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Appendix E
NOx Emissions Data
- Table 1 - Emissions Sources- Table 2 - NOx Emissions Sources/Calculations
- Table 3 - Engine Details- Manufacturer’s Specifications
- Table 4 - Gas Fired Equipment Details- Table 5 - Air Quality Modeling Results
- NOx Modeling Inputs and Results- Table 6 – Flaring Details
586 Yes Yes Yes No586 Yes Yes Yes No1172 Yes Yes Yes No410 Yes Yes Yes No410 Yes Yes Yes No586 Yes Yes Yes No586 Yes Yes Yes NoN/A Yes No Yes NoN/A Yes No Yes No
1172 Yes Yes No No440 Yes Yes No No1078 Yes Yes No YesN/A Yes No Yes No
PROJECT NAME/LOCATION Waskada Liquids Recovery Plant/ 11-30-001-25 W1MPenn West Exploration Ltd.COMPANY NAME
TABLE 1EMISSION SOURCES
PREPARED BY Andrew McKayDATE June 21, 2012
PROJECT# 013-06-00ENGINEERING PROJECT # N/A
FWKO Firetube #1
Treater Firetube #4
Source
REVISION #
EXISTING
Treater Firetube #3
FWKO Firetube #3Treater Firetube #1Treater Firetube #2
Flare Stack - Train 2/3Flare Stack - Train 1
N/A
Incinerator
HEAT MEDIUM - Hot OilNEW
N/A
N/A
N/A
HEAT MEDIUM - GlycolInlet Compressor
N/A
N/A
FWKO Firetube #2
PropakPropakWaukesha L5794LT
N/AN/AN/AN/A
0
SO2 Contributor NoiseContributor
Make/Model (if applicable) Rating (kW) CO2 ContributorNOX
Contributor
Page1 of 1P:\Projects\013\013-06-00\611-Project Execution - P&L - Tables-Reports\ERCS - Emission Sources.xlsEmission Sources
NOx Factor NOx NOx
(g/kW hr) (kg/hr) (g/s)
Existing Approval
FWKO Firetube #12 N/A 586.00 0.36 0.21 0.06
FWKO Firetube #22 N/A 586.00 0.36 0.21 0.06
FWKO Firetube #32 N/A 1172.00 0.36 0.42 0.12
Treater Firetube #12 N/A 410.00 0.36 0.15 0.04
Treater Firetube #22 N/A 410.00 0.36 0.15 0.04
Treater Firetube #32 N/A 586.00 0.36 0.21 0.06
Treater Firetube #42 N/A 586.00 0.36 0.21 0.06
Total Existing 1.56 0.43
New Equipment
HEAT MEDIUM - Hot Oil2
Propak 1172.00 0.36 0.42 0.12
HEAT MEDIUM - Glycol2
Propak 440.00 0.36 0.16 0.04
Inlet Compressor1
Waukesha L5794LT 1078.00 6.70 7.22 2.01
Total New Equipment 7.80 2.17
Total 9.36 2.60
Notes: 1) Data obtained from equipment manufacturer.2) Calculations attached
Source Make/Model Rating (kW)
LSD - 11-30-001-25 W1M
Breakdown Of Nitrogen Oxide Sources
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONS SOURCESTable 2
Page 1 of 1
Prepared By: Jason SchmidtRev: 0 ERCS
ERCS - NOx Emission Sources Revised.xlsRev 0Date Produced: 2012-07-18
Item: FWKO Firetube #1 (existing)Duty:btu/hr: 2,000,000
Q = Reboiler/Heater Duty, BTU/hrkW = Power rating, kW
N = lbs NOx per 103 ft
3 of fuel gas burned, lbs/10
3ft
3
E = Heater efficiency constantF = Firing efficiency constant
NHV = Net heating value of fuel gas, BTU/scf (Typical)M = Mass conversion, kg/lbW = Mass constant, tonnes/kgT = Time coefficient, hr/day
Q = 2,000,000kW = 586
N1 = 0.00018 Note 1: Value is based on USEPA, 1997 Emissions
E = 0.6 Factors from section 1.4 of Compilation ofF = 0.7 Air Pollution Emissions Factors.
NHV = 900M = 0.454W = 0.001T = 24
Step 1 Calculate fuel gas consumption, F
F = Q*0.7 = BTU/hr*0.7 = scf NHV*0.6 BTU/scf*0.6 hr
F = 2,592.59
Step 2 Calculate NOx emissions
NOx = F*N*M = scf * lbs * kg = kg hr scf lbs hr
NOx = 0.212 kg hr
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONSFIRED EQUIPMENT
CALCULATION
Prepared By: AMRev: 0 ERCS
File: ERCS-CALC-NOx Emissions Calculation Fired Equipment.xlsDate Produced:2012-07-18
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONSFIRED EQUIPMENT
CALCULATION
Step 3 Calculate NOx emissions, g/s
NOx, g/s = NOx kg * 1000g * 1hr = g hr kg 3600s s
NOx, g/s = 0.059 g s
Step 4 Calculate NOx emissions in g/kW hr
NOx, g/kW hr = NOx kg * 1000g = g hr kg kW kW hr
NOx, g/kW hr = 0.361 g kW hr
Prepared By: AMRev: 0 ERCS
File: ERCS-CALC-NOx Emissions Calculation Fired Equipment.xlsDate Produced:2012-07-18
Item: FWKO Firetube #2 (existing)Duty:btu/hr: 2,000,000
Q = Reboiler/Heater Duty, BTU/hrkW = Power rating, kW
N = lbs NOx per 103 ft
3 of fuel gas burned, lbs/10
3ft
3
E = Heater efficiency constantF = Firing efficiency constant
NHV = Net heating value of fuel gas, BTU/scf (Typical)M = Mass conversion, kg/lbW = Mass constant, tonnes/kgT = Time coefficient, hr/day
Q = 2,000,000kW = 586
N1 = 0.00018 Note 1: Value is based on USEPA, 1997 Emissions
E = 0.6 Factors from section 1.4 of Compilation ofF = 0.7 Air Pollution Emissions Factors.
NHV = 900M = 0.454W = 0.001T = 24
Step 1 Calculate fuel gas consumption, F
F = Q*0.7 = BTU/hr*0.7 = scf NHV*0.6 BTU/scf*0.6 hr
F = 2,592.59
Step 2 Calculate NOx emissions
NOx = F*N*M = scf * lbs * kg = kg hr scf lbs hr
NOx = 0.212 kg hr
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONSFIRED EQUIPMENT
CALCULATION
Prepared By: AMRev: 0 ERCS
File: ERCS-CALC-NOx Emissions Calculation Fired Equipment.xlsDate Produced:2012-07-18
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONSFIRED EQUIPMENT
CALCULATION
Step 3 Calculate NOx emissions, g/s
NOx, g/s = NOx kg * 1000g * 1hr = g hr kg 3600s s
NOx, g/s = 0.059 g s
Step 4 Calculate NOx emissions in g/kW hr
NOx, g/kW hr = NOx kg * 1000g = g hr kg kW kW hr
NOx, g/kW hr = 0.361 g kW hr
Prepared By: AMRev: 0 ERCS
File: ERCS-CALC-NOx Emissions Calculation Fired Equipment.xlsDate Produced:2012-07-18
Item: FWKO Firetube #3 (existing)Duty:btu/hr: 4,000,000
Q = Reboiler/Heater Duty, BTU/hrkW = Power rating, kW
N = lbs NOx per 103 ft
3 of fuel gas burned, lbs/10
3ft
3
E = Heater efficiency constantF = Firing efficiency constant
NHV = Net heating value of fuel gas, BTU/scf (Typical)M = Mass conversion, kg/lbW = Mass constant, tonnes/kgT = Time coefficient, hr/day
Q = 4,000,000kW = 1,172
N1 = 0.00018 Note 1: Value is based on USEPA, 1997 Emissions
E = 0.6 Factors from section 1.4 of Compilation ofF = 0.7 Air Pollution Emissions Factors.
NHV = 900M = 0.454W = 0.001T = 24
Step 1 Calculate fuel gas consumption, F
F = Q*0.7 = BTU/hr*0.7 = scf NHV*0.6 BTU/scf*0.6 hr
F = 5,185.19
Step 2 Calculate NOx emissions
NOx = F*N*M = scf * lbs * kg = kg hr scf lbs hr
NOx = 0.424 kg hr
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONSFIRED EQUIPMENT
CALCULATION
Prepared By: AMRev: 0 ERCS
File: ERCS-CALC-NOx Emissions Calculation Fired Equipment.xlsDate Produced:2012-07-18
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONSFIRED EQUIPMENT
CALCULATION
Step 3 Calculate NOx emissions, g/s
NOx, g/s = NOx kg * 1000g * 1hr = g hr kg 3600s s
NOx, g/s = 0.118 g s
Step 4 Calculate NOx emissions in g/kW hr
NOx, g/kW hr = NOx kg * 1000g = g hr kg kW kW hr
NOx, g/kW hr = 0.361 g kW hr
Prepared By: AMRev: 0 ERCS
File: ERCS-CALC-NOx Emissions Calculation Fired Equipment.xlsDate Produced:2012-07-18
Item: Treater Firetube #1 (existing)Duty:btu/hr: 1,400,000
Q = Reboiler/Heater Duty, BTU/hrkW = Power rating, kW
N = lbs NOx per 103 ft
3 of fuel gas burned, lbs/10
3ft
3
E = Heater efficiency constantF = Firing efficiency constant
NHV = Net heating value of fuel gas, BTU/scf (Typical)M = Mass conversion, kg/lbW = Mass constant, tonnes/kgT = Time coefficient, hr/day
Q = 1,400,000kW = 410
N1 = 0.00018 Note 1: Value is based on USEPA, 1997 Emissions
E = 0.6 Factors from section 1.4 of Compilation ofF = 0.7 Air Pollution Emissions Factors.
NHV = 900M = 0.454W = 0.001T = 24
Step 1 Calculate fuel gas consumption, F
F = Q*0.7 = BTU/hr*0.7 = scf NHV*0.6 BTU/scf*0.6 hr
F = 1,814.81
Step 2 Calculate NOx emissions
NOx = F*N*M = scf * lbs * kg = kg hr scf lbs hr
NOx = 0.148 kg hr
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONSFIRED EQUIPMENT
CALCULATION
Prepared By: AMRev: 0 ERCS
File: ERCS-CALC-NOx Emissions Calculation Fired Equipment.xlsDate Produced:2012-07-18
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONSFIRED EQUIPMENT
CALCULATION
Step 3 Calculate NOx emissions, g/s
NOx, g/s = NOx kg * 1000g * 1hr = g hr kg 3600s s
NOx, g/s = 0.041 g s
Step 4 Calculate NOx emissions in g/kW hr
NOx, g/kW hr = NOx kg * 1000g = g hr kg kW kW hr
NOx, g/kW hr = 0.361 g kW hr
Prepared By: AMRev: 0 ERCS
File: ERCS-CALC-NOx Emissions Calculation Fired Equipment.xlsDate Produced:2012-07-18
Item: Treater Firetube #2 (existing)Duty:btu/hr: 1,400,000
Q = Reboiler/Heater Duty, BTU/hrkW = Power rating, kW
N = lbs NOx per 103 ft
3 of fuel gas burned, lbs/10
3ft
3
E = Heater efficiency constantF = Firing efficiency constant
NHV = Net heating value of fuel gas, BTU/scf (Typical)M = Mass conversion, kg/lbW = Mass constant, tonnes/kgT = Time coefficient, hr/day
Q = 1,400,000kW = 410
N1 = 0.00018 Note 1: Value is based on USEPA, 1997 Emissions
E = 0.6 Factors from section 1.4 of Compilation ofF = 0.7 Air Pollution Emissions Factors.
NHV = 900M = 0.454W = 0.001T = 24
Step 1 Calculate fuel gas consumption, F
F = Q*0.7 = BTU/hr*0.7 = scf NHV*0.6 BTU/scf*0.6 hr
F = 1,814.81
Step 2 Calculate NOx emissions
NOx = F*N*M = scf * lbs * kg = kg hr scf lbs hr
NOx = 0.148 kg hr
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONSFIRED EQUIPMENT
CALCULATION
Prepared By: AMRev: 0 ERCS
File: ERCS-CALC-NOx Emissions Calculation Fired Equipment.xlsDate Produced:2012-07-18
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONSFIRED EQUIPMENT
CALCULATION
Step 3 Calculate NOx emissions, g/s
NOx, g/s = NOx kg * 1000g * 1hr = g hr kg 3600s s
NOx, g/s = 0.041 g s
Step 4 Calculate NOx emissions in g/kW hr
NOx, g/kW hr = NOx kg * 1000g = g hr kg kW kW hr
NOx, g/kW hr = 0.361 g kW hr
Prepared By: AMRev: 0 ERCS
File: ERCS-CALC-NOx Emissions Calculation Fired Equipment.xlsDate Produced:2012-07-18
Item: Treater Firetube #3 (existing)Duty:btu/hr: 2,000,000
Q = Reboiler/Heater Duty, BTU/hrkW = Power rating, kW
N = lbs NOx per 103 ft
3 of fuel gas burned, lbs/10
3ft
3
E = Heater efficiency constantF = Firing efficiency constant
NHV = Net heating value of fuel gas, BTU/scf (Typical)M = Mass conversion, kg/lbW = Mass constant, tonnes/kgT = Time coefficient, hr/day
Q = 2,000,000kW = 586
N1 = 0.00018 Note 1: Value is based on USEPA, 1997 Emissions
E = 0.6 Factors from section 1.4 of Compilation ofF = 0.7 Air Pollution Emissions Factors.
NHV = 900M = 0.454W = 0.001T = 24
Step 1 Calculate fuel gas consumption, F
F = Q*0.7 = BTU/hr*0.7 = scf NHV*0.6 BTU/scf*0.6 hr
F = 2,592.59
Step 2 Calculate NOx emissions
NOx = F*N*M = scf * lbs * kg = kg hr scf lbs hr
NOx = 0.212 kg hr
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONSFIRED EQUIPMENT
CALCULATION
Prepared By: AMRev: 0 ERCS
File: ERCS-CALC-NOx Emissions Calculation Fired Equipment.xlsDate Produced:2012-07-18
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONSFIRED EQUIPMENT
CALCULATION
Step 3 Calculate NOx emissions, g/s
NOx, g/s = NOx kg * 1000g * 1hr = g hr kg 3600s s
NOx, g/s = 0.059 g s
Step 4 Calculate NOx emissions in g/kW hr
NOx, g/kW hr = NOx kg * 1000g = g hr kg kW kW hr
NOx, g/kW hr = 0.361 g kW hr
Prepared By: AMRev: 0 ERCS
File: ERCS-CALC-NOx Emissions Calculation Fired Equipment.xlsDate Produced:2012-07-18
Item: Treater Firetube #4 (existing)Duty:btu/hr: 2,000,000
Q = Reboiler/Heater Duty, BTU/hrkW = Power rating, kW
N = lbs NOx per 103 ft
3 of fuel gas burned, lbs/10
3ft
3
E = Heater efficiency constantF = Firing efficiency constant
NHV = Net heating value of fuel gas, BTU/scf (Typical)M = Mass conversion, kg/lbW = Mass constant, tonnes/kgT = Time coefficient, hr/day
Q = 2,000,000kW = 586
N1 = 0.00018 Note 1: Value is based on USEPA, 1997 Emissions
E = 0.6 Factors from section 1.4 of Compilation ofF = 0.7 Air Pollution Emissions Factors.
