Terms used in this subpart are defined in the CAA, in Sec. 63.2, 40 CFR part 63, subparts H, PP, SS, TT, UU, and WW, and in this section. If the same term is defined in another subpart and in this section, it will have the meaning given in this section for purposes of this subpart. Notwithstanding the introductory language in Sec. 63.921, the terms ``container'' and ``safety device'' shall have the meaning found in this subpart and not in Sec. 63.921.
Actual annual average temperature, for organic liquids, means the temperature determined using the following methods:
(1) For heated or cooled storage tanks, use the calculated annual average temperature of the stored organic liquid as determined from a design analysis of the storage tank.
(2) For ambient temperature storage tanks:
(i) Use the annual average of the local (nearest) normal daily mean temperatures reported by the National Climatic Data Center; or
(ii) Use any other method that the EPA approves.
Annual average true vapor pressure means the equilibrium partial pressure exerted by the total table 1 organic HAP in the stored or transferred organic liquid. For the purpose of determining if a liquid meets the definition of an organic liquid, the vapor pressure is determined using standard conditions of 77 degrees F and 29.92 inches of mercury. For the purpose of determining whether an organic liquid meets the applicability criteria in table 2, items 1 through 6, to this subpart, use the actual annual average temperature as defined in this subpart. The vapor pressure value in either of these cases is determined:
(1) In accordance with methods described in American Petroleum Institute Publication 2517, Evaporative Loss from External Floating-Roof Tanks (incorporated by reference, see Sec. 63.14);
(2) Using standard reference texts;
(3) By the American Society for Testing and Materials Method D2879-83, 96 (incorporated by reference, see Sec. 63.14); or
(4) Using any other method that the EPA approves.
Bottoms receiver means a tank that collects distillation bottoms before the stream is sent for storage or for further processing downstream.
Cargo tank means a liquid-carrying tank permanently attached and forming an integral part of a motor vehicle or truck trailer. This term also refers to the entire cargo tank motor vehicle or trailer. For the purpose of this subpart, vacuum trucks used exclusively for maintenance or spill response are not considered cargo tanks.
Closed vent system means a system that is not open to the atmosphere and is composed of piping, ductwork, connections, and, if necessary, flow-inducing devices that transport gas or vapors from an emission point to a control device. This system does not include the vapor collection system that is part of some transport vehicles or the loading arm or hose that is used for vapor return. For transfer racks, the closed vent system begins at, and includes, the first block valve on the downstream side of the loading arm or hose used to convey displaced vapors.
Combustion device means an individual unit of equipment, such as a flare, oxidizer, catalytic oxidizer, process heater, or boiler, used for the combustion of organic emissions.
Container means a portable unit in which a material can be stored, transported, treated, disposed of, or otherwise handled. Examples of containers include, but are not limited to, drums and portable cargo containers known as ``portable tanks'' or ``totes.''
Control device means any combustion device, recovery device, recapture device, or any combination of these devices used to comply with this subpart. Such equipment or devices include, but are not limited to, absorbers, adsorbers, condensers, and combustion devices. Primary condensers, steam strippers, and fuel gas systems are not considered control devices.
Crude oil means any of the naturally occurring liquids commonly referred to as crude oil, regardless of specific physical properties. Only those crude oils downstream of the first point of custody transfer after the production field are considered crude oils in this subpart.
Custody transfer means the transfer of hydrocarbon liquids after processing and/or treatment in the producing operations, or from storage tanks or automatic transfer facilities to pipelines or any other forms of transportation.
Design evaluation means a procedure for evaluating control devices that complies with the requirements in Sec. 63.985(b)(1)(i).
Deviation means any instance in which an affected source subject to this subpart, or portion thereof, or an owner or operator of such a source:
(1) Fails to meet any requirement or obligation established by this subpart including, but not limited to, any emission limitation (including any operating limit) or work practice standard;
(2) Fails to meet any term or condition that is adopted to implement an applicable requirement in this subpart, and that is included in the operating permit for any affected source required to obtain such a permit; or
(3) Fails to meet any emission limitation (including any operating limit) or work practice standard in this subpart during SSM.
Emission limitation means an emission limit, opacity limit, operating limit, or visible emission limit.
Equipment leak component means each pump, valve, and sampling connection system used in organic liquids service at an OLD operation. Valve types include control, globe, gate, plug, and ball. Relief and check valves are excluded.
