c/EPA
United States
Environmental Protection
Agency
Region H Office
26 Federal Plaza
New York, N.Y. 10007
EPA-902/4-78-006
June 1979
Air
Air Quality Maintenance
Analysis For New Jersey
New York and
Mid-Hudson AQMA
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GCA-TR-79-19-G
AIR QUALITY MAINTENANCE ANALYSIS
FOR NEW JERSEY - NEW YORK AND
.MID-HUDSON AQMA
Fi,nal Report
by
Kenneth W. Wiltsee, Jr.
William L. Freeh
David B. Ramsay
GCA CORPORATION
GCA/TECHNOLOGY DIVISION
Bedford, Massachusetts
June 1979
Contract No. 68-02-2866
U.S. ENVIRONMENTAL PROTECTION AGENCY
Region II
New York, New York
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DISCLAIMER
This Final Report was furnished to the Environmental Protection Agency
by GCA Corporation, GCA/Technology Division, Burlington Road, Bedford,
Massachusetts 01730, in fulfillment of Contract No. 68-02-2866. The opinions,
findings, and conclusions expressed are those of the authors and not neces-
sarily 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.
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ABSTRACT
An air quality maintenance analysis of SC>2 and TSP concentration was
conducted for the New Jersey - New York and mid-Hudson AQMA's. The year
1975 was used as the base and projections were made to 1980, 1985, and 2000.
An emissions inventory created under a previous contract was reviewed and
updated using best available data. Improvements were made in the point source
inventory, county level area source inventories, and subcounty allocation
procedures.
An improved version of the AQDM model was validated and then used to
predict annual regional air quality levels for each year. The results indicated
that annual primary SC>2 and TSP standards could be exceeded in the South Bronx
by 2000. TSP levels throughout much of northeastern New Jersey and New York
City exceed the secondary TSP annual guidelines.
111
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IV
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CONTENTS
Abstract iii
Figures vii
Tables x
1. Introduction ..... 1-1
2. Review of Tri-State RFC Land Use Data 2-1
Data Base . 2-1
General Conclusions 2-2
3. Emissions Inventory Review and Development 3-1
County Level Activity 3-1
Point Source Review 3-4
Review of Tri-State Inventory Techniques And
Application Description Under the Present
Contract 3-6
Projection Methodology 3-9
Emission Factors 3-10
4. Ulster County Emission Inventory 4-1
Data Base 4-1
County Area Source Activity 4-2
Allocation to Grids 4-4
Projection Methodology 4-4
5. Model Selection, Validation, and Calibration 5-1
Model Selection 5-1
Input Data 5-2
Model Validation 5-2
Model Calibration 5-4
6. Regional Modeling Analysis 6-1
7. References 7-1
Appendices
A. Summaries of Comparison of Tri-State and County
Planning Board Data A-l
B. New Jersey County Level Fuel Allocations B-l
C. Support Material for New Jersey AQMA Submittal C-l
Table 7-1 - County Base Year Emissions. . C-2
Bergen County C-2
Essex County C-7
Hudson County C-12
Middlesex County . . . . C-17
Monmouth County C-22
Morris County C-27
v
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CONTENTS (continued)
Passaic County C-32
Somerset County C-37
Union County C-42
Table 7-2 - County Projection Year Emissions C-47
Bergen County - 1980 C-47
Essex County - 1980 C-52
Hudson County - 1980 C-57
Middlesex County - 1980 C-62
Monmouth County - 1980 C-67
Morris County - 1980 C-72
Passaic County - 1980 C-77
Somerset County - 1980 . . C-82
Union County - 1980 C-87
Bergen County - 1985 C-92
Essex County - 1985 C-97
Hudson County - 1985 C-102
Middlesex County - 1985 C-107
Monmouth County - 1985 C-112
Morris County - 1985 C-117
Passaic County - 1985 C-122
Somerset County - 1985 C-127
Union County - 1985 C-132
Bergen County - 2000 C-137
Essex County - 2000 C-142
Hudson County - 2000 C-147
Middlesex County - 2000 C-152
Monmouth County - 2000 C-157
Morris County - 2000 C-162
Passaic County - 2000 C-167
Somerset County - 2000 C-172
Union County - 2000 . . . C-177
Table 4-2 - Grid System and Area Source Emissions .... C-182
Bergen County C-182
Essex County C-195
Hudson County C-208
Middlesex County C-217
Monmouth County C-226
Morris County C-235
Passaic County C-244
Somerset County C-253
Union County C-262
VI
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FIGURES
Number Page
5-1 Validation of New Jersey TSP sites 5-12
5-2 Validation of New Jersey and Staten Island
S02 sites - 1975 5-13
5-3 Validation of New York City S02 sites - 1975 5-14
5-4 Validation of New York City TSP sites - 1975 5-15
5-5 New York State TSP validation - 1975 5-16
5-6 Long Island S02 validation - 1975 5-17
6-1 New Jersey Regional Modeling Analysis for S02-
1974 (yg/m3) 6-3
6-2 New Jersey Regional Modeling Analysis for S02-
1980 (yg/m3) 6-4
6-3 New Jersey Regional Modeling Analysis for S02-
1985 (yg/m3) 6-5
6-4 New Jersey Regional Modeling Analysis for S02-
2000 (yg/m3) 6-6
6-5 New Jersey Regional Modeling Analysis for TSP-
1974 (yg/m3) 6-7
6-6 New Jersey Regional Modeling Analysis for TSP-
1980 (yg/m3) 6-8
6-7 New Jersey Regional Modeling Analysis for TSP-
1985 (yg/m3) 6-9
6-8 New Jersey Regional Modeling Analysis for TSP-
2000 (yg/m3) 6-10
6-9 New York City Regional Modeling Analysis for
S02 - 1974 (yg/m3) 6-11
VII
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FIGURES (continued)
Number Page
6-10 New York City Regional Modeling Analysis for
S02 - 1980 (yg/m3) ...................... 6-12
6-11 New York City Regional Modeling Analysis for
S02 - 1985 (yg/m3) ...................... 6-13
6-12 New York City Regional Modeling Analysis for
S02 - 2000 (yg/m3) ...................... 6~14
6-13 New York City Regional Modeling Analysis for
TSP - 1974 (yg/m3) ...................... 6-15
6-14 New York City Regional Modeling Analysis for
TSP - 1980 (yg/m3) ...................... 6-16
6-15 New York City Regional Modeling Analysis for
TSP - 1985 (yg/m3) ...................... 6-17
6-16 New York City Regional Modeling Analysis for
TSP - 2000 (yg/m3) ...................... 6-18
6-17 New York State Regional Modeling Analysis for
S02 - 1974 (yg/m3) ...................... 6-19
6-18 New York State Regional Modeling Analysis for
S02 - 1980 (yg/m3) ...................... 6-20
6-19 New York State Regional Modeling Analysis for
S02 - 1985 (yg/m3) ...................... 6-21
6-20 New York State Regional Modeling Analysis for
S02 - 2000 (yg/m3) ...................... 6-22
6-21 New York State Regional Modeling Analysis for
TSP - 1974 (yg/m3) ...................... 6-23
6-22 New York State Regional Modeling Analysis for
TSP - 1980 (yg/m3) ...................... 6-24
vni
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FIGURES (continued)
Number Page
6-23 New York State Regional Modeling Analysis for
TSP - 1985 (yg/m3) „ 6-25
6-24 New York State Regional Modeling Analysis for
TSP - 2000 (yg/m3) 6-26
IX
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TABLES
Number
2-1 Initial Recommendations: Population, Housing, Employment,
Land Use - New York, New Jersey and Mid-Hudson Area
Emissions Inventory 2-5
3-1 Area Source Fuel Use Totals For New York State
And Comparison With 1974 Tri-State Inventory 3-3
3-2 New Jersey Area Source Fuel Usage 3-5
3-3 New York State Special Limitations On Fuel Sulfur
Content 3-9
3-4 Industrial Output Growth Factors For Tri-State
Region 3-11
3-5 Commercial/Institutional Point Source Growth
Factors 3-12
4-1 Area Source Activity - AQMA Portion Of Ulster
County 4-3
5-1 Meteorological Combinations Used In Model Validation 5-3
5-2 Results Of Model Calibration 5-4
5-3 New Jersey TSP Monitors - TSP (pg/m3) 5-5
5-4 New Jersey And Staten Island S02 Monitors-
S02 (yg/m3) 5-7
5-5 New York State S02 And TSP Monitors 5-8
5-6 New York City S02 And TSP Monitors 5-10
x
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SECTION 1
INTRODUCTION
National primary and secondary Ambient Air Quality Standards (NAAQS) for
sulfur oxides (802) and total suspended particulates (TSP) were promulgated
by the U.S. Environmental Protection Agency (EPA) on April 30, 1971. The
primary standards are intended to protect the public health, while secondary
standards are intended to protect the public welfare from any known or antici-
pated adverse effects. The States of New Jersey and New York have adopted air
quality standards which are at least as stringent as the NAAQS. The target date
for attainment of the national primary standards is now 1982 with all states
required to submit a State Implementation Plan (SIP) to achieve this goal.
On May 31, 1972, the Administrator of EPA published his initial approvals
and disapprovals of state implementation plans submitted pursuant to Section 110
of the Clean Air Act as amended in 1970. Challenges to these approvals included
contention that approved plans were inadequate to insure maintenance of the air
quality standards (Natural Resource Defense Council versus EPA, 475 F 2nd 968,
January 31, 1973). A subsequent measure, taken by the Administrator on
June 18, 1973, involved promulgation of regulations requiring states to conduct
a comprehensive growth analysis of those areas which have the potential of
exceeding any national ambient air quality standards over the next 10 years.
Key elements in the development of an air quality maintenance plan are
emission inventories for each analysis year since these provide a practical
basis for designing limitation, reduction and redistribution plans. The
Tri-State Regional Planning Commission (TSRPC), located in New York City,
developed a gridded emissions inventory for the 22-county area encompassing
the New York - New Jersey and the mid-Hudson AQMA's for the base year (1974)
and three projection years (1980, 1985, and 2000). This work was performed
under EPA Contract No. 68-02-2096.
GCA was retained by EPA to verify the data developed by Tri-State; to
update and improve the inventories using current data where necessary; and
to apply these data in a regional modeling analysis to determine the extent
to which air quality will be maintained.
This effort was carried out first by contacting each county planning
organization in order to compare Tri-State grid level data with planning agency
expertise and land use projections. A number of improvements, including
separation of Tri-State's "nonresidential" land use category into the components
"commercial/institutional" and "industrial", were made. This work is described
1-1
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in Section 2. A detailed review of the TSRPC methodology for calculation of
county activity and subcounty allocation and projection was also made. From
this review, improvements in some assumptions were made and a new inventory
generated. This new inventory benefitted from a significant amount of new
data including a recently produced inventory of New York City spaceheating.
provided by New York City BAR; an improved New York State point source
inventory; and a 1975 New York State Fuel Balance. Creation of this inventory
is described in Section 3.
The eastern half of Ulster County, New York is included in the mid-Hudson
AQMA but not in the TSRPC study area. An emissions inventory was created for
this area using State-calculated county fuel use and a gridded land use file.
Section 4 presents this effort.
The inventory was then validated using the AQDM model and 1975 monitor data
for SC>2 and TSP - The model validated quite well in New York City for S02;
other areas and pollutants were not as successful although statistically
significant correlation coefficients were derived. The calibrated model was
then used to predict air pollutant levels throughout the study area for each
of the study years. The results indicated that the only area where maintenance
of annual S02 standards could be a problem would be in the South Bronx. Many
areas of the region, particularly New York City and northeastern New Jersey,
were predicted to exceed the secondary standard guideline for TSP. Certain
limited areas were predicted to exceed the primary TSP standard. The valida-
tion and regional analyses are described in Sections 5 and 6, respectively.
Review of the modeling results for TSP coupled with state-of-the-art
knowledge of particulate sources and impact mechanisms suggests that this
analysis is not adequate for development of TSP control strategies. Current
thought indicates that source impacts should be calculated through the use
of microinventories. It is recommended that this technique be applied at
nonattainment monitors in the AQMA.
Throughout this report, the work of TSRPC is referenced. In general,
when Tri-State methodologies and/or data were accepted for the present study,
the methodology has been described only by reference. The basic Tri-State
document for referral is entitled "Methods Used To Estimate Air Pollutant
Emissions - 1974, 1980, 1985, and 2000" dated June 1977 (EPA-902/4-77-006).
Also, review of data representing Fairfield County, Connecticut was generally
not a part of the present contract. These data were accepted as provided
by Tri-State.
1-2
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SECTION 2
REVIEW OF TRI-STATE RFC LAND USE DATA
A primary objective under this contract was to review and update all data
used by the Tri-State Regional Planning Commission (TSRPC) in performance of
Contract No. 68-02-2096. This section describes the techniques and conclusions
of a review of the TSRPC basic land use and demographic files. Section 3
of this report describes the conclusions concerning the application of these
and other data to creation of an emissions inventory.
DATA BASE
The TSRPC data were available for each square kilometer in the 21 counties
of the 22-county study area (Ulster County, New York being the exception). The
information included, for the years 1974, 1980, 1985, and 2000, grid coordi-
nates, population, employment, and dwelling units plus land area and floor space
devoted to residential, nonresidential and other land use. The goals of this
review included:
• Verification of trends by subcounty area;
• Verification of county totals;
• Separation of Commercial and Industrial Land Use; and
• Review of development trends and projection assumptions
for undeveloped land.
The review and correction of the Tri-State data base were accomplished
through a series of detailed comparisons between the Tri-State data and infor-
mation from county and regional planning boards. Each county planning board
was visited by a GCA staff planner. This provided an opportunity for the
county staff planners to review in detail Tri-State data and provide an in-
depth analysis of present conditions and future trends on county and subcounty
levels. In addition to presenting the county planners with specific figures
for comparison, a series of computer maps were generated from Tri-State data
to represent land use, both existing and future. The computer maps were as
follows:
2-1
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Year
Map type
1974 1980 1985 2000
Dominant Land Use and Development Intensity X
Nonresidential (NR) acreage X
Change in Dwelling Units and NR Land Use X X
These maps served as focal points in the discussions with staff planners
and allowed them to crystalize county level thinking on probable growth areas
for population, housing, and industry. There was considerable variation from
count.y-to-county in the availability and sophistication of formal planning and
future land use mapping but in all cases the computer maps were useful in
determining major areas where discrepancies occurred. The following sections
present the conclusions of this review.
GENERAL CONCLUSIONS
Subcounty Allocations
The basic Tri-State model for land use and growth allocation is a gravity
model using accessibility and attractiveness of land as key parameters. This
type of model is highly dependent on the regional transportation network and
can be insensitive to local zoning for nonresidential land use.in the vicinity
of residential development. A large number of global assumptions are necessary
concerning such factors as urban redevelopment, zoning changes, family size,
and migration rates. Consequently, the Tri-State data base, while appropriate
on the large regional scale is not always sensitive to local trends and
conditions especially in areas of rapid economic, social and political changes.
Every 2 years the Tri-State data base is reviewed by regional and local
planners and updated to reflect inasmuch as possible local, current trends.
The procedure in which Tri-State and the counties work together towards a
mutually acceptable set of plans and projections of data is called "cross
acceptance". However, not all counties participate in this review and update
process and, also, there is not full agreement between some counties and Tri-
State planners. As a result there are some significant discrepancies between
the Tri-State. model and the counties.
Discussions with county planners proved extremely valuable due to their
intimate familiarity with subcounty growth trends, particularly in reference
to the population and housing trends up to 1985. Most projections to 2000
were considered highly speculative, especially given the recent downward trend
in birth rates. Also in areas such as New York City there is significant in-
migration of large numbers of people (e.g., illegal aliens) that are not re-
flected in official census and population projections.
2-2
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The county planners examined the computer generated maps, overlaying these
on county zoning maps and land use plans. This allowed for easy identification
of any significant differences between the local and the regional (Tri-State)
assumptions of growth. Generally, the fit was good, although in a few of the
counties there were some important differences. These are discussed in
Appendix A.
The Tri-State land use model combined commercial and industrial land use
as nonresidential. Using county land use maps and the knowledge of county
planners, this nonresidential category was split into commercial and industrial.
This posed some difficulty due to variations in local definitions of
commercial/industrial split was based on standard industrial codes (SIC's).
The total county acreages by land use type were not corrected using the
above mapping process, but rather were included in the county level fuel
allocations and assigned to grids using appropriate adjusted allocation fac-
tors as described in Section 3. Appendix A of this report presents a summary
of comments made by county planners concerning the land use data and methods
used in implementing this information in the emissions inventory.
County-Level Factors
Verification of county totals of population, housing, and employment was
accomplished basically by comparing Tri-State figures with the 208 Water Quality
Management when available. According to U.S. EPA, air quality planning figures
should be consistent with water quality planning figures. Consequently, the
basic policy was that the Tri-State figures were adopted whenever they were
within 5 percent of the official 208 figures. In New York State 208 population
projections were available in every county including the five nondesignated
mid-Hudson counties of Rockland, Dutchess, Orange, Putnam, and Ulster, Westchester
County, New York City, and the two Long Island Counties of Nassau and Suffolk.
In New Jersey, Middlesex, was the only county with completed 208 figures. In
the other counties, except Monmouth, which is discussed below, population and
demographic projections were available from the Northeast New Jersey Water
Quality Management Study that was prepared for Section 303(e) of PL 92-500.
In keeping with the EPA policy of consistency between water quality and air
quality data base figures, Tri-State data was accepted unless it varied more
than 5 percent from 303 data in which case the 303 figures were accepted.
For Monmouth County the 208 study was not completed at the time the inventory
was done. Pending the issuance of official state figures, the Tri-State
figures were used.
The housing and employment projections did not have the advantage of a
common comprehensive water quality study with which to compare the Tri-State
figures. However, to overcome this limitation a methodology was adopted
that utilized county data and water quality population estimates. When
available county projections on family size or persons per dwelling unit were
divided into the best population estimate and the result compared to Tri-State
projections. In a few counties housing estimates were available. These are
discussed in Appendix A.
2-3
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A similar situation existed for the employment data. In fact there was
less data available on employment than for any other data investigated< When
there was no formal state or county employment projection with which to compare
Tri-State data, the county planner or economist was consulted to obtain his
judgment as to the probable accuracy of the Tri-State figures. Employment
is highly variable even more so than population and housing, and, consequently,
the long range estimates must be viewed with caution. In New York City, for
example, the planners were extremely reluctant to comment on Tri-State data
given the sizable economic, political, and social variables affecting the
employment situation.
Table 2-1 presents a summary of the recommendations and data used to
create the emissions inventories. As will be described in Section 4, Ulster
County is not within the Tri-State planning area. This required the development
of an original emissions inventory.
2-4
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TABLE 2-1. INITIAL RECOMMENDATIONS: POPULATION, HOUSING, EMPLOYMENT, LAND USE - NEW YORK,
NEW JERSEY AND MID-HUDSON AREA EMISSIONS INVENTORY*
I
Ul
-OU3 -
tieu Jersey
Sudson
Monmouth
Union
Hew York
Brooklyn
Manhatten
Stateo Island
Suffolk
Rock land
Orange
OUter
Adopt '
figure
Accept
provisi
Series
Accept
Accept
Tear 20
questic
Accept
Adopt '
Adopt '
Adopt '
3C3' estimates
estimates
Tri-State
ocally
II
Tri-State
Tri--StaL =
Tri-State
KX) estimates
nable
Tri-State
208' estimates
208'
208'
-^pjlac
;97i.
616,511
^6,93i
216,074
560, W)9
i 29i.,S3i
2,510,641
1,506,969
323,035
1,283,401
252,700
242,000
156,400
on
198
615
541
215
539
i,327
461
1,504
402
1,405
279
267
171
D
OOO
,161
,778
,410
,233
,559
,615
,938
,200
,000
,100
10ns
1935
622,500
589,000
241,950
536,370
1,326,206
^,443,510
1,515,451
446,063
1,578,732
308,900
300,000
185,900
200
630
696
288
^41
1,333
2,^13
1,515
501
1,747
380
130
422
222
)
000
000
,117
,718
976
,738
,097
,431
,657
200
003
600
o ng p yifre
.
estiiaa ee
estimates estinia «B
Adopt county Adopt ounty
estimates estima es
CCA estimates
Accept Tri-State Accept Tri-State
provisionally
Accept Tri-State Accept Tri-State
Accept Tri-State Accept Tri-State
except 2000 esti-
mates
Adopt '208' based Accept Tri-State
CCA estimates
GCA estimates
County estimates County estimates
Adopt county Accept Tri-State
estimates
UFHS data
ninor aodif ications
alcb higher figures
Accept Tri-State with
nioor »odif icatioos
mod if icatione of southern
areas
Accept Tri-State except 1980
distribution
modifications
Accept Tri-State
Accept Tri-Stata
Accept Tri-tate, 1980 needs
SOHC aodif icatioas
Accept Tri-State
tOHE data
"8" 2OOO
Yes Yes Yes Yes
Yes Ho Yes Yes
Yes Yes Yes Yes
Yes Yes Yes Yes
Yes Ho Yeg Yes
Yes Yes Yes Yes
Yes -
See Appendix A for further discussion.
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SECTION 3
EMISSIONS INVENTORY REVIEW AND DEVELOPMENT
Development of a base year emissions inventory and projection of these
emissions to 1980, 1985, and 2000 was accomplished using a significant amount
of new data provided by the States which was not available at the time
Tri-State developed their inventory. Review of the Tri-State methodology,
however, indicated that portions of their data represented the best available
information for'/the region and these were used in the inventories created as
part of the present contract.
A major source of emissions in the region is stationary source combustion
and correct allocation of fuel to the county level is extremely important.
These data were developed directly from MIS,1 state, and city records. County
level mobile source and incineration emissions were developed using state re-
cords and Tri-State data, while allocations of all emissions to grid squares
was achieved using the Tri-State grid data after modification and improvement
through the present contract. This section of the report presents a summary
of county level activity, followed by the conclusions of the review of Tri-
State 's data, and then by the methodology used in allocation to grids and pro-
jection to 1980, 1985, and 2000.
COUNTY LEVEL ACTIVITY
Stationary Source Fuel Combustion
Stationary source activity is primarily related to the fuel burned by
residential, commercial/institutional, and industrial buildings to provide
heat and hot water and by generating facilities to provide steam and electricity.
Due to different levels of detail in the available data, separate methodologies
were employed in New Jersey, New York City; and New York State. The basic
methodology in each case was to develop county level estimates of total fuel
use and then to separate the data into point source and area source fuel use.
A point source cutoff of 25 ton/yr of emissions of either sulfur dioxide or
particulates was used throughout the study area. A description of the methods
used to review point sources is described later in this section.
New York State—
New York State county level fuel use was provided by the State via the
1975 New York State Fuel Balance.2 These data were developed through a dealer
survey and rectified using MIS State Fuel totals. These data were specified
by the State as the totals to use in developing the inventory. Slight modifi-
cations were made, however, as is described below.
3-1
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New York State point source data were provided by the State in NEDS
format after conversion from New York's AIR-100 system. This conversion
caused some problems due to basic incompatibilities between systems; many
sources received an SCC code of "39999999" which designates an undefined
process. This problem, however, typically did not affect fuel combustion
sources. The point source inventory was summarized into categories of fuel
type and use for subsequent development of the area source, activity.
Using the 1975 New York State Fuel Balance and point source inventory,
area source fuel use was calculated for the seven counties in New York which
are not a part of New York City. Redistribution of fuel among the various-
categories was required because many fuel use classes were "overdrawn" when
point source fuel was subtracted from "total" fuel use. It was discovered
that fuel use for West Point Military Academy was not included in the fuel
balance figures since a federal facility does not necessarily purchase fuel
through normal channels.
In rectifying fuel use totals, a procedure was developed which attempted
to minimize modifying "known" totals. The steps performed in redistributing
fuel were as follows:
• Residential point source fuel (primarily apartments)
was separated from commercial point source totals;
• The 50/50 split of No. 4 and 5 fuel between distillate
and residual oil was modified to better cover point
source totals;
• Fuel was transferred from commercial use to industrial
use and vice versa; and
• Fuel was transferred between counties.
The final correction, transfer among counties, was necessary in only one
case: 1.3 million gal of industrial residual oil were transferred from
West Chester to Rockland County in order to cover deficits ,in the latter county.
Based on knowledge of the NEDS point source system and the description of
techniques used in creating the fuel balance, these modifications appeared
appropriate for rectifying fuel data. A potential problem with this proce-
dure was identified by New York State DEC. As will be described more fully
later in this section, overestimation of point source fuel use may have
occurred in certain New York counties, resulting in underestimation of the
area source component. Total fuel use by county, except for the transfer
noted above, remained consistent with the New York State Fuel Balance.
Table 3-1 presents the results of this procedure and also compares the
data with comparable data supplied by Tri-State under Contract No. 68-02-2096.
The residual oil totals are within 5 percent, but the present distillate oil
totals show a 34 percent reduction.
3-2
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TABLE 3-1. AREA SOURCE FUEL USE TOTALS FOR NEW YORK STATE
AND COMPARISON WITH 1974 TRI-STATE INVENTORY
County
Dutchess
Nassau
Orange
Putnam
Rockland
Suffolk
Westchester
Total
Class
Residential
Comm/Inst
Industrial
Residential
Comm/Inst
Industrial
Residential
Comm/Inst
Industrial
Residential
Comm/Inst
Industrial
Residential
Comm/Inst
Industrial
Residential
Comm/Inst
Industrial
Residential
Comm/Inst
Industrial
Distillate
(103 gal)
OCA
56.863
11,424
819
285,395
15,039
29,265
41,713
1,780
0
18,840
3,216
0
6,063
0
o'
218,214
9,348
10,330
115,521
49,675
9,683
882,188
Tri-State
85,690
2,040
3,400
355,260
90,640
5,030
70,770
4,100
2,150
28,290
3,380
460
14,610
13,100
140
362,000
61,150
3,760
188,320
42,640
3,090
1,340,060
Residual
GCA
0
0
0
2,403
4,489
0
0
0
0
0
0
0
0
0
0
0
24,704
0
63,912
10,620
4,679
110,807
CIO3 gal)
Tri-State
0
9,200
4,410
26,120
13,010
5,240
0
4,710
2,100
310
620
0
1,430
1,500
1,720
0
8,630
2,100
14,390
17,100
3,590
116,180
Natural gas
(106 ft1)
GCA
1,330
990
541
14,232
5,589
521
4,235
1,927
737
0
0
0
9,998
3,724
1,553
12,616
0
243
14,600
4,219
0
77,055
Tri-State
1,230
1,240
0
13,190
2,960
60
4,150
2,210
100
0
0
0
9,800
3,960
0
12,040
2,230
10
13,040
6,490
0
72,710
3-3
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New York City—
The City of New York Department of Air Resources maintains a file of
point and area source fuel use3 for the five boroughs. These data were re-
commended by the New York State Department of Environmental Conservation for
use under this contract. This file was accepted for use after a. study of
the Tri-State dwelling unit distribution within Manhattan performed by NYS DEC
indicated major discrepancies from Census Bureau figures. This problem was
attributed to Tri-State's grid rotation procedure. It was also learned that
Tri-State used a constant distribution of dwelling units per building through-
out the city. The NYC DAR inventory, which incorporates all boilers in the
city, was thus determined to be the best available data.
New Jersey—
County fuel use totals for New Jersey were developed using the techniques
specified in Volume 7 of the AQMA Guidelines.4 Appendix B of this report rep-
resents a summary of the input data and results of the county fuel allocations.
Note that not all data presented in that Appendix were utilized. Exceptions
will be described below.
Residential fuel use was calculated using an improved Level 3 analysis.
The equation presented in the AQMA Guidelines is based on pre-1974 single
family dwelling fuel use; use of this factor will overestimate the residen-
tial component. To improve this methodology, a building size correction
factor was developed using data provided in Volume 13 of the AQMA Guidelines.
In this analysis, residual oil was assumed to be used only in buildings with
more than 19 dwelling units.
State commercial, and industrial fuel use was allocated to the county
level based on employment in the respective sectors. Point source fuel use
subtracted at the county level. It was necessary, however, to rectify the
area source totals since some counties had negative area source fuel use.
This was found to occur due to the existence of a very large point source
in the county. To rectify totals, the fuel use and estimated employment of
major point sources was subtracted at the state level and allocation performed
using the remaining totals. This corresponds to a modified Level 2 analysis.
Table 3-2 presents area source fuel use by stationary sources in the New Jersey
counties.
All other area source data were developed using the Tri-State activity
and allocation methodology.
POINT SOURCE REVIEW
Point s'&urce data for New Jersey and New York State were provided in
NEDS format.for the base year, 1975. The New York City inventory was provided
in COM format and no editing was required under the contract. The data were
divided on a county basis and entered into a computer for editing. Software
was developed to process the NEDS files, report discrepancies in parameters
and convert to model (AQDM) format.
3-4
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TABLE 3-2. NEW JERSEY AREA SOURCE FUEL USAGE
1
County
IH'ryen
KflS*!K
Hudson
Middlem.1*
Monmoulh
Morris
I'assai c
Somersc l:
Union
Totals
Grand Total
Type"
K
C/I
Ind.
R
c/i
Ind.
R
C/I
Ind.
R
C/I
Ind.
R
C/l
Ind.
R
-C/l
Ind.
K
C/I
Ind.
R
C/I
Ind.
R
C/l
Ind.
K
C/l
Ind.
Ill Ml ill/Ill' oil
(10( gal)
Tri-State
84,400
170,060
3,410
65,100
190,150
1 , 940
36,560
105,790
590
50,260
108,470
14,400
40,320
76,300
3,160
38,010
61,600
580
41,980
83,020
1,370
20,830
34,820
660
47,880
125,870
650
425,340
956,110
27,860
1,049,300
CCA
122,200
63,300
13,840
116,030
69,000
9,460
63,420
37,150
9,390
76,850
33,920
1,350
61,550
22,870
3,410
74,220
31,680
3,230
51,600
28,440
3,460
32,120
11,340
3,920
92,250
39,670
4,850
690,240
.344,980
46,570
1,081,790
HI'S idua 1 oil
(103 gal)
TrJ -State
18,620
8,200
J.3,990
34,050
9,160
9,440
28,060
5,100
9,100
9,270
5,230
18,450
6,770
3,680
3,340
6,520
2,970
5,180
9,700
4,000
21,670
2,480
1,680
22,600
12,010
6,070
41,780
127,480
46,090
145,550
319,210
GCA
5,500
41,650
15,500
15,050
45,420
24,910
7,060
24,450
18,200
2,630
22,320
10,450
2,010
15,050
7,390
2,630
24,140
9,160
2,430
18,720
26,440
560
7,460
14,480
4,930
26,100
5,220
42,800
225,310
116,080
384,190
Natural &HH
(106 ft3)
Tri-State
20,830
7,200
202,630
13,610
8,060
50
6,530
4,430
2,050
13,200
4,540
48,530
11,420
3,180
670
10,760
2,610
280
8,820
3,460
28,420
5,540
1,480
1,690
11,010
5,280
4,960
101,720
40,240
289,280
431,240
GCA
21,650
7 , 440
5,520
12,580
8,110
5,000
8,170
4,370
4,980
11,960
3,990
4,380
10,580
2 , 690
1,710
6,450
4,310
2,970
10,040
3,340
4,260
4,710
1,330
1,790
9,740
4,660
1,810
95,880
40,240
32,420
168,540
R = Residential; C/I Commercial/Institutional; Ind. - Industrial.
3-5
-------�
The computer program checked the following data:
• Stack height, stack diameter, exit gas velocity and exit
gas temperature were flagged if not within predetermined
range;
• Annual fuel usage was compared with boilei capacity;
9 Emission rates were calculated for each external combustion
boiler and compared with the reported emission rates; and
• The reported coordinates of the source were listed.
The coordinates of each source was compared with county boundaries to
determine proper specification at that level. Location of major sources was
also compared with the coordinates of the town listed in the NEDS identification
field as a further check of correct location. All source and location discrep-
ancies were reported to the appropriate agency personnel and corrections were
incorporated into the AQDM files.
The computer program, in addition to checking parameters, totals fuel
use by fuel type and use and separates sources into point sources (those with
emissions greater than 25 tons) and small point sources (all others). The
small point sources are separated at this stage and their emissions are later
added to the area source grid in which the small point source is located.
This technique allows the resolution provided in the point source inventory
to be maintained as opposed to an alternative methodology of adding small
point source fuel to area source fuel and spreading the total throughout
the county based on the area source allocation procedure. This technique
was not entirely successful in New York State, and particularly Nassau County,
where over 1,000 small point sources could not be practically reviewed for
errors in annual fuel use. It was known, however, that numerous errors
occurred in coding these data during initial reporting to the State and the
fuel use was often orders of magnitude too great. This problem is most likely
the cause for area source fuel use in New York State (Table 3-1) to be
so small. It was decided, however, to continue with adding the small point
sources to their specified grid.
REVIEW OF TRI-STATE INVENTORY TECHNIQUES AND APPLICATION DESCRIPTION UNDER
THE PRESENT CONTRACT
Since stationary source fuel use was developed from new data for this
contract, review of the Tri-State techniques for development of these data
generally was not made. Tables 3-1 and 3-2 present a comparison of area
source fuel usages determined by Tri-State to those made under the present
contract. The review of the Tri-State data primarily focused upon differ-
ences in the land use files and population estimates used for allocation and
projection as was described in Section 2, upon estimates of county incinera-
tion and mobile source fuel use and subcounty allocation procedures, and upon
the methods and assumptions used to allocate stationary source data, in
3-6
-------�
particular residential fuel, to counties in New Jersey and to'grids in all
counties. This section describes this review and the assumptions made for
the present study.
County Residential Fuel Use - New Jersey
County level residential fuel allocations were reviewed for the New Jersey
counties since a fuel balance was not provided by the state. Tri-State utilized
the results of a survey of the entire nine counties. This survey indicated
the following distribution of fuels by building size.
Fuel type
DU/Bldg Oil Gas Other
1 0.355 0.619 0.026
2-4 0.608 0.379 0.013
5-19 0.576 0.308 0.116
20+ 0.941 0.0 0.059
In addition, all buildings containing five or more dwelling units and which
use oil were assumed to use residual oil. This distribution was assumed to
hold in all of the New Jersey counties.
Comparison of this distribution with the 1970 Census data indicates that
only in Bergen County is the fit acceptable. Natural gas usage is overpredicted
in the urban counties and underpredicted in the suburbs. In addition, the
assumption that all buildings with more than four units burn residual oil is
apparently unreasonable based on boiler size requirements.
It was recommended that the county level distribution of fuel use specified
in the 1970 Census data, modified to reflect conversions from coal, be used in
place of the Tri-State technique. This allowed for a better distribution
of fuel at the county level. In addition, residual oil use should be assumed
only for buildings with more than 19 units. This latter assumption was
supported by survey data taken in New York City and was discussed with and
accepted by each of the regulatory agencies.
Residential Allocations to Grids
Tri-State's county level distribution of dwelling units per building,
however, was acceptable as was information for selected MCD's throughout
the study area. In performing the allocation of county fuels to grids, the
following procedure was used. This technique employed the Tri-State grid
level building size distribution in conjunction with Census Bureau data on
distribution of fuel use in major urban areas. Major urban areas were identified
within each county and the corresponding fuel use distribution was applied to
3-7
-------�
these areas. The remaining areas of each county were assigned a "nonurban
distribution. This was computed by subtracting from the total housing units
in the county using each fuel type, the respective units allocated as urban.
The remainder was used to calculate the nonurban distribution for each county.
Fuel efficiency factors were used based on the distribution of building size
within each grid as recommended in Volume 13 of the AQMA Guideline.
Industrial and Commercial/Institutional Allocation
The Tri-State inventory of commercial/institutional and industrial fuels
was developed and allocated utilizing a nonresidential category which covered
all of these fuel uses. The present contract utilized the data developed
through visits to county planners to create separate categories of land use
for the allocation. Hence, fuel from each category was allocated to a grid
based upon the portion of the total land use which was contained within that
grid.
Mobile Source and Incineration Activity
Review of the Tri-State county totals and allocation and projection
routines indicated that no further improvement of the aircraft, locomotive,
and motor vehicle data was necessary. Incineration data were also accepted
with the exception that New York City totals were normalized to emissions
estimates provided by NYS DEC. The following emissions were used:
Year
Pollutant
1975 1980 1985 2000
Sulfur dioxide (ton/yr) 240 200 191 191
Paiticulates (ton/yr) 5,580 1,000 736 736
The distribution of emissions within grids was identical to that used
by Tri-State.
Implicit to the light-duty vehicle emissions estimates are both conver-
sion of the vehicle population from leaded to unleaded gasoline and the im-
provement in fuel economy required by federal regulations. Average fuel
economy and emission rate by projection year was as follows:
Year Fuel consumption Particulate emission rate
(mpg) (g/mi)
1975 13.5 0.54
1980 16.7 0.38
1985 20.0 0.28
2000 27.5 0.28
-------�
Fugitive Emissions
Tri-State computed fugitive dust emissions from apartment house construc-
tion using housing projections for buildings with five or more dwelling units.
This methodology and the resulting figures were felt to be adequate for in-
clusion in the inventory and subsequent modeling effort. Tri-State's method-
ology involved identification of grids in which apartment house construction
would be expected in each study year, the assumption that 20 dwelling units
per acre would be the average density and that a project would last for 3
months. Emissions in this category will be somewhat overestimated because
the study area has a much greater precipitation index than is implicit in
published emission factors based on national averages.6
A review of several other sources of fugitive dust was made to determine
whether adequate emissions estimates could be prepared. These included paved
and unpaved roads, land tilling, and storage piles. It was felt that the
probelms with estimation of emission rates and the suspendability of the ma-
terial made any attempts at inventorying and modeling futile. These emissions
can best be handled using the site-specific microinventory process.
PROJECTION METHODOLOGY
The target years for air quality maintenance planning under this contract
were 1980, 1985, and 2000. Projections of fuel use and emissions was made using
both the '208' population figures discussed in Section 2 and Tri-State's projec-
tion of growth for specific industries within the region.
Discussions were held with state and local agency personnel as to the
best assumptions to make about future emissions. The States provided estimates
of generating station emissions by year and New York State supplied their
"special limitation" implementation schedule. This program allows certain
sources to burn higher sulfur oil (these sources are listed in Table 3-3);
based on data supplied by New York State and the Tri-State inventory, all
incinerators were assumed either to be closed or in compliance by 1984. Fuel
consumption by automobiles was estimated assuming full implementation of
Federal fuel economy regulations.
TABLE 3-3. NEW YORK STATE SPECIAL LIMITATIONS
ON FUEL SULFUR CONTENT
Fuel sulfur content
Facility (%)
1975 1980 1985
Port Jefferson
Northport
Glenwood
E.F. Barrett
2.8
2.8
0.37
0.37
2.8
2.8
1.0
2.2
0 Q
/ . O
2.8
1.0
2.2
3-9
-------�
Projection of point source emissions other than those from power plants
was performed using the Tri-State growth factors by SIC code for industrial
sources and by county growth factors for commercial/institutional. Tables 3-4
and'3-5 present, respectively, these growth factors. Projection of power^
plant emissions was supplied by the states. Major changes in these facilities
included addition of Astoria No. 6 in Queens, and changes at the Arthurkill
and Northport stations.
Area source emissions were projected using the recommended population
totals (see Section 2) for the residential component and change in total floor
space for commercial/institutional and for industrial. Allocation of emissions
to grids was accomplished using the corrected Tri-State land use file described
in Section 2.
County activity projection and subcounty allocation of mobile source,
incineration and fugitive emissions were made using the Tri-State data.
EMISSION FACTORS
Emissions calculations were performed using the factors presented in
the U.S. EPA's AP-42 document.6 An exception to this was use of higher external
combustion particulate emissions than those presented in AP-42 in order to
account for the age of the boiler population in the region. This conclusion
was reached after a series of stack tests were studied by New York State DEC.
The factors used were as follows:
... ,T Emission factor
Oil type User class (lb/1Q3 gfll)
No. 6 Non-power plant 23
No. 6 Power plant 15 (or stack test)
No. 4 All 23
No. 2 Commercial/Institutional 15
No.. 2 Residential 10
3-10
-------�
TABLE 3-4. INDUSTRIAL OUTPUT GROWTH FACTORS
FOR TRI-STATE REGION
Industrial sectors 1974 1980 1985 2000
Chemical Mfg 1.000 1.297 1.519 2.513
Food/Agriculture 1.000 1.002 1.004 1.165
Primary Metals 1.000 0.840 0.840 0.862
Secondary Metals 1.000 0.840 0.840 0.862
Mineral Products 1.000 1.151 1.288 1.868
Petroleum 1.000 1.107 1.188 1.531
Wood Products 1.000 1.003 1.094 1.493
Total Manufacturing 1.000 1.113 1.224 1.704
Metal Fabrication 1.000 1.100 1.205 1.663
Leather 1.000 1.151 1.288 1.868
Textile 1.000 1.020 1.180 1.550
Inprocess Fuel 1.000 1.113 1.224 1.704
Other 1.000 1.151 1.288 1.868
3-11
-------�
TABLE 3-5. COMMERCIAL/INSTITUTIONAL
POINT SOURCE GROWTH
FACTORS
Growth factors
County •
1974 1980 1985 2000
Dutchess 1.000 1.068 1.126 1.330
Nassau 1.000 0.989 0.999 1.092
Orange 1.000 1.148 1.271 1.618
Putnam 1.000 1.007 1.050 1.302
Rockland 1.000 1.057 1.105 1.272
Suffolk 1.000 1.079 1.147 1.286
Westchester 1.000 0.999 1.037 1.162
Bronx 1.000 0.982 1.019 1.166
Kings 1.000 0.984 0.979 1.036
New York 1.000 1.046 1.092 1.109
Queens 1.000 0.998 1.003 1.056
Richmond 1.000 1.213 1.390 1.836
Bergen 1.000 1.038 1.104 1.301
Essex 1.000 1.002 1.005 1.095
Hudson 1.000 0.993 1.040 1.247
Middlesex 1.000 1.096 1.205 1.505
Monmouth 1.000 1.088 1.161 1.403
Morris 1.000 1.057 1.118 1.324
Passaic 1.000 0.996 1.014 1.143
Somerset 1.000 1.020 1.097 1.327
Union 1.000 0.997 0.995 1.024
3-12
-------�
SECTION 4
ULSTER COUNTY EMISSION INVENTORY
Ulster County is located in the Mid-Hudson Valley and is not included
within Tri-State Regional Planning Commission's planning area. The eastern
half of the county, however, is included in the Mid-Hudson Air Quality Main-
tenance Area (AQMA). Hence, it was necessary to generate base and projection
year inventories for use in the regional modeling analysis. This section de-
scribes the development of this inventory.
DATA BASE
The data used to generate the base year emissions inventory were pro-
vided by the New York State Department of Environmental Conservation. In-
cluded were the 1975 point source fuel use and emissions inventory; the 1975
county total fuel use; and a file of land use by square kilometer grid
(LUNR data).
The following table presents total 1975 stationary source fuel use in
Ulster County:
Fuel Type
Residential
Commercial/ Institutional
Industrial
Coal
(101 tons)
148
79
0
Distillate Oil
(10^ gal)
3855
1122
20
*
Residual Oil
(104 gal)
281
347
2513
Natural Gas
do7 ft3)
68
36
86
Total 227 4997 3141 190
*
No. 4, 5, and 6
The LUNR data includes, for each square kilometer in the AQMA, a summary
of 49 categories of land use as well as a key to the minor civil divisions
containing the grid square. These data were summarized into a file of popu-
lation, housing, employment, and transportation land use.
4-1
-------�
Population and housing estimates by grid square were computed using the
following housing density:
Residential Land Use Type Density (PU/Ha)
High Density 30
Medium Density 10
Low Density 5
Strip Development 1
Rural Hamlet 2
Occupancy was assumed to be 90.2 percent and family size 3.2 persons/DU
as derived from U.S. Census Bureau figures. These computed values of popula-
tion by grid were then normalized on a town-basis to 1970 population figures
and projected to 1975 using county estimates. Commercial and Industrial em-
ployment was estimated using County Business Pattern data and allocated to
grids based on the respective LUNR land classifications.
