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pdfAppendix D:
Greenhouse Gas Reporting Program:
Recordkeeping Requirements
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�Appendix D. Greenhouse Gas Reporting Program:
Recordkeeping Requirements
Subpart
C—General Stationary
Combustion
(§98.30)
D—Electricity
Generation (§98.40)
Recordkeeping Requirement
The applicable records specified in 40 CFR 98.34(f) and (g), 98.35(b), and 98.36(e).
An explanation of how the following parameters are determined from company records:
(1) Fuel consumption, when the Tier 1 and Tier 2 Calculation Methodologies are used, including cases where §98.36(c)(4)
applies.
(2) Fuel consumption, when solid fuel is combusted and the Tier 3 Calculation Methodology is used.
(3) Fossil fuel consumption when 40 CFR 98.33(e)(2) applies to a unit that uses CEMS to quantify CO2 emissions and that
combusts both fossil and biomass fuels.
(4) Sorbent usage, when 40 CFR 98.33(d) applies.
(5) Quantity of steam generated by a unit when 40 CFR 98.33(a)(2)(iii) applies.
(6) Biogenic fuel consumption and high heating value, as applicable, under 40 CFR 98.33(e)(5) and (e)(6).
(7) Fuel usage for CH4 and N2O emissions calculations under 40 CFR 98.33(c)(4)(ii).
(8) Mass of biomass combusted, for premixed fuels that contain biomass and fossil fuels under §98.33(e)(1)(iii).
Verification data (as specified in 40 CFR 98.36(e))
Tier 2 Calculation Methodology
(1) Records of the methods used to determine the HHV for each type of fuel combusted and the date on which each fuel
sample was taken, except where fuel sampling data are received from the fuel supplier. If fuel sampling data are received
from the fuel supplier, dates on which the results of the fuel analyses for HHV are received
Tier 3 Calculation Methodology
(1) For liquid and gaseous fuel combustion, the dates and results of the initial calibrations and periodic recalibrations of
the required fuel flow meters
(2) For fuel oil combustion, the method from §98.34(b) used to make tank drop measurements (if applicable)
(3) The methods used to determine the carbon content and (if applicable) the molecular weight of each type of fuel
combusted
(4) The methods used to calibrate the fuel flow meters
(5) The date on which each fuel sample was taken, except where fuel sampling data are received from the fuel supplier. If
fuel sampling data are received from the fuel supplier, records of the dates on which the results of the fuel analyses for
carbon content and (if applicable) molecular weight are received
Tier 4 Calculation Methodology
(A) Whether the CEMS certification and quality assurance procedures of part 75 , part 60 , or an applicable State
continuous monitoring program were used;
(B) The dates and results of the initial certification tests of the CEMS
(C) The dates and results of the major quality assurance tests performed on the CEMS during the reporting year, i.e.,
linearity checks, cylinder gas audits, and relative accuracy test audits (RATAs)
(viii) If CO2 emissions that are generated from acid gas scrubbing with sorbent injection are not captured using CEMS,
report: total amount of sorbent used during the report year, in short tons; molecular weight of the sorbent; ratio (“R”) in
Equation C–11 of subpart C
(ix) For units that combust both fossil fuel and biomass, when biogenic CO2 is determined according to §98.33(e)(2):
annual volume of CO2 emitted from the combustion of all fuels, i.e. , Vtotal, in scf; annual volume of CO2 emitted from
the combustion of fossil fuels, i.e. , Vff, in scf (report the combustion volume of CO2 for each fuel separately as well as the
total); annual volume of CO2 emitted from the combustion of biomass, i.e. , Vbio, in scf; carbon‐based F‐factor used in
Equation C–13 of subpart C, for each type of fossil fuel combusted, in scf CO2 per mmBtu; annual average HHV value used
in Equation C–13 of subpart C, for each type of fossil fuel combusted, in Btu/lb, Btu/gal, or Btu/scf, as appropriate; total
quantity of each type of fossil fuel combusted during the reporting year, in lb, gallons, or scf, as appropriate; annual
biogenic CO2 mass emissions, in metric tons;
(x) When ASTM methods D7459–08 and D6866–08 are used to determine the biogenic portion of the annual CO2
emissions from MSW combustion, as described in §98.34(d): results of each quarterly sample analysis, expressed as a
decimal fraction (e.g., if the biogenic fraction of the CO2 emissions from MSW combustion is 30 percent, report 0.30);
annual biogenic CO2 mass emissions from MSW combustion, in metric tons
(xi) When ASTM methods D7459–08 and D6866–08 are used in accordance with §98.34(e) to determine the biogenic
portion of the annual CO2 emissions from a unit that co‐fires biogenic fuels and non‐biogenic fuels: the results of each
quarterly sample analysis, expressed as a decimal fraction (e.g., if the biogenic fraction of the CO2 emissions is 30 percent,
report 0.30)
Comply with the recordkeeping requirements of 40 CFR 98.3(g) and 98.37. Records retained under 40 CFR 75.57(h) of this
chapter for missing data events satisfy the recordkeeping requirements of 40 CFR 98.3(g)(4) for those same events.
Page D‐1
�Subpart
E—Adipic Acid
Production (§98.50)
F—Aluminum
Production (§98.60)
G—Ammonia
Manufacturing (§98.70)
H—Cement Production
(§98.80)
Recordkeeping Requirement
(1) Annual adipic acid production capacity (tons).
(2) Records of significant changes to process.
(3) Number of facility operating hours in calendar year.
(4) Documentation of how accounting procedures were used to estimate production rate.
(5) Documentation of how process knowledge was used to estimate abatement technology destruction efficiency.
(6) Performance test reports.
(7) Measurements, records and calculations used to determine reported parameters.