Gasoline means any petroleum distillate or petroleum distillate/alcohol blend having a Reid vapor pressure of 27.6 kilopascals (4.0 pounds per square inch absolute (psia)) or greater which is used as a fuel for internal combustion engines. Aviation gasoline is included in this definition.
High throughput transfer rack means those transfer racks that transfer into transport vehicles (for existing affected sources) or into transport vehicles and containers (for new affected sources) a total of 11.8 million liters per year or greater of organic liquids.
In organic liquids service means that an equipment leak component contains or contacts organic liquids having 5 percent by weight or greater of the organic HAP listed in Table 1 to this subpart.
Low throughput transfer rack means those transfer racks that transfer into transport vehicles (for existing affected sources) or into transport vehicles and containers (for new affected sources) less than 11.8 million liters per year of organic liquids.
On-site or on site means, with respect to records required to be maintained by this subpart or required by another subpart referenced by this subpart, that records are stored at a location within a major source which encompasses the affected source. On-site includes, but is not limited to, storage at the affected source to which the records pertain, storage in central files elsewhere at the major source, or electronically available at the site.
Organic liquid means:
(1) Any non-crude oil liquid or liquid mixture that contains 5 percent by weight or greater of the organic HAP listed in Table 1 to this subpart, as determined using the procedures specified in Sec. 63.2354(c).
(2) Any crude oils downstream of the first point of custody transfer.
(3) Organic liquids for purposes of this subpart do not include the following liquids:
(i) Gasoline (including aviation gasoline), kerosene (No. 1 distillate oil), diesel (No. 2 distillate oil), asphalt, and heavier distillate oils and fuel oils;
(ii) Any fuel consumed or dispensed on the plant site directly to users (such as fuels for fleet refueling or for refueling marine vessels that support the operation of the plant);
(iii) Hazardous waste;
(iv) Wastewater;
(v) Ballast water: or
(vi) Any non-crude oil liquid with an annual average true vapor pressure less than 0.7 kilopascals (0.1 psia).
Organic liquids distribution (OLD) operation means the combination of activities and equipment used to store or transfer organic liquids into, out of, or within a plant site regardless of the specific activity being performed. Activities include, but are not limited to, storage, transfer, blending, compounding, and packaging.
Permitting authority means one of the following:
(1) The State Air Pollution Control Agency, local agency, or other agency authorized by the EPA Administrator to carry out a permit program under 40 CFR part 70; or
(2) The EPA Administrator, in the case of EPA-implemented permit programs under title V of the CAA (42 U.S.C. 7661) and 40 CFR part 71.
Plant site means all contiguous or adjoining surface property that is under common control, including surface properties that are separated only by a road or other public right-of-way. Common control includes surface properties that are owned, leased, or operated by the same entity, parent entity, subsidiary, or any combination.
Research and development facility means laboratory and pilot plant operations whose primary purpose is to conduct research and development into new processes and products, where the operations are under the close supervision of technically trained personnel, and which are not engaged in the manufacture of products for commercial sale, except in a de minimis manner.
Responsible official means responsible official as defined in 40 CFR 70.2 and 40 CFR 71.2, as applicable.
Safety device means a closure device such as a pressure relief valve, frangible disc, fusible plug, or any other type of device that functions exclusively to prevent physical damage or permanent deformation to a unit or its air emission control equipment by venting gases or vapors directly to the atmosphere during unsafe conditions resulting from an unplanned, accidental, or emergency event.
Shutdown means the cessation of operation of an OLD affected source, or portion thereof (other than as part of normal operation of a batch-type operation), including equipment required or used to comply with this subpart, or the emptying and degassing of a storage tank. Shutdown as defined here includes, but is not limited to, events that result from periodic maintenance, replacement of equipment, or repair.
Startup means the setting in operation of an OLD affected source, or portion thereof (other than as part of normal operation of a batch-type operation), for any purpose. Startup also includes the placing in operation of any individual piece of equipment required or used to comply with this subpart including, but not limited to, control devices and monitors.