The 1975 Ulster County NEDS point source inventory was summarized by fuel
and user type so that an area source inventory could be created. Sources
emitting greater than 25 tons/year of particulate were included in this in-
ventory; smaller point sources were separated and later added to the area
source grid within which the source was located,
COUNTY AREA SOURCE ACTIVITY
County activity in categories other than stationary sources was estimated
using the techniques specified in the EPA AQMA Guidelines. Highway mobile
source activity was allocated from State MIS1 figures using county vehicle
miles travelled (VMT) data while rail and off-highway use was allocated based
on population. Civil aircraft operations were estimated using an assumption
of 365 LTO's per airstrip per year. Solvent use was estimated at 8 pounds/
capita-year and structure fires at 0.004/capita-year. Estimates of activity
within the AQMA were made using a ratio of AQMA population-to-total population
with the exception that commercial and industrial data were estimated by em-
ployment. Table 4-1 presents AQMA area source activity for 1975.
In creating the stationary source inventory, several adjustments were
necessary. When the New York State Fuel Balance was performed, most of the
distillate oil was allocated as commercial/institutional while most of the
residual oil was used by industry. The NEDS point source inventory classifi-
cation, however, indicated a different mix, resulting in point source fuel use
being greater than total fuel use in some categories. To remedy this problem,
area source fuel use in the "overdrawn" categories was set to zero and the
remaining point source fuel subtracted from the corresponding fuel use total
of the other use class.
4-2
-------�
TABLE 4-1. AREA SOURCE ACTIVITY - AQMA PORTION OF ULSTER COUNTY
Stationary source fuel use
Coal
(101 tons)
Residential 148
Commercial/Institutional 79
Industrial 0
Light duty vehicle
Heavy duty vehicle
Railroad
Off-highway
Civil Aircraft Operations (LTO's)
Solvents purchased (tons)
Structure fires
Distillate Oil Residual Oil Natural Gas
(10* gal) (10* gal) (107 gas)
3,176
575
0
Mobile source
Gasoline
(103 gal)
64,513
3,832
-
2,211
39,710
500
500
0
65
1,427
fuel use
Diesel
(103 gal)
-
3,053
70
263
68
36
84
4-3
-------�
ALLOCATION TO GRIDS
Total county emissions associated with county activity were computed and
allocated to one-kilometer grids based on appropriate land use factors. Review
of census data on the distribution of fuel use type within the county indicated
that most natural gas was used within Kingston. This propensity for use of
different fuel types in the county was accounted for by computing a gas and
a nongas-using population figure for each grid. Allocation was achieved using
the following factors:
Activity
Allocation Factor
Residential Gas Gas-using Population
Other Residential Nongas-using Population
Commercial
Industrial
Railroad
Airport
Highway
Off-highway
Structure Fires
Commercial Employment
Industrial Employment
Railroad Land Use
Airport Land Use
Highway and Residential Land Use
"Other" Land Use
Population
Total county area source emissions allocated to grids are 3,476 tons/year
of S02 and 6,871 tons/year of particulate.
PROJECTION METHODOLOGY
Projection of emissions to 1980, 1985, and 2000 was performed using '208'
population figures and projections of commercial and industrial facilities
using OBERS projections for the county. Growth in motor vehicle use was
supplied by NYSDOT and was placed at 3.53 percent per year. Gasoline usage
and the resulting emissions were calculated as described in Section 3.
Point source growth factors were those used for the rest of the study area.
(See Section 3.)
Subcounty allocation of residential emissions was made using MCD growth
factors provided by NYSDEC. Dwelling units were projected on a grid-by-grid
basis based on the MCD containing the grid. The results were then normalized
to county totals. All other growth was assumed to be distributed based on
present allocations.
4-4
-------�
SECTION 5
MODEL SELECTION, VALIDATION, AND CALIBRATION
Analysis of the impact of changes in total emissions on ambient air
quality, including determination of maintenance of the National Ambient Air
Quality Standards (NAAQS), is performed using air quality modeling techniques.
The principal tool in this process is a multisource dispersion model which is
capable of representing the impact of spatially-distributed sources with a
wide range of emission characteristics at specific receptor locations.
The .procedure employed in performing an air quality modeling analysis
includes:
• Selection of a model;
• Collection of input data;
• Validation of the model;
• Calibration of the model; and
• Analysis of regional air quality.
This section decribes the performance of the first four of these tasks;
Section 6 describes the regional modeling analysis.
MODEL SELECTION
The requirements of this program suggested a model which was capable of
representing the complex urban terrain of Manhattan as well as the rural
sections of the Hudson Valley. Also, a source contribution file was necessary
to minimize the cost of evaluating future air quality.
The Air Quality Display Model (AQDM)7 was selected as the basic model for
performing the analysis. Substantial modifications were made to allow for
representation of urban sites. The Brigg's plume rise equations were sub-
stituted for the earlier Holland equation; a pollutant half-life decay factor
and exponential windspeed profile were added to represent these atmospheric
phenomena; a source contribution file option was created; and the model was
modified to use a user-selected morning mixing height and to allow prediction
of concentration at elevated receptors. This modified version of AQDM, along
with the modified meteorological files described below, was determined to be
an acceptable model for modeling Metropolitan New York.
5-1
-------�
INPUT DATA
The principal inputs to a model such as AQDM are the emissions data, a
meteorological summary representative of the averaging period and region of
interest, and the location of prediction receptors. The emissions data used
in the validation have been described previously and the location of each
ambient monitor and the recorded values were supplied by regulatory personnel.
Development of a representative meteorological summary for use in the
model required a review of current knowledge of the meteorology of pollutant
dispersion and the local effects at the National Weather Service stations in
the New York City area. The inputs to the AQDM include the joint frequency
of windspeed, wind direction, and stability class (STAR data); afternoon and
morning mixing height; and average temperature. A review of the regional
meteorology suggested that the study area should be split, representing New
Jersey and Staten Island using Newark data and remaining sections of New York
City and State using La Guardia data. Further, it was determined that within
the four boroughs of New York City (excluding Staten Island) an "enhanced"
stability regime would be used. This stability classification is similar to
that used by the Climatological Dispersion Model (CDM) often used to model
urban areas. It represents the enhanced mixing characteristics caused by
building-induced turbulence by shifting the computed stability for each hour
by one class towards unstable. Class A hours (the most unstable) were un-
changed. Table 5-1 presents the meteorological characteristics used in the
modeling analysis. All data represented 1975 annual observations to be con-
sistent with the emissions and air quality data.
The effective stack height for each individual grid was computed by
averaging the mean effective stack height of each of the following emission
categories,8 weighted by its relative emission strength within the grid:
Mean effective
Source category stack height
(m)
Residential 15
Commercial/Industrial 47
Industrial 58
Incineration 23
Roadway 4
An attempt was made to compute a separate average stack height for each
pollutant within each grid. Preliminary modeling, however, indicated that
this procedure provided no substantial improvement in the results. Hence,
the weighted average effective stack height computed using source strength
of both pollutants by category was used. Half-life factors used in the
analysis were 3 hours for S02 and infinite for particulates.
5-2
-------�
Ul
I
OJ
TABLE 5-1. METEOROLOGICAL COMBINATIONS USED IN MODEL VALIDATION
Met
Mixing height Ambient Stability
Region iJ^~7 —— ™i~...^"»- *, ^w.*.*.*.*.} ^
station Morning (m) Afternoon (m) temperatures (°F) classification
New Jersey and
Staten Island
New York City
(excluding S.I.)
New York State
Newark
Laguardia
Laguardia
500
839
500
1,286
1,286
1,286
54
54
54
normal
enhanced"
normal
See text.
-------�
MODEL VALIDATION
Model validation involves comparison of model predictions with actual
monitor data so that conclusions can be drawn as to the reliability of the
model and the prospect for accurate representation of regional air quality.
To evaluate the validation results, a correlation coefficient "r" was
computed between observed and predicted values. The correlation coefficient
is a measure of the strength of a linear relationship between two variables,
in this case the measured and predicted concentrations. It will have a value
close to 0 for a line incapable of prediction and close to 1.0 for a line
capable of perfect prediction. Table 5-2 presents these correlation
coefficients for each region and pollutant. All values of "r" were statistically
significant at the 95 percent level. These values may be interpreted quanti-
tatively by stating that r2 is equal to the percentage of the variance of the
predicted concentrations that can be accounted for by a linear relationship
with the measured concentrations. The remaining percentage is referred
to as the error variance, due to factors such as:
TABLE 5-2. RESULTS OF MODEL CALIBRATION
Correlation Coefficient
lS.eg.LULl
New York City
New Jersey
New York State
TSP
0.62
0.63
0.45
S02
0.89
0.69
0.37*
*
See text for further detail.
• Accuracy of the atmospheric diffusion model;
• Accuracy of the emissions data;
• Accuracy in the meteorological data; and
• Potential bias in the monitoring data used for validation.
Tables 5-3 through 5-6 present the comparison of predicted and observed air
quality concentrations at each monitor site. Model predictions have not been
adjusted to reflect calibration in these tables.
MODEL CALIBRATION
The purpose of a calibration is to incorporate into the modeling study
information concerning the relationship between measured and predicted
concentrations illustrated by the model validation. Ideallv, model predictions
and actual measured data should be related by a line with a" slope of unitv and
an intercept of zero. However, deficiencies in the emissions inventory (e e
the exclusion of natural and fugitive sources of particulates) and inaccurate'
5-4
-------�
TABLE 5-3. NEW JERSEY TSP MONITORS
TSP (yg/m3)
Fair Lawn
Upper Saddle River
Fort Lee
Hackensack
East Orange
Irving ton
Livingston Twp .
Orange
West Orange
Newark
Bayonne
Jersey City (579.9
Jersey City (576.5
Secaucus
Hoboken
Carteret
Perth Amboy
Sayreville
South Amboy
Woodbridge Twp.
Sewaren
S . Brunswick
Cheesequake
Metuchen
Middlesex
Asbury Park
Millstone Twp.
Red Bank
Brielle
Dover
Florham Park
Observed
43
36
42
54
56
49
32
47
47
53
64
4508.7) 81
4509.3) 71
59
61
71
62
57
59
51
57
49
35
51
51
50
33
39
34
36
33
Calculated
23
9
46
30
35
31
17
26
21
45
37
53
46
40
62
25
21
14
19
21
23
7
13
17
11
7
5
9
6
7
11
(continued)
5-5
-------�
TABLE 5-3 (continued)
Observed Calculated
Paterson 39 20
Shillman 37 6
Linden 62 28
Roselle 66 25
Rahway 44 23
Union Twp. 43 31
5-6
-------�
TABLE 5-4. NEW JERSEY AND STATEN ISLAND S02 MONITORS
S02 (yg/m3)
Bayonne
Elizabeth (567.0 4499.0)
Newark
Asbury Park
Elizabeth (566.4 4501.0)
Hackensack
Jersey City
Morris town
Paterson
Perth Amboy
Sotnerville
Staten Isl. (578.1 4499.2)
Staten Isl. (564.1 4484.2)
Observed
47
44
50
26
34
21
42
24
21
31
24
59
40
Calculated
44
78
47
6
56
26
56
14
21
32
8
47
27
5-7
-------�
TABLE 5-5. NEW YORK STATE S02 AND TSP MONITORS
S02
(yg/m3)
Observed Calculated
Glen Cove
Freeport
Garden City
Rockville Ctr.
Kings Pt.
Hemp stead
Hemps tead
Hemps tead
Hemps tead
Hemps tead
N. Hemp stead
N. Hempstead
Oyster Bay
Oyster Bay
Oyster Bay
Roslyn
Port Jefferson
Port Jefferson
Babylon
Babylon
Brookhaven
Brookhaven
East Hampton
Islip
Islip
Islip
Smithtown
Southampton
Peekskill
White Plains
24
21
21
24
16
21
18
31
18
24
16
21
16
18
16
21
-
-
-
29
-
-
8
13
-
13
-
-
-
31
15
22
23
24
,22
27
19
20
23
22
18
19
17
11
16
16
-
-
-
16
-
-
1
11
-
-
-
-
-
12
(continued)
5-8
TSP
Observed
55
48
44
53
41
54
55
60
49
60
46
44
49
42
49
-
40
49
54
-
40
40
-
-
42
-
48
30
60
50
(yg/m3)
Calculated
16
21
24
25
27
29
20
21
25
24
20
24
28
12
17
-
8
7
17
-
9
7
-
-
12
-
13
3
9
14
-------�
TABLE 5-5 (continued)
White Plains
Mt . Vernon
New Rochelle
Ossining
Port Chester
Yonkers
Rye
Mamaroneck
N. Tarry town
Greenburg
Mamaroneck
Mt. Plesant
Somers
W. Haver straw
Nyack
Suffern
Clarkstown
Orange town
Cold Springs
Brewster
Newburgh
Poughkeepsie
Rhinebeck
Fiskkill
La Grange
Kingston
New Paltz
S02 (yg/m3) TSP
Observed Calculated Observed
31 10
42 29 54
59
- - 46
31 11 42
60
59
35 13 50
- - 47
21 10 55
31 16 52
21 9 42
21 4 34
16 6 43
18 8 -
48
8 5 44
- - 46
41
41
- - 65
56
40
- - 41
34
56
48
(yg/m3)
Calculated
-
32
24
11
13
29
13
16
15
14
19
11
7
9
-
6
10
12
8
7
8
9
7
8
8
14
6
5-9
-------�
TABLE 5-6. NEW YORK CITY S02 AND TSP MONITORS
Bronx Hi
Morr isania
CCNY
Central Park
Gompers
Ft. Schuyler
Mabel Dean
Greenpoint
Jet. Blvd.
Queens College
PS 371
Brooklyn Lib
51 Astor PI.
121st St. Lab
Sheepshead
PS 11
Van Buren
Grover Cleveland
Andrew Jackson
Roosevelt Island
S02 <
Observed
51
69
72
53
75
37
75
67
48
51
56
59
80
75
53
53
45
53
45
59
^yg/m3)
Calculated
27
54
52
48
58
16
52
42
30
23
28
36
51
58
20
39
16
33
18
44
TSP
Observed
57
75
70
65
76
48
71
73
63
50
77
52
-
-
62
70
59
64
58
_
(yg/m3)
Calculated
30
53
44
45
52
19
46
41
32
30
25
38
-
-
23
44
19
37
21
_
5-10
-------�
spatial representation of area source emissions (these emissions are "smeared"
over an area with a minimum size of 1 square kilometer) as well as unrepresen-
tative meteorological and monitoring data all combine to create an, imperfect
model. Correction for these imperfections is performed by fitting the data
with a least-squares line of best fit. This was performed separately for
each pollutant and for the three regions noted in Table 5-1. Further review
of these regional breakdowns suggested that Long Island should be separated
from the Mid-Hudson Valley. The S02 validation results improved significantly
after separation of the data; TSP, however, changed very little. Figures 5-1
through 5-6 present the calibration lines. The results of the SC>2 validation
for the Mid-Hudson area are not presented as this has not been designated as
a maintenance area.
5-11
-------�
20 h
10
r=0.63
INTERCEPT = 37.54
SLOPE = 0.53
0 10
20 30 40
CALCULATED,/ig/m3
50 60
Figure 5-1. Validation of New Jersey TSP sites,
5-12
-------�
80
70
60
50
ro
E
4
a 40
Ul
(fl
8
30
2O
10
10
20 30
CALCULATED ,
r = 0.69
INTERCEPT =21.50
SLOPE = 0.40
40
50
60
Figure 5-2. Validation of New Jersey and Staten Island
S02 sites - 1975.
5-13
-------�
ao
70 h
= 0,89
INTERCEPT =31.0
SLOPE = 0.7 5
Figure 5-3. Validation of New York City S0£ sitas - 1975.
5-14
-------�
eo
70
60
50
ro
E
a>
a 40
Ul
w
8
30
20
10
10
J_
20 30
CALCULATED ,
INTERCEPT - 46.35
SLOPE = 0.50
40
50
60
Figure 5-4. Validation of New York City TSP sites - 1975,
5-15
-------�
80
ro
60
30
K)
E
9
4.
a" 40
LJ
IT
UJ
M
30
20
r= .45
INTERCEPT =41.23
SLOPE=.46
J_
_L
10
30 30
CALCULATED ,
40
50
60
Figure 5-5. New York State TSP validation - 1975,
5-16
-------�
80
TO
60
50
i
o~ 40
UJ
£
UJ
30
20
10
r = 0.52
INTERCEPT = 11.21
SLOPE =0.48
10
20 30
CALCULATED,
40
50
60
Figure 5-6. Long Island SC>2 validation - 1975,
5-17
-------�
SECTION 6
REGIONAL MODELING ANALYSIS
A regional analysis of base year (1975) and projected air quality was
performed to determine whether NAAQS will be maintained. This task was
achieved by using the projected emissions inventory, average regional meteorology;
an array of receptor points located throughout the area and the calibrated model
to predict annual S02 and TSP concentrations.
The generation of the projected emission inventories has been discussed
in Section 3 of this report. Average meteorological data were implemented as
was described in Table 5-1, however, the base period of record was the 5-year
average, 1960 to 1964, rather than the validation year; 1975. The regional
array of receptor locations was specified by the States. It was decided that
only the monitor locations would be modeled in New York City.
The modeling analysis was performed by executing the AQDM model for the
base period and creating a file of source contributions, that is, the relative
impact of every source on every receptor. Projected air quality was then
calculated by multiplying the projected emission rate by the source contri-
bution and summing over each receptor. Implicit in the use of this technique
is the assumption that plant operating characteristics other than emission
rates do not change over time. Calibration for all years was applied by
multiplying the concentration computed by the model by the slope and adding
the intercept.
Figures 6-1 through 6-24 presents the results of the regional modeling
analysis in the form of concentration isopleths. The figures are organized
to present, for each pollutant and region, predictions of air quality for the
four years. Since these are projections including the calibration curve,
the values included in these figures represent actual air quality concentrations,
within the accuracy of the model.
Review of these data indicate that S02 levels in New Jersey and Staten
Island are not expected to exceed the 80 yg/m3 standard through the year 2000.
The secondary guideline for TSP (60 yg/m ), is exceeded throughout Hudson
County in 1974 and the predicted area of exceedance extends to include southern
Bergen and eastern Essex and Passaic Counties by 2000. An isolated TSP "hot-
spot" located in southern Passaic County resulted from location of a receptor
immediately to the east of a major source.
New York City 862 levels are below the annual standard until 2000 when
the Gompers site is predicted to equal 80 yg/m3. TSP levels exceed the
60 yg/m3 secondary guideline throughout most of the four boroughs; in 2000
the Gompers area is also predicted to exceed the primary standard for TSP-
6-1
-------�
The New York State results indicate that the S02 standard will be maintained
through the year 2000; areas of southern Westchester County, however, are
expected to be above the secondary TSP guideline in all 4 study years.
As a perspective on these base and projection year isopleth maps, sev-
eral points must be considered. The use of a linear curve to calibrate the
model can result in significant under- or overprediction at those points
which were poorly represented in the initial validation. As an example, the
standard error between observed and calibrated base year S02 predictions in
New York City was 5.7 yg/m3, implying this magnitude of "shift" between ob-
servation and prediction. The existence of a "background" in the calibration
tends to moderate the impact of growth on air quality projections. The exi-
tence of different calibration curves for each region also suggests differ-
ences in monitoring techniques or in the degree of representativeness of the
meteorology and emissions inventory. Finally-, the use of projections, consis-
tent with "208" figures in the Bronx and Kings as recommended by NYS DEC would
have resulted in slightly lower projected concentrations.
3-2
-------�
23
Figure 6-1. New Jersey Regional Modeling Analysis for SOa - 1974 (yg/m3)
6-3
-------�
Figure 6-2. New Jersey Regional Modeling Analysis for S02 - 1980 (yg/m3)
6-4
-------�
Figure 6-3. New Jersey Regional Modeling Analysis for S02 - 1985 (yg/m3)
3-5
-------�
23
SO
Figure 6-4. New Jersey Regional Modeling Analysis for S02 - 2000 (yg/m3)
6-6
-------�
49
Figure 6-5. New Jersey Regional Modeling Analysis for TSP - 1974 (yg/m3)
6-7
-------�
4S
Figure 6-6. New Jersey Regional Modeling Analysis for TSP - 1980 (yg/m3)
6-8
-------�
Figure 6-7. New Jersey Regional Modeling Analysis for TSP - 1985 (yg/m3)
6-9
-------�
60
50
49
Figure 6-8. New Jersey Regional Modeling Analysis for TSP - 2000 (yg/m3)
-------�
Figure 6-9. New York City Regional Modeling Analysis for SC>2 - 1974 (yg/m3)
6-11
-------�
50.
60
Figure 6-10. New York City Regional Modeling Analysis for
6-12
S02 - 1980 (yg/m3)
-------�
Figure 6-11. New York City Regional Modeling Analysis for SC>2 - 1985 (yg/m3)
6-13
-------�
60
Figure 6-12. New York City Regional Modeling Analysis for S02 - 2000 (yg/m3)
6-14
-------�
60
Figure 6-13. New York City Regional Modeling Analysis for TSP - 1974 (yg/m3)
3-15
-------�
60
Figure 6-14. New York City Regional Modeling Analysis for TSP - 1980 ( /m3)
6-16
-------�
60
Figure 6-15. New York City Regional Modeling Analysis for TSP - 1985 (yg/m3)
6-17
-------�
Figure 6-16. New York City Regional Modeling Analysis for TSP - 2000 (yg/m3)
6-18
-------�
I
h-'
^D
Figure 6-17. New York State Regional Modeling Analysis for SC>2 - 1974 (yg/m3).
-------�
ON
I
NO
O
Figure 6-18. New York State Regional Modeling Analysis for S02 - 1980 (yg/m3).
-------�
'30 20
Figure 6-19. New York State Regional Modeling Analysis for S02 - 1985 (|ig/m )
-------�
I
t-0
Figure 6-20. New York State Regional Modeling Analysis for S02 - 2000 (yg/m3)
-------�
I
N3
LO
40
Figure 6-21. New York State Regional Modeling Analysis for TSP - 1974 (yg/m3)
-------�
40
Figure 6-22. New York State Regional Modeling Analysis for TSP - 1980 (yg/m3)
-------�
I
M
Ul
40
Figure 6-23. New York State Regional Modeling Analysis for TSP - 1985 (ug/m3)
-------�
O-N
I
r-o
40
Figure 6-24. New York State Regional Modeling Analysis for TSP - 2000 (pg/m3)
-------�
SECTION 7
REFERENCES
Mineral Industry Surveys, "Sales of Fuel Oil and Kerosine, 1975",
U.S. Department of Interior, Washington, B.C.
"Adjusted 1975 Oil and Gas Fuel Survey Results", New York State Department
of Environmental Conservation, Albany, New York.
"Estimated Fuel Use in New York City, 1975", TS No. 20, New York City
Department of Air Resources, New York, New York, 1978.
Guidelines for Air Quality Maintenance Planning and Analysis. Volume 7:
Projecting County Emissions. U.S. Environmental Protection Agency,
Research Triangle Park, North Carolina. Report No. EPA-450/4-74-008.
Guidelines for Air Quality Maintenance Planning and Analysis. Volume 13:
Allocating Projected Emissions to Subcounty Areas. U.S. Environmental
Protection Agency, Research Triangle Park, North Carolina, EPA-450/4-74-014.
Compilation of Air Pollution Emission Factors . U.S. Environmental Protection
Agency, Research Triangle Park, North Carolina. Publication No. AP-42.
Third Edition (October 1977).
"Air Quality Display Model", U.S. Department of Health, Education,
and Welfare. Washington, D.C., 1969. PB189154.
"Impact of Energy Shortage on Ambient Sulfur Dioxide and Particulate
Levels in Metropolitan Boston AQCR", U.S. Environmental Protection
.Agency, EPA-450/3-75-068, Research Triangle Park, North Carolina.
July 1975.
7-1
-------�
APPENDIX A
SUMMARIES OF COMPARISON OF TRI-STATE AND COUNTY
PLANNING BOARD DATA
NEW JERSEY PAGE
BERGEN COUNTY A-3
ESSEX COUNTY A-5
HUDSON COUNTY A-7
MIDDLESEX COUNTY A-9
MONMOUTH COUNTY A-12
MORRIS COUNTY A-14
PASSAIC COUNTY A-16
SOMERSET COUNTY A-18
UNION COUNTY A-20
NEW YORK
DUTCHESS COUNTY A-23
NASSAU COUNTY A-25
NEW YORK CITY - FIVE BOROUGHS A-27
ORANGE COUNTY A-30
PUTNAM COUNTY A-32
ROCKLAND COUNTY A-34
SUFFOLK COUNTY A-36
WESTCHESTER COUNTY A-38
A-l
-------�
NEW JERSEY
A-2
-------�
BERGEN COUNTY - NEW JERSEY
1. Population
Recommendat ion: Accept Tri-State population projections.
Discussion: Following is a comparison of various agencies' population
projections:
Tri-State
N.J. State Series II
Difference between
Tri-State and N.J.-
State
Percent difference
"303" Figures
1974
914,088
910,485
3,603
. 4%
1980
941,046
927,760
13,286
1.4%
970,000
1985
996,338
941,980
54,358
5.5%
2000
1,095,176
1,090,000*
5,176
.5%
1,105,000
This figure was "cross-accepted" between Tri-State and Bergen County.
According to county planners, the N.J. State Department of Labor and
Industry figures are the best estimates for the short run (1980 and 1985)
while they accepted Tri-State's earlier figure of 1,090,000 for 2000 (which
has apparently been changed slightly to the 1,095,176 figure provided to GCA) .
2. Housing
Recommendation: Accept Tri-State projections.
Discussion: Following is a comparison of Tri-State and county projections
of dwelling units:
Tri-State
County
Difference
Percent
1974
298,253
296,850
1,403
.5%
1980
321,000
214,077
6,923
2.1%
1985
348,040
322,066
25,974
7.5%
2000
393,356
-
Difference
A-3
-------�
3. Employment
Recommendation: Accept county estimates of employment
Discussion: The following table compares various agencies' employment
projections:
1974 1980 1985 2000
Tri-State 388,167 392,914 412,272 467,604
County 315,908 319,553 322,711
"303" 331,000 421,900 497,500
County planners are comfortable with local county employment projections
but feel that other agencies' estimates are unnacceptable.
4. Land Use
Recommendation: Accept existing land use both dwelling units and non-
residential. Accept 1980, 1985, and 2000 projections of dwelling units and
nonresidential floor area subject to certain modifications.
Discussion: Generally, the distribution pattern for the 1974 existing
land use, 1980, 1985, and 2000 projection years is reasonably accurate for
all years with the exception of the Hackensack Meadow area and smaller specific
areas. Hackensack is controlled by the Hackensack Meadowlands Commission which
has been delegated the power to zone by the State of New Jersey. Other specific
areas due to local zoning policies will have more or less growth as noted on
the Tri-State maps or county zoning maps.
A-4
-------�
ESSEX COUNTY - NEW JERSEY
1. Population
Recommendations: Adopt New Jersey "303" figures.
Discussion: Following is a comparison of various agencies' projections:
County Planning Board
Tri-State
N.J. State "303"
N.J. State Series II
Difference between Tri-State
and "303" projections
Percent difference
1974 1980 1985
941,130 955,220 972,230
938,767 864,896 863,951
960,000
938,670 941,025
95,104
11%
2000
907,841
1,010,000
948,090
40,249
4%
County planners indicate that the decline in population projected by Tri-
State is incorrect. Overall population in the county is stable because while
some areas have declined this has been offset by growth in other areas.
2. Housing
Recommendation: Adopt estimates made by using average household size
and "303" population.
Discussion: The following table compares Tri-State housing projections
and GCA estimates:
Tri-State
"303" estimates
Household size
Difference between Tri-State
1974
312,980
314,759
2.99
1,779
1980
307,135
340,426
2.82
33,291
1985
313,684
-
2.75
2000
335,210
372,694
2.71
37,484
and estimate
Percent difference < 1% 11% 11%
A-5
-------�
3. Employment
Recommendation: Use "303" employment projections.
Discussion: Following is a comparison of Tri-State and "303" employment
projections:
Tri-State
"303"
Difference
Percent difference
1974 1980
413,416 401,227
440,200
38,973
9.7%
2000
423,272
452,000
28,728
6.8%
According to county planners the 5-year period 1975 through 1980 in con-
trast to the preceding 5 years will not see the decline in jobs as envisioned
by Tri-State. Many companies have left the area but are rapidly being replaced
by other companies.
4. Land Use
Recommendation; Accept the 1974 distribution of dwelling units and
nonresidential land use. The 1980 distribution is questionable. The 1985
and 2000 requires some modification.
Discussion:
The 1980 distribution of dwelling units and nonresidential, according to
Essex County planners appears to be wrong. Tri-State data indicates a decrease
throughout the county in dwelling units and nonresidential floor area. Plan-
ners stated that, except for Newark and East Orange, rehabilitation housing
programs and new housing in many towns indicate Tri-State data require modifica-
tion. Also, vacated plants, and consequently, the nonresidential decreases
are probably overstated. The 1985 and 2000 patterns may require modification
depending on how changes in total housing affects relative distribution of
housing.
A-6
-------�
HUDSON COUNTY - NEW JERSEY
1. Population
Recommendations: Adopt "303" population estimates.
Discussion: The following figure compares various agencies' population
projections:
1974 1980 1985 1990 2000
County 624,550 665,825 681,300
Tri-State 616,511 584,553 585,048 578,899
N.J. State "303" 615,000 630,000 630,000
N.J. State Series II 615,175 618,170 621,165 627,155
Difference between 30,447 51,101
"303" and Tri-State
Percent difference 5.2% 8.8%
"303" population projections appear most reasonable in light of county
planners knowledge of recent trends in housing and redevelopment in key areas.
Apparently, Tri-State agreed in 1977 to raise its projections in view of
these considerations.
2. Housing
Recommendation: Adopt county housing projections.
Discussion: The following figures compare Tri-State and county housing
projections:
1970 1974 1980 1985 1990 2000
County 207,499 224,396 253,190 270,855
Tri-State 212,344 211,661 216,585 225,675
Difference 12,375 45,180
Percent difference 6% 20%
A-7
-------�
The Tri-State Regional Planning Commission, according to the County has
agreed to adjust its housing figures, which being based on the same empirical
methodology is more reflective of actual local trends, although it is subject
to vagaries of local political and economic forces in addition to overall
regional trends.
3. Employment
Recommendation; Use county employment projections.
Discussion: The following figures compare the County, Tri-State and New
Jersey "303" employment projections:
1970 1974
County 259,200
Tri-State 281,365
N.J. State "303"
Difference between
County and
Tri-State
Percent difference
1980
264,100
276,080
254,800
11,980
4.5%
1985 1990 2000
281,500 288,000
287,293 322,737
260,800 261,000
34,737
127.
County employment estimates are more reflective of local trends. Tri-State
has agreed to lower its figures.
4. Land Use
Recommendations: Existing 1974 dwelling units and nonresidential land use
correct. The 1980, 1985, and 2000 configuration of dwelling units acceptable
but with modification of Hackensack Meadowlands development. Nonresidential
acceptable.
Discussion: Recent and projected development in the Hackensack Meadowlands
and North Hudson area will require modification of Tri-State data. Nonresidential
changes appear exaggerated.
A-8
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MIDDLESEX COUNTY - NEW JERSEY
1. Population
Recommendation: Accept "208" Water Quality Planning population projections,
Discussion: Following is a comparison of various agencies' population
projections:
1974 1980 1985 2000
Tri-State 625,904 670,976 756,475 890,420
"208" 621,364 672,213 727,501 817,465
N.J. State Series II 639,970 667,125 748,590
Difference 'between Tri-State 4,540 1,637 28,974 72,955
and "208"
Percent difference < 1% < 1% 4% 9%
According to Middlesex County planners, the most recent Tri-State projec-
tions released in May 1977 the 2000 year population is 820,000 which is very
close to the "208" projection of 817,465. The 1974, 1980, and 1985 Tri-State
projections above are within acceptable limits. County planners feel that the
890,420 figure would never be attained; it is unrealistically high. The
Middlesex County "208" figure is a single estimate between the Plan and Trend
projections.
2. Housing
Recommendation: Adopt "208" derived housing estimates discussed below.
Discussion: The following table compares Tri-State projections with GCA
projections made using"208" population figures and county estimates of average
persons per dwelling unit:
A-9
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1974 1980 1985 2000
Tri-State 188,205 214,926 249,329 309,494
"208" derived 176,524 192,061 208,453 217,613
estimates
Difference between Tri-State 11,681 22,865 40,876 91,881
and "208" estimates
Percent difference 6.6% 11.9% 19.6% 42.2%
The significant difference between Tri-State and "208" housing estimates
is a function of two factors: Tri-State's higher population projections, and
Tri-State's housing distribution. Tri-State shows growth in areas that the
county feels will not develop except at very low density. (See land use
discussion.)
3. Employment
Recommendation: Accept Tri-State figures as given.
Discussion: Following is a comparison of Tri-State and Middlesex "208"
projections:
Tri-State
"208"
Difference between Tri-State
and "208"
Percent
1974
269,474
257,597
11,877
4.6%
1980
284,267
283,731
536
1%
1985
309,263
309,860
597
1%
2000
363,350
358,898
4,452
1.2%
Given the small discrepancies between the Middlesex "208" and Tri-State
numbers, there is no anticipated gain in modifying the Tri-State numbers.
4. Land Use
Recommendations: Accept 1974 existing pattern of dwelling units and
nonresidential. The 1980, 1985, and 2000 patterns of dwelling units and
nonresidential not acceptable without extensive modification.
A-10
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Discussion: In the Southern Raritan River Basin area in Southern Middle-
sex County, zoning and environmental constraints, county and state policy
make it unlikely to see the extensive growth of dwelling units shown in
Tri-State distribution. Nonresidential land is too widely spread throughout
the county and is unreflective of zoning realities. Middlesex County planners
indicate that more recent Tri-State data may reflect these considerations
brought to attention of Tri-State by the county.
A-ll
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MONMOUTH COUNTY - NEW JERSEY
1. Population
Recommendation; Accept Tri-State pending resolution of difference among
County, Tri-State, and New Jersey State officials.
Discussion; Following is a comparison of various agencies' population
projections:
County
Tri-State
N.J. State Series II
Difference between Tri-State
and County
Percent
1974
505,350
476,350
29,000
5.7%
1980 1985
675,000
541,161 589,000
522,880
503,345 85,399
12.6%
2000
890,000
681,090
581,485
208,910
23.5%
Monmouth County planners feel that Tri-State figures are unrealistically
low in view of rapid growth in recent times in the county. However, state
water quality planning indicates the county cannot maintain as high growth as
projected.
2. Housing
Recommendation: Accept Tri-State if population accepted. Otherwise, use
appropriate average of people per dwelling unit and estimate housing accordingly.
Discussion: Tri-State housing projections are as follows:
1974 1980 1985 2000
Total dwelling units 165,441 182,244 202,584 243,340
Persons/DU 2.88 2.97 2.91 2.80
The county planning staff feels that Tri-State estimates of housing are
unacceptably low.
A-12
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3. Employment
Recommendation: Accept Tri-State employment estimates.
Discussion: County planners expressed general acceptance of Tri-State
figures as shown below. The county has no figures with which to compare
Tri-State projections.
1974 1980 1985 2000
Total employment 156,120 167,416 176,710 207,171
Monmouth County
4. Land Use
Recommendations: Accept Tri-State existing 1974 land use pattern for
dwelling units and nonresidential floor area. Projections of 1980, 1985,
and 2000 dwelling units and nonresidential floor area not acceptable.
Discussion: A thorough comparison of Tri-State's projections for 1980,
1985, and 2000 with existing county data and the County Planner's knowledge
of the area indicates serious discrepancies. In terms of the distribution of
dwelling units in 1980 in particular, Tri-State has focused development in
older areas whereas in reality development is occurring now in the less-
developed, vacant, or newly developing suburban areas with good access to
major arterials such as the Route 9 and Garden State Parkway. The 1985 and
2000 distribution shows this presently emerging pattern more clearly.
The industrial/commercial development (nonresidential) generally seemed
much too spread out whereas, in reality, it is concentrating along major
highway corridors. Certain areas shown as developing, particularly in the
southwest corner of the county will not develop until the 2000 time frame
due to certain natural constraints and sewage problems.
A-13
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MORRIS COUNTY - NEW JERSEY
1. Population:
Recommendations: Accept Tri-State projections.
Discussion; Following is a comparison of various agencies' population
projections:
Tri-State
State "303"
N.J. State Series II
Difference between "303"
and Tri-State
Percent difference
1974 1980
406,540 441,732
449,000
430,580
7,268
1.6%
1985 2000
484,311 551,954
600,000
453,235 521,200
48,046
8.7%
County planners estimate 2000 population to reach a level of at least
550,000. New Jersey Department of Labor and Industry Series II projections
are considered too low for Morris County. The most recent Tri-State figure
for year 2000 is 520,000.
2. Housing
Recommendation: Accept Tri-State projections.
Discussion: The Tri-State projections are within 5 percent of housing
estimates made by dividing appropriate county estimates of family size into
Tri-State population figures.
Tri-State housing figures are as follows:
1974 1980 1985 2000
127,783 143,301 160,549 192,375
3. Employment
Recommendations: Accept Tri-State employment projections.
Discussion: Following is a comparison of Tri-State and New Jersey "303"
figures:
-------�
1974 1970 1985 2000
Tri-State 143,824 149,325 158,034 180,949
"303" 183,700 281,100
In keeping with population and housing, the "303" figures are seen as
being too high.
4. Land Use
Recommendations: Accept existing land use pattern of dwelling units and
nonresidential floor areas as shown for 1974. The 1980, 1985, and 2000 pattern
of dwelling units not acceptable. Nonresidential pattern with small modifica-
tions is acceptable.
Discussion: Growth in western and northern areas of county is not reflected
on Tri-State data maps for 1980, 1985, and 2000. County planners feel that newer
Tri-SLate data may reflect these growth areas.
A-15
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PASSAIC COUNTY - NEW JERSEY
1. Population
Recommendation: Adopt New Jersey State Series II projections.
Discussion: Following is a comparison of various agencies' population
projections:
Tri-State ,
New Jersey State Series II
"303"
Percent difference between
Tri-State and State
Series II
1974
461,399
472,760
503,000
2.4%
1980
457,637
485,245
5.7%
1985
467,556
496,840
5.9%
2000
49.8,013
537,625
575,000
7.4%
County planning staff feels that Tri-State figures are low and the New
Jersey State Department of Labor and Industry Series II projections are more
realistic.
2. Housing
Recommendation: Accept Tri-State housing projections.
Discussion: Although there are no official county housing projections,
estimates may be derived by dividing New Jersey State Series II population by
the average household size of 3.02 as follows:
1974* 1980 1985 2000
Tri-State 150,513 160,767 167,622 181,430
Derived estimates 157,927 160,677 164,516 178,022
Percent difference 4.7% < 1% 1.9% 1.9%
The 1974 is a comparison of actual county dwelling units
with Tri-State estimates.
A-16
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3. Employment
Recommendation: Accept Tri-State employment projections.
Discussion: There are no county or other projections of employment with
which the Tri-State figures shown below may be compared.
1974 1980 1985 2000
Total employment 191,133 190,902 194,855 207,896
4. Land Use
Recommendations: Accept existing land use pattern. Projection of dwelling
units is acceptable for 1980, 1985, and 2000.
Distribution of nonresidential land use questionable.
Discussion: There is a significant problem in the nonresidential category
as the Tri-State figures and distribution show a significant decline in non-
residential throughout the County. County planners indicate that while current
trends to show a decline in industries in especially older industrial areas,
this is not true for the whole county. Also, the growth of nonresidential
occurs in areas zoned only for residential. (This seems to be a problem in
other counties as well.)
A-17
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SOMERSET COUNTY - NEW JERSEY
1. Population
Recommendation: Accept Tri-State population projections.
Discussion: The following table compares various agencies' population
projections:
1974 1980 1985 2000
Tri-State 216,074 215,778 241,950 288,117
County 228,000 320,000
"303" 231,000 310,000
New Jersey Series II 215,385 223,525 247,945
Difference between Tri-State 12,222 21,883
and "303" figures
Percent difference 5.6% 7.6%
The Tri-State population projections are a reasonable comprise among
the various agencies' projections.
2. Housing
Recommendations: Accept Tri-State housing projections.
Discussion: Following are Tri-State total dwelling units:
1974 1980 1989 2000
Total dwelling units
66,031 69,306 79,788 99,687
The county itself has not made its own housing projections to compare
with Tri-State's.
3. Employment
Recommendation: Accept Tri-State employment projections.
Discussion: Following is a comparison of various agencies' projections
of employment:
A-18
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Tri-StatP
County
"303"
1974
88,865
79,500
e between Tri-State 9,365
nty
ifference 11.8%
1980
90,035
87,300
80,850
2,735
3%
1985
96,901
99,200
2,299
2.4%
2000
111,933
118,500
121,800
6,567
5.9%
4. Land Use
Recommendation: Accept Tri-State existing land use and projections to
1980, 1985, and 2000 except for nonresidential.
Discussion: The overall configuration of growth in dwelling units and
nonresidential floor area conforms to existing and projected trends. However,
there are certain specific areas that are currently growing not shown on
Tri-State maps that require some corrections. As is usually the case there
are many areas of nonresidential growth which occur in a very spreadout
pattern and in areas zoned only for residential use.
A-19
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UNION COUNTY - NEW JERSEY
I . Popu]at ion
Recommendation: Accept Tri-State projections of population.
Discussion: Population is seen by the county as stable to declining to
the year 2000. Following is a table which compares various agencies' popula-
tion and projections to the year 2000:
County
Tri-State
"303"
State S e r i e s
1974
536,250
560,409
fl
1980
531,600
539,410
545,000
560,145
1985
536,370
568,080
1990
531,100
550,000
576,015
2000
530,900
541,718
560,000
591,885
tlpu sinj>
2.
Discussion:
pro j re I. ions :
ii: Accept Tri-State housing projections.
Following is a comparison of Tri-State and county housing
County:
Tri-State
High
Low
1980
187,500
178,500
2000
224,000
186,000
178,712 194,153
- Knip I oyment
Recommendation: Accept Tri-State employment projections.
I)jscussion: Following is a comparison of Tri-State and New Jersey State
303" projections;
A-20
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1972 1974 1980 1985 1990 2000
"303" 251,600 289,200 296,900 316,900
Tri-State 306,813 300,370 296,822 292,748
4. Land Use
Recommendations: Accept Tri-State 1974 existing land use and 1980, 1985,
and 2000 projections of dwelling units. Nonresidential in question.
Discussion: Projections of increase in dwelling units appear basically
sound in its areal distribution and quantity, especially given that the housing
figures of the county and Tri-State correspond closely. Also, the county has
very little developable land remaining.
Nonresidential projections appear reasonable in some cases, but in many
areas such as in Elizabeth and Linden the decreases shown in 1980 and 1985
appear to county planners as unreflective of recent trends towards stabiliza-
tion and reoccupancy of abandoned or empty establishments.
A-21
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NEW YORK
A--22
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DUTCHESS COUNTY - NEW YORK
Population
Recommendation: Adopt '208' projections
Discussion: Following is a comparison of Tri-State and 208 Figures:
1974
1980
1985
2000
Tri-State
'208'
Difference
233,503
233,100
403
1%
270,940
247,900
23,040
9.3%
292,172
268,800
23,372
8.6%
330,387
328,400
1,987
2. Housing
Recommendation: Accept Tri-State
Discussion: The following table compares Tri-State figures with estimates
derived by using '208' population and county estimates of household size:
1974
1980
1985
2000
Tri-State
County
Household
76,282
75,649
3.08
86,305
83,108
2.96
95,383
92,958
2.84
115,079
115,000
2.80
3.
size
Difference
between
Tri-State
and county
7
/o
Employment
Recommendation:
633 2,927 2,425
3.5% 2.6%
Accept Tri-State data
79
Discussion: The only county data available for 1985 and 1990 suggests that
Tri-State projections are reasonable given the historical trends in population
growth and generally close relationship between population and employment, other
factors being equal.
Tri-State
1974
95,915
1980
103,049
1985
106,713
2000
120,126
A-23
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4. Land Use
Recommendation: Accept Tri-State distribution for 1974 (existing) and
projections for 1980, 1985 and 2000.
Discussions: Except for minor modifications in Poughkeepsie are for
1985 and 2000, the Tri-State projections of housing and nonresidential land
use are in accordance with zoning and planner's knowledge of expected growth
in the county.
A-24
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NASSAU COUNTY - NEW YORK
1. Populalion
Recommendation: Accept "208" projections.
Discussion: Below is a table which illustrates the various agencies
population projections:
1974 1980 1985 1995 2000
County 1,431,900 1,441,700 1,460,900
Tri-State 1,398,045 1,350,640 1,356,153 1,405,750
"208" 1,455,947 1,467,789 1,475,694 1,486,565
Difference between 57,902 117,149 119,541
"208" and Tri-State
Percent difference 4% 8.7% 8.8%
County planners have stated that the above Tri-State figures exaggerate
the population losses. The overall pattern is one of stability or gain in
population.
