HomeMy WebLinkAboutDEQ-CFW_00088324DUPONT FLUOROPRODUCTS POLYMER MANUFACTURING DEVELOPMENT
FACILITY (PMDF) AIR PERMIT APPLICATION
Overview
DuPont Fayetteville Works plans to construct a new Fluoroproducts Polymer Manufacturing
Development Facility (PMDF). The Polymer Manufacturing Development Facility will have an
emission source ID of "FS-A". The "FS-A" nomenclature is consistent with the nomenclature
used in the DuPont Title V air permit application.
Polymer Manufacturing Development Facility Operation
IThe Polymer Manufacturing Development Facility will involve:
1. Laboratory, testing, and R&D operations housed in a new PMDF building, and
I2. Pilot -scale production operations housed in the same new PMDF building.
It is worth pointing out that the Polymer Manufacturing Development Facility may include
I several laboratory hood operations would be used strictly for non -production purposes and will
be categorically exempt per NCAC 2Q .0 1 02(b)(1)(C) - Laboratory Equipment.
Modeling Demonstration
A North Carolina Air Toxics modeling demonstration was performed as part of the Nafion®
Semiworks 3 air permit application. As part of that permit, virtually all North Carolina toxic air
pollutants (TAPS) were modeled and facility -wide permit limits were established such that
compliance is demonstrated regardless of which stack the emissions are coming from. This was
done using a "worst -case unit impact" approach and this approach is described in detail in the
modeling section of the Semiworks 3 air permit application and as part of Form D6 of this
application.
The unit impact from the Polymer Manufacturing Development Facility is 2.5 µg/m3 as
determined by using the EPA SCREEN3 model (see Exhibit A) versus the "worst -case unit
impact" of 65 µg/m3. Therefore, the emission quantities determined in the above mentioned
modeling which meet the Ambient Air Limit (AAL) for each TAP, and the resulting permitted
TAP limits in the current air permit, are still germane.
' Regulatory Analysis
The PMDF unit will install two air emission control devices: a venturi scrubber (FCD-Al) and a
I fabric filter (FCD-A2). It must be pointed out that the before -control potential emission rate of
0.1 lb/hr HF for FCD-A1 is an insignificant increase when compared to the current actual HF
average emission rate of 0.53 lb/hr versus this site's TAP limit of 10 lb/hr. It must also be
' pointed out that the before -control potential emission rates of 140 lb/yr TSP for FCD-A2 is less
than five tons per year, and therefore would qualify as an insignificant activity without the
control device. Therefore, there are no applicable State or Federal regulations that require the
IPMDF unit to install either of these control devices. Consequently, both the Forms C2 and C7
list the "corresponding efficiency" as "50%". Therefore, DuPont requests that no Inspection and
I Monitoring (I&M) conditions be established for these control devices, and that the 2Q.0112
requirement for a Professional Engineer's seal be waived.
1
DEQ-CFW 00088324
The PMDF operation will be subject to the North Carolina Air Toxics rule which applies to the
facility as a whole. In addition, DuPont is requesting that when a permit is issued for the
Polymer Manufacturing Development Facility, that it include a condition that limits total VOC
emissions from The Polymer Manufacturing Development Facility activities to 39.9 tons per
year.
It should be pointed that the emissions determination and recordkeeping requirements are very
difficult and time consuming due to the nature of the Polymer Manufacturing Development
Facility which is mainly a Research and Development facility which will include laboratory and
testing equipment.
Even though DuPont has requested a <40 TPY VOC emissions limitation for the Polymer
Manufacturing Development Facility, we believe that the PMDF unit should not be subject to the
rigorous monitoring and recordkeeping requirements usually required for a PSD avoidance
permit. DuPont believes that a requirement to determine the VOC emissions on a monthly basis
with a requirement to report quarterly to NCDENR, will more than adequately prevent the
possibility that the PMDF operation could ever exceed 40 TPY VOC which would then become
a PSD review issue.
Additionally, DuPont plans on tracking emissions from the Polymer Manufacturing Development
Facility for annual fee purposes as well as for assuring compliance with the facility -wide air
toxics limits. However, it should be pointed out, that for essentially all of the toxic air pollutants,
the allowable emission limits, as determined through the worst -case unit impact approach (see
modeling section), are many times greater than actual emissions, and therefore, rigorous
monitoring and recordkeeping requirements for TAPs are not necessary.
DEQ-CFW 00088325
' SECTION A
Al
FACILITY (General Information)
IREVISED 04/15/94 AIR QUALITY SECTION - APPLICATION FOR AIR PERMIT TO CONSTRUCT/OPERA;EI
FACILITY NAME: DuPont Company - Fayetteville Works
MAILING ADDRESS: 22828 NC Highway 87 W
SITE ADDRESS: State Hig
871Wthl
CITY: Fayetteville
CITY: Fayetteville
COUNTY: Bladen--
STATE: North Carolina
ZIP CODE: 28306-7332
ZIP CODE: 28306
CONTACT PERSON: Michael E. Johnson
TITLE: Environmental Cori
ator
TELEPHONE: (910) 678-1155
FAX: (910) 678-1247
OWNER OF FACILITY: E. 1. du Pont de Nemours & Company, Inc.
MAILING ADDRESS: 1007 Market Street
CITY: Wilmington
I STATE: Delaware
ZIP CODE: 19898
CONTACT PERSON: Michael E. Johnson
TITLE: Environmental Coordinator
TELEPHONE: (910) 678-1155
FAX: (910) 678-1247
DESCRIBE TYPE OF OPERATION: Chemical manufacturing
SIC CODE(S): 3081, 3083, 2821, 2869
DESCRIPTION OF PRIMARY SIC GROUP: Unsupported Plastic Sheeting
FACILITY
COORDINATES
UTM EAST:
OR
LATITUDE: 84 deg 50' 00" North
UTM NORTH:
LONGITUDE: 78 deg 50' OO" West
INCLUDED (X ) CONS. DETERMINATION (X ) RED. & RECYCLING FORM D3-3 AND ( X ) APPLIC. FEES?
FACILITY IS: (X ) TITLE V FACILITY ( ) NON -TITLE V FACILITY ( ► SYNTHETIC MINOR
IF TITLE V INDICATE APPLICABILITY 1 2 3 4 5 (CIRCLE ALL THAT APPLY)
APPLICATION IS BEING MADE FOR (CHECK ALL THAT APPLY, NOTE: (TV) INDICATES APPLICABILITY TO TITLE V FACILITIES ONLY):
( ) NEW FACILITY ( 1 INITIAL TITLE V PERMIT (TV) ( ) RENEWAL (TV)
( 1 MODIFICATION ( 1 NEW FACILITY (TV) ( ► PSD (TV)
( 1 EXISTING EMISSION SOURCE(S) (X 1 MINOR MODIFICATION (TV) ( ) NON -ATTAINMENT (TV)
( ► SIGNIFICANT MODIFICATION ( ) 112(g) (TV)
IF APPLICATION IS BEING MADE FOR ANY OF THE FOLLOWING, FORM A-2 MUST BE ATTACHED TO THIS FORM:
( ) ADMINISTRATIVE AMENDMENT ( ) CHANGE OF OWNERSHIP ( ) RELOCATION (WITHIN FACILITY)
( 1 ADMINISTRATIVE AMENDMENT ( ) CHANGE OF OWNERSHIP (TV) ( ► LIKE -FOR -LIKE REPLACEMENT
( ► RENEWAL ( 1 RELOCATION (WITHIN FACILITY) ( ► LIKE -FOR -LIKE REPLACEMENT (TV)
( 1 502(b)(10) NOTIFICATION (TV)
INCLUDED: ( X ) FLOW CHART(S) ( X ) ROOF DIAG. ( X ) PLANT LAYOUT ( X ► PLOT PLAN ( X ) AREA DIAGRAM
CURRENT/PREVIOUS PERMIT NO: 3735R18
EXPIRATION/DISCONTINUED DATE: 11/30/2003
DO YOU CLAIM CONFIDENTIALITY OF DATA ( ► YES ( X ) NO (SEE INSTRUCTIONS)
SIGNATURE OF RESPONSIBLE PERSON OR COMPANY OFFICAL: TITLE: Plant Manager DATE: G
X
(TYPE net H. Waters
DEP T NT USE ONLY:
RECIEVED:
ASSIGEND TO: PREMISE NUMBER:
APPLICATION NUMBER:
RETURNED:
I COMPLETE: REVIEW DATE:
PERMIT NUMBER:
DATE ISSUED:
DEQ-CFW 00088326
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DESIGN «
STACK LOCATION LEGEND)
-A
BRINE COOLED VENT CONDENSOR ON
BA STORAGE
TANK
BEP-A
N12656609.70 E2290243.58
EL.176.75
(29FT)
-B
BA SCRUBBER (FLAKE BUILDING)
BEP-B1
N12656687.68 E2289960.61
