FINAL REPORT
Emission Inventory
for the
State of Nebraska
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FINAL REPORT
Emission Inventory
for the
State of Nebraska
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FINAL REPORT
Emission Inventory
for the
State of Nebraska
Prepared by
The IBM Corporation
Federal Systems Division
Gaithersburg, Maryland 20760
Prepared for:
The Environmental Protection Agency
Air Pollution Control Office
Durham, North Carolina 27701
Authorization:
Task Order Number 1
BOA 68-02-0043
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FOREWORD
The following report represents the results of
the work performed under BOA 68-02-0043, Task Order
Number 1 from The Environmental Protection Agency, Air
Pollution Control Office. A note of thanks is due to
Mr. E. J. Lillis and D. Dunbar of the EPA Project Office
and Mr. Peter Culver, the EPA Project Engineer for their
assistance and excellent cooperation during the study. A
note of special thanks is due to Mr. Gene Robinson of the
Nebraska Division of Air Pollution Control without whose
efforts successful completion of this task would not have
been possible.
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TABLE OF CONTENTS
Paqe
Section 1 Area Description 1
2 Task Description 3
3 Methodology 5
I. Fuel Combustion Sources
A. Coal 12
1) Assumptions 12
2) References & Data :
Sources 12
3) Apportioning Techniques 13
B. Residual Oil 14
1) Assumptions 14
2) References & Data
Sources 15
3) Apportioning Techniques 15
C. Distillate Oil 16
1) Assumptions 16
2) References & Data 17
3) Apportioning Techniques 17
D. Natural,,Gas 19
1) Assumptions 19
2) References & Data 20
Sources
3) Apportioning Techniques 20
II. Evaporative Sources 24
A. Gasoline Marketing
1) Assumptions 24
2) References & Data 24
Sources
3) Apportioning Techniques 24
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TABLE, OF CONTENTS
Page
B. Dry Cleaning
1) Assumptions 25
2) References & Data Sources 25
3) Apportioning Techniques 26
III. Mobile Sources 27
A. Automobile Sources 27
1) Assumptions 27
2) References & Data Sources 27
3) Apportioning Techniques 27
B. Diesel Road Vehicles 30
1) Assumptions 30
2) References & Data Sources 31
3) Apportioning Techniques 31
C. Railroad 31
1) Assumptions 31
2) References & Data Sources 31
3) Apportioning Techniques 31
D. Vessels 33
1) Assumptions 33
2) References & Data Sources 33
3) Apportioning Techniques 33
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TABLE OF CONTENTS
Page
E. Aircraft 34
1) Assumptions 34
2) References & Data Sources 35
3) Apportioning Techniques 35
IV. Open Burning 36
A. Domestic Wastes 36
1) Assumptions 36
2) References & Data Sources 36
3) Apportioning Techniques 36
B. Field & Agricultural Burning 37
1) Assumptions 37
2) References & Data Sources 37
3) Apportioning Techniques 37
Section 4
Section 5
Area Gridding
Nebraska Emission Inventory Data
39
42
Appendix A
B
C
Point Source Data Form 64
Area Source Data Form 64
Point Source Questionnaire and Cover Letter 67
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FIGURES
Page
Figure 1 State of Nebraska Air Quality Control 2
Regions
2 Large Point Sources, Omaha Area 8
3 Large Point Sources, Lincoln Area 10
4 Lancaster County Grid 40
5 Omaha Grid 41
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EMISSION INVENTORY
FOR THE
STATE OF NEBRASKA
Section 1 - Area Description
The State of Nebraska is divided into four Intrastate
and Interstate air quality control regions as shown in Figure 1.
These are':
a) The Nebraska portion of the Omaha-Council Bluffs
Interstate Air Quality Control Region, consisting
of Douglas and Sarpy counties in Nebraska.
b) The Nebraska portion of the Metropolitan Sioux
City Interstate Air Quality Control Region con-
sisting of Dakota County in Nebraska.
c) The Lincoln, Beatrice-Fairbury Intrastate Air
Quality Control Region consisting of Lancaster,
Gage, Jefferson and Thayer Counties, and
d) The Nebraska Intrastate Air Quality Control Region,
consisting of all remaining counties within the
State of Nebraska not designated as part of any
other air quality control region.
The topography of the state consists of a gentle slope
from the high area in the No'rthwest toward southeast of approxi-
materly 10 feet per mile with some hilly regions along the northern
and eastern borders. The highest point in the state is located in
Kimball County (5,424 feet) and the lowest point in Richardson
County (840 feet).
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Figur
STATE OF NEBRASKA
Air Quality Control Regions
Metropolitan Sioux City Interstate
AQCR (Iowa-Neb.-So. Dak.)
Omaha-Council Bluffs
Interstate AQCR (Iowa-
Nebraska)
Nebraska Intrastate Air Quality Control
Region (Remaining Area)
Lincoln-Beatrice-Fairbury Intrastate
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Climatological parameters undergo a slow transition from
the eastern portion of the state to the western portion. The mean
annual precipitation in the east is approximately 27.5 inches and
reduces to about 12.6 inches in the west. The concentration of this
precipitation during the months of April through August accounts
for the excellent growing conditions found in the state. The
temperatures vary widely during the year with a January mean of
approximately 22.2° F. in the east and 24.1° in the west and a July
mean of 77.0°F in the east and 73.8° F in the west.
The state population based on the 1970 census was 1,483,493
over an area of 76,612 square miles for an average population density
of 19.4 persons per square mile.
Section 2 - Task Description
The purpose of this task was to assist the Nebraska
Division of Air Pollution Control in the development of an emission
inventory of suspended particulates, sulfur dioxide, hydrocarbons,
carbon monoxide and nitrogen oxides, which would meet the requirements
of the National Ambient Air Quality Standards as published in the
Federal Register, Volume 36, Number 67, dated April 7, 1971. The
effort consisted of the following:
a) Assist the state in preparation and distribution of
questionnaires to potential polluters.
b) Calculate estimated emissions of individual sources
from data provided in the returned questionnaires.
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c) Notify the state of data deficiencies and identify
the additional data required.
d) Notify the state of additional significant sources
of pollution which should be surveyed but have not
previously been contacted.
e) Evaluate area source emissions using best current
techniques.
f) Grid Douglas and Sarpy counties in the Omaha area
and Lancaster County in the Lincoln area in UTM
coordinates using 2-1/2, 5 and 10 km square grids,
and evaluate the area source emissions from these
grids.
g) Evaluate the pollutant emissions from the remainder
of the state on a county-by-county basis with the
counties grouped by Air Quality Control Regions.
h) Calculate the allowable emissions for each identified
point source based on maximum control technology.
Note that the State of Nebraska has modified its
regulations to coincide with maximum control technology
as identified in the Federal Register previously
referenced.
i) Format the resultant pollution data in accordance
with the Federal Register requirements and provide
these data as part of the Task Order Final Report.
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Section 3 - Methodology
Point Sources;
Point source questionnaires were sent to all potential
polluters with over 25 employees or which meet the requirements
of Appendix C to the Federal Register, Volume 36, Number 67, dated
April 7, 1971. A copy of the cover letter and primary questionnaire
are presented in Appendix C. On receipt, these questionnaires were
reviewed by the State of Nebraska Division of Air Pollution Control
for completeness. Those sources with emissions of at least five (5)
tons per year were forwarded to IBM, where the questionnaires were
analyzed and data forms prepared. Computer cards prepared from
these forms were processed using a government-developed program
which calculated the emissions from combustion sources. Emissions
from process sources were hand calculated and provided as a direct
entry into the computer system. A copy of the point source data
form is provided in Appendix A.
Recontact of non-responding sources was limited to those
sources contained in an IBM-prepared priority listing. This listing
contained the following:
a) All sources with 500 or more employees.
b) All sources with 25 to 499 employees with the following
SIC codes:
2041 -Flour and other Grain Mill Products
2042 -Prepared Feeds for Animals and Fowl
2092 -Soybean Oil Mills
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28XX - Chemicals and Allied Products
29XX - Petroleum Refining and Related Industries
30XX - Rubber and Misc. Plastic Products
32XX - Stone, Clay, Concrete and Glass Products
33XX - Primary Metal Industries.
c) All hospitals with 100 or more beds.
d) All colleges and Universities with an enrollment of
500 or more students.
e) All federal facilities with a floor area of 100,000
square feet or more.
Gasoline storage facilities were added to the priority list
when it was realized that these facilities were not included among
the manufacturing sources contained in the Nebraska Directory of
Manufacturers. A special questionnaire was prepared for submission
by these sources.
The following sources of data were used in developing
the mailing and priority lists.
a) "Directory of Nebraska Manufacturers and Their
Products, 1970 - 71," Published by the Nebraska
Department of Economic Development.
b) "Nebraska Blue Book, Directory of Colleges and
Universities."
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c) Nebraska Department of Health, Division of Hospitals.
d) Computer listing - "Facilities owned by the Federal
Government," Federal Facilities Branch, Air Pollution
Control Office.
e) Nebraska Dept. of Revenue, Gasoline Tax Division.
When hand calculated emissions were required, the emission
factors presented in "Air Pollution Emission Factors, Preliminary
Document," by M. J. McGraw and R. L. Duprey, dated April 1971, were
used. In cases where certain air pollution control equipment
appeared as a standard part of a process (e.g. the cyclone in
Alfalfa Dehydrating), these control devices were not identified as
such in the control device section of the point source data form.
It was assumed that the presence of these control devices was
accounted for in the emission factors. Maps showing the location
of the largest point sources in the Omaha and Lincoln areas are
presented in Figures 2 and 3.
Area Sources
Area sources were generally treated in accordance with the
procedures as specified in "Air Pollutant Emission Inventory
Techniques," by P. J. Bierbaum and M. J. Gedgaudas. A description
of the methodology, assumptions and data sources used is presented
in the following paragraphs. A copy of the Area Source data form
is included at the end of this report as Appendix B.
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I
00
I
Large Point Sources
Douglas-Sarpy Counties
^ - Industrial Source
O - Commercial/Government
Source
fc - Steam Electric Power
Source
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Index to Figure 2
Large Point Sources Omaha Grid
1. Western Electric
2. American Smelting & Refining Co.
3. Coca Cola Foods
4. Gould-Base Metals Div.
5 . Nashua Corp.