2 . ]tou_?2JIS.
Recommendation : Accept Tri-State dwelling unit projections subject to
qualifications listed below.
Discussion: Nassau County itself has not made projections of housing
Nassau/Suffolk Regional Planning Board in a recent Coastal Zone Management
study has made joint Nassau/Suffolk estimates which are discussed in Suffolk
section. Tri-State has a different set of assumptions regarding family size:
they project a larger decrease in family size than the county does. Conse-
quently, if family size remains large, the Tri-State numbers would be inflated;
conversely, if family size declines as Tri-State predicts, then Tri-State
figures may be the better estimate.
,,,.,.,,. • < r 198° 1985 2000
Tri-State estimates of
total dwelling units
3. Employment
Recommendation: Accept Tri-State estimates except reservation regarding
year 2000 discussed below.
A-25
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Discussion: Given no separate Nassau County employment estimates as is
the case in housing it is difficult to evaluate Nassau County alone. (See
discussion in Suffolk County.) Joint Nassau/Suffolk County estimates compare
favorably with Tri-State figures except for a 36 percent difference in the
2000 estimates.
4. Land Use
Recommendation: Accept Tri-State existing land use and projections for
1980, 1985, and 2000.
Discussion: The general pattern of dwelling units is a reasonably accurate
picture of Nassau County. However, the distribution of nonresid^ential violates
existing local zoning patterns and proposed coastal zone management policies.
As has been seen in many counties, the nonresidential land use has been allocated
over too large areas.
A-26
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NEW YORK CITY - FIVE BOROUGHS
1.
Population
Recommendations: Accept Tri-State population projections except Staten
Island as discussed below.*
Discussion: Following is a comparison of Tri-State and "208" population
projections by borough:
a. Bronx: 1974
Tri-State 1,294,581
"208" 1,385,300
Difference 90,719
Percent difference 7%
b. Kings 1974
Tri-State 2,510,641
"208" 2,480,000
Difference ~90,719
Percent difference 7%
c. Maiib_at_tan: 1974
Tri-State 1,506,969
"208" 1,454,400
Difference 527569"
Percent difference 3.6%
d. Queens: 1974
Tri-State 1,980,766
"208" 1,966,600
Difference 14,166
Percent difference < 1%
e• staten Island:
Tri-State 323,035
"208" 328,200
Difference 5,165
Percent difference 1.5%
*
NYS DEC recommended the use of 208 figures for the Counties of Bronx and Kings,
A-27
1980
1,327,012
1,345,500
18,488
1.4%
1980
2,461,283
2,463,900
18,488
1.4%
1980
1,504,589
1,461,500
43,089
2.9%
1980
1,882,939
1,971,800
88,861
4.7%
402,615
370,000
32,615
8.8%
1985
1,326,206
1,333,000
6,794
< 1%
1985
2,443,510
2,472,000
6,794
< 1%
1985
1,515,451
1,475,000
40,451
2.7%
1985
1,899,370
1,978,000
18,630
4.6%
446,063 501,
430,000 596,
16,063 94,
3.7% 18
2000
1,333,976
1,340,000
6,024
< 1%
2000
2,413,738
2,460,000
46,262
1.9%
2000
1,515,097
1,486,000
29,097
1.9%
2000
1,929,096
2,022,000
92,904
4.8%
431
000
569
.8%
-------�
The only significant differences are in the Staten Island projections for
the year 1980 and 2000, New York City planners commented that Staten Island is
expected to grow rapidly and consequently, this figure should be modified to
meet these expectations.
2. Housing
Recommendations; Accept Tri-State housing projections.
Discussion; The following figure compares 1974 (208-1975) estimates of
total housing units by borough:
Bronx
Brooklyn
Manhattan
Queens
Staten Island
Totals
Tri-State
463,638
917,901
734,966
724,684
103,408
2,944,597
"208"
506,946
892,756
709,838
722,117
103,953
2,935,610
Difference
43,308
25,145
29,128
14,846
545
8,987
percent
9.3%
2.8%
: 3.5%
.2%
< 1%
< < n
Housing projections have not been made for the "208" project nor by the
New York City Planning Office. The housing situation is very uncertain because
it is highly influenced by national, state, regional, and local political and
economic policies and decision that directly and indirectly affects housing
both in terms of.new units and rehabilitation programs.
3. Employment
Recommendation: Accept the Tri-State projections.
Discussion:. There are no official New York City employment projections
done by the City which looks at the year 2000. Following is a partial comparison
of various agencies' estimates:
1974 1980 1985 2000
Tri-State 3,734,277 3,858,750 3,885,339 3,974,806
New York City Office of Management 3,203,000 3,029,000
and Budget (1976)
New York State Department of 3,458,400 3,169,200
Labor and Industry
A-28
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Tn vi.ew of the high complex and variable situation, Tri-State projections
are acceptable unless more recent Tri-State estimates can be obtained that
incorporates more recent set of assumptions concerning the many factors which
influence the employment situation.
4. Land Use
Recommendations: Accept Tri-State data subject to reservations discussed
below.
Discussion: The Tri-State land use inventory is a reasonably accurate
representation of the existing land use. In terms of projections for 1980,
1985, and 2000 City Planners felt that on the whole the Tri-State data represented
a reasonable interpretation of current trends, given the variability in the
economic and housing situation. However, the 1980 projection, in particular,
seemed to have mistakes in that it did not indicate areas which are currently
being rehabilitated such as in Manhattan. The Tri-State Regional Planning
Commission, as mentioned above, should be consulted for the possibility of a
more recent allocation of dwelling units and nonresidential floor area. The
City Planners felt thar it was impossible to evaluate the accuracy of the
nonrosidential projections.
A-29
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246,244
242,000
4,244
291,117
267,000
24,117
334,468
300,000
308,000
34,468
421,156
422,000
404,000
844
ORANGE COUNTY - NEW YORK
Population
Recommendation: Adopt "208" projections
Discussion; The following table compares Tri-State and "208" projections:
_1974 1980 1985 2000
Tri-State
"208"
County
Difference between
Tri-State and
"208"
% 1.7% 9% 11% 1%
In view of the discrepancies in the 1980 and 1985 projections, the "208"
figures are recommended.
2. Housing
Recommendation: Adopt county estimtes using "208" population and county
estimates of average persons per dwelling unit.
Discussion: Following is a comparison of Tri-State and county estimates:
1974 1980 1985 2000
Tri-State 85,180 99,935 116,282 151,602
County estimates 73,636 89,333 100,000 138,333
Average persons per 3.3 3.0 3.0 3.0
dwelling unit
Difference between 11,544 10,602 16,282 13,269
Tri-State and
County
% 16% 12% 16% 10%
The "208" population was divided by county estimates of average persons per
dwelling unit to arrive at estimates of total dwellings which are considered
better than Tri-State figures shown above.
A-30
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3. Employment
Recommendation: Accept Tri-State
Discussion: Given no county data or other sources of information with which
to verify Tri-State's estimates, the Tri-State figures shown below will be
utilized.
1974 1980 1985 2000
Tri-State 85,776 99,338 102,880 125,956
4. Land Use
Recommendation: Accept existing (1974) and projected land use (1980, 1985
and 2000) for dwelling units and nonresidential land use.
Discussion: Orange County has worked closely with Tri-State and the dis-
tribution of land use reflects their close agreement.
A-31
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PUTNAM COUNTY - NEW YORK
1. Population
Recommendation: Adopt "208" population projections for 1974, 1980, and
1985 - estimate 130,000 for 2000 - see discussion below.
Discussion: The following table shows various agencies' population pro-
jections for Putnam County:
Tri-State
"208"
Putnam County Planning Board
Difference between Tri-State
and "208"
Percent
1974
65,302
68,765
68,765
3,463
5.3%
1980
72,441
79,200
6,759
9.3%
1989
76,521
92,000
89,546
15,429
20.2%
1999 2000
84,988
130,200
119,499
45,212
53%
According to the County Planner the Tri-State population projections are
definitely too low. It was suggested that these low figures reflect Tri-State's
view of Putnam County as basically "park land." The County planning staff
"stands by" its own population figures and seriously questions if the "208"
population of 130,200 will be attained. In view of these factors, it is
recommended that 122„000 be used as a compromise projection estimate for the
year 2000.
2. Housing
Recommendation: Adopt recommended figures shown in table below.
Discussion: The following table compares Tri-State and Putnam County
estimates of housing units:
•ty
t
between Tri-State
1974
24,108
20,139
3.41
3,969
1980 1985
25,961 27,822
26,650
3.37
1,172
1995
35,850
3.31
2000
31,955
Tri-State
Putnam County
Persons/unit
Difference b
and County
Percent difference 20% 4.4%
Recommended estimates 20,165 23,225 27,299 35 858
A-32
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In view of the differences in population among the various agencies dis-
cussed above and in view of the difference in average persons per dwelling unit
between Tri-State and the County (county figures are presumably more accurate),
it is recommended that the above figures be adopted. These estimates are
derived by dividing the best population estimates by the county persons per
dwelling unit for the appropriate projection year.
3. Employment
Recommendation: Accept Tri-State estimates of total employment.
Discussion: County planners accept the Tri-State estimates shown below.
Putnam County does not have its own projections against which Tri-State pro-
jections may be verified.
1974 1980 1989 2000
Total employment
13,156 14,220 15,117 18,673
4. Land Use
Recommendations: Accept Tri-State's land use inventory for 1974 and
project Jons of dwelling units for 1980, 1985, and 2.000. Nonresidential dis-
tribution for projection years is questionable.
Discussion: The Tri-State inventory of existing land use is a reasonable
match of county land use as shown in county land use maps and according to
county planners knowledge of areas. The 1980, 1985, and 2000 projections of
dwelling units appear to be reasonable distribution according to zoning maps
and county planners knowledge of existing and potential growth areas. The
nonresidential areas are not sensitive to local zoning and seems to occur in
areas which are wholly residential.
A-33
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ROCKLAND COUNTY - NEW YORK
1. Population
Recommendation: Adopt "208" population projections.
Discussion: The following table compares various agencies' population
projections:
Tri-State
"208"
Rockland County
Planning Board
Difference between Tri-State
and 208
Percent difference
1974
250,513
252,800
260,000
2,187
< 1%
1980
259,738
279,200
19,462
7.5%
1985
231,980
308,900
315,000
26,920
9.5%
2000
314,483
380,200
375,000
65,717
21%
The Planning Board feels that the above Tri-State figures are too low.
In view of the closeness of "208" and Rockland County Planning Board projec-
tions it is recommended that the "208" figures be adopted,
2.
Recommendation: Adopt recommended housing figures as shown in discussion.
Discussion: The following table compares Tri-State projections of total
dwelling units with recommended projections based on the "208" population
divided by an average persons per dwelling unit as shown below:
Tri-State
Recommended
Persons/dwelling unit
Difference between Tri-Stace
and recommended
Percent
1974
68,331
74,352
3.4
6,021
8 . 8%
1980
76
83
3
6
a
,541
,343
.35
,802
. 9%
1985
85,902
93,606
3.3
7,704
9%
2000
102
115
3
12
12
,646
,212
.3
,566
.2%
. -
A-34
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3. Employment
Recommendation: Accept Tri-State projections for employment.
Discussion: Following are the Tri-State projections for total employment
in Rockland County.
1974 1980 1985 2000
Total employment
78,469 82,738 86,364 96,393
The Rockland County-Planning Board has not made projections of employment
with which the Tri-State projections may be compared.
4. Land Use
Recommendations: Accept Tri-State existing land use inventory (1974).
Distribution of 1980 dwelling units requires some modifications. The 1985
and 2000 dwelling unit distribution is all right. Nonresidential land use
distribution has problems.
Discussion: The 1980 distribution of dwelling units requires modifica-
tion because certain areas of the county now growing not shown on Tri-State
maps. A 10 to 15 percent modification required. The Tri-State maps show
nonresidential uses occurring in areas zoned solely for residential. This is
a widespread phenomenon in this county as is the case in many counties and
seems to result from the methodology which Tri-State uses to allocate
nonresidential.
A-35
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SUFFOLK COUNTY - NEW YORK
1. Population
Recommendation: Accept Tri-State projections.
Discussion: Following is a comparison of Tri-State and "208" population
projections:
Tri-State
"208"
Difference
Percent
1974
1,283,401
1,279,690
3,711
< 1%
1980
1,465,938
1,411,737
54,201
3.8%
1985
1,578,732
1,542,123
36,609
2.4%
2000
1,747,657
A
1,828,750
81,093
4.6%
*
Estimate arrived at using Coastal Zone Management Study for
Nassau/Suffolk Counties.
Tri-State and "208" projections are sufficiently close to allow acceptance
of either figure. They represent totally different methodologies.
2. Housing
Recommendation: Accept Tri-State dwelling unit projections.
Discussion: Suffolk County Planning Board does not have separate projec-
tions of housing. An examination of Coastal Zone Management projections for
Nassau/Suffolk Counties combined gives the following comparison:
Tri-State: Nassau
Suffolk
Tri-State - Combined N/S
Nassau/Suffolk RPB
Difference
Percent difference
1974
409,327
377,987
787,314
1980
425,845
453,225
879,100
1985
439,659
501,480
941,139
842,533
98,606
11.7%
2000
483,133
591,816
1,074,949
952,262
122,687
12.9%
A-36
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Thi.s discrepancy derives largely from different assumptions regarding change
in family size. Tri-State assumes more of a decrease in family size - actually
average persons per dwelling unit than does Nassau/Suffolk Regional Planning
Board.
3. Employment
Recommendations: Accept Tri-State employment projections except for
2000 estimate.
Discussion: Following is a comparison of employment projections:
Tri-State Nassau
Suffolk
Combined
Nassau/Suffolk RPB
Difference
Percent difference
1974 1980
539,797 529,224
424,480
953,704
934,400
19,304
2%
1985
5355983
431,411
973,394
1,055,900
82,506
8.5%
2000
568,792
479,761
1,048,553
1,4203400
371,847
36%
Employment projections are more variable than population projections.
The Nassau/Suffolk projection indicates a much higher rate of economic growth
than does the Tri-Stnte projection.
4. Land Use
Recominendation; Accept Tri-State existing land use (1974) and projections
to 1980", 1985, and~2000.
Discussion: The pattern or distribution of dwelling units for 1974, 1980,
1985 and 2000 is considered reasonably accurate. However, the nonresidential
pattern violates zoning and Coastal Zone Management policies. As stated in
other discussions, this nonresidential uses are too widely spread and insensi-
tive to zoning.
A-37
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WESTCHESTER COUNTY - NEW YORK
1• Population
Recommendation: Adopt "208" projections.
Discussion: Following is a table which compares various agencies' popula-
tion projections:
County
Tri-State
"208"
New York State
Difference between Tri-State
and "208"
Percent difference
1974
890,000
901,690
880,000
21S690
2.4%
1980
890,000
846,010
880,000
880,630
33,990
4%
1985
890,000
866,568
880,000
880,925
13,432
1.6%
2000
900,000
897,427
Tri-State predicts a decline in population while Westchester County and
the Westchester "208" reports indicate the county as a whole is stable and will
continue to show overall stability. On a regional basis shifts in population
will occur with population declining in the older southern areas and growing
in the northern towns,
2. Housing:
Recommendation: Adopt Westchester County estimates.
Discussion: The following table compares county, "208," and Tri-State
housing projections:
Tri-State
County
"208"
1974
296,417
300,000
286,294
1980
293,960
306,400
1985
306,967
316,000
2000
321,342
320,000
304,887
(1995)
According to county planners, there is an estimated loss of 1500 housing
units per year, but they expect the increase in new housing units to more than
A-38
-------�
offset the loss. With a declining family size (average persons per dwelling
unit), an overall continued increase in dwelling units is predicted. Con-
sequently, the "208" estimates appear to be low. The Tri-State figures indicate
a decline from 1974 to 1980, which is not true for the county as a whole,
according to county planners.
3. Employment
Recommendation: Adopt Westchester County estimates of employment
Discussion: The following table compares Tri-State and county estimates
of employment:
1974 1980 1985 2000
Tri-State 356,310 351,045 366,299 397,449
"208" 297,147 344,836
New York State Department of 367,900
Labor and Industry ———
Difference between Tri-State 59,163 52,613
and 208
Percent difference 19% 15%
County planners feel that local estimates of employment are more reliable
than Tri-State because the county is much more aware of local trends and
policies.
4. Land Use
Recommendation: Accept Tri-State pattern for existing land use and
projections to 1980, 1985, and 2000.
Discussion: County planners are very comfortable with the pattern of land
use projected by Tri-State. The only problem with the projections concern the
relatively indiscriminate way in which the nonresidential land use is allocated
into areas zoned residential or generally into areas where commercial or
industrial uses are unlikely to occur.
Recommendation: Accept Tri-State 1974, 1980, 1985 and 2000 year projections
of residential and nonresidential land uses.
Discussion: The distribution of dwelling units conforms with Westchester
County Planning Board's view of the future. The only major reservation expressed
by the County concerned the spread of nonresidential land use into areas zoned
for residential uses only. This seems largely a function of the nature of
Tri-State model which allocates a certain amount of nonresidential along with
residential.
A-39
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GCA/TECHNOLOGY DIVISION
To
File (Tri-State)
D0t«: 7 March 1978
From : D.B. Ramsay
Subject : Visit to Ulster County Planning Board, Kingston, New York
23 February - Meetings with Dennis Doyle, Environmental Planner
1. Population - The New York State Economic Development Board as of January 1978
has issued new population projections which supersedes the 1976 figures. These
projections are to be used as the official 208 numbers. Following is a chart which
compares the 1976 and the most recent ones:
1975
1980
1985
2000
1976 208*
1978 EDB
Difference
% Difference
156,400 171,100 185,900 222,600
153,165 165,236 177,234 205,479
3,225 5,864 8,666 17,121
2% 3.5% 4.8% 8%
2. Indus trial/Commercial Development - The areas which are expected or could
possibly develop industry were indicated on map 1" - 7000 feet. In some cases
industry is already in the process of moving in and these areas are noted. In
all cases the areas shown are taken from a report used by the Ulster County Planning
Board to show potential developers and industries where the best sites are located
with water and sewer already or potentially available.
Ulster County has many good advantages for industrial development. These are:
tax advantages; available labor; stable economy; location - midway between NYC and
Albany along Interstate 87 (New York Thruway). In view of these advantages and the
expansion of the Stewart Airport just to the south of Orange County, industrial growth
is likely to occur.
Commerical development, especially new shopping centers, however, is not likely to
develop much in the next 25 years. There is now 25,000 square feet of commercial
space vacant and there has been enough shopping center growth to accomodate existing
and projected growth for some time.
The growth level or increase in business activity indicated by the OBERS projections
appears high to county planners. One major potential industry, the "steamtown Railroad
and Museum" complex which is seriously considering relocation from New Hampshire to
Ulster County, New York, would provide an indirect benefit of 19 million dollars a
year, 450,000 patrons during a 220 day season.
The 1976 data were
used in the analysis for consistency with the rest of the study.
A-40
-------�
3. Land Use - Zonj.ng Maps - There are no county land use or zoning maps
available to check out the preliminary maps GCA produced. However, using
the county base maps and looking at smaller maps the GCA maps appear to repre-
sent well the available data. It is furthermore justifiable to assure that
growth in housing will primarily be adjacent to existing development in the
towns indicated by the 208 reports.
A-41
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APPENDIX B
NEW JERSEY COUNTY LEVEL FUEL ALLOCATIONS
This Appendix presents the results of the county fuel allocation procedure
as specified in Volume 7 of the AQMA Guidelines. These results were used to
allocate stationary source fuel use from state totals to the county level. As
was noted in Section 3, the mobile source fuel use was derived from Tri-State
estimates, so the data presented in this section were not used.
All units are those used in EPA's NEDS area source format. The distri-
bution of dwelling units per building represents, respectively, the portion of
buildings with 1, 2-4, 5-19, and greater than 20 dwelling units in the county.
Area source fuel in some county categories was computed as less than zero.
Rectification of these data was performed as described in Section 3. Use of
bituminous coal and residual and distillate oil is reported only as "retail
sales" and, hence, includes both residential and commercial/institutional use.
These totals are noted on page B-2 by positioning them between the component
columns.
B-l
-------�
AREA EMISSION INVENTORY FOB NE« JERSEY
' 7512965.
T OT AL_ CUMMERC I &L/1N3T1 KITIOMAL EMPLOYMENT _a._
TOTAL INDUSTRIAL EMPLOYMENT = 7uillOC
AUTOMOBILE REGISTRATION 3715985.
__7RUCK_REGISTRAJ 10* 38.1POO..
_l U800. DEGREE DAYS 1 N 1Q7S
THF AVER«GE HOUSING UNIT HAD 5.2 «onws
THF 'JU^BFH^OF^HOUSrNG" Tlri'l Ts~HE A T ING vrfTH"vA «TOilS~TTrtL"S ~lSf
_ _ CUAL 5g39. __
"Qrnr""i66?76g» ' " ~~
NATURAL 6S3 -1610797,
#00^ 5S3.
RESIDENTIAL CO^MgR/iNST L!lE!lSTRIaJ:
ANTHRACITE COAL 15911.
BITUMINOUS COAL 0. il.
DT5TILL4TT OIL "~ ' ISefTT. ~"
RESIDUAL OIL *- "I'bSl.
tjATURAL GAS _ 129". 5215.
RAILROADS t«p&2.
iSTTtTTSTB ' l?naTT.~TrF
r.ASOLIMt nw wir.HnAr jzoqsjs, (iono T,AL) OFF HIGHWAY 52091. tioon (9AD
DIESEL OM HIGHftftY 250170. (1000 G4LJ OFF HIGHWAY 157S. (1000 GAL)
LIGHT VEHICLES 2730709. (1000 GAL)
HEAVY VEHICLES SUblSl. (inpn GAL)
roroT. 5T5TF~G«S V"1 OT7777T7T TnTOD TJT ~"
n«ELLlf(G UNITS PER BUILDING ARE DISTRIBUTED AS FOLLOWS! O.SflO 0.265 0.109 0.08U
RESIDENTIAL AREA FUEL
81 TO" COftL
DISTILLATE OR
TTSTTJUAT: OIL
NATURAL GAS
10?. (JO TONS)
(10000 GAL)
12677. (10 MILLION C'J FT )
«fe. (100 TOWS)
B-2
-------�
A«FA EMISSION fNiVEMORY FQR BERGEN
POPULATION »
TOTAL COMMERCIAL/INSTITUTIOH^L EMPLOYMENT *
TOTAL INDUSTRIAL EMPLOYMENT 10£a77.
AUTOMOBILE REGISTRATION U66028.
TRUCK. _R£GI.ST3*T IQM HOP.
_TMi«JL->»£8£. "900, OEGKEE PAYS IN _L25.
THE OVERAGE HOUSING UNIT HAD 5.5 ROOMS
THE
OF HOUSING UMTS HE4T1NG
COAL 2J9.
V4WIOUS Fl'ELS IS.
OIL
NATURAL GAS
HOOD
1571 IS.
DWELLING UNITS PER BUILDING ARE DISTRIBUTED AS FOLLOWS;
0.619
0.067
0.080
COMMERCIAL/INSTITUTIONAL POINT SOURCE FUCL3
ANTH"C"UAl '
SITU" COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
0. (10 TONST
0. CIO TONS)
0. (10000 GAL)
0. (10000 GAL)
9. UO MILLION CU FT)
0. (100 TONS)
ITflHJSTRlSL~~PDT*rr SOURCE FUELS
ANTH COAL
BTTuc COAL
DISTILLATE OIL
_ "ESIOUAL OIL
NATURAL GAS
WOOD
0. (JO TCHS)
0. (10 TCNTI
35. (IOOCO GAu)
8338. (10000 GAL)
is*).1 do MILLION cu rn
0. (100 TONS)
B-3
-------�
AREA EMISSION INVENTORY FOR BEHGEN
RESIDENTIAL AREA FM£LS
H CO*L
_
HITIIM COAL
"ISTILLATE OIL
RESIDUAL OIL
NATURAL S4S
SSO.
(10
15.
(10 TONS)
(10000 GAL)
(10000 GAL)
__
2165. (SO MILLION CD FT)
!. (100 TONS)
COMMERCIAL/INSTITUTIuMAL AREA FUELS
4NTH COftL
BITU* COAL
DISTILLATE OIL
RESIDUAL OIL
NATUKAL GAS
WOOD
Q.
6330.
U900.
7J9.
0.
(10 TONS)
UO TONS)
(10000 GAL)
(10000 GAL)
(100 TONS)
CJ FT)
INDUSTRIAL AREA FUELS
ANTH COAL
81TUM COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
0. (10 TONS)
1. (10 TONS)
1380. UOOOO GAL)
1823. (10000 GAL)
562. (10 MILLION CU F
0. (100 TONS)
T)
RAILROAD DIESEL FUEL IS 559. (10000 GAL)
LIGHT
___ GflSUL INE
5flO«>?a, (1000 SAL) HEAVY VEM 1U08. (1000 GAL) OFF HIGH
3850. (1000 GAL)
01ESFL
5^"a~."(rooo CSLS
TOTAL V*T «fc«7J3ro (1000
SOLVENT PURCHASED 7919, (TONS)
B-4
-------�
AREA EMISSION lNvENTo»Y FOR
TOTAL POPULATION z 882487.
TOTAL COHMEBCKL/INSTITUTIQUAL EMPLOYMENT = aosoio.
TOTAL INDUSTRIAL EMPLOYMENT - 90080.
AUTOMOBILE REGISTRATION «7«660.
.. TRUCK _H£6ISTRA1I01 1000.
THERfc ofcRE abSi. DEGREE PAYS IN 195
THE AVERAGE HOUSING UNI T HAD 1.6 ROOMS
THE NUMBER OF HOUSING UNITS HEATING MTH VARIOUS FUELS IS,
COAL 101S.
OIL
NATURAL SAS
MOOD
1756 IT,
7«.
0.
DUELLING UMTS PEN BUILDING ABE DISTRIBUTED AS FOLLOWS:
0.315 0.356 0.1S7 0.1«2
COMMERCIAL/INSTITUTIONAL POINT-SOURCE FUELS
ANTH"COA"L"
HITUM COAL
PISTILLATE OIL
RESIDUAL OIL
NAJIWAL GAS
WOOD
0. CIO TONS)
0. (10 TONS)
0. (10000 GAL)
0. (10000 GAL)
». (10 MILLION CU FT)
0. (100 TONS)
ANTH COAL
BTTU" COAL"
DISTILLATE OIL
RESIDUAL OIL
0. (10 TONS)
o. do TONS!
J02. (10000 GAL)
5<»12. (10000 GAL)
125, (Iff HILIIDH CU FT)
NATURAL GAS
MOOD
.0. (100 TONS)
B-5
-------�
AREA EMISSION INVENTORY FOR ESSEx_
AREA FUELS
AWTM COH,
BITUM COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
«iT. (10 TONS)
«9. (10 TONS)
1 1603. (10000 GAL)
1S05,_ C 10000 GAD
iaS8. (10 MlLtlON CU
0. (100 TONS)
FT)
COMMERCIAL/INSTITUTIONAL
FUELS
ANTH COM.
BITUM COAt
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WQOP
1527.
0.
6900.
805.
0.
(18 TOWS)
(10 TO«S)
(10000 GAL)
(10000 GAL)
(io MILLION cu FT)
(100 -TONSJ
INDUSTRIAL AREA FUELS
0. (10 TONS)
0. (10| TONS)
BITUM COftL
DISTILLATE OIL
WESIDUSL Oil JTTTT'Tnnr
NATURAL GAS 509. (10 »*
CU FT)
»000
0. (100 TONS)
RAILROAD DIESEL FUEL 15 561. (10080 GAL)
LIGHT VEM
GASOLINE
516939. (1000 GAL) HEAVY VEH laOS. (1000 GAL) OFF HIGH
386?. (1000 G»L)
OIESEL
'UN~HTGTT 5W. (1000 GAL) T3FF HIGH rnr.~U»OD Gfft
TOTAL VMT U7J52J^. (1000 WI)
SOLVENT PURCHASED 79i(?. (TONS)
B-6
-------�
AREA EMISSION INVENTORY FOR HUDSON
TIJfAL POPULATION « 577519.
TOTAL COMMERCIAL/INSTITUTIONAL.EMPLOYMENT r 109111.
TOTAL INDUSTRIAL EMPLOYMENT - 71001.
AUTOMOBILE REGrSTRATjtJilX 25*010.
TRUCK »EeiSTR«TICN 1000.
THERE MERE OS61, DEGREE DAYS IN 1 9S
THE AVERAGE HOU9IN6 UNIT HAD a.3 ROOM*
THE NUMBER OF HOUSING UNITS HEATING MTH VARIOUS FUELS is,
COAL 1179.
NATUHAt 6»3
MOOO
DWELLING UMTS PER BUILDING ARE DISTRIBUTED AS FOLLOWS: 0.1J1 O.<129 0.376 0.162
COf*E»CIAL/IN8TITUTIQNAL POINT«.30URCE FUELS
ANTH COAL
BITUM COAL
DISTILLATE OIL
RESIDUAL OIL
NATUSAL 6AS
HOOO
0. (10 TONS)
0, (10 TONS)
0. (10000 GAL)
0. (10000 GAL)
o. (to HKL ION cu FT>
0. (100 TONS)
TNTJUJTimL poiNrsouRce FUELS
ANTH COAL 0. (|j> TONS)
~B"ITu« COAL OT'M6 TONS)
DISTILLATE OIL 86. (10000 GAL)
RESIDUAL OIL 512«. (10000 GAL)
N~*Tuft*L GAS 26. flO WILilON CO FT)
WOOD 0. (100 TONS)
B-7
-------�
AREA EMISSION INVENTORY FOB HUDSON
»R£»
AMTh CQ»t.
BITUM COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
MOOO
19. (10 TONS)
6302. (10000 GAL)
706. (10000 GAL)
817. (10 MILLION
5, (100 TOMS)
CU FT)
COMMERCIAL/INSTITUTIONAL AREA FUELS
ANTH CO At
8ITUM COM,
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
8*2. (16 tC*3)
0, <10 TONS)
J715. (10000 GAL)
2«76. (10000 GAL)
«ja. do MILLION cu FT)
0. HDD W«S3
INDUSTRIAL AREA FUELS
AKTff CuHT
BITUM COAL
DISTILLATE OIL
RtSIDUAL OIL
NATURAL GAS
MOOD
0. (10 TONS)
0. (10 TONS)
)9. (10000 6AU
(10000 GAL)
5. (10 .MILLION cu FT>
0. (100 TONS)
RAILROAD DIESCL FUEL IS 367. (10000 GAL)
GASOLINE
LIGHT VEH
185661. (1000 GAL) HEAVY VEH 1408. (1000 GAL) OFF HIGH 2527. (1000 GAL)
DIESEL
394. (1000 GAL) 0*F NIGH 120. (1000 GAL)
TOTAL V*IT 25S98«9. (1000 MJJ
SOLVENT PURCHASED 5i«8. (TOMS)
B-8
-------�
EMISSION I\vFNTO«y FOh vlDD|_EsFx
TOTAL "POPULATION '* jT«i7'j. "
TOTAL C.O«ME.RCiAL/.lNSTlTUlLONAL E^El.0Y.M.E 1I_ s
TOTAL IM)i)S!rtlAL FMPL(iY^E^T 701100.
AUTOVOBILE REGISTRATION £30710.
TRUCK REGISTRATION! 1QQO,
THgRE A_ERE_ 5002. OEGREF. .QAVS. l.'i 19.75
THE AVERAGE HOUSING UMT HAD S.4 ROOMS
THE NUMBER OF HOUSfNG UN 1 f S HE AYFNG A IT H vTl'vlOnS TyFLS TS.
COAJ^ flu.
OIL "
NATURAL GAS
WOOD
87090.
16,
I)«ELLIMG UMTS PEW BUILDING ARE DISTRIBUTED AS FOLLOWS:
n.nt<7 o.o<>2
COWMEHCIAL/INSTITUTIONAL POINT SOURCE FUELS
-AKiT'H COAL"
HITU^ COAL
DISTILLATE OIL
RE STUD AT" UK"
NATURAL GAS
ftOOD
"0," ( 10" fONS)
0. (|0 TONS)
0. (10000 GAL)
o. do MILLION cu
0. (100 TONS)
INOUSTPTAT
ANTM COAL
DISTILLATE OIL
HESimjM. OIL
NATURAL SA^
HOOD
FUEL'S'
0. (10 IONS)
0"." (TiT^nSiiST" "
960. (lOOno GIL)
11010. (1 0000 GAL)
'"""
0. flOO TONS)
C'J'TTT
B-9
-------�
EM1SSU)N r>VE_NTOHV FpR_«I DULt SE X
"RESIDENTIAL AREA FUELS
ANlH COAL
SITU* COAL
DISTILLATE OIL
WF.SIDUAL 0]L
NATURAL" GAS'
«000
132. (10 TONS)
15. (10 TONS)
/635. (10000 GAL)
?63. (10000 GAL)
M96. no' ^ILLIUN
1. (100 TONS)
C'J FT)
VEBCT AL/INSTITUUn''iAL
FUFLS
ANTH COAL 751. (10 TONS)
_ B.I HIM COAL _J&. (10 TONSJ _
"DISTILLATE'OIL" 3392." fioo'oo GA'LJ'
RESIDUAL OIL 262b. (10000 GAL)
NATURAL GAS 39t>_. (10 MILLION CU FT)
" woW" " oTTTi
INDUSTRIAL AREA FUELS
ANTH COAU"" «. (1(
8ITUM COAL 0. (10 TONS)
DISTILLATE OIL 135. (10000 GAL) _ _
NATURAL GAS HUH, (10 BILLION CU FT)
•vOOO 0. (100 TONS)
RAILROAD DIESEL FUEL IS 202. (10000 GAL)
GASOLINF
LIGHT VEH 168631. (1000 GAL) HEAVY VEH iao«. (1000 GAL) OFF HIGH 13<»3. (1000 GAL)
DIESEL
OM HIGH 5<»r. nT)TJTJ"G»rV"~ OFF TTTGH" ------ 5B"." TTiraD GALTT
TOTAL V>
-------�
TOTALT POPULATfON" = " " «9
-------�
AREA EMISSION INVENTORY FOR MQNMQUTH
RESIDENTIAL ARf» FUELS
ANTH COAj
8ITUM COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL SAS
WOOD
65. (10 TONS)
9. (10 TONS)
bl55. (10000 GAL)
201. (10000 GAL)
1058. do MILLION cu FT)
a. (ioo TONS)
COMMERCIAL/INSTITUTIONAL AREA FUELS
ANTH COAt.
flITUM CO»U
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
MOOD
506,
0,
a?87.
1771.
267.
0.
(10 TONS)
(10 TONS)
( 10000 GAL)
(10000 GAL)
(10 MILLION CU FT)
(100 TONS)
INDUSTRIAL AREA FUELS
ANTH COAL
BITUM COAL
DISTILLATE OJl
RESIDUAL OIL
NATURAL GAS
WOOD
07 (10 TONS)
0. (10 TONS)
Jtti. (10040 GAL)
870. (10000 GAL)
17J. (10 MILLION CU FT)
0. (100 TONS)
RAILROAD DIESEL FUEL IS 315. (10000 GAL)
GASOLINE
LIGHT VEH
145819. (1000 6AL) HEAVY VEH 1UOB. (1000 GAL) OFF HIGH
Z1S3. (1000 GAL)
"OR"
DIESEL
5957" (1000 GAL) OFF MJ5H 106. "(1860 "(
TOTAL VMT 1997991. (1000 *I)
SOLVENT PURCHASED 1968. (TONS)
B-12
-------�
AREA EMISSION INvENTQBy FOR MORRIS
TOTAL POPULATION z
TOTAL COMMERCIAL/INSTITUTIONAL EMPLOYMeNT
TOTAL INDUSTRIAL EMPLOYMENT =
1079?
-------�
AREA EMJSSHJN I_^VEN_TORV FOR MQKH1S
"RESIDENTIAL AREA FUEYS
ANTH COAL.
"HI HI" COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
>i*_. yp_ TQM>
is. (i o TONS")"
(10000 GAL)
26jj tiopon _GAI.)
bus. (io i*ILLiON cu FTJ
2. (100 TONS)
Cll"*MERCIAL/INSTITUTIDNAL ARfcA FbFLS
ANTH COAL
BITUM COAL
DISTILLATE OIL"
RESIDUAL OIL
NATURAL GAS
S12. (10 TONS)
(To'oTo "GAT") "
(10000 GAL)
«_._ (_u>_MILLION cu FJ_}
o. no o" TONST
INDUSTRIAL AREA FUELS
BITUM COAL
DISTILLATE OIL
R"ESIDUAr~OTt~"
NATURAL GAS
«OOD
0. (10 TON3)
177. (10000 GAL)
"
02. ( 10 MILLION CU FT)
0. (100 TONS)
RAILROAD DIESEL FUEL IS 250. (10000 GAL)
LIGHT VFH
GA_Sl)LI_NE_ ________
(1000 GAL) HEAVY VEH 1008. (1000 GAL)
OFF HIGH 1721. (1000 GAL)
DIESEL
TJN fflCH S9fl. f IOW GffLT" OF
TOTAL VMT 1S97189. (1000
(TOOff TJALT"
SOLVENT PURCHASED 157U, (TONS)
B-14
-------�
AREA EMISSION INVENTOR* FOR PASSUC
TCTfALPOPULATION - ~ ~052«<>?.
T01AL_COMMERCIAL/INSTITUTIONAL .EMPLO f *E*T : B366g_.
TOTAL I'MnuSTRIAL HvPLOY-fc \T fcloOS.
AUTOMOBILE HEGlSlR'TION ??hl=»0.
TRUCK REGISTRATION 1000.
ntH£_ 5Q2o» QFGR.EE Uirg f- 1975__
T>1E Av/EPAGt HOUSING UM 1 HAD 4.9 ROOMS
THE NU^HFR OF HOUSING UNITS HFATIi-'G *1TH VAH1UUS HJELS IS,
OIL
NATURAL GAS
riOOO
81772.
1J.
UMTS PER BUILDING ARE DISTRIBUTED AS FOLLOWS:
0.<4?
-------�
A R E A t * I SSIOM INVENTORY FOH PAS S_I_AJL
RESIDENTIAL AREA FUELS
ANTH co«l,_ 22Z. 11 q li
SITU* COAL 2S. (10 TONS)
DISTILLATE OIL 5160. (inOOO GAL)
RESIDUAL OIL _ ?«Ji (i')OOp_GA_U
NAfuRAL GAS lOOy. (10 MILLION CD FT)
•K300 1. (100- TONS)
I AL/INSTHUTinNAL^ A_KE_A_ FUELS _
ANTH COAL bS?. (10 TCN8)
BITUM COAL !>._JJL?_ IP^SJ
bisffLLATt "OIL "zemi. doooo GAD "
RESIDUAL OIL 2202. (10000 GAL)
NATURAL GAS 332. (10 "ILL1UM CU FT)
WOOD ' 0. (100 TONS)'
INDUSTRIAL AREA FUELS
£~O~AT 6, ("i o TO~NS") "
COAL 0. (10 TONS)
DISTILLATE OIL_ 346. (10000 GAL)
"ESIOli'AC ~OTL~" 31T11 TnjT'0~0""G~AT")
NATURAL GAS 152. (10 MILLION CM I- T)
*OOD 0. (100 TONS)
RAILROAD DIESEL FUEL IS 288. (10000 GAL)
GASOLINt
LIGHT VEH 165127. (1000 GAL) HEAVY VEH iao8. (1000 GAL) OFF HIGH I9fl0. (1000 GAL)
DIESEL
'HIGH " 5P!i". TTOOO GUCT OFT "RlfTR Tf', (11)00 "GST.T~
TOTAL VMT 2261JO«. (1000 "I)
SOLVENT PURCHASED i»io. (TONS)
B-16
-------�
AREA EMISSION INVENTORY FOR S'1MEHS£T
POPULA~fTON = 20209!.~
TOIAL
TOTAL INDUSTRIAL E^PLOY^ENT
AUTOMOBILE REGISTRATION "
T « UCK R E G I. SJ R A_T 1 0 N 1000.
J315.5.
THERE «ERE 5511. REGRFE HAYS .L'1 1.9.15_.
THE AVERAGE HOUSIMG UNIT HAD 5."? ROOMS
THE NUMBER OF HODS'ING'UNI'T'S HE A rTNG ~*T TH~^APinns TiTEl"s"is",
1 Ofa.
COAL
OIL
NATURAL GAS
28172.
29IOJ.
WOOD 0.
UNITS PtR HUHOIN'G ARE DISTRIBUTED AS FOLLOWS:
0.170 O.OS8 O.OJJ
COMMERCIAL/INSTITUTIONAL POINT SOURCE FUELS
"ANTH ""CDiL
BITU« COAL
DISTILLATE OIL
NATURAL GAS
WOOD
~o. "U 0 TONS!
o. (in TONS)
0. (1 0000 GAL)
0. (10 MILLION CU FT)
0. (100 TONS)
"POINT SUDWCTTUTLS'"
ANTH COAL
DISTILLATE OIL
WESIPUAL OIL
NATURAL G"ire
HOOD
0. tlO TONS)
" ^ (10 TrTi5"S~T
1 . ( 10000 GAL )
1082. (10000 GAL )
rs.~rn> HTLITO-N
0. (100 TONS)
FTJ
B-17
-------�
AH F A EMISSION lNVFNTORV_f Oft _SO«fcR SEJ_
RESIDENTIAL AREA FUELS
ANTH COAL
HITUM COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL 6»S
WOOD
71. (W TONS)
6. (10 TONS)
1213. (10000 GAL)
56. (10000 GAL)
«7i. (io MILLION cu FT)
0. (100 TONS)
COHMERClAL/INSTITuriCLNAL AREA FUELS
ANTH COAL
8ITUM COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
251, (!0 T8N8)
0. (10 TONS)
1 li«. (10000 GAL)
«78. (10(100 GAL)
ii2. do MILLION
0. (JOO TBNS)
CU FT)
INDUSTRIAL AREA FUELS
8ITUM COAL
DISTILLATE OIL
0. (10 TONS)
392. (10000 GAL)
TTDil. (10000 GAL)
NATURAL GAS
WOOD
182.
0.
(10 MILLION CU FT1
(100 TONS)
RAILROAD DIESEL FUEL IS
128. (10000 GAL)
LIGHT VEH
(1000 GAL)
HEAVV VEH
1408. (1000 GAL)
OFF HIGH
88U. (1000 GAL)
"ON
DIESEL
(1000
TOTAL VMT 7S19B6. (1000
SOLVENT PURCHASED
806. (TONS)
B-18
-------�
INVENTORY fnw
TOTAL CpM«ERCL&L/IN_STITU1IU>4L EJ^PUJY^ENT .= LL*?1-UM
TOTAL. INDUSTRIAL E^PL^Y^ENT - HIM & 7 .
iUTO'MOBfLE" RE"GIST«>flON
TRUCK »EGISTHAT IQN_
THERE wtRjL «9
0. (100 TONS)
B-19
-------�
AREA EMISSION JWEMiWY MIS UMfi
RESIDENTIAL ARE* FUELS
ANTH COAL
HI iii" COAL"
DISTILLATE OIL
°t.SIPi!AL OIL
NATURAL GA'S
ftOOO
VL«. HO TONS)
JS. (10 TTNS)
,??5. (10000 I;AI j
u9~5t (i opoo &AL_)
97a. (10"«ILLIDN "en FT)
0. (100 TONS)
CDMMt>
4MM COAL
BITU" CUAL
DISTILLATE OIL
•i f S I D U c L OIL
•lATUWAL GAS
«no6
IUMONAL
FL.ELS
R7fl. (10 TCNS)
0. (10 TONS)
i967. (1 000" GAL)
1071. (10000 C,K11
««>J.__(J_0 ^T.LL_
0. (100" TONS)
ru F1
ARtA FLIELS
AUTH COAL
HITUM COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
'.-ODD
d. "Oo IO^S)
0. (10 TONS)
S8. (10000 GAL)
.' ( 10 WO GAL)
190. (in "ILL I .IN
0. (100 TONS)
CU FT)
HAILWOAD DIESEL FUEL IS
5J1. (10000 GAL)
LIf.HT
IF SH-
OW HIGH 50", (10(50 GAL) OFF "HIGH
VI 3"791?2. (1000 «I)
11?'. (IflOO GAD
SOLVENT
Ub67. (TON'S)
B-20
-------�
APPENDIX C
SUPPORT MATERIAL FOR NEW JERSEY AQMA SUBMITTAL
This report documents the techniques and level of detail used in performing
the AQMA Analysis. Details on development of the inventory and subsequent
modeling efforts are provided in Section 3 of this report or, when Tri-State
data and techniques were accepted, in EPA-902/4-77-006.