EL.201.16
(50FT)
BA SCRUBBER (FLAKE BUILDING)
BEP-B2
N12656641.36 E2289961.83
EL.201.16
(50FT)
-C
BUTACITE FLAKE DRYER VENT CYCLONE BAG FILTER
BEP-C
N12656570.90 E2290026.78
EL. 211.75
(60FT)
PLANT NORTH
BUTACITE TINT DRYING OVEN VENT (
MANUFACTURING
BUILDING)
GRID BEP- D
NORTH
N12656644.99 E2289535.81
EL.187.08
(35FT)
-D
CNEP-hd-I
NAFION WINYL ETHERS NORTH STACK
NEP-hdrl
N12656818.88 E2292563.82
EL. 231.00
(85FT)
NAFION POLYMERS STACK
-E
s es' NEP-G
N12656669.83 E2292412.74
EL. 221.23
(70FT)
NAFION PRODUCTS STACK
NEP-H(1&2)
N12656787.68 E2292394.89
EL.197.91
(50FT)
-F
NAFION SPRAY BOOTH STACK
NEP I
N12656800.28 E2292257.82
EL.189.08
(37FT)
NAFION VINYL ETHERS SOUTH STACK
NEP-hdr2
N12656497.85 E2292576.22
EL. 206.00
(58FT)
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NAFION SEMI -WORKS •1 STACK
NEP-J1
N12657256.94 E2292506.41
EL.176.00
(27FT)
NAFION SEMI -WORKS LAB STACK
NEP-J2
N12657158.22 E2292473.37
EL.176.00
(27FT)
-H
EP K(1 21)
NAFION E-FLUIDS STACKS
EL. 151.50
TO 166.50
N12656597.85 E2292576.22
3FT TO
18FT
NAFION SEMI -WORKS •3 STACK
NEP-J3
N12658155.30 E2290218.38
EL.174.50
(26FT)
-I
POWERHOUSE STACK
PEP-1
N12656909.17 E2290693.81
EL.248.50
(10OFT)
-�
W1
SLUDGE DRYER VENT (WASTEWATER
TREATMENT PLANT)
N12655603.79 E2290449.39
EL.162.25
(14FT)
PMDF PROCESS STACK
FEP-A1
N12655079.78 E2292257.82
EL. 248.50
(100FT)
-K
PMDF BAG FILTER STACK
FEP-A2
N12655064.78 E2292257.82
EL.196.00
(48FT)
BUILDING LOCATION LEGEND:
ADMINISTRATION BUILDING
BUTACITE MAINTENANCE SHOP
BUTACITE OFFICE BUILDING
PROCESS CONTROL LABORATORY
BUTACITE MANUFACTURING BUILDING
BUTACITE FLAKE FACILITIES
BUTACITE FLAKE DRYING
BUTACITE PVA FLAKE TOWER
FIREHOUSE
POWERHOUSE
CONSTRUCTION OFFICE BUILDING
SITE ENGINEERING BUILDING
CONSTRUCTION RECEIVING
CONSTRUCTION PIPE SHOP
CONSTRUCTION INSULATION SHOP
CONSTRUCTION PAINT SHOP
WASTE TREATMENT - SLUDGE PRESS BUILDING
SITE WAREHOUSE
DYMETROL MANUFACTURING BUILDING
FW LEARNING CENTER BUILDING
RIVER PUMPHOUSE
NAFION OFFICE BUILDING
NAFION MAINTENANCE/MANUFACTURING BUILDING
NAFION WASTE DRUM STORAGE
NAFION DRUM STORAGE
NAFION VINYL ETHERS SOUTH BUILDING
NAFION MMF CCR
NAFION MMF BUILDING
NAFION HFPO TOWER
NAFION POLYMER RESIN BUILDING
NAFION TRAINING BUILDING
AERATION TANK
BUTACITE CCR
NAFION ACID SUIT BUILDING
NAFION DMSO STILL
NAFION RSU BARRICADE
NAFION ECR
FIREWATER PUMPHOUSE
CHEM MIX HOUSE
NAFION SEMI -WORKS
NAFION SOLUTION TANK
NAFION ACETIC ACID MIX TANK
NAFION ACID OPEN WASTE TANK
NAFION WASTE HYDRO -CARBON TANK
NAFION E-FLUIDS BUILDING
PMDF OFFICE/LAB BUILDING
PMDF BUILDING
BUTACITE SULFURIC ACID STORAGE TANK
BUTACITE CONTROL LAB
POWER SULFURIC ACID TANK
NOTE
1. EL. (ELEVATION) - TOP OF STACK FROM GRADE.
2. PLANT COORDINATES - NORTH 34.50' WEST 78'50'.
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LAYOUT
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DATE
STANDARDS
REFERENCE DRAWINGS
PROJECT- - - - - - _ _ _
1
REMOVED ROTOCLONE & OYMETROL STACKS
HJB
RS
CDL
3-31-9
SCALE- i _= 150_ 0__�DATE
2
UPDATED LOCATIONS
HJW
WWT
MEJ
12-10-9
DRAWN-__ H.J._BIRD 110_25-9
3
ADDED PMDF LOCATIONS
HJW
WWT
MEJ
12-10-9
CHECKED-
APPROVED- c 0_LEABERR411-02=9
DESIGN RELEASE I
THIS DRAWING HAS BEEN FURNISHED BY E.I. DU PONT DE
NEMOURS & CO. THE INFORMATION AND KNOW-HOW THEREON
MAY NOT BE USED NOR THE DRAWING REPRODUCED WITHOUT
THE WRITTEN PERMISSION OF DU PONT. ALL REPRODUCTIONS IN
WHOLE OR IN PART. INCLUDING VENDOR'S SHOP DRAWINGS.
SHALL BEAR OR REFER TO THIS STAMP.
APPROVED -I T
CONSTR. RELEASE r -+---
- - - - - -L- - - - - - -1
E.I.DU PONT DE NEMOURS & CO.,INC.
INTERGRAPH COMPUTER DRAWING PLOTTED 12-10-98 HJW
FAYETTEVILLE, N.C.
FAYETTEVILLE WORKS
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W1219946
SECTION A A3
EMISSION SOURCE LISTING (EXISTING FACILITY)
REVISED: 04/15/94 AIR QUALITY SECTION
EMISSION
SOURCE
ID NO.
EMISSION
SOURCE
DESCRIPTION
CONTROL
DEVICE
ID NO.
CONTROL
DEVICE
DESCRIPTION
EMISSION
POINT ID NO.
OR "FUGITIVE"
EQUIPMENT TO BE MODIFIED BY THIS APPLICATION
EQUIPMENT TO BE ADDED BY THIS APPLICATION (New, Previously unpermitted, or Replacement)
FS-A
PMDF
FCD-A1
Gaseous Absorber
FEP-Al
FS-A
PMDF
FCD-A2
Fabric filter
FEP-A2
EQUIPMENT TO BE DELETED BY THIS APPLICATION
EQUIPMENT BEING REPLACED BY THIS APPLICATION
DEQ-CFW 00088331
i
IREVISED:04/15/94
SECTION B
EMISSION SOURCE (GENERAL)
AIR QUALITY SECTION
EMISSION SOURCE DESCRIPTION: Polymer Mfg. Development Facility (PMDF)
EMISSION SOURCE ID NO: FS.A
CONTROL DEVICE ID NO(S): FCD-A1, FCD-A2
EMISSION POINT ID NO(S): FEP-Al, FEP-A2
INDICATE WHETHER THIS SOURCE IS SUBJECT TO NSPS OR NESHAPS REGULATIONS
ALTERNATIVE OPERATING SCENARIO (AOS) NO:
DESCRIBE PROCESS: The PMDF unit is a research facility for the development of new products and new processes.
Because of the research nature of this facility, the exact products and processes are not known, and will be
changed on a regular basis. The products produced in this facility will be sold.
OPERATION DATE: 2nd Quarter 2000
SEASONAL VAR/AT/ON M JAN-MAR: 25 APR-JUN: 25 JUL-SEP: 25 OCT-DEC: 25
MATERIALS ENTERING PROCESS - CONTINUOUS PROCESS
MAX. DESIGN
CAPACITY (UNIT/HR)
REQUESTED CAPACITY
LIMITATION (UNIT/HR)
TYPE
UNITS
Variable
NA
Unknown
Unknown
MATERIALS ENTERING PROCESS - BATCH OPERATION
MAX. DESIGN
CAPACITY (UNIT/BATCH)
REQUESTED CAPACITY
LIMITATION (UNIT/BATCH)
TYPE
UNITS
Variable
NA
Unknown
Unknown
MAXIMUM DESIGN CAPACITY (BATCHES/YR): Unknown
MAXIMUM DESIGN CAPACITY (BATCHES/HR): Unknown
FUEL USED: NA
TOTAL MAXIMUM FIRING RATE (MILLION BTU/HR): NA
MAX. CAPACITY HOURLY FUEL USE: NA
MAX. CAPACITY YEARLY FUEL USE: NA
DESCRIBE ANY MONITORING DEVICES, GAUGES, OR TEST PORTS: Dependent upon the the specific product and process
being run at the time, all of which are unknown at this time. For compliance determination, all VOC emissions will
be determined and tracked on a monthly basis, and will be reported quarterly to the DAQ Regional Supervisor.
INDICATE ALL REQUESTED STATE AND FEDERALLY ENFORCEABLE PERMIT LIMITS (e.g., materials of operation, material input rates, emission
rates, etc.) AND DESCRIBE HOW THESE LIMITS ARE MONITORED AND WITH WHAT FREQUENCY. DuPont requests a voluntary
permit condition limiting the PMDF unit to a total VOC emissions of 39.9 tons per year.
COMMENTS: Most of the activities of the PMDF unit would be categorically exempt from permitting as it is a
research facility. However, DuPont's intention is to sell the products produced at this facility, hence a permit is
needed to construct and operate the PMDF unit. Specific materials to be used in the PMDF unit cannot be defined
at this time due to the unknown nature of these research activities.
DEQ-CFW 00088332
D
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m
m
FEP—Al
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RAW
PROCESS
n
MATERIALS
STEPS 1-5
PROCESS
STEPS 6-9
FCD-A1 BLOWER
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PROCESS
iit
STEPS 10-12
r
ROOM VENT
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BLOWER FILTER FEP A2
D
STEPS 13-14
FCD-A2
PROCESS
oil
STEPS 15-16
PRODUCT
00
L
n:
ocf low
DEQ-CFW 00088333
IREVISED:04/15/94
SECTION C
CONTROL DEVICE (FABRIC FILTER)
AIR QUALITY SECTION
CONTROL DEVICE ID NO: FCD-A2
CONTROLS EMISSIONS FROM WHICH EMISSION SOURCE ID NO(S): FS-A
EMISSION POINT ID NO(S): FEP-A2 POSITION IN SERIES OF CONTROLS NO. 1 OF 1 UNITS
MANUFACTURER: Young MODEL NO: Unknown
ALTERNATIVE OPERATING SCENARIO (AOS) NO:
DESCRIBE CONTROL SYSTEM: Commercially available bag filter Installed downstream of the vent blower. Filter's
purpose is to prevent the discharge of particulates to the atmosphere.
