut, Maine, and Massachusetts. Note that the city
code in the SAROAD Coding Manual does not change. For
Connecticut and Maine, enter the following codes as the
county code number:
CONNECTICUT
County Code No.
Fairfield
Hartford
Litchfield
Middlesex
New Haven
New London
Tolland
Windham
0265
0425
0478
0565
0705
0725
1155
1505
MAINE
County
Androscoggin
Aroostook
Cumberland
Franklin
Hancock
Kennebec
Knox
Lincoln
Oxford
Penobscot
Piscataquis
Sagadahoc
Somerset
Waldo
Washington
York
Code No,
0027
0045
0277
0445
0495
0547
0595
0645
0885
0907
0935
1065
1125
1183
1205
1325
A-2
-------�
For Massachusetts, the entry in the county code field is
determined by the AQCR. That is, each AQCR has a correspond-
ing county code, as follows:
AQCR name
MASSACHUSETTS
AQCR
number
Berkshire 117
Central Massachusetts 118
Merrimack Valley - 121
Southern New Hampshire
Metropolitan Boston 119
Hartford-New Haven- 042
Springfield (Pioneer)
Metropolitan Providence 120
(Southeast)
Number entered
as county code
0187
0369
1274
1291
1798
2121
A-3
-------�
APPENDIX B
STANDARD ABBREVIATIONS FOR USE IN COMMENTS
B-l
-------�
APPENDIX B
STANDARD ABBREVIATIONS FOR USE IN COMMENTS
Under all circumstances, endeavor to make intelligible
entries in the comments section of card 6. Use of the
following list of suggested abbreviations will aid in
providing uniform input to the NEDS system.
Word
And
Average
Boiler
Company
Cyclone
Divide
Each
Electrostatic
Precipitator
Emissions
Emission Factor
Fabric Filter
(or baghouse)
Gallons per
minute
Hydrogen sulfide
Include
Information
Liquefied
Petroleum Gas
Million
Miscellaneous
Abbreviation
+ or &
AVG
BLR
CO.
CYCL.
DIV .
EA
ESP
EMISS
EF
BAG HSE.
GPM
H2S
INCL
INFO
LPG
MM
MISC
Word
Natural Gas
Number
Point
Sulfides
Thousand
Ton
Tons per hour
Tons per year
Wet Scrubbers
Abbreviation
NG or NAT.G.
NO. or #
PT
RS
M
T
TPH
TPY
SCRUB.
B-2
-------�
APPENDIX C
TABLE FOR USE WHEN ASSIGNING
PLANT IDENTIFICATION NUMBERS
C-l
-------�
STATE:
STATE NO.
COUNTY NO;
AQCR NO . :
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
,2
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57'
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
COUNTY NAME:
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
• 157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
C-2
-------�
APPENDIX D
TEMPLATES OF NEDS POINT SOURCE
CODING FORMS FOR USE WITH
IBM FORTRAN CODING FORMS
D-l
-------�
TEMPLATE FOR CARD 1
o
I
to
SUM Cxntl
I IJI I I I
«QC»
I
i
i
Pint II
•••kir
I
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II die.
SIC
-
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DTK COOBOIH«IC1
"*"k"" I V"ki"
t
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TEMPLATE FOR CARD 2
mc« OUTI
•«i,k|(tl) DlB (ll>| T«»»(°F) |FI<«l>t<(llVBi«)
^1 1
-
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5
t
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- *• 'TTi
iipiii
xNOTE: This is an
/ identifier for purposes
S of change action only i
Mill «itk .c. , .
in iillttk |S| |c4|
T
1
I
I
1 n '
TEMPLATE FOR CARD 3
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h
^
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1C
1 «
T
1
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I'l'l '1
-------�
TEMPLATE FOR CARD 4
IfTIIMTMl
TEMPLATE FOR CARD 5
D
I
U)
ISIilij C...1J
Men
'
'
Plllt It
Pliiindl
10 1 Itc.l Ptrliolili
.Shi
•1
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1
20
21
22
11
24
so, | no,
25
34
a?
2a
n
10
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1
13
34
U
36
37
31
»c
39
40
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n
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34
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»7
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1
70
71
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I'M'L
TEMPLATE FOR CARO 6
Fxl rrxm % » • Sal
rtj.l II f.i.lfr. X
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-------�
TECHNICAL H1EPORT DATA
(Please read Instructions on Ike reverse before completing)
1. REPORT NO.
EPA-450/3-75-057
2.
4. TITLE AND SUBTITLE
National Air Data Branch Emission Data Systems
Training Manual
3. RECIPIENT'S ACCESSIOONO.
5. REPORT DATE
August 1974
6. PERFORMING ORGANIZATION CODE
7.AUTHOR1S)
John M. Zoller and Donald J. Henz
8. PERFORMING ORGANIZATION REPORT NO
9. PERFORMING ORG 1NIZATION NAME AND ADDRESS
PEDCo-Environmental Specialists
Suite 13, Atkinson Square
Cincinnati, Ohio 45246
10. PROGRAM ELEMENT NO.
11. CONTRACT/GRANT NO.
Contract No. 68-02-1375
Task Order No. 14
12. SPONSORING AGENCY NAME AND ADDRESS
U.S. Environmental Protection Agency
Research Triangle Park, North Carolina 27711
13. TYPE OF REPORT AND PERIOD COVERED
Final
14. SPONSORING AGENCY CODE
15. SUPPLEMENTARY NOTES
16. ABSTRACT • . ' .
The report gives instruction in National Air Data Branch (NADB)
computerized emission data systems. Emphasis was placed on National
Emission Data System (NEDS) point source data coding, updating.
procedures, and error messages produced by the edit/check program.
In addition, NEDS area source data development and coding was
covered. The various NEDS output formats were discussed along
with the retrieval options available for each format. An introductory
explanation was given for the Emissions Inventory Subsystem (EIS)
of the Comprehensive Data Handling System (CDHS). This was followed
by instructions in coding point source data on EIS forms.
7.
KEY WORDS AND DOCUMENT ANALYSIS
DESCRIPTORS
Data Retrieval
Manuals
Inventories
Air Pollution
b.IDENTIFIERS/OPEN ENDED TERMS
NABD
NEDS
c. COSATI I7icld/Group
13B
B, DISTRIBUTION STATEMENT
19. SECURITY CLAS$ (This Report)
Unclassified
Unlimited
21. NO. OF PAGES
146
20. SECURITY CLASS (Thispage)
Unclassified
22. PRICE
EPA Form 2220-1 (9-73)
-------� |