NHV = 900M = 0.454W = 0.001T = 24
Step 1 Calculate fuel gas consumption, F
F = Q*0.7 = BTU/hr*0.7 = scf NHV*0.6 BTU/scf*0.6 hr
F = 2,592.59
Step 2 Calculate NOx emissions
NOx = F*N*M = scf * lbs * kg = kg hr scf lbs hr
NOx = 0.212 kg hr
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONSFIRED EQUIPMENT
CALCULATION
Prepared By: AMRev: 0 ERCS
File: ERCS-CALC-NOx Emissions Calculation Fired Equipment.xlsDate Produced:2012-07-18
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONSFIRED EQUIPMENT
CALCULATION
Step 3 Calculate NOx emissions, g/s
NOx, g/s = NOx kg * 1000g * 1hr = g hr kg 3600s s
NOx, g/s = 0.059 g s
Step 4 Calculate NOx emissions in g/kW hr
NOx, g/kW hr = NOx kg * 1000g = g hr kg kW kW hr
NOx, g/kW hr = 0.361 g kW hr
Prepared By: AMRev: 0 ERCS
File: ERCS-CALC-NOx Emissions Calculation Fired Equipment.xlsDate Produced:2012-07-18
Item: HEAT MEDIUM - Hot Oil (New)Duty:btu/hr: 4,000,000
Q = Reboiler/Heater Duty, BTU/hrkW = Power rating, kW
N = lbs NOx per 103 ft
3 of fuel gas burned, lbs/10
3ft
3
E = Heater efficiency constantF = Firing efficiency constant
NHV = Net heating value of fuel gas, BTU/scf (Typical)M = Mass conversion, kg/lbW = Mass constant, tonnes/kgT = Time coefficient, hr/day
Q = 4,000,000kW = 1,172
N1 = 0.00018 Note 1: Value is based on USEPA, 1997 Emissions
E = 0.6 Factors from section 1.4 of Compilation ofF = 0.7 Air Pollution Emissions Factors.
NHV = 900M = 0.454W = 0.001T = 24
Step 1 Calculate fuel gas consumption, F
F = Q*0.7 = BTU/hr*0.7 = scf NHV*0.6 BTU/scf*0.6 hr
F = 5,185.19
Step 2 Calculate NOx emissions
NOx = F*N*M = scf * lbs * kg = kg hr scf lbs hr
NOx = 0.424 kg hr
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONSFIRED EQUIPMENT
CALCULATION
Prepared By: AMRev: 0 ERCS
File: ERCS-CALC-NOx Emissions Calculation Fired Equipment.xlsDate Produced:2012-07-18
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONSFIRED EQUIPMENT
CALCULATION
Step 3 Calculate NOx emissions, g/s
NOx, g/s = NOx kg * 1000g * 1hr = g hr kg 3600s s
NOx, g/s = 0.118 g s
Step 4 Calculate NOx emissions in g/kW hr
NOx, g/kW hr = NOx kg * 1000g = g hr kg kW kW hr
NOx, g/kW hr = 0.361 g kW hr
Prepared By: AMRev: 0 ERCS
File: ERCS-CALC-NOx Emissions Calculation Fired Equipment.xlsDate Produced:2012-07-18
Item: HEAT MEDIUM -Glycol (New)Duty:btu/hr: 1,500,000
Q = Reboiler/Heater Duty, BTU/hrkW = Power rating, kW
N = lbs NOx per 103 ft
3 of fuel gas burned, lbs/10
3ft
3
E = Heater efficiency constantF = Firing efficiency constant
NHV = Net heating value of fuel gas, BTU/scf (Typical)M = Mass conversion, kg/lbW = Mass constant, tonnes/kgT = Time coefficient, hr/day
Q = 1,500,000kW = 440
N1 = 0.00018 Note 1: Value is based on USEPA, 1997 Emissions
E = 0.6 Factors from section 1.4 of Compilation ofF = 0.7 Air Pollution Emissions Factors.
NHV = 900M = 0.454W = 0.001T = 24
Step 1 Calculate fuel gas consumption, F
F = Q*0.7 = BTU/hr*0.7 = scf NHV*0.6 BTU/scf*0.6 hr
F = 1,944.44
Step 2 Calculate NOx emissions
NOx = F*N*M = scf * lbs * kg = kg hr scf lbs hr
NOx = 0.159 kg hr
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONSFIRED EQUIPMENT
CALCULATION
Prepared By: AMRev: 0 ERCS
File: ERCS-CALC-NOx Emissions Calculation Fired Equipment.xlsDate Produced:2012-07-18
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 18, 2012
NOx EMISSIONSFIRED EQUIPMENT
CALCULATION
Step 3 Calculate NOx emissions, g/s
NOx, g/s = NOx kg * 1000g * 1hr = g hr kg 3600s s
NOx, g/s = 0.044 g s
Step 4 Calculate NOx emissions in g/kW hr
NOx, g/kW hr = NOx kg * 1000g = g hr kg kW kW hr
NOx, g/kW hr = 0.361 g kW hr
Prepared By: AMRev: 0 ERCS
File: ERCS-CALC-NOx Emissions Calculation Fired Equipment.xlsDate Produced:2012-07-18
Line No.123456789
101112
NOx Emission Rate (kg/hr) 7.22NOx Emission Rate (g/s) 2.01
Exhaust Gas Velocity (m/s) 42.0NOx Emission Rate (g/NOx/kW*hr) 6.70
Building Peak Height (metres) 3.9Exhaust Gas Temperature (°C) 484
Exhaust Stack Diameter (metres) 0.356Exhaust Stack Height Above Grade (metres) 10.0
Model L5794LTRated Power (Kilowatts) 1078
Make WaukeshaExisting/New New
REVISION #June 21, 20120
Engine No. 1
ENGINE DETAILSTABLE 3
PROJECT NAME/LOCATIONPROJECT #
Waskada Liquids Recovery Plant / 11-30-001-25 W1M013-06-00
COMPANY NAME Penn West Exploration Ltd.
ENGINEERING PROJECT #PREPARED BY
N/AAndrew McKay
DATE
Page 1 of 3P:\Projects\013\013-06-00\611-Project Execution - P&L - Tables-Reports\ERCS - Engine Details .xlsEngine Details
VHP - L5794LTGas Compression
ENGINE SPEED (rpm): 1200 COOLING SYSTEM: JW, IC + OCDISPLACEMENT (in3): 5788 INTERCOOLER WATER INLET (°F): 130COMPRESSION RATIO: 10.2:1 JACKET WATER OUTLET (°F): 180IGNITION SYSTEM: ESM JACKET WATER CAPACITY (gal): 107EXHAUST MANIFOLD: Water Cooled AUXILIARY WATER CAPACITY (gal): 11COMBUSTION: Lean Burn, Open Chamber LUBE OIL CAPACITY (gal): 190ENGINE DRY WEIGHT (lbs): 21000 MAX. EXHAUST BACKPRESSURE (in. H2O): 14AIR/FUEL RATIO SETTING: 7.8% O2 MAX. AIR INLET RESTRICTION (in. H2O): 15
NOx SELECTION (g/bhp-hr): 5
SITE CONDITIONS:FUEL: ALTITUDE (ft): 1494FUEL PRESSURE RANGE (psig): 43 - 60 MAXIMUM INLET AIR TEMPERATURE (°F): 86FUEL HHV (BTU/ft3): 1,117.4 FUEL WKI: 61.4FUEL LHV (BTU/ft3): 1,010.1
SITE SPECIFIC TECHNICAL DATA
UNITS 100% 75% 50%
CONTINUOUS ENGINE POWER BHP 1419 1450 1088 728OVERLOAD % 2/24 hr 0 1 - -
MECHANICAL EFFICIENCY (LHV) % 32.0 32.3 34.3 29.0CONTINUOUS POWER AT FLYWHEEL BHP 1349 1380 1018 658
based on 70 HP cooling fan
MAX RATING AT 100 °F AIR TEMP
SITE RATING AT MAXIMUM INLET AIR TEMPERATURE OF 86 °F
POWER RATING
FUEL CONSUMPTION (LHV) BTU/BHP-hr 7565 7501 6940 7944FUEL CONSUMPTION (HHV) BTU/BHP-hr 8369 8298 7677 8787FUEL FLOW based on fuel analysis LHV SCFM 186 188 131 100
JACKET WATER (JW) BTU/hr x 1000 2702 2683 1762 1551LUBE OIL (OC) BTU/hr x 1000 488 477 417 415INTERCOOLER (IC) BTU/hr x 1000 583 541 217 51EXHAUST BTU/hr x 1000 3166 3265 2141 1640RADIATION BTU/hr x 1000 394 432 391 385
NOx (NO + NO2) g/bhp-hr 5.0 5.0 5.0 5.0CO g/bhp-hr 1.9 1.9 2.4 2.7THC g/bhp-hr 1.8 1.7 2.4 3.4NMHC g/bhp-hr 0.97 0.94 1.27 1.79NM, NEHC g/bhp-hr 0.22 0.22 0.26 0.34CO2 g/bhp-hr 484 480 444 508
INDUCTION AIR FLOW SCFM 3114 3155 2189 1677EXHAUST GAS MASS FLOW lb/hr 13984 14166 9830 7530EXHAUST GAS FLOW at exhaust temp, 14.5 psia ACFM 8366 8487 5634 4286EXHAUST TEMPERATURE °F 901 903 844 835
TOTAL JACKET WATER CIRCUIT (JW) BTU/hr x 1000 3064TOTAL AUXILIARY WATER CIRCUIT (IC + OC) BTU/hr x 1000 1215
JACKET WATER PUMP MIN. DESIGN FLOW GPM 450JACKET WATER PUMP MAX. EXTERNAL RESTRICTION psig 16AUX WATER PUMP MIN. DESIGN FLOW GPM 80AUX WATER PUMP MAX. EXTERNAL RESTRICTION psig 31
All data provided per the condtions listed in the notes section on page three.
AIR INTAKE / EXHAUST GAS
HEAT EXHANGER SIZING
EMISSIONS
FUEL CONSUMPTION
COOLING SYSTEM WITH ENGINE MOUNTED WATER PUMPS
HEAT REJECTION
Data Generated by EngCalc Program Version 3.1. Dresser Inc., Dresser Waukesha6/29/2012 2:27 PM Page 1 of 3
VHP - L5794LTGas Compression
FUEL COMPOSITION
HYDROCARBONS: Mole or Volume % FUEL:Methane CH4 57.35 FUEL PRESSURE RANGE (psig): 43 - 60Ethane C2H6 25.92 FUEL WKI: 61.4Propane C3H8 2.49Iso-Butane I-C4H10 0.1 FUEL SLHV (BTU/ft3): 992.56Normal Butane N-C4H10 0.15 FUEL SLHV (MJ/Nm3): 39.03Iso-Pentane I-C5H12 0.01Normal Pentane N-C5H12 0.01 FUEL LHV (BUT/ft3): 1010.14Hexane C6H14 0 FUEL LHV (MJ/Nm3): 39.72Heptane C7H16 0Ethene C2H4 0 FUEL HHV (BUT/ft3): 1117.41Propene C3H6 0 FUEL HHV (MJ/Nm3): 43.94
SUM HYDROCARBONS 86.03 FUEL DENSITY (SG): 0.77NON-HYDROCARBONS:
Nitrogen N2 13.49Oxygen O2 0Helium He 0.04Carbon Dioxide CO2 0.45Carbon Monoxide CO 0Hydrogen H2 0Water Vapor H2O 0
TOTAL FUEL 100 01
Standard Conditions per ASTM D3588-91 [60°F and 14.696psia] and ISO 6976:1996-02-01[25, V(0;101.325)].Based on the fuel composition, supply pressure and temperature, liquid hydrocarbons may be present in the fuel. No liquid hydrocarbons are allowed in the fuel. The fuel must not contain any liquid water. Dresser Waukesha recommends both of the following:1) Dew point of the fuel gas to be at least 20°F (11°C) below the measured temperature of the gas at the inlet of the engine fuel regulator.2) A fuel filter separator to be used on all fuels except commercial quality natural gas.Refer to the 'Fuel and Lubrication' section of 'Technical Data' or contact the TOTAL FUEL 100.01
FUEL CONTAMINANTSTotal Sulfur Compounds % volume Total Sulfur Compounds 0 µg/BTUTotal Halogen as Cloride % volume Total Halogen as Cloride 0 µg/BTUTotal Ammonia % volume Total Ammonia 0 µg/BTU
Siloxanes Total Siloxanes 0 µg/BTUTetramethyl silane % volumeTrimethyl silanol % volumeHexamethyldisiloxane (L2) % volumeHexamethylcyclotrisiloxane (D3) % volumeOctamethyltrisiloxane (L3) % volumeOctamethylcyclotetrasiloxane (D4) % volumeDecamethyltetrasiloxane (L4) % volumeDecamethylcyclopentasiloxane (D5) 0 % volumeDodecamethylpentasiloxane (L5) % volumeDodecamethylcyclohexasiloxane (D6) 0 % volumeOthers % volume
No water or hydrocarbon condensates are allowed in the engine. Requires liquids removal.
Calculated fuel contaminant analysis will depend on the entered fuel composition and selected engine model.
000
0
Dresser Waukesha Application Engineering Department for additional information on fuels, or LHV and WKI ® calculations.
0
00
0
0000
Data Generated by EngCalc Program Version 3.1. Dresser Inc., Dresser Waukesha6/29/2012 2:27 PM Page 2 of 3
VHP - L5794LTGas Compression
NOTES
9. Inlet and Exhaust Restrictions based on full rated engine load Refer to the engine specification section of Dresser Waukesha's standard technical data for more information.
6. Air flow is based on undried air with a tolerance of ± 7%.
5. Emission levels are given at engine exhaust outlet flange prior to any after treatment. Values are based on a new engine operating at indicated site conditions, and adjusted to the specified timing and air/fuel ratio at rated load. Emissions are at an absolute humidity of 75 grains H2O/lb (10.71 g H2O/kg) of dry air. Emission levels may vary subject to instrumentation, measurement, ambient conditions, fuel quality, and engine variation. Engine may require adjustment on-site to meet emission values, which may affect engine performance and heat output. NOx, CO, THC, and NMHC emission levels are listed as a not to exceed limit, all other emission levels are estimated. CO2 emissions based on EPA Federal Register/Vol. 74, No. 209/Friday, October 30, 2009 Rules and Regulations 56398, 56399 (3) Tier 3 Calculation Methodology, Equation C-5.
3. Fuel consumption is presented in accordance with ISO 3046/1 with a tolerance of -0 / +5% at maximum rating. Fuel flow calculation based on fuel LHV and fuel consumption with added 5% tolerance.
1. All data is based on engines with standard configurations unless noted otherwise.
12 H t h i i l i th i h t j ti f th i it ith li d t l d dditi l 5% f t
10. Cooling circuit capacity, lube oil capacity, and engine dry weight values are typical.
11. Fuel must conform to Dresser Waukesha "Gaseous Fuel Specification" S7884-7 or most current version. Fuel may require treatment to meet current fuel specification.
7. Exhaust temperature given at engine exhaust outlet flange with a tolerance of ± 75°F (42°C).
8. Exhaust gas mass flow value is based on a "wet basis" with a tolerance of ± 7%.
4. Heat rejection tolerances are ± 30% for radiation, and ± 8% for jacket water, lube oil, intercooler, and exhaust energy.