POLLUTANT(S) COLLECTED:
TSP
>0% %
%
%
%
CORRESPONDING EFFICIENCY:
EFFICIENCY DETERMINATION CODE:
4
0.016
BEFORE CONTROL EMISSION RATE (LB/HR):
<0.016
AFTER CONTROL EMISSION RATE (LB/HR):
PRESSURE DROP (IN H2O) MIN Unk. MAX Unk. WARNING ALARM? YES NO X
INLET TEMPERATURE (F) MIN 100 MAX 260 OUTLET TEMPERATURE (F) MIN 100 MAX 260
INLET AIR FLOW RATE (ACFM): 800
AIR TO CLOTH RATIO: 6-8 FILTER SURFACE AREA (FT" 2): 130 FILTER MAX. OPERATING TEMP. (F): 275
FILTER MATERIAL: Polyester DESCRIBE CLEANING PROCEDURES:
TIME BETWEEN CLEANING: 30 seconds MECHANICAL REVERSE FLOW SIMPLE BAG COLLAPSE
CLEANING TIME: 500 microseconds SONIC X AIR PULSE RINGED BAG COLLAPSE
OTHER:
DESCRIBE MAINTENANCE PROCEDURES: Differential pressure across bags will be measured. Bags will be replaced as
needed.
DESCRIBE MOISTURE BLINDING, CHEMICAL RESISTIVITY, AND/OR SPECIAL OPERATING CONDITIONS: None
DESCRIBE ANY MONITORING DEVICES, GAUGES, TEST PORTS, ETC.: Differential pressure will be measured and sent to the
PMDF DCS computer system. The bags will be replaced when the differential pressure exceeds the manufacturer's
recommended maximum pressure.
SHOW BY DIAGRAM THE RELATIONSHIP OF THE CONTROL DEVICE TO ITS EMISSION SOURCE(S):
MESS FCD-A,Z FVP•A,Z,
/3-I'F I RLOW R (ArMOSPNCRr)
DEQ-CFW 00088334
IREVISED:04/15/94
SECTION C RC7
CONTROL DEVICE (GASEOUS ABSORBER)
AIR QUALITY SECTION
CONTROL DEVICE ID NO: FCD-A1
CONTROLS EMISSIONS FROM WHICH EMISSION SOURCE ID NO(S): FS-A
EMISSION POINT ID NO(S): FEP-Al
POSITION IN SERIES OF CONTROLS
I NO. 1 OF 1 UNITS
MANUFACTURER: Unknown MODEL NO:Unknown
ALTERNATIVE OPERATING SCENARIO (AOS) NO:
DESCRIBE CONTROL SYSTEM: Fluid circulates via pump through a venturl spray contactor with level control and pH
control. Venturi size will vary as products are changed and non -condensible loading varies.
POLLUTANT(S) COLLECTED:
HF
VOC
CORRESPONDING EFFICIENCY:
>0 %
0 %,
%
%,
EFFICIENCY DETERMINATION CODE:
4
4
BEFORE CONTROL EMISSION CONTROL RATE(LB/HR):
0.1
<9.1
AFTER CONTROL EMISSION RATE (LB/HR):
<0.1
<9.1
PRESSURE DROP (IN. H2O) MIN, MAX WARNING ALARM? YES NO
INLET TEMPERATURE (F) MIN. ambit MAX 900 OUTLET TEMPERATURE (F) MIN. 35 MAX 120
INLET AIR FLOW RATE (ACFM): 3
TOTAL GAS PRESSURE (PSIG): -0.1 GAS DEW POINT (F): 300 GAS VELOCITY (FT/SEC):
TYPE OF SYSTEM: Spray column with Venturi scrubber
PACKED COLUMN
TYPE OF PACKING:
I
COLUMN LENGTH (FT):
COLUMN DIAMETER (FT):
PLATE COLUMN
PLATE SPACING (IN):
COLUMN LENGTH (FT):
COLUMN DIAMETER (FT):
ADDITIVE LIQUID SCRUBBING MEDIUM:: KHCO3
I PERCENT RECIRCULATED: 80-100%
TOTAL LIQUID INJECTION RATE (GAUMIN): 1.1
MAKE UP RATE (GAUMIN): 1 FOR ADDITIVE (GAUMIN): 0.1
DESCRIBE MAINTENANCE PROCEDURES: Venturi will be inspected and replaced if necessary when proper vacuum Is not
being achieved.
DESCRIBE ANY MONITORING DEVICES, GAUGES, TEST PORTS, ETC.: Pressure will be monitored to ensure vacuum is
maintained as-4ss than 14.6 psia. Pressure will be recorded and stored electronically.
SHOW BY DIAGRAM THE RELATIONSHIP OF THE CONTROL DEVICE TO ITS EMISSION SOURCE(S): cSP- `l
q CAT�osPaF,��
PAO"S$
FC D •A l
SUP$ ra-9
STACt4
$LoWill'R
DEQ-CFW 00088335
SECTION D D2-1
TOXIC AIR POLLUTANT EMISSIONS SUMMARY
REVISED: 04/15/94 AIR QUALITY SECTION
EMISSION SOURCE ID NO.: Facility -wide
SOURCE DESCRIPTION: DuPont Fayetteville Works manufacturing operations.
CONTROL DEVICE(S): ID NO(S):
REQUESTED MAXIMUM EMISSIONS
EMISSION EMISSION
TOXIC AIR POLLUTANT (TAP) TAP NO. LB/YEAR LB/DAY LB/HOUR LB/15 MIN POINT ID FACTOR TYPE
Acetaldehyde 1 98.66 see below see below
Acetic Acid 2 13.52 see below see below
Acrolein 3 0.29 see below see below
Acrylonitrile 4 240 see below see below
Ammonia 5 9.87 see below see below
Ammonium Chromate 6 0.54 see below see below
Ammonium Dichromate 7 0.54 see below see below
Aniline 8 14.62 see below see below
Aziridine 11 5.26 see below see below
Benzene 12 192 see below see below
Benzidene and salts 13 0.02 see below see below
Benzo(a)pyrene 14 52.8 see below see below
Benzyl Chloride 15 7.31 see below see below
READ INSTRUCTIONS PRIOR TO COMPLETING MODELING PARAMETERS SECTION
MODELING PARAMETERS
EMISSION EMISSION POINT EMISSION POINT EXIT VELOCITY
POINT ID EXHAUST TEMP. (F) DIAMETER (FT) HEIGHT (FT) (FT/SEC) RAIN CAP?
$ee Y N
Below Y N
Y N
Y N
Y N
COMMENTS: Limits for all toxic air pollutants presented here (except for HF and HCQ are facility -wide emission
limits based on emissions from a single "WORST -CASE PSUEDO" emission point. Air toxics modeling was
performed in this manner because flexibility is needed for the semiworks operations to possibly use all of
these TAPs. Allowable emissions have been "backed -out' from the predicted ambient impact associated with
the worst -case emission point (see D6 Form). In general, modeling should not be required for future new or
modified emission units as long as facility -wide emissions remain below these facility -wide limits. See the
modeling analysis for additional discussion.
DEQ-CFW 00088336
SECTION D D2-1
TOXIC AIR POLLUTANT EMISSIONS SUMMARY
REVISED: 04/15/94 AIR QUALITY SECTION
EMISSION SOURCE ID NO.: Facility -wide 0 -1
SOURCE DESCRIPTION: DuPont Fayetteville Works manufacturing operations.
CONTROL DEVICE(S): ID NO(S):
REQUESTED MAXIMUM EMISSIONS
EMISSION EMISSION
TOXIC AIR POLLUTANT (TAP) TAP NO. LB/YEAR LB/DAY LB/HOUR LB/15 MIN POINT ID FACTOR TYPE
Bis-chloremethyl ether 20 0.69 see below see below
Bromine 21 0.73 see below see below
1,3-butadiene 22 272 see below see below
Calcium Chromate 26 0.13 see below see below
Carbon Disulfide 27 163 see below see below
Carbon Tetrachloride 28 10723 see below see below
Chlorine 29 3.29 see below see below
Chlorobenzene 30 1929 see below see below
Chloroform 31 16882 see below see below
Chloroprene 32 51.2 see below see below
Chromic Acid 33 0.54 see below see below
Cresol 35 32.2 see below see below
P-dichlorobenzene 36 241 see below see below
READ INSTRUCTIONS PRIOR TO COMPLETING MODELING PARAMETERS SECTION
MODELING PARAMETERS
EMISSION EMISSION POINT EMISSION POINT EXIT VELOCITY
POINT ID EXHAUST TEMP. (F) DIAMETER (FT) HEIGHT (FT) (FT/SEC) RAIN CAP?
See Y N
Below Y N
Y N
Y N
Y N
COMMENTS: Limits for all toxic air pollutants presented here (except for HF and HCI) are facility -wide emission
limits based on emissions from a single "WORST -CASE PSUEDO" emission point. Air toxics modeling was
performed in this manner because flexibility is needed for the semiworks operations to possibly use all of
these TAPs. Allowable emissions have been "backed -out" from the predicted ambient impact associated with
the worst -case emission point (see D6 Form). In general, modeling should not be required for future new or
modified emission units as long as facility -wide emissions remain below these facility -wide limits. See the
modeling analysis for additional discussion.
DEQ-CFW 00088337
SECTION D
D2_�
TOXIC AIR POLLUTANT EMISSIONS SUMMARY
REVISED: 04/16/94 AIR QUALITY SECTION
EMISSION SOURCE ID NO.: Facility -wide
SOURCE DESCRIPTION: DuPont Fayetteville Works manufacturing operations.
CONTROL DEVICE(S): ID NO(S):
REQUESTED MAXIMUM EMISSIONS
EMISSION
EMISSION
TOXIC AIR POLLUTANT (TAP) TAP NO. LB/YEAR LB/DAY LB/HOUR LB/15 MIN POINT ID
FACTOR TYPE
Dichlorodifluorometh.
37
217477
see below
see below
Dichlorofluoromethane
38
438
see below
see below
Di(2-eth.hexyi)phthai.