Storage tank means a stationary unit that is constructed primarily of nonearthen materials (such as wood, concrete, steel, or reinforced plastic) that provide structural support and is designed to hold a bulk quantity of liquid. Storage tanks do not include:
(1) Units permanently attached to conveyances such as trucks, trailers, rail cars, barges, or ships;
(2) Pressure vessels designed to operate in excess of 204.9 kilopascals and without emissions to the atmosphere;
(3) Bottoms receivers;
(4) Surge control vessels;
(5) Vessels storing wastewater; or
(6) Reactor vessels associated with a manufacturing process unit.
Surge control vessel means feed drums, recycle drums, and intermediate vessels. Surge control vessels are used within chemical manufacturing processes when in-process storage, mixing, or management of flow rates or volumes is needed to assist in production of a product.
Tank car means a car designed to carry liquid freight by rail, and including a permanently attached tank.
Total actual annual facility-level organic liquid loading volume means the total facility-level actual volume of organic liquid loaded for transport within or out of the facility through transfer racks that are part of the affected source into transport vehicles (for existing affected sources) or into transport vehicles and containers (for new affected sources) based on a 3-year rolling average, calculated annually.
(1) For existing affected sources, each 3-year rolling average is based on actual facility-level loading volume during each calendar year (January 1 through December 31) in the 3-year period. For calendar year 2004 only (the first year of the initial 3-year rolling average), if an owner or operator of an affected source does not have actual loading volume data for the time period from January 1, 2004, through February 2, 2004 (the time period prior to the effective date of the OLD NESHAP), the owner or operator shall compute a facility-level loading volume for this time period as follows: At the end of the 2004 calendar year, the owner or operator shall calculate a daily average facility-level loading volume (based on the actual loading volume for February 3, 2004, through December 31, 2004) and use that daily average to estimate the facility-level loading volume for the period of time from January 1, 2004, through February 2, 2004. The owner or operator shall then sum the estimated facility-level loading volume from January 1, 2004, through February 2, 2004, and the actual facility-level loading volume from February 3, 2004, through December 31, 2004, to calculate the annual facility-level loading volume for calendar year 2004.
(2)(i) For new affected sources, the 3-year rolling average is calculated as an average of three 12-month periods. An owner or operator must select as the beginning calculation date with which to start the calculations as either the initial startup date of the new affected source or the first day of the calendar month following the month in which startup occurs. Once selected, the date with which the calculations begin cannot be changed.
(i) For new affected sources, the 3-year rolling average is calculated as an average of three 12-month periods. An owner or operator must select as the beginning calculation date with which to start the calculations as either the initial startup date of the new affected source or the first day of the calendar month following the month in which startup occurs. Once selected, the date with which the calculations begin cannot be changed.
(ii) The initial 3-year rolling average is based on the projected maximum facility-level annual loading volume for each of the 3 years following the selected beginning calculation date. The second 3-year rolling average is based on actual facility-level loading volume for the first year of operation plus a new projected maximum facility-level annual loading volume for second and third years following the selected beginning calculation date. The third 3-year rolling average is based on actual facility-level loading volume for the first 2 years of operation plus a new projected maximum annual facility-level loading volume for the third year following the beginning calculation date. Subsequent 3-year rolling averages are based on actual facility-level loading volume for each year in the 3-year rolling average.
Transfer rack means a single system used to load organic liquids into, or unload organic liquids out of, transport vehicles or containers. It includes all loading and unloading arms, pumps, meters, shutoff valves, relief valves, and other piping and equipment necessary for the transfer operation. Transfer equipment and operations that are physically separate (i.e., do not share common piping, valves, and other equipment) are considered to be separate transfer racks.
Transport vehicle means a cargo tank or tank car.
Vapor balancing system means:
(1) A piping system that collects organic HAP vapors displaced from transport vehicles or containers during loading and routes the collected vapors to the storage tank from which the liquid being loaded originated or to another storage tank connected to a common header. For containers, the piping system must route the displaced vapors directly to the appropriate storage tank or to another storage tank connected to a common header in order to qualify as a vapor balancing system; or
(2) A piping system that collects organic HAP vapors displaced from the loading of a storage tank and routes the collected vapors to the transport vehicle from which the storage tank is filled.
Vapor collection system means any equipment located at the source (i.e., at the OLD operation) that is not open to the atmosphere; that is composed of piping, connections, and, if necessary, flow-inducing devices; and that is used for:
(1) Containing and conveying vapors displaced during the loading of transport vehicles to a control device;
(2) Containing and directly conveying vapors displaced during the loading of containers; or
(3) Vapor balancing. This does not include any of the vapor collection equipment that is installed on the transport vehicle.