(8) Documentation of the procedures used to ensure the accuracy of the measurements of all reported parameters,
including but not limited to, calibration of weighing equipment, flow meters, and other measurement devices. The
estimated accuracy of measurements made with these devices must also be recorded, and the technical basis for these
estimates must be provided.
(1) Monthly aluminum production in metric tons.
(2) Type of smelter technology used.
(3) The following PFC‐specific information on a monthly basis: Perfluoromethane and perfluoroethane emissions from
anode effects in prebake and Søderberg electolysis cells; Anode effect minutes per cell‐day (AE‐mins/cell‐day), anode
effect frequency (AE/cell‐day), anode effect duration (minutes). (Or anode effect overvoltage factor ((kg CF4/metric ton
Al)/(mV/cell day)), potline overvoltage (mV/cell day), current efficiency (%)) ; Smelter‐specific slope coefficients and the
last date when the smelter‐specific‐slope coefficients were measured.
(4) Method used to measure the frequency and duration of anode effects (or to measure anode effect overvoltage
And current efficiency).
(5) The following CO2‐specific information for prebake cells: Annual anode consumption and Annual CO2 emissions
from the smelter.
(6) The following CO2‐specific information for Søderberg cells: Annual paste consumption and Annual CO2
emissions from the smelter.
(7) Smelter‐specific inputs to the CO2 process equations (e.g., levels of sulfur and ash) that were used in the
calculation, on an annual basis.
(8) Exact data elements required will vary depending on smelter technology (e.g., point‐feed prebake or Søderberg)
and process control technology (e.g., Pechiney or other).
If a CEMS is used to measure CO2 emissions:
All requirements in 40 CFR 98.37 for the Tier 4 Calculation Methodology plus:
(1) Retain records of all feedstock purchases.
If a CEMS is not used to measure CO2 emissions:
Records of all analyses and calculations conducted for reported data as listed in 40 CFR 98.76(b) plus:
(1) Monthly records of carbon content of feedstock from supplier and/or all analyses conducted of carbon content.
If a CEMS is used to measure CO2 emissions:
All records required in 40 CFR 98.37 for the Tier 4 Calculation Methodology.
If a CEMS is not used to measure CO2 emissions:
(1) Retain the records specified in paragraphs (1) through (3) of this section for each portland cement manufacturing
facility.
Page D‐2
�Subpart
Recordkeeping Requirement
I—Electronics
Manufacturing
(§98.90)
(1) All data used and copies of calculations made as part of estimating gas consumption and emissions, including all
spreadsheets.
(2) Documentation for the values used for fluorinated GHG and N2O utilization and by‐product formation rates. If facility‐
specific and recipe‐specific utilization and by‐product formation rates are used, the following records must also be
retained, as applicable: (i) Complete documentation and final report for measurements for recipe‐specific utilization and
by‐product formation rates demonstrating that the values were measured using International SEMATECH #06124825A–
ENG (incorporated by reference, see 40 CFR 98.7) or, if the measurements were made prior to January 1, 2007,
International SEMATECH #01104197A–XFR (incorporated by reference, see 40 CFR 98.7); (ii) Documentation that recipe‐
specific utilization and by‐product formation rates developed for the facility are measured for recipes that are similar to
those used at the facility, as defined in 40 CFR 98.98. The documentation must include, at a minimum, recorded to the
appropriate number of significant figures, reactor pressure, flow rates, chemical composition, applied RF power, direct
current (DC) bias, temperature, flow stabilization time, and duration; (iii) Documentation that the facility's N2O
measurements are representative of the N2O emitting processes at the facility; and (iv) The date and results of the initial
and any subsequent tests to determine utilization and by‐product formation rates.
(3) Documentation for the facility‐specific engineering model used to apportion fluorinated GHG and N2O consumption.
This documentation must be part of the site GHG Monitoring Plan as required under 40 CFR 98.3(g)(5). At a minimum,
retain the following: (i) A clear, detailed description of the facility‐specific model, including how it was developed; the
quantifiable metric used in the model; all sources of information, equations, and formulas, each with clear definitions of
terms and variables; and a clear record of any changes made to the model while it was used to apportion fluorinated GHG
and N2O consumption across individual recipes (including those in a set of similar recipes), process sub‐types, and/or
process types and (ii) Sample calculations used for developing a recipe‐specific, process sub‐type‐specific, or process type‐
specific gas apportioning factors (fij) for the two fluorinated GHGs used at the facility in the largest quantities, on a mass
basis, during the reporting year.
(4) For each abatement system through which fluorinated GHGs or N2O flow at the facility, for which controlled emissions
are reported, the following: (i) Documentation to certify the abatement system is installed, maintained, and operated in
accordance with manufacturers' specifications; (ii) Abatement system calibration and maintenance records;
(iii) Where the default destruction or removal efficiency value is used, documentation from the abatement system
supplier describing the equipment's designed purpose and emission control capabilities for fluorinated GHG and N2O; and
(iv) Where properly measured DRE is used to report emissions, dated certification by the technician who made the
measurement that the destruction or removal efficiency is calculated in accordance with methods in EPA 430–R–10–003
(incorporated by reference, see 40 CFR 98.7), complete documentation of the results of any initial and subsequent tests,
and the final report as specified in EPA 430–R–10–003 (incorporated by reference, see 40 CFR 98.7).
(5) Purchase records for gas purchased.
(6) Invoices for gas purchases and sales.
(7) Documents and records used to monitor and calculate abatement system uptime.
(8) GHG Monitoring Plans, as described in 40 CFR 98.3(g)(5), must be completed by April 1, 2011. Update the GHG
Monitoring Plan to comply with 40 CFR 98.94(c) consistent with the requirements in 40 CFR 98.3(g)(5)(iii).