2. Power rating is adjusted for fuel, site altitude, and site air inlet temperature, in accordance with ISO 3046/1 with tolerance of ± 3%.
REQUIRED OPTION CODES
13. Cooling system design flow is based on minimum allowable cooling system flow. Cooling system maximum external restriction is defined as the allowable restriction at the minimum cooling system flow. Refer to technical data sheets S-5136-34 and S-6543-38 (or latest version) for more information.
12. Heat exchanger sizing values given as the maximum heat rejection of the circuit, with applied tolerances and an additional 5% reserve factor.
Data Generated by EngCalc Program Version 3.1. Dresser Inc., Dresser Waukesha6/29/2012 2:27 PM Page 3 of 3
1 586 1172 5862 0.457 0.762 0.6103 6.71 6.10 7.304 6.09X3.04X3.65 6.09X4.26X3.65 3.5 high5 0.36 0.36 0.366 0.21 0.42 0.217 0.06 0.12 0.06
1 586 1172 4102 0.610 0.762 0.4573 7.30 6.10 5.804 3.5 high 3.5 high 3.5 high5 0.36 0.36 0.366 0.21 0.42 0.157 0.06 0.12 0.04
1 410 586 5862 0.457 0.610 0.6103 5.80 7.30 7.304 3.5 high 3.5 high 3.5 high5 0.36 0.36 0.366 0.15 0.21 0.217 0.04 0.06 0.06
NOx Emission Rate (kg/hr)NOx Emission Rate (g/s)
Exhaust Stack Diameter (metres)Exhaust Stack Height Above Grade (metres)Building Dimensions (LxWxH, metres)NOx Emission Factor (g NOx/kW/hr)
TreaterFiretube #2
TreaterFiretube #3
TreaterFiretube #4
Rated Power (Kilowatts)
NOx Emission Rate (kg/hr)NOx Emission Rate (g/s)
Line No.
Exhaust Stack Diameter (metres)Exhaust Stack Height Above Grade (metres)Building Dimensions (LxWxH, metres)NOx Emission Factor (g NOx/kW/hr)
FWKOFiretube #2
FWKOFiretube #3
TreaterFiretube #1
Rated Power (Kilowatts)
Line No.
NOx Emission Rate (kg/hr)NOx Emission Rate (g/s)
Rated Power (Kilowatts)Exhaust Stack Diameter (metres)
Building Dimensions (LxWxH, metres)NOx Emission Factor (g NOx/kW/hr)
REVISION #
ENGINEERING PROJECT #PREPARED BY
COMPANY NAMEPROJECT NAME/LOCATION
PROJECT #
Exhaust Stack Height Above Grade (metres)
June 21, 20120
DATE
FWKOFiretube #1
Line No. EG Heater Oil Heater
GAS FIRED EQUIPMENT DETAILSTABLE 4
N/AAndrew McKay
Penn West Exploration Ltd.Waskada Liquids Recovery Plant / 11-30-001-25 W1M013-06-00
Page1 of 1P:\Projects\013\013-06-00\611-Project Execution - P&L - Tables-Reports\ERCS - Gas Fired Equipment Details.xlsGas Fired Equipment
1)2)
TABLE 5AIR QUALITY MODELING RESULTS
ENGINEERING PROJECT #
COMPANY NAMEPROJECT NAME/LOCATION
PROJECT #
Penn West Exploration Ltd.Waskada Liquids Recovery Plant / 11-30-001-25 W1M013-06-00
REVISION #
PREPARED BYDATE
Maximum Acceptable(ug/m3) (Note 1)
Air QualityParamater
Maximum Tolerable(ug/m3) (Note 1)
Jason SchmidtJuly 8, 20120
Result(ug/m3)
Maximum Desirable(ug/m3) (Note 1)
NOx 1000 60
N/A
400 73.84
Data obtained from Manitoba Ambient Air Quality Objectives and Guidelines.As per OBJECTIVES AND GUIDELINES FOR VARIOUS AIR POLLUTANTS: Ambient Air Quality Criteria (updatedJuly, 2005) MAXIMUM ACCEPTABLE is the level deemed essential to provide adequate protection for soils, water,vegetation, materials, animals, visibility, personal comfort and well-being.
Notes:
Page 1 of 1P:\Projects\013\013-06-00\611-Project Execution - P&L - Tables-Reports\ERCS - Air Quality Modeling Results.xlsAirQuality Modeling Results
Nox
1 of 8
COMPANY NAMEPROJECT NAME/LOCATION
PROJECT #ENGINEERING PROJECT #
PREPARED BYDATE
REVISION #
UTM Zone 14N ERCB Website - Conversion
Easting Location 367402 ERCB Website - Conversion
Northing Location 5436604 ERCB Website - Conversion
Latitude 49.06801 ERCB Website - Conversion
Longitude ERCB Website - Conversion ERCB Website - Conversion
Land Use Type Cultivated Typical
Base Elevation (m) -100.81538 Topographic Map
Emissions Source 1 -
Building Height (m) 2.4 Equinox Engineering
Building Corners (E & N) 250, 76 Site Plan255, 76 Site Plan255, 86 Site Plan250, 86 Site Plan
Stack Location (E & N) 255, 81 Site Plan
Stack Height (m) 6.10 Equinox Engineering
Stack Diameter (m) 0.762 Equinox Engineering
Exit Gas Velocity (m/s) 90.5 Calculation
Exit Gas Temperature (K) 288 Typical
Pollutant Flow (g/s) 0.12 Calculation
Reference Temperature (K) 293 Typical
NOx Modeling
Data Table
HEAT MEDIUM - Hot Oil (New)
N/AAndrew McKayJune 21, 2012
Penn West Exploration Ltd.Waskada Liquids Recovery Plant / 11-30-001-25 W1M
Heading Data Data Source
013-06-00
0
Page 1 of 8P:\Projects\013\013-06-00\611-Project Execution - P&L - Tables-Reports\(July 5) Copy of ERCS - NOx Modeling Data.xlsNOx Modeling Data
2 of 8
COMPANY NAMEPROJECT NAME/LOCATION
PROJECT #ENGINEERING PROJECT #
PREPARED BYDATE
REVISION #
NOx Modeling
Data Table
N/AAndrew McKayJune 21, 2012
Penn West Exploration Ltd.Waskada Liquids Recovery Plant / 11-30-001-25 W1M
Heading Data Data Source
013-06-00
0
Emissions Source 2 -
Building Height (m) 2.4 Equinox Engineering
Building Corners (E & N) 258, 76 Site Plan262, 76 Site Plan262, 86 Site Plan258, 86 Site Plan
Stack Location (E & N) 260, 81 Site Plan
Stack Height (m) 6.70 Equinox Engineering
Stack Diameter (m) 0.457 Equinox Engineering
Exit Gas Velocity (m/s) 34.0 Calculation
Exit Gas Temperature (K) 288 Typical
Pollutant Flow (g/s) 0.04 Calculation
Reference Temperature (K) 293 Typical
Emissions Source 3 -
Building Height (m) 4.0 Equinox Engineering
Building Corners (E & N) 225, 100 Site Plan232, 100 Site Plan232, 113 Site Plan225, 113 Site Plan
Stack Location (E & N) 228, 110 Site Plan
Stack Height (m) 10.00 Equinox Engineering
Stack Diameter (m) 0.356 Equinox Engineering
Exit Gas Velocity (m/s) 42.0 Calculation
Exit Gas Temperature (K) 757 Manufacturers Specs
Pollutant Flow (g/s) 1.05 Calculation
Reference Temperature (K) 293 Typical
HEAT MEDIUM - Glycol (New)
Inlet COMPRESSOR (New)
Page 2 of 8P:\Projects\013\013-06-00\611-Project Execution - P&L - Tables-Reports\(July 5) Copy of ERCS - NOx Modeling Data.xlsNOx Modeling Data
3 of 8
COMPANY NAMEPROJECT NAME/LOCATION
PROJECT #ENGINEERING PROJECT #
PREPARED BYDATE
REVISION #
NOx Modeling
Data Table
N/AAndrew McKayJune 21, 2012
Penn West Exploration Ltd.Waskada Liquids Recovery Plant / 11-30-001-25 W1M
Heading Data Data Source
013-06-00
0
Emissions Source 4 -
Building Height (m) 3.5 Typical
Building Corners (E & N) 167, 62 Site Plan175, 62 Site Plan175, 70 Site Plan167, 70 Site Plan
Stack Location (E & N) 171, 62 Site Plan
Stack Height (m) 7.30 Equinox Engineering
Stack Diameter (m) 0.610 Equinox Engineering
Exit Gas Velocity (m/s) 45.3 Calculation
Exit Gas Temperature (K) 288 Typical
Pollutant Flow (g/s) 0.06 Calculation
Reference Temperature (K) 293 Typical
Emissions Source 5 -
Building Height (m) 3.5 Typical
Building Corners (E & N) 167, 62 Site Plan175, 62 Site Plan175, 70 Site Plan167, 70 Site Plan
Stack Location (E & N) 171, 62 Site Plan
Stack Height (m) 7.30 Equinox Engineering
Stack Diameter (m) 0.610 Equinox Engineering
Exit Gas Velocity (m/s) 45.3 Calculation
Exit Gas Temperature (K) 288 Typical
Pollutant Flow (g/s) 0.06 Calculation
Reference Temperature (K) 293 Typical
FWKO Firetube #1 (Existing)
FWKO Firetube #2 (Existing)
Page 3 of 8P:\Projects\013\013-06-00\611-Project Execution - P&L - Tables-Reports\(July 5) Copy of ERCS - NOx Modeling Data.xlsNOx Modeling Data
4 of 8
COMPANY NAMEPROJECT NAME/LOCATION
PROJECT #ENGINEERING PROJECT #
PREPARED BYDATE
REVISION #
NOx Modeling
Data Table
N/AAndrew McKayJune 21, 2012
Penn West Exploration Ltd.Waskada Liquids Recovery Plant / 11-30-001-25 W1M
Heading Data Data Source
013-06-00
0
Emissions Source 6 -
Building Height (m) 3.5 Typical
Building Corners (E & N) 167, 62 Site Plan175, 62 Site Plan175, 70 Site Plan167, 70 Site Plan
Stack Location (E & N) 171, 62 Site Plan
Stack Height (m) 6.10 Equinox Engineering
Stack Diameter (m) 0.762 Equinox Engineering
Exit Gas Velocity (m/s) 90.5 Calculation
Exit Gas Temperature (K) 288 Typical
Pollutant Flow (g/s) 0.12 Calculation
Reference Temperature (K) 293 Typical
Emissions Source 7 -
Building Height (m) 3.5 Typical
Building Corners (E & N) 167, 51 Site Plan175, 51 Site Plan175, 57 Site Plan167, 57 Site Plan
Stack Location (E & N) 175, 54 Site Plan
Stack Height (m) 5.80 Equinox Engineering
Stack Diameter (m) 0.457 Equinox Engineering
Exit Gas Velocity (m/s) 31.7 Calculation
Exit Gas Temperature (K) 288 Typical
Pollutant Flow (g/s) 0.04 Calculation
Reference Temperature (K) 293 Typical
Treater Firetube #1 (Existing)
FWKO Firetube #3 (Existing)
Page 4 of 8P:\Projects\013\013-06-00\611-Project Execution - P&L - Tables-Reports\(July 5) Copy of ERCS - NOx Modeling Data.xlsNOx Modeling Data
5 of 8
COMPANY NAMEPROJECT NAME/LOCATION
PROJECT #ENGINEERING PROJECT #
PREPARED BYDATE
REVISION #
NOx Modeling
Data Table
N/AAndrew McKayJune 21, 2012
Penn West Exploration Ltd.Waskada Liquids Recovery Plant / 11-30-001-25 W1M
Heading Data Data Source
013-06-00
0
Emissions Source 8 -
Building Height (m) 3.5 Typical
Building Corners (E & N) 167, 51 Site Plan175, 51 Site Plan175, 57 Site Plan167, 57 Site Plan
Stack Location (E & N) 175, 54 Site Plan
Stack Height (m) 5.80 Equinox Engineering
Stack Diameter (m) 0.457 Equinox Engineering
Exit Gas Velocity (m/s) 31.7 Calculation
Exit Gas Temperature (K) 288 Typical
Pollutant Flow (g/s) 0.04 Calculation
Reference Temperature (K) 293 Typical
Emissions Source 9 -
Building Height (m) 3.5 Typical
Building Corners (E & N) 167, 51 Site Plan175, 51 Site Plan175, 57 Site Plan167, 57 Site Plan
Stack Location (E & N) 175, 54 Site Plan
Stack Height (m) 7.30 Equinox Engineering
Stack Diameter (m) 0.610 Equinox Engineering
Exit Gas Velocity (m/s) 45.3 Calculation
Exit Gas Temperature (K) 288 Typical
Pollutant Flow (g/s) 0.06 Calculation
Reference Temperature (K) 293 Typical
Treater Firetube #2 (Existing)
Treater Firetube #3 (Existing)
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6 of 8
COMPANY NAMEPROJECT NAME/LOCATION
PROJECT #ENGINEERING PROJECT #
PREPARED BYDATE
REVISION #
NOx Modeling
Data Table
N/AAndrew McKayJune 21, 2012
Penn West Exploration Ltd.Waskada Liquids Recovery Plant / 11-30-001-25 W1M
