GHG Summary Report

CO2 equivalent emissions from facility subparts C-II, SS, and TT (metric tons):2,359,236.3
CO2 equivalent emissions from supplier subparts LL-QQ (metric tons):
Biogenic CO2 emissions from facility subparts C-II, SS, and TT (metric tons):0
Cogeneration Unit Emissions Indicator:N
GHG Report Start Date:2020-01-01
GHG Report End Date:2020-12-31
Description of Changes to Calculation Methodology:
Plant Code Indicator:N
Primary NAICS Code:325311
Second Primary NAICS Code:

Parent Company Details:

Parent Company Name:KOCH INDUSTRIES INC
Address:4111 East 37th Street North, Wichita, KS 67220
Percent Ownership Interest:100

Subpart C: General Stationary Fuel Combustion

Gas Information Details

Gas Name	Biogenic Carbon dioxide
Gas Quantity	0 (Metric Tons)
Own Result?

Gas Name	Methane
Gas Quantity	18.39 (Metric Tons)
Own Result?

Gas Name	Nitrous Oxide
Gas Quantity	1.839 (Metric Tons)
Own Result?

Gas Name	Carbon Dioxide
Gas Quantity	976,027.9 (Metric Tons)
Own Result?

Unit Details:

Unit Name : CP-1
Unit Type : OCS (Other combustion source)
Unit Description :
Other Unit Name :

Common Pipe Details:
Use Ivt Indicator: Y
Maximum Rated Heat Input Capacity: 1350
Cumulative Maximum Rated Heat Input Capacity: 3257.2

Emission Details:
Annual Biogenic CO2 Emissions: 0.0 (metric tons)
Annual Fossil fuel based CO2 Emissions: 976027.9 (metric tons)

Tier Fuel Details:

Fuel : Natural Gas (Weighted U.S. Average)
Tier Name : Tier 2 (Equation C-2a)
Tier Methodology Start Date : 2020-01-01
Tier Methodology End Date : 2020-12-31
Frequency of HHV determinations : Daily

Tier 2 Monthly HHV Details :

January	February	March	April	May	June	July	August	September	October	November	December
N	N	N	N	N	N	N	N	N	N	N	N

Fuel Emission Details :

Total CO2 emissions	Total CH4 emissions	Total N2O emissions	Total CH4 emissions CO2e	Total N2O emissions CO2e
976027.9 (Metric Tons)	18.39 (Metric Tons)	1.839 (Metric Tons)	459.9 (Metric Tons)	548.2 (Metric Tons)

Equation C2a/C9a Inputs :
Fuel Quantity : 17750120869 ()
Use Default High Heat Value : false
Use Default CH4 Emission Factor : false
Equation C2b Inputs :

	Fuel Combusted	High Heat Value
January	1507137220 ()	0.00104289 ()
February	1461864329 ()	0.00104394 ()
March	1460787310 ()	0.00104029 ()
April	1443518586 ()	0.00105612 ()
May	1445115589 ()	0.0010306 ()
June	1495030248 ()	0.00103182 ()
July	1524878623 ()	0.00102544 ()
August	1276429787 ()	0.00102684 ()
September	1520493040 ()	0.00102817 ()
October	1563791501 ()	0.00102851 ()
November	1491934230 ()	0.00103963 ()
December	1559140406 ()	0.0010414 ()

Subpart G: Ammonia Manufacturing

CEMS Monitoring Location (CML) Details

Gas Information Details

Gas Name	Biogenic Carbon dioxide
Gas Quantity	0 (Metric Tons)
Own Result?

Gas Name	Methane
Gas Quantity	0 (Metric Tons)
Own Result?

Gas Name	Nitrous Oxide
Gas Quantity	0 (Metric Tons)
Own Result?

Gas Name	Carbon Dioxide
Gas Quantity	1,381,943.4 (Metric Tons)
Own Result?