K—Ferroalloy Production If a CEMS is used to measure CO2 emissions :
(§98.110)
All requirements in 40 CFR 98.37 for the Tier 4 Calculation Methodology plus:
(1) Monthly EAF production quantity for each ferroalloy product (tons).
(2) Number of EAF operating hours each month.
(3) Number of EAF operating hours in a calendar year.
If the carbon mass balance procedure is used to determine CO2 emissions :
(1) Monthly EAF production quantity for each ferroalloy product (tons).
(2) Number of EAF operating hours each month.
(3) Number of EAF operating hours in a calendar year.
(4) Monthly material quantity consumed, used, or produced for each material included for the calculations of annual
process CO2 emissions (tons).
(5) Average carbon content determined and records of the supplier provided information or analyses used for the
determination for each material included for the calculations of annual process CO2 emissions.
All:
(1) Keep records that include a detailed explanation of how company records of measurements are used to estimate the
carbon input and output to each EAF, including documentation of specific input or output materials excluded from
Equation K‐1 of subpart K that contribute less than 1 percent of the total carbon into or out of the process. Document the
procedures used to ensure the accuracy of the measurements of materials fed, charged, or placed in an EAF including, but
not limited to, calibration of weighing equipment and other measurement devices. The estimated accuracy of
measurements made with these devices must also be recorded, and the technical basis for these estimates must be
provided.
(2) If required to calculate CH4 emissions for the EAF as specified in 40 CFR 98.113(d), maintain records of the total
amount of each alloy product produced for the specified reporting period, and the appropriate alloy‐product specific
emission factor used to calculate the CH4 emissions.
Page D‐3
�Subpart
L—Fluorinated Gas
Production
(§98.120)
Recordkeeping Requirement
Process information records:
(1) Identify all products and processes subject to subpart L. Include the unit identification as appropriate.
(2) Monthly and annual records, as applicable, of all analyses and calculations conducted as required under 40 CFR
98.123, including the data monitored under 40 CFR 98.124, and all information reported as required and 40 CFR 98.126.
Scoping speciation: Retain records documenting the information reported under 40 CFR 98.126(a)(3) and (4).
Mass‐balance method: Retain the following records for each process for which the mass‐balance method was used to
estimate emissions. If an element other than fluorine in the mass‐balance equation pursuant to 40 CFR 98.123(b)(3) is
used, substitute that element for fluorine in the recordkeeping requirements of this paragraph.
(1) The data and calculations used to estimate the absolute and relative errors associated with use of the mass‐balance
approach.
(2) The data and calculations used to estimate the mass of fluorine emitted from the process.
(3) The data and calculations used to determine the fractions of the mass emitted consisting of each reactant (FERd),
product (FEP), and by‐product (FEBk), including the preliminary calculations in 40 CFR 98.123(b)(8)(i).
Emission factor and emission calculation factor method: Retain the following records for each process for which the
emission factor or emission calculation factor method was used to estimate emissions.
(1) Identify all continuous process vents with emissions of fluorinated GHGs that are less than 10,000 metric tons CO2e
per year and all continuous process vents with emissions of 10,000 metric tons CO2e per year or more. Include the data
and calculation used to develop the preliminary estimate of emissions for each process vent.
(2) Identify all batch process vents.
(3) For each vent, identify the method used to develop the factor (i.e., emission factor by emissions test or emission
calculation factor).
(4) The emissions test data and reports (see 40 CFR 98.124(c)(5)) and the calculations used to determine the process‐
vent‐specific emission factor, including the actual process‐vent‐specific emission factor, the average hourly emission rate
of each fluorinated GHG from the process vent during the test and the process feed rate, process production rate, or
other process activity rate during the test.
(5) The process‐vent‐specific emission calculation factor and the calculations used to determine the process‐vent‐specific
emission calculation factor.
(6) The annual process production quantity or other process activity information in the appropriate units, along with the
dates and time period during which the process was operating and dates and time periods the process vents are vented
to the destruction device. As an alternative to date and time periods when process vents are vented to the destruction
device, a facility may track dates and time periods that process vents by‐pass the destruction device.
(7) Calculations used to determine annual emissions of each fluorinated GHG for each process and the total fluorinated
GHG emissions for all processes, i.e., total for facility.
Destruction efficiency testing: A fluorinated GHG production facility that destroys fluorinated GHGs and reflects this
destruction in 40 CFR 98.123 must retain the emissions performance testing reports (including revised reports) for each
destruction device. The emissions performance testing report must contain all information and data used to derive the
destruction efficiency for each fluorinated GHG whose destruction the facility reflects in 40 CFR 98.123, as well as the key
process and device conditions during the test. This information includes the following:
(1) Destruction efficiency (DE) determined for each fluorinated GHG whose destruction the facility reflects in 40 CFR
98.123, in accordance with 40 CFR 98.124(g)(1)(i) through (iv).
(2) Chemical identity of the fluorinated GHG(s) used in the performance test conducted to determine destruction
efficiency, including surrogates, and information on why the surrogate is sufficient to demonstrate destruction efficiency
for each fluorinated GHG, consistent with requirements in 40 CFR 98.124(g)(1)(i) through (iv), vented to the destruction
device.
(3) Mass flow rate of the stream containing the fluorinated GHG(s) or surrogate into the device during the test.
(4) Concentration (mass fraction) of each fluorinated GHG or surrogate in the stream flowing into the device during the
test.
(5) Concentration (mass fraction) of each fluorinated GHG or surrogate at the outlet of the destruction device during the
test.
(6) Mass flow rate at the outlet of the destruction device during the test.
(7) Test methods and analytical methods used to determine the mass flow rates and fluorinated GHG (or surrogate)
concentrations of the streams flowing into and out of the destruction device during the test.
(8) Destruction device conditions that are normally monitored for device control, such as temperature, total mass flow
rates into the device, and CO or O2levels.