Heading Data Data Source
013-06-00
0
Emissions Source 10 -
Building Height (m) 3.5 Typical
Building Corners (E & N) 167, 51 Site Plan175, 51 Site Plan175, 57 Site Plan167, 57 Site Plan
Stack Location (E & N) 175, 54 Site Plan
Stack Height (m) 7.30 Equinox Engineering
Stack Diameter (m) 0.610 Equinox Engineering
Exit Gas Velocity (m/s) 45.3 Calculation
Exit Gas Temperature (K) 288 Typical
Pollutant Flow (g/s) 0.06 Calculation
Reference Temperature (K) 293 Typical
Treater Firetube #4 (Existing)
Page 6 of 8P:\Projects\013\013-06-00\611-Project Execution - P&L - Tables-Reports\(July 5) Copy of ERCS - NOx Modeling Data.xlsNOx Modeling Data
noxreva.out CO STARTING
CO TITLEONE Penn West Waskada 11-30 Liquids Recovery Plant
CO MODELOPT DFAULT RURAL CONC
CO TERRHGTS FLAT
CO AVERTIME 1 24 PERIOD
CO POLLUTID NOX
CO RUNORNOT RUN
CO FINISHED
SO STARTING
SO LOCATION HOTOIL POINT 255.0 81.0 0
SO SRCPARAM HOTOIL 0.12 6.1 288 90.5 .76
SO BUILDHGT HOTOIL 2.40 2.40 2.40 2.40 2.40 2.40
SO BUILDHGT HOTOIL 2.40 2.40 2.40 2.40 2.40 2.40
SO BUILDHGT HOTOIL 2.40 2.40 2.40 2.40 2.40 2.40
SO BUILDHGT HOTOIL 2.40 2.40 2.40 2.40 2.40 2.40
SO BUILDHGT HOTOIL 2.40 2.40 2.40 2.40 2.40 2.40
SO BUILDHGT HOTOIL 2.40 2.40 2.40 2.40 2.40 2.40
SO BUILDWID HOTOIL 6.66 7.18 8.46 9.49 10.23 10.66
SO BUILDWID HOTOIL 10.77 10.54 10.00 10.54 10.76 10.66
SO BUILDWID HOTOIL 10.23 9.49 8.46 7.18 6.66 5.00
SO BUILDWID HOTOIL 6.66 7.18 8.46 9.49 10.23 10.66
SO BUILDWID HOTOIL 10.77 10.54 10.00 10.54 10.77 10.66
SO BUILDWID HOTOIL 10.23 9.49 8.46 7.18 6.66 5.00
SO BUILDLEN HOTOIL 10.72 10.76 10.66 10.23 9.49 8.46
SO BUILDLEN HOTOIL 7.18 5.68 5.00 5.68 7.18 8.46
SO BUILDLEN HOTOIL 9.49 10.23 10.66 10.77 10.72 10.00
SO BUILDLEN HOTOIL 10.72 10.76 10.66 10.23 9.49 8.46
SO BUILDLEN HOTOIL 7.18 5.68 5.00 5.68 7.18 8.46
SO BUILDLEN HOTOIL 9.49 10.23 10.66 10.77 10.72 10.00
SO XBADJ HOTOIL -5.79 -3.67 -2.83 -1.90 -0.92 0.10
SO XBADJ HOTOIL 1.11 2.09 -5.00 2.09 1.11 0.10
SO XBADJ HOTOIL -0.92 -1.90 -2.83 -3.67 -5.79 -5.00Page 1
noxreva.out
SO XBADJ HOTOIL -4.92 -7.09 -7.83 -8.33 -8.58 -8.56
SO XBADJ HOTOIL -8.29 -7.76 0.00 -7.76 -8.29 -8.56
SO XBADJ HOTOIL -8.58 -8.33 -7.83 -7.09 -4.92 -5.00
SO YBADJ HOTOIL 2.46 -4.70 -4.33 -3.83 -3.21 -2.50
SO YBADJ HOTOIL -1.71 -0.87 0.00 0.87 1.71 2.50
SO YBADJ HOTOIL 3.21 3.83 4.33 4.70 -2.46 -2.50
SO YBADJ HOTOIL -2.46 4.70 4.33 3.83 3.21 2.50
SO YBADJ HOTOIL 1.71 0.87 0.00 -0.87 -1.71 -2.50
SO YBADJ HOTOIL -3.21 -3.83 -4.33 -4.70 2.46 2.50
SO LOCATION GLYCOL POINT 260.0 81.0 0
SO SRCPARAM GLYCOL .04 6.7 288 34.0 .46
SO BUILDHGT GLYCOL 2.40 2.40 2.40 2.40 2.40 2.40
SO BUILDHGT GLYCOL 2.40 2.40 2.40 2.40 2.40 2.40
SO BUILDHGT GLYCOL 2.40 2.40 2.40 2.40 2.40 2.40
SO BUILDHGT GLYCOL 2.40 2.40 2.40 2.40 2.40 2.40
SO BUILDHGT GLYCOL 2.40 2.40 2.40 2.40 2.40 2.40
SO BUILDHGT GLYCOL 2.40 2.40 2.40 2.40 2.40 2.40
SO BUILDWID GLYCOL 5.68 7.18 8.46 9.49 10.23 10.66
SO BUILDWID GLYCOL 10.77 10.54 10.00 10.54 10.76 10.66
SO BUILDWID GLYCOL 10.23 9.49 8.46 7.18 5.68 4.00
SO BUILDWID GLYCOL 5.68 7.18 8.46 9.49 10.23 10.66
SO BUILDWID GLYCOL 10.77 10.54 10.00 10.54 10.77 10.66
SO BUILDWID GLYCOL 10.23 9.49 8.46 7.18 5.68 4.00
SO BUILDLEN GLYCOL 10.54 10.76 10.66 10.23 9.49 8.46
SO BUILDLEN GLYCOL 7.18 5.68 5.00 5.68 7.18 8.46
SO BUILDLEN GLYCOL 9.49 10.23 10.66 10.77 10.54 10.00
SO BUILDLEN GLYCOL 10.54 10.76 10.66 10.23 9.49 8.46
SO BUILDLEN GLYCOL 7.18 5.68 4.00 5.68 7.18 8.46
SO BUILDLEN GLYCOL 9.49 10.23 10.66 10.77 10.54 10.00
SO XBADJ GLYCOL -5.27 -5.38 -5.33 -5.12 -4.75 -4.23
SO XBADJ GLYCOL -3.59 -2.84 -10.00 -2.84 -3.59 -4.23
Page 2
noxreva.out SO XBADJ GLYCOL -4.75 -5.12 -5.33 -5.38 -5.27 -5.00
SO XBADJ GLYCOL -5.27 -5.38 -5.33 -5.12 -4.75 -4.23
SO XBADJ GLYCOL -3.59 -2.84 -2.00 -2.84 -3.59 -4.23
SO XBADJ GLYCOL -4.75 -5.12 -5.33 -5.38 -5.27 -5.00
SO YBADJ GLYCOL 0.00 0.00 0.00 0.00 0.00 0.00
SO YBADJ GLYCOL 0.00 0.00 0.00 0.00 0.00 0.00
SO YBADJ GLYCOL 0.00 0.00 0.00 0.00 0.00 0.00
SO YBADJ GLYCOL 0.00 0.00 0.00 0.00 0.00 0.00
SO YBADJ GLYCOL 0.00 0.00 0.00 0.00 0.00 0.00
SO YBADJ GLYCOL 0.00 0.00 0.00 0.00 0.00 0.00
SO LOCATION COMP POINT 228.0 110.0 0
SO SRCPARAM COMP 1.05 10.0 288 42.0 .61
SO BUILDHGT COMP 4.00 4.00 4.00 4.00 4.00 4.00
SO BUILDHGT COMP 4.00 4.00 4.00 4.00 4.00 4.00
SO BUILDHGT COMP 4.00 4.00 4.00 4.00 4.00 4.00
SO BUILDHGT COMP 4.00 4.00 4.00 4.00 4.00 4.00
SO BUILDHGT COMP 4.00 4.00 4.00 4.00 4.00 4.00
SO BUILDHGT COMP 4.00 4.00 4.00 4.00 4.00 4.00
SO BUILDWID COMP 9.15 11.02 12.56 13.72 14.46 14.76
SO BUILDWID COMP 14.61 14.02 13.00 14.02 14.61 14.76
SO BUILDWID COMP 14.46 13.72 12.56 11.02 9.15 7.00
SO BUILDWID COMP 9.15 11.02 12.56 13.72 14.46 14.76
SO BUILDWID COMP 14.61 14.02 13.00 14.02 14.61 14.76
SO BUILDWID COMP 14.46 13.72 12.56 11.02 9.15 7.00
SO BUILDLEN COMP 14.02 14.61 14.76 14.46 13.72 12.56
SO BUILDLEN COMP 11.02 9.15 7.00 9.15 11.02 12.56
SO BUILDLEN COMP 13.72 14.46 14.76 14.61 14.02 13.00
SO BUILDLEN COMP 14.02 14.61 14.76 14.46 13.72 12.56
SO BUILDLEN COMP 11.02 9.15 7.00 9.15 11.02 12.56
SO BUILDLEN COMP 13.72 14.46 14.76 14.61 14.02 13.00
SO XBADJ COMP -10.37 -10.42 -10.16 -9.59 -8.73 -7.60
SO XBADJ COMP -6.24 -4.69 -3.00 -3.48 -3.85 -4.10Page 3
noxreva.out
SO XBADJ COMP -4.23 -4.23 -4.10 -3.85 -3.48 -3.00
SO XBADJ COMP -3.65 -4.19 -4.60 -4.87 -4.99 -4.96
SO XBADJ COMP -4.78 -4.46 -4.00 -5.68 -7.18 -8.46
SO XBADJ COMP -9.49 -10.23 -10.66 -10.76 -10.54 -10.00
SO YBADJ COMP -1.10 -1.67 -2.18 -2.63 -3.00 -3.28
SO YBADJ COMP -3.46 -3.53 -3.50 -3.36 -3.12 -2.78
SO YBADJ COMP -2.36 -1.87 -1.32 -0.73 -0.12 0.50
SO YBADJ COMP 1.10 1.67 2.18 2.63 3.00 3.28
SO YBADJ COMP 3.46 3.53 3.50 3.36 3.12 2.78
SO YBADJ COMP 2.36 1.87 1.32 0.73 0.12 -0.50
SO LOCATION FWKO1 POINT 171.0 62.0 0
SO SRCPARAM FWKO1 .06 7.3 288 45.3 0.61
SO BUILDHGT FWKO1 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT FWKO1 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT FWKO1 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT FWKO1 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT FWKO1 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT FWKO1 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDWID FWKO1 8.92 9.57 9.93 9.99 9.74 10.93
SO BUILDWID FWKO1 10.25 9.27 8.00 9.27 10.25 10.93
SO BUILDWID FWKO1 9.74 9.99 9.93 9.57 8.92 8.00
SO BUILDWID FWKO1 8.92 9.57 9.93 9.99 9.74 10.93
SO BUILDWID FWKO1 10.25 9.27 8.00 9.27 10.25 10.93
SO BUILDWID FWKO1 9.74 9.99 9.93 9.57 8.92 8.00
SO BUILDLEN FWKO1 7.30 8.37 9.20 9.74 9.99 10.93
SO BUILDLEN FWKO1 10.25 9.27 8.00 9.27 10.25 10.93
SO BUILDLEN FWKO1 9.99 9.74 9.20 8.37 7.30 8.00
SO BUILDLEN FWKO1 7.30 8.37 9.20 9.74 9.99 10.93
SO BUILDLEN FWKO1 10.25 9.27 8.00 9.27 10.25 10.93
SO BUILDLEN FWKO1 9.99 9.74 9.20 8.37 7.30 8.00
SO XBADJ FWKO1 -11.53 -11.70 -11.53 -11.00 -10.13 -3.46
Page 4
noxreva.out SO XBADJ FWKO1 -3.76 -3.94 -4.00 -5.33 -6.49 -7.46
SO XBADJ FWKO1 0.15 1.26 2.33 3.33 4.23 -8.00
SO XBADJ FWKO1 4.23 3.33 2.33 1.26 0.15 -7.46
SO XBADJ FWKO1 -6.49 -5.33 -4.00 -3.94 -3.76 -3.46
SO XBADJ FWKO1 -10.13 -11.00 -11.53 -11.70 -11.53 0.00
SO YBADJ FWKO1 -1.39 -2.74 -4.00 -5.14 -6.13 3.46
SO YBADJ FWKO1 3.76 3.94 4.00 3.94 3.76 3.46
SO YBADJ FWKO1 -6.13 -5.14 -4.00 -2.74 -1.39 0.00
SO YBADJ FWKO1 1.39 2.74 4.00 5.14 6.13 -3.46
SO YBADJ FWKO1 -3.76 -3.94 -4.00 -3.94 -3.76 -3.46
SO YBADJ FWKO1 6.13 5.14 4.00 2.74 1.39 0.00
SO LOCATION FWKO2 POINT 171.0 62.0 0
SO SRCPARAM FWKO2 .06 7.3 288 45.3 0.61
SO BUILDHGT FWKO2 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT FWKO2 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT FWKO2 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT FWKO2 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT FWKO2 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT FWKO2 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDWID FWKO2 8.92 9.57 9.93 9.99 9.74 10.93
SO BUILDWID FWKO2 10.25 9.27 8.00 9.27 10.25 10.93
SO BUILDWID FWKO2 9.74 9.99 9.93 9.57 8.92 8.00
SO BUILDWID FWKO2 8.92 9.57 9.93 9.99 9.74 10.93
SO BUILDWID FWKO2 10.25 9.27 8.00 9.27 10.25 10.93
SO BUILDWID FWKO2 9.74 9.99 9.93 9.57 8.92 8.00
SO BUILDLEN FWKO2 7.30 8.37 9.20 9.74 9.99 10.93
SO BUILDLEN FWKO2 10.25 9.27 8.00 9.27 10.25 10.93
SO BUILDLEN FWKO2 9.99 9.74 9.20 8.37 7.30 8.00
SO BUILDLEN FWKO2 7.30 8.37 9.20 9.74 9.99 10.93
SO BUILDLEN FWKO2 10.25 9.27 8.00 9.27 10.25 10.93
SO BUILDLEN FWKO2 9.99 9.74 9.20 8.37 7.30 8.00
SO XBADJ FWKO2 -11.53 -11.70 -11.53 -11.00 -10.13 -3.46Page 5
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SO XBADJ FWKO2 -3.76 -3.94 -4.00 -5.33 -6.49 -7.46
SO XBADJ FWKO2 0.15 1.26 2.33 3.33 4.23 -8.00
SO XBADJ FWKO2 4.23 3.33 2.33 1.26 0.15 -7.46
SO XBADJ FWKO2 -6.49 -5.33 -4.00 -3.94 -3.76 -3.46
SO XBADJ FWKO2 -10.13 -11.00 -11.53 -11.70 -11.53 0.00
SO YBADJ FWKO2 -1.39 -2.74 -4.00 -5.14 -6.13 3.46
SO YBADJ FWKO2 3.76 3.94 4.00 3.94 3.76 3.46
SO YBADJ FWKO2 -6.13 -5.14 -4.00 -2.74 -1.39 0.00
SO YBADJ FWKO2 1.39 2.74 4.00 5.14 6.13 -3.46
SO YBADJ FWKO2 -3.76 -3.94 -4.00 -3.94 -3.76 -3.46
SO YBADJ FWKO2 6.13 5.14 4.00 2.74 1.39 0.00
SO LOCATION FWKO3 POINT 171.0 62.0 0
SO SRCPARAM FWKO3 .12 6.1 288 90.5 .76
SO BUILDHGT FWKO3 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT FWKO3 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT FWKO3 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT FWKO3 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT FWKO3 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT FWKO3 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDWID FWKO3 8.92 9.57 9.93 9.99 9.74 10.93
SO BUILDWID FWKO3 10.25 9.27 8.00 9.27 10.25 10.93
SO BUILDWID FWKO3 9.74 9.99 9.93 9.57 8.92 8.00
SO BUILDWID FWKO3 8.92 9.57 9.93 9.99 9.74 10.93
SO BUILDWID FWKO3 10.25 9.27 8.00 9.27 10.25 10.93
SO BUILDWID FWKO3 9.74 9.99 9.93 9.57 8.92 8.00
SO BUILDLEN FWKO3 7.30 8.37 9.20 9.74 9.99 10.93
SO BUILDLEN FWKO3 10.25 9.27 8.00 9.27 10.25 10.93