This Appendix presents the specific data summaries required under
Section 51.51*s Subpart D of 40 CFR 51. Included are Tables 7.1 and 7.2, Baseline
and Projected Emissions for each county and projection year; a map portraying
the grid system for each county; and the emissions associated with each grid
(equivalent to Table 4-2). The grid maps have been created so that each grid
is printed at its proper location and is represented by a digit specifying
its side length. Each digit on the map represents 1 square kilometer.
Location of a specific grid can be performed by determining its distance from
the apparent origin (southwest corner). The UTM coordinates of this origin
are printed as XMIN and YMIN in the map heading.
Concentration isopleths have been presented in Section 6 of this report.
C-l
-------�
COUNTY.
YEAR _J
Table 7.^
County Base Year Emissions Report
o
i
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS, TONS PER YEAR
PART
^/
*r
-------�
Table 7.X
Continued
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
INSTITUTIONAL FUE
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
L TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
4f7^
/r?
J7
?af
/tor
//flC
/
/
/
f£o$r
//ft
SOX
99?
?/«!
-I
J?67
#J7?
nfi
X?
'1
n
#i7?
TZfff-
NOX
HC
CO
O H
o v>
3 cr
-------�
Table 7.^
Continued
•P-
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESSFUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
PO'NT
<\REA
POINT
PART
Z*
rr
SOX
-------�
Table 7.
C' onti nued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
2-&SL
//J
/
jifcr»
/7&
±7i
$y
7*3
3&sr
**1
*v
61?
Sr
79
/?
i
?r
/^»r
NOX
HC
CO
o
I
Ul
-5
-------�
Table 7.2.
Continued
o
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK, SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLEDLAND
AREA
POINT
PART
&
?
-------�
YEAR
Table
County Base Year Emissions Report
o
I
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTIL LATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS, TONS PER YEAR
PART
•*!_„
«sf
/7JL
^1
J*7
J
3
2fc>
*rs
JL7
*1
it"
&
3J*
?6±
SOX
£
/£7t
?*"*
¥
2C4o
^
J_
r?
^
4
73JL
22.&£
NOX
HC
CO
o
-J
-------�
Table 7ju
Continued
o
i
00
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
flf
£6?
?/
7£.^
/SO?
?&tr
/*»r
?£r
SOX
AflfrJ
f fy
*
i.
2j#7?
-------�
Table 7.JL
Continued
o
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
/>r
/?/y
iOfJL
SOX
IKf
1?
16?±
NOX
HC
CO
O H
O 93
3 O-
c* i—
3
C -4
Q. H-
-------�
Table 7.JL
Continued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY*
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
J//3
/*/&
J2Jl
-------�
Table 7 A
Continued
o
i
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST '
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
I
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND, GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLEDLAND
AREA
POINT
PART
,
96
W6n
^JhT7
SOX
f
£*«J
f7/0
NOX
HC
CO
O H
O 05
3 CT
r^- I—•
5' *
C ~3
. fD •
-------�
COUNTY.
YEAR
Table T.i.
County Base Year Emissions Report
o
i
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTIL LATE OIL
NATURAL GAS
PROCESS GAS
' ~r- - ' '- :'
COKE :
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL ,
- :.••... _...-•... ; .-'•£- -
AREA
POINT
AREA
POINT
r-OINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS, TONS PER YEAR
PART
//
^J7
»0
#/
3
s?±
^L£&-
/O
to?
Ill
I*7A
22
£
JLf
2*3
fr?£
SOx
.2.
9/3
It*
^
/e*f
'*W
-------�
Table 7.J
Continued
I
h-'
LO
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
INSTITUTIONAL FUE
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
L TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
-Af£L^
Iff
JJL
y/i
/0f?
J.JR/3
/e>4Sr
XS/3
SOX
7*
rrr/
JLJJf
JTiy
NOX
HC
CO
O H
o v
3 cr
-------�
Table 7.
Continued
n
i
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AF.EA
POINT
PART
4t?/
era
/*/
/S"0
[4t*^
SOX
/r?
f-A^
/
*r*%^
NOX
HC
CO
O H
o »
3 cr
c-»- •—'
s- *
g --*
-------�
Table 7j
Conti nued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
ft?
W
9*1
/sr&
/*7
*r
T.T.I
/r
!$T
//J4
SOX
JL/9
16
24tf"
J41,
/7i
pa
&
/?
V
^^f
J&1ZL
NOX
HC
CO
o
I
^ H
c -i
o •
a >-
-------�
Table 7.X
Continued
o
i
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST '
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
I
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
94
wxa
z^&r
SOX
,
?7?^
/dJLf
NOX
•
HC
CO
O H
O V
3 cr
C -J
(B •
C. «~
-------�
COUNTY
YEAR
Table T.
County Base Year Emissions Report
n
i
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE i
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
'TOTAL
AREA
POINT
AREA
POINT
r-OINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS, TONS PER YEAR
PART
9
M&4
3/
to
/
Jt?
t*l
/V
"t
/>/JL
?
7i
^^
6
tfy
/&?€>
SOX
JL
//«?
I*
y
//?<
9>r~
?*r
3£3L
*&7i.
/f
'Tf
?
f
a^f
1*&$
NOX
HC
CO
-------�
Table 7.^
Continued
n
i
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
JgJ
/o-L
^0
*&r
vs~sr
/g*/
.?>.
^L
*r*
./fry
SOX
-------�
Table 7. X
Continued
n
I
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESSFUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
7^
//r«
/t
//00
3/f&
SOX
797?
£9T
33?
-------�
Table 7.
C'onti nued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
PART
J&£f
jj9
/
jLJtO*L
Mr
/f7
TP&b
JJ£L
s
GASOLINE |
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
__^i
2TV0
SOX
,£2/_
%&
/
_gyf
JL^A,
\ /JLO
__£&/_
$ty
_ggyg__
^^/d
/
JL^L
1*^
NOX
HC
CO
o
I
§ 8-
a. •—
-------�
Table 7. It.
Continued
o
I
NJ
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLEDLAND
AREA
POINT
PART
/I
3r#
&09&
SOX
0
JZ1&
W?4
NOX
HC
CO
O H
o v>
3 cr
«-t- i—•
5-0
C -J
n •
c- .-
-------�
n
i
COUNTY.
YEAR _
Table 7.J^
County Base Year Emissions Report
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOL ID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
ARF A
POINT
EMISSIONS, TONS PER YEAR
PART
*T
J&4-
JJ
*I
X
.*/£_
Jt£_
z|r_
?
?
/OJL
/?g-
SOX
/
Hr$l
*s$r
i
?1fr
/*&
££%>
V?
1
JL3L4
*<**-
NOX
HC
CO
OJ
rt
-------�
Table 7. X
Continued
o
i
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
INSTITUTIONAL FUE
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
L TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
/7JL
^9
/7
-LCV
-------�
Table 7.
Continued
o
i
-P-
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY M£tALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUWC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AHEA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POIK.T
PART
lA
JI^-L
SOX
NOX
HC
CO
n -3
O 09
3 er
<-»• *•—
3 °
c -a
(D -
a. ^-
-------�
Table 7.
C'onti nued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
te-/r
73^
/SVJL
#9
'ft
Jf
J51
J
«\
/
7
/n*
SOX
1*6
-^
y*4
&*
//
-------�
Table 7.1.
Continued
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOURCE
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST '
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
1
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOAD4MG CRUSHED TOOK, SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLEDLAND
AREA
POINT
PART
,
/&
Jfflrf
5%
SOX
,
2&?
SaJn
NOX
--
HC
CO
O H
O i»
3 cr
If H-
5' O
C ~3
-------�
Table 7
County Base Year Emissions Report
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS, TONS PER YEAR
PART
9
±71
3S
_X1^
*r*
/6J
J*/
f,
£/
/r
/
/-?7
4^f
SOX
i,
Aarff
6?
^
//Trf
M^
ff?
^9t~
s~?
f
264
!0r?
NOX
HC
CO
r>
i
-------�
Table 7.£
C ontinued
o
i
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL.
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
2J£
96
J3,
Tff
_C2J_
*J3
+Tf
SOX
jfjySL
^r^
/
/aw
^S&ISI
affrr
/0T7
NOX
•
HC
CO
O H
O V>
3 cr
fP
CL
-------�
Table 7.X
Continued
o
I
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
SOX
£&y
44O
NOX
HC
CO
O H
O »
a cr
«•* *-•
5' m
C -J
CO •
Q. •-*
-------�
Table 1
Continued
SOURCE
TRANSPORTATION
(AREA)
t_
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
i_ CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
l£%2-
9A
JL,
J^&JL
__ALC
3*2Lf
•*X
T?JL
s*~
SOX
TO
/
4/jLQ
_J^jS_
9 5~
9 3
ff.^
£
3L
^
3rn_
NOX
HC
CO
-
n
i
o
o P
3 O"
T) •
G. •—
-------�
Table 7.JU
Continued
o
i
u>
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
1
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLEDLAND
AREA
POINT
PART
/?
ifftf
r^
SOX
t
34?*
Z(H
NOX
HC
CO
O H
o v
3 cr
<•+ i—•
5- o
C --J
•
C. «-
-------�
COUNTY
o
I
LO
Table 7.^
County Base Year Emissions Report
SOURCE
FUEL
COMBUSTION
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS, TONS PER YEAR
PART
w
m
^2?
c-
1
aif
~~sr
2.
^jS^
^£L
~£3L
1£±_
\-5?£
SOX
3
u2feL
^rr
$
f^7
^M_
It
.
JJLl.
__^_
,|S«g>>>
' /jf
ft^t
/&!&-
NOX
HC
CO
H
v
cr
-------�
Table T.JL
Continued
o
i
OO
OO
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
INSTITUTIONAL FUE
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
L TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
-2T
_££_
/?
3/&
Fa?
378-
&J7
27f*
SOX
*??f
*/rt
/
fi*r-?
£KX-
/&/$
&$£.
M&&
NOX
HC
CO
O H
o to
3 cr
re •
c. H-
-------�
Table 7.1.
Continued
o
i
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT '
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITC INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
, POINT
AREA
POINT
AREA
POINT
PART
SOX
Ji
*%&
NOX
HC
CO
n H
O to
as:
5-*
-------�
Table 7.2.
Continued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
f/oe>
*•_?
/
//**
&
77
yjr
/*!_
/J»
SOX
3?r
i$r
363
S43
7?
-2^
*t/
2
a
&i
NOX
HC
CO
o
I
OJ
Ul
o P
-
c -i
-------�
Table 7.J.
Continued
U)
oo
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
frr?
33
7
£T*
/&.<¥$
JlSL.
/a*d
/JL?
/SJ
^*£1
:^53
jgjL&_
-ffjU,
-*r*
NOX
HC
CO
O H
O V
3 !T
r* t—>
a *
c o
0) •
G, i—
-------�
COUNTY
YEAR __
Table ".2^
County Base Year Emissions Report
o
LO
SOURCE
FUEL
COMBUSTION
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
'PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS, TONS PER YEAR
PART
f
V/>
%
XV
Af?
/&r
/*&
/±
f
/
S&f
/ir
SOX
/
rtl
/!
/
V;*
-?#C"
^JTs"*
f£
I
/
*0JL
^T^
NOX
HC
CO
-------�
Table 7.X
Continued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL-
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
Jjg>
JT^
JL
^fy
23r
/&
%^i
/£"
3
SOX
.2J£"~
/^
^rT
.4^7
7
r/
/&$
^U.
^^J
NOX
HC
CO
n
i
o v
3 cr
C -1
It •
c- •-
-------�
Table 7.
C ontinued
o
i
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS '
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
,_ POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
LJP?
^2Z£j
SOX
NOX
HC
CO
O H
o »
3 or
<•* i—
5" ffl
C -4
(T> '
D, •—
-------�
O
I
COUNTY.
YEAR
Table 7.^
County Base Year Emissions Report
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS, TONS PER YEAR
PART
20
wr
-------�
Table 7.i.
Continued
n
i
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST '
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
1
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLEDLAND
AREA
POINT
PART
£
2Jdf
r**
sox
t
j/rf-
***
NOX
.-
HC
CO
n H
O B3
3 cr
C ^J
ft) •
a. i—
-------�
Table 7.X
Continued
o
i
-P-
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
.j-rfc.
?r/
J5QL
SOX
1W
7
/f>&
^^_
NOX
HC
CO
O H
o v
3 cr
r* >—•
5' »
C -4
(B •
O. •—
-------�
Fable 7.JL
C ontinued
o
•P-
OJ
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
INSTITUTIONAL FUE
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
L TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
2^*?
/^
-£?
?Jf
J?9*3
/31A
&9Q
fl&Q
SOX
-&L2L.
5-7
/
£&a
i?M
&td
&*&
jfta
NOX
HC
CO
O H
o v
3 cr
ft) '
C. i—
-------�
Table 7.JL
Continued
o
-p-
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST '
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
f
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND, GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLEDLAND
AREA
POINT
PART
,
//
24*3
/&#
SOX
s
22,22.
74ft/
NOX
HC
CO
O H
O ff>
3 CT
r-t- i — •
5" °
C ~J
C. f-
-------�
Table 7.JL
Continued
SOURCE
TRANSPORTATION
{AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
/vri
&?
/£??
fr*
rf
W
/?6
t
/&
/a
/?36
SOX
?
r?
a/^
.
^r
NOX
_
HC
CO
o
I
O P
3 cr
r^- ^—
5- *
c ~i
o •
o. >-.
-------�
Table 7.JL
Continued
n
i
oo
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
*?y
/?/
J?
7/2^
£&££_
tltl
/&r
/ty?
SOX
/4tt?
9i/
^
/WLtf
4jr3&
\1l?
V&Q
194*
NOX
HC
CO
O H
o v
3 cr
(B •
O. K-
-------�
COUNTY.
YEAR
Table 7.X.
County Base Year Emissions Report
n
FUEL
COMBUSTION:
EXTERNAL
SOURCE
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOL ID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS. TONS PER YEAR
PART
Jtf
-------�
Table 7.JL
Continued
CD
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
*tf*S
/?/
17
7/i
Zl££L
/JL*ST
/££r
/*
-------�
Table 7.i
Continued
o
•P-
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
?r
??£"
SOX
7J
_71
NOX
HC
CO
O H
O to
3 cr
«-+• f
*
n '
a. *-
-------�
Table 7.JL,
Conti nued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
?<*r/
/9£
/
_2A£J
}<%/
**t
*J
fJLf
?
/
&
__^_
-
f
3?%L
SOX
4lf
*7T
^f
*l
A
/A*
/r^r
NOX
HC
CO
I
Ln
O
-------�
Table 7.1.
Continued
n
i
l-n
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST '
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
r
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
,
^1^
-
£??0
/?4f
SOX
•
&/£
<*&¥$
NOX
.-
HC
CO
O H
O I"
3 cr
e-» t—
5'°
C -1
fB •
C. H-
-------�
COUNTY.
YEAR
Table 7.i
County Base Year Emissions Report
o
i
Ui
NJ
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOL ID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTIL LATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS. TONS PER YEAR
PART
<*?
??4
/**
l±
?*3
Jt
a
3/A
*r/
?
?*4
rw
SOX
£
i?5Q
?7
i
n
-------�
Table 7
Continued
SOURCE
FUEL
COMBUSTION.
EXTERNAL
ICONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
C.TJL
<*/?
*?
*•/
-------�
Table 7.X.
Continued
n
i
Ul
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
/ra
JL±£1
^2&
SOX
jor
tf
i&t&
NOX
HC
CO
O H
O IB
3 cr
-------�
Table 7. J
Continued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
AMI
t&1
c
l*ALV
/?/
Tl
4tf?
f
//
/*—
*
f
?
-££!£.
SOX
wr
*r
^2JJT
Jl*
JH6
*?
M
7
/jf*
I3A
*rt
4f
t
;JA
/*9X
NOX
HC
CO
o
Ln
Ln
H
c. —
-------�
Table 7. X
Continued
o
i
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST '
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
,
763
r&i*
ZiO/
sox
!
&ZW
r/X*
NOX
.-
HC
CO
O H
o v>
3 cr
«-* i—
5-0
C -J
-------�
COUNTY.
YEAR
Table
County Base Year Emissions Report
o
I
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOL ID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS. TONS PER YEAR
PART
//
.**!>
V
-H-
:?*r
i*r
JA/
6
jr
y
JL4
2T7
in
M4
-------�
Table 7.1
Continued
I
U1
00
SOURCE
FUEL
COMBUSTION.
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
JL&£_
//?
*JL
V-l/
la*f
if*1
fo*£~
SOX
r?<"
-*?*
/
//*'*,
16tL
^7/SL
&£JL
<-.?/*
NOX
HC
CO
O H
o P
3 cr
-------�
Continued
o
i
VO
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING __,
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
Jr/
*£
/J2
/*£
7z^
SOX
fl¥
J22^
§">/
NOX
HC
CO
O H
o v
3 cr
** »—<
-»
C -)
» •
Q, H-
-------�
Table 1.2.
Continued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
?*T"
*4
/6S7
/£?
/?/
4ta
??r
/*-
.-
ilr
W4V
SOX
rtj
^
>J».
-*p?
-------�
Table 7.3L
Continued
o
i
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
,
7*7
jaX
J?^
sox
,
&??
&£?
NOX
HC
CO
O H
O to
3 cr
f+ *—
5-0
c -j
n •
c. >-
-------�
COUNTY
YEAR _
Table 7.^
County Base Year Emissions Report
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
, POINT
EMISSIONS. TONS PER YEAR
PART
/f}
wr
w
Tf
i
tsrl
i
&
±S-JL
m&
NOX
HC
CO
S>
Jo*
-------�
Table 7_Sfc
Continued
n
i
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
-7^ /
/AST
2/
ysnP
_£&/l
2/ta
20
JLO
/O/-L
3l$G
SOX
£££
S7?
/
//&&
'
JJZ&Z
&$£4/
/f-
/r
-27a?
I^Ki^
NOX
HC
CO
O H
o w
3 CT
fB •
C- i—
-------�
Table 7.X
Continued
n
i
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
/03*
VI
7£
IJLrtr
fafc
SOX
**9f
r?
-2£&
s*?*
/AOn
NOX
HC
CO
• :. .. :-
O H
O SO
3 cr
-------�
Table 7.J,
Continued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
JLt
-------�
Table 7.J.
Continued
n
I
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST '
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
i
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVEO AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK, SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
,
JtJL
*<&?
S*/ZL
sox
i
?w
.U«7
NOX
.-
HC
CO
O H
O P
3 CT
if >—•
g-0
-------�
COUNTY.
YEAR
Table 7jfc
County Base Year Emissions Report
n
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS, TONS PER YEAR
PART
f
2?fr
**
jTX
A
*H
8-7
iyr
9
4
//>r
m
SOX
/
y/yj
£**
_j>
/j/r"
;«*?
4>f
'
;
*y$
^?r
NOX
HC
CO
H
a
-------�
Table ?Jl
Continued
o
ON
00
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
/ff-y
?f
/y
r
1~>L
7£S
J9&-
7*£
1 /4*~
sox
HrV
*ri,
/
7*7
JLIU
*yf
W
NOX
HC
CO
O H
O V
3 cr
-------�
Table 7.i
Continued
n
i
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
W>
-------�
Table 7.X.
Continued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
/XJLQ
/CO
/f2A
*J
///
VO
2W
9/
3/0
f—
f-
W4
V3
$
/«
?6f
NOX
HC
CO
o
-J
o
o P
3 cr
r^ v—*
~.n
z. ~.-\
fts •
C. "
-------�
Table 7.X
Continued
i
--j
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK, SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
,
rtf
• • r
V6&
4/r
SOX
1
?0?l
3 O-
f-t- >—•
5-0
C ~J
n '
c- »-
-------�
YEAR
Table
County Base Year Emissions Report
o
i
-vl
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOL ID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTIL LATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS. TONS PER YEAR
PART
9
±11
*7
?/
/
T47
'&?
w
4
AX-
ft
/
/?*.
fZLS-
sox
i
**/
ry
3[
?/T
2JLS~
//A%
V
4?
(
/
_£f"^
//SV
NOX
HC
CO
H
v
-------�
Table
Continued
n
I
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
INSTITUTIONAL FUE
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
L TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
WT
/6Q
1?
y/A
~rlc
90?
-Tjf
SOX
~f*rr
-------�
Table 7.L,
Continued
o
i
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
SOX
7*0
7&>
NOX
HC
CO
O -3
§8-
-------�
Table
C'onti nued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
/£^4L
/at
J
/V*
/**-
%r
*%
Jt^L
^
t
7
.2A6/
sox
7//
3^
/
l^f
JfJfa^
c-r"
S^i
*&/
r
f
a
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^j®
NOX
HC
CO
o
i
Ln
D P
3 cr
E -1
it •
a —
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Table 7.2.
Continued
o
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOURCE
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST '
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
.
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
.
747
fc*7
5-Jtr
sox
t
3/01,
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NOX
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CO
n
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o
COUNTY.
YEAR
Table 7.0^
County Base Year Emissions Report
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS, TONS PER YEAR
PART
W
/fi
?/
T
t
XtJ
JL
2.
JJ0J
3>sr
1
«/i
i/J
r^r
¥/?
SOX
3
7Vf
*y
3
Wf
M
/£
6%t
/fli?
f&
/JLQ
/?
&V
//f7
NOX
HC
CO
-------�
Table 7.X.
Continued
o
i
oo
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
JLIf
fr?
/?
J/A
J0W
*S9
IA*f
y/f
SOX
W^
-------�
Table 7. J,
Continued
n
i
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
SOX
V?
*t?
NOX
HC
CO
O H
O 9>
D cr
C -4
n •
a. »-
-------�
Table T.J.
Continued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RES) DUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
/?*y
//£
/
wr/
7/
>5
/*
y*Y
JL
1
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SOX
J41
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?^v
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XI
*?
Dtt
f*f
NOX
HC
CO
n
i
oo
o
^ H
o P
3 or
E -1
-
-------�
Table
Continued
o
QO
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK, SAND, GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
,
JLlf
1&£
TVf
SOX
1
Afffi
/JLO&
NOX
HC
CO
O H
O to
3 cr
c ~j
(^ •
c. •-
-------�
COUNTY
YEAR
Table 7.X
County Base Year Emissions Report
n
&>
IS3
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS. TONS PER YEAR
PART
f
/JUT
/A
1?
tte
M7
nK
/JL
s
/
f*tr
/&
SOX
/
*?/
//
/
r/iT
HT
**3
If
i
/
*/A£_
39*
NOX
HC
CO
-i
so
cr
-------�
Table l.L
Continued
o
00
OJ
SOURCE
FUEL
COMBUSTION.
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
&££
3?
7
*"
144
1246
/l^
/*&
*tf
SOX
m?
/*y
/?
' ">
n •
Q. i-
-------�
Table 7i
Continued
o
i
oo
-fr-
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
y?A
Vl£
SOX
NOX
HC
CO
O H
o »
3 or
r+ »••
5-*
C -4
-------�
Table T.
Continued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
/JLX*
fr*
'W4
?*
/o
-*r
7?
-------�
Table
Continued
o
00
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
OUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND, GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED J^ND
UNTILLED LAND
_ AREA
POINT
PART
r>
iW
r>*~
sox
i
3*tr
&r
NOX
.-
HC
CO
O H
O »
3 or
C ~I
n •
c. ~
-------�
o
00
COUNTY.
YEAR
Table 7.2^
County Base Year Emissions Report
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
r-OINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS, TONS PER YEAR
PART
/?
W
tf:r
«r-
*ft(
?7
??
>f
f*6l
11
&
9
l*t
frr
(ft*
SOX
3
/tttt
'* f
J
/np
"•ir—
?oa
foa
£€
26&L
/*«
110
f
<*£
t*ll
2*/l
NOX
HC
CO
H
p
cr
-------�
Table 7.1
Continued
o
i
00
00
SOURCE
FUEL
COMBUSTION.
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
J9?
/ X.
*?
?3W
~^fM
J£$L
<*/*
t*&
SOX
^A2
*7
1
£Sr0
MSSL
33/L.
2*0?
W/7
NOX
HC
CO
O H
O V
3 cr
-------�
Table 7.J.
Continued
00
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
Jti
3/£
S/l
SOX
60O
X
/JtS^
tr?/
NOX
HC
CO
O H
o »
3 or
c -a
fO •
a. •-
-------�
Table 7.1
Continued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
/££l
/oft
/»4k
^JL
£-fc
f/
/?<"
•l-
2^
S3
/I
/ffA
SOX
JJ f
1J
i&&f
f&
g-q
j/f
t\a
£^
m
Jtd&»
4 /
/
jLty
9S#
NOX
HC
CO
VO
o
o »
3 0"
C ^1
-------�
Table 7.JL
Continued
o
i
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOURCE
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
i
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK, SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
,
U6
j/rr
JLIAJ
sox
t
JJ7X
lltft*
NOX
HC
CO
O H
O P>
3 CT
«•* >—•
3°
-------�
COUNTY
YEAR L
n
i
Table 7.JL
County Base Year Emissions Report
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL Oil
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
^OINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS, TONS PER YEAR
PART
„-..
3-1
/£&
/& f
-
7?F^
-------�
Continued
n
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
INSTITUTIONAL FUE
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
L TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
w
tf3
Ifr
-p.o
177*1
\2£L>
P71
.Jzzj
SOX
/€>/3
310
^
l^ti^
V??7
ytfE>
?9?7
?w
NOX
HC
CO
O H
o v>
3 cr
<-»• p—
-- ,
c -a
fD '
C. f-
-------�
Table 7. 1
Continued
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
^ POINT
POINT
AREA
POINT
ARE/,
POINT
PART
IT?
^f ^
SOX
*r
V^
NOX
--
1
HC
CO
O H
o »
3 or
-------�
Table ". 1
Continued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
73133s-
IOG
)
W4J
M2-
2&
\7
JT
5*
, -.---
Voo\
sox
&Z,
il
o
&ry
3-jf
13
-------�
Table 7. 1
Continued
n
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
1
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLEO LAND
AREA
POINT
PART
»
£/
5^
rt4l
sox
i
K*
-------�
n
COUNTY.
YEAR
Table 7.3L_
County Base Year Emissions Report
FUEL
COMBUSTION:
EXTERNAL '
SOURCE
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS, TONS PER YEAR
PART
//
3*&3
//ML
3
4/&
U fa
&i
130
223-
£2-%l
3&
1
Q-t
-------�
Table 7. 1
Continued
n
vo
oo
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT ]
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
JOf
Mil
ay
*/* o
//**
2
3 cr
n •
c. i—
-------�
i axue i. i
Continued
o
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESSFUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
HIT-
St>
Ifa
n
-------�
Table 7. 1
Continued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
e?to
w
I
Ifrfc
/4?
M
H*
2#r
-
_-
-
LO
—
10
...
/y^f
SOX
/?;*-
?/
Af^
KQ
V?
5-75,
-----
2.62
I7
1
3**
//^f
NOX
HC
CO
o
i
o
o
o P
3 CT
c -i
fo »
G. *-
-------�
Table 7. 1
Continued
o
i
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
?^
l&ft
3Z70
SOX
in?
%tf3
NOX
-
HC
CO
n H
o v>
3 CT
«t H—
5-0
C -1
a> •
C. H-
-------�
COUNTY.
YEAR
n
i
Table 7.^
County Base Year Emissions Report
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT!
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
r-OINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
PO:NT
EMISSIONS. TONS PER YEAR
PART
ar?
Sift
3$$
£9
JrYf
t
1
toT,
fif
&j
?e
3-7
i
?t?
?*?
SOX
£
M02L
WLD
¥
&3&
2
^
&£
34/V
W6
131
*
«..
7
:?*y
yT^jL
NOX
HC
'
CO
cr
5"
-------�
Table 7. 1
Continued
o
i
o
OJ
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE j
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER-
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
**7
22-1
ytff
356
262*
nfffi
SOX
//ff
/
Mti
2223
tt33
17&
5T33
p-jp-y
NOX
HC
CO
O H
O V
3 (T
r*- i-^
3' *
•=. -3
n '
c, i-
-------�
Table 7. 1
Continued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY'
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE .
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
J?^3
/££
o
1*1&
jf4
xi&
•?<•
W?
o
£.
71
31?
g-o
tt?
o
9
/r«?
/6*
f 7
<•/
1
ft?
—
MtA
NOX
HC
CO
n
i
o
-P-
E
*
a
-------�
n
i
o
Ul
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
l^t>
2-Y^^T
5-4 /'<
SOX
tflO
frl
2&£L
NOX
HC
CO
O H
o »
3
-------�
Table 7. 1
Continued
o
i
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
,
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK, SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
,
?y
c/*7<
3^^
SOX
1
&Mf
ttog'
NOX
.-•„
HC
CO
OH
o »
3 cr
* ' !
-------�
COUNTY.
YEAR
Table 7.
County Base Year Emissions Report
o
i
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS, TONS PER YEAR
PART
ft)
?*0
r/
^
i
f?t
W
f
ft
1*7
&.\<;o
f
fa
z
-------�
Table 7. 1
C ontinued
n
i
o
00
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COWS '.1ST ION:
IWTE -si A I
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
PART
3W
tn
a?
^T%$
POINT |
AREA
POINT
DISTILLATE OIL
NATURAL GAS
• DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
413K-
iA^V
_22$
//*V
^3/f
SOX
?^a
-------�
Table 7. 1
Continued
I
h—>
O
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
A109
9^
fi"?
1307
3 £67
SOX
y/353
-
-------�
Table 7. 1
Continued
SOURCE
TRANSPORTATION
(AREA!
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
?^03
f &3
f
) ?£7
^/u
132-
t?£
4O31
- —
-
— ,
S~
„
5-
35"?^
SOX
JiS^L.
y &
/
J33
3 T¥
/&$'
ffii
£ •
o. •—
-------�
Table 7. 1
Continued
o
i
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK, SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
90
f V
y-
-------�
COUNTY
Table
County Base Year Emissions Report
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT!
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOL ID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
r-OINT
AREA
POINT
AREA 1
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS, TONS PER YEAR
PART
X
^€0
*f&
so.
3L
^
Jim
^n
_Jo_j
10
j/f
a.t~t
SOX
1
h/fip
€"T
3^
f>
146$
/ff
?fJL
_i£L
/
2?"5-
7V^
NOX
HC
CO
as
a-
-------�
Table 7.O-
Continued
o
i
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
FW
7?
/s-
jf?
*//
w
%.fj
SOX
?Af
372.
/
f
»^
ASQL
?ya»
££Z3/
NOX
HC
CO
O H
o »
3 CT
(H •
G. i-
-------�
Table 7. 1
Continued
o
i
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SE~CONDAFtV METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCiAl-
INSTSTUTIONAL
INDUSTRIAL
MUNIC. tNCiN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
fMi
SOX
NOX
HC
CO
O
o
3
C
H
§•
n •
o. *-
-------�
Table 7. 1
C'onti nued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
3646
*)~
JL
ti
//7
$3
±16
/
^
$
/A
/£
2*f£
SOX
T9r
II
AT"
(ft
4f-
??/
/
£
j
fa<£
Vr
2
AA±_
1X6
NOX
HC
CO
O H
O P
3 cr
t-v ^
3-fl)
a —
-------�
Table 7. 1
Continued
o
i
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOAQffiK CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLEDLAND
AREA
POINT
PART
31
33L#$
/fr3
sox
f
?4?7
7V3L
NOX
.-
HC
CO
O H
O P
3 cr
C -J
n •
-------�
COUNTY
YEAR _
Table
County Base Year Emissions Report
o
I
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS. TONS PER YEAR
PART
WQ
IU1
xsL
-)£>
1
I
W$
I33&
NOX
HC
CO
-------�
Table 7. 1
Continued
o
i
00
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
JM^
mi
-W .
4^jNF
J£®J_
rrf
S&JL/
m
SOX
&3¥
5fc£
/
l$f£-
!£2&_
/Jtf4
xrtf
tete
NOX
HC
CO
O H
O P^
3 O-
r+ t—
5' •»
= -)
ro •
-------�
Fable 7.1
Continued
n
I
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
SOX
fSV
#rd
NOX
HC
CO
O H
O »
3 cr
r* *—•
5- .<•
C -4
(» •
a, *-
-------�
Table 7. 1
C'onti nued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
/**r
i
jtz2ij
>r&
*£__
-jf^
Arj
9*
t
<$
2i?r
SOX
*
40.1
^>?
Em
f?
4^Q»
/£
/
n
$
a,
LIXC
NOX
HC
CO
o
O
^ H
o P
3 CT
C. -~1
•
Q. ,—
-------�
Table 7. 1
Continued
o
i
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
F
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
,
Hi
W.3L,
*&
sox
?ftv
JL/fO
NOX
.-
HC
CO
O H
O V
3 cr
rf K-
5-o
C -4
ft •
C. •-
-------�
COUNTY.
YEAR _
Table 7.JL_
County Base Year Emissions Report
o
I
N3
N3
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOL ID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS. TONS PER YEAR
PART
fU
_£"'
!
JL£P-
5
2-
3^?
y/z.
Y
y&
°3^f ~S
5~7^r
V^tf
SOX
3
$0}~
£1
A
o
£?&
tg~
1$
_j^L_
JJ2^_
5V
I33L
13
-
707
AZ£-7
NOX
HC
CO
H
fl3
cr
-------�
Table 7. 1
C ontinued
o
i
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
2/f
&&
/?
' ' r
jai»
nrf
4&Q
/I/J
m
SOX
*tf?
t(¥
/
2353L
/j?i.
Wsr?
/4y%.
NOX
HC
CO
O H
O SJ
3 cr
fD
O.
-------�
Table 7. 1
Continued
o
i
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DtSPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
SOX
tf
^^
NOX
HC
CO
•
o
S-
-------�
Table 7. 1
Continued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
/4&J
~**/~
/f^f
If*
/**-
^f?
SOX
«*?r
?t
u/
/*/
&2
y>£
2.r&
3
^
r&p
NOX
HC
CO
o
1
Ul
0. —
-------�
Table 7. 1
Continued
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
OUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
I
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
i AREA
POINT
PART
,
/*
2«3a
V6*>
SOX
I
^azo
/?27
NOX
.-
HC
CO
O -J
§g-
-------�
COUNTY
YEAR
Table
County Base Year Emissions Report
O
I
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTIL LATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS. TONS PER YEAR
PART
-
3
/«,
SOX
/
lf>7
A3L
/
6
tft
3?k
3//
it
1
/
*tMf
J/JL
NOX
HC
CO
-------�
Table 7. 1
Continued
o
i
to
00
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
yzy
3£
?
ffJL
wit
/
-------�
Table 7.1
Continued
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESSFUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
#s$
4f&
SOX
o
NOX
HC
CO
n H
O »
3 a-
C -4
et> •
O. *-
-------�
Table 7 1
(.' ont i nued
o
O
TRANSPORTATION"
(AREA)
LAND
VEHICLES
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
HEAVY DUTY
OFF HIGHWAY
COMMERCIAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
-------�
Table 7. 1
Continued
o
i
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
1
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
,
/f
'
?£5>
tfo
sox
•
?m
3I&-
NOX
.-
HC
CO
O H
O V>
3 O-
r-r t—•
3 °
C ~1
a> •
c. •-*
-------�
COUNTY
YFAR
Table 7.X.
County Base Year Emissions Report
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOL ID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS, TONS PER YEAR
PART
^
/?
Jf7
b?
?r)
4)
47?
_JJX.
J33k
/5\
ifffl
$ I
I/
7
77
9
-------�
Table 7. 1
C ontinued
n
i
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
^J>OINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
ml
/3L
a3
3ZX
&
-------�
Table 7. 1
Continued
o
i
U)
-P-
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDAFTTMETALS
MINERAL PRODUCTS
PETROLiUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
1H(>
3^0
I&&
SOX
?m
&
ll
_£2ZL
NOX
HC
CO
O H
O B>
3 er
-------�
Table 7, 1
C'onti nued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
/tyL
If/
l~7
-------�
Table 7. 1
Continued
n
i—'
LO
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUM AN AGI-
TATION OF THE AIR
AIRBORNE DUST '
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
1
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
L POINT
PART
,
/>/
3?32L
2J<0
sox
f
33#?
/J3Z3
NOX
:
HC
CO
O H
o v
3 cr
r* t—'
5- O
C ~J
tf •
c. ^-
-------�
Table 7.A.
County Base Year Emissions Report
O
I
LO
--J
YEAR -ZOOO
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS. TONS PER YEAR
PART
-2 /
J f -&-
/JO
IOO
7i3
f^A
tf&
^ 1^
I&/0
ca
r
"*
-------�
Table T.i
C ontmued
o
i
00
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
!l
1
)
FUEL
COMBUSTION.
fPJTERNAL
COMMERCIAL
INSTITUTIONAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
OTHER |
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POIWT
AREA
POINT
^_AR^EA__
POINT
POINT
POINT
AREA
POINT
POINT
L__AJliA__
POINT
DISTILLATE OIL
PART
_£2£L
SOX
bsfar
*/¥ \ -4,
— t*_j
NOX
" -
1 I
! 1
JL£HJL
' NATURAL GAS 1
DIESEL f
OTHER ~T
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DliSEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
^/&^
'???
jriCl.
r?u
jffptff
HC
CO
r^H3
I
!
i
1
^_J
O H
O 6>
3 O-
-------�
Table 7.^
Continued
o
i
OJ
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
/**
/y^
SOX
w
/4/
NOX
HC
CO
O H
o »
3 or
c -a
(9 •
a. »-
-------�
Table 7.Z.
C'ontinued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
llf /
JLIIg
/
?X/^
223
3&®
J®
_£2£_
//
3.
J
7
—
ya/i
SOX
rra
//f
j-g-e-
3/J
A2HT
S'JTO
/4>
A/,
JL&
XCf
•y^
«i
/9/
-
//fi
NOX
HC
CO
o
I
o »
3 CT
a. •—
-------�
Table 7.1^
Continued
n
i
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
1
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
,
J<£
£???
n&
SOX
7M
rfu<
NOX
HC
CO
O H
O V
3 cr
r* 1—
5-0
C. •-
-------�
n
COUNTY
C5SC
^ _
YEAR 2.6OO
Table 7. 2.
County Base Year Emissions Report
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOL ID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
r-OINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS. TONS PER YEAR
PART
*?
7?X
JOO
£S
/6JL*
J.
z
3/3
A2?6
^.5_
33
-j£L_
IQ
Jffi
/n*
SOX
A
2126
*/
ar;gr
/
/
di>
J^4QL
/^ff
/tl
A
/A
7*7
3«"3£'
NOX
HC
CO
V
CP
-------�
Table 7.2.
C ontinued
n
i
00
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
INSTITUTIONAL FUE
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
L TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
$-
-------�
Table 7.X
Continued
o
i
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL „
AREA
POINT
AREA
POINT
^POINT
AREA
POINT
AREA
POINT
AREA
POINT
L AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
7
-------�
Table 1.2.
Continued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
^y/i
/>7
o
143*
-wr
ill
40.
*r/
0
7
*?
/o*t
If
IS
3*H
SOX
-------�
Table 7.0.
Continued
n
i
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA ,
POINT
PART
-*y
r*9?
ro^r
sox
r
^716?
**53
NOX
.-
HC
CO
O H
O to
-------�
COUNTY.
YEAR
Table 7.1.
County Base Year Emissions Report
o
I
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREAI
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
- TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
cOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS. TONS PER YEAR
PART
y/
J*r
>3J
jy
$
STY*
-22±-
//f
337
^3V
3/7?
30
10
*sr
*1L
3/fl
SOX
A
/&H
2ftO
i
AT?fr
/*fcj.
-IflLjL
/?€>
-------�
Table 7.^,
Continued
n
i
CO
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED}
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
~J?f~~
JL£1_
-.2.9
vr^
JAAS-
1O.&
/JL^
3r^4
SOX
.dJO_
r?f
__ZI
/^¥i
I^O
7/W
IV £3
7/4 t
NOX
HC
CO
O -J
O (u
3 iT
«-»• *—•
5' ^
C —3
n> •
o. •—
-------�
Table 7.^.
Continued
o
I
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT) .
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
E RATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
tvt
13
JL4J
1*0
/JL^7
SOX
?w
£O£~
A
_£"?y
NOX
HC
CO
O H
o »
3 a-
c ~i
» •
Q. ~
-------�
Table 7.
Continued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
/636
/A9
II J 3
/??
/ft4/
f/
4/1
JLV
&%
/*tt
SOX
//fir
•» /
/f^
30*r
/*?/
/fj
Ij^.
/^ &
1
ro
///^
NOX
HC
CO
o
I
o P
3 cr
T) •
O. H-
-------�
Table 7.JL
Continued
o
i
Ui
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
J<5>
1U±
tni
SOX
477i
r/rr
NOX
HC
CO
O H
O V
3 cr
t+ f~"
5-0
C -J
c. H-
-------�
COUNTY
YEAR
^Sex-
County Base Year Emissions Report
o
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOL ID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS. TONS PER YEAR
PART
/a,
7JL
fQ
1
rai
^f
?l
/£/
3
-------�
Table 7.O.
C ontinued
o
i
Ui
SOURCE
FUEL
COMBUSTION.
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
fO*?
nr
JL?
r?*f
/i^r
J,Ud
n
u*v
3AJ7
SOX
V*fK
4&
1
ITMf
irtJL
*IU
//
JCY,i
?<77
NOX
HC
CO
O H
O V
3 CT
(D
C.
-------�
Table 7.i
Continued
o
i
Ul
-P-
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY MET AL§
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
2O€*>
Wl
Ail
M&V
^7ff
SOX
/*?£*
JT9
£"?&
-&2JJL
a?4H
NOX
HC
CO
O H
O (D
3. 2
5" *
C -4
-------�
Table 7.2.
C'onti nued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
3-i 10
c*y
1
nrf
jj.fi
AL?
/6j
-------�
Table 7.X,
Continued
INDUSTRIAL SOURCES
SOLVEMT
EVAPORATION
O H
© ta
3 cr
ff* *=**
5- *
c -a
« •
-------�
o
I
COUNTY
YEAR 2.OCO
Table ".X.
County Base Year Emissions Report
FUEL
COMBUSTION:
EXTERNAL
SOURCE
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
.OINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS, TONS PER YEAR
PART
r
vsv
rr
r*
±
6Qb
it i
3o 3
/JL
/JL
/ir
303
SOX
/
/get:
/I3L
5
o
wt
1J±
I63"3
tr
i
2)V
/on
NOX
HC
CO
-------�
Table 7.J.
Continued
o
i-1
Ul
00
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTIL LATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
JJL7
97
77
3*r
IOJ&
30*
/07O
3$ J
SOX
*?y
r*
-------�
Table 7.JU.
Continued
o
I
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
-------�
Table 7.1,
C" onti nued
TRANSPORTATION
(AREA)
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
o P
3 cr
(=*" f=»
5' n
Z -1
ff, •
a. i—
-------�
Table 7.JL
Continued
o
i
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK, SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
H
3*>/t
97?
sox
f
4345-
/03J
NOX
HC
CO
n H
O P
3 cr
C
n
C.
-------�
COUNTY.
YEAR _
tJL
Table 7.2,
County Base Year Emissions Report
SOURCE
FUEL
COMBUSTION.
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTIL LATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POIWT
rOINT
AREA
POINT
AREA
POIWT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS. TONS PER YEAR
PART
9
r«sd
^9T
L_Jlm_
/
$31
r^~
_&*_
LSI
A
/£&
7VI
SOX
^
. X
/rj^
C31^
ii
/
JL
Ji
-------�
Table 7.2.
C ontinued
o
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
INSTITUTIONAL FUE
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
L TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
1H8
M/
-ir
y^*
/*t*
/
tSCJL
3/?£
J/7£
/7?7
NOX
HC
CO
O H
o P
3 IT
o> •
o. *-
-------�
Table 7.1
Continued
o
i
-P-
SOURCE
INDUSTRIAL
PROCESS
(POINT)
1
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY-METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCiSS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
OM-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
E RATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
SOX
/&J3
r~
NOX
HC
CO
O H
O V
3 cr
C -J
-------�
Table 7.X
C'onti nued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
JJ^7
l}&
>>
m
?J
*?