6. Con-Agra Nixon
7. Allied Chemical - Agric. Div.
8. Nebraska Electric Power
9. Omsteel Industries, Inc.
10. Ralston-Purina Co.
11. Quaker Oats Company
12. Nashua Paramount Paper
13. Lozier Corp.
14. Cargell, Inc.-Nutrena
15. Federal Chemical
16. Mobil Oil Co.
17. Allied Mills
18. Omaha Public Power
19. Lueder Construction Co.
20. Wilson Certified Foods
21. University of Nebraska Medical Center
22. Omaha Public Power
23. Omaha Public Power
2 4. Con Agra - Omaha
25. Wilson Brothers Pipeline
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Figure 3 Large Point Sources
Lancaster County
77,
- Industrial
- Steam Electric
- Commercial/
Government
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Index to Figure 3
Large Point Sources Lincoln Area
1. Ralston Purina
2. Goodyear Tire & Rubber
3. Gooch Milling & Elevator
4. Texaco, Inc.
5. Nebraska Public Power - Lincoln
6. Burlington Northern, Inc.
7. Cus'hman Motors
8. Continental Oil
9. Northwestern Metal
10. Lincoln Regional Center
11. Nebraska Public Power - Hallem
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I. FUEL COMBUSTION SOURCES \
A. Coal
1) Assumptions:
a) All coal use in Nebraska is industrial.
b) Nebraska industrial coal use is related to
Kansas use in the same proportion in 1970 as in
1962.
c) The 1970 county manufacturing employment can
be obtained through linear extrapolation of
the available 1963 and 1967 data.
2) References and Data Sources:
a) Total 1970 Kansas and Nebraska coal: Bureau
of Mines, "Bituminous Coal and Lignite
Distribution."
b) Manufacturing Employment:
Census Bureau, "1967 Census of Manufacturers."
c) 1962 Kansas-Nebraska coal data:
Census Bureau, "1963 Census of Manufacturers,
Fuels and Electrical Energy Consumed."
d) "Generalized Land Use Map," Omaha City
Planning Board.
e) Land use map developed from data supplied
by the Lincoln Planning Department.
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3) Apportioning Techniques
a) To counties
Industrial Coal
The total state industrial coal was apportioned
to the counties in proportion to the number of manufacturing
employees per county, linearly extrapolated to 1970 from
1963 and 1967 data.
County coal = state coal *. county manu. empl.
state manu. empl.
State coal = 1970 KNC 1962 NC - Pt. Source coal
1962 NC + 1962 KC
Where:
1970 KNC = 1970 Kansas Nebraska Industrial Coal
1962 NC = 1962 Nebraska Industrial Coal
1962 KC = 1962 Kansas Industrial Coal
There were two additional cases which had to be considered:
i) Counties which had manufacturing employment, but for
which data was not made available, and
ii) Counties with no manufacturing employment.
For the first case the remaining manufacturing employment
after subtracting the sum of the county extrapolated data from the
state extrapolated data was evenly distributed among these counties,
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This remainder was small in comparison to the total state manu-
facturing employment and should, therefore, have little impact on
the inventory results. Any county not listed in the 1967 census
of manufacturers was considered as having zero manufacturing em-
ployment.
b) To Grids
Industrial Coal
The county or air quality control region total coal
was apportioned to the grids in proportion to the industrial
area in the grid.
Grid industrial area
Grid Coal = County Coal * County Industrial area
B. Residual Oil
1) Assumptions
a) All residual oil use is commercial and
industrial.
b) Commercial residual oil for heating is equal
to the sum of the National Oil Fuel Institute categories
of Heating and Military.
c) Industrial residual oil is equal to the sum
of the National Oil Fuel Institute categories of
Industrial and Utilities.
d) National Fuel Oil Institute residual oil
category - "Other" - is considered as input for
processes such as asphalt paving.
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e) 1970 manufacturing employment can be ob-
tained through linear extrapolation of the available
1963 and 1967 data.
f) 1970 retail establishment and wholesale es-
tablishment data can be obtained through linear
extrapolation of the available 1963 and 1967 census
data.
g) 1969 Fuel Oil data is acceptable for use in
this study.
2) References and Data Sources:
a) 1969 oil use in Nebraska:
The National Oil Fuel Institute, Inc., New
York, N. Y.
b) Manufacturing Employment:
Census Bureau, "1967 Census of Manufacturers."
c) Wholesale Establishment Data:
Census Bureau: "1967 Census of Business,
Wholesale Trade."
d) Retail Establishment Data:
Census Bureau: "1967 Census of Business,
Retail Trade."
e) Land-use Maps of the Lincoln and Omaha areas.
3) Apportioning Techniques
a) To Counties
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Industrial Residual Oil
Industrial Residual oil remaining after sub-
tractions of the point source use is apportioned to
counties in the same manner as state coal.
Commercial Government Residual Oil
Commercial-Government residual oil is apportioned
to the grids in proportion to the commercial-government
area within the grid.
C-G Grid Residual Oil = County Residual Oil X
Grid C-G area
County C-G area
C. Distillate Oil
1) Assumptions
a) 1960 census of housing data is reasonable to
use for determination of the number of housing units
using oil for heating within each county.
b) The housing units using oil for space heating
in the gridded areas is directly proportional to the
total number of housing units in a grid.
c) Residential, commercial, government distillate
oil is equal to the sum of the National Oil Fuel institute
Distillate oil and Kerosene categories of Heating,
Military and 50% [Other less state diesel].
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e) Same as assumptions e, f and g for residual
fuel oil.
2) References and Data Sources:
a) All references as itemized for residual oil.
b) "1970 Census of Housing, Advanced Report," Census
Bureau.
c) "1960 Census of Housing, Occupancy characteristics,
Heating Equipment and Type of Fuel for Counties,"
Census Bureau.
d) "1970 Census of Population and Housing, Advanced
report for the Standard Metropolitan Statistical
Areas of Omaha and Lincoln," Census Bureau.
e) "Climatological Data for Nebraska," Environmental
Data Service, NOAA.
3) Apportioning Techniques
a) To Counties
Industrial Distillate Oil:
The remaining industrial distillate oil after
subtraction of point source use is apportioned to the counties
in proportion to the 1970 manufacturing employment in the
counties.
Residential pistillate Oil;
The residential distillate oil use is determined
as follows:
State Residential Distillate Oil = State dwelling
units using oil x 0.18 gal/d.u./deg day
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Rms/d.u.
X degree days x 5.0
where: state dwelling units (d.u.) using oil = 97456
Degree days = 6514
Use factors =0.18 gal/
du/deg day
Rooms per d.u. =5.1
State residential fuel oil use = 116,554,000 gallons.
Commercial Government Distillate Oil:
The Commercial Government distillate oil is apportioned
in the same manner as the commercial government residual
oil, i.e. in proportion to the sum of the wholesale and
retail establishments in the county. The total available
commercial government distillate oil is equal to the total
CGR distillate oil less the state residential distillate oil and
CG point source distillate oil.
b) To grids
The industrial and commercial-government distillate
oil is apportioned to the gridded areas in the same manner
as the industrial and commercial-government residual oil.
The residential distillate oil is apportioned to the
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units in the area as follows:
Grid Residential Distillate Oil = County residential
distillate oil X
Housing units grid
Housing units county
D. Natural Gas
1) Assumptions:
a) The number of housing units using natural
gas was taken directly from the 1960 census of housing
data except that in Douglas, Sarpy and Lancaster
counties the increase in housing units between 1960
and 1970 are assumed to all use natural gas.
b) L.P. gas used in Nebraska was converted to
equivalent natural gas using a factor of one gallon
L.P. gas as equal to 350 cubic feet of natural gas.
This factor was determined from the emission factors for
natural and LP gas and use of the factor will equalize
the resultant emissions. The number of housing units
using natural gas was therefore increased by the number
of housing units using LP gas. The designation natural
gas used herein means natural gas plus LP gas.
c) The breakout of gas useage among residential,
commercial-government, and industrial sources is
proportionally the same for 1970 as for 1969 for all
counties outside of the Omaha area. For Douglas and
Sarpy counties data on the amount of fuel used by
user class for 1970 was directly available from the
utilities.
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d) 1969 LP Gas amounts are used to represent
\
1970 data.
2) References and Data Sources:
a) 1970 Natural Gas use data was obtained directly
from the utilities.
b) 1969 Natural Gas use data was obtained from
"Gas Facts 1970."
c) All Census Bureau documents required for distillate
oil data are also required for natural gas.
d) "1969 LP Gas Market Facts" published by the LP
Gas Association, Chicago, Illinois.
3) Apportioning Techniques:
a) To counties:
The total state natural gas useage was divided
into the categories of Residential, Commercial and Industrial
in the same proportions as the total state 1969 natural
gas useage. The category "Other" was grouped with commercial
for this purpose.
The use of natural gas in the Omaha area (Douglas
and Sarpy Counties) was subtracted by category to obtain
the natural gas amounts to be apportioned to the counties.
Residential Natural Gas
Residential natural gas was apportioned to the counties
in proportion to the number of housing units in the county
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using natural gas in accordance with the 1960 census
except for Lancaster, Douglas and Sarpy counties, where
the increase in housing between 1960 and 1970 was con-
sidered to represent added natural gas useage.
Residential Natural gas county =
Residential Natural gas State X
d.u.'s using N.G. County
d.u.'s using N.G. State ,
where State means all counties less Douglas and
Sarpy counties.
Residential N.G. Douglas County =
Res. Nat. Gas [Douglas + Sarpy Co.s] X
d.u.'s using N.G. Douglas
d.u.'s using N.G. [Douglas -h Sarpy]
Residential N.G. Sarpy Co.= Res. Nat. Gas
[Douglas + Sarpy Go's] - Res, Nat. gas Douglas Co.