39
26.3
see below
see below
Dimethyl Sulfate
40
2.63
see below
see below
1,4-dioxane
41
491
see below
see below
Epichlorohydrin
42
132832
see below
see below
Ethyl Acetate
43
2046
see below
see below
Ethylenediamine
44
4.38
see below
see below
Ethylene dibromide
45
640
see below
see below
Ethylene dichloride
46
6081
see below
see below
Ethy.Gly.Mono.Ether
47
27.8
see below
see below
Ethylene Oxide
48
43.2
see below
see below
Ethyl Mercaptan
49
1.46
see below
see below
READ INSTRUCTIONS
PRIOR TO COMPLETING MODELING PARAMETERS SECTION
MODELING PARAMETERS
EMISSION
EMISSION POINT EMISSION POINT EXIT VELOCITY
POINT ID
EXHAUST TEMP. (F) DIAMETER (FT) HEIGHT (FT) (FT/SEC)
RAIN CAP?
$ee
Y N
Below
Y N
Y N
Y N
Y N
COMMENTS: Limits for all toxic air pollutants presented here (except for HF and HCI) are facility -wide emission
limits based on emissions from a single "WORST -CASE PSUEDO" emission point. Air toxics
modeling was
performed in this manner because flexibility is needed for the semiworks operations to possibly use all of
these TAPs. Allowable emissions have been "backed -out" from the predicted ambient impact
associated with
the worst -case emission point (see D6 Form). In general, modeling should not be required for future new or
modified emission units as long as facility -wide emissions remain below these facility -wide limits. See the
modeling analysis for additional discussion.
DEQ-CFW 00088338
i
SECTION D D2-1
ITOXIC AIR POLLUTANT EMISSIONS SUMMARY
REVISED: 04/1&S4 AIR QUALITY SECTION
' EMISSION SOURCE ID NO.: Facility -wide
SOURCE DESCRIPTION: DuPont Fayetteville Works manufacturing operations.
ICONTROL
IREQUESTED
I
DEVICE(S): ID NO(S):
MAXIMUM EMISSIONS
EMISSION EMISSION
TOXIC AIR POLLUTANT (TAP) TAP NO. LB/YEAR LB/DAY LB/HOUR LB/15 MIN POINT ID FACTOR TYPE
Flourides
50
3.65
see below
see below
Formaldehyde
51
0.55
see below
see below
I
Hexachlorocyclopentad.
52
0.15
see below
see below
Hexachlorodibenzo-diox.
53
0.12
see below
see below
N-hexane
54
965
see below
see below
Hexane isomers(ex. n-)
55
1,315
see below
see below
Hydrazine
56
0.53
see below
see below
Hydrogen Chloride
57
7.0
see below
see below
IHydrogen
Cyanide
58
16.1
see below
see below
Hydrogen Fluoride
59
2.5
see below
see below
I
Hydrogene Sulfide
60
7.67
see below
see below
Maleic Anydride
61
1.46
see below
see below
& Compoounds
- 62 ..
27.2
see below
see below
IManganese
IMODELING
IEMISSION
READ INSTRUCTIONS
POINT ID
PRIOR TO COMPLETING MODELING PARAMETERS SECTION
PARAMETERS
EMISSION POINT EMISSION POINT EXIT VELOCITY
EXHAUST TEMP. (F) DIAMETER (FT) HEIGHT (FT) (FT/SEC) RAIN CAP?
$ee
Y N
Below
Y N
Y N
Y N
I
Y N
I
I
COMMENTS: Limits for all toxic air pollutants presented here (except for HF and HCI) are facility -wide emission
limits based on emissions from a single "WORST -CASE PSUEDO" emission point. Air toxics modeling was
performed in this manner because flexibility is needed for the semiworks operations to possibly use all of
these TAPS. Allowable emissions have been "backed -out" from the predicted ambient impact associated with
the worst -case emission point (see D6 Form). In general, modeling should not be required for future new or
modified emission units as long as facility -wide emissions remain below these facility -wide limits. See the
modeling analysis for additional discussion.
I
DEQ-CFW 00088339
i
SECTION D D2-1
I TOXIC AIR POLLUTANT EMISSIONS SUMMARY
REVISED: 04/15/94 AIR QUALITY SECTION
I EMISSION SOURCE ID NO.: Facility -wide
SOURCE DESCRIPTION: DuPont Fayetteville Works manufacturing Operations.
ICONTROL
I
DEVICE(S): ID NO(S):
REQUESTED MAXIMUM EMISSIONS
EMISSION EMISSION
TOXIC AIR POLLUTANT (TAP) TAP NO. LB/YEAR LB/DAY LB/HOUR LB/15 MIN POINT ID FACTOR TYPE
Mang.cyc.pent.tricarb.
63
0.53
see below
see below
Manganese tetroxide
64
5.44
see below
see below
I
Mercury, alkyl
65
0.05
see below
see below
Mercury, aryl & inorg.
66
0.53
see below
see below
I
Mercury, vapor
67
0.53
see below
see below
Methyl Chloroform
68
896
see below
see below
IMethylene
Chloride
69
38409
see below
see below
Methyl Ethyl Ketone
70
323
see below
see below
IMethy
Isobutyl Ketone
71
110
see below
see below
Methyl Mercaptan
72
0.73
see below
see below
'Nitric
Acid
77
13.65
see below
see below
Nitrobenzene
78
7.31
see below
see below
79
80.0
see below
see below
IN-nitrosodimethylamine
IMODELING
IEMISSION
READ INSTRUCTIONS
POINT ID
PRIOR TO COMPLETING MODELING PARAMETERS SECTION
PARAMETERS
EMISSION POINT EMISSION POINT EXIT VELOCITY
EXHAUST TEMP. (F) DIAMETER (FT) HEIGHT (FT) (FT/SEC) RAIN CAP?
See
Y N
Below
Y N
I
Y N
Y N
'
Y N
'limits
'the
COMMENTS: Limits for all toxic air pollutants presented here (except for HF and HCI) are facility -wide emission
based on emissions from a single "WORST -CASE PSUEDO" emission point. Air toxics modeling was
performed in this manner because flexibility is needed for the semiworks operations to possibly use all of
these TAPs. Allowable emissions have been "backed -out" from the predicted ambient impact associated with
worst -case emission point (see D6 Form). In general, modeling should not be required for future new or
modified emission units as long as facility -wide emissions remain below these facility wide limits. See the
modeling analysis for additional discussion.
I
DEQ-CFW 00088340
i
SECTION D D2-1
ITOXIC AIR POLLUTANT EMISSIONS SUMMARY
REVISED: 04/15/94 AIR QUALITY SECTION
I EMISSION SOURCE ID NO.: Facility -wide
SOURCE DESCRIPTION: DuPont Fayetteville Works manufacturing operations.
ICONTROL
IREQUESTED
ITOXIC
DEVICE(S): ID NO(S):
MAXIMUM EMISSIONS
EMISSION EMISSION
AIR POLLUTANT (TAP) TAP NO. LB/YEAR LB/DAY LB/HOUR LB/15 MIN POINT ID FACTOR TYPE
Pentachlorphenol
80
0.37
see below
see below
Perchloroethylene
81
304073
see below
see below
I
Phenol
82
13.9
see below
see below
Phosgene
83
2.19
see below
see below
I
Phosphine
84
0.48
see below
see below
Polychlor. biphenyls
85
133
see below
see below
IPotassium
chromate
86
0.54
see below
see below
Potassium dichromate
87
10.54
see below
see below
ISodium
chromate
88
0.54
see below
see below
Sodium dichromate
89
0.64
see below
see below
Strontium chromate
90
0.13
see below
see below
'
Styrene
91
156
see below
see below
Acid
92
1.46
see below
see below
ISulfuric
IMODELING
'
READ INSTRUCTIONS
EMISSION
POINT ID
PRIOR TO COMPLETING MODELING PARAMETERS SECTION
PARAMETERS
EMISSION POINT EMISSION POINT EXIT VELOCITY
EXHAUST TEMP. (F) DIAMETER (FT) HEIGHT (FT) (FT/SEC) RAIN CAP?
See
Y N
Below
Y N
'
Y N
Y N
'
Y N
'
'
COMMENTS: Limits for all toxic air pollutants presented here (except for HF and HCQ are facility -wide emission
limits based on emissions from a single "WORST -CASE PSUEDO" emission point. Air toxics modeling was
performed in this manner because flexibility is needed for the semiworks operations to possibly use all of
these TAPs. Allowable emissions have been "backed -out" from the predicted ambient impact associated with
the worst -case emission point (see D6 Form). In general, modeling should not be required for future new or
modified emission units as long as facility -wide emissions remain below these facility -wide limits. See the
modeling analysis for additional discussion.
DEQ-CFW 00088341
SECTION D
D2-1
TOXIC AIR POLLUTANT EMISSIONS SUMMARY
REVISED: 04/15/94 AIR QUALITY SECTION
EMISSION SOURCE ID NO.: Facility -wide
SOURCE DESCRIPTION: DuPont Fayetteville Works manufacturing operations.
CONTROL DEVICE(S): ID NO(S):
REQUESTED MAXIMUM EMISSIONS
EMISSION
EMISSION
TOXIC AIR POLLUTANT (TAP) TAP NO. LB/YEAR LB/DAY LB/HOUR LB/15 MIN POINT ID
FACTOR TYPE
Tet.chi.dibenzo-dioxin
93
0.005
see below
see below
1,1,1,2-tet.ch1.2,2DFE
94
45600
see below
see below
1,1,2,2-tet.chl.1,2DFE
95
45600
see below
see below
1,1,1,2-tet.chloreth.
96
10082
see below
see below
Toluene
97
205
see below
see below
Toluene-2,4-diisocyan.