J/A
/
/£»
f
/•*-
itof
SOX
K4
!i
v^i
^/t
V
/«?
f//
/a.
/
/*
1
T
f?rt
NOX
HC
CO
o
I
§ &
a —
-------�
Table 7. 1
Continued
o
i
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
PART
FROST CONTROL f
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED A8RSTRJPS
PAVED ROADS
MINERAL PHOCE3S6NG
TILLSNG ACTIVITIES
SANQ, GRAVEL
CONSTRUCTION
STORAGE PILES
TILLEO-LAND
UNTtlLEDLAND
AREA
POINT
SOX
«
z^rzz
NOX
i
JL
__^_^_
9
ro/&
?&l
f/0i
3£>**6
HC
CO
i
f. ,
O H
o P
3 cr
•-»• ^-^
5- o
C -I
-------�
o
I
COUNTY
YEAR JLC300
. • *•
Table 7.X
County Base Year Emissions Report
SOURCE
FUEL
COMBUSTION:
EXTERNAL
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOL ID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS. TONS PER YEAR
PART
/
/757
NOX
HC
CO
v
or
-------�
Table 7.
Continued
I
*->
00
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE 0!L
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
' NATURAL GAS
DIESiL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
INSTITUTIONAL FUEL TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
,2*7
?A
l&
33 y
/JLi*.
£2^a^
L ft\
SOX
%>r*
y^7
/
*%3>3/
&$"$&
JO3t£>
/?f3
NOX
HC
CO
O H
O to
3 cr
a. >—
-------�
Table 7.JL.
O
I
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESSFUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
SOX
to
GA
NOX
HC
CO
O H
O »
3 cr
e+- *—•
5" »
c -y
<* '
Q. *-
-------�
Table 7Jt
C'ontinued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
w?4
i j ii
/
>//t
<&^
f/*""
/9
/*t
Wco
SOX
JL41
TS*
Jfr^
/?^
%&
-------�
Table 7.i^
Continued
I
t-'
—1
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK, SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
,
7
3£>JLci
6H
SOX
t
^
Ii*^
/S'O
NOX
HC
CO
O H
O V
3 cr
C -5
(? •
C. H-
-------�
Table 7.X
County Base Year Emissions Report
o
i
SOURCE
FUEL
COMBUSTION:
EXTERNAL
|
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
1 BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCiSS GAS
EMISSIONS. TONS PER YEAR
PART
£L_
.ajLT-
J.©_
_J^_
COKE _J
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTIL LATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POIWT
r«OiNT "1
AREA
POINT
AREA
POINT
AREA
POIWT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
AiS
_JX^_
//
a
;LI#
*O
SOX
/
14f
../... .
w
IlJlLl
e
__is_
*r&y
«$4
NOX
HC
CO
1 i
H
s>
cr
-------�
Fable 7.X
C ontinued
o
I
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL-
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUID PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
INSTITUTIONAL FUE
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
AREA
POINT
DISTILLATE OIL
NATURAL GAS
DIESEL
OTHER
TOTAL
DISTILLATE OIL
NATURAL GAS
GASOLINE
DIESEL
OTHER
TOTAL
DIESEL
L TOTAL
ENGINE TESTING AIRCRAFT
TOTAL INTERNAL COMBUSTION
TOTAL FUEL COMBUSTION
AREA
POINT
PART
IbVC
v±
V
mi
Hfl
i/'5
/&/
a/3
SOX
-LlAL
±osT
if
-------�
Table 7.JL
Continued
o
i
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
LAREA
POINT
_POINT
POINT
AREA
POINT
AREA
POINT
PART
?0er
yatf
SOX
NOX
HC
CO
n H
O IB
3 cr
(» •
Q. *-
-------�
Table 7.2.
Continued
TRANSPORTATION
(AREA)
SOURCE
LAND
VEHICLES
AIRCRAFT
VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
/4/Q
9i
/
'?*>?
*2.
SO
JJ
s-f~
K
5T
/6oo
SOX
J*3
ri
t
jLtt
TV
9
7f
/SV
£
£
-------�
Table 7JL
Continued
o
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
OUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK. SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
f*
Mi
927
SOX
yjgy
til
NOX
.-
HC
CO
'
o s
O P
3 CT
c >i
» •
-------�
o
I
COUNTY
YEAR J.OOQ
Table 7.3^
County Base Year Emissions Report
FUEL
COMBUSTION:
EXTERNAL
SOURCE
RESIDENTIAL
FUEL
(AREA)
ELECTRIC
GENERATION
(POINT)
INDUSTRIAL
FUEL
ANTHRACITE COAL
BITUMINOUS COAL
DISTILLATE OIL
RESIDUAL OIL
NATURAL GAS
WOOD
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
SOLID WASTE/COAL
TOTAL
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
PROCESS GAS
COKE
WOOD
LIQUID PETROL GAS
BAGASSE
OTHER
TOTAL
AREA
POINT
AREA
POINT
rOINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
AREA
POINT
POINT
POINT
POINT
AREA
POINT
EMISSIONS. TONS PER YEAR
PART
/9
TC'f"'
4r
jfrf~
$7"?
*d
?6
/f
/€f
-------�
Table 7^.
Continued
o
i
00
SOURCE
FUEL
COMBUSTION:
EXTERNAL
(CONTINUED)
I
FUEL
COMBUSTION:
INTERNAL
COMMERCIAL
INSTITUTIONAL
FUEL
OTHER
ANTHRACITE COAL
BITUMINOUS COAL
LIGNITE
RESIDUAL OIL
DISTILLATE OIL
NATURAL GAS
WOOD
LIQUiO PETROL GAS
OTHER
TOTAL
TOTAL EXTERNAL COMBUSTION
ELECTRIC
GENERATION
INDUSTRIAL
FUEL
COMMERCIAL-
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
POINT
PART
253L_
/i
~ZT~
33Y
AREA 1 f t
3 er
r* i—
3' *
E -J
-------�
Table 7- >
Continued
O
I
SOURCE
INDUSTRIAL
PROCESS
(POINT)
SOLID
WASTE
DISPOSAL
CHEMICAL MANUFACTURING
FOOD/AGRICULTURE
PRIMARY METAL
SECONDARY METALS
MINERAL PRODUCTS
PETROLEUM INDUSTRY
WOOD PRODUCTS
PROCESS EVAPORATION
METAL FABRICATION
LEATHER PRODUCTS
TEXTILE MANUFACTURING
INPROCESS FUEL
OTHER/NOT CLASSIFIED
TOTAL
GOVERNMENT
(POINT)
RESIDENTIAL
(AREA)
COMMERCIAL-
INSTITUTIONAL
INDUSTRIAL
MUNIC. INCIN.
OPEN BURNING
OTHER
TOTAL
ON-SITE INCIN.
OPEN BURNING
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
APARTMENT
OTHER
TOTAL
ON-SITE INCIN-
ERATION
OPEN BURNING
AUTO BODY INCIN.
OTHER
TOTAL
TOTAL SOLID WASTE
DISPOSAL
AREA
POINT
AREA
POINT
POINT
AREA
POINT
AREA
POINT
AREA
POINT
AREA
POINT
POINT
POINT
AREA
POINT
AREA
POINT
PART
r??
*fjf
lo//
SOX
am
6
/?*/
(&*/{
NOX
HC
CO
O H
o »
3 cr
c* >—
5-*
C -4
n •
Q. H-
-------�
Table ~.i
Continued
SOURCE
TRANSPORTATION
(AREA)
LAND
VEHICLES
AIRCRAFT
1 VESSELS
GASOLINE
DIESEL
LIGHT DUTY
HEAVY DUTY
OFF HIGHWAY
TOTAL
HEAVY DUTY
OFF HIGHWAY
RAIL
TOTAL
MILITARY
CIVIL
COMMERCIAL
TOTAL
BITUMINOUS COAL
DIESEL FUEL
RESIDUAL OIL
GASOLINE
TOTAL
GAS HANDLING EVAPORATION LOSS
TOTAL TRANSPORTATION
PART
Abf
Ml
{?}(
?-7
*"L
&Sr
^&£L
«
4f
•2-Q
~-
A6
/9f&
SOX
±r*
??
lf£
t?
-------�
Table 7. A
Continued
n
i
oo
SOURCE
MISCELLANEOUS
(AREA)
GRAND TOTAL
SOLVENT
EVAPORATION
FIRES
DUST CAUSED
BY HUMAN AGI-
TATION OF THE AIR
AIRBORNE DUST
CAUSED BY
NATURAL WINDS
INDUSTRIAL SOURCES (AREA)
DRY CLEANING
STRUCTURAL
FROST CONTROL
SLASH BURNING
WILD FOREST
AGRICULTURAL
UNPAVED ROADS
UNPAVED AIRSTRIPS
PAVED ROADS
MINERAL PROCESSING
TILLING ACTIVITIES
LOADING CRUSHED ROCK, SAND. GRAVEL
CONSTRUCTION
STORAGE PILES
TILLED LAND
UNTILLED LAND
AREA
POINT
PART
3
^W
M*$"
SOX
,
3f?r
m?t
NOX
HC
CO
O H
O V
3 cr
«-» >—•
5-0
c -a
ft •
c. •-
-------�
MASTER GRID SYSTEM FOR 8|R©€N COUNTY* XMIN,YMJN« 5*1, 4SK
44444
44444
44444
44444
886686888
036888688
188663888
388888888
888888888
666888888
S $8888888
668888868
118888884
866888884
668888884
666886884
968888684
368868684
388886884
866686684
4 4
4 4
4 4
4 4
@ 8
8 8
8-8
8 8
8 @
8 8
8 8
6 8
4 4
4 4
4 4
4 4
4 4
4 4
4 4
4 4
2
2
2
2
2
2
2
2
4
4
4
4
6
8
3
8
6
8
8
8
4
4
4
4
4
4
4
4
2
2
2
2
2
2
2
2
a
8
@
8
8
S
8
6
4
4
4
4
4
4
4
4
4
4
4
4
2
2
2
2
2
2
2
2
2
2
2
2
2
2
4
4
4
4
8
8
8
8
a
8
6
8
4
4
4
4
4
4
4
4
4
4
4
4
2
2
2
2
2
2
1
I
2
2
2
2
2
2
2
2
4
4
4
4
S
3
8
8
8
8
8
4
4
4
4
4
4
4
4
4
4
4
4
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
4
4
4
4
6
8
8
8
8
8
8
8
4
4
4
4
4
4
4
4
4
4
4
4
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
2
2
2
2
g
2
2
2
2
2
2
2
2
2
1
1
?
2
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
2
2
2
2
2
2
2
2
• 2
2
2
2
2
&
I
1
2
2
4
4
4
4
4
4
4
4
4
4
4
4
4
4
2
2
2
2
2
2
2
2
2
2
i
1
2
2
2
2
4
,4
4
4
4
4
,4
4
4
4
4
4
4
4
4
2
2
2
2
2
2
2
2
2
2
1
i
2
2
2
2
4
4
4
4
4
4
4
4
4
4
4
4
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
4
4
4
4
4
4
4
4
3)
4|
4
4
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
4
4
4
4'
4
4
: il{
4
^4
4
4
4
2
2
2
2
2
2
2
2
2
2
2
2
2
2
1
2
4
4
4
4
4
4
4
4
4
4
4
4
2
2
2
2
2
2
2
2
2
2
2.
2
2
2
2
2
4
4
4
4
4
4
4
4
4
4
4
4
2
2
2
2
2
2
2
2
2
2
1
i
2
2
i
i
^
4
4
4
4
4
4
4
4
4
4
4
4
4
4
2
2
2
2
2
2
2
2
2
2
1
1
2
2
1
1
4
4
4
4
4
4
4
4
4
4
4
4
4
4,
4
4
2
2
n
2
2.
2
2
2
2
2
2
2
2
2
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
2
2
2
2
2
2
2
2
2
a
£
2
2
2
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
C-182
-------�
AKEA SOURCE EMISSIONS FOR
X
(KM)
573,
571.
573.
575.
571,
573.
575,
577,
585.
573.
575.
573.
575,
575.
573,
575.
574.
574.
579.
581.
683,
577,
579.
581.
583,
5/7,
581,
583,
577,
579,
581,
583.
577.
578,
577,
578.
579.
580.
579,
580.
585,
587,
S87,
585,
5i7,
585,
586,
585.
Y
(KM)
4510.
4514.
4514,
4514,
4516.
4516,
4516,
4516,
4514,
4518.
4518,
4520,
4520.
4522,
4524,
4524.
4522,
4523.
4518,
4518.
4518,
4520.
4520.
4520.
4520.
4522.
4522,
4522,
4524,
4524,
4524.
4524.
4518,
4518,
4519,
4519,
4522,
4522.
4523.
4523.
4520.
4520,
4522,
4524,
4524,
4518.
4518,
4519.
BtR&EN
SIDE
(M)
4000,
2000.
2000,
2000.
2000.
2000.
2000,
2000,
4000,
2000,
2000,
2000,
2000.
2000,
2000,
2000.
1000,
1000.
2000.
2000,
2000,
2000.
2000,
2000,
2000,
2000.
2000.
2000,
2000,
2000,
2000.
2000,
1000.
1000,
1000.
1000,
1000.
1000,
1000.
1000,
2000,
2000.
2000,
2000.
2000,
1000.
1000.
iOOC,
COUNTY 1975
302
(T/D)
0.024
0.034
0,112
0,045
0,085
0,249
0.097
0.054
0.061
0.154
0.234
0.131
0.266
0,288
0,061
0.234
0.070
0.199
0.105
0.121
0.192
0,343
0.137
0,190
0.211
0.153
0,151
0.146
0.246
0,319
0.162
0.106
0,038
0,044
0,094
0,091
0,044
0.034
0,053
0.048
0.160
0.013
0.044
0.162
0.083
0.079
0,228
0.036
PAGE 1
TSP
(T/D)
0.019
0,035
0.095
0.026
0.049
0,220
0.085
0.041
0.053
0.138
0,211
0,119
0.256
0,291
0,064
0,239
0.063
0,172
o.ioe
O.U5
0.169
0.227
0.138
0,218
0.209
0,147
0.156
0,148
0.246
0.323
0.157
0.100
0,034
0.040
0,060
0,092
0,046
0.036
O.OS7
0.052
0.161
0.011
0.047
0,155
o.oeo
0.069
0.215
0,034
C-183
-------�
AREA SOURCE EMISSIONS FOR
(KM)
586e
579,
V
ffel
ass®,
4530
41530
4530
4530,
J26,
4529,
4530,
ER6EN
SID
CM
1
s o o o
2000
£000(3
20008
2000@
2000,
2000.
20009
2000e
000
a
20600
2000e
20009
£000a
2000.
aoooe
« 0 0 0 a
a o o o o
<2fi 6 0 0
0,189
0,052
0.207
PASE
TSP
CT/D)
0,026
0805S
0,078
0,085
0,254
0,207
0,261
08|7&
09169
09I74
0,15?
0,112
0,160
Oei!2
08102
0,159
0.176
Oei07
0.102
0,081
O.H5
0907I
0.11
0 e 0/46
08i80
0,275
0BI73
C-184
-------�
AREA SOURCE EMISSIONS
X Y
(KM) (KM)
589, 4534,
585. 4538.
589. 4536,
561. 4542,
569. 4542.
577, 4542.
581, 4542,
577. 4546,
585. 4542,
565. 4550.
569. 4550,
FOH
BERGEN
SIDE
(M)
4000.
4000,
4000.
8000,
8000.
4000.
4000,
4000,
4000.
4000.
4000,
COUNTY
S02
(T/D)
0.060
0.237
0,064
0.146
0,554
0,185
0.134
0,025
0,017
0.008
0.181
1975
PAGE
TSP
(T/D)
0.059
0,207
0,054
0,134
0.500
0.165
0,129
0.022
0,015
0,006
0,194
C-185
-------�
AREA SOURCE EM
X
(KM)
573,
571.
573,
575.
571,
573,
575,
577.
585.
573,
575.
573,
S75,
575,
573,
S7b,
574.
574,
579.
581,
583,
577.
579.
581,
583.
577.
581,
583,
577.
579,
«*f a3S *
581,
S83.
577.
578.
577,
578.
579.
530.
579.
580.
585.
587,
587,
585,
587,
585.
ISS10NS FOR i
Y
(KM)
4510.
4§149
4514,
4514,
4516,
4516,
4516,
4516,
4514.
45189
4518,
4520.
4520,
4522,
4524.
4524,
4522.
4523,
4518.
4518.
45iSe
4S20.
4520,
4520,
4520,
4522,
4522.
4S22.
4524,
4524,
4S24e
4S24e
4518,
4518,
4519,
4Sl9e
4522,
4522,
4523.
4523.
4520,
4$2Q9
4522,
4524B
4524.
4518,
JERGEN
SIDE
CM)
4000,
2000,
2000,
2000,
2000,
2000,
2000*
20009
4QOQ®
2000,
2000,
2000 =
SOOOg
2000,
20008
2000e
1000e
1000,
2000,
20009
gooo.
2000,
2000,
2000,
£000,
2000.
2000,
2000,
20009
2000,
2000,
2000.
1000,
iooo,
1000,
1000,
1000.
1000,
1000,
1000,
2000,
2000,
20004
2000,
2000«
10008
COUNTY 1980
$02
(I/O)
0.025
0.035
09122
0,052
0,093
09255
0,106
0.061
0,160
0,239
0.135
0,174
0,286
0.241
0,071
0,195
0.100
0,130
0,201
0,359
091«3
09200
0,219
0,162
OelS7
0.151
o82Si
0,317
0.166
o.iu
08038
0,043
0.098
0,047
0,036
OaOSS
09050
0*168
0,014
0,048
0,175
PAGE
T8P
CT/D)
o.o2«
c.cao
0,131
0.058
0,052
0,246
0.141
O.OSS
0.156
0,246
0.136
0.28®
0.316
0.071
0.268
0,072
0.192
0.13®
O.J61
0,280
0,16®
0,256
Q908Q
4519,
0,037
0.16S
0.190
0.179
0.282
0,352
0.181
0.120
0,038
0,045
0,094
0,121
0,053
0.045
0,061
0.061
0,212
0,016
0,060
0,20$
o.m
0,079
0.315
0.04?
C-186
-------�
AREA SOURCE. EMI
X
(KM)
586.
585.
586.
585.
586,
575,
573.
575.
573.
575.
571.
571,
577,
579,
581,
583.
577,
579,
581,
583,
577.
579,
581.
583.
577.
579,
S81.
583.
589.
589.
585.
587.
585.
587.
585.
587,
585.
587,
561.
569.
573,
569,
573.
577.
58J,
577.
581.
585,
SSJONS FOR
¥
(KM)
4519,
4522.
4522.
4523.
4523,
4530,
4526,
4526.
4528,
4528.
4530.
4532.
4526.
4526,
4526,
4526,
4528,
4528,
4526.
4528.
4530,
4530,
4530,
4530.
4532,
4532,
4532.
4532.
4526.
4530.
4526.
4526.
4528,
4528,
4530,
4530,
4532,
4532.
4534,
4534.
4534,
4538.
4538.
4534.
4534,
4538,
4538,
4534.
BERGEN
SIDE
(M)
1000,
1000,
1000.
1000,
1000,
4000,
2000,
2000,
2000,
2000.
2000.
2000,
2000,
2000,
2000.
2000.
2000,
2000.
2000,
2000,
2000.
2000.
2000,
2000,
2000.
2000,
2000,
2000,
4000,
4000.
2000.
2000.
2000.
2000.
2000,
2000.
2000,
2000,
8000,
4000,
4000,
4000.
4000,
4000,
4000,
4000,
4000,
4000,
COUNTY 1980
502
(T/D)
0,030
0.054
0,085
0,053
0.095
0,476
0.277
0,217
0,297
0,239
0.064
0.092
0,237
0.270
0,198
0.199
0.200
0.166
0.125
0.177
0.135
0.120
0,173
0,196
0.129
0.116
0.106
0.157
0,060
0,104
0.160
0,085
0,126
0.044
0,133
0,057
0,098
0.058
0,227
0,166
0,350
0,220
0,209
0,324
0,204
0.226
0.172
0.256
PAGE
TSP
(T/D)
0.032
0.077
0,111
0.063
0.125
0,475
0.273
0.237
0,264
0.234
0.065
0,086
0,256
0.303
0,196
0.197
0,191
0.163
0.126
0,191
0,129
0.120
0.17«
0.202
0,122
O.HS
0.105
0,152
0.066
0.129
0.177
0,060
0.133
0.044
0.136
0.055
0.098
0,057
0.226
0.158
0.344
0.212
0.196
0.313
0.196
0.225
0.175
0*246
C-187
-------�
AREA SOURCE EMISSIONS FOR BERGEN
X
(KM)
589,
585,
589,
561,
569,
577.
581.
577,
585,
56S,
569,
Y
(KM)
4S34,
4538,
4538.
4542,
4542,
4542,
4542.
4546.
4542,
4550,
4550,
SIDE
CM)
4000,
4000,
4000,
6000,
8000*
4000,
4000.
4000,
4000*
4000,
4000,
COUNTY
50?
CT/0)
0,072
0.243
0,076
0,157
0,588
0,201
0,142
0,026
0.008
0.191
1980
PAGE
TSP
CT/D)
0,090
0.234
0.093
0,159
08578
0,200
0.135
0.027
0,022
0,010
0.218
C-188
-------�
AREA SOURCE EMISSIONS FOR
X
(KM)
573.
571.
573.
575,
571.
573,
575.
577.
585.
573.
575.
573.
575,
575.
573.
575.
574.
574.
579.
581.
583.
577.
579.
581.
583.
577.
581.
583,
577.
579.
581,
583,
577,
578.
577.
578,
579.
560.
579,
560.
585.
587,
587.
565.
S67.
585.
566,
585.
Y
(KM)
4510,
4514,
4514.
4514.
4516.
4516,
4516,
4516.
4514.
4518.
4518.
4520.
4520,
4522.
4524,
4524.
4522.
4523.
4518.
4518.
4518.
4520,
4520.
4520.
4520,
4522*
4522.
4522.
4524.
4524,
4S24.
4524.
4518,
4518.
4519.
4519,
4522.
4522.
4523,
4523,
4520,
4520,
4522.
4524.
4524,
4518.
4518.
4519.
BERGEN
SIDE
(M)
4000,
2000,
2000,
2000,
2000,
2000,
2000.
2000.
4000,
2000.
2000.
2000.
2000,
2000.
2000.
2000.
1000.
1000.
2000.
2000,
2000,
2000.
2000.
2000.
2000.
2000.
2000.
2000,
2000.
2000,
2000.
2000.
1000,
1000,
1000,
1000,
1000.
1000,
1000,
1000,
2000.
2000.
2000,
2000,
2000,
1000,
1000,
1000.
COUNTY 1985
S02
(T/D)
0.029
0.037
0.158
0,063
0.099
0.271
0.119
0,062
0,063
0.176
0,232
0.143
0.294
0.292
0.065
0,251
0.072
0.193
0.113
0,150
0.216
0.433
0.161
0.226
0.236
0.162
0,171
0,161
0,262
0.322
0.178
0.132
0.021
0.025
0.074
0.052
0.053
0.038
0,056
0.053
0,175
0.015
0,056
0.197
0,107
0,063
0,234
0,040
PAGE
TSP
(T/D)
0.029
0,038
0.162
0.090
0.050
0.247
0.161
0,065
0.059
0,160
0.237
0.131
0.292
0.302
0,067
0.251
0.066
0.172
0.137
0,185
0.216
0.357
0.174
0.269
0,235
0.174
0,178
0,161
0.257
0,327
0.168
0.138
0.030
0.034
0.092
0,097
0,056
0,042
0.062
0.058'
0.173
0.015
O.OSS"
0.197
0,107
0,077
0,224
0,039
C-189
-------�
AREA SOURCE
X
(KM)
586.
585,
586,
5739
573.
S75e
571.
S75e
571.
571.
577,
579a
581.
583,
577.
579»
581.
577.
1.
577.
579*
SSI,
589,
585.
587.
585,
5@7,
5@5e
573,
569e
573,
577.
581.
577,
581.
SSIONS FOR
Y
(KM)
4526.
4536
4528,
4530.
45i09
4530,
4526
4528,
45£8e
4530a
4530,
45S8
ooo
I
1000,
5000
g®OQ®
2000,
2000,
2000.
20009
2000,
20009
2000,
£0009
2000«
2000,
2000,
aoooe
20008
8000B
COUNTY
SOS
(T/0)
PAGE 2
09057
08I06
Oe21l
0,125
0,112
0,172
0,091
0,130
0,050
0,142
O.iOb
0,069
09294
0.227
(T/D)
Ofi030
0,062
09055
Oe|04
0.262
0.250
0,061
0.005
0,249
0.262
0919S
0.202
0.196
0.174
0.136
08I28
0,167
0.193
0.125
0.120
0.104
0S148
08070
Oe081
0S120
0,049
Oei31
0»059
0,100
0.064
0.271
0,160
0,346
0,221
0,206
0,327
0.212
0.239
0.1S4
0,278
C-190
-------�
AREA SOURCE EMISSIONS
X Y
(KM)
4534,
4538,
4558,
4542.
4542.
4542,
4542.
4546.
4542,
4550.
4550,
FOR
X
(KM)
$89.
585.
589.
561.
569.
577,
581.
577,
585,
565,
S69,
BERGEN
SIDE
CM)
4000.
4000.
4000.
8000,
8000,
4000.
4000,
4000,
4000.
4000.
4000,
COUNTY
302
(T/D)
0.094
0*272
0,102
0.191
0.656
0.240
0.148
0.050
0,026
0,010
0.195
1985
PAGE
T8P
(T/D)
0,102
0.255
0,110
0.181
0.624
0,226
0,136
0.026
0,028
0,010
0,215
C-191
-------�
AREA SOURCE EMISS!
X
(KM)
573.
571.
573.
575*
S71,
573,
$75,
577,
§85.
§73*
575.
S73,
575e
575,
573*
575,
574,
574,
579,
581,
583.
577e
579,
581,
S839
S779
581,
583,
577,
579,
581,
583e
577,
578,
577.
578,
579.
5©0S
$?9e
5®0,
S859
S87e
S879
S85,
S©7»
585,
5360
585,
IONS FOR 1
Y
(KM)
4S1Q*
4514,
45i4s
45148
4516,
4516,
45|69
4516,
45148
«5189
4518,
45209
452Q9
4S228
4524,
45249
4522,
4S23e
45I88
4518,
4S18,
4S209
4520«
4520f
45209
45228
4522,
4S22,
452afl
4524,
a52«9
45249
4518S
«5I89
4519,
45199
4522,
«5229
4523,
4523e
4520,
4520»
4522B
45249
4S24e
4518,
45l0e
4519,
3ERSLN
SIDE
CM)
<^QQQv
2000.
2000,
20009
2000,
20009
20009
aooo.
4000.
2000e
2000.
2000S
2000,
2000,
2000«
20009
iooo.
1000,
20009
2000ffl
2000,
2000*
2000e
20008
2000,
2000.
2000,
2000a
20009
20009
2000e
2000*
1000,
1000,
1000,
1000,
|0009
noeo,,
1000,
1000,
2000,
20008
20009
2000.
2000,
1000.
IOQ08
IOOO,
COUWTY 2000
SOI
(T/D)
0,035
09041
0,220
0,126
Oe123
0.312
0,170
Oe084
0,069
0,219
09270
0.171
0^343
09308
0,070
0.272
Oa082
09207
0.136
09182
0,241
0.592
09180
0,271
Oe274
09231
Oei99
00182
0,295
0,338
Oe20«
0,168
Oe024
090g8
0*093
09064
09064
0,042
08063
08059
OeI92
0,018
0,068
0.23S
Oe 126
08092
0&263
©,047
PASE 1
TSP
(T/0)
O.OS3
0.040
0,223
0.131
0.054
0,268
0.223
0,087
0,061
0.189
0.260
0,148
0.322
0,304
0,067
0,256
0,071
0,173
0.161
0.202
Oe228
0.488
0,185
0,304
0,257
0.212
0,198
0.170
0.270
0.324
0.181
0.163
0,031
0,037
0.106
0,115
0.064
0,043
0,06S
0,062
0,175
09016
0.062
0,223
0.120
0,061
0.837
0.042
C-192
-------�
AREA SOURCE EMI
X
(KM)
586.
585,
586,
58b.
586,
573.
573.
575.
573.
57b.
571.
571.
577.
579.
581.
583,
577.
579.
581.
583.
577.
579.
581 .
583,
577,
579.
581.
563.
589.
589.
565.
567,
585.
587.
585.
587.
585.
587.
561,
569.
573,
569.
573,
577,
561.
577,
581,
585,
SSIONS FOR
Y
(KM)
4519,
4522,
4522,
4523.
4523.
4530.
4526.
4526.
4528,
4528,
4530,
4532.
4526,
4526,
4526,
4526,
4528.
4528,
4528,
4528.
4530,
4530,
4530.
4530,
4532.
4532,
4532.
4532.
4526.
4530.
4526.
4526.
4528.
4528.
4530,
4530,
4532.
4532.
4534.
4534.
4534.
4538,
4538.
4534.
4534.
4538.
4538.
4534.
BERGEN
SIDE
(M)
1000.
1000.
1000.
1000,
1000,
4000,
2000,
2000.
2000.
2000.
2000.
2000.
2000,
2000.
2000,
2000.
2000.
2000.
2000.
2000.
2000,
2000.
2000.
2000,
2000.
2000,
2000,
2000,
4000,
4000,
2000.
2000.
2000,
2000,
2000.
2000.
2000.
2000,
8000.
4000,
4000,
4000,
4000.
4000.
4000.
-«ooo\.
400 o;
4000U
COUNTY 2000
802
(T/D)
0,039
0,066
0,116
0.068
0,130
0,557
0.303
0.260
0,324
0.259
0.072
0.102
0.317
0.305
0,258
0.266
0.246
0.199
0,149
0,204
0,169
0,156
0.196
0,226
0.155
0.141
0.124
0.179
0.076
0,163
0.194
0.102
0.144
0.062
0.156
0,074
0,120
0,083
0,370
0,197
0.426
0,278
0.260
0,397
0.261
0.291
0.223
0.360
PAGE
T$P
(T/D)
0.034
0.066
0.106
0.061
0.120
0,488
0.264
0.243
0.277
0.233
0.062
0.085
0.287
0.268
0,22$
0.230
0.215
0.175
0.129
0.179
0,1«9
0,145
0.169
0.199
0,136
0.128
0.106
0.152
0.075
0,159
0.179
0.086
0.121
0.056
0.135
0,065
0.104
0.077
0.336
0.167
0,368
0.238
0*221
0.350
0.23?
0.261
Oi201
0.32«
C-193
-------�
AREA SOURCE EMISSIONS FOR
X
(KM)
589.
585,
589.
561.
569.
377.
581,
577.
585.
565.
569.
Y
(KM)
4534.
4538.
4538,
4542,
4542,
4542.
4146.
4542.
45&0,
4550.
BERGEN
SIDE
CM)
4000.
4000.
4000.
8000.
$000.
4000.
4000.
40001
4000.
4000.
4000.
COUNTY 2000
SQ2
(T/0)
0.124
0.312
0.140
0.238
0.793
0,301
0.169
0.038
0.034
0,013
0.215
PAGE
TSP
CT/0)
0.129
0,277
0.217
0.708
0,276
0.14$
0,031
0.0S3
0,014
0.121
C-194
-------�
MASTER GRID SYSTEM FOR ESSEXCOUNTY, XMIN,YMJN» 5528 4504
a
4
4
a
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
2
2
2
2
2
2
2
2
4
4
4
4
4
4
4
4
4
4
4
4
2
2
2
2
2
2
2
2
4
4
4
4
4
4
4
4
4
4
4
4
2
2
2
2
2
2
1
1
4
4
4
4
4
4
4
4
4
4
4
4
2
2
2
2
2
2
1
1
1
4
4
4
4
4
4
4
4
2
2
2
2
2
2
t
1
1
1
1
1
1
4
4
4
4
4
4
4
4
2
2
2
2
2
2
i
1
1
1
1
1
1
4
4
4
4
4
4
4
4
2
2
2
2
1
1
1
1
1
1
I
1
I
1
2
2
4
4
4
4
4
4
4
4
2
2
2
2
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
1
1
i
1
1
1
1
1
1
1
£
2
2
2
2
2
2
2
2
2
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
1
i
i
i
2
2
2
2
2
2<
2
2
2
2
2
2
2
2
2
2
2
2
2
2
a
2
2 2
2 2
2 2
2 2
C-195
-------�
AREA SOURCE EMISSIONS FOR
X
(KM)
563,
566.
568.
570.
566,
567.
568.
569.
570.
571,
564,
565.
566,
567.
568.
569.
570,
571.
572,
574.
572.
574.
552.
552.
556.
556,
560,
560.
562,
560.
562.
560.
562.
562,
563.
562,
563.
564.
570.
564,
565,
566,
567.
568,
569,
570,
571.
564.
Y
(KM)
4507.
4504,
4504.
4504,
4506,
4506.
4506.
4506.
4506.
4506.
4507.
4507,
4507.
4507.
4507,
4507,
4507,
4507.
4504,
4504,
4506,
4506,
4508,
4512.
4508,
4512.
4508.
4510.
4510,
4512.
4512.
4514.
4514.
4508.
4508,
4509.
4509.
4514,
4514,
4508,
4508,
4508,
4508.
4508.
4508,
4508,
4508.
4509.
ESSEX
SIDE
(M)
1000.
2000,
2000.
2000,
1000,
1000,
1000,
1000.
1000.
1000.
1000,
1000,
1000,
1000,
1000.
1000,
1000.
1000,
2000,
2000,
2000.
2000,
4000,
4000.
4000,
4000,
2000.
2000,
2000,
2000.
2000,
2000.
2000,
1000.
1000,
1000.
1000,
2000,
2000,
1000,
1000,
1000.
1000.
1000.
1000.
1000.
1000,
1000.
COUNTY 1975
SOS
CT/D)
0.079
0,087
0.148
0,177
o.ios
0,081
0.099
0.084
o.i oa
0,041
0.080
0,102
0,120
0,210
0.118
0*152
0.090
0.059
0.280
0,025
0,261
0,140
0.042
0.086
0,194
0.181
0.158
0.094
0,233
0,052
0,241
0,048
0,148
0.023
0,085
0.065
0.062
0,236
0,362
0.090
0.139
0,151
0.204
0.157
0.232
0.146
0.137
0,101
PACE
TSP
(TVB)
0.070
0,076
0,116
0,147
0,091
0,072
0.084
0.057
0.073
0,036
0,068
0.092
0.103
0.177
0.120
0.133
0,077
0.069
0.116
0.021
0,156
0.034
0.034
0.069
0,157
0,151
Q.U3
0,076
0.189
0.041
0.194
0,040
O.H4
0.019
0,074
0,054
0.053
0.201
0,305
0,079
0.130
0,128
0.178
0.147
0,209
0.129
0,122
0.079
0196
-------�
AREA SOURCE EMI
X
(KM)
565.
566,
567.
568.
569.
570.
571.
564.
565.
566,
567,
566.
569.
564.
565,
566.
567.
568,
569.
56a.
56S.
566.
567.
568.
569,
570.
564.
565,
566.
567.
566.
569,
570.
566.
567.
568.
569.
566.
567.
568.
569.
573.
552.
556.
560.
556.
560.
564,
SSIONS FOR
Y
(KM)
4509,
4509.
4509,
4509.
4509.
4509.
4509.
4510.
asio.
4510.
4510.
4510-.
4510.
4511.
4bli.
4511.
4511.
4511.
4511.
4512.
4512,
4512.
4512.
4512,
4512.
4512.
4513.
4513.
4513.
4513.
4513.
4513.
4513.
4514.
4514,
4514.
4514.
4515,
4515,
4S15,
4515.
4508.
45J6.
4516.
4516.
4520.
4520,
4520,
ESSEX
SIDE
(M)
1000.
1000,
1000,
1000.
1000.
1000,
1000,
1000,
1000,
1000.
1000,
1000.
1000,
1000.
1000,
1000,
1000.
1000.
1000,
1000,
1000.
1000.
1000,
1000,
1000.
1000.
1000.
1000.
1000.
1000,
1000.
1000,
1000.
1000,
1000.
1000.
1000,
1000,
1000,
1000,
1000,
2000.
4000,
4000,
4000,
4000,
4000.
4000.
COUNTY 1975
SQ2
(T/D)
0,111
0.153
0,209
O.H76
0,455
0,358
0,123
0.128
0,107
0.129
0.128
0,272
0.428
0.068
0.163
0.153
0,121
0,172
0.126
0.131
0.152
0.121
0,102
0,161
0.167
0.113
0.094
0.102
0.083
0.132
0.089
0.094
0,075
0.073
0.096
0.075
0,101
0.069
0.064
0.057
0.08S
0,612
0,057
0.249
0.225
0.1S9
0,374
0,369
PACE 2
TSP
(T/D)
0.088
0,128
0,184
0.239
0.338
0,264
0,109
0,100
0,084
0,109
0,106
0.221
0,329
0.053
0,130
0.129
0.103
0.160
0.110
0.101
0.121
0.101
0,064
0,133
0.137
0,100
0,077
0,086
0,070
0.110
0.074
0.079
0.069
0.059
0.085
0,069
0,084
0,056
O.OS7
0.051
0,067
0.500
0.046
0,19|
0.185
0.131
0,300
0,299
C-197
-------�
AREA SOURCE EMISSIONS FOR
X
(KM)
564,
566,
568,
570,
56 a.
566,
568.
570,
S66.
570.
566,
573,
572,
552,
556.
560,
556,
564.
Y
(KM)
4516,
4516.
4516.
4516.
4516,
4518,
4518,
4518.
4520.
4530.
4523.
4516.
4518.
4524.
4524.
4524.
4528,
4524.
ESSEX
SI^E
(M)
2000.
2000,
2000.
2000.
2000.
2000.
2000.
2000,
2000.
3000,
2000,
2000,
2000,
4000,
4000,
4000,
4000,
4000,
COUNTY 1975 PAGE
S02
(T/D)
0,196
0,211
0.223
0,217
0.157
0.139
0,137
0,215
0.155
0,193
0,020
0.062
0.094
0.002
0.127
0.273
O.OOS
0,090
TSP
(T/D)
0.166
0.171
0.189
0.187
0.116
0.116
0,115
0.172
O.U7
0.152
O.OU
0.057
0.085
0.001
0a07
0,218
0,003
0,070
C-198
-------�
AREA SOURCE
X
(KM)
563.
566,
568.
570.
566,
567,
568,
569.
570.
571,
564,
565.
566.
567.
568.
569.
570.
571.
572.
574,
572.
574,
552,
552,
356.
SS6.
960.
560.
562.
560.
562.
560.
562.
562.
563.
562.
563.
564.
570,
564,
565,
566.
567,
566,
569.
570.
571.
564.
EMISSIONS FOR
Y
(KM)
4507.
4504,
4504,
4504,
4506,
4506,
4506.
4506,
4506,
4506,
4507.
4507,
4507,
4507,
4507.
4507,
4507.
4507,
4504.
4504,
4506,
4506,
4508.
4512.
4508,
4512,
4508,
4510,
4510.
4512.
4512.
4514,
4514,
4506,
4508,
4509,
4509,
4514,
4514,
4508,
4508,
4508.
4508.
4506.
4508,
4508,
4508.
4509.
ESSEX
SIDE
CM)
1000,
2000,
2000,
2000,
1000.
1000,
1000,
1000,
1000,
looo.
1000,
1000,
1000.
1000.
1000,
1000.
1000.
1000.
2000.
2000.
2000.
2000.
4000,
4000.
4000,
4000,
2000,
2000.
2000.
2000.
2000.
2000.
2000,
1000,
1000,
1000.
1000.
2000,
2000,
1000.
1000.
1000,
1000.
1000.
1000,
1000,
1000.
1000,
COUNTY 1980
S02
(T/0)
0.080
0.093
0.160
0.189
0,107
0,065
0.107
0.093
0,114
0.044
0,066
0,107
0,118
0,211
0,127
0.162
0,096
0,063
0,327
0.027
0,273
0,169
0,046
0,090
0,206
0,167
0.173
0,102
0,247
0,052
0,250
0,049
0,160
0,024
0,086
0.065
0.062
0.239
0,419
0,091
0.138
0.149
0,199
0.160
0.245
0.154
0.145
0,102
PAGE 1
T8P
(T/D)
0,088
0,091
0.128
0.153
0.115
0.092
0,120
0,062
0,078
0.040
0.084
0.115
0.130
0.225
0.159
0.174
0.091
0,078
0.132
0.026
0.174
0.041
0,039
0,077
0,174
0.165
0.139
0,068
0.238
0,048
0.236
0.047
0.146
0.021
0.094
0,066
0.066
0.252
0.370
0,100
0.165
0,160
0,232
0.193
0,266
0.153
0,144
0.099
C-199
-------�
AREA SOURCE EMI
X
(KM)
565.
566,
567.
568.
569.
570.
571.
56 a.
565.
566.
567.
568.
569.
964,
565.
566.
967.
568.
969.
964,
565.
566 .
567,
968,
969,
970.
$64.
$65.
566.
567,
568.
9*9,
970.
566.
567,
968,
§69.
966.
567,
566.
569.
578,
552.
556.
560.
596.
560.
544.
SSIONS FOR
Y
(KM)
4509.
4509,
4509.
4809,
4509.
4509.
4509.
4510.
4510.
4510,
4510,
4510.
4510,
4511.
4511.
4511.
4511,
4511.
4511.
4512.
4513.
4512,
451 2.
4512,
4512.
4512.
45U,
4513.
4513,
4513.
4913.
4543.
4513,
4514.
4514.
4514,
4514,
4515,
4515.
4515,
4515.
4508.
4516.
4516.
4516,
4520.
4520.
4520.
ESSEX
SIDE
(M)
1000,
1000.
1000.
1000,
1000.
1000.
1000,
1000.
1000.
1000.
1000.
1000,
1000.
1000.
1000.
looo.
1000.
1000,
1000.
1000,
1000.
1000.
1000.
1000,
1000,
1000.
1000.
1000,
1000.
1000.
1000.
1000,
1000,
1000,
1000.
1000,
1000,
1000,
1000.
1000.
1000.
2000,
4000,
4000,
4000,
4000.
4000.
4000.
COUNTY 1980
$02
(T/D)
0.111
0,191
0.202
0.262
0.512
0.40$
0,129
0.132
0.109
0,130
0.138
0.301
0,479
0.073
0.162
0.158
0,132
0.180
0.134
0.141
0.152
0.122
0 , 101
0,165
0.181
0,115
0,102
0,104
0,083
0,132
0.066
0.092
0,074
0,078
0,102
0.074
0,102
0,074
0.068
0,061
0.095
0,634
0.063
0.270
0*840
0.166
0.406
0.388
PACE
TiP
(T/Bl
o.ttr
o#it*J
0.240
0.3*9
0.39}
0^01
0.129
0.114
o.ati
0 . 132
0.111
0,17*
O.Jtl
0.062
0.170
0,166
0.125
Q.J.I.W
0.1»9
0.137
0.164
0.1S9
0.0*7
0.162
0.162
0.126
O.iM
0,119
0.103
0,143
o.iif
o.ett
o,*?e
0.077
0.101
0,083
0.101
0.066
0.068
0.061
0.060
0,546
O.lsf
0.233
0,223
0.199
0 . 365
0.341
C-200
-------�
AKEA SOURCE
X
(KM)
564.
566.
568,
570.
564.
566,
566.
570.
568,
570.
568.
572,
572,
553,
556.
560.
556,
564,
EMISSIONS FOR
Y
(KM)
4516.
4516.
4516.
4516.
4518.
4518.
4518.
4518.
4520,
4520,
4522,
4516,
4518.
4524.
4524,
4524.
4526.
4524.
ESSEX
SIDE
CM)
2000.
2000.
2000.
2000.
2000.
2000,
2000.
2000.
2000,
2000.
2000.
2000.
2000.
4000.
4000.
4000,
4000.
4000.
COUNTY
302
(T/D)
0.211
0.231
0.236
0.230
0.145
0,142
0,139
0,231
0,166
0.219
0,021
0,069
0.105
0.002
0.135
0.302
0,005
0.100
1980
PAGE 3
TSP
(T/D)
0.206
0.210
0,217
0.213
0.1J9
0.128
0,130
0.199
O.U3
0.173
0.020
0,066
0.100
0.001
0.125
0.265
0.005
0.085
C-201
-------�
AREA SOURCE EMI
X
(KM)
563.
566.
568.
570.
566.