Commercial-Government Natural Gas
Commercial-Government (CG) Natural gas was apportioned
to the counties after subtraction of the identified
commercial-government point source natural gas useage in
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proportion to the sum of the wholesale and retail
establishments in the county
County CG Natural GAS = State CG Nat. Gas X
wholesale & retail county
wholesale & retail state
where state means all of Nebraska except Douglas and
Sarpy Co.s.
Douglas and Sarpy CG Natural Gas was apportioned in
the same manner as above.
Industrial Natural Gas
Industrial natural gas was apportioned to the counties
after subtraction of the identified industrial point source
natural gas useage in proportion to the manufacturing em-
ployment in the county in the same manner as done for
industrial residual oil. Again the Douglas-Sarpy County
area was separated from the rest of the state and treated
independently since data was directly available on the
1970 natural gas useage in these counties.
b) To Grids
County or ACQR Residential Natural Gas was
apportioned to the gridded areas in proportion to the number
of dwelling units in the grid in the same manner as the
residential distillate oil was apportioned to the gridded
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County or ACQR commercial-government natural gas
was apportioned to the gridded areas in proportion to the
Commercial-Government area within a grid in the same manner
as the Commercial-Government residual oil was apportioned
to the gridded areas. County or ACQR Industrial Natural
gas was apportioned to the gridded areas in proportion to
the manufacturing area in the grid in the same manner as
industrial coal was apportioned to the gridded areas.
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II. EVAPORATIVE SOURCES
A. Gasoline Marketing
1) Assumptions
a) There are approximately equal numbers of
splash and submerged fill gasoline storage tanks used
in the gasoline service stations in Nebraska.
b) Gasoline marketing evaporative losses in an
area are proportional to the automobile useage or the
automobile ownership within that area.
2) References and Data Sources
a) Total gasoline used within the state from
the Nebraska State Government.
b) "State of Nebraska Annual Motor Vehicle Report
1970," as published by the Nebraska State Government.
c) Traffic count data for the Omaha and Lincoln
Areas as supplied by the Nebraska Department of Roads.
3) Apportioning Techniques
a) To counties
The total gasoline sold in the State of
Nebraska was apportioned to the counties in proportion
to the number of motor vehicles registered in that county,
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County Gasoline Sales = State Gasoline Sales X
County Vehicle Registrations
State Vehicle Registrations
b) To Grids
The total gasoline sold in a county or ACQR deter-
mined from step A3 was apportioned to the gridded areas
in proportion to the yearly vehicle miles driven in
that area. The procedures for obtaining these vehicle
miles are discussed under mobile automobile sources.
B. Dry Cleaning
1) Assumptions
a) The amount of dry cleaning evaporative losses
is directly proportional to the amount of clothes
cleaned, which is proportional to the population in
an area.
b) The factor of 25 pounds per capital per year for
dry cleaning is appropriate for use in Nebraska.
2) References and Data Sources
a) "1970 Census of Population, Advanced Report,"
Census Bureau.
b) "1970 Census of Population and Housing, Advanced
Report for the Standard Metropolitan Statistical
Areas of Omaha and Lincoln," Census Bureau.
i
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3) Apportioning Techniques
a) To Counties
The total amount of dry cleaning fluid evaporation
was determined by using the factors of 2.7 pounds per
capital per year given on page 36 of "Air Pollution Emission
Factors, Preliminary Document," by M. J. McGraw and
R. L. Duprey. This total evaporative loss was apportioned
to the counties in proportion to the population of the
county.
County Dry Cleaning Evaporative Loss = State
Evaporative Loss X County Pop.
State Pop.
b) To Grids
Dry cleaning evaporative losses from the counties
or ACQR's were apportioned to the gridded areas in proportion
to the population of the grid.
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III. MOBILE SOURCES
A) Automobile Emissions
1) Assumptions
a) Automotive emissions are proportional to the
gasoline used, which is proportional to the vehicle miles
driven within an area or the number of motor vehicles
registered within an area.
b) On the average an automobile travels 12.5
miles per gallon of gasoline consumed.
c) 45 mph and 25 mph traffic is proportional to
the rural and urban county populations respectively.
2) References and Data Sources
a) 1970 gasoline sales as provided by the
Nebraska State Government.
b) State of Nebraska Annual Motor Vehicle Report.
c) Traffic count data for Lincoln and Omaha as
supplied by the Nebraska Department of Roads.
d) "1970 Census of Population, Advanced Report,"
Census Bureau.
e) Road Maps of Lincoln and Omaha.
3) Apportioning Techniques
a) To Counties
Total vehicle miles driven within the state
was determined by multiplying the gasoline sales by an
average of 12.5 vehicle miles per gallon of gasoline. This
total vehicle miles data was apportioned to the counties
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in proportion to the number of motor vehicles registered
in the county.
County Vehicles Miles - State Vehicle Miles X
County Vehicle Registration
State Vehicle Registration
This data was then divided into 25 mph and 45 mph traffic
in proportion to the urban and rural population in the county:
County 25 mph vehicle miles = county vehicle miles X
Urban population
County population
County 45 mph vehicle miles = County Vehicle miles -
County 25 mph vehicle miles
b) To Grids
Grid yearly vehicle miles were determined from traffic
count and road length data by multiplying the average daily
traffic by the route length by 365. All traffic on inter-
state, limited access and Federal Highways outside city
limits was considered as 45 mph traffic, (call these results
Vmi ) . All other traffic was considered as 25 mph (call
25
these results VMi ) .
The county total measured vehicle miles is therefore =
VMl5 -I- T VMi5 = VM
The county or ACQR total vehicle miles as determined in 3a
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B. Diesel Road Vehicles
1) Assumptions
a) The total diesel fuel used in the state is
the sum of the Special Fuel and Interstate Fuel categories
as provided by the State of Nebraska.
b) Diesel fuel use is proportional to county
motor vehicle registration.
c) In gridded areas diesel fuel use is proportional
to the total vehicle miles calculated for automobiles.
2) References and Data Sources
References are the same as for automobile emission
calculations.
3) Apportioning Techniques
a) To counties
State diesel fuel is apportioned to the counties
in proportion to the county vehicle registration in the
county in the same manner as state automobile vehicle miles
was apportioned to the counties.
b) To grids
County or ACQR diesel fuel determined in B3a was
apportioned to the gridded areas in proportion to the total
vehicle miles determined for the grid in the automotive
emission calculations:
Grid Area Diesel Fuel = County Diesel Fuel X
Grid Vehicle miles
County Vehicle Miles
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will be greater than > VM.
It is assumed that the resulting difference is all 25 mph
. 25
traffic ( ^_ VMe ). This resulting 25 mph vehicle mile county
total was apportioned to the grids in proportion to the total
45 25
measured Grid vehicle miles (VMi + VMi ).
^ c o c
Grid Total 25 mph Vehicle Miles = VMi + ^ VMe X
VMi5 + VMi5
VM
45
Grid Total 45 mph vehicle miles = VMi .
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C. Railroad
1) Assumptions
a) Railroad distillate oil use is proportional
to the track mileage within an area.
b) For county apportioning all routes are con-
sidered as having two tracks except routes which dead
end, which are considered as having a single track.
c) Railroad residual oil is used for yard heating.
2) References and Data Sources
a) Railroad distillate and residual oil use for
1969 from the National Oil Fuel Institute,
Inc., New York, N. Y.
b) Nebraska railroad mileage data from a
Nebraska State Map published by the Nebraska
State Railway Commission, Lincoln, Nebraska.
c) Detailed track data from Coast and Geodetic
Survey Quadrangle maps of Lancaster, Douglas,
and Sarpy counties.
3) Apportioning Techniques
a) To counties
Railroad Distillate Oil
Railroad distillate oil use was apportioned
to the counties in proportion to the active track
mileage in that county. All routes were considered to
have two tracks, with the exception of dead end routes,
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which were assumed to be single track.
County Railroad distillate oil = State Railroad Distillate
Oil X County track length
State track length.
Railroad Residual Oil
Railroad residual oil was assumed to be used for heating
of the yard areas. This oil was apportioned to the counties
in the following proportions:
Omaha (Douglas Co.) = 5,
Lincoln (Lancaster Co.) = 2 and
Freemont (Dodge Co.), Scotts Bluff (Scotts Bluff Co.)
Grand Island (Hall Co.), Blane (Adams Co.) and
Beatrice (Gage Co.) each = 1
All other counties = 0
County Railroad Residual Oil = State Railroad Residual Oil X
County Proportion
12
b) To Grids
Railroad Distillate Oil
County or ACQR railroad distillate oil use was appor-
tioned to the grids in proportion to the railroad track
length in the grid. Grid Railroad Distillate = County
Railroad Distillate x Track Length Grid
Track Length County
-------�
Railroad Residual
County or ACQR railroad residual oil use was appor-
tioned to the grid areas in proportion to the railroad
yard area in the grid.
Grid Railroad Residual Oil = County Railroad Residual
Oil x R.R. Yard area grid
R. R. Yard area Co.
D. Vessels
1) Assumptions
Vessel fuel use is proportional to the Missouri
River length. River traffic is fairly constant with location
along the Missouri River.
2) References and Data Sources
a) Vessel distillate oil use from the National
Oil Fuel Institute, New York, N. Y.
b) Missouri River length from maps obtained at
the Coast and Geodetic Survey.
3) Apportioning Techniques
a) To Counties
Vessel distillate oil was apportioned to the
counties in proportion to the length of the Missouri
River bordering the county.
County Vessel Distillate Oil = State Vessel Distillate Oil X
County River Length
State River Length
-------�
b) To Grids
County or ACQR vessel distillate oil was apportioned to
the grid areas in proportion to the Missouri River length
along the grid.
Grid Vessel Distillate Oil = County Vessel Distillate
Oil X River length Grid
River length county
E. Aircraft
1) Assumptions
The following assumptions made to account for the
total number of flights from Omaha's Eppley Field were
applied, in proportion, to the other major airports in the
state (without the military traffic) which provided data
on total yearly flights.
a) Use airline guide data as provided.
b) Of the additional total of approximately 100,000
flights, assume:
500 charter two engine fanjets
500 charter two engine turboprops
500 commercial two engine fanjets
500 commercial two engine turboprops
2200 single engine military jets
Remainder 85% single engine piston
15% twin engine piston
-------�
c) The following airports were considered
similar to the North Platte Airport and
therefore emissions calculated using data pro-
vided by North Platte were applied: Chadron,
Columbus, Hastings, Kearney, McCook, Norfolk
and Sidney.
d) The Scotts Bluff airport activity was con-
sidered similar in nature to Grand Island.