Vapor-tight transport vehicle means a transport vehicle that has been demonstrated to be vapor-tight. To be considered vapor-tight, a transport vehicle equipped with vapor collection equipment must undergo a pressure change of no more than 250 pascals (1 inch of water) within 5 minutes after it is pressurized to 4,500 pascals (18 inches of water). This capability must be demonstrated annually using the procedures specified in EPA Method 27 of 40 CFR part 60, appendix A. For all other transport vehicles, vapor tightness is demonstrated by performing the U.S. DOT pressure test procedures for tank cars and cargo tanks.
Work practice standard means any design, equipment, work practice, or operational standard, or combination thereof, that is promulgated pursuant to section 112(h) of the CAA. [69 FR 5063, Feb. 3, 2004, as amended at 71 FR 42911, July 28, 2006]
Sec. Table 1 to Subpart EEEE of Part 63--Organic Hazardous Air
Pollutants
You must use the organic HAP information listed in the following table to determine which of the liquids handled at your facility meet the HAP content criteria in the definition of Organic Liquid in Sec. 63.2406. ------------------------------------------------------------------------
Compound name CAS No.\1\------------------------------------------------------------------------2,4-D salts and esters..................................... 94-75-7Acetaldehyde............................................... 75-07-0Acetonitrile............................................... 75-05-8Acetophenone............................................... 98-86-2Acrolein................................................... 107-02-8Acrylamide................................................. 79-06-1Acrylic acid............................................... 79-10-7Acrylonitrile.............................................. 107-13-1Allyl chloride............................................. 107-05-1Aniline.................................................... 62-53-3Benzene.................................................... 71-43-2Biphenyl................................................... 92-52-4Butadiene (1,3-)........................................... 106-99-0Carbon tetrachloride....................................... 56-23-5Chloroacetic acid.......................................... 79-11-8Chlorobenzene.............................................. 108-90-7
2-Chloro-1,3-butadiene (Chloroprene)....................... 126-99-8Chloroform................................................. 67-66-3m-Cresol................................................... 108-39-4o-Cresol................................................... 95-48-7p-Cresol................................................... 106-44-5Cresols/cresylic acid...................................... 1319-77-3Cumene..................................................... 98-82-8Dibenzofurans.............................................. 132-64-9Dibutylphthalate........................................... 84-74-2Dichloroethane (1,2-) (Ethylene dichloride) (EDC).......... 107-06-2Dichloropropene (1,3-)..................................... 542-75-6Diethanolamine............................................. 111-42-2Diethyl aniline (N,N-)..................................... 121-69-7Diethylene glycol monobutyl ether.......................... 112-34-5Diethylene glycol monomethyl ether......................... 111-77-3Diethyl sulfate............................................ 64-67-5Dimethyl formamide......................................... 68-12-2Dimethylhydrazine (1,1-)................................... 57-14-7Dioxane (1,4-) (1,4-Diethyleneoxide)....................... 123-91-1Epichlorohydrin (1-Chloro-2,3-epoxypropane)................ 106-89-8Epoxybutane (1,2-)......................................... 106-88-7Ethyl acrylate............................................. 140-88-5Ethylbenzene............................................... 100-41-4Ethyl chloride (Chloroethane).............................. 75-00-3Ethylene dibromide (Dibromomethane)........................ 106-93-4Ethylene glycol............................................ 107-21-1Ethylene glycol dimethyl ether............................. 110-71-4Ethylene glycol monomethyl ether........................... 109-86-4Ethylene glycol monomethyl ether acetate................... 110-49-6Ethylene glycol monophenyl ether........................... 122-99-6Ethylene oxide............................................. 75-21-8Ethylidene dichloride (1,1-Dichloroethane)................. 75-34-3Formaldehyde............................................... 50-00-0Hexachloroethane........................................... 67-72-1Hexane..................................................... 110-54-3Hydroquinone............................................... 