98
0.05
see below
see below
Trichloroethylene
99
94423
see below
see below
Trichlorofiuormethane
100
18185
see below
see below
1,1,2-trichl-1,2,2-TFE
101
3471
see below
see below
Vinyl chloride
102 1608
see below
see below
Vinylidine chloride
103
105
see below
see below
Xylene
104
238
see below
see below
Zinc Chromate
105
0.13
see below
see below
READ INSTRUCTIONS
PRIOR
TO COMPLETING MODELING PARAMETERS SECTION
MODELING PARAMETERS
EMISSION
EMISSION POINT EMISSION POINT EXIT VELOCITY
POINT ID
EXHAUST TEMP. (F)
DIAMETER (FT) HEIGHT (FT) (FT/SEC)
RAIN CAP?
See
Y N
Below
Y N
Y N
Y N
Y N
COMMENTS: Limits for all toxic air pollutants presented here (except for HF and HCQ are facility -wide emission
limits based on emissions from a single "WORST -CASE PSUEDO" emission point. Air toxics
modeling was
performed in this manner because flexibility is needed for the semiworks operations to possibly use all of
these TAPs. Allowable emissions have been "backed -out' from the predicted ambient impact
associated with
the worst -case emission point (see D6 Form). In general, modeling should not be required for future new or
modified emission units as long as facility -wide emissions remain below these facility -wide limits. See the
modeling analysis for additional discussion.
DEQ-CFW 00088342
SECTION D D2-2
TOXIC AIR POLLUTANT NETTING WORKSHEET
AND
FACILITY WIDE EMISSIONS SUMMARY
REVISED: 04/15/94 AIR QUALITY SECTION (SEPARATE SHEET IS REQUIRED FOR EACH
TOXIC AIR POLLUTANT: See Form D2-1
EMISSION SOURCE ID NO(S): Facility wide including the Polymer Manufacturing Development Facility (PMDF)
TAP EMISSIONS
LB/YEAR
LB/DAY
LB/HOUR
LB/15 MIN
See below
See below
See below
See below
(1) MODIFICATION
INCREASES
-SUBTRACT-
(2) MODIFICATION
DECREASES
- EQUALS -
(3) NET CHANGE
FROM MODIFICATION
IF POSITIVE - ADD -
(4) CREDITABLE
INCREASES
-SUBTRACT-
(5) CREDITABLE
DECREASES
-EQUALS-
(6) NET OVERALL
CHANGE
(7) TOTAL FACILITY
EMISSIONS
(8) 2H .0610(h) LEVEL
(9) IS AN AIR DISPERSION MODELING ANALYSIS REQUIRED? ( X ) YES ( ) NO
COMMENTS: An air dispersion modeling analysis has been performed for all North Carolina toxic air pollutants
(TAPs) except for asbestos and some metal compounds (see Form D2-1 for a complete listing of the TAPs).
Modeling has been performed for all of these TAPs in order to have the flexibility needed to operate the 'Naf!on"
Semiworks Facilities and the PMDF unit. For all the TAPs except hydrogen fluoride and hydrogen chloride,
facility -wide emission limits for each TAP were backed -out of the modeling using a single worst -case emission
point. For hydrogen fluoride and hydrogen chloride, facility -wide limits were backed out using two worst -case
emission points. See the modeling analysis for additional discussion.
Any TAP emissions from the PMDF unit will be limited by the existing site -wide TAP emission limits set in this
site's current air permit.
DEQ-CFW 00088343
I
I
� .,Eo 04,1594
I
I
I
I
I
I
I
I
f
I
I
I
I
I
I
SECTION D
SPECIFIC EMISSION SOURCE (EMISSION INFORMATION)
("see note in instructions concerning state air toxics regulations)
AIR QUALITY SECTION
EMISSION SOURCE DESCRIPTION: Polymer Manufacturing Development Facility (PMDF)
EMISSION SOURCE ID NO.: FS-A IS THIS SOURCE A FUGITIVE SOURCE? ( ) YES ( X ) NO
ALTERNATIVE OPERATING SCENARIO (AOS) NO:
EMISSION RATE IN EMISSION RATE IN
EMISSION LBS/HR LBS/YR
FACTOR
POLLUTANT TYPE POTENTIAL ACTUAL POTENTIAL ACTUAL
VOC
2
See below
NA
79,800
NA
North Carolina TAPs
2
See below
NA
See below
NA
COMMENTS: The Polymer Manufacturing Development Facility is a research and development facility. A wide
variety of different materials can be used and it is not possible to define specific quantities of usage for individual
compounds. See Form D2-1 for the facility -wide TAP emission limits. These limits include emissions from the
PMDF unit.
The potential VOC emission rate is a voluntary limit to avoid PSD regulations. The PMDF unit will operate such
that this voluntary limit is not exceeded.
DEQ-CFW 00088344
I
IREVISED:04/15/94
SECTION D.
SPECIFIC EMISSION SOURCE (REGULATORY ANALYSIS)
AIR QUALITY SECTION
EMISSION SOURCE DESCRIPTION: Polymer Manufacturing Development Facility (PMDF)
EMISSION SOURCE ID NO: NS-L
ALTERNATIVE OPERATING SCENARIO (ADS) NO:
REGULATED
POLLUTANT
EMISSION AND OPERATING LIMITS
APPLICABLE
REQUIREMENT
VOC
Emissions less than 39.9 tons per year.
Requested limit
North Carolina TAPS
Facility -wide emissions less than allowable levels
15A NCAC 2D.1104
40 lb/day facility wide photochemically reactive.
15A NCAC 2D.0518(a)
COMMENTS: A permit limit of 39.9 tons per year VOC is requested for the Polymer Manufacturing Development
Facility.
A facility -wide modeling demonstration has been performed for all of the North Carolina toxic air pollutants (TAPS)
that may be emitted from the DuPont - Fayetteville Works facility. See Form D2-1 for specific facility -wide limits for
each TAP. See the Form D6 for additional discussion of the modeling analysis.
DEQ-CFW 00088345
SECTION 'D D3-3
SPECIFIC EMISSION SOURCE (REDUCTION AND RECYCLING ACTIVITIES)
REVISED: 04/15/94 AIR QUALITY SECTION
EMISSION SOURCE DESCRIPTION: Polymer Manufacturing Development Facility (PMDF)
EMISSION SOURCE ID NO: FS-A
REGULATED ONGOING SOURCE CITY. EMITTED QTY. EMITTED PLANNED SOURCE
POLLUTANT REDUCTION BEFORE REDUCTION AFTER REDUCTION REDUCTION
ACTIVITIES (LBSNEAR) (LBSNEAR) ACTIVITIES
(ENTER CODES) (ENTER CODES)
VOC W29 - - -
COMMENTS: Good operating practices will be used during the operation of the PMDF unit.
DEQ-CFW 00088346
I
IREVISED:04/15/94
SECTION D D4
EMISSION POINT SUMMARY
AIR QUALITY SECTION
LIST ALL INFORMATION ASSOCIATED WITH EACH EMISSION POINT
EMISSION
POINT
ID NO.
EMISSION POINT
HEIGHT (FT)
EQUIV. DIAM.
(FT)
TEMP.
(F)
VELOCITY
(FT/SEC)
FLOW RATE
(SCFM)
EMISSION POINT
DIRECTION
RAIN CAP?
(Y OR N)
FEP-Al
100
1.7
Amb.
120
18,000
Vertical
N
FEP-A2
8 (*)
0.5
Amb.
66
800
Vertical
N
COMMENTS: (*) FEP-A2 discharge will be approximately eight (8) feet above the the building's roof.
�fo
DEQ-CFW 00088347
i
I
REVISED 04/15/94
SECTION D F51
FACILITY EMISSIONS SUMMARY
AIR QUALITY SECTION
TOTAL FROM SPECIFIC EMISSION SOURCE SUMMARIES
POLLUTANT
CAS NO.
ANNUAL EMISSIONS IN LBS/YR
ACTUAL
POTENTIAL
PM
80,520
317,962
S02
1,096,528
4,597,878
NOx
248,900
829,385
Co
18,580
66,518
VOC
399,066
1,004,496
LEAD
60.6
222
North Carolina TAPs
see comments
see comments
TOTAL FACILITY FIRING RATE FOR FOSSIL AND WOOD -FIRED BURNERS: 139.4 MILLION BTU/HR
TOTAL REACTIVE VOC's FROM THE FACILITY: <40 LBS/DAY or % Total Control or OTHER (specify)
COMMENTS: Actual emissions are from the 1997 emissions inventory, but do not necessarily reflect future actual
emissions. Potential emissions are from the TITLE V air permit application (924,696 Ib/yr VOC) plus the stated
potential emissions from this modification (79,800 Ib/yr VOC). See attached Form C from the 1997 emissions
inventory for the 1997 actual emissions of TAPs. See the Form D2-1 for potential emissions for each permitted
TAP.
DEQ-CFW 00088348
IForm C: Facility Total Emissions Summary/Stack Data (1 of 2) Facility ID# 0900009
INorth Carolina Department of Environment and Natural Resources
Division of Air Quality
I1997 Annual Air Pollutant Emissions Inventory
"Per Ton" Pollutants '
S Actual Emissions (Tons%Year)*:
Source ID Numbers~
TSP
40.26
PS-1, PS-2, BS-8, NS-12
PM-10
27.02
PS-1, PS-2
S02
648.264
PS-1, PS-2, NS-6
NOx
124.45
PS-1, PS-2
VOC
199.533
All except BS-8 and SW-2
CO
9.29
PS-1, PS-2
� o ��r�
Other Pallutsnts' ��
•.;..cvn-,;. .': ;,s.
'tiS
aa CAS Nu ib�r
�z ca. t a;r^?an ,.'.,
car o
Emissins` Lb./i�) '�
our
'' fe ID 1um �
Chlorine
7782-50-5
96
Riverwater Treatment
Fluorine
7782-41-4
Hydrazine
302-01-2
Hydrogen Chloride
7647-01-0
42,457
PS-1, PS-2
Hydrogen Fluoride
7664-39-3
4,680.36
Hydrogen Sulfide
7783-06-4
Lead Compounds
LEADCPDS
60.62
PS-1, PS-2
Methyl Chloroform
71-55-6
Methylene Chloride
75-09-2
8,583
"NAFION" Fugitives
Ozone
10028-15-6
Perchloroethylene
127-184
Phosphine
7803-51-2
******All Other HAPs/TAPs as listed in Appendix C and Appendix D******
Methanol
67-56-1
12,815
BS-2, NS-8, NS-12, PVA
Dimethylformamide
68-12-2
41,632
BS-6
Toluene
108-88-3
2,237
NS-1
Acetonitrile
75-05-8
3,785.1
NS-2, NS-15, H/C SIT
I*Include all supporting documentation and calculations. Information on Form C cannot be held confidential.