Annual Urea Produced ():

Determination Method: Company records
Other Determination Method:

CO2 Consumed (Metric Tons):

Consumed Method: Other
Other Consumed Method: Process knowledge

Annual ammonia produced (sum of annual ammonia production from all units reported in subpart G) ():

No Cems Ammonia Details

Unit #1 (Description: Type: Ammonia Manufacturing Process Unit)
		Value	Is Substituted	Times Substituted
Month	January
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	February
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	March
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	April
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	May
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	June
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	July
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	August
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	September
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	October
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	November
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	December
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Annual CO2 Emissions		658923.9 (Metric Tons)
Carbon Content of Feedstock
Annual quantity of methanol intentionally produced as a desired product for this process unit		()

Unit #2 (Description: Type: Ammonia Manufacturing Process Unit)
		Value	Is Substituted	Times Substituted
Month	January
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	February
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	March
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	April
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	May
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	June
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	July
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	August
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	September
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	October
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	November
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Month	December
Feedstock Type
	Quantity		N
	Quantity Determination Method	Flow meter
	Other Quantity Determination Method
	Carbon Content		N
	Basis for Carbon Content	ASTM D1945-03
	Molecular Weight		N
Annual CO2 Emissions		723019.4 (Metric Tons)
Carbon Content of Feedstock
Annual quantity of methanol intentionally produced as a desired product for this process unit		()

Subpart V: Nitric Acid Production

Gas Information Details

Gas Name	Nitrous Oxide
Gas Quantity	0.863 (Metric Tons)
Own Result?

SubpartVFacilityInformationDetails:

Total Number of Nitric Acid Trains at the Facility [§98.226(f)]	1
Total Annual Nitric Acid Production for the Facility [§98.226(e)] (short tons)
Total Annual Percent N2O Emission Reduction for All Nitric Acid Trains Combined [§98.226(q)] (percent)	percent

NitricAcidTrainInformationDetails:

NitricAcidTrainInfoRowDetails:

Nitric Acid Train ID [§98.226(a)]	Train 1
Description of the Nitric Acid Train (Optional)
Number of Months that a Missing Data Procedure Was Used to Determine a Monthly Quantity of Nitric Acid Production [§98.226(l)]	0
Type of Nitric Acid Process Used by the Train [§98.226(k)]
Are N2O Emissions Estimated Using an Administrator-Approved Alternative Method? [§98.226]	No
If yes, is this a previously approved alternative method? [§98.223(a)(2)]
If yes, enter the name of the Alternative Method [§98.226(n)(1)]
If yes, provide a description of the Alternative Method [§98.226(n)(2)]
If yes, enter the request date [§98.226(n)(3)] (mm/dd/yyyy)
If yes, enter the approval date [§98.226(n)(4)] (mm/dd/yyyy)
Number of Times in the Reporting Year that a Performance Test had to be Repeated [§98.226(m)(7)]	0
Performance Test (1 of 3): ID/Description [§98.226(m)]	2020 N2O Performance Test
Performance Test (1 of 3): Test Method Used [§98.226(m)(2)]	ASTM D6348-03
Performance Test (2 of 3): ID/Description (if applicable) [§98.226(m)]
Performance Test (2 of 3): Test Method Used (if applicable) [(98.226(m)(2)]
Performance Test (3 of 3): ID/Description (if applicable) [§98.226(m)]
Performance Test (3 of 3): Test Method Used (if applicable) [(98.226(m)(2)]
Does Nitric Acid Train Exhaust to an N2O Abatement Technology? [§98.226(h)]	Yes
Was Nonselective catalytic reduction (NSCR) used as an abatement technology? [§98.226(h)]	Yes
Were any "other" abatement technologies used? [§98.226(h)]	No
If yes, provide a description of the "Other" Abatement Technology [§98.226(h)]
Date of Installation of Abatement Technology [§98.226(h)] (mm/dd/yyyy)
Annual N2O Emissions for the Nitric Acid Train [§98.226(b)] (metric tons)	0.8625193696

Subpart PP: Suppliers of Carbon Dioxide

Gas Information Details

Gas Name	Carbon Dioxide
Gas Quantity
Own Result?