123-31-9Isophorone................................................. 78-59-1Maleic anhydride........................................... 108-31-6Methanol................................................... 67-56-1Methyl chloride (Chloromethane)............................ 74-87-3Methylene chloride (Dichloromethane)....................... 75-09-2Methylenedianiline (4,4'-)................................. 101-77-9Methylene diphenyl diisocyanate............................ 101-68-8Methyl hydrazine........................................... 60-34-4Methyl isobutyl ketone (Hexone) (MIBK)..................... 108-10-1Methyl methacrylate........................................ 80-62-6Methyl tert-butyl ether (MTBE)............................. 1634-04-4Naphthalene................................................ 91-20-3Nitrobenzene............................................... 98-95-3Phenol..................................................... 108-9-52Phthalic anhydride......................................... 85-44-9Polycyclic organic matter.................................. 50-32-8Propionaldehyde............................................ 123-38-6Propylene dichloride (1,2-Dichloropropane)................. 78-87-5Propylene oxide............................................ 75-56-9Quinoline.................................................. 91-22-5Styrene.................................................... 100-42-5Styrene oxide.............................................. 96-09-3Tetrachloroethane (1,1,2,2-)............................... 79-34-5Tetrachloroethylene (Perchloroethylene).................... 127-18-4Toluene.................................................... 108-88-3Toluene diisocyanate (2,4-)................................ 584-84-9o-Toluidine................................................ 95-53-4Trichlorobenzene (1,2,4-).................................. 120-82-1Trichloroethane (1,1,1-) (Methyl chloroform)............... 71-55-6Trichloroethane (1,1,2-) (Vinyl trichloride)............... 79-00-5Trichloroethylene.......................................... 79-01-6Triethylamine.............................................. 121-44-8Trimethylpentane (2,2,4-).................................. 540-84-1Vinyl acetate.............................................. 108-05-4Vinyl chloride (Chloroethylene)............................ 75-01-4Vinylidene chloride (1,1-Dichloroethylene)................. 75-35-4Xylene (m-)................................................ 108-38-3Xylene (o-)................................................ 95-47-6
Xylene (p-)................................................ 106-42-3Xylenes (isomers and mixtures)............................. 1330-20-7------------------------------------------------------------------------\1\ CAS numbers refer to the Chemical Abstracts Services registry number
assigned to specific compounds, isomers, or mixtures of compounds. [69 FR 5063, Feb. 3, 2004, as amended at 71 FR 42913, July 28, 2006]
Sec. Table 2 to Subpart EEEE of Part 63--Emission Limits
As stated in Sec. 63.2346, you must comply with the emission limits for the organic liquids distribution emission sources as follows: ----------------------------------------------------------------------------------------------------------------
If you own or operate . . . And if . . . Then you must . . .----------------------------------------------------------------------------------------------------------------1. A storage tank at an existing affected a. The stored organic liquid is not i. Reduce emissions of
source with a capacity =18.9 crude oil and if the annual average total organic HAP (or,
cubic meters (5,000 gallons) and <189.3 true vapor pressure of the total Table upon approval, TOC) by at
cubic meters (50,000 gallons). 1 organic HAP in the stored organic least 95 weight-percent
liquid is =27.6 kilopascals or, as an option, to an
(4.0 psia) and <76.6 kilopascals (11.1 exhaust concentration less
psia). than or equal to 20 ppmv,
on a dry basis corrected
to 3 percent oxygen for
combustion devices using
supplemental combustion
air, by venting emissions
through a closed vent
system to any combination
of control devices meeting
the applicable
requirements of 40 CFR
part 63, subpart SS; OR
ii. Comply with the work
practice standards
specified in table 4 to
this subpart, items 1.a,
1.b, or 1.c for tanks
storing liquids described
in that table.
b. The stored organic liquid is crude i. See the requirement in
oil. item 1.a.i or 1.a.ii of
this table.2. A storage tank at an existing affected a. The stored organic liquid is not i. See the requirement in
source with a capacity =189.3 crude oil and if the annual average item 1.a.i or 1.a.ii of
cubic meters (50,000 gallons). true vapor pressure of the total Table this table.