56 7,
568,
569,
570.
571,
564,
565.
966.
S67,
563.
569,
570.
571,
572.
574.
573.
574,
552,
552,
556.
556.
560,
560.
562.
560.
S62.
960.
562.
562.
563,
562,
563.
564.
570*
564 1
565.
566.
567.
569.
569,
570,
571.
564.
S8IONS FOR
y
(KM)
4507,
4504.
4504.
4504.
4506.
4S06.
4506.
4506.
4506.
4S06.
4507.
4507,
4507.
4507,
4507,
4507,
4507.
4507,
4504,
4504.
4506.
4506,
4508,
4512.
4508.
4512,
4508,
4510.
4510.
4512.
4512.
4514.
4514.
4508.
4508.
4509.
4509.
4514.
4514,
4508,
4508,
4508.
4508.
4508.
4508.
4508,
4508.
4509.
ESSEX
SIDE
(M)
1000.
2000,
2000,
2000,
1000.
1000,
1000.
1000.
1000.
1000.
1000.
1000.
1000.
1000.
1000.
1000.
1000.
1000.
2000.
2000.
2000.
2000.
4000.
4000,
4000.
4000,
2000.
2000.
2000.
2000.
2000.
2000.
2000,
1000,
1000.
1000.
1000,
2000.
2000.
tooo,
1000.
1000.
1000,
1000,
1000.
1000,
1000,
1000,
COUNTY 1*05
S02
(T/0)
0.085
0,097
0.177
0.202
0.113
0.091
0.127
0,108
0.129
0.04S
0.068
o.m
0.123
0,321
0,145
0,174
0,104
0,066
0,351
0,028
0.262
0.189
0,05j
0,106
0,220
0.21«
0.180
0.110
0,259
0.059
0,268
0,098
0,186
0.025
0,091
0.069
0.067
0.260
0.433
0.097
0.147
0,156
0,209
0.169
0.256
0,161
0.148
0.109
PAGE
TSP
CT/B)
0,071
0,088
0.131
0,159
0.092
0,082
0.124
0,069
0.083
0.041
0.073
0,096
O.iOl
0.180
0.156
0,157
0.088
0,077
0.130
0.023
0.1 7f
0.040
0,041
0,086
O.J76
0.161
0,138
0.087
0.205
0.049
0.214 .
0,051
0,159
0.020
0.077
0,056
0.055
0,217
0,328
0.081
0.130
O.U7
0.1TI
0.1 54
0.288
0,142
0.129
0.082
C-202
-------�
ARtA SQURCt EMI
X
(KM)
56*.
566.
567,
568,
569.
570,
571.
$64.
56S.
566.
567.
566,
569,
564,
565.
366.
567.
S68,
569.
564.
565.
566.
567.
568.
569,
570.
564.
565.
566.
567.
566.
569.
570.
566,
567.
568.
569.
566,
567,
568.
569.
572.
552.
556.
560,
556,
560.
564.
SSIONS FOR
Y
(KM)
4509,
4509.
4509.
4509.
4509.
4509.
4509,
4510.
4510.
4510,
4510,
4510,
4510.
4511,
4511.
4511.
4511.
4511,
4511.
4512.
4512.
4512.
4512,
4512.
45J2.
4512,
4513.
4S13.
4513,
4513.
4513.
4513.
4513.
4514.
4514.
4514,
4514.
4515,
4515.
4515.
4515,
4508,
4516.
4516.
4516.
4520,
4520,
4520,
Essex
SIDE
(M)
1000.
1000,
1000,
1000.
1000.
1000.
1000,
1000.
1000.
1000,
1000.
1000.
1000.
1000.
1000.
1000.
1000.
1000.
1000,
1000,
1000,
1000,
1000,
1000.
1000,
1000,
1000.
1000,
1000,
1000,
1000.
1000.
1000.
1000,
1000,
1000.
1000.
1000,
1000,
1000,
1000,
2000,
4000,
4000,
4000,
4000.
4000.
4000.
COUNTY 1985
302
(T/0)
0.117
0.158
0,214
0.292
0,512
0.40*2
0,131
0,139
0,114
0,135
0,140
0,304
0,479
0,075
0,169
0.163
0.134
0,186
0.137
0,145
0,157
0.126
0,106
0.170
0.183
0.122
0,104
0.109
0.088
0.139
0.093
0,098
0.078
0,060
0,105
0,081
0.108
0,077
0,070
0,063
0.096
0.654
0.075
0.339
0,276
0.197
0.452
0,424
PAGE
TSP
(T/D)
0,088
0.125
0.183
0.245
0.380
0,297
0.115
0.102
0.084
0,107
0,113
0,242
0,365
0,055
0,129
0,132
0,109
0,168
0.115
0,110
0.121
0.102
0.082
0.134
0.144
0,105
0.083
0,089
0,072
0,111
0,073
0,078
0,067
0,063
0,091
0.070
0,086
0,060
0,061
0.055
0,074
0,549
0,067
0,302
0,235
0.174
0,376
0,337
C-203
-------�
AREA SOURCE EMI
X
(KM)
564.
566.
568.
570.
564.
566.
568.
570.
S68.
570.
56B.
572*
572,
552,
556,
560.
556.
564.
S3ION8 FOR
Y
(KM)
4516.
4516.
4516.
4516.
4518,
4518.
4518.
4S18.
4520,
4520.
4522.
4516,
4516,
4524,
4524.
4524.
452$,
4534,
ESSEX
SIDE
(M)
2000.
2000,
2000.
2000.
2000.
2000,
2000,
2000,
2000,
2000.
2000,
2000,
2000,
4000.
4000.
4000,
4000.
4000,
COUNTY
SQ2
(T/0)
1985
0.238
0,252
0,244
0,151
0,151
0,154
0.241
0.179
0.222
0.024
0,072
0,114
0,002
0,156
0,345
0.007
0,110
PAGE
TSP
(T/D)
0.176
0,186
0.202
0.200
0,122
0.119
0,126
0,189
0,145
0.171
0.020
0.064
0,101
0,002
0.146
0.297
0,007
0.089
C-204
-------�
AREA SOURCE EM
X
(KM)
563,
566.
568.
570.
566.
567.
568.
569.
570.
571.
564.
565.
566.
567,
568,
569,
570.
571.
572.
574.
572.
574.
552.
552.
556.
556.
560.
560.
562.
560.
562.
560.
562.
562.
563.
562.
563,
564.
570.
564.
565.
566.
567.
566,
569.
570.
571.
564.
ISSJONS FOR
Y
(KM)
4507.
4504.
4504.
4504,
4506,
4506,
4506,
4506.
4506.
4506.
4507,
4507,
4507,
4507,
4507,
4507,
4507,
4b07,
4504,
4504,
4506,
4506.
4508.
4512.
4506.
4512.
4508.
4510.
451U,
4512.
4512,
4514.
4514,
4508.
U508,
4509,
4509,
4514.
4514.
4508,
4508,
4508.
4508,
4508,
4506,
4508,
4508.
4509,
ESSEX
siot
(M)
1000.
2000.
2000,
2000,
1000.
1000,
1000,
1000,
1000,
1000.
1000.
1000,
1000.
1000,
1000.
1000.
1000,
1000,
2000.
2000.
2000.
2000,
4000,
4000,
40,00.
4000,
2000,
2000.
2000,
2000,
2000.
2000.
2000,
1000,
1000.
1000.
1000,
2000,
2000,
1000,
1000.
1000.
1000,
1000,
1000.
1000,
1000.
1000,
COUNTY 2000
302
(T/D)
0.097
0.066
0.186
0.201
0,115
0.087
0,132
0.127
0.147
0,048
0.086
0.109
0,132
0.173
0.147
0.167
0,102
0.070
0.4J8
0,031
0,292
0.251
0,063
0,136
0,250
0,260
0.190
0.1US
0,276
0.067
0.269
0.078
0.248
0.025
0.101
0.07S
0.071
0.291
0.439
0.105
0.157
0.175
0.176
0,159
0.235
0.148
0.140
0.110
PAGE
TSP
(T/D)
0.091
0.083
0.13$
0.169
0,094
0,062
0,133
0,079
0,093
0,050
0,074
0,101
0,107
0.158
0.163
0,160
0.092
0.083
0.152
0,026
0,200
0.050
0.060
0,125
0.212
0.230
0.150
0,119
0.217
0,057
0.226
0,076
0,212
0.021
0.092
0.060
0,059
0.254
0,333
0,092
0.1S5
0,149
0,165
0,156
0.225
0.143
0.137
0.066
0205
-------�
AREA SOURCE
X
(KM)
565.
566.
S67.
566.
569.
570,
571.
564.
565.
566.
567,
568,
569,
564,
565,
566.
567.
566.
569.
564.
565,
566.
567.
568.
569.
570.
564,
565.
566.
567,
566.
569,
570,
566.
567.
566.
569.
566.
567.
566.
569.
572.
552.
556.
560.
556.
560.
564.
EMISSIONS FOR
Y
(KM)
4509,
4509,
4509,
4509.
4509,
4509,
4509.
4510.
4510.
4510.
4510.
4510,
4510,
4511.
4511.
4511.
4511,
4511,
4511.
4512.
4512.
4512.
4512.
4512,
4512.
4512.
4513*
4513,
4513.
4513,
4513.
4513.
4513,
4514,
4514,
4514.
4514,
4515,
4515,
4515.
4515,
4508.
4516.
4516,
4516,
4520.
4520,
4520.
ESSEX
SIDE
(M)
1000.
1000,
1000,
1000,
1000,
1000,
1000,
1000,
1000,
1000,
1000,
1000,
1000.
1000,
1000.
1000.
1000,
1000,
1000,
1000,
1000,
1000,
1000,
1000,
1000.
1000.
1000.
1000.
1000,
1000,
1000.
1000,
1000,
1000,
1000.
1000.
1000.
1000,
1000,
1000,
1000,
2000.
4000,
aooo.
4000,
4000,
4000.
4000,
COUNTY
302
(T/D)
0.126
0,151
0,169
0,277
0.392
0,417
0,124
0,141
0,116
0,146
0.146
0,311
0.495
0,076
0,180
0.173
0.140
0,170
0.126
0.141
0,167
0.136
0.103
0,179
0.181
0.113
0,105
0.116
0.090
0,149
0,104
0.106
0,075
0.083
0,093
0.060
0,119
0,080
0,064
0,038
0,098
0,647
0,076
0.430
0,339
0,246
0,509
0,479
2000
PAGE
TSP
(T/D)
0,102
0.131
0,167
0.246
0.326
0,312
0.122
0,112
0,094
0.121
0.123
0,251
0*381
0,059
0,139
0,145
0.121
0,165
0,108
0,107
0,127
0,109
0.066
0,143
0,142
0,102
0.083
0.095
0,072
0,120
0,063
0,065
0.067
0.065
0.066
0,064
0.095
0,066
0.059
0,043
0,075
0,579
0.079
0,593
0,305
0.231
0.450
0.396
C-206
-------�
AREA SUUHCE EMI
X
(KM)
564.
566,
S68.
5/0.
564.
566,
568.
570.
568,
570,
566.
572.
572,
552,
556,
560.
556.
564,
SSIONS FOR
Y
(KM)
4516,
4516.
4516,
4516,
4516.
4516,
4518.
4516.
4520,
4520.
4522,
4516,
4518,
4524,
4524,
4524.
4528.
4524,
ESSEX
SIDE
(M)
2000.
2000.
2000,
2000,
2000,
2000,
2000.
2000,
2000,
2000.
2000,
2000,
2000,
4000,
4000,
4000,
4000,
4000,
COUNTY 2000
302
(T/0)
0.221
0.228
0.26S
0.236
0,157
0,157
0,167
0.251
0.197
0,201
0,026
0.066
0,112
0,002
0,172
0.408
0,010
0,109
PAGE
TSP
CT/D)
0.179
0,185
0.218
0,205
0,126
0,127
0,141
0,201
0.166
0.163
0,024
0,063
0,109
0,002
0,168
0,377
0,010
0,100
C-207
-------�
MASTER GRID SYSTEM FOR HUDSON COUNTY, XMIN,YMIN* 568. 4498,
o
O
OO
4
4
4
4
2 2
2 2
2 2 1 i
2211
i 1 2 2
1122
2 2
2 2
44422
44422
44422
44422
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
I
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
4
4
4
4
2
2
2
2
I
i
i
i
i
i
2
2
4
4
4
4
4
4
4
4
2
2
2
2
1
1
i
i
i
1
2
2
4
4
4
4
4
4
4
4
2
2
1
1
i
1
1
i
2
2
2
2
4
4
4
4
4
4
4
4
2
2
1
1
i
i
i
1
2
2
2
2
4
4
4
4
2
2
1
I
1
i
i
1
1
1
1
i
4
4
4
4
2
2
1
i
1
1
1
1
1
1
1
1
4
4
4
4
2
2
i
i
i
1
1
i
1
1
1
i
4
4
4
4
a
2
1
I
1
i
1
4
4
4
4
2 2
2 2
2 2
2 2
-------�
AREA SOURCE EMI
X
(KM)
579.
572,
575.
572.
5/5.
580.
581.
580,
5B1.
580.
581 ,
582.
580,
581,
582,
580,
581 .
562,
580,
58 1,
582.
560.
581 .
582.
580.
S81.
582.
584.
5 76 .
572,
574,
584,
580,
sea.
582,
580,
581,
» "^ • W
562,
583.
«* w -* f
580,
•* •** •«* V
581 .
» ^» • w
582.
^ ^^ IB V
563.
* ** ••* •
562,
<« ^^ •* 9
583,
•^ •" w .
582,
583,
SSIONS FOR
V
(KM)
4su,
4512,
4512,
4513.
4513.
4506,
4506,
4b07,
4507.
4b08.
4508,
4508.
4509.
4509.
4509.
4510,
4510.
4510,
4511.
4511.
4511,
4512,
4512.
4512.
4513,
4513,
4513,
4513,
4514,
4514,
4514,
4514,
4516,
4516.
4518.
4514,
4514.
4514.
4514.
4515,
4blb,
45lb,
451b.
4516,
4516.
4517,
4517,
HUDSON
SIDE.
(M)
1000,
1000,
1000,
1000.
1000.
1000.
1000,
1000,
1000,
1000.
1000.
1000,
1000,
1000.
1000,
1000,
1000,
1000,
1000.
1000,
1000,
1000.
1000,
1000,
1000,
1000.
1000,
1000,
4000,
2000,
2000,
2000,
2000,
2000,
2000,
1000.
1000.
1000,
1000,
1000,
1000,
1000,
1000,
1000.
1000,
1000,
1000,
COUNTY 2000
802
(7/D)
0.146
0,260
0,015
0,085
0.023
0,027
0,118
0,202
0,069
0.283
0.099
0.131
0,207
0,147
0.118
0.211
0.212
0,247
0,173
0.165
0,154
0,165
0.140
0,073
0,i08
0,160
0,043
0.123
0,367
0,057
0,025
0.067
0,146
0,096
0,139
0,076
0.1S4
0.134
0,072
0,055
0,122
0.171
0,087
0.135
0,069
0.073
0,077
PAGt
TSP
(T/D)
0,097
0.187
0,011
0,059
0,017
0,022
0.055
0,156
0.059
0,209
0,072
0.026
0,164
0,108
0.068
O.lbl
0,151
0,182
0.115
0.120
0,355
0,U2
0.101
0.059
0,076
0,109
0,031
0,090
0.267
0,039
0,019
0,051
0.109
0,069
o.ios
0,055
0,104
0.09
-------�
AREA SOURCE EMISSIONS FOR
X
(KM)
§66.
576.
572,
572.
574.
572.
574.
576,
578,
574,
578.
576,
577.
576.
577,
580,
570,
570,
571,
570,
571.
574,
574,
572,
574,
576.
574.
576,
578.
576,
577.
578,
579,
576,
577.
578,
579.
576,
577.
578.
579.
576.
577,
578,
579.
578,
579,
570,
Y
(KM)
4498.
4498,
4498,
4SOO.
4500,
4502,
4502.
4502.
4502,
4S04,
4504.
4504,
4504,
4505,
4505.
4502.
4512.
4510.
4510,
4511.
4511,
4506.
4508.
4510.
4510,
4510.
4512.
4S12.
4512,
4S06.
4506.
4506.
4506.
4507,
4507,
4507.
4507.
4508.
4508.
4508,
4508,
4509,
4509,
4509,
4509,
4510,
4510.
4511,
HUDSON
SIDE
(M)
4000,
4000.
2000,
2000.
2000,
2000,
2000,
2000.
2000.
2000,
2000.
1000,
1000.
1000.
1000,
4000.
2000,
1000,
1000.
1000,
1000,
2000,
2000,
2000,
2000.
2000.
2000,
2000.
2000,
1000.
1000.
1000.
1000.
1000,
1000.
1000.
1000,
1000,
1000.
1000.
1000,
1000,
1000,
1000,
1000,
1000,
1000.
1000.
COUNTY 2000 PAG*
802
(T/D)
O.OJ6
0,382
0.19J
0.291
0.420
0,092
0,192
0.114
0.108
0.120
0.050
0,080
0,042
0.077
0,091
0,103
0,173
0.186
0,121
0.133
0,103
0,184
0,283
0,246
0.125
0,185
0,053
0.148
0,195
0,114
0,132
0.081
0,072
0.075
0,119
0,1S2
0,205
0,077
O.U7
0,242
0,202
0,080
0,076
0.187
0.158
0.068
0,126
0,029
TSP
(T/D)
o.on
0.15$
0.033
0,146
0.17S
0,063
0.133
0.089
0,080
0,086
0,043
0.056
0,030
O.OS«
0,061
0,019
0.122
0.144
0.091
0,077
0,073,
0.136
0,215
0.159
0.212
0.127
0,037
0,113
0.139
0,061
0.09J
0.067
0,070
0.051
0,083
0,113
0.166
0,054
0,083
0,171
0,152
0,056
0,058
0.136
0.111
0.071
0.066
0.021
C-210
-------�
AREA SOURCE fcMI
X
(KM)
579.
572,
573.
572.
573.
580.
561,
580,
581.
580,
561,
562,
580,
581,
582,
580.
581,
582.
980,
581.
582.
580,
581,
582.
580,
581.
582.
583,
576.
572,
574.
sea.
560.
58«.
582,
580,
581.
582,
593,
580.
581.
582,
563.
982.
563.
582.
583,
SSIONS f-OR
Y
(KM)
4511.
4512.
4512.
4513.
4513.
4506.
4506.
4507,
4507.
4508,
4508,
4508.
4509,
4509.
4509.
4510.
4510.
4510.
4511.
45U.
4511.
4512.
4512.
4512.
4513,
4513.
4513.
4513.
4514.
4514,
4514,
4514.
4516,
4516,
4518.
4514,
4514,
4514,
4514,
4515,
4515,
4515,
4515,
4516,
4516,
4517,
4517.
HUDSON
SIDE
CM)
1000,
1000.
1000,
1000,
1000,
1000.
1000.
1000,
1000.
1000,
iooo.
1000.
1000.
1000.
1000.
1000,
1000,
1000,
iooo.
1000.
1000,
1000.
1000,
iooo,
1000,
1000,
1000.
iooo.
4000,
2000,
2000,
2000,
2000,
2000,
2000,
iooo.
1000,
1000,
1000,
1000.
1000,
1000,
1000,
1000,
1000,
1000.
iooo.
COUNTY 1985
SQ2
(T/0)
0.125
0.251
0.011
0.073
0.018
0.023
0,105
0.185
0.071
0,261
0,10.2
0.107
0.193
0.146
0.120
0.199
0.207
0.246
0,153
0,151
0,139
0,146
0.117
0,053
0,097
0,145
0,036
0.1 14
0.318
0.051
0,014
0,058
0,106
0.090
0,122
0.059
0.141
0,122
0,063
0.032
0,107
0.157
0.078
0,123
0,062
0.065
0,069
PAGfc
TSP
(T/D)
0,087
0.163
0,007
0,054
0,013
0,016
0.054
0,142
0,059
0.193
0,075
0,030
0,160
0,110
0,090
0.148
0.152
0,183
0,106
0,115
0.349
o.ioe
0,069
0,047
0,070
0,103
0,026
0,087
0,241
0.037
o.on
0.047
0,082
0,067
0,098
0,043
0.100
0,090
0,047
0,026
0,076
0,116
0,059
0.091
0.046
0,049
0,050
C-211
-------�
RCE EMISSIONS FOR
X
(KM)
568,
576.
572,
572.
574,
572.
574,
576.
578.
574,
578,
576,
577.
576,
577.
580.
570.
570,
571,
570.
571,
574,
574.
572,
574,
576,
574.
576,
578.
576,
577,
578,
579.
576,
577,
578,
S79,
576.
577.
578.
579.
576,
577,
578,
579,
57«,
179.
578.
V
(KM)
4498,
4498,
4498,
4500,
4500.
4502.
4502.
4502,
4502.
4504,
4504,
4504,
4504,
4505.
4505,
4502,
4512,
4510,
4510.
4511.
4511,
4506,
4508,
4510e
4510,
4510,
4512,
4512,
4512,
4506,
4506.
4506,
4S06.
4507,
4507.
4507.
4507,
4508,
4508,
4508,
4508,
4509,
4509,
4509,
4509,
4510,
4510,
4511,
HUDSON
SIDt
(M)
4000,
4000.
2000,
2000,
2000.
2000,
2000,
2000,
2000,
2000.
2000,
1000,
1000,
1000,
1000.
4000,
2000,
1000,
1000.
1000.
1000,
2000,
2000,
2000,
2000,
2000,
2000.
2000,
2000,
1000,
1000.
1000,
1000,
1000.
1000.
iooo.
lOOOa
1000,
1000.
iooo.
1000.
1000,
iooo.
1000,
iooo.
1000,
1000,
iooo.
COUNTY 1985
802
CT/D)
0.015
0.3«0
0,143
0.243
0,307
0.085
0,168
0,086
0,074
0.105
0,032
0,067
0.030
0,067
0,081
0,076
0,156
0,182
Oe109
0.118
0,093
0.182
0,254
0.220
0,112
0,123
0.036
0.122
0,154
0,106
0.119
0,067
0,053
0.068
o.uo
0,137
0,176
0,070
0,100
0,235
o.ies
0.054
0,050
0,170
0.14?
0,059
0.112
0,016
PAGE
T8P
(T/D)
0.011
0.1S6
0,0?9
0.136
0.174
0,062
0,122
0,071
0,012
0.081
0,025
0.052
0.022
0.051
0.058
0.017
0.115
0.143
0.087
0.075
0,070
0,138
0,208
0,149
0,203
0.090
0,025
0,102
0.112
0,081
0.088
0.052
0,044
0.050
0,081
0,106
0,140
0.052
0.075
0,175
0.142
0.040
0.040
0,132
o.ios
0,065
0.082
0.011
C-212
-------�
AREA
SOURCE EMI
X
(KM)
5?9,
572,
573.
572.
573.
580.
581.
580,
581.
580.
581.
582,
580.
581.
582.
580,
581.
582,
580.
58 1,
582.
500.
581,
582.
580,
581,
582.
583,
576.
572.
574,
584.
580,
sea,
582.
560.
S81.
582,
583,
560.
581.
582.
563,
582.
583.
582.
583.
SSIONS FOR
Y
(KM)
45 U.
4512,
4512.
4513.
4513,
4506.
4506,
4507.
4507.
4508,
4508,
4508.
4509.
4509,
4509.
4510,
4510.
4510,
4511,
4511.
4511,
4512,
4512,
4512,
4513,
4513.
4513,
4513,
4514,
4514.
4514,
4514,
4516,
4516,
4518.
4514,
4514,
4514.
4514,
4515,
4bl5,
4515,
4515,
4516,
4516,
4517.
4517,
HUDSON
SIDE
(M)
1000,
1000,
1000,
1000,
1000.
1000,
1000,
1000.
1000.
1000,
1000,
1000,
1000.
1000,
1000,
1000,
1000.
1000.
1000,
1000,
1000.
1000,
1000,
1000,
1000,
1000.
looo.
1000.
4000.
2000,
2000,
2000,
2000.
2000.
2000,
1000,
1000,
1000,
1000,
1000,
1000.
1000,
1000.
1000,
1000,
1000,
1000,
COUNTY 1980
802
(T/D)
0,122
0,249
0,010
0.071
0.017
0,021
0,098
0.172
0,070
0,241
0,097
0,099
0,183
0.138
0,118
0,193
0,205
0,241
0.150
0,151
0,137
0,144
0,113
0,049
0,094
0.141
0,035
0.111
0,293
0,049
0^008
0,057
0,090
0.087
0.117
0,056
0,137
0.116
0.061
0,030
0.102
0,150
0,075
0.118
0,060
0,063
0.067
PAGE
TSP
(T/D)
0.116
0.1 8§
0.007
0,063
0,013
0,017
0,053
0,166
0.061
0,226
0,085
O.OJO
0,197
0,129
0.12*
0,191
0.203
0,255
0.143
0.157
0.384
0.140
0.113
0,047
0,09«
0,138
0,037
0.127
0.233
0.043
0.007
0,068
0.066
0,088
0,103
0.047
0.137
O.U6
0.064
0.022
0.098
0.154
0.081
0.121
0,061
0.058
0,065
C-213
-------�
SOURCE EMISSIONS FOR HUDSON
X Y SlDi
«000,
2000,
2<
572,
$74.
576.
574,
571.
571
579,
570,
asos,
4510,
asio,
45G&,
asodj,
asQ7<
aso/,
2000.
£0009
2600.
20009
2000»
20000
^000,
1000,
1000,
1000,
10008
1000,,
I0000
10009
10 0 0 „
1000,
! 0 © 0 ,
sog
0,102
0.16]
(T/0)
O.Oia
O.ISS
0.011
o,ott
080^t
G,02&
0,061
0.126
0,1 S4
0,216
0.150
0,201
o8ioi
0.127
0,059
o8iis
0.15?
09|6S
0»06©
0Bi85
0,04?
0»0«S
0 j!9«
e»i5«
0,971
09II5
0,011
C-214
-------�
AREA SOURCE EMI
X
(KM)
579.
572.
573.
572.
573.
580.
581,
580.
581,
580,
561.
582.
580.
581.
582.
580.
581.
582.
580.
581,
582.
580.
581.
582.
580,
581.
582,
583.
576.
572,
574.
584.
580.
584.
5d2.
560.
581.
562.
583.
580.
581.
58^(
583,
582.
563,
582.
583.
SSIONS FOR
Y
(KM)
4511.
4512.
4512.
4513.
4513.
4506.
4506.
4507.
4507.
4508,
4508,
4508.
4509,
4509,
4509.
4510.
4510.
4510.
4511.
4511.
4511,
4512,
4512,
4512,
4513.
4513.
4513.
4513.
4514.
4514,
4514,
4514.
4516.
4516.
4518.
4514.
4514,
4514.
4514,
4515,
4515,
4515,
4515,
4516,
4516,
4517,
4517,
HUDSON
SIDE
(MJ
1000.
1000.
1000,
1000.
1000.
1000,
1000.
1000.
1000.
1000.
1000,
1000.
1000,
1000.
1000,
1000,
1000,
1000,
1000,
1000,
1000,
1000,
1000,
1000.
1000,
1000.
1000.
1000.
4000,
2000.
2000,
2000,
2000,
2000.
2000.
1000.
1000.
1000,
1000,
1000.
1000,
1000,
1000,
1000.
1000,
1000,
1000.
COUNTY 1975
S02
CT/D)
0,118
0,248
0.010
0.069
0.016
0,020
0,091
0.171
0.068
0,236
0.092
0.085
0.173
0,129
0,117
0.184
0.194
0,237
0.146
0,145
0.132
0.141
0,109
0.046
0.092
0.1*8
0.033
0,109
0.278
0,048
0.006
0,056
o.oei
0,084
0.106
0,053
0,135
0.116
0.059
0,028
0.100
0,147
0.074
0.116
0.059
0.060
0,065
PAGE
TSP
(T/D)
0.085
0,179
0,007
0,051
0,012
0,015
0.049
0.130
0,055
0,173
0.065
0,027
0.135
0,092
0.087
0.140
0.156
0.181
0.105
0.119
0,344
0.100
0,080
0.035
0.066
0,098
0.025
0.062
0.197
0,035
0.003
0.092
0.054
0,063
0.085
0,036
0.096
0.086
0,082
0,019
0,070
0,109
0.103
0.086
0,043
0.045
0.046
C-215
-------�
SOURCE EMISSIONS FOR
X
(KM)
566.
576.
S72.
572,
574.
572.
574.
576.
578.
574,
576,
576.
577.
576.
577.
500.
570.
570.
571,
570,
571.
574.
574.
572.
574.
576.
574.
576,
578.
576.
577,
578,
579,
576,
577.
578.
579,
576.
577.
578.
579.
576,
577.
578.
579,
576.
579.
§78e
Y
(KM)
4498.
4498,
4498,
4SOOe
4500,
4502.
4502.
4502.
4502*
4504,
4504.
4504,
4504,
4505,
45058
4502,
4512,
4510,
45109
4511,
4511,
4506,
45088
4510,
4510.
4510,
4512.
4512,
4512,
4506*
4506,
45068
4506*
4507,
4507e
4507,
4507,
4508,
4508,
4508,
4508.
4509,
4509,
4509,
4509,
4510*
4510,
4511,
HUDSON
SIDE
(M)
4000,
4000,
2000,
2000.
2000,
2000,
2000.
2000,
2000.
2000,
2000,
1000,
1000,
joooe
iooo»
40009
2000,
1000,
1000e
1000,
1000,
2000.
2000,
2000,
2000,
2000,
2000*
2000,
2000,
1000,
1000,
1000,
1000,
1000,
1000.
1000,
1000,
1000,
1000,
tooo,
1000,
1000.
1000.
1000,
1000.
1000,
1000,
1000,
COUNTY 1975 PAG
@02
(T/D)
0.014
0,304
o.ioe
0.213
0.303
0,082
0,156
0,074
0.053
0.096
0,027
0,060
0,025
0,063
0.076
0,059
0,145
0,173
0*097
0,106
0,088
0,169
0,226
0*195
0,102
0.094
0.028
0,094
0,130
0.102
0,113
0,060
0,043
0,062
o,io«
0,130
0.160
0,063
0,093
0,223
0,173
0,049
0.045
0,163
0,139
0.057
0.106
0,013
T8P
(T/D)
0.010
0.150
O.Q2S
0.132
0.172
0,059
O.U4
0.062
0,010
0.073
0.022
0,045
0*01®
0.04@
0.05?
0,015
0,104
0,134
0,071
0,071
0,065
0.125
0.175
0,124
0.191
0.061
0.017
0,063
0,092
0,078
0,087
0,047
0.034
0.045
0,079
0,104
0.125
0,046
0,070
0.172
0,134
0.036
0.036
0.130
0,107
0,064
0.082
0,009
C-216
-------�
MASTER SRID SYSTEM FOR MIDDLESEX
COUNTY, X*IN,rMIN» 53«. 4454.
688
e e s
888
4
4
4
4
8 8
8 8
6 8
4
4
4
4
a
8
8
4
4
4
4
U
a
a
4
4
4
It
4
4
4 4
4 4
8 8
8 8
p
2
44444444
c < c f
1 2
1 1 2
44422112
44422222
441441444
44444444
44444444
88888684
4
4
2224
1444
2234
£ 2 2 4
2224
4442
4442
4442
4444
4
4
i>
4
2
4
U
It
ru fu rv ru J
4
4
4
4
4
2
4
4
«
2
2
2
2
4
4
4
4
4
2
4
4
U
2
2
2
2
4
4
4
4
4
4
4
4
4
4
8
a
8
4
4
4
4
4
4
4
4
8
8
8
4
4
4
4
4
4
4
4
8
8
6
8
4
4
4
4
4
4
4
4
8
8
8
8
2
2
2
4
4
8
8
a
4
2
2
2
4
4
8
8
8
2
4
4
2
2
2
4
4
8
8
8
4 4
4 4
244
422
422
244
2
2
2
444
4 4 4
844
844
8
4 4
4 4
4 4
2 2
2 2
2 2
4 4
4 4
4 4
4 4
4 4
88888888888888884444444488868888
444444448888886668868888
• 44444448888686886886868
444444446900d6dB666dd@9d
• 44««««48e86e88886e68888
44 4488SS68B99ofloofl8o
44448888688888888886
44446886668888866868
444468888
88886668886
4444
4444
4444
4444
C-217
-------�
AREA
SOURCE EMISSIONS FOR
X
(KM)
543,
535.
531.
535.
539.
547.
5J1.
939.
547.
551.
547.
551.
5S5,
563.
535.
539.
543.
539.
543.
545.
543.
545.
546,
545.
546,
547.
551.
551.
553.
551,
593,
547,
549,
547.
549.
555.
559.
55S.
559.
563.
563.
539.
543.
543.
545.
545.
546.
546.
Y
(KM)
4454,
4458,
4462.
4462.
4458.
4458.
4466,
4466.
4466.
4466,
4U70,
4470,
4466.
4470.
4474,
4474,
4474,
4478.
4478,
4478S
4460.
4460,
4460.
4481,
4461,
4474.
4478.
4474,
4474.
4476.
4476.
4478.
4478,
4480,
4460,
4474,
4474,
4478,
4478,
4474.
4478.
4466,
4486.
4464,
4464.
4482.
4482.
4463,
MIDDLESEX
SIDE
(M)
4000.
4000,
4000.
4000,
6000.
8000,
8000,
8000,
4000,
4000,
4000,
4000.
6000,
4000.
4000.
4000.
4000.
4000,
2000,
2000,
2000.
1000.
1000.
1000,
1000«
4000.
4000.
2000,
2000.
2000,
2000.
2000.
2000,
2000,
2000,
4000.
4000,
4000,
4000,
4000,
4000,
4000,
4000.
2000,
2000.
1000.
1000,
1000.
COUNTY 1975 PAGE
802
(T/D)
0,002
0.001
0.045
0.020
0.099
0.090
0.134
0.174
0.095
0,043
0.094
0.187
0.2SS
0.008
0,026
0.076
0.127
0,028
0,097
0,131
0,097
0.054
0,036
0,145
0,100
0,196
0,159
0.051
0,039
0,132
0,0fc8
0,067
0,079
0.114
0.038
0.207
0,106
0,226
0.215
0.062
0,026
0,059
0,167
0.030
0,047
0.064
0,107
0,637
TSf»
(T/D)
0,004
0,0
0.036
0.020
0.091
0,080
0.122
0.161
0.092
0.038
0.092
0.197
0,252
0,009
0,026
0.076
0.123
0.034
0.108
0.139
0.106
0.056
0.045
0,102
0,101
0,194
0,140
0.052
0.036
0,138
0,079
0.064
0.079
0.129
0.045
0.212
0,104
0.263
0.206
0.063
0.026
0.139
0.175
0,026
0,045
0.061
0.109
0,046
C-218
-------�
AREA SOURCE EM
X
(KM)
5S1.
547,
547.
549,
547.
549,
551,
553,
551.
553.
555,
555.
559.
561.
559.
561,
559,
561.
559,
561,
565,
519,
543,
547.
551.
551.
547,
549,
555,
559.
555,
561,
563.
563,
565,
563.
565.
JSSIONS FQH
Y
(KM)
4462.
4466,
4482.
4482.
4484,
4484,
4466,
4486,
4488,
4488,
4482,
4486,
4482.
4482,
4484,
4464.
4486,
4466,
4488,
4488.
4486,
4490.
4490,
4490.
4490,
4494.
4494,
4494.
4490,
4490,
4494,
4494,
4494,
4490.
4490,
4492,
4492,'
MIDDLESEX
SIDE
(M)
4000.
4000,
2000,
2000.
2000,
2000,
2000.
2000.
2000,
2000,
4000,
4000,
2000,
2000,
2000.
2000,
2000.
2000.
2000.
2000.
4000,
4000.
4000,
4000,
4000.
4000,
2000.
2000.
4000,
4000,
4000,
2000,
4000,
2000,
2000,
2000,
2000.
COUNTY 1975
302
(T/0)
0.242
0,170
0,165
0.291
0,044
0,072
0.146
0,096
0,061
0,084
0.269
0,463
0,102
0.175
0,159
0,326
0,133
0,178
0,100
0,134
0.237
0.140
0.375
0,4] 1
0,193
0.021
0.073
0.048
0.282
0.513
0.129
0.042
0,055
0.181
0.195
0,186
0.064
PAGE
TSP
(T/D)
0,257
0.181
0,195
0,390
0,047
0.075
0.170
0.096
0.058
0,086
0.994
0,364
0,082
0.061
0.164
0,297
0.139
0,591
0,105
0.141
0.032
0.154
0,379
0,466
0.194
0.022
0.075
0.049
0.28d
0,529
0,134
0,055
0,166
0.134
0,193
0.179
O.J91
C-219
-------�
AREA SOURCE EMISSIONS FOR MIDDLESEX COUNTY 1980 PAGE
X Y SIDE 802 T3P
(KM) (KM) (M) CT/OJ CT/D)
9
v ® t. J .e
2000, 0010C
;, *Moy9 i0008 0,056
S«66
53§s «i}58s ^4000e 0»00| Q8QOI
531, aa&a® 4000, Oe053 0,058
535, 4«62e 4000, 09027 0,03©
8000« 0,113 0,144
531.
-------�
AREA SOURCE EM
X
(KM)
551,
547.
547,
549.
547.
549,
551,
553,
551,
553,
S5S,
555,
559.
561,
559,
561.
559.
561.
559.
561,
563.
539.
543,
547,
551,
551.
9«7.
5«9.
555.
559.
555.
561.
563,
563,
565,
563.
565,
ISSIONS FOR
Y
(KM)
4482,
4486.
4482.
4482,
4464,
4464,
4486.
4486,
4488,
4488.
4482.
4486.
4462.
4482.
4484,
4484,
4466.
4486,
4488,
4488,
4486,
4490,
4490,
4490,
4490.
4494.
4494.
4494.
4490,
4490,
4494,
4494,
4494,
4490,
4490,
4492,
4492.
MIDDLESEX
SIDE
(M)
4000.
4000,
2000,
2000,
2000,
2000,
2000,
2000,
2000.
2000.
4 0 0 (.) ,
4000.
2000.
2000.
2000,
2000,
2000.
2000,
2000.
2000,
4000,
4000,
4000,
4000,
4000,
4000,
2000.
2000.
4000,
4000,
4000.
2000,
400 (' ,
2000,
2000,
2000,
2000.
COUNTY I960
S02
(T/D)
0,257
0,191
0,194
0.296
0,047
0,077
0,154
0,101
0,067
0.069
0.29«
0,505
O.llb
0,205
0.165
0.330
0.140
0,184
0,103
0,140
0,258
0.147
0,395
0,432
0.210
0,023
0,072
0.046
0.305
0,533
0,133
0.042
0,056
0,186
0.220
0,191
0,067
PAGE 2
TSP
(T/D)
0,310
0,246
0.245
0,420
0,061
0.09B
0,201
0,115
0,075
0,107
1.038
0,470
0.106
0,078
0,189
0.350
O.ltoS
0,619
0.125
0,16«
0.037
0.185
0,461
0,546
0,255
0,026
0,084
0,058
0.358
0,626
0.155
0,062
0,177
0,147
0,217
0.203
0,201
C-221
-------�
AREA SOURCE EMI
X
(KM)
543.
535,
531.
535,
539.
547,
531,
539,
547,
551.
547,
551,
555,
563,
535.
539,
543,
539,
543,
515.
543,
545.
546,
545.
$46.
547.
551,
551,
553,
551.
993.
547,
549,
547,
549,
555.
559.
$9$.
559.
563.
563.
539,
543,
543,
545,
545.
546,
546.
SSIONS fOf
Y
(KM)
4454,
4456,
4462,
4462,
4458,
4458.
4466.
4466,
4466.
4466,
4470,
4470,
4466.
4470,
4474.
4474,
4474,
4478,
4478*
4478,
4460.
4460,
4480,
4461,
4461*
4474,
4478.
4474,
4474,
4476,
4476,
4478.
4478.
4480,
4480,
4474,
4474.
4478.
4478.
4474,
4478.
4466,
4486.
4464,
4464.
4462.
4462,
4483.
? MIDDLESEX
SIDE
(M)
4000.
4000,
4000.
4000.
6000*
8000,
8000.
8000,
4000.
4000,
4000,
4000*
6000*
4000*
4000.
4000,
4000.
4QOO«
2000.
2000,
2000.
1000.
1000.
1000,
1000,
4000,
4000.
2000,
2000,
2000,
2000,
2000,
2000,
2000,
2000,
4000,
4000,
4000,
4000,
4000,
4000.
4000,
4000,
2000.
2000,
1000,
1000,
1000,
COUNTY 1985
302
(T/D)
0.003
0.001
0*070
0,051
0,183
0,171
0.229
0.271
0.148
0,095
0.154
0,236
0,380
0,009
0,044
0,116
0.155
0.032
0.108
0,137
0.104
0,055
0.039
0.147
0.102
0.227
0.214
0.066
0.051
0.141
0.062
0.077
0,091
0,124
0.052
0,247
0.138
0,306
0.255
0,069
0,029
0,073
0.221
0.035
0,062
0.067
0.106
0.042
PAGE
TSP
CT/D)
0.004
0.002
0.077
0.066
0,214
0,213
0.257
0.319
0*173
0.126
0,187
0.287
0.476
0*011
0,054
0.143
0.171
0.042
0*130
0.162
0.123
0.060
0.052
0.107
0,109
0.249
Q.224
0.076
0,060
0.154
0.107
0,061
0.104
0,149
0,069
0.290
0.160
0.441
0.275
0.078
0.033
0,167
0.265
0.036
0.072
0,066
0.115
0.05S
C-222
-------�
AREA 3QUHCE EMI
X
(KM)
551.
547.
547,
549.
547.
549,
5bl,
5b3.
5bl.
553,
bbb.
bbb.
5b9.
561,
559,
561,
559.
561.
559.
561.
564.
539,
543.
547.
551.
551.
547.
549,
555.
559.
555.
561.
563.
563.
565.
563,
565.
SSIONS FOR
Y
(KM)
4482.
4436,
4482,
4482.
4484.
4484,
4486,
4486.
4488,
4488,
4482,
4486,
4482.
4482,
4484,
4484,
4486,
4486,
4488,
4488.
4486,
4490,
4490.
4490,
4490.
4494,
4494,
4494,
4490.
4490,
4494.
4494,
4494.
4490.
4490,
4492.
4492,
MIDDLESEX
SIDE
(M)
4000,
4000,
2000,
2000.
2000.
2000,
2000,
2000.
2000,
2000.
4000.
4000.
2000,
2000,
2000,
2000,
2000.
2000,
2000.
2000.
4000,
4000,
4000.
4000.
4000.
4000,
2000.
2000.
4000.
4000.
4000,
2000,
4000.
2000,
2000,
2000,
2000,
COUNTY 1985
SOS
(T/D)
0,289
0,242
0.196
0.300
0,055
0,082
0,158
0,106
0,077
0,09fo
0,343
0,538
0,12^
0,224
0,169
0,327
0.147
0,190
0,110
0,145
0,275
O.lba
0,409
0,464
0,240
0,026
0,070
0.048
0.327
0.565
0,136
0.04b
0,061
0,191
0,240
0.193
0,0b9
PAGE
TSP
(T/D)
0.338
0.314
0,220
0,409
0.068
0.091
0.199
0.114
0.085
0,108
1,085
0,471
0,116
0.074
0,187
0.324
0.164
0.621
0.127
0.167
0.040
0,164
0,451
0,580
0.260
0,029
0,078
0.054
0.362
0,639
0,153
0.063
0,182
0,151
0.220
0.203
0.201
C-223
-------�
SOURCE EMISSIONS FOR WIOOLtSt:
X Y SlOg
(KM) (KM} CM}
535,
531.
539,,
547.
531,
547,
551.
551.
SbS,
533,
539,
b438
539a
543,
S4S8
543,
547.
5518
551.
551,
§53.
5«7,
555,
54 3
4474
4! 4 8 0 ,
« 4 7 4 a
4474.
4478*
4000.
i40G08
8000e
8000
4000
4 0 0 0 e
eoQOo
« o o o s
a o o o o
4 U 0 0
1000
1000
10 0 0 ,
2000,
20000
20008
4000,
4 000,
i|Q009
4000,
2000.
I 0 0 0 ,
soa
CT/O)
0.003
0,003
0,083
0,066
WO-"'
0.171
Qe120
0,182
0,25^
0,435
0,137
Q8f 63
0 „ I 0 1
0,053
0,2!