The Grand Island computed emissions were
therefore applied to Scotts Bluff.
2) References and data sources
a) Airline Guide
b) Airport Questionnaires
3) Apportioning Techniques
Pollutants for airports providing sufficient infor-
mation in the returned questionnaires were hand calculated,
-------�
IV. OPEN BURNING
A. Domestic Wastes
1) Assumptions
a) Domestic generated waste rate for the
Omaha area can be applied to the remainder of the state.
b) 6.25% of all generated domestic wastes are
burned in the Omaha area. This factor can be applied
to the state.
2) References and Data Sources
a) Omaha refuse amounts and burned factors from
special Omaha study, portions of which were provided
to IBM by the Nebraska Division of Air Pollution control,
b) Population data from the "Census of Population,
Advanced Report," Census Bureau.
3) Apportioning Techniques
a) To Counties
Total refuse burned in the state was determined
as follows:
Total State Refuse burned = State Population X
Generation Factor X .0625
This total was apportioned to the counties in
proportion to the population of the counties.
County refuse burned = State Refuse burned x
County Population
State Population
-------�
b) To Grids
The County or ACQR total refuse burned was appor-
tioned to the gridded areas in proportion to the
population in the gridded area.
B. Field and Agricultural Burning
1) Assumptions
The identified burning is uniformly distributed
throughout the State.
2) References and Data Sources
a) Omaha refuse study previously cited.
b) Article - Sunday World Herald, Omaha, January
31, 1971.
c) Agricultural and field burning provides approxi-
mately 684 pounds of refuse per acre. This
factor was developed using the Kansas State
University (Manhattan, Kansas) estimate of
600 pounds of refuse per acre for agricultural
burning and 900 pounds per acre for railroad
burning. The reported proportion of railroad
burning was 28 percent resulting in the weighted
factor of 684 pounds per acre.
d) Nebraska Blue Book for County Areas.
3) Apportioning Techniques
a) To Counties
The state agricultural burning was apportioned
to the counties (with the exception of Douglas and
Sarpy County) in proportion to the county land area.
The Douglas Sarpy tree burning total identified in the
-------�
Omaha report was apportioned between Douglas and
Sarpy counties in proportion to the county land area.
Note that only 2/3 of the total tree wastes identified
in the report were assumed to be burned.
County burning = Total burning X County Area
Total Area.
b) To Grid
The County or ACQR total burning was appor-
tioned to the grids in proportion to the grid area.
-------�
Section 4 - Area Gridding
Two areas in the State of Nebraska were gridded using
the UTM coordinate system. In both cases the grid sizes were
previously constrained to 10 x 10, 5-x 5 and 2.5 x 2.5 killometer
squares. These areas consisted of Lancaster County containing the
Lincoln Standard Metropolitan Statistical Area (SMSA) and Douglas
and Sarpy Counties, containing the Nebraska portion of the Omaha
SMSA. Grid densities in both cases was based upon land use and
population density data available from the local planning agencies
and the U. S. Census Bureau. Maps showing the grids established
for these areas are presented in Figures 4 and 5.
-------�
7/0
-------�
Figure 5 - OMAHA GRID
-------�
Section 5 - Nebraska Emission Inventory Data
The data resultant from the anlyses performed during this
study are presented in the following pages in two forms: pie charts
and Tables. The pie charts present a visual summary of the most
important aspects of the collected data. The tabulations provide
the detailed results.
The following fuel parameters were used in the calculation
of the emitted pollutant amounts. These fuel parameters were
determined through inspection of the fuel parameter data provided in
some of the point source questionnaires.
Fuel Parameters
Fuel
Heat Content
BTU per
Ash Content
Sulfur Content
Bituminous Coal 22.0 X 10 per ton 9.0
Residual Oil 160.0 X 10 per gal. 0
Distillate Oil 140.0 X 103 per gal. 0
Natural Gas 1000 per cu. ft. 0
3.00
2.00
0.50
0.0006
-------�
The remainder of this Section presents the analytical
data for Area and Point Sources. Data for each type source
is summarized by Pie Charts, which are supported by detailed
tabulations, according to Air Quality Control Regions. Program
listings are also provided which total Area Sources by Air
Quality Control Regions.
-------�
POLLUTANT SUMMARY
% . - -
Nebraska Portion of the
Omaha-Council Bluffs Interst. AQCR (085)
1970
POINT SOURCES
Particulates
Tons/Yr.
"Process 7%
:om/Ind.
Sulfur Dioxide
Tons/Yr.
Carbon Monoxide
Tons/Yr.
>ower Plant 5%
om/Ind. 1%
rocess 3%
om/Ind. 1%
Hydrocarbons
Tons/Yr.
-Power Plant 5%
om/Ind. 2%
Nitrogen Oxides
Tons/Yr.
rocess 8%
Com/Ind. 6%
-------�
POLLUTANT SUMMARY
Nebraska, Lincoln, Beatrice-
Fairbury Intrastate (145) AQCR
1970
POINT SOURCES
Particulates
Tons/Yr.
Power Plants 3%
Carbon Monoxide
Tons/Yr.
om/Ind. 12%
-Incin. 3%
Sulfur Dioxide
Tons/Yr.
Com/Ind. 17%
Hydrocarbons
Tons/Yr.
Nitrogen Oxides
Tons/Yr.
om/Ind. 4%
rocess 21%
om/Ind. 3%
-------�
POLLUTANT SUMMARY
Nebraska Portion of the
Sioux City Interstate AQCR (087)
1970
POINT SOURCES
Particulates
Tons/Yr.
Sulfur Dioxide
Tons/Yr,
om/Ind. 12%
Carbon Monoxide
Tons/Yr.
Hydrocarbons
Tons/Yr,
Nitrogen Oxides
Tons/Yr
-------�
POLLUTANT SUMMARY
i . ^BI^"^«^^^^^«»^"^^^^^IHB^^^^B^^^
Nebraska-Nebraska Intrastate
146 AQCR
1970
POINT SOURCES
Particulates
Tons/Yr.
Com/Ind. 2%
Pwr. Plants
1%
Carbon Monoxide
Tons/Yr.
:om/Ind. 3%
ower Plants
1%
Sulfur Dioxide
Tons/Yr.
Power
Plants
50%
Process 5%
Hydrocarbons
Tons/Yr.
Nitrogen Oxides
Tons/Yr.
Com/Ind. 7%
Pwr. Plants
1%
Process 1%
-------�
POLLUTANT SUMMARY
Nebraska - Total State
ACQR (085 + 087 + 145 + 146)
1970
POINT SOURCES
Power
Plants 7
Particulates
Tons/Yr.
;om/Ind. 3%
-Incineration
1%
Sulfur Dioxide
Tons/Yr.
:om/Ind. 5%
'rocess 3%
-Incin. 1%
Power
Plants 91%
Carbon Monoxide
Tons/Yr.
5ower Plants 5%
Som/Ind. 1%
Hydrocarbons
Tons/Yr.
>ower Plants 6%
:om/Ind. 3%
-Incin. 1%
Nitrogen Oxides
Tons/Yr.
om/Ind. 13%
Process 10%
-Incin. 1%
-------�
'4
c
i
i
.
1
1
1
*>- EMISSIONS INVENTORY . SUM MARY -~
cofr ~rne sr/iTYT o/= ..web Task*. f>orTi*fJ CT r4&. .
?/n«.ho.- Council Bluffs jMertiAir? tm-ii/ry cmTnoi. i??f,ion (ogS)
_ _ -_ '£c/,cY)-fcit.'rsx.-::;
9. TOT/,i. . -
- C' f.'t'r.t.'.' - /rLf~'~/~/!'/*A?tlffA/:V7'
/. AtjTtfPr*C/r.r CCAL
Z fi/ r^tfZIHO'JS CO'~< -
£i. Ca/S8USTlOfJ
X. Pfi3-l~Z£ {.OSRC-S
JET. Soi'i- WAST'iT L^'SfOSAi.
Jf* f-'. Vfj * C 1 PA £. . £ TC. - PSi'tJ- TSOZ. on- sirs f>s.::T SOURCE
2.0. OitMFZ - AX£A SouttCS
A. OUfi*tr*£ Pft/.- r F : if, :. _
C. /.O !/£. WASTE CISfJSAi.
'"' '-- ........ - c .
A. /. AJOT2tt' 't'cfJ/ Ct,£S G4SOZ///&
& CfF* #/Gs/v.'~ y Fi>£i US/tG£
F. izASOUHe HUCLG fKff SOSSfS
8. CTrtf-ff (Sf.?C/fYJ -
X. Miscet.t.AneotJs-AKfAMvitces
A. AS ff' CULTURAL. BvRM/HG
£?. OT/I&S? ( 's ff? 'C '< '.-' 'y)
tT, fOTAi. A-//5 C-SiL 4M£ Ccf^S
E1. CiffAl-IO TOTAL
X. />/fc/i SOcJ.fCC
0. TOTAL
<»
TOMS Of font UTA/JT / YcAf? FUEL FTC,
f/t/?r sos co HC HO, eiM't'iv
\
: !
av/.-.-; .
i
;
: 1 ', :
i I i
i ! i
II '1
< !
1 . i : i
; ' l ' i
i.g ns\ ol f y*i! ?fM
: :
31 i 382 0 H ?0i 26ffZ
1 .1
/" jiA/Ar ,
^^.//Vrj
83 3 /J"< t(6 7fl ! 1SOl\/o'ff*jfc.
'. i
I ! I '
.
j
! ' i
; . i ;
iffit yfoll 397' Ito /or377}y?J/\roHjSyr\
' . : ' .
S"' 20S- 0, .3 68- IW
2i*i 6 */: V/V yo3V 20(81
'''°&&
1 '
! ! i : !
l^^t. /6TJ 732/1 1111 lifO'
I
' ;
! ! .- ... i
SO 0' cJ 0 i /VVf
i i
1
i i 1
! !