1 organic HAP in the stored organic
liquid is <76.6 kilopascals (11.1
psia).
b. The stored organic liquid is crude i. See the requirement in
oil. item 1.a.i or 1.a.ii of
this table.3. A storage tank at a reconstructed or a. The stored organic liquid is not i. See the requirement in
new affected source with a capacity =18.9 cubic meters (5,000 true vapor pressure of the total Table this table.
gallons) and <37.9 cubic meters (10,000 1 organic HAP in the stored organic
gallons). liquid is =27.6 kilopascals
(4.0 psia) and <76.6 kilopascals (11.1
psia).
b. The stored organic liquid is crude i. See the requirement in
oil. item 1.a.i or 1.a.ii of
this table.4. A storage tank at a reconstructed or a. The stored organic liquid is not i. See the requirement in
new affected source with a capacity =37.9 cubic meters (10,000 true vapor pressure of the total Table this table.
gallons) and <189.3 cubic meters (50,000 1 organic HAP in the stored organic
gallons). liquid is =0.7 kilopascals
(0.1 psia) and <76.6 kilopascals (11.1
psia).
b. The stored organic liquid is crude i. See the requirement in
oil. item 1.a.i or 1.a.ii of
this table.5. A storage tank at a reconstructed or a. The stored organic liquid is not i. See the requirement in
new affected source with a capacity =189.3 cubic meters (50,000 true vapor pressure of the total Table this table.
gallons). 1 organic HAP in the stored organic
liquid is <76.6 kilopascals (11.1
psia).
b. The stored organic liquid is crude i. See the requirement in
oil. item 1.a.i or 1.a.ii of
this table.
6. A storage tank at an existing, a. The stored organic liquid is not i. Reduce emissions of
reconstructed, or new affected source crude oil and if the annual average total organic HAP (or,
meeting the capacity criteria specified true vapor pressure of the total Table upon approval, TOC) by at
in table 2 of this subpart, items 1 1 organic HAP in the stored organic least 95 weight-percent
through 5. liquid is =76.6 kilopascals or, as an option, to an
(11.1 psia). exhaust concentration less
than or equal to 20 ppmv,
on a dry basis corrected
to 3 percent oxygen for
combustion devices using
supplemental combustion
air, by venting emissions
through a closed vent
system to any combination
of control devices meeting
the applicable
requirements of 40 CFR
part 63, subpart SS; OR
ii. Comply with the work
practice standards
specified in table 4 to
this subpart, item 2.a,
for tanks storing the
liquids described in that
table.7. A transfer rack at an existing a. The total table 1 organic HAP content i. For all such loading
facility where the total actual annual of the organic liquid being loaded arms at the rack, reduce
facility-level organic liquid loading through one or more of the transfer emissions of total organic
volume through transfer racks is equal rack's arms is at least 98 percent by HAP (or, upon approval,
to or greater than 800,000 gallons and weight and is being loaded into a TOC) from the loading of
less than 10 million gallons. transport vehicle. organic liquids either by
venting the emissions that
occur during loading
through a closed vent
system to any combination
of control devices meeting
the applicable
requirements of 40 CFR
part 63, subpart SS,
achieving at least 98
weight-percent HAP
reduction, OR, as an
option, to an exhaust
concentration less than or
equal to 20 ppmv, on a dry
basis corrected to 3
percent oxygen for
combustion devices using
supplemental combustion
air; OR
ii. During the loading of
organic liquids, comply
with the work practice
standards specified in
item 3 of table 4 to this
subpart.8. A transfer rack at an existing a. One or more of the transfer rack's i. See the requirements in
facility where the total actual annual arms is loading an organic liquid into items 7.a.i and 7.a.ii of
facility-level organic liquid loading a transport vehicle. this table.
volume through transfer racks is =10 million gallons.9. A transfer rack at a new facility a. The total Table 1 organic HAP content i. See the requirements in
where the total actual annual facility- of the organic liquid being loaded items 7.a.i and 7.a.ii of
level organic liquid loading volume through one or more of the transfer this table.
through transfer racks is less than rack's arms is at least 25 percent by
800,000 gallons weight and is being loaded into a
transport vehicle
b. One or more of the transfer rack's i. For all such loading
arms is filling a container with a arms at the rack during
capacity equal to or greater than 55 the loading of organic
gallons liquids, comply with the
provisions of Sec. Sec.