DEQ-CFW 00088349
Form C: Facility Total Emissions Summary/Stack Data (2 of 2) Facility ID# 0900009
Table Continued from page 1
***All Other HAPs/TAPs as listed in Appendix C and Appendix D (use additional sheets if necessary)***
Pollutant : r. - ;�
Y� CAS Number s
.
A Actual Emissions (LbJYear)*
N
Source ID Numbers
Diethylene glycol ether
GLYCOLETHERS
0.4
NS-4, H/C S/T
Tetraethylene glycol ether
GLYCOLETHERS
2,314
NS-5
Acetic Acid
64-19-7
98
NS-11
Trichloro- trifluoroethane
76-13-1
30,255
NS-I, NS-10,-SW-1
Antimony
ANTIMONYCPDS
19.11
PS-1, PS-2
Arsenic
ARSENICCPDS
36.59
PS-1, PS-2
Beryllium
BERYLCPDS
2.29
PS-1, PS-2
Cadium
CADIUMCPDS
62.26
PS-1, PS-2
Cobalt
COBALTCPDS
54.06
PS-1, PS-2
Chromium
CHROMCPDS
40.%
PS-1, PS-2
Formaldehyde
50-00-0
154.55
PS-1, PS-2
Manganese
MANGCPDS
26.76
PS-1, PS-2
Mercury
MERCCPDS
9.28
PS-1, PS-2
Nickel
NICKCPDS
865.03
PS-1, PS-2
Selenium
SEC
20.75
PS-1, PS-2
Polycyclic Organic Matter
POM
4.31
PS-1, PS-2
Stack Data and Process Cross Reference: Complete the following for each stacklvent (use additional sheets if necessary):
Y rY =
.h
STACK ID # 4 *
FI STACK ll�
} STACK ID
STACKPARAMETERa
,
PEP 1 a
BEP A
BEP-C
Height (feet)
100
29
50
50
60
Diameter (feet)
5.6
0.16
0.98
0.98
4.5
Temperature (OF)
650
Ambient
100
100
125
Velocity (FPS)
36
0.13
0.98
0.98
42
Flow Rate (ACFM)
53,000
0.16
45
45
40,000
Source Exhausted
PS-1, PS-2
BS-1
BS-2
BS-2
BS-8
I(Source ID #'s) *Include all supporting documentation and calculations. Information on Form C cannot be held confidential.
r
DEQ-CFW 00088350
Form C: Facility Total Emissions Summary/Stack Data (2 of 2) Facility ID# 0900009
Table Continued from page 1
***All Other HAPs/TAPs as listed in Appendix C and Appendix D (use additional sheets if necessary)***
Pollutant
CAS Number
Actual Emissions OL Year)*
Source ID Numbers
Chromium VI
CHROM6CPDS
0.15
PS-1, PS-2
Ammonia
7664-41-7
73
NS-7
Benzene
71-43-2
203.88
NS-1
Nitric Acid
7697-37-2
186
Lab _
Sulfuric Acid
7664-93-9
45
Lab
Carbon tetrachloride
56-23-5
0
Lab
Chloroform
67-66-3
0
Lab
Dichloro-difluoromethane
75-71-8
360
Fugitives
Ethyl acetate
141-78-6
150
Lab
Ethylene dichloride
107-06-2
117
NS-6
Mercury, aryl & inorganic
MERCARYL
0
Lab
Stack Data and Process Cross Reference: Complete the following for each stack/vent (use additional sheets if necessary):
"`' '� ':
'� ` TA g}
ACK ID #
STAs✓K ID #i
STACK ID #
STACK ID #
STACK PA tAMETER
` � - z
F r �
g.: R
.>
.. .. , ..
a
x" BII' I}
{k
a k NEP IIdrl
NEP:Hdi!Z
NEP'-G <k
NEP H1
C
Height (feet)
35
85
81.3
70
50
Diameter (feet)
1.94
3.0
2.3
2.2
2.0
Temperature (OF)
95
75
75
75
Ambient
Velocity (FPS)
52
58
46
54
48
Flow Rate (ACFM)
9,200
24,500
11,700
12,300
9,000
Source Exhausted
BS-6
NS-1 thru NS-8
NS-1 thru NS-8
NS-9, NS-10
NS-11
(Source ID #'s)
*Include all supporting documentation and calculations. Information on Form C cannot be held confidential.
DEQ-CFW 00088351
FORM D6
ENGINEERING ANALYSIS TO SUPPORT PERMIT APPLICATION
Emission Unit ID: FS-A
Emission Source Description: Polymer Manufacturing Development Facility (PMDF)
A. VOC Emission Limitation Analysis:
The Polymer Manufacturing Development Facility is primarily an R&D operations, and the actual materials that will be used in the operations
cannot be specifically defined. However, pollutants that might possibly be emitted from the PMDF that could be subject to regulation include
VOC (if emissions were high enough the PSD regulation could be triggered) and North Carolina toxic air pollutants (TAPs). DuPont has chosen
to take a self-imposed limit of 39.9 tons per year VOC from the PMDF unit, and this limit then defines potential VOC emissions. The first
anticipated process and product is expect to have routine "actual' emissions of 20.5 TPY VOC.
B. TAP Emission Limitation Analysis:
Air toxics modeling has been performed to determine allowable emissions for all TAPs that may be emitted from the PMDF unit, and this then
defines potential TAP emissions. See the SCREEN3 modeling output (Exhibit A) for additional information. Below, the calculations that were
used to "back -out" allowable emissions are summarized.
Allowable TAP emissions are calculated using a pseudo worst -case unit impact (µg/ni). This pseudo unit impact represents the highest ambient
concentration that any emission point at the DuPont site would ever cause for an emission rate of 1 lb/hr. Modeling has been performed to show
that all emission points at the site actually have a unit impact lower than the pseudo -worst case unit impact. Because there is a direct linear
correlation between ambient impact from a single emission point and emissions, the allowable emissions can then be backed out from the pseudo
unit impact. In this way, allowable emissions for all TAPs can be calculated based on the allowable ambient concentration and the pseudo worst -
case unit impact. Because each of the actual emission units at the Fayetteville site have a unit impact lower than the pseudo worst case impact,
compliance with the air toxics rule will be assured regardless of which emission units the TAPs are actually emitted from. Example calculations
for determining allowable limits are presented below.
The pseudo worst case unit impact used for the DuPont Fayetteville site is 65 µg/m3. All emission points at the facility have a lower unit impact.
The unit impact from the PMDF unit is 2.5 µg/m3 (see Exhibit A for SCREEN3 output),
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FORM D6
ENGINEERING ANALYSIS TO SUPPORT PERMIT APPLICATION
Pollutant with 15-minute limit — Formaldehyde
Formaldehyde AAL = 0.15 mg/m3
Worst case unit impact associated with 1 lb/hr emissions equals 65 µg/m3
Backed out allowable emissions = 1 lb x 1 hr x 0.15 mx 1000 ue x m3 x 0.95 (allowed fraction) _
hr 4 (15 min) m3 mg 65 µg
0.55 lb/l5-min allowable emissions
Thus, if 0.55 lb/ 15-min were emitted from the pseudo worst case stack the predicted impact would be 95% of the AAL.
Pollutant with 24-hr limit -- Vinylidene Chloride
Vinylidene Chloride AAL = 0.12 mg/m3
Worst case unit impact associated with 1 lb/hr emissions equals 65 ug/m3 which converts to 26 ug/m3 on a daily basis (See Table 4.1 in the
North Carolina Modeling Guidelines document).
Backed out allowable emissions = 1 lb x 24 hr x 0.12 mg x 1000 uu x m3 x 0.95 (allowed fraction) _
hr day m3 mg 26 µg
105.2 lb/day allowable emissions
Thus, if 105.21b/day were emitted from the pseudo worst case stack the predicted impact would be 95% of the AAL.
SO,
6 A similar approach is used to determine both the hourly and annual limits for all of the North Carolina TAPS except HF and HCl, and the
i:* calculations for this are attached on the following pages. The approach used for HF and HCI is discussed below.
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FORM D6
ENGINEERING ANALYSIS TO SUPPORT PERMIT APPLICATION
HF and HCl allowable emissions:
HF and HCl allowable emissions were backed out using two worst -case pseudo unit impact values. The allowable emissions are divided up
between the two unit impact values. A specified amount of HF and HCl are emitted from the second worst -case pseudo unit impact value. This
will result in a predicted concentration that is a fraction of the AAL. The remaining ambient impact is backed out from the overall worst case unit
impact. This approach results in essence two limits for HF and HCL. One limit from all stacks which have a unit impact less than the 2nd Worst
Case Unit Impact Value and another limit for all other stacks.
Calculations for doing this are presented below.
2nd Worst -Case Unit Impact Value:
Overall Worst -Case Unit Impact Value:
Hydrogen fluoride 24 hour AAL:
Hydrogen fluoride 15-min hour AAL:
Hydrogen chloride 15-min hour AAL:
10 11g/m3 (Unit Impact 2)
65 µg/m3 (Unit Impact 1)
0.03 mg/m3
0.25 mg/m3
0.7 mg/m3
Maximum Allowable HF and HCl Associated with Worst Case Unit Impact 2:
Worst case unit impact 2 associated with 1 lb/hr emissions equals 10 µg/m3 on an hourly basis and 4 µg/m3 on a daily basis
Backed out allowable HF = 1 lb x 1 hr x 0.25 mg x 1000 ug x m3 = 6.25 lb/15-min
emissions (lb/15-minutes) hr 4 (15 min) in mg 10 µg
Backed out allowable HF = 1 lb x 24 hr x 0.03 me x 1000 ug x in = 180.0 lb/day
Emissions (lb/day) hr day in mg 4 µg
Backed out allowable HCl = 1 lb x 1 hr x 0.7 in x 1000 ug x in = 17.50 lb/15-min
emissions (lb/15-minutes) hr 4 (15 min) in mg 10 µg
HF and HCl emissions from the Worst -Case Unit Impact 2 emission points will consume 30% of the allowable emissions.