1 : ' '
i
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'
; i
lira/ft- '
1
1
f
1 ,' ;
1
I
1
!
t
|
i
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/«?« ₯7373 7737 10/53 ITJ66 \ ' '
1 1 I
_^
-------�
1
.
1
->- E^ISS /ONS /// V£N TOR Y S 6//V Ax
CC.K TfU/'i OK -PO.HrSf^.vd'
S. J. MATURAi S,;c -/fift SGIWCC
i. MrHH.1l. C,',3 -fl.i.T Stuff l£
t. YS333- POIfjT £>OVf?CE
A O Tfff'ff ?S>>£C/fY)-/>c/t.'rs %;.:;£
9. TOT/,;. --
c. ft-.--'.,','.:- rir~Y#ic ton-fir KANT
/. A !jTrtf ''<:.'" COAL
7. TOTAL .
O. TOTAL fV£i COMBUSTION
XT. SOLII* tv^tir/r ff'SfoSAi.
l.o. OtJ S/Tf- JiP.-zj souRCfS
t>. orj £//;; - fj/t/r sfAtZf-
S. OPC/J Buf! .:/*/<} '
fif. O/J-SirS -AJVSA SOl>0C£
&. OfJ- S/r£ fS/.'.'T' $OuRC£
2. Q. OUMP£ - Af?£A SOCVfC'^
t. cTHEfffsPecifY) -ra/nr jx,:tcf
P. ~'-r^~ SOl/O WASTE C/SP3£Ai
ST. TV?" :'S "_*".< 7.- s.i'-'ffj SOt/rcf
'^.f^lOTO.f V£ftJCt£S. D/ESPi
&. CF~- #/G/W£Y filSt. USAGE
F. toA&OilHf HUCLG £MP (SSSfS
S. C7Sli-'fP (SPfC/FYj - -
H. TOTAL TKAfJSfaffT^TlOfJ
JT. MtSCFLLAHFOL/S -A/ffA SCl/#CfS
A. AGff' CULTURAL EuKfJIUS
B. OTf^^if (SP^Z-'.-Y)
C. TOTAL. /vt/SC£Li. ANSOV3
tL. QRAHD TOTAL
A. AKEA SOUffCC
A XU.'.'. .~ Soi/ffC£"
e. TOTAL
TCA/S Or POLL UTAMT / Yc
PA/? T SO 3 CO MC
\
iARY
Aff
MO,
FUEL ere.
etvM-jy
, i }
i
t j
i ' \
'
t ' i
1 >
6 ' 31 '< O < 1
\ ;
u/itrs
t
1
i
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1 '
2 6 $S*O \/0*Sto\JM
\ \
i ' '
i
3 o O i "7 ' 3Z. i 37/ lo^clll,
\
' !
i !
! '
'
; '
i ' j
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J
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i
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o
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i
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f 1 '"' !
1 '
1
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' 1
1 1
J i
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; !
i
1 ! 1
!
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i
1
It 31 6 S
S~8 1 -
i i i
-S0~
v>
-
<^
i
-------�
1
1
i
i
i
|
~»- EMISS IONS INVENTOR Y . SUM MA R
ecf THf STATS of= Nebraska , Lincoln, See.fr/ce.-
O /\ 1 1 jO f* C f^ A "*" ' £" f* ft Z^y
.- O vx \J t\ C C O fy i * O \Ji* *
I :'-\:Tii'ff.1CiTK) COJi.
y. ;.:^::^.»T£ OIL
£, ~J~&~7~Sl^ - -
ff CQMM * /V S TV (^ />W0
jr.*. o/SiiLLATK a^-^.f.-,' j::,f,'c
5. -/. tJ*TUf?Ai (SAC -/ffA SOl'A'cC
"?.*. **3O -APC/I SOURCE
Sa. a T/'Sf>oS**L
t.a. CU S/7V-- JPS* fouHCrs
2. i.'.i>tJiciP'\L. ETC. pain-suttee
B. OPC/J Bufi',-ffJ6 '
L. on- sirs f>s;;;T soufice
/>. ffU/^ff^S Pif'l- ~ fi1 3 'f' '.. _'
C.f.OTI/£.f (Sf£C/PYj - ARcASKI/iS
t. CTHEf?( SPCCIfY) -PO//17 S^'fCf
a T. X*xl // ^* QA O
e. vesset. S
F. bstSJ^Mc HUCLG fYtf ta$se$
S. citir-'f? (SP& c/fyj
H. TOTAL Ta/,fJSpaffT*7to\i
ST. MISCALL, AfJfOL/S -tiffM Ml/KSfS
A. AGffl CULTUK,\L £uf?M/HG
S. orsiES? ( spf^zs.^y)
E. GRAHP TOTAL
A. A fie A SOUffCE
C TOTAL
TCfJS Or fOii UTAUT / YcAf?
PAf?T SO3 CO t f'C MOf
. 1 I i
I
i i
\X , _r
ru£i ere.
cux;1 Y
tlH/T.-, .
!
1
' i i ' !
18 : 311' 30 T IB
(OOP Tc.^s//f
' 1 >
3 1 0i /' /3
592 lo\nlftr.
!
IS" 1o5" O i 31
i
2Z. 3J I VO IBS
gjjljftj
2 H 9ff & *fr*fc*,
i ' ' '
1 '. ' !
! : 1
'
I
1 . .!
> ; ;
, i i i
80t> 31*7 12 ' 251 H82I /ffl"}°S'-7°-'i//K
_ __ : ' '
/ i (i 0 Z 36
17 1 >' /JT& IfK
~7$wawSfc=
i
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: I
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1 !
i
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i i *"
i"- / e i i iite
i
i
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< ' |
1
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i ; i
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;
1
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1 i
:
1
,
i
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1
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t
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1 1
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-------�
EMISS/ONS INVESTOR Y SUM MA RY~
I
1
1
i
i
i
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1
SOURCE CATEGORY
/T WCM±-f\M7Mi fi'St-S/rF/l SOi'.tCC
t ,'';: Tn'/rA C' rf- j COJ1,
!. ;.:~r.i.;.»7£ on
3. ::;~j;;,\± i,V)S - -
-. t; JCZ - --
B. cay.:.', -/.vsr/ 4 MO
/. 3. to' / TUr\:;UOUS) CXI-*. W SOL .VCf
r. eetrs- f'.^tur j7;.v>>ii
4. piSTfc±iti'£ ctt'f3.-i:T swats
t.a. tft-SiauA't. Jii. ~A.ff.' sov-tef
6. fti.-GiuuS't OK -potiirsfz.tce
S.J. U*T!JF?AL tSAC -MCA SSl'MC
"?.*.. Mt S&t* -Af>£S) SiOVffCC
t. W33J- P-SI.'JT SOUKCC
So.. i> r/.V-V (Sf>£C,-~r)-*ffJSK!Kt
9. TOT/,;.
C. ,£W-'..'.l.'- Fif-ZYt? tC />J>fft K/.HT
/. A!jTHf''>CI" COAL
&. c-'.'o TtujTe on.
*t. f^iro/^tjjt OIL -
&. crx/vf (smc tr?t)
7 TOTAL - -- -~
P. TP'i'AL fyfi COMBUSTION
3. POitJT SouffC/~& - ---
LT. Soi'^* wASTtT O'SfoSAL
I.e. C/J SiTts - *tfi£*i SOVftfK
A. O/J S/Tf;- PJ/t/T Sf^M:-.f'
f. MWJICIfHL. ETC. -PaiHTSOVVSf
6. OfCfJ G'JR;.'/MG '
/f. Of''- S'TS -A/TEA SOVffCE
t. otj. sire AS//; r source
2. a. OUMF'Z ' AKSA SOuRCE
C.S.O ~ll£.'P fSAr CsfYj - ARcA SKKC
2. CTHEtrfSf'frcifY) 'fO/HT Sl-.fCf
O. ~'t!-J.i. SOilO WASTE SliPOSAi
C. Ht/f vKA,~f-
e. vesset. s
F. bASOUHS HfJOLG fV/!f {OSffS
£C/FY)~
Z. M/scfa Aufous -A/ffA semces
A. AG&ICUi. 7UK,\i £t/f?A/JHS
f. TOTsii. /^f/ScSii. Afif OuS
IZ. GRAHD TOTAL
A. ARcA SOUffCC
A XW.'.v~ S04//? isz-inovi ~n,*s/yr\
i i i
: . : ! i i
Jf 228 0< t 186 i '6£ol'lo*ttl/ik\
' ' ' " 1
6 61 0 1 IS' SffJ-IOfylM
i i f / |
172 6 S H26 1067* 22SI6\K>*ftj6(i
\
\ \ '
' ; i '
! ' ' 1
> i !
!
7V7 If 2.8 18 7 333: 2BSHTc«s/yr'
2. ZO 0 0 IT l7f6'IO*A,U/r.
^ HI 0, -2. 33-7Sj:/oTLUfr.
13 I O' 11 isei stnvtMi*/*-
' i
i ' ' '1
i
loyiic\ Ha1- e. U 1 ' tjt//. yi
' 1 ' . i ' ' ' '
:
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i i .- A i
- ,'".'
i' O II ' t O> 2SO l7M*/Xr
i
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i ! ' !
1 i i
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1 : i . 1
1 1 i ;
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/£>imo 3 ISS I 3O7
-------�
SUMMARY"
Tue ST
o/=
- Toi'o.l
SOURCE CATEGORY
/f /r/V" ~'f\n7i.M rvft-jfrr/i fji'.vcf"
f. ;-.'Jr.i.t.ti7£ OIL
A. ,; j^f _.
s. o 7 urn (sf*r:-c/rr)
e-. -roT^i. -
e, ca.v,:.'. - /.vsrv f MO
j J. f. O/Stit-LArE O.'i. -ARf,'. Jti.f.'C
1 <-.'. a. ffSSio^'Ai. J/i - M£< souttff
fc-. A/^iTHft'f}^ \SS\'3 -fj. ''. /" £0 V.\'Ci
"?.*. Vt^St* -A/?C/\ SOURCE
£. -ssasy- f-a/fjT SouffCS
L>. O THf.-ff Csi*gc/fYj-fMtrSXii:
C. .S W-., '.4.'- Fircrftiffnf* K*MT
/. s,.'jTHf'' 7/^.iA T£- O't.