63.924 through 63.927 of
40 CFR part 63, Subpart
PP--National Emission
Standards for Containers,
Container Level 3
controls; OR
ii. During the loading of
organic liquids, comply
with the work practice
standards specified in
item 3.a of Table 4 to
this subpart.10. A transfer rack at a new facility a. One or more of the transfer rack's i. See the requirements in
where the total actual annual facility- arms is loading an organic liquid into items 7.a.i and 7.a.ii of
level organic liquid loading volume a transport vehicle. this table.
through transfer racks is equal to or
greater than 800,000 gallons.
b. One or more of the transfer rack's i. For all such loading
arms is filling a container with a arms at the rack during
capacity equal to or greater than 55 the loading of organic
gallons. liquids, comply with the
provisions of Sec. Sec.
63.924 through 63.927 of
40 CFR part 63, Subpart
PP--National Emission
Standards for Containers,
Container Level 3
controls; OR
ii. During the loading of
organic liquids, comply
with the work practice
standards specified in
item 3.a of table 4 to
this subpart.---------------------------------------------------------------------------------------------------------------- [69 FR 5063, Feb. 3, 2004, as amended at 71 FR 42913, July 28, 2006; 73 FR 21830, Apr. 23, 2008]
Sec. Table 3 to Subpart EEEE of Part 63--Operating Limits--High
Throughput Transfer Racks
As stated in Sec. 63.2346(e), you must comply with the operating limits for existing, reconstructed, or new affected sources as follows: ------------------------------------------------------------------------
For each existing, each
reconstructed, and each new You must . . .
affected source using . . .------------------------------------------------------------------------1. A thermal oxidizer to Maintain the daily average fire box or
comply with an emission combustion zone temperature greater than
limit in table 2 to this or equal to the reference temperature
subpart. established during the design evaluation
or performance test that demonstrated
compliance with the emission limit.2. A catalytic oxidizer to a. Replace the existing catalyst bed
comply with an emission before the age of the bed exceeds the
limit in table 2 to this maximum allowable age established during
subpart. the design evaluation or performance
test that demonstrated compliance with
the emission limit; AND
b. Maintain the daily average temperature
at the inlet of the catalyst bed greater
than or equal to the reference
temperature established during the
design evaluation or performance test
that demonstrated compliance with the
emission limit; AND
c. Maintain the daily average temperature
difference across the catalyst bed
greater than or equal to the minimum
temperature difference established
during the design evaluation or
performance test that demonstrated
compliance with the emission limit.3. An absorber to comply with a. Maintain the daily average
an emission limit in table 2 concentration level of organic compounds
to this subpart. in the absorber exhaust less than or
equal to the reference concentration
established during the design evaluation
or performance test that demonstrated
compliance with the emission limit; OR
b. Maintain the daily average scrubbing
liquid temperature less than or equal to
the reference temperature established
during the design evaluation or
performance test that demonstrated
compliance with the emission limit; AND
Maintain the difference between the
specific gravities of the saturated and
fresh scrubbing fluids greater than or
equal to the difference established
during the design evaluation or
performance test that demonstrated
compliance with the emission limit.4. A condenser to comply with a. Maintain the daily average
an emission limit in table 2 concentration level of organic compounds
to this subpart. at the condenser exit less than or equal
to the reference concentration
established during the design evaluation
or performance test that demonstrated
compliance with the emission limit; OR
b. Maintain the daily average condenser
exit temperature less than or equal to
the reference temperature established
during the design evaluation or
performance test that demonstrated
compliance with the emission limit.5. An adsorption system with a. Maintain the daily average
adsorbent regeneration to concentration level of organic compounds
comply with an emission in the adsorber exhaust less than or
limit in table 2 to this equal to the reference concentration
subpart. established during the design evaluation
or performance test that demonstrated
compliance with the emission limit; OR
b. Maintain the total regeneration stream
mass flow during the adsorption bed
regeneration cycle greater than or equal
to the reference stream mass flow
established during the design evaluation
or performance test that demonstrated
compliance with the emission limit; AND
Before the adsorption cycle commences,
achieve and maintain the temperature of
the adsorption bed after regeneration
less than or equal to the reference
temperature established during the
design evaluation or performance test
that demonstrated compliance with the
emission limit; AND
Achieve a pressure reduction during each
adsorption bed regeneration cycle
greater than or equal to the pressure
reduction established during the design
evaluation or performance test that
demonstrated compliance with the
emission limit.6. An adsorption system a. Maintain the daily average
without adsorbent concentration level of organic compounds
regeneration to comply with in the adsorber exhaust less than or
an emission limit in table 2 equal to the reference concentration
to this subpart. established during the design evaluation
or performance test that demonstrated
compliance with the emission limit; OR
b. Replace the existing adsorbent in each
segment of the bed with an adsorbent
that meets the replacement
specifications established during the
design evaluation or performance test
before the age of the adsorbent exceeds
the maximum allowable age established
during the design evaluation or
performance test that demonstrated
compliance with the emission limit; AND
Maintain the temperature of the
adsorption bed less than or equal to the
reference temperature established during
the design evaluation or performance
test that demonstrated compliance with
the emission limit.7. A flare to comply with an a. Comply with the equipment and
emission limit in table 2 to operating requirements in Sec.