0,246
Oe055
G,5
0,080
0,058
0,257
0^266
0,07 1
0.030
0,018
0 . :i 0
T3P
(I/O)
o»oos
0.005
0,091
0,288
0,207
0,173
0,230
0,505
0,56!
0,125
0,151
0,115
0,054
0,047
0.100
0.098
0,259
Oe2«7
0,079
09066
0,142
0,111
09064
Oe!05
OeHI
0.077
0,302
0,278
Oe076
0B032
0,174
0,078
0B|04
0,051
C-224
-------�
AKEA SOURCE EMI
X
(KM)
SSI.
547.
547,
549,
547,
549,
551,
5S3.
551.
5S3.
55S.
555.
559.
561.
559.
561.
559.
56i.
559.
561,
563.
539.
543,
547,
551,
551,
547.
549.
555,
559,
555.
561,
563.
563,
565.
563.
56S.
SSIONS FOR
Y
(KM)
4482,
4486,
4482.
4482.
4484,
4484,
4486,
4486,
4488,
4488,
4482,
4486,
4482.
4482,
4484,
4464,
4486,
4486,
4486,
4488,
4486,
4490,
4490.
4490.
4490.
4494,
4494,
4494.
4490,
4490.
4494,
4494.
4494.
4490,
4490.
4492,
4492.
MIDDLESEX
SIDE
(M)
4000.
4000.
2000,
2000.
2000,
2000,
2000,
2000,
2000,
2000,
4000,
4000,
2000,
2000,
2000,
2000,
2000,
2000,
2000,
2000,
4000,
4000.
4000,
4000,
4000,
4000,
2000,
2000,
4000,
4000.
4000,
2000,
4000,
2000,
2000,
2000.
2000.
COUNTY 2000
S02
(T/D)
0,304
0.272
0,189
0,298
Q.OS9
0,084
0,154
0,107
0.08S
0.099
0,389
0,547
0,147
0.263
0 « 16S
0.306
0.144
0,182
0,109
0,143
0,324
0.155
0,410
0.47S
0.258
0.027
0.067
0.046
0,329
0,563
0.134
0.043
0.065
0,191
0.289
0,190
0,069
PAGE 2
TSP
(T/D)
0,371
0,358
0,205
0,402
0.079
0,092
0.165
0,111
0,093
0,107
1,131
0,472
0,120
0,070
0.176
0,293
0.159
0,607
0,120
0,156
0,045
0,175
0,434
0.590
0,300
0.031
0.071
0,050
0.355
0,621
0,142
0,058
0.182
0.140
0,221
0,188
0,196
0225
-------�
MASTER GRID SYSTEM FOR MONMOUTH
COUNTY, XMIN.YMINo 512. 8435.
4 4
4 9 <
4 4 t
4 4 <
4 4 '
4 4 8
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8
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8
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8
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8
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4
4
4
4
4
4
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4
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8
8
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6
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8
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8
4
4
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8
8
8
8
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4
4
4
4
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2
2
I
4
4
4
B
8
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8~
8
8
8
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8
8
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8
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4
4
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4
4
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8
a
8
8
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8
a
8
8
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8
8
8
4
4
8
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8
8
6
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4
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4
4
2
2
2
4
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8
8
6
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6
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8
6
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8
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2 4
2 4
2 a
4 4
4 4
« 4
« "2
8 2
8 2
8 2
8 4
8 4
8 4
e a
6 <9
$ 4
8 4
4 4
4 4
6 8
8 8
8 8
8 6
4
4
4
4
4
4
4
2
2
2
4
4
4
4
4
4
8
8
8
6
4
4
4
4
4
4
|
4
4
4
4
4
4
4
4
8
a
8
8
4
4
4
4
4
4
a
2
2
2
4
4
a
4
4
4
4
4
e
4
4
4
a
8
6
8
4
4
4
U
4
4
4
4
4
4
4
4
4
4
4
2
2
4
4
4
8
a
8
8
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
S
4
4
4
4
2
2
4
4
4
a
a
8
6
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
2
2
2
4
4
4
8
8
8
6
4444
4 M H 4
4444
4444
4444
4688
4668
4688
4888
4886
4668
4 « 4 4
4444
~4 4 4~4
4222
4222
"42 2 2
4 S 4 4
4444
4444
4444
2222
e e e
222
4444
4444
4~4 4 4
4444
8
8
8
8
4
4
4
4
^
4
68886
86888
68888
86866
86888
8 8 86 8
4
4
2
2
2
2
4
4
4
4
2
4
4
4
4
4
888
-------�
AREA
SOURCE EM
X
(KM)
536,
564,
5t>6,
576.
532.
532.
536,
544,
552.
560.
568,
572,
568,
572,
576,
580,
576.
580,
584.
58/4,
540,
544,
552.
560.
564.
560.
564.
568.
576.
576,
580.
580.
582.
580.
582.
584.
584.
584.
586.
548.
552.
560.
566.
576.
580.
580.
576,
578.
ISS10NS FOR
V
(KM)
4435.
4439,
4435,
4435,
4443.
4447,
4443.
4443,
4443,
4443,
4443.
4443,
4447.
4447,
4443.
4443.
4447,
4447.
4443.
4447.
4451,
4451,
4451.
4451.
4451.
4455,
4455,
4451.
4451 .
4455,
4455,
4451,
4451,
4453,
4453.
4455,
4451,
4453.
4453.
4459.
4459.
4459.
4459,
4459,
4459.
4463,
4463.
4463.
MONMQUTM
SIDE
(M)
8000.
4000,
8000,
8000,
4000.
4000,
8000,
8000,
6000,
8000.
4000,
4000,
4000.
4000.
4000.
4000.
4000.
4000.
4000.
4000.
4000,
8000,
8000,
4000.
4000,
4000,
4000.
8000.
4000.
4000.
4000,
2000,
2000,
2000.
2000,
4000,
2000.
2000.
2000.
4000,
8000,
8000.
8000.
4000,
4000,
4000,
2000,
2000,
COUNTY 1975
302
(T/D)
0.007
0.023
0,015
0,233
0,013
0,012
0,061
0,006
0,013
0,128
0,016
0,014
0,068
0,050
0,052
0,234
0.071
0.450
0.006
0.153
0.002
0.027
0,060
0,060
0,029
0.169
0,008
0.056
0,077
0,031
0,126
0,067
0,246
0.053
0,100
0,081
0,213
0,061
0,002
0.001
0.169
0.143
0,135
0,169
0.270
0.116
0.019
0.060
PAGE
TSP
(T/D)
0.007
0.024
0.014
0.259
0,013
0.012
0,058
0.007
0.016
0.129
0,013
0.016
0.064
0.040
0.051
0,246
0.087
0,410
0.006
0.092
0.002
0.030
0.086
0.061
0.025
0.317
0,009
0.044
0.081
0.032
0.137
0,092
0,267
0,054
0.114
0.082
0,?26
0,067
0,002
0,001
0.172
0,139
0.134
0.221
0,302
0.136
0.022
0,063
C-227
-------�
AREA SOURCE EMISSIONS FOR
X
(KM)
576.
576,
584.
584.
586.
584.
586.
556,
560.
564,
560.
564.
568,
572.
566,
572.
574.
572.
574.
576.
500.
576.
590.
594.
564.
568.
572.
566,
572.
576,
$60.
590.
5S4.
594.
Y
(KM)
4465,
4465.
4463.
4459.
4459,
4461.
4461,
4467.
4467,
4467,
4471.
4471.
4467.
4467,
4471,
4471,
4471,
4473.
4473,
4467.
4467,
4471,
4471,
4467,
447S,
4475,
4475.
4479,
4479.
4475,
4475.
4479,
4475,
4479,
MQNMOUTH
SIDE
(M)
2000.
2000,
4000.
2000,
2000.
2000,
2000.
4000.
4000,
4000,
4000,
4000.
4000,
4000,
4000,
2000.
2000,
2000.
2000.
4000.
4000.
4000.
4000.
8000,
4000.
4000.
4000,
4000,
4000.
4000,
4000,
4000.
4000,
4000.
COUNTY 1975 PACE
802
(T/D)
0.059
0,145
0.061
0.129
0,029
0,139
0,059
0.009
0,030
0,039
0.023
0.247
0.060
0.054
0.108
0,025
0.036
0.119
0.046
0.134
0.097
0.161
0.093
0.149
0.196
0.164
0,197
0,001
0.005
0,047
0,007
0,003
0.004
0.004
TSP
(T/D)
0.063
0,148
0.097
0,135
0.031
0,141
0,062
0,006
0,031
0,038
0.025
0,253
0.071
0,055
0.101
0,022
0.036
0.110
0,04f
0.126
0.086
0.112
0,099
0,139
0.194
0.171
0,2if
0.001
0.005
0.046
o.oti
0.000
0.011
0.013
C-228
-------�
AREA SOURCE EMISSIONS FOR
X
(KM)
536.
564.
568,
576.
532.
532.
536.
544.
552,
560.
568.
572.
568.
572.
576.
580,
576,
580.
584.
584,
540.
544.
552.
560,
564,
560,
564,
568,
576.
576,
580,
580,
582,
580.
582.
584.
584.
584.
586,
5«8.
552,
560.
56b,
576.
580.
580.
576.
578,
Y
(KM)
4435,
4439.
4435.
4435.
4443,
4447.
4443.
4443,
4443,
4443,
4443,
4443.
4447.
4447,
4443,
4443.
4447.
4447.
4443,
4447.
4451.
4451,
4451 .
4451.
4451.
4455,
4455.
4451.
4451,
4455.
4455.
4451.
4451.
4453.
4453,
4455,
4451,
4453.
4453,
4459,
4459.
4459.
«459,
4459,
4459.
4463,
4463,
4463*
MONMUUTH
SIDE
(Mi
8000,
4000,
8000,
8000,
4000,
4000,
8000.
8000,
8000,
6000.
4000,
4000,
4000.
4000,
4000,
4000.
4000.
4000.
4000.
4000,
4000.
8000,
8000.
4000,
4000.
4000.
4000.
8000,
4000,
4000,
4000,
2000.
2000,
2000,
2000.
4000.
2000,
2000.
2000.
4000.
eooo.
8000,
8000.
4000,
4000,
4000,
2000.
2000.
COUNTY 1980
S02
(T/D)
0,008
0.036
0.024
0,266
0.017
0,018
0,100
0.008
0.016
0.167
0,022
0,016
0,082
0.061
0.062
0,258
0,087
0,511
0,006
0,175
0,002
0.040
0,104
0,085
0.039
0,193
0.013
0.073
0.092
0,045
0,148
0,097
0,265
0.060
0.1 10
0,069
0,216
0,065
0,002
0.002
0,240
0.17V
0.176
0,168
0,269
0.130
0,021
0.067
PAGE 1
TSP
(1/D)
0.009
0.041
0.027
0,300
0.023
0.022
0,123
0.009
0.018
0.189
0.018
0,019
0.083
0.066
0.073
0.269
0.106
0.486
0,007
0.106
0,003
0.046
0,106
0,091
0.037
0,356
0.015
0.058
0.103
0.053
0.175
o.in
0.313
0,069
0.134
0.096
0.255
0.076
0.002
0.002
0.265
0.200
0.18S
0.276
0,344
0,151
0.027
0,072
0229
-------�
X
(KM;
sea®
sea.
556e
560S
5&a8
560,
572,
568,
576,
o,
0,
0,156
Q8032
V 6
0,0
0,201
i'
0401
O.Of
CT/D)
0,078
0,056
0,030
0.517
0.0S?
0.1&«
o.ioi
09|«^
0.1IS
0,219
O.i
©,©!!
o.ois
C-230
-------�
AREA SOURCE EM
X
(KM)
536,
564,
568,
576,
552,
532,
536,
544.
552.
560.
568.
572.
566,
572.
576.
580.
576.
580.
584,
584.
540.
544.
552.
560,
564.
560.
564,
568.
576.
576.
580.
580,
582.
580.
582.
584.
584.
584,
566.
548.
552,
560.
568,
576.
560,
580.
576,
578.
ISSIONS FUR
Y
(KM)
4435.
4439,
4435,
4435.
4443,
4447.
4443,
4443.
4443,
4443.
4443,
4443.
4447.
4447,
4443,
4443,
4447,
4447,
4443.
4447,
4451.
4451,
4451,
4451 ,
4451.
4455.
4455,
4451.
4451,
4455,
4455,
4451,
4451,
44S3,
44b3,
445S.
4451,
4453,
4453.
44S9,
4459.
4459,
4459,
4459,
4459,
4463,
4463,
4463,
MONMOUTH
SIDE
(M)
8000,
4000,
8000,
6000,
4000.
4000,
8000,
8000.
8000,
8000,
4000.
4000,
4000.
4000,
4000,
4000,
4000,
4000,
40UO,
4000,
4000,
8000.
8000,
4000,
4000,
4000.
4000.
8000,
4000.
4000,
4000,
2000,
2000,
2000,
2000.
4000,
2000,
2000.
2000.
4000,
8000.
8000,
8000,
4000,
4000.
4000.
£000.
2000,
COUNTY 1985
$02
(T/D)
0.009
0.043
0.030
0,284
0.027
0,025
0.149
0.009
0,019
0.209
0,024
0.017
0.096
0.077
0.072
0,273
0.097
0,540
0,006
0,189
0,002
0,050
0.121
0.104
0.049
0.207
0.017
0,083
0,105
0.060
0,163
0,102
0,271
0,064
0,116
0.091
0,218
0.06b
0,002
0.002
0,307
0,218
0,208
0,200
0,298
0.134
0,023
0.069
PAGE
TSP
(1/D)
0.009
0.051
0,030
0,308
0,031
0,028
0,179
0.009
0.020
0,233
0.020
0,022
0,098
0,076
0.080
0,282
0,115
0,466
0.007
0.098
0.004
0,056
0.132
0,114
0,048
0.359
0,019
0,076
0.109
0,0fo8
o.ieo
0.110
0.288
0,069
0,122
0.092
0.232
0.070
0,002
0.003
0.341
0,242
0.228
0.269
0,342
0,155
0,027
0,073
C-231
-------�
AREA SOURCE EMI
X
(KM)
576,
578,
584.
584,
586,
584.
586.
556,
560.
564,
560,
564,
568,
572,
568.
572,
574.
572.
574,
576.
580,
576,
580.
584.
564.
566.
572.
568,
572.
576,
580.
580.
564,
584.
S3IONS FOR
Y
(KM)
4465,
4465,
4463,
4459.
4459,
4461 «
4461.
4467.
4467.
4467.
4471.
4471.
4467.
4467.
447U
4471.
4471,
4473.
4473,
4467.
4467t
4471,
4471.
4467e
4475,
4475.
4475,
44799
4479,
4475,
4475,
4479,
447$,
4479,
MONMQUTH
SIDE
(M)
2000,
2000,
4000.
2000.
2000,
2000.
2000.
4000.
4000.
4000,
4000,
4000,
4000.
4000,
4000,
2000.
2000.
2000.
2000.
4000.
4000,
4000,
4000,
@000«
4000,
4000,
4000,
4000,
4000.
4000,
4000,
40QO,
4000,
4000.
COUNTY 1985
802
(T/D)
0.073
0,160
0.100
0.145
0,032
0,156
0.06S
0,020
0.042
0,063
0,029
0,314
0,132
0,084
0,177
0,035
0,048
0,130
0,061
0.1T3
0,127
0,231
0,132
0,162
0,535
0.213
0,254
0,001
0.006
0,056
0,006
0,003
0,004
0,004
PAGE 2
TSP
(T/D)
0,078
0.162
0,099
0.150
0,033
0,157
0,068
0,023
0.045
0,070
0,033
0,336
0.153
0,090
0,19}
0.037
0.046
0.129
0,069
0.162
0,100
0.171
0,144
0,163
0.240
0.229
0.271
0,002
0.006
0.056
0,012
0,010
O.Oil
0,013
C-232
-------�
AREA SOURCE EMI
X
(KM)
536.
564.
568.
576.
•352.
532.
536.
544.
552,
560.
568,
572,
568.
572,
576,
580.
576,
580,
584,
564,
540,
544,
552,
560,
564.
560.
564.
568.
576.
576,
580.
580.
582.
580.
582.
584.
584.
584.
586,
548.
552.
560,
566.
576.
580.
560,
576.
576,
SSIONS FOR
¥
(KM)
4435.
4439.
4435,
4435.
44413.
4447,
4443.
4443,
4443,
4443.
4443,
4443.
4447.
4447,
4443,
4443,
4447.
4447,
4443,
4447,
4451,
4451.
4451.
4451 ,
4451,
4455,
4455.
4451,
4451.
4455.
4455.
4451,
4451.
4453,
4453.
4455.
44S1.
4453,
4453,
445^,
4459,
4459.
4459,
4459,
4459,
4463,
4463,
4463,
MONMOUTH
SIDE
(M)
8000,
4000,
8000,
8000,
4000,
4000.
8000,
8000.
8000,
8000,
4000,
4000.
4000.
4000,
4000,
4000,
4000,
4000,
4000.
4000,
4000,
8000,
8000,
4000,
4000,
4000.
4000,
8000,
4000,
4000,
4000,
2000,
2000,
2000.
2000.
4000,
2000,
2000,
2000,
4000,
6000,
8000,
8000,
4000,
4000,
4000.
2000,
'2000,
COUNTY 2000
SO*
(T/D)
0.010
0,062
0,041
0.334
0,042
0,035
0,252
0,009
0,024
0,294
0.030
0.021
0,124
0,100
0,09}
0,306
0.118
0,627
0.007
0.232
0.004
0,088
0.174
0,156
0,064
0,246
0.026
0.12S
0.131
0,085
0,199
0,114
0,292
0,077
0.126
0.103
0.229
0.071
0,002
0,004
0,453
0,304
0,294
0,232
0.326
0,156
0.028
0.077
PAGE
TSP
(T/D)
0.011
0.071
0,042
0,341
0,050
0.040
0,303
0.009
0,024
0.323
0,028
0,029
0.124
0,106
0.100
0.297
0.137
0.491
0,007
0,102
0,004
0.100
0.188
0,175
0.066
0,389
0,031
0,115
0,137
0,099
0.2U
0,120
0.296
0.079
0,125
0,093
0.233
0,074
0,002
0,005
0.507
0.341
0,319
0,296
0,363
0,165
0,031
0.077
C-233
-------�
AREA SOURCE EMI
X
(KM)
576.
578,
564,
564.
586.
584.
586.
556.
560.
564,
560.
564.
568.
$72.
566.
572.
574,
572.
574.
576,
580.
576.
580.
584.
564,
568,
572,
568,
572.
576,
580.
580,
584,
584,
38ION3 FOR
Y
(KM)
4465,
4465.
4463.
4459.
4459,
4461,
4461,
4467.
4467.
4467.
4471.
4471.
4467,
4467,
4471*
4471.
4471.
4473,
4473.
4467,
4467,
4471,
4471,
4467.
4475,
4475,
4475,
4479,
4479,
4475,
4475.
4479,
4475,
4479,
MQNMOUTH
SIDE
(M)
2000,
2000,
4000,
2000,
2000,
2000,
2000.
4000.
4000.
4000.
4000.
4000.
4000,
4000.
4000,
2000.
aooo.
2000,
2000,
4000,
4000,
4000,
4000,
8000.
4000,
4000.
4000.
4000,
4000.
4000,
4000,
4000,
4000,
4000,
COUNTY 2000
802
(T/0)
0,084
0,172
0,116
0,158
0.034
0,166
0.069
0,040
0.055
0.091
0.035
0.377
0,196
0.114
0,247
0.045
0,062
0,1«0
0,074
0,206
0,iS7
0.305
0,167
0,215
0,267
0,262
0.301
0,002
0,006
0.069
0,009
0,OU3
0,003
0,003
PAGE
TSP
(T/DJ
0,087
0.165
0.106
0,154
0,033
0.161
0,069
0.04$
0.056
0.100
0.037
0.393
0.22$
0.117
0.262
0,048
0.061
O.Hi
0.07«
0,186
O.U3
0,219
0.181
0.167
0.267
0.264
0.298
0,002
0.006
0.067
0.013
0,010
0.011
0.013
C-234
-------�
MASTER GRID SYSTEM FOR MORRIS
COUNTY, XMIS,YMIN«
507. 4498.
O
Ui
8
8
8
8
8
a
8
B
44448
44418
44448
444444448
U44444448
44448
44 4 4^8
44448
44448
a
B
8
B
8
8
B
8
B
8
8
8
B
B
8
8
8
8
8
8
B
B
8
8
8
8
B
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
B
8
B
6
8
6
8
8
8
8
8
B
8
8
8
8
8
8
8
8
8
8
8
B
B
B
B
8
8
B
8
B
6
8
8
8
e
e
a
B
8
8
6
8
8
8
8
8
8
8
8
B
6
8
a
8
8
8
B
8
8
B
B
B
8
6
B
8
8
8
8
8
8
8
8
8
8
8
8
B
8
8
a
8
8
B
6
8
8
B
6
B
8
B
8
8
8
8
8
8
8
8
6
8
8
8
8
B
e
8
8
B
8
8
8
8
e
B
6
8
6
8
8
8
6
8
8
a
e
8
8
e
8
8
8
B
8
B
8
6
8
6
8
8
8
e
8
8
8
8
6
B
8
8
8
B
8
8
6
6
6
8
6
a
8
8
8
6
8
8
8
6
B
-
B
8
8
4
4
4
4
4
4
4
8
8
8
8
8
8
8
B
8
8
8
8
8
It
8
8
8
8
B
8
8
4
4
4
4
4
4
4
6
8
6
B
8
6
8
8
8
8
8
8
a
8
8
8
8
8
8
B
8
8
4
4
4
4
4
4
4
e
6
6
8
8
e
8
6
8
8
6
8
8
8
B
8
6
8
8
6
8
4
4
4
4
4
4
4
8
8
B
8
B
8
8
B
8
8
8
8
8
B
6
B
8
8
B
g
6
8
B
B
8
B
8
8
B
4
4
4
4
4
4
4
6
8
8
B
a
8
B
4
4
4
4
8
8
a
8
8
8
e
4
4
4
4
4
4
4
8
B
8
8
8
8
B
4
4
4
8
B
6
8
8
8
8
4
4
4
4
4
4
6
8
8
8
8
8
B
4
4
4
6
8
8
B
B
8
B
4
4
4
4
4
4
6
8
8
B
B
8
8
4
4
4
4
4
4
a
u
4
4
8
8
8
8
8
8
8
2
2
2
t
2
2
2
6
8
8
8
8
8
B
4
4
4
t\
4
4
4
4
4
4
4
4
4
8
8
8
B
6
B
2
2
2
£
2
1
2
8
8
6
8
B
B
4
4
4
4
4
4
4
4
4
4
4
4
4
8
8
8
8
o a>
-------�
ARE& SOURCE EMISSIONS FOR MORRIS
539,
13,
511,
515*
523,
5S5.
531.
535,
S5i
507.
511.
531,
54
551.
S47«
551.
S559
S1S8
523,
5319
531,
535,
4506,
asio,
451«^
4514,
4518,
4518,
4514ffl
4514.
asi68
4516,
4522,
as?2
4524
©0
'4528 0
4000
4000e
80009
80008
4000,
4000
4000
a o o o
80009
8 0 0 0 9
4000
5000,
^ooo
« 0 0 0 o
aoooe
4000,
4000
2000.
2000,
2000
2000
(T/03
0,014
0,065
0,005
oaooe
0,022
o.oog
09003
0,033
U 8 .
0,077
o,,aoi
Q«,Q06
Offl007
0..057
0,015
0,007
0^094)
0,232
0,017
0,090
09109
0,04-a
0.009
0,016
TSP
CT/I
Oe015
0«,006
Oe030
0,003
0,007
09068
0,105
0,
0,1
0
0,018
0.1S&
090|i
0,139
0.112
0,027
0.019
C-236
-------�
AREA SOURCE EM
X
(KM)
539.
543.
539.
543.
547.
551.
547.
551.
555.
555,
559.
527.
527.
531.
539.
547.
555.
535.
535.
539.
547.
551.
547,
555.
539.
ISSIONS FOR
Y
(KM)
4522.
4522.
4526,
4526,
4522,
4522.
4526,
4526.
4522,
4526.
4526.
4530,
4534,
4530.
4530.
4530.
4530.
4538,
4542.
4538,
4538.
4538.
4542.
4538.
4546,
MORRIS
SIDfc
(M)
4000.
4000,
4000,
4000.
4000,
4000,
4000,
4000.
4000,
4000.
4000,
4000,
4000,
8000,
8000,
8000.
8000.
4000,
400 0 .
8000,
4000,
4000,
4000,
4000,
4000,
COUNTY 1975
SU2
(T/D)
0.083
0.218
0.295
0.115
0.293
0.168
0,394
0,112
0,045
0,020
0,029
0,037
0.011
0,115
0,130
0,151
0.298
O.OOe1
0,003
0,063
0.012
0,080
0.001
0,064
0,001
PAGE 2
TSP
(T/D)
0,088
0,233
0,303
0,123
0,333
0,198
0,358
0,123
0.051
0,022
0.034
0,039
0,012
0,134
0,140
0,165
0,338
0,002
0.003
0.077
0.014
0,085
0.001
O.U75
0.001
C-237
-------�
AREA SOURCE EMI
X
(KM)
539.
539,
543.
547.
1511.
515.
523.
535.
531.
535.
539.
547.
551.
547,
SSi.
507,
511.
511,
515,
523.
531,
539.
543,
539.
541.
543.
545.
539.
541.
543.
545.
547,
5518
547.
551.
555,
515.
523.
531.
531,
535.
537,
535.
537.
535.
537.
835.
S379
8SIONS FOR
Y
(KM)
4498e
4502,
4502.
4502,
4510.
4506,
4.506,
4506,
4510,
45109
4506,
45068
4506.
4510,
4519*
4514.
4514,
4518.
4514,
4514,
4514.
4518,
4518,
4514*
4514.
4514,
4514,
4516.
4516,
45J6,
4516,
4514,
4514,
4518,
4518,
4516.
4522,
4522*
4522,
4526,
4522.
45228
4524.
4S24.
4526,
4526,
«S£8,
4526,
MORRIS
SIDE
CM)
4000,
4000,
4000.
4000,
4000,
80009
8000.
4000,
4000,
4000*
8000,
4000.
4000,
4000.
4000,
4000.
4000,
4000,
8000.
6000.
8000,
4000.
4000,
2000*
2000.
2000.
2000,
2000e
2000e
2000,
2000.
4000.
4000,
4000.
4000.
4000,
8000,
8000.
4000,
4000.
2000.
2000,
2000,
2000.
2000,
2000.
2000,
2000,
COUNTY 1980
$02
(T/0)
0,018
0,067
0.080
0.006
0,008
.0,026
0.026
0,003
0.041
0*002
0,104
0,105
0.025
0.382
0808I
0.001
0.006
o.oos
0,066
0.098
0.175
0,215
0,466
0,015
0.072
0,155
0.070
0.006
0,100
0.24J
0,093
0,204
0,274
0,349
0.128
0.018
0,106
0.321
0.302
0,120
0,046
0,011
0,139
0.132
0,299
0.123
0,034
0.020
PAGE
T3P
(T/0)
0.021
0,074
0.098
0,008
0,011
0,032
0.031
0.003
0.045
0,003
0,126
0,123
0,027
0.425
0,099
0.002
0,008
0,007
0.075
O.iOT
0,211
0.239
0.436
0,017
0,085
0,171
0,071
0,010
0.118
0,258
0.092
0,206
0,259
0.325
0.136
0.020
0.119
0.340
0.112
0.116
0,056
0,014
0,154
0,123
0,254
0,117
0,035
0,025
C-238
-------�
AREA SOURCE
X
(KM)
539.
543.
539.
543.
547.
551.
547.
551.
555.
555.
559.
527.
527.
531,
539,
547,
555,
535,
535.
539.
547.
551.
547.
555.
539,
EMISSIONS FUR
Y
(KM)
4522.
4522,
4526.
4526,
4522.
4522.
4526.
4526,
4522,
4526,
4526.
4530,
4534.
4530.
4530.
4530.
4530,
4538,
4542.
4536,
4538.
4538,
4542,
4538,
4546.
MURKI3
SIDt
(M)
4000,
4000,
4000,
4000,
4000,
4000,
4000.
4000,
4000.
4000,
4000.
4000.
4000,
8000,
8000,
8000.
8000,
4000,
4000,
8VOO,
4000.
4000,
4000.
4000.
4000,
COUNTY 1980
S02
(T/D)
0,099
0,260
0.328
0,134
0.333
0.183
0,439
0,146
0,054
0,026
0,033
0.036
0.014
0.139
0.148
0,175
•0.336
0,002
0.003
0,068
0,013
0.088
0.001
0,071
0.002
PAGfc
TSP
(T/0)
0,120
0.312
0.355
0,155
0.475
0,251
0,441
0.194
0,069
0.037
0.043
0,042
0,012
0.169
0,175
0,198
0.401
0,003
0.004
0.085
0.015
0,098
0,001
0,088
0.002
C-239
-------�
AREA SOURCE EMISSIONS FOR
X
(KM)
559.
539.
543.
547.
511.
515.
533.
535,
531.
535.
S39,
547.
551.
547.
551.
507,
511.
511.
515.
533.
531.
539.
543,
539,
541.
543.
545.
5J9.
541.
543.
545.
547.
551,
547.
551.
555,
515.
523.
531.
531.
535.
537.
535.
537.
535.
537.
535.
537.
Y
CKM)
4496.
4502.
4502,
4502,
4510,
4506,
4506,
4506.
4510.
4510,
4506,
4506.
4506,
4510,
4510.
4514,
4514.
4518.
4514.
4514.
4514.
4518.
4518,
4514,
4514.
4514,
4514.
4516.
4516,
4516,
4516.
4514,
4514,
4518,
4518.
4518.
4522,
4522,
4522,
4526.
4522.
4522,
4524,
4524,
4526,
4526,
4526.
4528,
MORRIS
SIDE
(M)
4000.
4000,
4000.
4000.
4000,
eooo.
8000,
4000*
4000.
4000.
8000,'
4000.
4000,
4000,
4000.
4000.
4000,
4000,
8000.
8000.
8000.
4000.
4000.
2000,
2000.
2000,
2000,
2000.
2000.
2000,
2000.
4000,
4000,
4000,
4000.
4000,
eooo.
6000.
4000,
4000,
2000,
2000,
2000,
2000,
2000,
2000,
2000.
2000,
COUNTY 1985 PACE
SQ2
(T/0)
0,022
0.081
0,10?
0,007
0.010
0,029
0.026
0,004
0,041
0,003
0.112
0.110
0.026
0.401
0.085
0,002
0.007
0,006
0.077
0,108
0.196
0.229
0,537
0.015
0,075
0,157
0,074
0.010
0.105
0,245
0,098
0.228
0,284
0,382
0.140
0,019
0.123
0,362
0,104
0,126
0,050
0,012
0,146
0.136
0,308
0.128
0,039
0,024
TSf»
CT/D)
0,026
0.068
O.llt
0.009
0,011
O.OJ5
o.osi
0,004
0.04(6
0.004
0.129
0.123
0,02?
0.423
0.094
0,002
0.010
0.006
0.07?
0.112
0.216
0.249
0.494
0.016
0.064
0.157
0.072
0.010
0.115
0.240
0.097
0.231
0,269
0.354
0.139
0.021
0.132
0.370
0,112
0.117
0,054
0,013
0,145
0.120
0,255
0,117
0,039
0,029
C-240
-------�
ARtA
SOURCt EMI
X
(KM)
539.
543,
539.
543,
547.
551,
547,
551,
555,
555,
559.
527,
527.
531.
539.
547.
555,
535.
535.
SJ9,
547.
551.
547.
555,
539.
SSIONS FOR
y
(KM)
4522,
4522,
4526,
4526.
4522,
4522,
4526,
4526,
4522,
4526,
4526,
4530,
4534,
4530.
4530,
4530.
4530.
4538,
4542,
4538,
4538,
4538,
4542,
4536,
4546.
WORK is
siut
(M)
4000,
4000,
4000.
4000,
4000.
4000,
4000.
4000.
4000,
4000,
4000,
4000.
4000,
8000,
6000,
8000.
8000,
4000,
4000.
8000.
4000.
4000,
4000,
4000,
4000,
COUUTY 1985
302
(T/D)
0,124
0,311
0,364
0,155
0.381
0,207
0,496
0.204
0.071
0,038
0.043
0,039
0.015
0,192
0.177
0.206
0.382
0,003
0.003
0,077
0,015
0.094
0,001
0,083
0,001
PAGt 2
TSP
(T/D)
0,138
0.352
0,381
0.169
0.439
0,243
0.474
0,246
0,083
0,046
0.051
0,040
0,013
0,218
0,201
0,238
0,434
0,004
0,004
0.067
0,015
0,103
0.001
0.095
0.002
C-241
-------�
AREA SOURCE EM
X
(KM)
539.
539,
543.
547.
51 1.
515,
523.
535,
531.
535.
53=>.
547,
551.
547f
551,,
507.
51 1 .
511,
515.
523.
531.
539,
543.
539.
541.
543.
545.
539.
541,
543,
545.
547,
551,
547.
551.
555.
515,
523*
531.
531 .
535.
537,
535.
537.
535.
537,
535e
537.
1SSIONS PUf
V
(KM)
4498,
4502.
4502,
4502,
4510,
4506,
4506.
4506,
4510,
4510,
4506,
4506,
4506.
4510,
4510,
4514.
4514,
4518.
4514,
4514,
4514,
4516.
4518.
4514,
4514,
4514.
4514,
4516,
4516,
4516,
4516,
U514.
4514,
4518.
4518,
4518.
4522,
4522,
4522.
4526.
4522.
4522,
4524,
4524.
4526,
4526.
4528,
4528,
< MORRIS
SIDE
(M)
4000,
4000,
40( 0,
aoc o.
4000,
8000,
BOt'O,
40CO,
4000,
4000,
8000,
4 0 (i 0 .
4 0 U 0 .
4000.
4000.
4000,
4000.
4000,
8000,
8000,
riOOO.
U 0 0 0 ,
4000.
2000,
2000,
2000.
2000.
2000,
2000,
2000,
2000.
4000.
4000.
4000,
4000.
4000,
8000,
8000,
4000.
4000.
2000,
2000,
2000,
2000,
2000.
2 0 (i 0 .
2000,
2000.
COUNTY 2000
S02
( T / D )
0.029
0.106
0,149
0,010
0.013
0.037
0,026
0.005
0.041
0,003
0.128
0,123
0.029
0.435
0,090
0.002
0,010
0.006
0.093
0.117
0.213
0.249
0.650
0,016
0,083
0,161
0.082
0.01 1
0.11?
0.255
0.111
0,272
0.304
0.454
0.159
0,022
0.156
0*446
0,120
0.136
0,054
0.015
0,155
0. 146
0,324
0,140
0.052
0,031
PAGE
TSP
(T/D)
0.043
0,145
0,213
0.014
0.013
0,047
0,046
0.007
0.055
0.007
0.166
0.165
0.035
0.555
0,119
0,003
0,013
0.007
0.103
0.152
0.295
0.336
0.737
0,022
0,112
0.193
0.097
0.017
0. 148
0,299
0,130
0,333
0,351
0.499
0.191
0,030
0.207
0,573
0.150
0. 149
0,074
0.022
0,184
0,155
0.304
0, 150
0,065
0.048
C-24.
-------�
AREA
SOURCE EMI
X
(KM)
539.
543,
539.
543,
bay.
551.
547,'
551.
555,
555.
559,
52 /,
527,
531,
539,
547,
555,
535,
S35,
539,
547,
551.
547,
,555,
539.
SSIUNS FOR
Y
(KM)
4522.
4522,
4526,
4526,
4S22.
4522.
4526,
4526.
4522,
4526.
4526,
4530,
4534,
4530,
4530,
4530.
4530.
4538.
4542.
4538,
4538,
4538,
4542.
4538,
4546,
MORRIS
SIDE
(K)
4000,
4000.
4000,
4000.
4000.
4000,
4000,
4000,
4000,
4000.
4000,
4000,
4000,
8000.
8000,
6000,
8000,
4000,
4000,
8000,
4000,
4000,
4000,
4000,
4000,
COUNTY 2000
302
(T/D)
0,158
0.392
0.425
0.186
0,454
0.250
0.596
0,302
0,101
0,052
0,056
0,041
0,017
0,347
0,240
0,275
0,479
0,004
0,004
0.091
0.015
0,107
0.001
0.103
0.002
PAGE
TSP
(T/D)
0.231
0,552
0,548
0,260
0,636
0,361
0,699
0,459
0.149
0,084
0.084
0,049
0.016
0.475
0,335
0,382
0,662
0.006
0,006
0,125
0,025
0.146
0,001
0,151
0,002
C-243
-------�
MASTER BRIO SYSTEM FOR PASSIAC
COUNTY, XM1M,YMIN« 540. 4519.
8
8
8
8
8
8
8
8
8
8
8
44*48
4 4 « 4 8
ii a <4 a 8
a a 4 « 8
444444448
444444448
6
8
8
8
8
8
8
8
8
8
8
8
8
8
a
8
8
8
e
8
8
9
8
8
8
8
8
8
8
8
8
8
8
8
a
8
8
8
8
6
8
8
a
a
e
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
a
a
8
e
e
8
8
8
8
a
8
8
8
8
8
8
8
8
9
6
e
a
8
e
e
&
e
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
6
a
8
8
9
8
8
e
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
a
8
8
6
8
8
a
8
8
8
8
8
8
e
a
e
8
8
8
8
a
8
8
a
a
8
a
e
8
e
8
8
4
U
4
4
U
4
4
4
8
e
8
8
8
8
e
e
a
a
8
8
8
8
8
4
4
4
4
4
4
4
l>
4
4
4
4
8
8
8
6
8
8
8
8
a
8
8
8
8
8
e
4
a
a
4
4
4
4
4
4
4
i|
4
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
-------�
RCE E
X
(KM)
568S
5708
572,
S72,
573,
572,
573,
560,
560,
56«9
566,
570,
568,
5708
564e
566e
56^9
S66e
5688
569,
570S
S71 .
5689
569S
570,
571,
S688
5698
570,
571,
§68a
5699
S70,
571,
572,
572.
572a
573.
572,
5739
574B
$72,
573,
S72,
560,
556.
560,
564,
MISSIONS FOH
V
(KM)
4521,
452U
4519,
4521 .
«521,
4522,
4522,
4523,
4527e
4523»
a523.
4523.
4525,
45250
4527,
4527,
4529.
4529,
4527,
4527,
4527,
4527,
4528,
4528,
4528.
45289
4529,
4529,
452-9,
4529.
45309
4530.
4530,
4530,
4527,
«5299
4523,
45238
4524,
4524,
4524,
4525,
4525,
4526.
4531,
4535,
4535,
4531,
PASSIAC
SIDt
(M)
2000,
2000.
2000.
, 1C 0 0 ,
1 C 0 0 ,
1 0 0 <•) ,
looo.
4000,
4 C 0 0 .
4000,
2000.
2000,
2000»
2000,
2000.
2000,
2000,
2000,
1000,
1000,
1000,
1000,
1000,
1000,
1000.
1000.
1000,
1000,
1000,
10009
1000.
1000,
1000,
1000,
2000,
2000,
1000,
1000,
1000,
1000,
1000,
1000,
1000,
1000,
4000.
4000,
«000,
4000.
COUNTY 1975
S02
(T/D)
03028
09263
08162
0 Oil <
U Q U M Ji
0,050
0,100
Oe!26
0,129
0.34S
0,258
0,124
0*338
0,114
0,228
0,131
u.lOf
0,060
0,181
0,008
0*094
0.100
0,0fo4
0,131
0,121
0.125
09I09
0,095
0,170
0,176
00073
04 •"» jt
a 1 C «*
0,251
0,197
0.06«?
0,122
0,13^1
0,100
0.190
0,144
0 . 1 3'9
08179
0,109
0.083
0,039
0, 192
0,023
PAG
TSP
(T/D)
0.028
Oe£52
09i28
0 (}&?
\J ffl v •"? 6—
0.060
09Q8iJ
09 105
0,102
0.302
0,236
0,109
0S310
0,102
Off?20
Oail4
0.101
0,055
08166
0900?
0,078
0909!
0,062
Oeil8
00 113
0.126
0,108
09080
0.156
0.171
0.075
On t ©
« i I "
0,175
Oo^Oi
00063
0.111
0,130
0.100
0Bi68
0, 136
0,125
0,290
0,102
Oe079
0»056
o8i6a
0»021
0,18}
0,176
C-245
-------�
X
(KM)
564*
56S,
568,
568,
S70,
571.
570.
571.
540,
S4Q,
544.
548,
556,
564,
S48e
SS6.
QMS FOR
Y
(KM)
«535.
453S.
4531.
45339
45339
4531,
4531.
4512,
«5329
4543.
4543,
«5399
4S39e
45479
4547,
4547,
4551,
45S56
4SS59
455S,
4SS%
PASSIAC
SIDE
(M)
4000,
4000,
aooo.
aooo.
2000,
|000S
1000,,
1000*
1000.
4000*
4000,
8000.
8000,
4000,
sooo,
8000.
4000g
8000*
aooo»
4000«
4©0©8
COUNTY 1975
S02
(I/O)
0.021
0.081
0*216
0,061
0,15?
0,127
0*082
Q,0S£
0*068
0,002
0*014
0,057
0.242
0S002
090«8
0,073
0,005
0, 064
0S003
0,003
0.003
PAGE
T8P
(T/0)
0.021
0.076
0,207
0,015
0,134
0.131
0,0®0
0.0S6
0,067
0,002
0.011
0.049
0,^13
0,002
0.042
0,067
0,004
0,056
0,003
0.003
0.003
C-246
-------�
ARtA SOURCE. hMI
X
(KM)
568.
570,
572.
572.
573.
572,
573,
560,
560,
564,
568.
570,
568.
570.
564.
566,
564.
566.
568,
569,
570,
571.
568,
569.
570.
571.
568.
569.
570.
571,
568,
569.
570.
571.
572.
572,
S72,
573,
572.
573.
574,
572.
573,
572,
560.
556.
560,
564.
SSIUNS FOR
V
(KM)
4521.
4521,
4519.
4521.
4521,
4522,
4522.
4523.
4527.
4523.
4523,
4523.
4525.
4525,
4527.
4527,
4529,
4S29,
4527.
4527,
4527.
4527,
4528,
4528,
4528,
4528,
4529.
4529.
4529.
4529.
4530.
4530.
4530,
4530.
4527.
4529.
4523.
4523,
4524,
4524,
4524.
4525,
4525,
4526,
4531,
4535,
4535,
4531,
PAS3IAC
8IOP.
(M)
2000,
2000.
2000,
1000.
1000,
1000,
1000,
4000,
4000.
4000,
2000,
2000,
2000,
2000.
2000,
2000,
2000.
2000.
1000.
1000.
1000,
1000,
1000.
1000,
1000,
1000,
1000,
1000.
1000,
1000,
1000.
1000,
1000,
1000.
2000,
2000,
1000,
1000.
1000,
1000,
1000.
1000.
1000,
1000,
4000,
4000,
4000,
4000,
COUNTY 1980
S02
(T/D)
0,027
0.269
0.177
0.044
0,062
0.103
0.130
0,133
0.358
0.264
0,126
0,345
0,112
0,230
0.135
0.107
0,059
0,181
0,008
0,096
0,102
0,065
0.134
0.124
0.121
0.104
0,098
0.173
0.175
0,066
0,127
0,254
0,199
0,059
0,125
0.129
0.102
0,194
0.149
0.143
0.183
0,112
0,085
0,040
0,190
0.022
0,095
0,178
PAGE
TSP
(T/D)
0.034
0.285
0.157
0.051
0,074
0,106
0,139
0,124
0.352
0.284
0,130
0.364
0,116
0,258
0.142
0,120
0.061
0,196
0,009
0.092
0.106
O.U72
0,138
0,132
0,146
0,125
0.095
0.192
0,206
0,087
0,143
0.214
0,240
0.075
0,127
0,156
0,119
0,209
0,167
0,154
0,327
0,123
0.093
0.042
0.210
0,025
0.102
0,218
C-247
-------�
AREA SOUKCt £MJ
X
(KM)
564,
568,
568,
568.
570,
570,
571,
570,
571.
540,
544.
548,
556,
544,
548.
556,
564,
548.
556,
$60 ,
556,
SSJONS FOH
Y
(KM)
4535,
4535,
4531.
4533,
4533.
4531,
4531.
4532,
4532,
4543,
4543.
4539,
4539,
4547,
4547.
4547.
4551.
4555,
4555.