Thus emissions from the Unit Impact 2 emission points are as follows: HF
= 6.25
x 30%
= 1.875
lb/15-min
HF
= 180.0
x 30%
= 54.00
lb/day
HCI
= 17.50
x 30%
= 5.25
lb/15-min
Page 3 of 4
FORM D6
ENGINEERING ANALYSIS TO SUPPORT PERMIT APPLICATION
This leaves 65% of the AAL impact that can be consumed by emissions from Worst -Case Unit Impact 1 stacks (30% for the Unit Impact 2 stack
and 65% from Unit Impact 1 stack for a total of 95%). Thus allowable emissions are calculated as follows:
Maximum Allowable HF Associated with Worst -Case Unit Impact 1:
Worst case unit impact 1 associated with 1 lb/hr emissions equals 65 µg/m3 on an hourly basis and 26 µg/m3 on a daily basis
Backed out allowable HF = 1 lb x 1 hr x 0.25 me x 1000 ug x m3 x 0.65 (remaining fraction) _
emissions (lb/15-minutes) hr 4 (15 min) m3 mg 65 µg
= 0.625 lb/15-min allowable emissions
Backed out allowable HF = 1 lb x 24 hr x 0.03 mx 1000 u x m3 x 0.65 (remaining fraction) _
Emissions (lb/day) hr day m3 mg 26 µg
18.0 lb/day allowable emissions
Backed out allowable HCl = 1 lb x 1 hr x 0.7 mg x 1000 mg x m3 x 0. 65 (remaining fraction) _
emissions (lb/15-minutes) hr 4 (15 min) m3 mg 65 µg
= 1.75 lb/15-min allowable emissions
Thus the total HF and HCl limits are as follows:
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HF = 1.875 + 0.625 = 2.50 lb/15-min
HF = 54.00 + 18.00 = 72.00 lb/day
HCl = 5.25 + 1.75 = 7.00 lb/15-min
Page 4 of 4
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D6 Form - Continued
SUMMARY OF BACKING OUT FROM WORST CASE UNIT IMPACT TO ALLOWABLE EMISSIONS
Unit Impact is for 1 lb/hour emissions
Worst Case Unit Impact (hourly basis)
65 ug/m^3
converted to 15-min basis
65 ug/m^3
converted to 24 hour basis
26 ug/m^3
converted to annual basis
5.2 u /m^3
AAL's (mg/m^3)
ALLOWABLE EMISSIONS (pounds per period)
TAP
Annual
24-hour 1-hour
15-min
Annual
24-hour
1-hour
15-min
ACETALDEHYDE
27
-
-
-
98.65
ACETIC ACID
3.7
-
-
-
13.52
ACROLEIN
0.08
-
-
-
0.29
ACRYLONITRILE
1.50E-04
240.06
-
-
-
AMMONIA
2.7
-
-
-
J.87
AMMONIUM CHROMATE
6.20E-04
-
0.54
-
-
AMMONIUM DICHROMATE
6.20E-04
-
0.54
-
-
ANILINE
-
-
-
-
AZIRIDINE
0.006
-
5.26
-
-
BENZENE
1.20E-04
192.05
-
-
-
BENZIDINE & SALTS
1.50E-08
0.02
-
-
-
BENZO(A)PYRENE
3.30E-05
52.81
-
-
-
BENZYL CHLORIDE
0.5
-
-
7.31
-
BIS-CHLOROMETHYL ETHER
3.70E-07
0.59
-
-
-
BROMINE
0.2
-
-
-
0.73
1,3-BUTADIENE
1.70E-04
272.07
-
-
-
CALCIUM CHROMATE
8.30E-08
0.13
-
-
-
CARBON DISULFIDE
0.186
-
163.11
-
-
CARBON TETRACHLORIDE
6.70E-03
10,722.58
-
-
-
CHLORINE
0.0375
0.9
-
32.88
-
3.29
CHLOROBENZENE
2.2
-
1,929.23
-
-
CHLOROFORM
4.30E-03
6,881.65
-
-
-
CHLOROPRENE
0.44 3.5
-
385.85
51.15
-
CHROMIC ACID
6.20E-04
-
0.54
-
-
CRESOL
2.2
-
-
32.15
-
Page.1 of 4
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D6 Form - Continued
SUMMARY OF BACKING OUT FROM WORST CASE UNIT IMPACT TO ALLOWABLE EMISSIONS
Unit Impact is for 1 lb/hour emissions
Worst Case Unit Impact (hourly basis)
65 ug/m"3
converted to 15-min basis
65 ug/m^3
converted to 24 hour basis
26 ug/m^3
converted to annual basis
5.2 u /m^3
TAP
Annual
AAL's (mg/m^3)
24-hour 1-hour
15-min
ALLOWABLE EMISSIONS (pounds per period)
Annual 24-hour 1-hour 15-min
P-DICHLOROBENZENE
66
-
-
-
241.15
DICHLORODIFLUOROMETHANE
248
-
217,476.92
-
-
DICHLOROFLUOROMETHANE
0.5
-
438.46
-
-
DI(2-ETHYLHEXYL)PHTHALATE
0.03
-
26.31
-
-
DIMETHYL SULFATE
0.003
-
2.63
-
-
1,4-DIOXANE
0.56
-
491.08
-
-
EPICHLOROHYDRIN
8.30E-02
132,831.92
-
-
-
ETHYL ACETATE
140
-
-
2,046.15
-
ETHYLENEDIAMINE
0.3
2.5
-
-
4.38
9.13
ETHYLENE DIBROMIDE
4.00E-04
640.15
-
-
-
ETHYLENE DICHLORIDE
3.80E-03
6,081.46
-
-
-
ETHYLENE GLYCOL MONOETHYL ETHER
0.12
1.9
-
105.23
27.77
-
ETHYLENE OXIDE
2.70E-05
43.21
-
-
-
ETHYL MERCAPTAN
0.1
-
-
1.46
-
FLUORIDES
0.016
0.25
-
14.03
3.65
-
FORMALDEHYDE
0.15
-
-
-
0.55
HEXACHLOROCYCLOPENTADIENE
0.0006
0.01
-
0.53
0.15
-
HEXACHLORODIBENZO-P-DIOXIN
7.60E-08
0.12
-
-
_
N-HEXANE
1.1
-
964.62
-
-
HEXANE ISOMERS (except n-hexane)
360
-
-
-
1,315.38
HYDRAZINE
0.0006
-
0.53
-
-
HYDROGEN CYANIDE
0.14
1.1
-
122.77
16.08
-
HYDROGEN SULFIDE
2.1
-
-
-
7.67
MALEIC ANHYDRIDE
0.012
0.1
-
10.52
1.46
-
MANGANESE AND CMPDS.
0.031
-
27.18
-
-
Page 2 of 4
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D6 Form - Continued
SUMMARY OF BACKING OUT FROM WORST CASE UNIT IMPACT TO ALLOWABLE EMISSIONS
Unit Impact is for 1 lb/hour emissions
Worst Case Unit Impact (hourly basis) 65 ug/m^3
converted to 15-min basis 65 ug/m^3
converted to 24 hour basis 26 ug/m^3
converted to annual basis 5.2 u /m^3
AAL's (mg/m^3)
ALLOWABLE EMISSIONS (pounds per period)
TAP
Annual
24-hour
1-hour
15-min
Annual
24-hour
1-hour
15-min
MANG. CYCLOPENTADIENYL TRICARB.
0.0006
-
0.53
-
-
MANGANESE TETROXIDE
0.0062
-
5.44
-
-
MERCURY,ALKYL
0.00006
-
0.05
-
-
MERCURY, ARYL & INORGANIC CMPDS.