SO BUILDLEN FWKO3 9.99 9.74 9.20 8.37 7.30 8.00
SO BUILDLEN FWKO3 7.30 8.37 9.20 9.74 9.99 10.93
SO BUILDLEN FWKO3 10.25 9.27 8.00 9.27 10.25 10.93
SO BUILDLEN FWKO3 9.99 9.74 9.20 8.37 7.30 8.00
Page 6
noxreva.out SO XBADJ FWKO3 -11.53 -11.70 -11.53 -11.00 -10.13 -3.46
SO XBADJ FWKO3 -3.76 -3.94 -4.00 -5.33 -6.49 -7.46
SO XBADJ FWKO3 0.15 1.26 2.33 3.33 4.23 -8.00
SO XBADJ FWKO3 4.23 3.33 2.33 1.26 0.15 -7.46
SO XBADJ FWKO3 -6.49 -5.33 -4.00 -3.94 -3.76 -3.46
SO XBADJ FWKO3 -10.13 -11.00 -11.53 -11.70 -11.53 0.00
SO YBADJ FWKO3 -1.39 -2.74 -4.00 -5.14 -6.13 3.46
SO YBADJ FWKO3 3.76 3.94 4.00 3.94 3.76 3.46
SO YBADJ FWKO3 -6.13 -5.14 -4.00 -2.74 -1.39 0.00
SO YBADJ FWKO3 1.39 2.74 4.00 5.14 6.13 -3.46
SO YBADJ FWKO3 -3.76 -3.94 -4.00 -3.94 -3.76 -3.46
SO YBADJ FWKO3 6.13 5.14 4.00 2.74 1.39 0.00
SO LOCATION TREATER1 POINT 175.0 54.0 0
SO SRCPARAM TREATER1 .04 5.8 288 31.7 .46
SO BUILDHGT TREATER1 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER1 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER1 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER1 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER1 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER1 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDWID TREATER1 8.92 9.57 9.93 9.99 9.74 9.20
SO BUILDWID TREATER1 8.37 7.30 6.00 7.30 8.37 9.20
SO BUILDWID TREATER1 9.74 9.99 9.93 9.57 8.92 8.00
SO BUILDWID TREATER1 8.92 9.57 9.93 9.99 9.74 9.20
SO BUILDWID TREATER1 8.37 7.30 6.00 7.30 8.37 9.20
SO BUILDWID TREATER1 9.74 9.99 9.93 9.57 8.92 8.00
SO BUILDLEN TREATER1 7.30 8.37 9.20 9.74 9.99 9.93
SO BUILDLEN TREATER1 9.57 8.92 8.00 8.92 9.57 9.93
SO BUILDLEN TREATER1 9.99 9.74 9.20 8.37 7.30 8.00
SO BUILDLEN TREATER1 7.30 8.37 9.20 9.74 9.99 9.93
SO BUILDLEN TREATER1 9.57 8.92 8.00 8.92 9.57 9.93
SO BUILDLEN TREATER1 9.99 9.74 9.20 8.37 7.30 6.00Page 7
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SO XBADJ TREATER1 -4.34 -5.56 -6.60 -7.44 -8.06 -8.43
SO XBADJ TREATER1 -8.54 -8.40 -8.00 -8.40 -8.54 -8.43
SO XBADJ TREATER1 -8.06 -7.44 -6.60 -5.56 -4.34 -16.00
SO XBADJ TREATER1 -2.95 -2.82 -2.60 -2.30 -1.93 -1.50
SO XBADJ TREATER1 -1.03 -0.52 0.00 -0.52 -1.03 -1.50
SO XBADJ TREATER1 -1.93 -2.30 -2.60 -2.82 -2.95 -3.00
SO YBADJ TREATER1 3.94 3.76 3.46 3.06 2.57 2.00
SO YBADJ TREATER1 1.37 0.69 0.00 -0.69 -1.37 -2.00
SO YBADJ TREATER1 -2.57 -3.06 -3.46 -3.76 -3.94 -4.00
SO YBADJ TREATER1 -3.94 -3.76 -3.46 -3.06 -2.57 -2.00
SO YBADJ TREATER1 -1.37 -0.69 0.00 0.69 1.37 2.00
SO YBADJ TREATER1 2.57 3.06 3.46 3.76 3.94 4.00
SO LOCATION TREATER2 POINT 175.0 54.0 0
SO SRCPARAM TREATER2 .04 5.8 288 31.7 .46
SO BUILDHGT TREATER2 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER2 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER2 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER2 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER2 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER2 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDWID TREATER2 8.92 9.57 9.93 9.99 9.74 9.20
SO BUILDWID TREATER2 8.37 7.30 6.00 7.30 8.37 9.20
SO BUILDWID TREATER2 9.74 9.99 9.93 9.57 8.92 8.00
SO BUILDWID TREATER2 8.92 9.57 9.93 9.99 9.74 9.20
SO BUILDWID TREATER2 8.37 7.30 6.00 7.30 8.37 9.20
SO BUILDWID TREATER2 9.74 9.99 9.93 9.57 8.92 8.00
SO BUILDLEN TREATER2 7.30 8.37 9.20 9.74 9.99 9.93
SO BUILDLEN TREATER2 9.57 8.92 8.00 8.92 9.57 9.93
SO BUILDLEN TREATER2 9.99 9.74 9.20 8.37 7.30 8.00
SO BUILDLEN TREATER2 7.30 8.37 9.20 9.74 9.99 9.93
SO BUILDLEN TREATER2 9.57 8.92 8.00 8.92 9.57 9.93
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noxreva.out SO BUILDLEN TREATER2 9.99 9.74 9.20 8.37 7.30 6.00
SO XBADJ TREATER2 -4.34 -5.56 -6.60 -7.44 -8.06 -8.43
SO XBADJ TREATER2 -8.54 -8.40 -8.00 -8.40 -8.54 -8.43
SO XBADJ TREATER2 -8.06 -7.44 -6.60 -5.56 -4.34 -16.00
SO XBADJ TREATER2 -2.95 -2.82 -2.60 -2.30 -1.93 -1.50
SO XBADJ TREATER2 -1.03 -0.52 0.00 -0.52 -1.03 -1.50
SO XBADJ TREATER2 -1.93 -2.30 -2.60 -2.82 -2.95 -3.00
SO YBADJ TREATER2 3.94 3.76 3.46 3.06 2.57 2.00
SO YBADJ TREATER2 1.37 0.69 0.00 -0.69 -1.37 -2.00
SO YBADJ TREATER2 -2.57 -3.06 -3.46 -3.76 -3.94 -4.00
SO YBADJ TREATER2 -3.94 -3.76 -3.46 -3.06 -2.57 -2.00
SO YBADJ TREATER2 -1.37 -0.69 0.00 0.69 1.37 2.00
SO YBADJ TREATER2 2.57 3.06 3.46 3.76 3.94 4.00
SO LOCATION TREATER3 POINT 175.0 54.0 0
SO SRCPARAM TREATER3 .06 7.3 288 45.3 .61
SO BUILDHGT TREATER3 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER3 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER3 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER3 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER3 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER3 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDWID TREATER3 8.92 9.57 9.93 9.99 9.74 9.20
SO BUILDWID TREATER3 8.37 7.30 6.00 7.30 8.37 9.20
SO BUILDWID TREATER3 9.74 9.99 9.93 9.57 8.92 8.00
SO BUILDWID TREATER3 8.92 9.57 9.93 9.99 9.74 9.20
SO BUILDWID TREATER3 8.37 7.30 6.00 7.30 8.37 9.20
SO BUILDWID TREATER3 9.74 9.99 9.93 9.57 8.92 8.00
SO BUILDLEN TREATER3 7.30 8.37 9.20 9.74 9.99 9.93
SO BUILDLEN TREATER3 9.57 8.92 8.00 8.92 9.57 9.93
SO BUILDLEN TREATER3 9.99 9.74 9.20 8.37 7.30 8.00
SO BUILDLEN TREATER3 7.30 8.37 9.20 9.74 9.99 9.93
SO BUILDLEN TREATER3 9.57 8.92 8.00 8.92 9.57 9.93Page 9
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SO BUILDLEN TREATER3 9.99 9.74 9.20 8.37 7.30 6.00
SO XBADJ TREATER3 -4.34 -5.56 -6.60 -7.44 -8.06 -8.43
SO XBADJ TREATER3 -8.54 -8.40 -8.00 -8.40 -8.54 -8.43
SO XBADJ TREATER3 -8.06 -7.44 -6.60 -5.56 -4.34 -16.00
SO XBADJ TREATER3 -2.95 -2.82 -2.60 -2.30 -1.93 -1.50
SO XBADJ TREATER3 -1.03 -0.52 0.00 -0.52 -1.03 -1.50
SO XBADJ TREATER3 -1.93 -2.30 -2.60 -2.82 -2.95 -3.00
SO YBADJ TREATER3 3.94 3.76 3.46 3.06 2.57 2.00
SO YBADJ TREATER3 1.37 0.69 0.00 -0.69 -1.37 -2.00
SO YBADJ TREATER3 -2.57 -3.06 -3.46 -3.76 -3.94 -4.00
SO YBADJ TREATER3 -3.94 -3.76 -3.46 -3.06 -2.57 -2.00
SO YBADJ TREATER3 -1.37 -0.69 0.00 0.69 1.37 2.00
SO YBADJ TREATER3 2.57 3.06 3.46 3.76 3.94 4.00
SO LOCATION TREATER4 POINT 175.0 54.0 0
SO SRCPARAM TREATER4 .06 7.3 288 45.3 .61
SO BUILDHGT TREATER4 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER4 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER4 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER4 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER4 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDHGT TREATER4 3.50 3.50 3.50 3.50 3.50 3.50
SO BUILDWID TREATER4 8.92 9.57 9.93 9.99 9.74 9.20
SO BUILDWID TREATER4 8.37 7.30 6.00 7.30 8.37 9.20
SO BUILDWID TREATER4 9.74 9.99 9.93 9.57 8.92 8.00
SO BUILDWID TREATER4 8.92 9.57 9.93 9.99 9.74 9.20
SO BUILDWID TREATER4 8.37 7.30 6.00 7.30 8.37 9.20
SO BUILDWID TREATER4 9.74 9.99 9.93 9.57 8.92 8.00
SO BUILDLEN TREATER4 7.30 8.37 9.20 9.74 9.99 9.93
SO BUILDLEN TREATER4 9.57 8.92 8.00 8.92 9.57 9.93
SO BUILDLEN TREATER4 9.99 9.74 9.20 8.37 7.30 8.00
SO BUILDLEN TREATER4 7.30 8.37 9.20 9.74 9.99 9.93
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noxreva.out SO BUILDLEN TREATER4 9.57 8.92 8.00 8.92 9.57 9.93
SO BUILDLEN TREATER4 9.99 9.74 9.20 8.37 7.30 6.00
SO XBADJ TREATER4 -4.34 -5.56 -6.60 -7.44 -8.06 -8.43
SO XBADJ TREATER4 -8.54 -8.40 -8.00 -8.40 -8.54 -8.43
SO XBADJ TREATER4 -8.06 -7.44 -6.60 -5.56 -4.34 -16.00
SO XBADJ TREATER4 -2.95 -2.82 -2.60 -2.30 -1.93 -1.50
SO XBADJ TREATER4 -1.03 -0.52 0.00 -0.52 -1.03 -1.50
SO XBADJ TREATER4 -1.93 -2.30 -2.60 -2.82 -2.95 -3.00
SO YBADJ TREATER4 3.94 3.76 3.46 3.06 2.57 2.00
SO YBADJ TREATER4 1.37 0.69 0.00 -0.69 -1.37 -2.00
SO YBADJ TREATER4 -2.57 -3.06 -3.46 -3.76 -3.94 -4.00
SO YBADJ TREATER4 -3.94 -3.76 -3.46 -3.06 -2.57 -2.00
SO YBADJ TREATER4 -1.37 -0.69 0.00 0.69 1.37 2.00
SO YBADJ TREATER4 2.57 3.06 3.46 3.76 3.94 4.00
SO SRCGROUP ALL
SO FINISHED
RE STARTING
RE GRIDPOLR POL1 STA
RE GRIDPOLR POL1 ORIG 0.0 0.0
RE GRIDPOLR POL1 DIST 100 200 500
RE GRIDPOLR POL1 GDIR 36 10 10
RE GRIDPOLR POL1 END
RE FINISHED
ME STARTING
ME INPUTFIL MEDHAT.MET
ME ANEMHGHT 10
ME SURFDATA 99999 1993
ME UAIRDATA 99999 1993
ME FINISHED
OU STARTING
OU MAXTABLE ALLAVE 3
OU FINISHEDPage 11
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*** Message Summary For ISC3P Model Setup ***
--------- Summary of Total Messages --------
A Total of 0 Fatal Error Message(s) A Total of 2 Warning Message(s) A Total of 0 Informational Message(s)
******** FATAL ERROR MESSAGES ******** *** NONE ***
******** WARNING MESSAGES ******** SO W320 11 PPARM :Source Parameter May Be Out-of-Range for Parameter VS SO W320 171 PPARM :Source Parameter May Be Out-of-Range for Parameter VS
*********************************** *** SETUP Finishes Successfully *** ***********************************
1 *** ISC3P - VERSION 04269 *** *** Penn West Waskada 11-30 Liquids RecoveryPlanT *** *** ***
PAGE 1 **MODELOPTs: CONC RURAL FLAT DFAULT
*** MODEL SETUP OPTIONS SUMMARY *** - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - - - - - -
**Intermediate Terrain Processing is Selected
**Model Is Setup For Calculation of Average CONCentration Values.
-- SCAVENGING/DEPOSITION LOGIC -- **Model Uses NO DRY DEPLETION. DDPLETE = F **Model Uses NO WET DEPLETION. WDPLETE = F **NO WET SCAVENGING Data Provided. **Model Does NOT Use GRIDDED TERRAIN Data for Depletion Calculations
**Model Uses RURAL Dispersion.
**Model Uses Regulatory DEFAULT Options: 1. Final Plume Rise. 2. Stack-tip Downwash. 3. Buoyancy-induced Dispersion. 4. Use Calms Processing Routine. 5. Not Use Missing Data Processing Routine. 6. Default Wind Profile Exponents. 7. Default Vertical Potential Temperature Gradients. 8. "Upper Bound" Values for Supersquat Buildings. 9. No Exponential Decay for RURAL Mode
**Model Assumes Receptors on FLAT Terrain.
**Model Assumes No FLAGPOLE Receptor Heights.Page 12
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**Model Calculates 2 Short Term Average(s) of: 1-HR 24-HR and Calculates PERIOD Averages