9Sf §,
45S9,
PASSIAC
SIDE
(M)
4000,
4000.
2000,
2000.
2000,
1000,
1000.
1000.
1000.
4000,
4000.
8000,
8000,
4000.
8000.
8000,
4000.
8000,
4000*
4000,
4000,
COUNTY i960
SU2
(T/D)
0.021
0,079
0,220
0,060
0.152
0,128
0,081
0.052
0,069
0,002
0,012
0,057
0,254
0,002
0,0«8
0,073
0,006
0,064
0,003
0,004
0.001
PAGE
TSP
(T/DJ
0,023
0.08S
0,242
0.065
0.150
0,14$
0.092
0,057
0,075
0.002
o.on
0.07J
0,291
0.002
0,055
0,089
0.005
0,069
0,003
0,005
0,004
C-248
-------�
JRCE EM
X
(KM)
568.
570.
572.
572.
573.
572.
573.
SbO.
560.
564,
5c>b,
5/0,
568,
570.
564.
5b6,
564.
566.
568,
569,
570,
571,
568,
569.
570.
S71,
568.
569,
570,
571.
568.
569,
570,
571.
572,
572.
572.
573,
572.
573,
574.
572.
573.
572.
560.
556,
560.
564.
ISS1QNS FOR
Y
(KM)
4521.
4521.
4519.
4521,
4521,
4522,
4522,
4523,
4527.
4523,
4523.
4523,
4525,
4525,
4527,
4527,
4529.
4529.
4527.
4527,
4527,
4527,
4528,
4528,
4528.
4528,
4529.
4529,
4529.
4529,
4530,
4530.
4530.
4530.
4527,
4529.
4523,
4523,
4524.
4524,
4524.
4525,
4525.
4526.
4531,
4535.
4535.
4531.
PASSIAC
SIDE
(M)
*000,
2000.
2000.
1 0 0 0 .
1000,
1000,
1000,
4000,
4000,
4000,
2000.
2000,
2000,
2000.
2000,
2000.
2000,
2000.
1000.
1000,
1000,
1000,
1000,
1000,
1000.
1000,
1000,
1000.
1000.
1000,
1000.
1000.
1000,
1000,
2000.
2000.
1000,
1000.
1000,
1000,
1000,
1000,
1000,
1000,
4000,
4000,
4000.
4000.
COUNTY 1985
S02
(T/D)
0.029
0,271
0.189
0.044
0,063
0,103
0,129
0,137
0,378
0,277
0,128
0,349
0,118
0,236
0.145
0.113
0.064
0.186
0,009
0.097
0,102
0,065
0,135
0,124
0,124
0,108
0,097
0,172
0,177
0,072
0,126
0,252
0.198
0.062
0,125
0,135
0,102
0,192
0,148
0,142
0.182
0,112
0.085
0,041
0.2P1
0.0e!4
o.uo
0.196
PAGE
TSP
(T/D)
0,032
0.276
0.152
0,046
0.068
0,093
0.117
0,123
0.376
0,264
0,124
0,348
0.117
0.245
0.149
0,117
0,069
0,186
0.009
0,087
0.099
0,067
0.132
0,126
0,137
0,117
0,089
0.168
0.184
0,062
0.129
g.187
0\216
0.068
0.121
0,142
0,109
0,182
0,149
0,136
0,304
0,112
0,087
0.040
0,22*
0,026
0,114
0,215
C-249
-------�
AREA SOURCE EMI
X
(KM)
564.
568,
568,
568.
570.
570,
571.
570,
57 1 .
540.
544.
546,
556,
544.
548,
556,
564.
548.
556,
560.
556,
SSIONS FOR
Y
(KM)
4535.
4535,
4531.
4533,
4533.
4531.
4531.
4532.
4532,
4543.
4543.
4539,
4539.
4547.
4547.
4547,
4551,
4555,
4555.
455$.
«559,
PA8SIAC
SIDE
(M)
4000.
4000.
2000.
2000.
2000.
1000,
1000,
1000.
1000,
4000.
4000,
8000,
8000,
4000*
8000,
8000,
4000.
eooo,
4000.
4000,
40®0.
COUNTY 1985
802
(T/0)
0.021
0.087
0.224
0.068
0.161
0.128
0.082
0,053
0.069
0,006
0.016
0,071
0,310
0.002
0,053
0.084
0.007
0,067
0.003
0.006
0,003
PACE
T8P
(T/D)
0,024
0,086
0.234
0,072
0.154
0.142
0.007
0,056
0,073
0,005
0.015
0.06}
0.342
0,002
0,056
0.091
0,006
0,068
0.003
0,009
0,004
C-250
-------�
AREA SOURCE EM
X
(KM)
568,
570.
572.
5/2,
573.
572.
573.
560.
560.
564,
568.
570.
566,
570,
564.
566,
564,
566,
568,
569.
570.
571.
568.
569.
570.
571.
568,
569.
570.
571,
568,
569.
570.
571,
572.
572,
572.
573,
572.
573.
574.
572.
573.
572.
560,
556,
560.
564,
ISS10NS FO
Y
(KM)
4521,
4521 ,
4519,
4521.
4521.
4522.
4522.
4523,
4527,
4523,
4523,
4523,
4525,
4525,
4527.
4527.
4529,
4529,
4527,
4527.
4527,
4527,
4528.
4528,
4528,
4528.
4529.
4529.
4529.
4529.
4530.
4530,
4530,
4530,
4527,
4529,
4523,
4523,
4524,
4524,
4524,
4525.
4525.
4526,
4531,
4535.
4535,
4531.
•f PASS'AC
siot
t M)
2000.
20uO,
2000.
1000.
1 0 0 0 .
1000.
1 0 U 0 ,
4000,
4 0 0 0 .
4000.
2000.
2000.
2000,
2000.
aooo,
2000,
2000,
2000,
1000,
tooo,
1000,
1000,
1000,
1000,
1000,
1000,
1000,
1000.
1000,
1000,
1000.
1000.
1000,
1000,
2000,
2000,
1000,
1000,
1000,
1000,
1000,
1000,
1000,
1000,
4000,
4000.
4000,
4000,
COUNTY 2000
S02
(T/D)
0.031
0.284
0,231
0.046
0,068
0,106
0,132
0.143
0.43S
0.310
0.136
0,366
0.126
0.251
0,166
0.123
0.083
0.198
0,010
0.100
0,106
0.068
0.139
0,128
0,133
0.116
0,100
0.176
0.185
0,080
0.131
0,257
0,206
0,066
0,126
0,145
0,107
0.196
0,154
0.145
0, 186
0,116
0,087
0,043
0,271
0,028
0.139
0.224
PAGt
TSP
(T/D)
0,033
0,288
0.176
0,048
0.072
0.094
0,117
0,130
0.429
0,311
0,127
0.361
0.126
0.259
0.166
0,124
0,087
0,195
0,011
0,089
0,101
0.069
0,134
0.189
0.144
0.124
0,090
0,169
0,168
0,089
0.130
o.iee
0,219
0.071
0.123
0.148
0.112
0.182
0,152
0.136
0,305
0,114
0,088
0,041
0,275
0.029
0.144
0,236
C-251
-------�
SOURCE EMISSIONS FOR PASSIAC COUNTY 2000 PAGE
* Y SIDE $02 ISP
(KM) (KM) CM) (T/03 CT/D)
564, 4§35e «0009 0,025 0,026
566. ^535, 11000* 0,096 0SG«I6
566, 4§318 2000, 0,237 0.242
5689 4533, 20008 0,081 0,086
570, 4535, 2000, 0,17a 0,165
570S a53ie IOOO. 0,13^ 0,145
S7i, aSJl. fOOO* 09085 0,089
570, 4532, 1000. Oa056 0,05$
S7I8 «532f I000e 09072 08074
sao9 «543, aooo* o.ooe o.oos
saa. «I5«J9 aooo, oeon 0,017
548e <»5J9, 8000, 0,091 08099
,
0,069 Q9Q78
556. a547, 8000. 0,099 08I06
56^, ^1551, «000e 0,008 09007
548, aS559 8000, 09076 0,074
556. iisss, aooos o.oos osooa
S60,
C-252
-------�
MASTER 6RID SYSTEM FOR SOMERSET COUNTY, XMIN,YMIN= 517. 4468,
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
a
a
e
e
8
8
a
8
8
e
e
8
8
8
8
e
8
8
8
8
a
8
a
8
8
8
e
8
e
e
e
8
8
8
e
8
8
8
8
a
8
8
a
a
a
e
8
8
8
a
e
8
8
8
8
8
8
6
8
8
8
8
8
8
8
8
a
8
8
8
8
8
8
8
8
8
8
a
8
8
8
8
8
8
8
8
8
8
8
a
8
8
a
8
8
8
8
a
a
8
8
8
8
e
8
8
8
8
a
8
8
a
8
8
8
8
8
i
8
8
8
8
8
a
a
8
8
8
8
8
8
8
8
6
8
8
8
8
4
4
4
8
8
8
a
8
8
a
a
a
8
8
a
e
8
e
8
8
8
8
a
8
a
a
e
8
8
8
8
8
8
8
8
8
8
4
4
4
4
8
g
8
a
6
a
8
e
e
a
e
8
8
8
8
8
8
8
8
a
a
a
8
a
a
a
8
8
e
8
a
8
a
6
8
4
4
4
4
8
8
a
a
a
a
a
a
a
a
8
e
8
a
a
8
8
e
a
a
8
e
a
e
a
8
8
8
8
6
8
8
8
8
4
4
4
4
a
e
a
e
8
8
8
a
e
e
a
8
8
8
a
8
8
8
8
8
8
a
8
8
8
8
8
8
a
8
e
a
a
a
4
4
q
4
8
a
8
8
8
8
8
a
8
6
8
8
8
2
2
2
2
4
4
4
4
8
8
8
a
e
8
8
8
a
8
8
8
8
4
4
4
4
8
8
8
8
a
e
e
8
8
8
8
6
8
2
2
2
2
4
4
4
4
8
a
a
8
8
6
8
8
8
8
8
8
8
4
4
4
8
a
a
a
a
8
8
8
8
8
8
8
8
2
2
2
4
4
4
4
8
a
8
a
8
8
8
8
8
a
8
8
8
4
4
4
4
8
8
8
8
8
8
8
a
e
a
8
8
e
2
2
2
2
4
4
4
4
8
8
8
8
8
8
8
8
a
a
8
8
a
4
4
4
4
8
8
8
8
a
8
a
a
a
8
8
a
2
2
i
2
4
4
4
4
8
8
a
8
a
8
8
8
a
a
8
8
8
4
4
4
4
8
8
8
8
8
8
8
8
a
a
a
8
6
2
2
2
2
4
4
4
4
e
8
8
e
e
e
8
e
e
a
a
8
8
4
4
4
4
6
6
a
e
e
e
8
8
8
a
8
8
8
2
2
2
2
4
4
4
4
a
e
e
e
8
8
8
8
a
6
8
a
a
4
4
4
4
8
8
8
8
6
e
e
8
8
8
8
a
a
2
2
2
2
4
4
4
8
8
8
8
8
8
8
8
8
8
8
8
8
4
4
4
4
4
4
4
4
4
4
8
8
8
a
a
e
8
2
2
2
2
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
8
8
8
8
8
8
8
2
2
2
2
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
8
a
8
a
8
8
a
2
2
2
2
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
8
8
8
8
8
6
8
2
2
2
2
4
4
4
4
4
4
4
4
4
4
4
4
4
8
8
a
8
8
a
a
4
4
4
14
4
4
4
4
4
4
4
u
4
4
a
a
e
e
8
8
8
4
4
4
4
4
4
4
4
4
4
4
4
4
4
8
a
8
8
8
8
8
4
4
4
4
4
4
4
4
4
4
4
4
4
4
8
8
8
8
8
8
8
4
4
4
4
4
4
4
4
4
4
4
44444444
44441444
44444444
22224444
22224444
22224444
22224444
4444
4444
4444
23
C
2 2
8888888888888888
C-253
-------�
AREA SOURCE £MI
X
(KM)
517.
521,
•$29.
517,
517.
521,
529.
537.
$41.
537,
541,
54*>.
517.
521.
529.
533.
529.
531.
513.
535.
529,
531.
533,
53S,
537.
541.
537.
539.
537.
539,
521,
529.
537,
545,
549,
545,
547.
545,
547,
521.
529.
537.
541.
537.
545,
549.
525,
529.
SSIONS FOR
Y
(KM)
4472,
4468,
4468,
4476,
4480.
4476,
4476,
4476,
4476,
4480.
4480,
4482.
4484.
4484*
4484,
4484.
4488,
4488,
4483,
4488.
4490,
4490.
4490,
4490,
4484.
44848
4488,
4488,
4490*
4490,
4492,
4492,
4492,
4492*
4496,
4496,
4496,
4498,
4498,
4500,
4500,
4500.
4500,
4504,
45QQ*
4500.
4S08,
4S08a
SOMERSET
SIDE
(M)
4000,
8000,
8000,
4000,
4000,
8000.
8000,
4000,
4000,
4000,
4000.
2000.
4000*
8000,
4000,
4000.
2000.
2000,
2000,
2000.
2000.
2000.
2000.
2000,
4000.
4000,
2000,
2000,
2000,
2000.
8000,
8000,
8000,
4000,
4000,
2000,
2000,
2000,
2000t
8000,
8000,
4000,
4000,
4000,
4000,
4000,
4000,
4000,
COUNTY 1975
SQ2
(I/O)
0,001
0.162
0.169
0.001
0.0
0,090
0,109
0.033
0.012
0.047
0,388
0,152
09005
0,246
0.158
0,255
0,012
0,112
0*181
0,247
0.301
0,353
0,284
0.377
0,086
0,191
0,230
0.156
0.153
0.107
0,235
0,695
0,743
0.055
0.080
0,201
0,434
0.062
0,139
0,297
O.S92
0.063
0,060
0.100
0,102
0.068
0,029
0.020
PAGE 1
T3P
(T/J»
0.001
0.109
o.i20
0.001
0,004
0,063
0.093
0.02S
0,00©
0,035
0,298
0,105
0.003
0.200
0.123
0.207
0.011
0B079
0,376
0.220
0.213
0.249
0.226
0.264
0.079
0.147
0.208
0.148
0.275
0.078
0.17«
0.518
0,527
0,047
0,056
0.140
0,305
0,047
0,106
0.198
0.419
0.049
0.644
0.074
0.079
0.046
0.018
0.014
C-254
-------�
AREA SOURCE EMISSIONS FOR SOMERSET COUNTY 1975 PAGE
X Y SIDE SOS TSP
(KM) (KM) (M) (T/0) (T/D)
533. 4508. 4000, 0.146 0.098
537. asoe. 4ooo. o.oi? 0.012
C-255
-------�
AREA SOURCE EMI
X
(KM)
517.
521,
529.
517,
517.
S21,
529.
537.
541,
537.
541,
545,
517.
521.
529,
533,
529.
531.
533,
535.
529.
531.
533.
535,
537,
541.
537.
539.
537.
539.
521.
529.
537,
545.
549,
545,
5«7.
545,
547,
521.
529.
537.
««U
S37.
S4S9
5«9,
525,
529.
S8ION8 FOR
Y
(KM)
4472,
4468,
4468,
4476,
4480,
4476,
4476,
4476.
44769
4480,
4480.
4482,
4484,
4484,
44}84e
4484.
4488.
448@.
4488,
4488,
44909
4490,
4490,
4490,
4484,
4464,
4486,
4488,
4490.
4490,
4492,
4492,
4492,
4492,
4496,
4496,
4496,
4498,
4498,
4500,
4500.
4SOO,
4500.
4S04,
450Q9
4500,
4508,
4S08.
SOMERSET
SIDE
(M)
4000.
8000,
8000,
4000,
4000,
8000,
6000,
4000a
4000,
4000B
4000.
2000.
4000,
8000.
4000,
4000,
2000,
2000,
2000,
2000.
2000.
2000.
2000,
2000,
4000.
4000,
2000,
2000,
2000,
2000,
8000,
8000,
8000,
4000,
4000,
2000,
2000,
2000,
2000,
8000,
8000.
4000,
4000*
4000,
4(000,
4000.
4000.
4000,
COUNTY I960
S02
(T/0)
0.001
0,163
0,193
0.002
0.0
0,122
0.139
0.040
0,012
0,055
0,403
0.150
0.005
0.-304
0.166
0,273
0,012
0.114
0,186
0,245
0.303
0,355
0.290
0,364
0.110
0.20S
0,224
0,159
0,155
0,107
0.255
0.742
0,758
0,053
0,075
0.203
0,406
0,059
0.137
0829i
0.593
0,066
0,073
0.101
0,097
0.064
0.027
0.016
PAGE
TSP
(T/D)
0.001
0,137
0,161
0.001
0.005
0,132
0,143
0,037
0,010
0,047
0,359
0,115
0.003
0,285
0,154
0,251
0,011
0,088
0.401
0.252
0.237
0,283
0.261
0,261
0.122
0.181
0.237
0,178
0,296
0.089
0,289
0,626
0,598
0.058
0.059
0.177
0.330
0,053
0,123
0,210
0.466
0,058
0.064
O.OBS
0,085
0,049
0.018
0.015
C-256
-------�
AREA SOURCE EMISSIONS FUR SOMERSET COUNTY i960 PAGE
X Y SIDE SO? T8P
(KM) CKM) (M) (T/D) (T/D)
533, «S08, 4000, 0.146 0.107
337. «508. 4000, 0,021 0,016
C-257
-------�
AREA SOURCE
X
(KM)
517,
521.
529.
517,
517.
521,
529,
537,
541.
537.
541,
545,
517*
521.
529.
533.
529.
531,
533.
535.
529.
531.
533.
535.
537.
S4J.
537.
539.
537.
539.
521.
529.
sir.
545.
549.
545.
547.
545.
547.
521.
529.
537,
541.
537.
545.
549,
525,
529.
EMISSIONS FOR
Y
(KM)
4472,
4468,
4466.
4476,
4480.
4476,
4476,
4476,
4476,
4480.
4480.
4482,
4464.
4484,
4484,
4484,
4488,
4488,
4488,
4488,
4490,
4490,
4490,
4490,
4484.
4484,
4488,
4488,
4490,
4490,
4492,
4492,
4492,
4492,
4496,
4496,
4496,
4498,
4498,
4500,
4500,
4500,
4500,
4504,
4500,
4500,
4503,
4506.
SOMERSET
SIDE
(M)
4000,
8000,
eooot
4000.
4000.
8000,
8000.
4000,
4000,
4000,
4000,
2000,
4000,
8000.
4000.
4000,
2000,
2000.
2000,
2000,
2000,
2000,
2000,
2000,
4000.
4000.
2000,
2000,
2000,
2000,
8000.
8000,
8000,
4000,
4000.
2000,
2000.
2000.
2000,
8000,
8000,
4000,
4000,
4000,
4000.
4000,
4000.
4000.
COUNTY 1985
802
(T/0)
0.001
0.241
0.235
0.002
0,001
0,175
0.231
0,061
0,018
0*075
0,426
0,152
0,005
0,384
,0.213
0.329
0,013
0,122
0,200
0.250
0.306
0,360
0,291
0,366
0,160
0.245
0,231
0,168
0,161
0,109
0.316
Oe831
0.810
0.054
0.075
0,217
0.412
0.062
0.146
0,295
0,622
0,068
0.092
0,106
0.099
0,065
0,027
0.018
PASE
T8P
(T/D)
0.001
0,185
0.197
0,001
0.006
0.161
0.232
0,051
0.013
0.069
0.368
0,113
0.005
0,364
0.198
0.300
0,012
0.092
0.410
0.257
0.235
0,275
0,253
0.280
0.189
0.214
0.241
0.163
0.29T
0,086
0,28|
0.69f
O.fe41
0.05J
0.056
0,175
0.31$
0,055
0,121
0,211
0,487
0.059
0.063
0.065
0.005
0,050
6,016
0,014
C-258
-------�
AREA SQUKCfc EMISSIONS FOR SOMERSET COUNTY 1985 PAGt
X V SIDE SOH TSP
(KM) (KM) (M) U/D) (T/D)
S33, 4508, 4000, Oei«6 0,106
537, aS08, 4000, 0.025 0.023
C-259
-------�
AREA SOURCE EMI
X
(KM)
517.
521.
529,
517.
317.
521,
529,
537,
541.
537.
541,
545,
517.
521,
529,
533,
529.
531.
533,
535.
529.
531.
533,
535,
S37.
541,
537,
539,
537.
539,
521.
589.
537,
54S.
549,
545.
5«7,
545.
547,
521.
529,
537,
541.
537,
545,
549.
525,
529,
SSIONS FOR
Y
(KM)
4472,
4463,
4468,
4476,
4480,
4476,
4476,
4476,
4476,
4480,
4480,
4482,
4484,
4484.
4484,
4464,
4488,
4488,
4488*
4488.
4490,
4490.
4490.
4490,
4484.
4464.
4488,
4488,
4490,
4490,
4492,
4492,
4492,
4492,
4496,
4496,
4496,
4498,
4498,
4500.
4500,
4500,
4500.
4504,
4500,
4500,
4508.
450®,
SOMERSET
SIDE
(M)
4000,
6000*
8000.
4000,
4000,
8000,
8000,
4000,
4000»
4000.
4000,
2000,
4000*
8000,
4000,
4000.
2000,
2000.
2000,
2000,
2000,
2000,
2000,
2000,
4000,
4000,
2000,
2000,
2000.
20009
8000,
8000,
80009
4000,
4000,
2000.
2000,
2000,
2000,
8000,,
8000,
4000,
4000.
400©.
4000.
4000,
4600,
4000,
COUNTY 200©
SOg
(T/0)
©,001
0,390
0.307
0,002
0.006
0,256
0.431
0,083
0,019
0,119
0.472
0,160
0,006
0,5©9
0,301
0,464
0,016
0,138
0,225
0,249
0,308
0.357
0.286
0.361
0.254
0.344
0.233
0,180
09i73
0,109
0,438
0.965
0,879
0,055
0,077
0,245
0,434
0.068
0.171
0,295
0,685
0.074
0,124
0,118
0.103
0,069
0.026
0,01®
PA6E
TSP
(T/D)
0,001
0.281
0,253
0,001
0,006
0,240
0,385
0,070
0.016
0.098
0.378
0,109
0,004
0,44$
0,263
0.374
0.012
0,097
0.411
0.234
0.216
0,251
0.227
0.257
0.252
0,265
0.221
0.176
0.289
0,079
0.366
0,766
0,649
0.046
0,054
0,177
0,303
0.051
0.127
0.199
0.49S
0,057
0.102
0.087
0,078
0.049
0*016
0,011
0260
-------�
AREA SOURCE EMISSIONS f-OR SOMERSET COUNTY 2000 PAGE
X Y SIDE S02 TSP
(KM) (KM) (M) (T/0) (T/D)
S33. 4508, 4000, O.U5 0,099
537. «508, «000, 0,036 0,028
C-261
-------�
MASTER GRID SYSTEM FOR UNION COUNTY, XMIN,YMINs S4J. 449S.
n
i
cr>
N3
4
4
4
4
4
444
444
444
444
444
4
4
4
4
a
a
2
2
a
4
4
4
4
a
a
2
a
2
4
4
4
4
2
2
a
a
2
2
2
2
a
4
4
4
4
2
2
a
a
a
a
a
a
a
4
4
4
4
2
a
a
a
4
4
4
4
4
4
4
4
4
4
4
a
4
2
2
2
2
4
4
4
4
4
4
4
4
4
4
a
a
4
2
2
2
2
4
4
4
4
4
4
4
4
4
4
4
a
4
2
2
2
2
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
2
2
2
2
4
4
4
4
4
4
4
4
4
2
a
a
a
4
4
4
4
4
4
4
4
4
a
2
2
a
4
4
4
4
4
4
4
4
4
a
2
2
2
4
a
2
2
2
2
2
I
2
a
2
2
a
2
2
a
a
a
a
a
a
a
a
a
£
a
a
2
2
a
2
2
a
a
a
a
a
a
a
2
a
a
a
a
a
a
2
2
2
2
a
a
2
1
i
2
2
2
2
2
2
a
2
4
I
i
a
a
a
a
a
a
a
a
4
i
i
i
i
i
i
i
i
2
a
4
i
1
I
i
J
i
i
2
2
4
J
1
1
i
i
i
2
2
4
i
i
i
i
i
i
a
a
4
2
2
2
a
a
a
4
a
2
2
a
i
a
4
a
i
a
g
2
a
a
a
4444 44444444222244444444
-------�
AREA .SOURCE EMI
X
(KM)
543.
5*47.
549.
551.
555.
563,
559.
56U
559.
561.
567,
543.
5«9,
549.
547.
549.
547.
549,
551.
551.
555.
555.
557.
555.
557.
559.
561.
563.
565.
559.
561,
563.
559,
561.
563.
559.
561,
563.
565.
566.
565,
566.
565,
566,
565,
566,
565.
566.
88IQNS FOR
Y
(KM)
4493.
4495,
4495.
4493,
4493.
4493,
4493.
4493,
4495.
4495.
4493,
4501.
4497,
4499.
4501,
4501,
4503.
4503,
4497,
4501.
4501.
4497,
4497.
4499,
4499,
4497,
4497.
4497,
4497,
4499.
4499.
4499,
4501.
4501,
4501,
4503.
4503.
4503.
4499,
4499,
4500,
4500.
4501.
4501,
4502,
4502,
4503,
4503.
UNION
SIDE
(M)
4000,
2000.
2000.
4000.
4000,
4000,
2000,
2000,
2000,
2000,
4000.
4000.
2000,
2000,
2000,
2000,
2000,
£000.
4000.
40QO.
4000,
2000.
2000.
2000.
2000,
2000,
2000,
2000.
2000.
2000.
2000.
2000,
2000,
2000,
2000.
2000.
2000.
2000,
1000.
1000,
1000,
1000,
1000,
1000.
1000.
1000.
1000.
1000,
COUNTY 1975
S02
(T/D)
0.103
0,180
0,132
0.047
0.085
0.346
0,086
0,033
0.167
0,268
0,131
0,039
0.127
0.049
0.015
0,031
0,061
0.081
0.316
09164
0,346
0,074
0.126
0,116
0,145
0,130
0,190
0.116
0.136
0,141
0.175
0,210
0.144
0.183
0.227
0.13S
0,135
0,138
0.065
0.056
0,065
0.097
0,126
0.077
Q908*
0.035
0,037
0.060
PAGE
TSP
(T/D)
0,090
0,159
0,114
0.037
0,072
0.332
0,076
0,032
0.146
0.267
0.011
0.032
0,104
0.041
0.012
0.024
0.052
0,075
0.249
o.tss
0.319
o.ose
0.119
0,097
0.119
0,105
0,157
0.103
0,103
0,121
0.144
0.183
0,122
0,155
0.192
0.1S3
0.11$!
0.131
0.059
0.05S
0,081
0.085
0.11*
o.oto
0,077
0.074
0.035
0.076
1
C-263
-------�
AREA SOURCE EMISSIONS FOR
X
(KM)
565.
566,
567,
569,
569.
571.
569,
571.
567.
566.
567.
568.
567.
568.
567.
568.
567.
568,
567.
568.
547.
555.
551.
551.
553.
351.
553,
559,
561.
559.
S61,
563.
564.
565,
566.
563.
564.
565.
Y
(KM)
4504,
4504.
4497.
4499,
4501.
4501.
4503.
4503.
4499.
4499,
4500,
4500.
4501.
4501,
4502.
4502.
4503.
4503.
4504,
4504,
4505,
4505.
4509.
4505,
4505*
4507,
4507,
«505,
4505,
4507,
4507.
4505.
4505,
4505,
450S,
4506,
4506.
4$0&*
UNION
SIDE
(M)
1000.
1000,
aooo.
2000.
2000.
2000,
2000,
2000,
ioooe
1000,
1000,
1000,
1000,
1000.
1000,
1000,
1000,
1000.
1000.
1000,
4000,
4000,
4000,
2000.
2000,
2000,
2000,
2000,
2000,
2000,
2000,
1000.
1000,
1000,
1000,
1000,
1000,
1000,
COUNTY 1975 PA6E
802
(T/D)
0,053
0,086
0,159
0,036
0.051
0.111
0.199
0.107
0,052
0,065
0,083
0,071
0,071
0,056
0,086
0,025
0.040
0,016
0,073
0,061
0,103
0.341
0,042
0.065
0,061
0.096
0,120
0,157
0,189
0,064
0,110
0.066
0,066
0.063
0.074
0,060
0,086
0.112
T8P
(T/D)
0,046
0.082
0.029
0,034
0,052
0,064
0.164
0,072
0,045
0.057
0.071
0.064
0,072
0.057
0.086-
0,026
0,040
0.040
0.075
0.046
0.084
0.297
0.039
0.053
0.053
0.084
0.10S
0.138
0,167
0,054
0,093
0,059
0.059
0,054,
0.065
0,053
0.074
0.094
C-264
-------�
AREA SOURCE EMISSIONS FOR
X
(KM)
543.
547.
549,
551.
555.
563.
559,
561,
559,
561.
567.
543.
549.
949.
547.
549,
547.
549,
551.
551.
555.
555.
557.
555.
557.
559.
561.
563.
r>65.
559.
561,
S63.
559.
561.
563,
559.
561.
563.
565,
566.
565.
566.
565.
566.
565.
566.
565.
566.
Y
(KM)
4493,
4495,
4495,
4493,
4493,
4493.
4493.
4493.
4495,
4495,
4493,
4501,
4497.
4499,
4501,
4501,
4503,
4503,
4497.
4501.
4501,
4497,
4497,
4499,
4499,
4497,
4497,
4497,
4497.
4499,
4499,
4499,
4501,
4S01,
4501.
4503.
4503.
4503,
4499,
4499,
4500,
4600.
4501.
4501,
4502,
4502.
4503.
4503.
UNION
SIDE
(M)
4000,
2000.
2000,
4000,
4000,
4000,
2000,
2000,
2000.
2000,
4000.
4000,
2000,
2000,
2000.
2000.
2000,
2000,
4000,
4000,
4000.
2000.
2000.
2000,
2000,
2000.
2000.
2000.
2000,
2000,
2000.
2000.
2000.
2000,
2000.
2000.
2000,
2000,
1000,
1000.
1000.
1000,
1000.
1000.
1000.
1000,
1000.
1000,
COUNTY I960 PAGE
302
(T/D)
0.111
0.187
0,140
0.049
0,089
0,356
0.091
0,034
0,175
0,276
0,163
0,042
0,134
0,053
0,016
0.033
0,066
0,084
0,336
0.176
0,359
0,077
0,133
0,123
0,154
0,136
0.198
0,120
0.137
0,148
0,183
0,220
0,152
0.195
0,238
0,140
0.140
0,143
0,064
0,057
0.083
0,094
0,125
0,075
0,085
0,Gd2
0,036
0.079
T8P
(T/D)
0.114
0,191
0.137
0.045
0.085
0,376
0,086
0.037
0.166
0,298
0,017
0.037
0.122
0.047
0.014
0,03i
0,060
0.086
0.261
0,149
0,361
0,066
0,138
0,110
0,135
0.118
0.179
0.123
0.128
0.141
0.170
0,220
0,147
0.188
0.245
0.137
0.127
0.148
0.069
0.062
0.108
0.100
0.156
0,092
0.105
0.104
0.043
0.105
C-265
-------�
AREA SOURCE EMI
X
(KM)
565,
S66.
567.
569,
569.
571.
569,
571.
567,
568.
567.
568.
567,
568.
567,
568,
567.
568,
567,
568,
547.
555.
551.
551.
553,
551,
553.
559,
561,
559,
561.
563,
564,
565,
566.
564.
564,
565,
SSIONS FOR
Y
(KM)
4504,
4504,
4497,
4499,
4501.
4501.
4503.
4503.
4499,
4499.
4500,
4500,
4501.
4501,
4502.
4502.
4503.
4503.
4504.
4504.
4505.
4505,
4509,
4505.
4505.
4507.
4507,
4505,
4505.
4507,
4507,
4505,
4505,
4505,
4505.
4506,
4506.
4S06,
UNIUN
SIDE
(M)
1000,
1000,
2000,
2000,
aooo.
2000.
2000,
2000,
1000,
1000.
1000.
1000,
1000,
1000,
1000,
1000.
1000.
1000,
1000,
1000,
4000.
4000.
4000,
2000,
2000,
2000,
2000.
2000,
2000.
2000,
2000,
1000.
1000,
tooo.
1000,
1000,
iOQO.
1000,
COUNTY 1980
802
(T/D)
0.053
0,064
0.193
0.037
0,052
0,123
0.209
0.118
0.051
0,064
0,081
0.071
0.070
Oi057
0,086
0.025
0,040
0,016
0.072
0,065
0,109
0.356
0.044
0,067
0,064
0,103
0.12S
0,166
0.198
0,067
0.115
0,069
0,068
0,065
0.076
0,063
0,069
o,u«
PASE
TSP
(T/D)
0,052
0.107
0,035
0.042
0.060
0.074
0.161
0.080
0,056
0,074
0.085
0.079
0,088
0,068
0.108
0,032
0.055
0.04J
0.101
0.046
0,098
0,337
0.044
0.063
0.061
0.101
0.124
0.157
0,191
0,061
0,109
0.067
0,066
0,06«
0,061
0.062
0.089
0.118
C-266
-------�
AREA SOURCE.
X
(KM)
543.
547.
549,
SSI,
555.
563,
559,
561.
559.
S61.
567.
543.
549.
549.
547,
549.
547.
549.
551.
551.
555.
S55,
557.
555,
557.
559,
561.
563.
565.
559.
561.
S63,
559.
561,
563.
559,
561.
563.
565,
566.
565.
566.
56S.
566,
565.
566.
565.
566.
EMISSIONS FOR
Y
(KM)
4493,
4495,
4495,
4493.
449J,
4493,
4493,
4493,
4495.
4495,
4493,
4501,
4497.
4499,
4501.
4501,
4503.
4503.
4497,
4501.
4501.
4497.
4497,
4499.
4499.
4497,
4497.
4497,
4497,
4499,
4499,
4499,
4501,
4501,
4501.
4503,
4503,
4503.
4499,
4499.
4500,
4500,
4501.
4501,
4502.
4502,
4503,
4503,
UNION
SIDE
(M)
4000.
2000.
2000.
4000,
4000,
4000.
2000,
2000.
2000,
2000.
4000,
4000,
2000.
2000,
2000,
2000.
2000.
2000.
4000,
4000.
4000,
2000,
2000.
2000.
2000.
2000.
2000.
2000,
2000.
2000,
2000,
2000.
2000,
2000,
2000,
2000,
2000.
2000,
1000.
1000,
1000.
1000.
1000.
1000.
1000.
1000,
1000.
1000,
COUNTY 1985
$02
(T/D)
0,106
0.177
0,130
0,048
0.087
0.370
0,087
0,034
0,167
0,270
0.187
0,040
0.12S
0,051
0,017
0,037
0,067
0,087
0.320
0.168
0,346
0,074
0,129
0,117
0,148
0,130
0.187
0,119
0.146
0,144
0.174
0,208
0,150
0.187
0,224
0.138
0.136
0.139
0,064
0.058
0.085
0.097
0.126
0.077
0.085
O.C83
0.037
0.079
PAGE
ISP
(T/D)
0.100
0.169
0,120
0.042
0.080
0.386
0,082
0,037
0,155
0,291
0,020
0,037
0.110
0.045
0.015
0.034
0.063
0.091
0.272
0.147
0.353
0.064
0,133
0.107
0.131
0.112
0.165
0,120
0.129
0.134
0,153
0.194
0.141
0,166
0,203
0,137
0,125
0,140
0,063
0,057
0,088
0,091
0.125
0.076
0,082
0,077
0.037
0,081
C-267
-------�
AREA SOURCE EMISSIONS FOR
X
(KM)
56Si
566,
567.
569.
S69.
571.
569.
571.
567,
568.
567.
568.
567,
566.
567.
568,
567.
568,
567,
568.
547,
555.
551.
551.
553.
551.
553.
359.
561.
559.
5M,
S63,
564.
565,
566,
563,
364.
565,
Y
(KM)
4504.
4504.
4497.
4499.
4501.
4501.
4S03.
4503.
4499.
4499,
4500.
4500.
4501.
4501,
4502,
4502.
4503,
4503.
4504.
4504.
4505.
4505.
4509,
4505,
4505,
4507.
4507,
4505,
4505.
4507.
4507.
4505,
«505.
4505,
4505,
4506,
4506.
«506,
UNION
SIDE
(M)
1000,
1000,
2000,
2000,
2000,
2000,
2000.
2000.
1000.
1000.
1000.
1000.
1000.
1000.
1000.
1000,
1000,
1000,
1000.
1000,
4000,
4000,
4000,
2000,
2000.
2000,
2000,
2000.
2000,
2000,
2000.
1000.
1000,
1000,
1000,
1000,
1000.
1000.
COUNTY 1985 PAGE
S02
(T/D)
0.054
0,085
0,215
0.040
0.057
0.131
0.248
0,125
0,053
0,067
0,083
0.074
0,075
0,061
0,091
0.027
0,040
0.017
0.073
0.078
0.111
0.343
0,045
0,065
0.061
0.101
0.121
0.162
0.190
0.064
0.109
0.066
0,066
0.062
0,071
0.060
0.083
0,10$
T8P
(T/D)
0.050
0.089
0,036
0.04J
0.064
0.071
0.163
0,080
0.050
0,064
0,077
0,075
0.084
0,070
0.102
0.032
0.044
0.043
0,061
0,052
0.100
0.322
0.045
0,055
O.QSS
0.095
0.112
0.155
0.183
0.058
0,100
0.065
0,065
0,057
0.067
0,058
0,078
0,095
C-268
-------�
AREA SOURCE EM
X
(KM)
543.
547,
549.
551.
5b5,
563.
559.
561,
559,
561,
567.
543.
549,
549.
547.
549.
547,
549.
551,
551.
555.
555,
557.
555.
557.
559.
561.
563.
565.
559.
561.
563.
559.
561.
563.
559.
561.
563.
565.
566.
565.
566.
565.
566.
565.
566.
565.
566.
ISSIONS FOR
Y
(KM)
4493.
4495.
4495.
4493,
4493,
4493,
4493.
4493.
4495,
4495,
4493.
4501,
4497,
4499,
4501.
4501.
4503.
4503.
4497.
4501,
4501,
4497.
4497.
4499.
4499,
4497.
4497.
4497.
4497.
4499.
4499.
4499,
4501,
4501,
4501,
4503,
4503.
4503.
4499.
4499.
4500,
4500.
4501.
4501.
4502,
4502,
4503.
4503.
UNION
SIDE
(M)
4000.
2000.
2000.
4000,
4000.
4000.
2000.
2000.
2000,
2000.
4000.
4000.
2000.
2000,
2000.
2000,
2000.
2000,
4000,
4000.
4000.
2000,
2000.
2000,
2000.
2000,
2000,
2000.
2000.
2000.
2000,
2000,
2000,
2000.
2000.
2000,
2000,
2000,
1000.
1000.
1000,
1000.
1000,
1000,
1000,
1000.
1000.
1000.
COUNTY 2000
S02
(T/D)
0.112
0,180
0.133
0,053
0,092
0.404
0.091
0.035
0.173
0,273
0,261
0,046
0.133
0.053
0.018
0.043
0.075
0,096
0.342
0.178
0.360
0,080
0.133
0.124
0,157
0.138
0.197
0,126
0.154
0,152
0,183
0.216
0.162
0,199
0,236
0,143
0.145
0,143
0.062
0.056
0.081
0.095
0.121
0,074
0.082
C.079
0.035
0,076
PAGE
T8P
(7/0)
0.099
0.161
o.us
0.044
0.080
0,409
0,060
0,037
0.1S2
0,283
0.030
0,040
0,103
0.04S
o.ois-
0,040
0,067
0,095
0.274
0,1418
0.344
0,064
0,132
0,104
0.130
0,112
0,164
0.120
0.133
0.134
0.151
0.196
0,142
0.170
0.199
0.134
0.126
0.139
0.061
0.055
0,082
0,090
0,118
0,073
0,077
0,072
0.035
0,076
C-269
-------�
AREA SOURCE EMISSIONS FOR
X
(KM)
565.
566.
567.
569.
569.
571,
569.
571.
567.
566.
567.
566.
567.
568.
567,
566.
567.
568.
567,
568,
547,
555,
551.
551.
553,
551.
5S3,
559,
561,
559.
561,
563.
564,
565,
566.
563,
564.
565.
Y
(KM)
4504.
4504,
4497.
4499.
4501.
4501.
4503,
4503,
4499.
4499.
4500.
4500.
4S01.
4501.
4502.
4502.
4503.
4503.
4504.
4504.
4505,
4505,
4509.
4505.
4505,
4507,
4507.
4505.
4505.
4507,
4507.
4505.
4505,
4505.
4505.
4506.
4506*
«S06.
UNION
SIDE
(M)
1000.
1000,
2000,
2000,
2000,
2000.
2000,
2000.
1000.
1000.
1000.
1000.
1000.
1000.
1000,
1000.
1000,
1000.
1000,
1000,
4000,
4000.
4000.
2000.
2000.
2000.
2000,
2000.
2000,
2000,
2000.
1000,
1000.
1000.
1000.
1000,
1000.
1000.
COUNTY 2000
302
(T/D)
0.052
0.08J
0,291
0.040
0.063
0,159
0.290
0,147
0.052
0,065
0,062
0.073
0,074
0,062
0.090
0.027
0,036
0.0 J7
0.070
0,093
0.122
0.363
0.048
0,066
0.063
0,107
0,124
0,170
0.196
0,068
0,116
0.066
0,068
0,064
0,074
0,062
0.086
o.tio
PAGE
TSP
(T/D)
0,047
0,084
0,040
0,041
0.069
0,07$
0.103
0,077
0.048
0.061
0.076
0.071
0.084
0.069
0.100
0,031
0,042
0.043
0,078
0,061
0,104
0,319
0,047
0.054
0.054
0.094
O.Hl
0,154
0,181
0,058
o.iot
0,0*4
0,064
0.056
0.066
0.057
0,077
0,094
C-270
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TECHNICAL REPORT DATA
(Please read Instructions on the reverse before completing)
. REPORT NO.
EPA-902/4-78-006
4.TITLE AND SUBTITLE
AIR QUALITY MAINTENANCE ANALYSIS FOR NEW JERSEY-
NEW YORK AND MID-HUDSON AQMA
3. RECIPIENT'S ACCESSIOr*NO.
5. REPORT DATE
JUNE 1979
6. PERFORMING ORGANIZATION CODE
7. AUTHOR(S)
Kenneth W. Wiltsee, Jr., William L.
David B. Ramsay
Freeh,
8. PERFORMING ORGANIZATION REPORT NO
GCA-TR-79-19-G
9. PERFORMING ORGANIZATION NAME AND ADDRESS
GCA CORPORATION
GCA/TECHNOLOGY DIVISION
Burlington Road
Bedford, Massachusetts 01730
10. PROGRAM ELEMENT NO.
11. CONTRACT/GRANT NO.
68-02-2866
12.SPONSORING AGENCY NAME AND ADDRESS
U.S. ENVIRONMENTAL PROTECTION AGENCY
Region II
26 Federal Plaza
New York, New York 10007
13. TYPE OF REPORT AND PERIOD COVERED
Final Report
14. SPONSORING AGENCY CODE
^..SUPPLEMENTARY NOTES
16. ABSTRACT
An air quality maintenance analysis of S02 and TSP concentration was conducted
for the New Jersey - New York and Mid-Hudson AQMA's. The year 1975 was used as
the base and projections were made to 1980, 1985, and 2000. An emissions inventory
created under a previous contract was reviewed and updated using best available
data. Improvements were made in the point source inventory, county level area source
inventories, and subcounty allocation procedures.
An improved version of the AQDM model was validated and then used to predict annual
regional air quality levels for each year. The results indicated that annual
primary S02 and TSP standards could be exceeded in the South Bronx by 2000. TSP
levels throughout much of northeastern New Jersey and New York City exceed the
secondary TSP annual guidelines.
KEY WORDS AND DOCUMENT ANALYSIS
DESCRIPTORS
Air Pollution
Emission Inventory
Air Quality Display Model
b.lDENTIFIERS/OPEN ENDED TERMS C. COSATI Field/Group
9. DISTRIBUTION STATEMENT
Release Unlimited
19. SECURITY CLASS (ThisReport)
UNCLASSIFIED
21. NO. OF PAGES
409
20. SECURITY CLASS (Thispage)
UNCLASSIFIED
22. PRICE
EPA Form 2220-1 (9-73)
C-271
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