1 /. frT£t£,lMt O/i.
&. c rt/f-ft (sf-rtctrY)
1 7. T3TAL -
' f>. TPf/.L f^fi COMBUSTION
\ x. s.KZ-A S3'J*<:fSS -
.C". $oi'~- wAsr,~ esSfosAt.
i X. /HCWGffATlOtJ
l.o. G/J StTiZ X/f.^' sovRCG
t>. OfJ S/r/? - PJ/HT SfiSK^f-
ff. I'tU/JlCIFAL. £7C. - PotHTSOZVZe
/f. OtS-SITZ - A#EA SOvffCE
k. on- sire PH.-.-.T souace
2. a. OUMPZ - A R£A SotjRCS
6. &UMr'£ - PffJf,' ~ '* C ' Vi '.. .'_'
C.WfllS.'? (SPSCtFY) - ARcASOU.fcc
1. CTHKfffSfCCifY) -PO/HT ss^'.vcf
O. ~~£-rj.i. SOl/D WASTE ~/$f<33AL
JUT. Tf?"'.'Sf&vrjfr:?tt..ifF&/? ( $ Pf? £ '' .~ Y)
C. TOTf!!. /vf/SC&tt. AM£ Ot/S
n. OR A NO TOTAL
A. ARSA SOUffCJZ
C . TOTAL -'
TOtJS Of POLLUTANT / Yen/? fOfi ,'":'"
FAffr soj co \ no fjo, \c/..',.<.,7Y v.'.','"
.
i !
! I 1
.[I;
1 i
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iWF /T£3' /2/ W <)jy IZWI'TeM//*-
\ ' ' '. i '
: ! i
7/ U'WlTf*)//'-.
i / . :
; i * -
i i ' i i ;
i r '. ' 1 1
i 1 i ! !
;.. 1
- ! i . 1
111 ;
: . j ' ]
i ' i 1 i I
! ' i i
; , ; |
i ' j
1 1 ' - - -
1 !
i I
j <
i
!
[
i
1 ! '
. I . 1
-------�
POLLUTANT SUMMARY
NEBRASKA
Douglas/Sarpy
Region 85
AREA SOURCES
Particulates
Tons/Yr.
Residential 11%
om/Ind. 3%
pen Burning
4%
Carbon Monoxide
Tons/Yr.
Transportation
pen Burning
1%
Sulfur Dioxide
Tons/Yr.
om/Ind. 5%
Hydrocarbons
Tons/Yr.
Nitrogen Oxides
Tons/Yr.
Transportation
aste
Disposal 2%
Transportation
esidential 3%
om/Ind. 1%
Power Plants 2%
-------�
POLLUTANT SUMMARY
NEBRASKA
REGION 87
Dakota
AREA SOURCES
Particulates
Tons/Yr.
.esidential 10%
om/Ind.
15%
ower
Plants 7%
pen Burning
5%
Carbon Monoxide
Tons/Yr.
Transpor-
tation
Sulfur Dioxide
Tons/Yr.
om/Ind. 11%
ower Plants 1%
Hydrocarbons
Tons/Yr.
Nitrogen Oxides
Tons/Yr.
pen
Burning 2%
Transportation
.esidential 2%
Com/Ind. 4%
-------�
POLLUTANT SUMMARY
NEBRASKA
Region 145
(Lancaster/Gage/Thayer/Jefferson)
AREA SOURCES
Particulates
Tons/Yr.
Sulfur Dioxide
Tons/Yr.
.esidential 9%
om/Ind. 9%
Open Burning 3%
esidential
16%
om/Ind. 6%
Carbon Monoxide
Tons/Yr.
Hydrocarbons
Tons/Yr.
Transportation
pen Burning 1%
Nitrogen Oxides
Tons/Yr.
Transportation
£ower Plants
1%
Waste
Disposal 2%
Residential 2%
om/Ind. 3%
ower Plants 5%
-------�
POLLUTANT SUMMARY
NEBRASKA
Region 146
(All Others)
AREA SOURCES
Particulates
Tons/Yr.
Residential 9%
:om/Ind. 11%
Carbon Monoxide
Tons/Yr.
Com/Ind. 1%
Sulfur Dioxide
Tons/Yr.
Com/Ind. 6%
ower Plants
20%
Hydrocarbons
Tons/Yr.
Nitrogen Oxides
Tons/Yr.
fower Plants
1%
esidential 1%
Com/Ind. 3%
Power Plants 3%
-------�
POLLUTANT SUMMARY
NEBRASKA- Total State
Area Sources
Particulates
Tons/Yr.
Residential 11%
Com/Ind 9%
Power Plant
31%
Carbon Monoxide
Tons/Yr.
Transportation
100%
Sulfur Dioxide
Tons/Yr.
/Residential
16%
Com/Ind
6%
Hydrocarbons
Tons/Yr.
Nitrogen Oxides
Tons/Yr.
Transportation
100%
Residential
2%
Com/Ind
3%
Transportation
Power Plant
3%
-------�
INVEMTOftY SUMMARY-
r*f sr^rs
- T&T*<- .
j/tt ouf.e./rv <;/>, i/
CALENDAR VEA#. _________
^
Jf. /^t'.'t^ \2 o /*< fj i'&T'f&w
xf fi":~ V-/T//7/.1.: rfft-jfftj SOIMCC
t f\:T,i'/fACiTe.iCOAi.
j». ^/^ r.±.:/iT£ Q/L
.3. vjTV/rvi.; ff.)S -
.i. ,;J--f --
s. 07 nr/? f sp.^c/fY)
C-.. TOTAL, - -
e. co.tr w - ixSTt t MO
/.y.t*>'TU-WJOUS)ZZ;{-JrfA Sai'.fCf
1;. t£/~i.'Sf-:,\ QJS) COAt'fMT SSi/fCf
£. CCfS- PC./HT SZiJt'e.L:
J.a. O/STtLLjrf: O/L. -/tXc,' jtitfJC
4. DtST/i^/tt't^ c/L-P&xT sjy/fec
*f . d. t?i:Sl&~4t- OIL " A fell SOL'ifCf
&, f^G'Si^uAi o/& ~ P0tt/r £6!;&cc
S. J. VArURAL $t\£ -MltSaiWCC
i.. t/*r jft.it. Gs,s -fj. : .> sei/fc'cf
&. /»/' Jc.'TS'i' s*)S -fo/ur sovfcf
7.A. K/aC.t* -Af?£/l &OUKCE
t. VS&&3- fa/fjT SoufrCE
Sa. O T'<'~f? (S PcC!f Y)-AKfl Sl'JKl
IM. oTHt:i?(SF>=c/fY)-niM3x;.-:;e
9. TOTAi
C. £Yi-^S*f- Fii~-~/ &IC Ainlt fitNT
t. x.v7>//?«r/r.f COAL
2 &tryt*:iHQLI3 COA~
S. £/& TUi^Tf O'i. -
<<: tsrss^uji o/i
s. /;* ,-**'.'< ; GAS,
£. c Tfi:K (senary) '
7 TOTAL
*>. TCTAL fVfi COMBUSTION
X PfrOCI'CC tOSSGS .
A. AffCJl SO~£- JPSj souRClS
t>. OfJ 5//VT - /=^/V7 Sf^f^Cr.-
f. f-iufjicif!AL.Ere..painrso^vsf
6. OPC/J eejff.-j/fjo
/». OtS-S'TS - AfTEA SOVffC£
j>. on- sirs fo/.-.-r SOURCE
2.0. OUMPZ-AKSA SovfiCS
*. PUMPS- P0//.-T Si:'f>.~
C,'.OTll£.? (SP£Ctf?Yj - AffFASO^*??
t. OTtse.rfsfC'CifY) -re/itr ssixcf
t>. T^Tiii SOI IO V/AZTE CIS fas At.
S. T.*>~ '.'s " * ~A 75."- 'pFt sau^e f
A. t MOTS/? ySfficies^&tso^'fJf
?.-f*oTo& vgtficies- p/ss&t
£>. erf-#«S/MAY FVl=L USAGE
c. ~Ai#&Rn,~r-
ft XAUftOAO
e. v^s£EL S
F. GASOilMe HfJDLG Cvff tOSSfS
S. CTHi'f? (SPfC'FY)
V. TOTfM TRAfJSP3&7'*7/OAJ
X. MIS CELL. AHfOUS -A/ffA MUflefS
A. AGffl CULTURAL BUKfJIUO
B. aT*e# ( s err c -/)
C. TOTAL. /^/SCSiL. AneOi>3
JZ. GRAND TOTAL
A. Aff£A SOaffCC
C. TOTAL
TotJS
PA#T
JJ5J
^. oo>.,/ ji6Mai
>T / Yc
HC
yos~
^oo
234
mr ^
~~
-
j (J 75
'y7-^c>>6i
J71
J?X?y±
*ff
MO*
J fTf
3f13
f/377
J.S J
J*}
-tf*?*^
i
FUEL
etMwr
ere.
wiirs
1
I
\
1
-------�
SOURCE NUMBER- 1 REGION NUN3ER
1 _ -P ARTICULATES J _
1
I DOMESTIC
COAL
. Oil
KATL.GAS
.CCPMtJNQ
COAL
RES.CIL
OIST.OIL
NATL.CAS
NCK-PT
COAL
RES. OIL
OIST.QIL
NATL.GAS
WCCO
OPEN BRN
.INCINER
SOLVENT
VESSELS
RAILRO
DIESEL-.
OTHER
AS 25MPH.
AS 45*PH
OTHER
AOOPCL
1
2
3
4
5
&
7
8
9
10 ^
11
12
13
14
15
ACTUAL I EXPECTED I
0.
ISC.
169.
0.
II.
7.
82.
1174.
37.
3fl.
32.
0.
91.
0.
0.
1.
26.
232.
0.
633.
222.
fl.
I
0.
0-
0.
fl.
0.
Or
0.
0.
0.