(9) Name of all applicable Federal or State regulations that may apply to the destruction process.
Equipment leak records: If subject to 40 CFR 98.123(d) of subpart L, maintain information on the number of each type of
equipment; the service of each piece of equipment (gas, light liquid, heavy liquid); the concentration of each fluorinated
GHG in the stream; each piece of equipment excluded from monitoring requirement; the time period each piece of
equipment was in service, and the emission calculations for each fluorinated GHG for all processes. Depending on which
equipment leak monitoring approach followed, maintain information for equipment on the associated screening data
concentrations for greater than or equal to 10,000 ppmv and associated screening data concentrations for less than
10,000 ppmv; associated actual screening data concentrations; and associated screening data and leak rate data (i.e.,
bagging) used to develop a unit‐specific correlation. If a site‐specific leak detection approach is developed and followed,
provide the records for monitoring events and the emissions estimation calculations, as appropriate, consistent with the
approach for equipment leak emission estimation in the GHG Monitoring Plan.
Page D‐4
�Subpart
Recordkeeping Requirement
L—Fluorinated Gas
Production
(§98.120)
(cont’d)
Container heel records: If residual fluorinated GHGs from containers are vented, maintain the following records of the
measurements and calculations used to estimate emissions of residual fluorinated GHGs from containers: (i) If the
contents of each container are measured, maintain records of these measurements and the calculations used to estimate
emissions of each fluorinated GHG from each container size and type and (ii) If container heel factors to estimate
emissions are developed and applied, maintain records of the measurements and calculations used to develop the heel
factor for each fluorinated GHG and each container size and type and of the number of containers of each fluorinated
GHG and of each container size and type returned to the facility.
Missing data records: Where missing data have been estimated pursuant to 40 CFR 98.125, record the reason the data
were missing, the length of time the data were missing, the method used to estimate the missing data, and the estimates
of those data.
All:
(1) Dated records documenting the initial and periodic calibration of all analytical equipment used to determine the
concentration of fluorinated GHGs, including but not limited to gas chromatographs, gas chromatography‐mass
spectrometry (GC/MS), gas chromatograph‐electron capture detector (GC/ECD), fourier transform infrared (FTIR), and
nuclear magnetic resonance (NMR) devices, and all mass measurement equipment such as weigh scales, flowmeters, and
volumetric and density measures used to measure the quantities reported under subpart L, including the industry
standards or manufacturer directions used for calibration pursuant to 40 CFR 98.124(e), (f), (g), (m), and (n).
N—Glass Production
If a CEMS is used to measure emissions:
(§98.140)
All records required in 40 CFR 98.37 for the Tier 4 Calculation Methodology plus:
(1) Monthly glass production rate for each continuous glass melting furnace (tons).
(2) Monthly amount of each carbonate‐based raw material charged to each continuous glass melting furnace (tons).
If process CO2 emissions are calculated according to the procedures specified in 40 CFR 98.143(b),
(1) Monthly glass production rate for each continuous glass melting furnace (metric tons).
(2) Monthly amount of each carbonate‐based raw material charged to each continuous glass melting furnace (metric
tons).
(3) Data on carbonate‐based mineral mass fractions provided by the raw material supplier for all raw materials consumed
annually and included in calculating process emissions in Equation N‐1 of subpart NN.
(4) Results of all tests used to verify the carbonate‐based mineral mass fraction for each carbonate‐based raw material
charged to a continuous glass melting furnace, including: (i) Date of test; (ii) Method(s), and any variations of the
methods, used in the analyses; (iii) Mass fraction of each sample analyzed; (iv) Relevant calibration data for the
instrument(s) used in the analyses; and (v) Name and address of laboratory that conducted the tests.
(5) The fraction of calcination achieved for each carbonate‐based raw material (percentage, expressed as a decimal), if a
value other than 1.0 is used to calculate process mass emissions of CO2.
All:
(1) All other documentation used to support the reported GHG emissions.
O—HCFC‐22 Production HCFC‐22 production facilities
and HFC‐23 Destruction (1) The data used to estimate HFC‐23 emissions.
(§98.150)
(2) Records documenting the initial and periodic calibration of the gas chromatographs, weigh scales, volumetric and
density measurements, and flowmeters used to measure the quantities reported under this rule, including the industry
standards or manufacturer directions used for calibration pursuant to 40 CFR 98.154(p) and (q).
HFC‐23 destruction facilities (in addition to the above)
(1) Records documenting their one‐time and annual reports in §98.156(b) through (e).
(2) Records documenting the initial and periodic calibration of the gas chromatographs, weigh scales, volumetric and
density measurements, and flowmeters used to measure the quantities reported under subpart O, including the industry
standard practice or manufacturer directions used for calibration pursuant to 40 CFR 98.154(p) and (q).
P—Hydrogen Production If a CEMS is used to measure CO2 emissions: All records required under 40 CFR 98.37 for the Tier 4 Calculation
(§98.160)
Methodology.
If a CEMS is not used to measure CO2 emissions:
(1) Retain records of all analyses and calculations conducted as listed in 40 CFR 98.166(b), (c), and (d).
Q—Iron & Steel
If a CEMS is used to measure CO2 emissions: Retain records of the verification data required for the Tier 4 Calculation
Production (§98.170)
Methodology in 40 CFR 98.36(e).
If the carbon mass balance method is used to estimate emissions for a process:
(1) The monthly mass of each process input and output that are used to determine the annual mass.
All:
(1) Records of all analyses and calculations conducted, including all information reported as required under 40 CFR
98.176.
(2) Production capacity (in metric tons per year) for the production of taconite pellets, coke, sinter, iron, and raw steel.
