Facility Name: CHEMOURS LOUISVILLE WORKS
Facility Identifier:
Facility Reporting Year: 2019
Facility Location:
Address: 4200 CAMP GROUND ROAD
City: LOUISVILLE
State: KY
Postal Code: 40216

Facility Site Details:
CO2 equivalent emissions from facility subparts C-II, SS, and TT (metric tons): 3,733,242.4
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: 2019-01-01
GHG Report End Date: 2019-12-31
Description of Changes to Calculation Methodology:
Plant Code Indicator: N
Primary NAICS Code: 325120
Second Primary NAICS Code: 325180

Parent Company Details:
Parent Company Name: THE CHEMOURS CO
Address: 1007 North Market Street, Wilmington,  DE 19898
Percent Ownership Interest: 100

Subpart C: General Stationary Fuel Combustion

Gas Information Details

Gas NameCarbon Dioxide
Gas Quantity23,638.7 (Metric Tons)
Own Result?

Gas NameBiogenic Carbon dioxide
Gas Quantity0 (Metric Tons)
Own Result?

Gas NameMethane
Gas Quantity0.45 (Metric Tons)
Own Result?

Gas NameNitrous Oxide
Gas Quantity0.045 (Metric Tons)
Own Result?

Unit Details:
Unit Name : GP-01
Unit Type : OCS (Other combustion source)
Unit Description :
Other Unit Name :
Small Unit Aggregation Details:
Use Ivt Indicator: N
Highest Maximum Rated Heat Input Capacity: 180
Cumulative Maximum Rated Heat Input Capacity: 360

Emission Details:
Annual CO2 mass emissions from sorbent: 0 (Metric Tons)
Annual Biogenic CO2 Emissions: 0 (metric tons)
Annual Fossil fuel based CO2 Emissions: 23620.2 (metric tons)

Tier Fuel Details:
Fuel : Natural Gas (Weighted U.S. Average)
Tier Name : Tier 1 (Equation C-1b, natural gas billing in mmBtu)
Tier Methodology Start Date : 2019-01-01
Tier Methodology End Date : 2019-12-31

Fuel Emission Details :
Total CO2 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
23620.2 (Metric Tons) 0.45 (Metric Tons) 0.045 (Metric Tons) 11.1 (Metric Tons) 13.3 (Metric Tons)

Equation C1b/C8b Inputs :
Natural Gas Usage : 445161 (mmBtu/year)

Unit Name : GP-02
Unit Type : OCS (Other combustion source)
Unit Description :
Other Unit Name :
Small Unit Aggregation Details:
Use Ivt Indicator: N
Highest Maximum Rated Heat Input Capacity: 0.87
Cumulative Maximum Rated Heat Input Capacity:

Emission Details:
Annual CO2 mass emissions from sorbent: 0 (Metric Tons)
Annual Biogenic CO2 Emissions: 0 (metric tons)
Annual Fossil fuel based CO2 Emissions: 18.5 (metric tons)

Tier Fuel Details:
Fuel : Distillate Fuel Oil No. 2
Tier Name : Tier 1 (Equation C-1)
Tier Methodology Start Date : 2019-01-01
Tier Methodology End Date : 2019-12-31

Fuel Emission Details :
Total CO2 emissionsTotal CH4 emissionsTotal N2O emissionsTotal CH4 emissions CO2eTotal N2O emissions CO2e
18.5 (Metric Tons) 0.00 (Metric Tons) 0.000 (Metric Tons) 0 (Metric Tons) 0 (Metric Tons)

Equation C1/C8 Inputs :
Fuel Quantity : 1816 (gallons/year)


Subpart O: HCFC-22 Production and HFC-23 Destruction

Gas Information Details

Gas NameHFC-23
Gas CAS Registry Number75-46-7
Gas Linear Chemical FormulaCHF3
Gas Quantity250.525 (Metric Tons)
Own Result?

Subpart O Facility Information:

Indicate whether your facility produces HCFC-22Y
Indicate whether your facility sends any HFC-23 offsite for destructionY
Indicate whether your facility destroys HFC-23 onsiteN

HCFC-22 Production Process Information:

Production Process Name or IDFreon
For HCFC-22 producers, how do you estimate your HFC-23 emissions(Both indicates Equation O-4 and Equation O-5 are used)Equation O-4
Annual mass of HCFC-22 produced ()
Reactants Fed into the Process
Reactant NameAnnual mass of reactant fed into the processIndicate whether the annual mass of the reactant fed into the process is based on a missing data procedureParameter for which missing data were usedOther parameterNumber of hours that a missing data procedure was used to determine the annual mass of the reactant fed into the process
() N
() N
The combined mass of all materials other than HCFC-22 and HFC-23 (i.e., unreacted reactants, HCI and other by-products) that occur in more than trace concentrations and that are permanently removed from the process ()
Indicate whether the annual mass of combined mass of all materials other than HCFC-22 and HFC-23 at the facility is based on a missing data procedureN
Number of hours that a missing data procedure was used to determine the annual mass of combined mass of all materials other than HCFC-22 and HFC-23
Method for tracking startups, shutdowns, and malfunctions and HFC-23 generation/emissions during these eventsContinuous Monitoring Equipment
Annual HFC-23 Emissions from the Facility Calculated Using Equation O-4250.5250 (Metric Tons)
Annual mass of HFC-23 emitted from all equipment leaks at the facility ()
Was the annual mass of HFC-23 emitted from all equipment leaks at the facility based on a missing data procedure?
Annual mass of HFC-23 emitted from all process vents at the facility ()
Was the annual mass of HFC-23 emitted from all process vents at the facility based on a missing data procedure?
Annual HFC-23 Emissions from the Facility Calculated Using Equation O-5 ()