Or
0.
0-
0.
0.
0.
08SPOLITICAL JURI
SULFUR OXIDES ... 1
ACTUAL I EXPECTEOI
0.
1079.
5.
0.
152.
34.
3.
1144.
506.
184.
. 1.
0.
6.
0.
0.
2.
66.
417.
0.
3fl4.
134.
0.
0.
0.
0.
0.
0.
0.
c.
0.
a.
0.
0.
a.
c.
a.
0.
SOICTION
CARBON
ACTUAL
0.
75.
117.
0.
0.
0.
87.
20.
0.
1.
1.
C.
481.
0.
C.
2.
72.
3012.
0 CCUNTY NAME TOTAL COQRDINA
MONOXIDE 1 HYDROCARBONS I
I EXPECTEOI ACTUAL 1 EXPECTEOI
0.
45.
71.
0.
1.
1.
35.
10.
5.
8.
72.
0.
170.
0.
612.
1.
51.
602.
0. 2091.
253296. 33773.
51430.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
7715.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
TES X 0.0 Y
NITROUS CXIOES 1
ACTUAL 1 EXPECTED
0.
180.
665.
0.
29.
28.
326.
151.
96.
153.
313.
0.
34.
0.
0.
2.
77.
3151.
0.
17942.
7347.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.0 AREA 0.0
FUEL TOTAL I
I ACTUAL IEXPECTEO!
0.
29971.
17744.
0. ,
958.
937.
8661.
2CC73.
3184.
5116.
3578.
0.
11329.
0.
612.
5B.
2C43.
18537.
199119.
1916927.
667925.
0.
-------�
1-
SOURCE NUMBER I REGION NUMBER
5 PARTICULARS I
1 ACTUAL I EXPECTED 1
OCftSTIC
CCAL
CIL
MTL.GAS
CGPM6INO
RES. CIL
CIST .OIL
NCN-PT
CCAL
RES. CIL
OIST.OIL
f.ATL.G#S
hGCC
CPEN BRN
INCINER
SOLVENT
VESSELS
PAILRD
OltSfcL
CTH.EP
AS 25MPH
AS 45MPH
CThEfi
ADCFCL
1
2
3
5
6
7
8
9 _
10
11
12
13
14
15
0.
4.
4.
0.
1.
0.
11.
4.
0.
0.
1.
0.
3.
0.
0.
1.
5.
9.
0.
20.
13.
1.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
C67POL
SULFUR
ACTUAL
C.
32.
C.
C.
7.
2.
C.
4.
2.
1.
C.
0.
c.
c.
c.
; 2*
14.
16.
C.
12.
8.
C.
C.
0.
c.
c.
0.
c.
c.
0.
c.
0.
c.
c.
c.
c.
ITICAL JURISDICTION
CXIDtS | CARiJCN
1 EXPECTED) ACTtAL
0 .
2.
4.
C.
u .
c.
11.
c.
c.
ij
c.
c.
14.
C.
0 .
2.
IS.
115.
C.
7864.
3021.
2
c.
c.
c.
c.
c.
c.
c.
0.
c.
c.
c.
0.
c.
C.'
0.
4 COUNTY NAME CAKPTA CCGSFMNATdS X
KCNOX10E "| hYOkuCAkbUNS "I M.'.-suUS
I fcXPtCTtCl *ClLi/!L 1 EXPtCTfCl ACTUAL
0
1.
2.
C.
0.
4.
0.
C.
u
2.
c.
5.
C.
IP.
1.
11.
23.
SO.
453.
1.
0.
C.
0.
0.
c.
0.
0.
0.
0.
c.
c.
0.
c.
0.
0.
Co
15.
0 .
1.
i .
42~.
i .
0 .
1.
8.-
C.
1.
w
V
2.
16.
12C.
0 .
557.
432.
Lf .
0.
C.
0.
c.
o
Vf .
c .
c.
u .
0.
C.
0.
O.G Y 0.0 AHEA 0 .0
CXIDiES 1 FLLL TiJTAL I
1 EXPtCTtCl ACItAL |cXPFCT£D|
C .
899.
39C.
C.
44.
lioa.
73.
12.
88.
0.
32
-------�
SOURCE NUMBER 1 REGION NUMBER 145PCLITICAL JURISCICTICN 0 COUNTY NAME TOTAL COORDINATES X 0.0 Y 0.0 AREA 0.0
-. ._ I PAP.T1CULATES X.SULFUR OXIDES _.| ...CARBON MONOXIDE. 1 HYDROCARBONS __.I.__NITRCUS OXIDES . I..... FUR TOTAL
j
- DOMESTIC .
CCAL
. . OIL
NATLcGAS
CGfKJLINO
COAL
RES .OIL ..-
OIST.OIL
NATL.GAS
hCN-PT
CCAL . .
RES. OIL
plST.flfL
NATL.GAS
. ... woco
CPEN 8RN
INCINER
SOLVENT
VESSELS . .
RAILRO
DIESEL.
OTHER
AS 251PH_
AS 45MPH
OTHER
ACTUAL | EXPECTED 1
0.
38.
93.
0.
6.
4.
123.
379.
12.
12.
73.
0.
42.
0.
0.
0.
92.
126.
0.
374.
90.
6.
ACTUAL I EXPECTED!
0.
271.
3.
0.
84.
19.
4.
369.
163.
59.
. 2.
0.
3.
0.
0.
0.
24,0.
226.
0.
227.
54.
0.
ACTUAL |
C.
19.
97.
0.
0.
0.
129.
6.
0.
0.
2.
0.
225.
0.
0.
0.
259.
1634.
0.
.149564.
20812.
34.
EXPECTED! ACTUAL 1 EXPECTED!
0.
11.
39.
0.
1.
1.
52.
3.
2.
2.
161.
0.
79.
0.
236.
0.
185.
327.
1134.
19942.
3122.
7.
ACTUAL
0.
45.
365.
0.
16.
15.
485.
49.
31.
50.
706.
0.
16.
0.
0.
0.
277.
1710.
0.
_J0594.
2973.
1.
J EXPECTED! ACTUAL IEXPECTEDI
0.
7525.
9740.
0.
527.
515.
12941.
6476.
1027.
1651.
8065.
0.
5298.
0.
286.
0.
7388.
10056.
109020.
1133057.
270283.
689.
AODPOL
1
?
3
4
5
fc
7
8
9
10
11
13
14
0.
0-
0.
0.
0.
Q-
0.
0-
0.
PT
0.
0.
0.
0^
0.
0.
0.
O-
0.
fl.
0.
0.
0.
0-
0.
0.
0.
G.
cv
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.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
15
0.
0.
0.
0.
-------�
SCURC6 NUKB6B
I RtGSQN NUSbfc-P 146PUL IT ICAL JURISDICTION 0 COUNTY NAME TOTAL
COORDINATES X OoO V
0.0 AREA 0.0
J
8
DC>*f: STIC
CUAL
CI t
N4TLot,:AS
CCAL
RE So o!L
DIST.CIL
CLAL
: i 1 »J IL
KATL.GAS
SOLVENT
VfcS^ tLS
RAILRO
0 IcbrL
CTHER
AS 25 ^PM
AS 45MPH
CTMt fl
ADDPOL
I
2
3
5
6
7
d
9
10 '
11
12
13
14
15
PfiPTICULATSS |
ACTUAL 1 EKPECTEO 1
0.
282.
Oo
39.
22,
1 (JC. a
\ i 1 i .
245.
.
161.
0 .
o.
7.
819.
629.
0.
B9i
0.
0.
0.
0.
0.
. 0.
c.
0.
0
0.
0.
0.
0.
0.
- S'JL!:l'P
ACTUAL
0.
2nl4i
0.
479.
106.
551.
e.
10.
u .
0.
2Q.
2129.
1 1 3 1 .
0.
53* .
869.
.
0.
0.
0.
0.
0.
0.
0.
0.
0.
.
0.
.0.
0.
OXIDES | CAHHCN HQNQXIOE 1
1 HXPECTEOl ACTUAL ! GXPECTEOl
0.
lll\
0.
0.
0.
/ J7»
p.
I .
5.
856.
U*
0.
IB.
2293.
Bio f .
0.
3W!> J 1 .
334386.
B79.
0.
o .
0.
.
0.
0.
0.
0 .
0.
u.
0.
0.
0.
0.
HYC«f!CAftaONS }
ACTUAL 1 EXPtCTEOl
0.
ill*
0.
f *
c'?6«
11.
5.
.
545.
302.
1037.
14 .
1638.
lo J 3 .
5668.
50158.
1 7o.
0.
0.
0.
.
0.
0.
0.
0.
0.
0.
0.
o .
0.
.
0.
NITROUS
ACTUAL !
0.
469 .
1115.
0.
£*'£
104.
1" r
60.
0.
.
2457.
0.
47769.
IB .
0.
0.
0.
u .
0.
.
0.
u.
0.
.
0.
o .
0.
0.
OHiOeS 1 FU'cC TOTAL {
1 EXPfcCTEOl ACTJfiL Ir.XPSCTcOl
3.
7eliv.
29735.
0.
2^33.
3467.
27234.
20132.
1097.
65521.
539345.
4342679.
1 1 'j a t .
-
-------�
APPENDIX A AND B
POINT SOURCE DATA FORM
AREA SOURCE DATA FORM
-------�
APPENDIX
UJ tH
0 UJ
O =
UJ
CJ
c
v>
REGION
£
1
1
A
SIC
POINT SOURCE
SITE
MAXIMUM
PROCESS WEIGHT
RATE (!b/hr)
1
I
*ASH
COAL
1
gg
11
1
M
J 3
^
y,
uJUJ
uo
oo
DESCRIPTIVE NAME (a)
NORMAL PROCESS
WEIGHT RATE
(IbAO
COAL
1
f
SULFU
RESID.
1
R CONTE
DIST.
,
,
COMMENTS (a)
NT
NAT.
GAS .