(3) Annual operating hours for each taconite indurating furnace, basic oxygen furnace, non‐recovery coke oven battery,
sinter process, electric arc furnace, decarburization vessel, and direct reduction furnace.
(4) Facilities must keep records that include a detailed explanation of how company records or measurements are used
to determine all sources of carbon input and output and the metric tons of coal charged to the coke ovens (e.g., weigh
belts, a combination of measuring volume and bulk density). Document the procedures used to ensure the accuracy of
the measurements of fuel usage including, but not limited to, calibration of weighing equipment, fuel flow meters, coal
usage including, but not limited to, calibration of weighing equipment and other measurement devices. The estimated
accuracy of measurements made with these devices must also be recorded, and the technical basis for these estimates
must be provided.
Page D‐5
�Subpart
R—Lead Production
(§98.180)
S—Lime Manufacturing
(§98.190)
T—Magnesium
Production
(§98.200)
U—Misc. Uses of
Carbonate (§98.210)
V—Nitric Acid
Production (§98.220)
Recordkeeping Requirement
If a CEMS is used to measure combined process and combustion CO2 emissions according to the requirements in 40 CFR
98.183(a) or (b)(1):
All records required under 40 CFR 98.37 for the Tier 4 Calculation Methodology plus:
(1) Monthly smelting furnace production quantity for each lead product (tons).
(2) Number of smelting furnace operating hours each month.
(3) Number of smelting furnace operating hours in calendar year.
If the carbon mass balance procedure is used to determine process CO2 emissions according to the requirements in 40
CFR 98.183(b)(2)(i) and (b)(2)(ii):
(1) Monthly smelting furnace production quantity for each lead product (tons).
(2) Number of smelting furnace operating hours each month.
(3) Number of smelting furnace operating hours in calendar year.
(4) Monthly material quantity consumed, used, or produced for each material included for the calculations of annual
process CO2 emissions using Equation R‐1 of subpart R(tons).
(5) Average carbon content determined and records of the supplier provided information or analyses used for the
determination for each material included for the calculations of annual process CO2 emissions using Equation R‐1 of
subpart R.
All:
(1) Keep records that include a detailed explanation of how company records of measurements are used to estimate the
carbon input to each smelting furnace, including documentation of any materials excluded from Equation R‐1 of subpart R
that contribute less than 1 percent of the total carbon into or out of the process. Document the procedures used to
ensure the accuracy of the measurements of materials fed, charged, or placed in an smelting furnace including, but not
limited to, calibration of weighing equipment and other measurement devices. The estimated accuracy of measurements
made with these devices must also be recorded, and the technical basis for these estimates must be provided.
(1) Annual operating hours in calendar year.
(2) Records of all analyses (e.g. chemical composition of lime products, by type) and calculations conducted.
(1) Check‐out and weigh‐in sheets and procedures for gas cylinders.
(2) Accuracy certifications and calibration records for scales including the method or manufacturer's specification used for
calibration.
(3) Residual gas amounts (heel) in cylinders sent back to suppliers.
(4) Records, including invoices, for gas purchases, sales, and disbursements for all GHGs.
(1) Monthly carbonate consumption (by carbonate type in tons).
(2) Procedures used to ensure the accuracy of the monthly measurements of carbonate consumption, carbonate input or
carbonate output including, but not limited to, calibration of weighing equipment and other measurement devices.
(3) Records of all analyses conducted to meet the requirements of this rule.
(4) Records of all calculations conducted.
For each nitric acid production facility:
(1) Records of significant changes to process.
(2) Documentation of how process knowledge was used to estimate abatement technology destruction efficiency (if
applicable).
(3) Performance test reports.
(4) Number of operating hours in the calendar year for each nitric acid train (hours).
(5) Annual nitric acid permitted production capacity (tons).
(6) Measurements, records, and calculations used to determine reported parameters.
(7) Documentation of the procedures used to ensure the accuracy of the measurements of all reported parameters,
including but not limited to, calibration of weighing equipment, flow meters, and other measurement devices. The
estimated accuracy of measurements made with these devices must also be recorded, and the technical basis for these
estimates must be provided.
Page D‐6
�Subpart
Recordkeeping Requirement
W—Petroleum and
Natural Gas Systems
(§98.230)
(1) Dates on which measurements were conducted.
(2) Results of all emissions detected and measurements.
(3) Calibration reports for detection and measurement instruments used.
(4) Inputs and outputs of calculations or emissions computer model runs used for engineering estimation of emissions.
(5) The records required under 40 CFR 98.3(g)(2)(i) shall include an explanation of how company records, engineering
estimation, or best available information are used to calculate each applicable parameter under subpart W.
X—Petrochemical
If the facility complies with the CEMS measurement methodology in 40 CFR 98.243(b): All records required under 40 CFR
Production (§98.240)
98.37 for the Tier 4 Calculation Methodology in 40 CFR 98.37, records of the procedures used to develop estimates of the
fraction of total emissions attributable to combustion of petrochemical process off‐gas as required in 40 CFR 98.246(b),
and records of any annual average HHV calculations.
If the facility complies with the mass balance methodology in 40 CFR 98.243(c):
(1) Results of feedstock or product composition determinations conducted in accordance with 40 CFR 98.243(c)(4).
(2) Start and end times and calculated carbon contents for time periods when off‐specification product is produced, if the
facility complies with the alternative methodology in 40 CFR 98.243(c)(4) for determining carbon content of feedstock or
product.
(3) A part of the monitoring plan required under 40 CFR 98.3(g)(5), record the estimated accuracy of measurement
devices and the technical basis for these estimates.
(4) The dates and results ( e.g., percent calibration error) of the calibrations of each measurement device.
If the facility complies with the combustion methodology in 40 CFR 98.243(d): All records required for the applicable Tier
Calculation Methodologies in 40 CFR 98.37. If the facility complies with 40 CFR 98.243(d)(2), also keep records of the
annual average flow calculations.