**This Run Includes: 10 Source(s); 1 Source Group(s); and 108 Receptor(s)
**The Model Assumes A Pollutant Type of: NOX
**Model Set To Continue RUNning After the Setup Testing.
**Output Options Selected: Model Outputs Tables of PERIOD Averages by Receptor Model Outputs Tables of Overall Maximum Short Term Values (MAXTABLEKeyword)
**NOTE: The Following Flags May Appear Following CONC Values: c for Calm Hours m for Missing Hours b for Both Calm andMissing Hours
**Misc. Inputs: Anem. Hgt. (m) = 10.00 ; Decay Coef. = 0.000 ;Rot. Angle = 0.0 Emission Units = GRAMS/SEC ;Emission Rate Unit Factor = 0.10000E+07 Output Units = MICROGRAMS/M**3
1 *** ISC3P - VERSION 04269 *** *** Penn West Waskada 11-30 Liquids RecoveryPlanT *** *** ***
PAGE 2 **MODELOPTs: CONC RURAL FLAT DFAULT
*** POINT SOURCE DATA ***
NUMBER EMISSION RATE BASE STACK STACKSTACK STACK BUILDING EMISSION RATE SOURCE PART. (GRAMS/SEC) X Y ELEV. HEIGHT TEMP. EXITVEL. DIAMETER EXISTS SCALAR VARY ID CATS. (METERS) (METERS) (METERS) (METERS) (DEG.K)(M/SEC) (METERS) BY - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - - - -
HOTOIL 0 0.12000E+00 255.0 81.0 0.0 6.10 288.0090.50 0.76 YES GLYCOL 0 0.40000E-01 260.0 81.0 0.0 6.70 288.0034.00 0.46 NO COMP 0 0.10500E+01 228.0 110.0 0.0 10.00 288.0042.00 0.61 YES FWKO1 0 0.60000E-01 171.0 62.0 0.0 7.30 288.0045.30 0.61 YES FWKO2 0 0.60000E-01 171.0 62.0 0.0 7.30 288.0045.30 0.61 YES FWKO3 0 0.12000E+00 171.0 62.0 0.0 6.10 288.0090.50 0.76 YES TREATER1 0 0.40000E-01 175.0 54.0 0.0 5.80 288.0031.70 0.46 YES
Page 13
noxreva.out TREATER2 0 0.40000E-01 175.0 54.0 0.0 5.80 288.0031.70 0.46 YES TREATER3 0 0.60000E-01 175.0 54.0 0.0 7.30 288.0045.30 0.61 YES TREATER4 0 0.60000E-01 175.0 54.0 0.0 7.30 288.0045.30 0.61 YES1 *** ISC3P - VERSION 04269 *** *** Penn West Waskada 11-30 Liquids RecoveryPlanT *** *** ***
PAGE 3 **MODELOPTs: CONC RURAL FLAT DFAULT
*** SOURCE IDs DEFINING SOURCE GROUPS ***
GROUP ID SOURCE IDs
ALL HOTOIL , GLYCOL , COMP , FWKO1 , FWKO2 , FWKO3 , TREATER1,TREATER2, TREATER3, TREATER4,1 *** ISC3P - VERSION 04269 *** *** Penn West Waskada 11-30 Liquids RecoveryPlanT *** *** ***
PAGE 4 **MODELOPTs: CONC RURAL FLAT DFAULT
*** DIRECTION SPECIFIC BUILDING DIMENSIONS***
SOURCE ID: HOTOIL IFV BH BW BL XADJ YADJ WAK IFV BH BW BL XADJ YADJ WAK 1 2.4, 6.7, 10.7, -5.8, 2.5, 0 2 2.4, 7.2, 10.8, -3.7, -4.7,0 3 2.4, 8.5, 10.7, -2.8, -4.3, 0 4 2.4, 9.5, 10.2, -1.9, -3.8,0 5 2.4, 10.2, 9.5, -0.9, -3.2, 0 6 2.4, 10.7, 8.5, 0.1, -2.5,0 7 2.4, 10.8, 7.2, 1.1, -1.7, 0 8 2.4, 10.5, 5.7, 2.1, -0.9,0 9 2.4, 10.0, 5.0, -5.0, 0.0, 0 10 2.4, 10.5, 5.7, 2.1, 0.9,0 11 2.4, 10.8, 7.2, 1.1, 1.7, 0 12 2.4, 10.7, 8.5, 0.1, 2.5,0 13 2.4, 10.2, 9.5, -0.9, 3.2, 0 14 2.4, 9.5, 10.2, -1.9, 3.8,0 15 2.4, 8.5, 10.7, -2.8, 4.3, 0 16 2.4, 7.2, 10.8, -3.7, 4.7,0 17 2.4, 6.7, 10.7, -5.8, -2.5, 0 18 2.4, 5.0, 10.0, -5.0, -2.5,0 19 2.4, 6.7, 10.7, -4.9, -2.5, 0 20 2.4, 7.2, 10.8, -7.1, 4.7,0 21 2.4, 8.5, 10.7, -7.8, 4.3, 0 22 2.4, 9.5, 10.2, -8.3, 3.8,0
Page 14
noxreva.out 23 2.4, 10.2, 9.5, -8.6, 3.2, 0 24 2.4, 10.7, 8.5, -8.6, 2.5,0 25 2.4, 10.8, 7.2, -8.3, 1.7, 0 26 2.4, 10.5, 5.7, -7.8, 0.9,0 27 2.4, 10.0, 5.0, 0.0, 0.0, 0 28 2.4, 10.5, 5.7, -7.8, -0.9,0 29 2.4, 10.8, 7.2, -8.3, -1.7, 0 30 2.4, 10.7, 8.5, -8.6, -2.5,0 31 2.4, 10.2, 9.5, -8.6, -3.2, 0 32 2.4, 9.5, 10.2, -8.3, -3.8,0 33 2.4, 8.5, 10.7, -7.8, -4.3, 0 34 2.4, 7.2, 10.8, -7.1, -4.7,0 35 2.4, 6.7, 10.7, -4.9, 2.5, 0 36 2.4, 5.0, 10.0, -5.0, 2.5,0
SOURCE ID: GLYCOL IFV BH BW BL XADJ YADJ WAK IFV BH BW BL XADJ YADJ WAK 1 2.4, 5.7, 10.5, -5.3, 0.0, 0 2 2.4, 7.2, 10.8, -5.4, 0.0,0 3 2.4, 8.5, 10.7, -5.3, 0.0, 0 4 2.4, 9.5, 10.2, -5.1, 0.0,0 5 2.4, 10.2, 9.5, -4.8, 0.0, 0 6 2.4, 10.7, 8.5, -4.2, 0.0,0 7 2.4, 10.8, 7.2, -3.6, 0.0, 0 8 2.4, 10.5, 5.7, -2.8, 0.0,0 9 2.4, 10.0, 5.0, -10.0, 0.0, 0 10 2.4, 10.5, 5.7, -2.8, 0.0,0 11 2.4, 10.8, 7.2, -3.6, 0.0, 0 12 2.4, 10.7, 8.5, -4.2, 0.0,0 13 2.4, 10.2, 9.5, -4.8, 0.0, 0 14 2.4, 9.5, 10.2, -5.1, 0.0,0 15 2.4, 8.5, 10.7, -5.3, 0.0, 0 16 2.4, 7.2, 10.8, -5.4, 0.0,0 17 2.4, 5.7, 10.5, -5.3, 0.0, 0 18 2.4, 4.0, 10.0, -5.0, 0.0,0 19 2.4, 5.7, 10.5, -5.3, 0.0, 0 20 2.4, 7.2, 10.8, -5.4, 0.0,0 21 2.4, 8.5, 10.7, -5.3, 0.0, 0 22 2.4, 9.5, 10.2, -5.1, 0.0,0 23 2.4, 10.2, 9.5, -4.8, 0.0, 0 24 2.4, 10.7, 8.5, -4.2, 0.0,0 25 2.4, 10.8, 7.2, -3.6, 0.0, 0 26 2.4, 10.5, 5.7, -2.8, 0.0,0 27 2.4, 10.0, 4.0, -2.0, 0.0, 0 28 2.4, 10.5, 5.7, -2.8, 0.0,0 29 2.4, 10.8, 7.2, -3.6, 0.0, 0 30 2.4, 10.7, 8.5, -4.2, 0.0,0 31 2.4, 10.2, 9.5, -4.8, 0.0, 0 32 2.4, 9.5, 10.2, -5.1, 0.0,0 33 2.4, 8.5, 10.7, -5.3, 0.0, 0 34 2.4, 7.2, 10.8, -5.4, 0.0,0 35 2.4, 5.7, 10.5, -5.3, 0.0, 0 36 2.4, 4.0, 10.0, -5.0, 0.0,0
SOURCE ID: COMP IFV BH BW BL XADJ YADJ WAK IFV BH BW BL XADJ YADJ WAK 1 4.0, 9.2, 14.0, -10.4, -1.1, 0 2 4.0, 11.0, 14.6, -10.4, -1.7,0 3 4.0, 12.6, 14.8, -10.2, -2.2, 0 4 4.0, 13.7, 14.5, -9.6, -2.6,
Page 15
noxreva.out0 5 4.0, 14.5, 13.7, -8.7, -3.0, 0 6 4.0, 14.8, 12.6, -7.6, -3.3,0 7 4.0, 14.6, 11.0, -6.2, -3.5, 0 8 4.0, 14.0, 9.2, -4.7, -3.5,0 9 4.0, 13.0, 7.0, -3.0, -3.5, 0 10 4.0, 14.0, 9.2, -3.5, -3.4,0 11 4.0, 14.6, 11.0, -3.8, -3.1, 0 12 4.0, 14.8, 12.6, -4.1, -2.8,0 13 4.0, 14.5, 13.7, -4.2, -2.4, 0 14 4.0, 13.7, 14.5, -4.2, -1.9,0 15 4.0, 12.6, 14.8, -4.1, -1.3, 0 16 4.0, 11.0, 14.6, -3.8, -0.7,0 17 4.0, 9.2, 14.0, -3.5, -0.1, 0 18 4.0, 7.0, 13.0, -3.0, 0.5,0 19 4.0, 9.2, 14.0, -3.6, 1.1, 0 20 4.0, 11.0, 14.6, -4.2, 1.7,0 21 4.0, 12.6, 14.8, -4.6, 2.2, 0 22 4.0, 13.7, 14.5, -4.9, 2.6,0 23 4.0, 14.5, 13.7, -5.0, 3.0, 0 24 4.0, 14.8, 12.6, -5.0, 3.3,0 25 4.0, 14.6, 11.0, -4.8, 3.5, 0 26 4.0, 14.0, 9.2, -4.5, 3.5,0 27 4.0, 13.0, 7.0, -4.0, 3.5, 0 28 4.0, 14.0, 9.2, -5.7, 3.4,0 29 4.0, 14.6, 11.0, -7.2, 3.1, 0 30 4.0, 14.8, 12.6, -8.5, 2.8,0 31 4.0, 14.5, 13.7, -9.5, 2.4, 0 32 4.0, 13.7, 14.5, -10.2, 1.9,0 33 4.0, 12.6, 14.8, -10.7, 1.3, 0 34 4.0, 11.0, 14.6, -10.8, 0.7,0 35 4.0, 9.2, 14.0, -10.5, 0.1, 0 36 4.0, 7.0, 13.0, -10.0, -0.5,0
SOURCE ID: FWKO1 IFV BH BW BL XADJ YADJ WAK IFV BH BW BL XADJ YADJ WAK 1 3.5, 8.9, 7.3, -11.5, -1.4, 0 2 3.5, 9.6, 8.4, -11.7, -2.7,0 3 3.5, 9.9, 9.2, -11.5, -4.0, 0 4 3.5, 10.0, 9.7, -11.0, -5.1,0 5 3.5, 9.7, 10.0, -10.1, -6.1, 0 6 3.5, 10.9, 10.9, -3.5, 3.5,0 7 3.5, 10.2, 10.2, -3.8, 3.8, 0 8 3.5, 9.3, 9.3, -3.9, 3.9,0 9 3.5, 8.0, 8.0, -4.0, 4.0, 0 10 3.5, 9.3, 9.3, -5.3, 3.9,0 11 3.5, 10.2, 10.2, -6.5, 3.8, 0 12 3.5, 10.9, 10.9, -7.5, 3.5,0 13 3.5, 9.7, 10.0, 0.2, -6.1, 0 14 3.5, 10.0, 9.7, 1.3, -5.1,0 15 3.5, 9.9, 9.2, 2.3, -4.0, 0 16 3.5, 9.6, 8.4, 3.3, -2.7,0 17 3.5, 8.9, 7.3, 4.2, -1.4, 0 18 3.5, 8.0, 8.0, -8.0, 0.0,0 19 3.5, 8.9, 7.3, 4.2, 1.4, 0 20 3.5, 9.6, 8.4, 3.3, 2.7,0 21 3.5, 9.9, 9.2, 2.3, 4.0, 0 22 3.5, 10.0, 9.7, 1.3, 5.1,0 23 3.5, 9.7, 10.0, 0.2, 6.1, 0 24 3.5, 10.9, 10.9, -7.5, -3.5,0 25 3.5, 10.2, 10.2, -6.5, -3.8, 0 26 3.5, 9.3, 9.3, -5.3, -3.9,
Page 16
noxreva.out0 27 3.5, 8.0, 8.0, -4.0, -4.0, 0 28 3.5, 9.3, 9.3, -3.9, -3.9,0 29 3.5, 10.2, 10.2, -3.8, -3.8, 0 30 3.5, 10.9, 10.9, -3.5, -3.5,0 31 3.5, 9.7, 10.0, -10.1, 6.1, 0 32 3.5, 10.0, 9.7, -11.0, 5.1,0 33 3.5, 9.9, 9.2, -11.5, 4.0, 0 34 3.5, 9.6, 8.4, -11.7, 2.7,0 35 3.5, 8.9, 7.3, -11.5, 1.4, 0 36 3.5, 8.0, 8.0, 0.0, 0.0,0
1 *** ISC3P - VERSION 04269 *** *** Penn West Waskada 11-30 Liquids RecoveryPlanT *** *** ***
PAGE 5 **MODELOPTs: CONC RURAL FLAT DFAULT