Supplier Type: capture 98.420(a)(1)

Calculation Methodology: Flow Meters 1

Meter Details:

Meter Name: Linde Meter
Meter Description:
Meter Type: CO2 Flow Meter
Measurement Type: Mass
Annual Mass of CO2 (Metric Tons):
Biomass-Based Percent: 0
Flow Meter Location: NA
Was CO2 Imported or Exported: NA
Dehydration Equipment Upstream? Y
Dehydration Equipment Downstream? N
Compression Equipment Upstream? N
Compression Equipment Downstream? N
Other Processing Equipment Upstream? Y
Other Processing Equipment Downstream? N
Other Processing Equipment Description: A portion of the CO2 is diverted to UAN and urea production.

Quarterly Mass Flow Data

Quarter	Mass Flow Rate	CO2 Concentration	Measurement Standard
First Quarter	(Metric Tons)	(wt. %CO2 expressed as a fraction)	Gas chromatograph ASTM D1946-90 and D3588-98
Second Quarter	(Metric Tons)	(wt. %CO2 expressed as a fraction)	Gas chromatograph ASTM D1946-90 and D3588-98
Third Quarter	(Metric Tons)	(wt. %CO2 expressed as a fraction)	Gas chromatograph ASTM D1946-90 and D3588-98
Fourth Quarter	(Metric Tons)	(wt. %CO2 expressed as a fraction)	Gas chromatograph ASTM D1946-90 and D3588-98

Meter Name: Daylight Petroleum Meter
Meter Description:
Meter Type: CO2 Flow Meter
Measurement Type: Mass
Annual Mass of CO2 (Metric Tons):
Biomass-Based Percent: 0
Flow Meter Location: NA
Was CO2 Imported or Exported: NA
Dehydration Equipment Upstream? Y
Dehydration Equipment Downstream? N
Compression Equipment Upstream? N
Compression Equipment Downstream? N
Other Processing Equipment Upstream? Y
Other Processing Equipment Downstream? N
Other Processing Equipment Description: A portion of the CO2 is diverted to UAN and urea production.

Quarterly Mass Flow Data

Quarter	Mass Flow Rate	CO2 Concentration	Measurement Standard
First Quarter	(Metric Tons)	(wt. %CO2 expressed as a fraction)	Gas chromatograph ASTM D1946-90 and D3588-98
Second Quarter	(Metric Tons)	(wt. %CO2 expressed as a fraction)	Gas chromatograph ASTM D1946-90 and D3588-98
Third Quarter	(Metric Tons)	(wt. %CO2 expressed as a fraction)	Gas chromatograph ASTM D1946-90 and D3588-98
Fourth Quarter	(Metric Tons)	(wt. %CO2 expressed as a fraction)	Gas chromatograph ASTM D1946-90 and D3588-98

End Use Details

End Use Category	Quantity of CO2
Food and beverage	(Metric Tons)
Industrial and municipal water/wastewater treatment	(Metric Tons)
Metal fabrication, including welding and cutting	(Metric Tons)
Greenhouse uses for plant growth	(Metric Tons)
Fumigants (e.g., grain storage) and herbicides	(Metric Tons)
Pulp and paper	(Metric Tons)
Cleaning and solvent use	(Metric Tons)
Fire fighting	(Metric Tons)
Transportation and storage of explosives	(Metric Tons)
Injection of CO2 for enhanced oil and natural gas recovery that is covered by 40 CFR Part 98, Subpart UU	(Metric Tons)
Geologic sequestration of carbon dioxide that is covered by 40 CFR Part 98, Subpart RR	(Metric Tons)
Research and Development	(Metric Tons)
Other (if other please provide a short description of the use)	(Metric Tons)
Unknown	(Metric Tons)

Number of days substitute data procedures were used for mass or volume: 0

Number of days substitute data procedures were used for concentration: 0

Number of days substitute data procedures were used for density: 0

Types of Equipment Used

Equipment Type	Standard Used to Calibrate Equipment
Mass flow meter	Meter is operated and calibration performed according to manufacturer's recommended procedures.