0.0006
-
0.53
-
-
MERCURY, VAPOR
0.0006
-
0.53
-
-
METHYL CHLOROFORM
12
245
-
10,523.08
-
895.19
METHYLENE CHLORIDE
2.40E-02
38,409.23
-
-
-
METHYL ETHYL KETONE
3.7
88.5
-
3,244.62
-
323.37
METHYL ISOBUTYL KETONE
2.56
30
-
2,244.92
-
109.62
METHYL MERCAPTAN
0.05
-
-
0.73
-
NITRIC ACID
1
-
-
-
3.65
NITROBENZENE
0.06
0.5
-
52.62
7.31
-
N-NITROSODIMETHYLAMINE
5.00E-05
80.02
-
-
-
PENTACHLOROPHENOL
0.003
0.025
-
2.63
0.37
-
PERCHLOROETHYLENE
1.90E-01
304,073.08
-
-
-
PHENOL
0.95
-
-
13.88
-
PHOSGENE
0.0025
-
2.19
-
-
PHOSPHINE
0.13
-
-
-
0.48
POLYCHLORINATED BIPHENYLS
8.30E-05
132.83
-
-
-
POTASSIUM CHROMATE
6.20E-04
-
0.54
-
-
POTASSIUM DICHROMATE
6.20E-04
-
0.54
-
-
SODIUM CHROMATE
6.20E-04
-
0.54
-
-
SODIUM DICHROMATE
6.20E-04
-
0.54
-
-
STYRENE
10.6
-
-
154.92
-
SULFURIC ACID
0.012
0.1
-
10.52
1.46
-
Page 3of4
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D6 Form - Continued
SUMMARY OF BACKING OUT FROM WORST CASE UNIT IMPACT TO ALLOWABLE EMISSIONS
Unit Impact is for 1 lb/hour emissions
Worst Case Unit Impact (hourly basis)
65 ug/m^3
converted to 15-min basis
65 ug/m^3
converted to 24 hour basis
26 ug/m^3
converted to annual basis
5.2 u /m^3
TAP
Annual
AAL's (mg/m^3)
24-hour 1-hour
15-min
ALLOWABLE EMISSIONS (pounds per period)
Annual 24-hour 1-hour 15-min
STRONTIUM CHROMATE
8.30E-08
0.13
- -
-
TETRACHLORODIBENZO-P-DIOXIN
3.00E-09
0.00
- -
-
1,1,1,2-TETRACHLORO-2,2-DIFLUOROETHANE
52
-
45,600.00 -
-
1,1,2,2-TETRACHLORO-I,2-DIFLUOROETHANE
52
-
45,600.00 -
-
1,1,1,2-TETRACHLOROETHANE
6.30E-03
10,082.42
- -
-
TOLUENE
4.7
56
-
4,121.54 -
204.62
TOLUENE-2,4-DIISOCYANATE
0.0005
0.015
-
0.44 -
0.05
TRICHLOROETHYLENE
5.90E-02
94,422.69
- -
-
TRICHLOROFLUOROMETHANE
560
-
- 8,184.62
-
1,1,2-TRICHLORO-1,2,2-TRIFLUOROETHANE
950
-
- -
3,471.15
VINYL CHLORIDE
3.80E-04
608.15
- -
-
VINYLIDENE CHLORIDE
0.12
-
105.23 -
-
XYLENE
2.7
65
-
2,367.69 -
237.50
ZINC CHROMATE
8.30E-08
0.13
- -
-
Page 4of4
EXHIBIT A
SCREEN3 MODELING RESULTS (Page 1 of 3)
*** SCREEN3 MODEL RUN ***
*** VERSION DATED 95250 ***
DuPont Fayetteville - Stack
Evaluation - 12/14/98
SIMPLE TERRAIN INPUTS:
SOURCE TYPE =
POINT
EMISSION RATE•(G/S) _
.126100
STACK HEIGHT (M) =
30.5000
STK INSIDE DIAM (M) _
.5200
STK EXIT VELOCITY (MIS)=
36.6000
STK GAS EXIT TEMP (K) =
293.0000
AMBIENT AIR TEMP (K) =
293.0000
RECEPTOR HEIGHT (M) _
.0000
URBAN/RURAL OPTION =
RURAL
BUILDING HEIGHT (M) =
12.2000
MIN HORIZ BLDG DIM (M) =
12.2000
MAX HORIZ BLDG DIM (M) =
61.1000
***************************************
*** SUMMARY OF SCREEN MODEL RESULTS ***
***************************************
CALCULATION
MAX CONC
DIST TO
TERRAIN
PROCEDURE
(UG/M**3)
MAX (M)
HT (M)
--------------
SIMPLE TERRAIN
-----------
2.785
-------
1820.
-------
0.
***************************************************
** REMEMBER TO INCLUDE BACKGROUND CONCENTRATIONS **
***************************************************
BUOY. FLUX = .000 M**4/S**3; MOM. FLUX = 90.554 M**4/S**2
*** FULL METEOROLOGY ***
**********************************
*** SCREEN AUTOMATED DISTANCES ***
**********************************
12/14/98
13:51:19
DEQ-CFW 00088360
EXHIBIT A
SCREEN3 MODELING RESULTS (Page 2 of 3)
*** TERRAIN HEIGHT OF 0.0 M ABOVE STACK BASE USED FOR FOLLOWING DISTANCES ***
DIST
CONC
U10M
(M)
(UG/M**3)
STAB
(M/S)
-------
579.
----------
2.535
----
2
-----
1.0
�� -►600.
2.526
2
1.0
700.
2.542
3
1.5
800.
2.481
3
1.5
900.
2.404
3
1.0
1000.
2.363
3
1.0
1100.
2.272
3
1.0
1200.
2.318
5
1.0
1300.
2.480
5
1.0
1400.
2.600
5
1.0
1500.
2.686
5
1.0
1600.
2.742
5
1.0
1700.
2.773
5
1.0
1800.
2.785
5
1.0
1900.
2.781
5
1.0
2000.
2.764
5
1.0
2100.
2.728
5
1.0
2200.
2.687
5
1.0
2300.
2.642
5
1.0
2400.
2.594
5
1.0
2500.
2.544
5
1.0
2600.
2.493
5
1.0
2700.
2.441
5
1.0
2800.
2.389
5
1.0
2900.
2.337
5
1.0
3000.
2.285
5
1.0
3500.
2.039
5
1.0
4000.
1.842
6
1.0
4500.
1.766
6
1.0
5000.
1.684
6
1.0
5500.
1.600
6
1.0
6000.
1.520
6
1.0
6500.
1.443
6
1.0
7000.
1.370
6
1.0
7500.
1.301
6
1.0
8000.
1.237
6
1.0
8500.
1.178
6
1.0
9000.
1.123
6
1.0
9500.
1.073
6
1.0
10000.
1.026
6
1.0
15000.
.7014
6
1.0
20000.
.5276
6
1.0
25000.
.4202
6
1.0
30000.
.3476
6
1.0
40000.
.2586
6
1.0
50000.
.2051
6
1.0
USTK MIX HT
(M/S) (M)
1.1 320.0
1.1 320.0
1.7 480.0
1.7 480.0
1.1 320.0
1.1 320.0
1.1 320.0
1.5 10000.0
1.5 10000.0
1.5 10000.0
1.5 10000.0
1.5 10000.0
1.5 10000.0
1.5 10000.0
1.5 10000.0
1.5 10000.0
1.5 10000.0
1.5 10000.0
1.5 10000.0
1.5 10000.0
1.5 10000.0
1.5 10000.0
1.5 10000.0
1.5 10000.0
1.5 10000.0
1.5 10000.0
1.5 10000.0
1.8 10000.0
1.8 10000.0
1.8 10000.0
1.8 10000.0
1.8 10000.0
1.8 10000.0
1.8 10000.0
1.8 10000.0
1.8 10000.0
1.8 10000.0
1.8 10000.0
1.8 10000.0
1.8 10000.0
1.8 10000.0
1.8 10000.0
1.8 10000.0
1.8 10000.0
1.8 10000.0
1.8 10000.0
PLUME SIGMA
HT (M) Y (M)
83.31 95.62
83.31 98.66
64.55 75.12
64.55 84.70
81.57 94.81
81.57 104.14
81.57 113.40
50.50 60.42
50.50 64.95
50.50 69.45
50.50 73.92
50.50 78.36
50.50 82.77
50.50 87.16
50.50 91.53
50.50 95.87
50.50 100.19
50.50 104.49
50.50 108.77
50.50 113.03
50.50 117.28
50.50 121.51
50.50 125.72
50.50 129.91
50.50 134.09
50.50 138.25
50.50 158.86
47.41 119.27
47.41 132.59
47.41 145.75
47.41 158:77
47.41 171.65
47.41 184.41
47.41 197.05
47.41 209.59
47.41 222.04
47.41 234.39
47.41 246.65
47.41 258.84
47.41 270.95
47.41 388.46
47.41 500.97
47.41 609.77
47.41 715.60
47.41 920.24
47.41 1117.43
SIGMA
Z (M)
61.88
64.20
45.18
50.79
57.41
62.86
68.29
24.93
26.15
27.35
28.51
29.65
30.76
31.85
32.92
33.97
34.91
35.82
36.72
37.60
38.47
39.32
40.16
40.99
41.80
42.61
46.46
31.21
32.93
34.55
36.08
37.55
38.95
40.29
41.45
42.56
43.63
44.66
45.66
46.63
55.10
60.49
65.04
69.01
74.65
79.34
DWASH
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
DEQ-CFW 00088361
EXHIBIT A
SCREEN3 MODELING RESULTS (Page 3 of 3)
I MAXIMUM 1-HR CONCENTRATION AT OR BEYOND 579. M:
1820. 2.785 5 1.0 1.5 10000.0 50.50 87.99 32.06 NO
DIST = DISTANCE FROM THE SOURCE
CONC = MAXIMUM GROUND LEVEL CONCENTRATION
STAB = ATMOSPHERIC STABILITY CLASS (1=A, 2=B, 3=C, 4=D, 5=E, 6=F)
U10M = WIND SPEED AT THE 10-M LEVEL
USTK = WIND SPEED AT STACK HEIGHT
MIX HT = MIXING HEIGHT
PLUME HT= PLUME CENTERLINE HEIGHT
SIGMA Y = LATERAL DISPERSION PARAMETER
SIGMA Z = VERTICAL DISPERSION PARAMETER
DWASH = BUILDING DOWNWASH:
DWASH= MEANS NO CALC MADE (CONC = 0.0)
DWASH=NO MEANS NO BUILDING DOWNWASH USED
DWASH=HS MEANS HUBER-SNYDER DOWNWASH USED
DWASH=SS MEANS SCHULMAN-SCIRE DOWNWASH USED
DWASH=NA MEANS DOWNWASH NOT APPLICABLE, X<3*LB
*** CAVITY CALCULATION - 1 ***
CONC (UG/M**3) _ .0000
CRIT WS @10M (MIS) = 99.99
CRIT WS @ HS (MIS) = 99.99
DILUTION WS (MIS) = 99.99
CAVITY HT (M) = 17.52
CAVITY LENGTH (M) = 58.48
ALONGWIND DIM (M) = 12.20
*** CAVITY CALCULATION - 2 ***
CONC (UG/M**3) _ .0000
CRIT WS 010M (MIS) = 99.99
CRIT WS @ HS (MIS) = 99.99
DILUTION WS (MIS) = 99.99
CAVITY HT (M) = 12.20
CAVITY LENGTH (M) = 17.08
ALONGWIND DIM (M) = 61.10
CAVITY CONC NOT CALCULATED FOR CRIT WS > 20.0 MIS. CONC SET = 0.0
**********************************
*** END OF SCREEN MODEL OUTPUT ***
**********************************
DEQ-CFW 00088362