*** DIRECTION SPECIFIC BUILDING DIMENSIONS***
SOURCE ID: FWKO2 IFV BH BW BL XADJ YADJ WAK IFV BH BW BL XADJ YADJ WAK 1 3.5, 8.9, 7.3, -11.5, -1.4, 0 2 3.5, 9.6, 8.4, -11.7, -2.7,0 3 3.5, 9.9, 9.2, -11.5, -4.0, 0 4 3.5, 10.0, 9.7, -11.0, -5.1,0 5 3.5, 9.7, 10.0, -10.1, -6.1, 0 6 3.5, 10.9, 10.9, -3.5, 3.5,0 7 3.5, 10.2, 10.2, -3.8, 3.8, 0 8 3.5, 9.3, 9.3, -3.9, 3.9,0 9 3.5, 8.0, 8.0, -4.0, 4.0, 0 10 3.5, 9.3, 9.3, -5.3, 3.9,0 11 3.5, 10.2, 10.2, -6.5, 3.8, 0 12 3.5, 10.9, 10.9, -7.5, 3.5,0 13 3.5, 9.7, 10.0, 0.2, -6.1, 0 14 3.5, 10.0, 9.7, 1.3, -5.1,0 15 3.5, 9.9, 9.2, 2.3, -4.0, 0 16 3.5, 9.6, 8.4, 3.3, -2.7,0 17 3.5, 8.9, 7.3, 4.2, -1.4, 0 18 3.5, 8.0, 8.0, -8.0, 0.0,0 19 3.5, 8.9, 7.3, 4.2, 1.4, 0 20 3.5, 9.6, 8.4, 3.3, 2.7,0 21 3.5, 9.9, 9.2, 2.3, 4.0, 0 22 3.5, 10.0, 9.7, 1.3, 5.1,0 23 3.5, 9.7, 10.0, 0.2, 6.1, 0 24 3.5, 10.9, 10.9, -7.5, -3.5,0 25 3.5, 10.2, 10.2, -6.5, -3.8, 0 26 3.5, 9.3, 9.3, -5.3, -3.9,0 27 3.5, 8.0, 8.0, -4.0, -4.0, 0 28 3.5, 9.3, 9.3, -3.9, -3.9,0 29 3.5, 10.2, 10.2, -3.8, -3.8, 0 30 3.5, 10.9, 10.9, -3.5, -3.5,0 31 3.5, 9.7, 10.0, -10.1, 6.1, 0 32 3.5, 10.0, 9.7, -11.0, 5.1,0 33 3.5, 9.9, 9.2, -11.5, 4.0, 0 34 3.5, 9.6, 8.4, -11.7, 2.7,0 35 3.5, 8.9, 7.3, -11.5, 1.4, 0 36 3.5, 8.0, 8.0, 0.0, 0.0,
Page 17
noxreva.out0
SOURCE ID: FWKO3 IFV BH BW BL XADJ YADJ WAK IFV BH BW BL XADJ YADJ WAK 1 3.5, 8.9, 7.3, -11.5, -1.4, 0 2 3.5, 9.6, 8.4, -11.7, -2.7,0 3 3.5, 9.9, 9.2, -11.5, -4.0, 0 4 3.5, 10.0, 9.7, -11.0, -5.1,0 5 3.5, 9.7, 10.0, -10.1, -6.1, 0 6 3.5, 10.9, 10.9, -3.5, 3.5,0 7 3.5, 10.2, 10.2, -3.8, 3.8, 0 8 3.5, 9.3, 9.3, -3.9, 3.9,0 9 3.5, 8.0, 8.0, -4.0, 4.0, 0 10 3.5, 9.3, 9.3, -5.3, 3.9,0 11 3.5, 10.2, 10.2, -6.5, 3.8, 0 12 3.5, 10.9, 10.9, -7.5, 3.5,0 13 3.5, 9.7, 10.0, 0.2, -6.1, 0 14 3.5, 10.0, 9.7, 1.3, -5.1,0 15 3.5, 9.9, 9.2, 2.3, -4.0, 0 16 3.5, 9.6, 8.4, 3.3, -2.7,0 17 3.5, 8.9, 7.3, 4.2, -1.4, 0 18 3.5, 8.0, 8.0, -8.0, 0.0,0 19 3.5, 8.9, 7.3, 4.2, 1.4, 0 20 3.5, 9.6, 8.4, 3.3, 2.7,0 21 3.5, 9.9, 9.2, 2.3, 4.0, 0 22 3.5, 10.0, 9.7, 1.3, 5.1,0 23 3.5, 9.7, 10.0, 0.2, 6.1, 0 24 3.5, 10.9, 10.9, -7.5, -3.5,0 25 3.5, 10.2, 10.2, -6.5, -3.8, 0 26 3.5, 9.3, 9.3, -5.3, -3.9,0 27 3.5, 8.0, 8.0, -4.0, -4.0, 0 28 3.5, 9.3, 9.3, -3.9, -3.9,0 29 3.5, 10.2, 10.2, -3.8, -3.8, 0 30 3.5, 10.9, 10.9, -3.5, -3.5,0 31 3.5, 9.7, 10.0, -10.1, 6.1, 0 32 3.5, 10.0, 9.7, -11.0, 5.1,0 33 3.5, 9.9, 9.2, -11.5, 4.0, 0 34 3.5, 9.6, 8.4, -11.7, 2.7,0 35 3.5, 8.9, 7.3, -11.5, 1.4, 0 36 3.5, 8.0, 8.0, 0.0, 0.0,0
SOURCE ID: TREATER1 IFV BH BW BL XADJ YADJ WAK IFV BH BW BL XADJ YADJ WAK 1 3.5, 8.9, 7.3, -4.3, 3.9, 0 2 3.5, 9.6, 8.4, -5.6, 3.8,0 3 3.5, 9.9, 9.2, -6.6, 3.5, 0 4 3.5, 10.0, 9.7, -7.4, 3.1,0 5 3.5, 9.7, 10.0, -8.1, 2.6, 0 6 3.5, 9.2, 9.9, -8.4, 2.0,0 7 3.5, 8.4, 9.6, -8.5, 1.4, 0 8 3.5, 7.3, 8.9, -8.4, 0.7,0 9 3.5, 6.0, 8.0, -8.0, 0.0, 0 10 3.5, 7.3, 8.9, -8.4, -0.7,0 11 3.5, 8.4, 9.6, -8.5, -1.4, 0 12 3.5, 9.2, 9.9, -8.4, -2.0,0 13 3.5, 9.7, 10.0, -8.1, -2.6, 0 14 3.5, 10.0, 9.7, -7.4, -3.1,0 15 3.5, 9.9, 9.2, -6.6, -3.5, 0 16 3.5, 9.6, 8.4, -5.6, -3.8,0
Page 18
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SOURCE ID: TREATER2 IFV BH BW BL XADJ YADJ WAK IFV BH BW BL XADJ YADJ WAK 1 3.5, 8.9, 7.3, -4.3, 3.9, 0 2 3.5, 9.6, 8.4, -5.6, 3.8,0 3 3.5, 9.9, 9.2, -6.6, 3.5, 0 4 3.5, 10.0, 9.7, -7.4, 3.1,0 5 3.5, 9.7, 10.0, -8.1, 2.6, 0 6 3.5, 9.2, 9.9, -8.4, 2.0,0 7 3.5, 8.4, 9.6, -8.5, 1.4, 0 8 3.5, 7.3, 8.9, -8.4, 0.7,0 9 3.5, 6.0, 8.0, -8.0, 0.0, 0 10 3.5, 7.3, 8.9, -8.4, -0.7,0 11 3.5, 8.4, 9.6, -8.5, -1.4, 0 12 3.5, 9.2, 9.9, -8.4, -2.0,0 13 3.5, 9.7, 10.0, -8.1, -2.6, 0 14 3.5, 10.0, 9.7, -7.4, -3.1,0 15 3.5, 9.9, 9.2, -6.6, -3.5, 0 16 3.5, 9.6, 8.4, -5.6, -3.8,0 17 3.5, 8.9, 7.3, -4.3, -3.9, 0 18 3.5, 8.0, 8.0, -16.0, -4.0,0 19 3.5, 8.9, 7.3, -3.0, -3.9, 0 20 3.5, 9.6, 8.4, -2.8, -3.8,0 21 3.5, 9.9, 9.2, -2.6, -3.5, 0 22 3.5, 10.0, 9.7, -2.3, -3.1,0 23 3.5, 9.7, 10.0, -1.9, -2.6, 0 24 3.5, 9.2, 9.9, -1.5, -2.0,0 25 3.5, 8.4, 9.6, -1.0, -1.4, 0 26 3.5, 7.3, 8.9, -0.5, -0.7,0 27 3.5, 6.0, 8.0, 0.0, 0.0, 0 28 3.5, 7.3, 8.9, -0.5, 0.7,0 29 3.5, 8.4, 9.6, -1.0, 1.4, 0 30 3.5, 9.2, 9.9, -1.5, 2.0,0 31 3.5, 9.7, 10.0, -1.9, 2.6, 0 32 3.5, 10.0, 9.7, -2.3, 3.1,0 33 3.5, 9.9, 9.2, -2.6, 3.5, 0 34 3.5, 9.6, 8.4, -2.8, 3.8,0 35 3.5, 8.9, 7.3, -3.0, 3.9, 0 36 3.5, 8.0, 6.0, -3.0, 4.0,0
1 *** ISC3P - VERSION 04269 *** *** Penn West Waskada 11-30 Liquids RecoveryPage 19
noxreva.outPlanT *** *** ***
PAGE 6 **MODELOPTs: CONC RURAL FLAT DFAULT
*** DIRECTION SPECIFIC BUILDING DIMENSIONS***
SOURCE ID: TREATER3 IFV BH BW BL XADJ YADJ WAK IFV BH BW BL XADJ YADJ WAK 1 3.5, 8.9, 7.3, -4.3, 3.9, 0 2 3.5, 9.6, 8.4, -5.6, 3.8,0 3 3.5, 9.9, 9.2, -6.6, 3.5, 0 4 3.5, 10.0, 9.7, -7.4, 3.1,0 5 3.5, 9.7, 10.0, -8.1, 2.6, 0 6 3.5, 9.2, 9.9, -8.4, 2.0,0 7 3.5, 8.4, 9.6, -8.5, 1.4, 0 8 3.5, 7.3, 8.9, -8.4, 0.7,0 9 3.5, 6.0, 8.0, -8.0, 0.0, 0 10 3.5, 7.3, 8.9, -8.4, -0.7,0 11 3.5, 8.4, 9.6, -8.5, -1.4, 0 12 3.5, 9.2, 9.9, -8.4, -2.0,0 13 3.5, 9.7, 10.0, -8.1, -2.6, 0 14 3.5, 10.0, 9.7, -7.4, -3.1,0 15 3.5, 9.9, 9.2, -6.6, -3.5, 0 16 3.5, 9.6, 8.4, -5.6, -3.8,0 17 3.5, 8.9, 7.3, -4.3, -3.9, 0 18 3.5, 8.0, 8.0, -16.0, -4.0,0 19 3.5, 8.9, 7.3, -3.0, -3.9, 0 20 3.5, 9.6, 8.4, -2.8, -3.8,0 21 3.5, 9.9, 9.2, -2.6, -3.5, 0 22 3.5, 10.0, 9.7, -2.3, -3.1,0 23 3.5, 9.7, 10.0, -1.9, -2.6, 0 24 3.5, 9.2, 9.9, -1.5, -2.0,0 25 3.5, 8.4, 9.6, -1.0, -1.4, 0 26 3.5, 7.3, 8.9, -0.5, -0.7,0 27 3.5, 6.0, 8.0, 0.0, 0.0, 0 28 3.5, 7.3, 8.9, -0.5, 0.7,0 29 3.5, 8.4, 9.6, -1.0, 1.4, 0 30 3.5, 9.2, 9.9, -1.5, 2.0,0 31 3.5, 9.7, 10.0, -1.9, 2.6, 0 32 3.5, 10.0, 9.7, -2.3, 3.1,0 33 3.5, 9.9, 9.2, -2.6, 3.5, 0 34 3.5, 9.6, 8.4, -2.8, 3.8,0 35 3.5, 8.9, 7.3, -3.0, 3.9, 0 36 3.5, 8.0, 6.0, -3.0, 4.0,0
SOURCE ID: TREATER4 IFV BH BW BL XADJ YADJ WAK IFV BH BW BL XADJ YADJ WAK 1 3.5, 8.9, 7.3, -4.3, 3.9, 0 2 3.5, 9.6, 8.4, -5.6, 3.8,0 3 3.5, 9.9, 9.2, -6.6, 3.5, 0 4 3.5, 10.0, 9.7, -7.4, 3.1,0 5 3.5, 9.7, 10.0, -8.1, 2.6, 0 6 3.5, 9.2, 9.9, -8.4, 2.0,0 7 3.5, 8.4, 9.6, -8.5, 1.4, 0 8 3.5, 7.3, 8.9, -8.4, 0.7,
Page 20
noxreva.out0 9 3.5, 6.0, 8.0, -8.0, 0.0, 0 10 3.5, 7.3, 8.9, -8.4, -0.7,0 11 3.5, 8.4, 9.6, -8.5, -1.4, 0 12 3.5, 9.2, 9.9, -8.4, -2.0,0 13 3.5, 9.7, 10.0, -8.1, -2.6, 0 14 3.5, 10.0, 9.7, -7.4, -3.1,0 15 3.5, 9.9, 9.2, -6.6, -3.5, 0 16 3.5, 9.6, 8.4, -5.6, -3.8,0 17 3.5, 8.9, 7.3, -4.3, -3.9, 0 18 3.5, 8.0, 8.0, -16.0, -4.0,0 19 3.5, 8.9, 7.3, -3.0, -3.9, 0 20 3.5, 9.6, 8.4, -2.8, -3.8,0 21 3.5, 9.9, 9.2, -2.6, -3.5, 0 22 3.5, 10.0, 9.7, -2.3, -3.1,0 23 3.5, 9.7, 10.0, -1.9, -2.6, 0 24 3.5, 9.2, 9.9, -1.5, -2.0,0 25 3.5, 8.4, 9.6, -1.0, -1.4, 0 26 3.5, 7.3, 8.9, -0.5, -0.7,0 27 3.5, 6.0, 8.0, 0.0, 0.0, 0 28 3.5, 7.3, 8.9, -0.5, 0.7,0 29 3.5, 8.4, 9.6, -1.0, 1.4, 0 30 3.5, 9.2, 9.9, -1.5, 2.0,0 31 3.5, 9.7, 10.0, -1.9, 2.6, 0 32 3.5, 10.0, 9.7, -2.3, 3.1,0 33 3.5, 9.9, 9.2, -2.6, 3.5, 0 34 3.5, 9.6, 8.4, -2.8, 3.8,0 35 3.5, 8.9, 7.3, -3.0, 3.9, 0 36 3.5, 8.0, 6.0, -3.0, 4.0,0
1 *** ISC3P - VERSION 04269 *** *** Penn West Waskada 11-30 Liquids RecoveryPlanT *** *** ***
PAGE 7 **MODELOPTs: CONC RURAL FLAT DFAULT
*** GRIDDED RECEPTOR NETWORK SUMMARY ***
*** NETWORK ID: POL1 ; NETWORK TYPE: GRIDPOLR***
*** ORIGIN FOR POLAR NETWORK *** X-ORIG = 0.00 ; Y-ORIG = 0.00 (METERS)
*** DISTANCE RANGES OF NETWORK *** (METERS)
100.0, 200.0, 500.0,
*** DIRECTION RADIALS OF NETWORK *** (DEGREES)
10.0, 20.0, 30.0, 40.0, 50.0, 60.0, 70.0, 80.0, 90.0, 100.0, 110.0, 120.0, 130.0, 140.0, 150.0, 160.0, 170.0, 180.0, 190.0, 200.0, 210.0, 220.0, 230.0, 240.0, 250.0, 260.0, 270.0, 280.0, 290.0, 300.0, 310.0, 320.0, 330.0, 340.0, 350.0, 360.0,
Page 21
noxreva.out1 *** ISC3P - VERSION 04269 *** *** Penn West Waskada 11-30 Liquids RecoveryPlanT *** *** ***
PAGE 8 **MODELOPTs: CONC RURAL FLAT DFAULT
*** METEOROLOGICAL DAYS SELECTED FORPROCESSING *** (1=YES; 0=NO)
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 11 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 11 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 11 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 11 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 11 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 11 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 11 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
NOTE: METEOROLOGICAL DATA ACTUALLY PROCESSED WILL ALSO DEPEND ONWHAT IS INCLUDED IN THE DATA FILE.