Y—Petroleum Refineries (1) Retain the records of all parameters monitored under 40 CFR 98.255.
(§98.250)
(2) If the facility complies with the combustion methodology in 40 CFR 98.252(a), then retain under subpart Y the records
required for the Tier 3 and/or Tier 4 Calculation Methodologies in 40 CFR 98.37 and keep records of the annual average
flow calculations.
Z—Phosphoric Acid
For each wet‐process phosphoric acid production facility:
Production (§98.260)
(1) Monthly mass of phosphate rock consumed by origin (as listed in Table Z‐1 of subpart Z) (tons).
(2) Records of all phosphate rock purchases and/or deliveries (if vertically integrated with a mine).
(3) Documentation of the procedures used to ensure the accuracy of monthly phosphate rock consumption by origin, (as
listed in Table Z‐1 of subpart Z).
AA—Pulp and Paper
(1) GHG emission estimates (including separate estimates of biogenic CO2) for each emissions source listed under 40 CFR
Manufacturing (§98.270) 98.270(b).
(2) Annual analyses of spent pulping liquor HHV for each chemical recovery furnace at kraft and soda facilities.
(3) Annual analyses of spent pulping liquor carbon content for each chemical recovery combustion unit at a sulfite or
semichemical pulp facility.
(4) Annual quantity of spent liquor solids combusted in each chemical recovery furnace and chemical recovery
combustion unit, and the basis for detemining the annual quantity of the spent liquor solids combusted (whether based
on T650 om–05 Solids Content of Black Liquor, TAPPI (incorporated by reference, see 40 CFR 98.7) or an online
measurement system). If an online measurement system is used, retain records of the calaulations used to determine the
annual quantity of spent liquor solids combusted from the continuous measurements.
(5) Annual steam purchases.
(6) Annual quantities of makeup chemicals used.
BB—Silicon Carbide
If a CEMS is used to measure CO2 emissions:
Production (§98.280)
All records required under 40 CFR 98.37 for the Tier 4 Calculation Methodology plus:
(1) Records of all petroleum coke purchases.
(2) Annual operating hours.
If a CEMS is not used to measure emissions:
(1) Records of all analyses and calculations conducted for reported data listed in 40 CFR 98.286(b).
(2) Records of all petroleum coke purchases.
(3) Annual operating hours.
Page D‐7
�Subpart
Recordkeeping Requirement
CC—Soda Ash
If a CEMS is used to measure CO2 emissions:
Manufacturing (§98.290) All records required under 40 CFR 98.37 for the Tier 4 Calculation Methodology plus:
(1) Monthly production of soda ash (tons).
(2) Monthly consumption of trona or liquid alkaline feedstock (tons).
(3) Annual operating hours (hours).
If a CEMS is not used to measure CO2 emissions:
(1) Records of all analyses and calculations conducted for determining all reported data as listed in 40 CFR 98.296(b).
(2) If using Equation CC‐1 or CC‐2 of subpart CC, weekly inorganic carbon content factor of trona or soda ash, depending
on method chosen, as measured by the applicable method in 40 CFR 98.294(b) (percent by weight expressed as a decimal
fraction).
(3) Annual operating hours for each manufacturing line used to produce soda ash (hours).
(4) Document the procedures used to ensure the accuracy of the monthly trona consumption or soda ash production
measurements including, but not limited to, calibration of weighing equipment and other measurement devices. The
estimated accuracy of measurements made with these devices must also be recorded, and the technical basis for these
estimates must be provided.
(5) If the facility produces soda ash using the liquid alkaline feedstock process and use the site‐specific emission factor
method to estimate emissions (40 CFR 98.293(b)(3)) then also retain the following relevant information: (i) Records of
performance test results; and (ii) Document the procedures used to ensure the accuracy of the annual average vent flow
measurements including, but not limited to, calibration of flow rate meters and other measurement devices. The
estimated accuracy of measurements made with these devices must also be recorded, and the technical basis for these
estimates must be provided.
All:
DD – Electrical
All records of the information reported and listed in 40 CFR 98.306.
Transmission and
Distribution Equipment
Use (§98.300)
EE—Titanium Dioxide
Production (§98.310)
FF – Underground Coal
Mines
(§98.320)
If a CEMS is used to measure CO2 emissions:
All records required under 40 CFR 98.37 for the Tier 4 Calculation Methodology plus:
(1) Records of all calcined petroleum coke purchases.
(2) Annual operating hours for each titanium dioxide process line.
If a CEMS is not used to measure CO2 emissions:
(1) Records of all calcined petroleum coke purchases (tons).
(2) Records of all analyses and calculations conducted for all reported data as listed in 40 CFR 98.316(b).
(3) Sampling analysis results for carbon content of consumed calcined petroleum coke (percent by weight expressed as a
decimal fraction).
(4) Sampling analysis results for the carbon content of carbon containing waste (percent by weight expressed as a
decimal fraction), if applicable.
(5) Monthly production of carbon‐containing waste (tons).
(6) Document the procedures used to ensure the accuracy of the monthly petroleum coke consumption and quantity of
carbon‐containing waste measurement including, but not limited to, calibration of weighing equipment and other
measurement devices. The estimated accuracy of measurements made with these devices must also be recorded, and the
technical basis for these estimates must be provided.
(7) Annual operating hours for each titanium dioxide process line (hours).
All:
(1) Calibration records for all monitoring equipment, including the method or manufacturer's specification used for
calibration.
(2) Records of gas sales.
(3) Logbooks of parameter measurements.
(4) Laboratory analyses of samples.