<
f
CON1
EFFIC
PART
t
MAXIMUM
BOILER
CAPACITY
(106BTU/tir)
fROL
IENCY
S02
(d)
E
F
DEVICE
INDENT
DATA
cot
X
COAL
(tons /year)
FORM
3ROINATES
KM
Y
(d)
E
F
COMMENTS (a)
I
POLITICAL
JURISDICTION
OWNER (b)
_ «c
J g<
o- S >
> uJ S
" %£
RESIDUAL
OIL
(10 3 Gal/year)
PART.
id)
E
F
HEIGHT
(It.)
DISTILLATE
OIL
(103 Gal/
year)
HAND
S02
(d)
E
F
CALCULATED EM
(tons/year)
CO
STACK f
DIA.
(ft.)
'ARAKETER
TEMP.
NATURAL
GAS
(106 CF /year)
ISSIONS
HC
APCO(DUR)193
3/71
REV 3
MAXIMUM pLUME
GAS OKC
«".<>« <$<«'
J.
COAL
10*
(BTU/
ton)
,
N02
r
I
A
HEAT CONTENT
RESIDUAL . DIST. NATURAL
OIL OIL GAS
(10JBTU/ (103BTU/ (BTU/
GaM Gal.) CF>
1
ALLO
EMIS
(Ions
PART
4
B
V
WABLE
SIONS
/ye?:)
ZT___
C
COMMENTS (a)
«
5
6
7
8
9
10
11
12
MM
13
1"
46
»
18
19
20
21
22
23
24
25
i»
27
28
29
30
31
3233
34
«
36
3738
3940
41
42
43
44
45
46.
I47J48J49
50
51 52 53
|
54
55
56
57
58
»|
SO
61
62
63
64
65{66
67
4- -4-
68|69 70 71 72 73
74 >5 76 77 78J79
0
80
(a) Letteis and numbers iray be put in these columns
(b! Owner -»Private = 1; Local - 2; State -- 3; Federal = 4; Utilities = 5.
(c> Type -* Process = 1; Fuel Combustion = 2; Solid Waste Disposal - 3.
((.} EF - refers to emission (actor set number associated wilh emission (actors on emission factor
sheet.
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APPENDIX B
NEBRASKA
TABLE 3
AREA2 SOURCE DATA FORM
APPORTIONING FACTORS FOR COMPUTER CALCULATED EMISSIONS
Scuoo
f
.).!
I|2,3
-:£GIO\
! i
3
t.
o
c_
~
o
g
I
4'5l&' 7i .?
< i
NO.'
A -8
. 1 ! ! M
Spi.) IHMiniiJS-ii,.!?
COAL
i i i
X
COOROIN.
KM.
!£
!5P20
a
Y
COORDIN
KM
III*
r2?;23i?V2i25i2/
3!:.'T -OWCE INDUSTRIAL
A <) A -10
RES. OIL ii.'ST. OIL
: i ! : "T"
1
t
A -11
ATL. GAS
1
SOURCt
AREA
K
2
2sVj;30j3:
A -12
WOOD
1
STACK
Ifl.i
l_l 1
DOMESTIC
A
1
COAL
32l33!3;35:35i'!7J38j39|«
OPEN
A-
8UR,'J
13
HG
A- 14
INCINER.
r
1
j
41'42
A
.?
OIL
]
43i«:'.j'«
SOLVENT
A
15
E VAPOR
!
47
48
A-3
HATL. GAS
49J50I51IS2J53
VESSELS
A 16
DI
1
ESEL
A-17
CO";.:EI;C-AL A;JD I.NSTITUTI
CO
54i:5,bi.':/
RAILROAD
L_ "^
53
DIESE
,
V.
K EC
A-18
MOTOR VE
r
. .-
RES. OIL
'"i
i '
....
j i
0,'JAL ' i
DiST. 0!L
SI^Gile-WC-:;,-:./ =.'. CO
A -19
OTHER
]
i j
i
NATL GAS |
c. ;:;72. ;j:7*i?5:;:, /S(!c
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APPENDIX C
POINT SOURCE QUESTIONNAIRE
COVER LETTER AND PRIMARY QUESTIONNAIRE FORM
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STATE of NEBRASKA
DEPARTMENT OF HEALTH
DIVISION OF AIR POLLUTION CONTROL
STATE HOUSE STATION, BOX 94757
LINCOLN. NEBRASKA 68509
May 7, 1971
Gentlemen:
The Division of Air Pollution Control, with the authorization of the
State Air Pollution Control Council, is engaged in a study to determine the
nature and extent of air pollution throughout the State of Nebraska.
As an essential part of the study, we are contacting industrial establish-
ments to determine the extent of emissions from industrial processes, waste
disposal methods and fuel combustion. Time limitations make it madatory
that these contacts be made by mail survey. Accordingly, we urgently request
your cooperation in completing the enclosed questionnaire and returning it
within 21 days. The duplicate form is to be retained for your files. The
completed form should be sent to:
The Division of Air Pollution Control
P.O. Box 94757
Lincoln, Nebraska 68509
We wish to emphasize that accurate information is needed so that each
source may be placed in its proper perspective in relation to other sources
in the state. It is requested that data be submitted for the year 1970. A
separate form is to be used for each site located within the state. It is
intended that the data obtained is for the internal use of this agency.
If complete data are not received within 21 days, it will be necessary
to estimate the data from your plant on the basis of the best available
information. Your cooperation is essential and will be appreciated.
If questions arise concerning the questionnaire, or if additional copies
are needed, please phone Mr. Gene Robinson at (402) 471-2141.
Walter H. Franke, Director
Air Pollution Control
Enclosures
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Form I
Ketum To:
Gene Robinson
Division of Mr Pollution Control
State House Station Box 9^757
Lincoln, Nebraska 68509
AIR CONTAMINANT EMISSIONS SURVEY
Information is to be representative of Calendar Year
FOR OFFICE US
Received By:
Reviewed By:
County:
SIC Number:
Coordinates:
w .C4LY
Firm nemo: '
Person to contact regarding this report:.
Mailing address:
Plont oddress: ____^_________
Nature of business: (Products'
Employees at plant location: ______
Title:
Phone: .
County
If seasonal, give range.
Approximate land area at plant location:
Normal opeioting «ek«,n%il«-
Seasonal and/or peak operation period: (Specify)
Estimate of percent of total fuel consumed to provide space heo»*_
SECTION 1 - FUEL USE FOR GENERATION OF HEAT. STEAM. AND POWER
Hours per day Days per week
Weeks per year.
'-)
No.'"'
A
Site of
jni»(inpu»)(B)
10°Btu hr
B
Type
unit (C>
c
Dote
D
Type
fuel
vo
I
Refuse disposed "f On site.
Normal on-site combustion operating schedule:
Seasonal and/or peak operation period: (Specify)
SECTION II - REFUSE DISPOSAL
___________ Off site Location of disposal site and/far name of hauler:
_Hours per day Dny« per weak Weeks per year.
Source
No.'*'
A
B
Waste material
Type IN)
Amount per year (^>
C
Method o' disposal
(See Code Page 2)
D
Incinerator
capacity,
lb.fr
E
Auxiliary
fuel used (0)
F
Type and efficiency,
oir cleaning
equipment
G _
H
Type IK)
Quantity
per year |LI
L - F
PACE I
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AIRCOIMTAMIIMA... ^"SSIONS SURVEY
SECTION III - PROCESS EMISSIONS
r
Normol operating «gh«tiul«- Hours per day Days per week ^___^_^_
Seasonal and/or peak operation period: ^___^________________^^^_^^_______^^_^^^__^_^______^____^______
NOTE: For intermittent operations, indicate approximate frequency and duration so that estimates of yearly emissions may be obtained.
Weeks per year.
Source
No!AI
A
Processes or
operations releasing
contaminants to
atmosphere * *
B
Installation
Date
C
D
Materials processed and /or
used at operations
Type<0>
E
Quantity of got
discharged from
F
Type and efficiency
oir cleaning
G
H
Estimate of contaminant! IMI
Type"<>
Quantity per yeof L)
1
Basis of estimate (RI
fGive o different no. *o represent eoch source and then give stack data opposite the some number on Section IV.
Nameplote data ore sufficient.
jHond-fired; underfeed, traveling-grate or spreader stoker; cyclone furnace; pulverized, wet or dry bottom with or without fly ash reinjection; rotary or gun-type oil
Fuel data are to be reported on * as burned basis"
fCoke, bituminous coal, anthracite coo!; No. 1. 2, 4, 5 or 6 fuel oil; natural gas; LPG; refinery or coke oven gas; wood, etc.
I Pounds, tons, or gallons per year.
**J °Jf unknown, please give name and address of fuel supplier.
O .Sulfur and ash content for each fuel should be o weighted average.
I ' Cyclone, scrubber, electrostatic precipitotor, baghouse, settling chamber, etc.
{Please state if efficiency is a rated or operating efficiency.
.Fly ash, sulfur oxides, etc. (include chemical description).
Pounds or tons per year.
'"Give stock test data if available, or otherwise specify basis used.
"Rubbish, garbage, mixed garbage and rubbish, waste paper, wood chips or sawdust, etc.
°lndicate whether auxiliary fuel is used in incinerators and pit burning, and the amount.
^Sulfuric acid-chamber, aluminum smelting-crucib'e furnace, iron melting-cupola, cement manufacture-dry process, solvent cleaning, or other {please specify).
^Acid produced, tons; metal charged or processed, tons; cement produced, bfal.; solvent consumed, gallons; etc. per year.
Process material balance studies, field tests by plant or by equipment manufacturers, or other basis.
List sources Sections I, II, III which utilise each stock.
SECTION IV STACK DATA
burner; e?c.
METHOD OF DISPOSAL CODE:
1. Open-burning dump.
2. Sanitary landfill, (no burning)
3. Burned in boiler or furnace.
4. Incinerator, single chamber.
5. Incinerator, multiple chamber
6. Incinerator, rotary.
7. Conical metol burner.
a Other (Specify)
SOURCES VENTED'5'
HEIGHT
(Feet)
INSIDE
DIAMETER
(top) (feet]
EXIT GAS
Temperature of
Velocify(FPS)
Moisture (%)
Any supplemental material or data considered pertinent (flow diagrams, reports, summaries, test results, mops) should be submitted with this form.
(Nome and title of official submitting reports
PAGE 2
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