*** UPPER BOUND OF FIRST THROUGH FIFTH WIND SPEEDCATEGORIES *** (METERS/SEC)
1.54, 3.09, 5.14, 8.23,10.80,
*** WIND PROFILE EXPONENTS ***
STABILITY WIND SPEED CATEGORY CATEGORY 1 2 3 4 5 6 A .70000E-01 .70000E-01 .70000E-01.70000E-01 .70000E-01 .70000E-01 B .70000E-01 .70000E-01 .70000E-01.70000E-01 .70000E-01 .70000E-01 C .10000E+00 .10000E+00 .10000E+00.10000E+00 .10000E+00 .10000E+00 D .15000E+00 .15000E+00 .15000E+00.15000E+00 .15000E+00 .15000E+00 E .35000E+00 .35000E+00 .35000E+00.35000E+00 .35000E+00 .35000E+00 F .55000E+00 .55000E+00 .55000E+00.55000E+00 .55000E+00 .55000E+00
Page 22
noxreva.out *** VERTICAL POTENTIAL TEMPERATUREGRADIENTS *** (DEGREES KELVIN PER METER)
STABILITY WIND SPEED CATEGORY CATEGORY 1 2 3 4 5 6 A .00000E+00 .00000E+00 .00000E+00.00000E+00 .00000E+00 .00000E+00 B .00000E+00 .00000E+00 .00000E+00.00000E+00 .00000E+00 .00000E+00 C .00000E+00 .00000E+00 .00000E+00.00000E+00 .00000E+00 .00000E+00 D .00000E+00 .00000E+00 .00000E+00.00000E+00 .00000E+00 .00000E+00 E .20000E-01 .20000E-01 .20000E-01.20000E-01 .20000E-01 .20000E-01 F .35000E-01 .35000E-01 .35000E-01.35000E-01 .35000E-01 .35000E-011 *** ISC3P - VERSION 04269 *** *** Penn West Waskada 11-30 Liquids RecoveryPlanT *** *** ***
PAGE 9 **MODELOPTs: CONC RURAL FLAT DFAULT
*** THE FIRST 24 HOURS OF METEOROLOGICAL DATA ***
FILE: MEDHAT.MET FORMAT:(4I2,2F9.4,F6.1,I2,2F7.1,f9.4,f10.1,f8.4,i4,f7.2) SURFACE STATION NO.: 99999 UPPER AIR STATION NO.:99999 NAME: UNKNOWN NAME:UNKNOWN YEAR: 1993 YEAR:1993
FLOW SPEED TEMP STAB MIXING HEIGHT(M) USTAR M-O LENGTH Z-0 IPCODE PRATE YEAR MONTH DAY HOUR VECTOR (M/S) (K) CLASS RURALURBAN (M/S) (M) (M) (mm/HR)- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
93 1 1 1 175.0 1.00 238.9 6 155.5155.5 0.0000 0.0 0.0000 0 0.00 93 1 1 2 211.6 1.00 239.3 6 155.5155.5 0.0000 0.0 0.0000 0 0.00 93 1 1 3 41.2 1.00 240.1 6 155.5155.5 0.0000 0.0 0.0000 0 0.00 93 1 1 4 141.1 1.00 239.1 6 155.5155.5 0.0000 0.0 0.0000 0 0.00 93 1 1 5 166.1 1.00 239.9 6 189.7189.7 0.0000 0.0 0.0000 0 0.00 93 1 1 6 95.9 1.67 241.3 6 195.9195.9 0.0000 0.0 0.0000 0 0.00 93 1 1 7 270.8 1.11 241.3 6 230.1230.1 0.0000 0.0 0.0000 0 0.00 93 1 1 8 270.9 1.67 242.4 6 202.1
Page 23
noxreva.out202.1 0.0000 0.0 0.0000 0 0.00 93 1 1 9 93.8 1.11 243.3 6 195.9195.9 0.0000 0.0 0.0000 0 0.00 93 1 1 10 342.3 1.00 243.9 6 209.9209.9 0.0000 0.0 0.0000 0 0.00 93 1 1 11 228.0 1.94 245.4 3 239.5239.5 0.0000 0.0 0.0000 0 0.00 93 1 1 12 284.0 1.67 246.0 3 244.1244.1 0.0000 0.0 0.0000 0 0.00 93 1 1 13 234.0 1.11 247.3 3 195.9195.9 0.0000 0.0 0.0000 0 0.00 93 1 1 14 266.6 1.00 247.8 3 218.1218.1 0.0000 0.0 0.0000 0 0.00 93 1 1 15 314.1 1.94 250.3 6 218.1218.1 0.0000 0.0 0.0000 0 0.00 93 1 1 16 252.7 1.00 248.8 6 218.1218.1 0.0000 0.0 0.0000 0 0.00 93 1 1 17 3.5 1.00 249.6 6 155.5155.5 0.0000 0.0 0.0000 0 0.00 93 1 1 18 322.2 1.00 250.3 6 155.5155.5 0.0000 0.0 0.0000 0 0.00 93 1 1 19 276.5 1.00 250.4 6 155.5155.5 0.0000 0.0 0.0000 0 0.00 93 1 1 20 88.6 1.00 250.5 6 155.5155.5 0.0000 0.0 0.0000 0 0.00 93 1 1 21 213.3 1.00 250.3 6 233.3233.3 0.0000 0.0 0.0000 0 0.00 93 1 1 22 191.0 2.50 250.4 6 233.3233.3 0.0000 0.0 0.0000 0 0.00 93 1 1 23 269.9 1.00 251.3 6 233.3233.3 0.0000 0.0 0.0000 0 0.00 93 1 1 24 345.7 1.00 251.4 6 189.7189.7 0.0000 0.0 0.0000 0 0.00
*** NOTES: STABILITY CLASS 1=A, 2=B, 3=C, 4=D, 5=E AND 6=F. FLOW VECTOR IS DIRECTION TOWARD WHICH WIND IS BLOWING.1 *** ISC3P - VERSION 04269 *** *** Penn West Waskada 11-30 Liquids RecoveryPlanT *** *** ***
PAGE 10 **MODELOPTs: CONC RURAL FLAT DFAULT
*** THE PERIOD ( 43824 HRS) AVERAGE CONCENTRATIONVALUES FOR SOURCE GROUP: ALL *** INCLUDING SOURCE(S): HOTOIL , GLYCOL , COMP , FWKO1 , FWKO2 , FWKO3 , TREATER1, TREATER2, TREATER3, TREATER4,
*** NETWORK ID: POL1 ; NETWORK TYPE:GRIDPOLR ***
** CONC OF NOX IN MICROGRAMS/M**3 **
DIRECTION | DISTANCE (METERS) (DEGREES) | 100.00 200.00 500.00 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - - - - - - - - -
Page 24
noxreva.out
10.00 | 0.62004 0.28927 0.48319 20.00 | 0.53384 0.24741 0.64517 30.00 | 0.44819 0.19341 0.83184 40.00 | 0.37192 0.12612 1.44007 50.00 | 0.32049 0.06702 3.50844 60.00 | 0.29181 0.02641 3.18240 70.00 | 0.27414 0.02107 1.73704 80.00 | 0.28377 0.02652 1.65031 90.00 | 0.29539 0.13414 1.29426 100.00 | 0.32053 0.23251 1.30560 110.00 | 0.36960 0.34529 1.22441 120.00 | 0.43132 0.46670 1.33468 130.00 | 0.49317 0.56196 1.05151 140.00 | 0.54672 0.65547 0.78809 150.00 | 0.59028 0.75420 0.83368 160.00 | 0.62750 0.84297 0.78443 170.00 | 0.66434 0.89783 0.72008 180.00 | 0.70599 0.86543 0.79166 190.00 | 0.76244 0.78978 0.88792 200.00 | 0.84199 0.76885 0.85739 210.00 | 0.93330 0.81212 0.71072 220.00 | 1.00231 0.93998 0.68464 230.00 | 1.02351 1.06206 0.83265 240.00 | 1.00531 1.05584 0.92938 250.00 | 0.98275 0.99792 0.81261 260.00 | 0.98615 1.02586 0.90076 270.00 | 1.01973 1.13212 1.07181 280.00 | 1.07316 1.25808 1.16869 290.00 | 1.13182 1.29961 0.78267 300.00 | 1.16284 1.18036 0.48704 310.00 | 1.13928 0.95638 0.41717 320.00 | 1.06802 0.70415 0.43015 330.00 | 0.97758 0.54224 0.37701 340.00 | 0.88595 0.46188 0.34585 350.00 | 0.79542 0.39238 0.41606 360.00 | 0.70672 0.32969 0.475651 *** ISC3P - VERSION 04269 *** *** Penn West Waskada 11-30 Liquids RecoveryPlanT *** *** ***
PAGE 11 **MODELOPTs: CONC RURAL FLAT DFAULT
*** THE MAXIMUM 3 1-HR AVERAGE CONCENTRATIONVALUES FOR SOURCE GROUP: ALL *** INCLUDING SOURCE(S): HOTOIL , GLYCOL , COMP , FWKO1 , FWKO2 , FWKO3 , TREATER1, TREATER2, TREATER3, TREATER4,
** CONC OF NOX IN MICROGRAMS/M**3 **
RANK CONC (YYMMDDHH) AT RECEPTOR (XR,YR) OF TYPE RANK CONC (YYMMDDHH) AT RECEPTOR (XR,YR) OF TYPE - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - - - - - - - - - 1. 73.84381 (96072815) AT ( 34.20, -93.97) GP 3.72.89821 (96072815) AT ( 50.00, -86.60) GP 2. 73.55164 (94080318) AT ( 64.28, -76.60) GP
Page 25
noxreva.out *** RECEPTOR TYPES: GC = GRIDCART GP = GRIDPOLR DC = DISCCART DP = DISCPOLR BD = BOUNDARY1 *** ISC3P - VERSION 04269 *** *** Penn West Waskada 11-30 Liquids RecoveryPlanT *** *** ***
PAGE 12 **MODELOPTs: CONC RURAL FLAT DFAULT
*** THE MAXIMUM 3 24-HR AVERAGE CONCENTRATIONVALUES FOR SOURCE GROUP: ALL *** INCLUDING SOURCE(S): HOTOIL , GLYCOL , COMP , FWKO1 , FWKO2 , FWKO3 , TREATER1, TREATER2, TREATER3, TREATER4,
** CONC OF NOX IN MICROGRAMS/M**3 **
RANK CONC (YYMMDDHH) AT RECEPTOR (XR,YR) OF TYPE RANK CONC (YYMMDDHH) AT RECEPTOR (XR,YR) OF TYPE - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - - - - - - - - - 1. 36.79039 (94113024) AT ( 383.02, 321.39) GP 3.33.23015 (97052324) AT ( -153.21, -128.56) GP 2. 33.52512 (97052424) AT ( -76.60, -64.28) GP
*** RECEPTOR TYPES: GC = GRIDCART GP = GRIDPOLR DC = DISCCART DP = DISCPOLR BD = BOUNDARY1 *** ISC3P - VERSION 04269 *** *** Penn West Waskada 11-30 Liquids RecoveryPlanT *** *** ***
PAGE 13 **MODELOPTs: CONC RURAL FLAT DFAULT
*** THE SUMMARY OF MAXIMUM PERIOD (43824 HRS) RESULTS ***
** CONC OF NOX IN MICROGRAMS/M**3 **
NETWORK GROUP ID AVERAGE CONC RECEPTOR (XR, YR, ZELEV,ZFLAG) OF TYPE GRID-ID - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -- - - - - - - - - - - - - - - - - -
ALL 1ST HIGHEST VALUE IS 3.50844 AT ( 383.02, 321.39,0.00, 0.00) GP POL1 2ND HIGHEST VALUE IS 3.18240 AT ( 433.01, 250.00,0.00, 0.00) GP POL1
Page 26
noxreva.out 3RD HIGHEST VALUE IS 1.73704 AT ( 469.85, 171.01,0.00, 0.00) GP POL1 4TH HIGHEST VALUE IS 1.65031 AT ( 492.40, 86.82,0.00, 0.00) GP POL1 5TH HIGHEST VALUE IS 1.44007 AT ( 321.39, 383.02,0.00, 0.00) GP POL1 6TH HIGHEST VALUE IS 1.33468 AT ( 433.01, -250.00,0.00, 0.00) GP POL1
*** RECEPTOR TYPES: GC = GRIDCART GP = GRIDPOLR DC = DISCCART DP = DISCPOLR BD = BOUNDARY1 *** ISC3P - VERSION 04269 *** *** Penn West Waskada 11-30 Liquids RecoveryPlanT *** *** ***
PAGE 14 **MODELOPTs: CONC RURAL FLAT DFAULT
*** Message Summary : ISC3P Model Execution ***
--------- Summary of Total Messages --------
A Total of 0 Fatal Error Message(s) A Total of 2 Warning Message(s) A Total of 0 Informational Message(s)
******** FATAL ERROR MESSAGES ******** *** NONE ***
******** WARNING MESSAGES ******** SO W320 11 PPARM :Source Parameter May Be Out-of-Range for Parameter VS SO W320 171 PPARM :Source Parameter May Be Out-of-Range for Parameter VS
************************************ *** ISC3P Finishes Successfully *** ************************************
Page 27
1 of 6
Line Stack DataNo.
1 Stack Height (metres) 18.32 Stack Diameter (metres) 0.2733 Flare Gas Volume (m
3/s) 1.63
4 Flared Gas Heating Value (MJ/m3) 38
5 H2S Fraction Before Combustion 0.00526 Maximum Calculated Ground Level SO2 (ug/m
3) 26.91
Table # 6
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 11, 2012
FLARING DETAILS (Case 1) -Train 2/3 Flare - Continuous
Page
Prepared By: JSRev: 0 E.R.C.S.
File: ERCS-TABL-Flaring Details.xlsDate Produced: 2012-07-18
2 of 6
Line Stack DataNo.
1 Stack Height (metres) 18.32 Stack Diameter (metres) 0.2733 Flare Gas Volume (m
3/s) 0.1636
4 Flared Gas Heating Value (MJ/m3) 19.3
5 H2S Fraction Before Combustion 0.05786 Maximum Calculated Ground Level SO2 (ug/m
3) 294.5
Table # 6
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 11, 2012
FLARING DETAILS (Case 2) -Train 2/3 Flare - Blowdown
Page
Prepared By: JSRev: 0 E.R.C.S.
File: ERCS-TABL-Flaring Details.xlsDate Produced: 2012-07-18
3 of 6
Line Stack DataNo.
1 Stack Height (metres) 18.32 Stack Diameter (metres) 0.2733 Flare Gas Volume (m
3/s) 3.82
4 Flared Gas Heating Value (MJ/m3) 65.7
5 H2S Fraction Before Combustion 0.00226 Maximum Calculated Ground Level SO2 (ug/m
3) 10.41
Table # 6
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 11, 2012
FLARING DETAILS (Case 3) -Train 2/3 Flare - PSV
Page
Prepared By: JSRev: 0 E.R.C.S.
File: ERCS-TABL-Flaring Details.xlsDate Produced: 2012-07-18
4 of 6
Line Stack DataNo.
1 Stack Height (metres) 15.242 Stack Diameter (metres) 0.1023 Flare Gas Volume (m
3/s) 0.0023
4 Flared Gas Heating Value (MJ/m3) 40.9
5 H2S Fraction Before Combustion 0.000036 Maximum Calculated Ground Level SO2 (ug/m
3) 0.041
Table # 6
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 11, 2012
FLARING DETAILS (Case 4) -Train 1 Flare - Continuous
Page
Prepared By: JSRev: 0 E.R.C.S.
File: ERCS-TABL-Flaring Details.xlsDate Produced: 2012-07-18
5 of 6
Line Stack DataNo.
1 Stack Height (metres) 15.242 Stack Diameter (metres) 0.1023 Flare Gas Volume (m
3/s) 2.91
4 Flared Gas Heating Value (MJ/m3) 55.8
5 H2S Fraction Before Combustion 0.00366 Maximum Calculated Ground Level SO2 (ug/m
3) 16.67
Table # 6
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 11, 2012
FLARING DETAILS (Case 5) -Train 1 Flare - PSV
Page
Prepared By: JSRev: 0 E.R.C.S.
File: ERCS-TABL-Flaring Details.xlsDate Produced: 2012-07-18
6 of 6
Line Stack DataNo.
1 Stack Height (metres) 5.82 Stack Diameter (metres) 0.3053 Flare Gas Volume (m
3/s) 0.0123
4 Flared Gas Heating Value (MJ/m3) 11.2
5 H2S Fraction Before Combustion 0.00026 Maximum Calculated Ground Level SO2 (ug/m
3) 2.4
Table # 6
Penn West Exploration Ltd.
Waskada Liquids Recovery Plant
013-06-00
July 11, 2012
FLARING DETAILS (Case 6) –Train 3 Incinerator
Page
Prepared By: JSRev: 0 E.R.C.S.
File: ERCS-TABL-Flaring Details.xlsDate Produced: 2012-07-18