Page D‐8
�Subpart
GG—Zinc Production
(§98.330)
HH—Landfills (§98.340)
Subpart II—Industrial
Wastewater Treatment
(§98.350)
JJ—Manure
Management (§98.360)
LL—Suppliers of Coal‐
based Liquid Fuels
(§98.380)
Recordkeeping Requirement
If a CEMS is used to measure CO2 emissions:
All records required under 40 CFR 98.37 for the Tier 4 Calculation Methodology plus:
(1) Monthly facility production quantity for each zinc product (tons).
(2) Annual operating hours for all Waelz kilns and electrothermic furnaces used in zinc production.
If a CEMS is not used to measure CO2 emissions:
(1) Records of all analyses and calculations conducted for data reported as listed in 40 CFR 98.336(b).
(2) Annual operating hours for Waelz kilns and electrothermic furnaces used in zinc production.
(3) Monthly production quantity for each zinc product (tons).
(4) Monthly mass of zinc bearing materials, flux materials (e.g., limestone, dolomite), and carbonaceous materials (e.g.,
coal, coke) charged to the kiln or furnace (tons).
(5) Sampling and analysis records for carbon content of zinc bearing materials, flux materials (e.g., limestone, dolomite),
carbonaceous materials (e.g., coal, coke), charged to the kiln or furnace (percent by weight, expressed as a decimal
fraction).
(6) Monthly mass of carbon electrode consumed in for each electrothermic furnace (tons).
(7) Sampling and analysis records for carbon content of electrode materials.
(8) Keep records that include a detailed explanation of how company records of measurements are used to estimate the
carbon input to each Waelz kiln or electrothermic furnace, as applicable to the facility, including documentation of any
materials excluded from Equation GG‐1 of subpart GG that contribute less than 1 percent of the total carbon inputs to the
process. Also document the procedures used to ensure the accuracy of the measurements of materials fed, charged, or
placed in an affected unit including, but not limited to, calibration of weighing equipment and other measurement
devices. The estimated accuracy of measurements made with these devices must also be recorded, and the technical
basis for these estimates must be provided.
(1) Retain the calibration records for all monitoring equipment, including the method or manufacturer’s specification
used for calibration.
(2) All measurements made to determine tare weights and working capacities by vehicle/container type if these are used
to determine the annual waste quantities.
Calibration records for all monitoring equipment, including the method or manufacturer's specification used for
calibration.
(1) The calibration records for all monitoring equipment, including the method or manufacturer’s specification used for
calibration.
(1) Records according to the requirements in 40 CFR 98.397 as if they applied to the appropriate coal‐to‐liquid product
supplier (e.g., retaining copies of all reports submitted to EPA under 40 CFR 98.386 and records to support information
contained in those reports). Any records for petroleum products that are required to be retained in 40 CFR 98.397 are
also required for coal‐to‐liquid products.
MM—Suppliers of
(1) All reporters shall retain copies of all reports submitted to EPA under 40 CFR 98.396. In addition, all reporters shall
Petroleum Products
maintain sufficient records to support information contained in those reports, including but not limited to information on
(§98.390)
the characteristics of their feedstocks and products.
(2) Reporters shall maintain records to support quantities that are reported under subpart MM, including records
documenting any estimations of missing data and the number of calendar days in the reporting year for which substitute
data procedures were followed. For all reported quantities of petroleum products, natural gas liquids, and biomass,as
well as crude oil quantities measured on site at a refinery , reporters shall maintain metering, gauging, and other records
normally maintained in the course of business to document product and feedstock flows including the date of initial
calibration and the frequency of recalibration for the measurement equipment used.
(3) Reporters shall retain laboratory reports, calculations and worksheets used to estimate the CO2 emissions of the
quantities of petroleum products, natural gas liquids, biomass, and feedstocks reported under subpart MM.
(4) Reporters shall maintain laboratory reports, calculations and worksheets used in the measurement of density and
carbon share for any petroleum product or natural gas liquid for which CO2 emissions were calculated using Calculation
Methodology 2 of subpart MM.
(5) Estimates of missing data shall be documented and records maintained showing the calculations.
(6) Reporters described in subpart MM shall also retain all records described in 40 CFR 98.3(g).
NN—Suppliers of Natural (1) Records of all meter readings and documentation to support volumes of natural gas and NGLs that are reported under
Gas and Natural Gas
this part.
Liquids (§98.400)
(2) Records documenting any estimates of missing metered data and showing the calculations of the values used for the
missing data.
(3) Calculations and worksheets used to estimate CO2 emissions for the volumes reported under this part.
(4) Records related to the large end‐users identified in 40 CFR 98.406(b)(7).
(5) Records relating to measured Btu content or carbon content showing specific industry standards used to develop
reporter‐specific higher heating values and emission factors.
(6) Records of such audits as required by Sarbanes Oxley regulations on the accuracy of measurements of volumes of
natural gas and NGLs delivered to customers or on behalf of customers.
Page D‐9
�Subpart
Recordkeeping Requirement
OO—Suppliers of
Industrial Greenhouse
Gases (§98.410)
Fluorinated GHG production facility:
(1) Dated records of the data used to estimate the data reported under 40 CFR 98.416.
(2) Records documenting the initial and periodic calibration of the analytic equipment (including but not limited to GC, IR,
FTIR, or NMR), weigh scales, flowmeters, and volumetric and density measures used to measure the quantities reported
under subpart OO, including the industry standards or manufacturer directions used for calibration pursuant to 40 CFR
98.414(m) and (o).
(3) Dated records of the total mass in metric tons of each reactant fed into the F–GHG or nitrous oxide production
process, by process.
(4) Dated records of the total mass in metric tons of the reactants, by‐products, and other wastes permanently removed
from the F–GHG or nitrous oxide production process, by process.