Destruction Processes Connected to the HCFC-22 Production Equipment


Off-Site Destruction Facility:

Facility Name
Street Address
City
State
Zip/Postal Code
Quantity of HFC-23 sent to this facility ()
Is the quantity of HFC-23 sent to this facility based on a missing data procedure?N

Facility Name
Street Address
City
State
Zip/Postal Code
Quantity of HFC-23 sent to this facility ()
Is the quantity of HFC-23 sent to this facility based on a missing data procedure?N


On-Site Destruction Process (only destruction devices that are not directly connected to HFC-22 production equipment)

Subpart TT: Industrial Waste Landfills

Gas Information Details

Gas NameCarbon Dioxide
Gas Quantity0 (Metric Tons)
Own Result?

Gas NameBiogenic Carbon dioxide
Gas Quantity0 (Metric Tons)
Own Result?

Gas NameMethane
Gas Quantity72.36 (Metric Tons)
Own Result?

Gas NameNitrous Oxide
Gas Quantity0 (Metric Tons)
Own Result?

Landfill Details:
Was the landfill open or closed Closed
First year the landfill accepted waste1960
If the landfill is closed, the last year that the landfill received waste1996
Landfill Capacity168641 (Metric Tons)
Does the landfill have a landfill gas collection systemN
Passive vents and/or flares are present (vents or flares that are not considered part of the gas collection system)N
An indication of whether leachate recirculation was used during the reporting yearN
The typical frequency of use of leachate recirculation over the past ten (10) yearsNot used for the past ten (10) years
Each type of cover material used and Landfill surface area containing waste
Other soil mixture 54066 (Square Meters)
Number of waste streams1
Annual modeled methane generation TT172.36 (Metric Tons)
Annual modeled methane generation TT1 user overrided valueN

Equation TT-1 Details:
The fraction of CH4 in landfill gas (F), is it based on a measured value or default valueDefault
Fraction by volume of CH4 in landfill gas ()
An MCF value other than the default of 1 was usedN

Waste Stream For Method3 Details:
Capacity of the landfill used (or the total quantity of waste-in-place) at the end of the "YrData" from design drawings or engineering estimates168641 (Metric Tons)
Are waste quantity data available?waste quantity data are not available for any years
The year in which the landfill last received waste(YrData)1996
Do you know the year when the landfill opened?Yes
The year the landfill first received waste from company records, or 1960 (whichever is more recent)1960

Waste Stream For Method4 Details:
Are waste-in-place quantity data known?N

Methane Generation and Emissions for Landfills without LFG Collection Systems

Methane Oxidation Fraction
Methane Oxidation Fraction TT-6 0.00


Gas Collection Systems details
Methane Generation Equation TT672.36 (Metric Tons)

Waste Stream Summary:

Stream Identification and Method(s) used to determine historical waste stream quantity for Historical Bulk Waste

Stream NameHistorical Bulk Waste
Stream Descriptionhistorical bulk waste
Type(s) Of Waste Present In The Waste Stream
other industrial solid waste
Range of years for which both disposal and production data were used in Equation TT-2 to calculate the average waste disposal factor for the landfill
First year this waste stream was placed in the landfill1960
Last year this waste stream was placed in the landfill1996
Method(s) used to determine historical waste stream quantity
Reporting YearMethod #1Method #2Method #3Method #4DecayrateWaste disposed quantity (UOM)Waste stream DOC value (UOM)Is defaulted value from table TT1Is value measured using 60 day anaerobic biodegradation testIs based on total volatile solids measurements
1960NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1961NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1962NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1963NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1964NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1965NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1966NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1967NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1968NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1969NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1970NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1971NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1972NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1973NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1974NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1975NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1976NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1977NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1978NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1979NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1980NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1981NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1982NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1983NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1984NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1985NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1986NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1987NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1988NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1989NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1990NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1991NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1992NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1993NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1994NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1995NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
1996NNYN0.064557.9 (Metric Tons)0.2 (Metric Tons)YNN
  • Method #1: Used one of the waste quantity measurement methods specified in 98.463(a)(2)(i): direct mass measurements, direct volume measurements multiplied by waste stream density, mass balance procedures (difference between the mass of process inputs and the mass of process outputs), or the number of loads multiplied by the mass of waste per load based on the working capacity of the vehicle or container.
  • Method #2: Calculated the average waste disposal rate per Equation TT-2 and calculated the waste disposal quantities for historic years in which direct waste disposal measurements are not available using historical production data per Equation TT-3.
  • Method #3: Calculated an average annual bulk waste disposal quantity for historic years when waste quantity data as determined by other methods are available consecutively for the most recent disposal years (Equation TT-4a).
  • Method #4: Calculated an average annual bulk waste disposal quantity for historic years when waste quantity data as determined by other methods are available for sporadic (non-consecutive) years (Equation TT-4b).