Fluorinated GHG production facility that destroys fluorinated GHGs: Keep records of test reports and other information
documenting the facility’s one‐time destruction efficiency report in 40 CFR 98.416(b).
Bulk importer:
For each of the imports that they report:
(1) A copy of the bill of lading for the import.
(2) The invoice for the import.
(3) The U.S. Customs entry form.
Bulk exporter
For each of the exports that they report:
(1) A copy of the bill of lading for the export and
(2) The invoice for the import.
Every person who imports a container with a heel that is not reported under 40 CFR 98.416(c) shall keep records of the
amount brought into the United States that document that the residual amount in each shipment is less than 10 percent
of the volume of the container and will: (i) Remain in the container and be included in a future shipment; (ii) Be
recovered and transformed; (iii) Be recovered and destroyed; and (iv) Be recovered and included in a future shipment.
PP—Suppliers of Carbon (1) The owner or operator of a facility containing production process units must retain quarterly records of captured or
Dioxide (CO2) (§98.420) transferred CO2 streams and composition.
(2) The owner or operator of a CO2 production well facility must maintain quarterly records of the mass flow or
volumetric flow of the extracted or transferred CO2 stream and concentration and density if volumetric flow meters are
used.
(3) Importers or exporters of CO2 must retain annual records of the mass flow, volumetric flow, and mass of CO2
imported or exported.
Subpart QQ—Importers
and Exporters of
Fluorinated Greenhouse
Gases Contained in Pre‐
Charged Equipment or
Closed‐Cell Foams
(§ 98.430)
Importers:
For each import:
(1) A copy of the bill of lading for the import.
(2) The invoice for the import.
(3) The U.S. Customs entry form.
(4) Ports of entry through which the pre‐charged equipment or closed‐cell foams passed.
(5) Countries from which the pre‐charged equipment or closed‐cell foams were imported.
(6) For importers that report the mass of fluorinated GHGs within closed‐cell foams on a CO2e basis, correspondence or
other documents that show the importer was unable to obtain information on the identity and mass of fluorinated GHG
within closed‐cell foams from the foam manufacturer.
Exporters:
For each export:
(1) A copy of the bill of lading for the export and
(2) The invoice for the export.
(3) Ports of exit through which the pre‐charged equipment or closed‐cell foams passed.
(4) Countries to which the pre‐charged equipment or closed‐cell foams were exported.
(5) For exporters that report the mass of fluorinated GHGs within closed‐cell foams on a CO2e basis, correspondence or
other documents that show the exporter was unable to obtain information on the identity and mass of fluorinated GHG
within closed‐cell foams from the foam manufacturer.
Importers and exporters of fluorinated GHGs:
Persons who transship:
Records that indicated that the pre‐charged equipment or foam originated in a foreign country and was destined for
another foreign country and did not enter into commerce in the United States.
Page D‐10
�Subpart
Recordkeeping Requirement
Subpart RR—Geologic
Sequestration of Carbon
Dioxide
(§98.440)
As applicable, retain for at least 3 years:
(1) Quarterly records of CO2 received, including mass flow rate of contents of containers (mass or volumetric) at standard
conditions and operating conditions, operating temperature and pressure, and concentration of these streams.
(2) Quarterly records of produced CO2, including mass flow or volumetric flow at standard conditions and operating
conditions, operating temperature and pressure, and concentration of these streams.
(3) Quarterly records of injected CO2 including mass flow or volumetric flow at standard conditions and operating
conditions, operating temperature and pressure, and concentration of these streams.
(4) Annual records of information used to calculate the CO2 emitted by surface leakage from leakage pathways.
(5) Annual records of information used to calculate the CO2 emitted from equipment leaks and vented emissions of CO2
from equipment located on the surface between the flow meter used to measure injection quantity and the injection
wellhead.
(6) Annual records of information used to calculate the CO2 emitted from equipment leaks and vented emissions of CO2
from equipment located on the surface between the production wellhead and the flow meter used to measure
production quantity.
(7) Any other records as specified for retention in the EPA‐approved MRV plan.
Subpart SS—Electrical
(1) All information reported and listed in 40 CFR 98.456.
Equipment Manufacture (2) Accuracy certifications and calibration records for all scales and monitoring equipment, including the method or
or Refurbishment
manufacturer's specification used for calibration.
(§ 98.450)
(3) Certifications of the quantity of gas, in pounds, charged into equipment at the electrical equipment manufacturer or
refurbishment facility as well as the actual quantity of gas, in pounds, charged into equipment at installation.
(4) Check‐out and weigh‐in sheets and procedures for cylinders.
(5) Residual gas amounts, in pounds, in cylinders sent back to suppliers.
(6) Invoices for gas purchases and sales.
Subpart TT—Industrial
The calibration records for all monitoring equipment, including the method or manufacturer's specification used for
Waste Landfills
calibration, and all measurement data used for the purposes of paragraph 40 CFR 98.460(c)(2)(xii) or used to determine
(§98.460)
landfill‐specific DOCX values.
Subpart UU—Injection of (1) Quarterly records of CO2 received, including mass flow rate or contents of containers (mass or volumetric) at standard
Carbon Dioxide
conditions and operating conditions, operating temperature and pressure, and concentration of these streams. Retain all
(§98.470)
required records for at least 3 years.
(2) Complete monitoring plans, as described in 40 CFR 98.3(g)(5), by April 1 of the year data collection begins.
Note: Many facilities that would be affected by the rule emit GHGs from multiple sources. The facility must assess every source category that could potentially
apply to each when determining if a threshold has been exceeded. If the threshold is exceed for any source category, the facility must report and keep records
from emissions from all source categories, including those source categories that do not exceed the applicable threshold.
Page D‐11
�
| File Type | application/pdf |
| File Modified | 2012-06-27 |
| File Created | 2012-06-27 |