this subpart. 63.987(a); AND
b. Conduct an initial flare compliance
assessment in accordance with Sec.
63.987(b); AND
c. Install and operate monitoring
equipment as specified in Sec.
63.987(c).8. Another type of control Submit a monitoring plan as specified in
device to comply with an Sec. Sec. 63.995(c) and 63.2366(b),
emission limit in table 2 to and monitor the control device in
this subpart. accordance with that plan.------------------------------------------------------------------------ [69 FR 5063, Feb. 3, 2004, as amended at 71 FR 42914, July 28, 2006]
Sec. Table 4 to Subpart EEEE of Part 63--Work Practice Standards
As stated in Sec. 63.2346, you may elect to comply with one of the work practice standards for existing, reconstructed, or new affected sources in the following table. If you elect to do so, . . . ------------------------------------------------------------------------
For each . . . You must . . .------------------------------------------------------------------------1. Storage tank at an existing, a. Comply with the requirements
reconstructed, or new affected source of 40 CFR part 63, subpart WW
meeting any set of tank capacity and (control level 2), if you
organic HAP vapor pressure criteria elect to meet 40 CFR part 63,
specified in table 2 to this subpart, subpart WW (control level 2)
items 1 through 5. requirements as an alternative
to the emission limit in table
2 to this subpart, items 1
through 5; OR
b. Comply with the requirements
of Sec. 63.984 for routing
emissions to a fuel gas system
or back to a process; OR
c. Comply with the requirements
of Sec. 63.2346(a)(4) for
vapor balancing emissions to
the transport vehicle from
which the storage tank is
filled.2. Storage tank at an existing, a. Comply with the requirements
reconstructed, or new affected source of Sec. 63.984 for routing
meeting any set of tank capacity and emissions to a fuel gas system
organic HAP vapor pressure criteria or back to a process; OR
specified in table 2 to this subpart, b. Comply with the requirements
item 6. of Sec. 63.2346(a)(4) for
vapor balancing emissions to
the transport vehicle from
which the storage tank is
filled.3. Transfer rack subject to control a. If the option of a vapor
based on the criteria specified in balancing system is selected,
table 2 to this subpart, items 7 install and, during the
through 10, at an existing, loading of organic liquids,
reconstructed, or new affected source. operate a system that meets
the requirements in table 7 to
this subpart, item 3.b.i and
item 3.b.ii, as applicable; OR
b. Comply with the requirements
of Sec. 63.984 during the
loading of organic liquids,
for routing emissions to a
fuel gas system or back to a
process.4. Pump, valve, and sampling connection Comply with the requirements
that operates in organic liquids for pumps, valves, and
service at least 300 hours per year at sampling connections in 40 CFR
an existing, reconstructed, or new part 63, subpart TT (control
affected source. level 1), subpart UU (control
level 2), or subpart H.5. Transport vehicles equipped with Follow the steps in 40 CFR
vapor collection equipment that are 60.502(e) to ensure that
loaded at transfer racks that are organic liquids are loaded
subject to control based on the only into vapor-tight
criteria specified in table 2 to this transport vehicles, and comply
subpart, items 7 through 10. with the provisions in 40 CFR
60.502(f), (g), (h), and (i),
except substitute the term
transport vehicle at each
occurrence of tank truck or
gasoline tank truck in those
paragraphs.6. Transport vehicles equipped without Ensure that organic liquids are
vapor collection equipment that are loaded only into transport
loaded at transfer racks that are vehicles that have a current
subject to control based on the certification in accordance
criteria specified in table 2 to this with the U.S. DOT pressure
subpart, items 7 through 10. test requirements in 49 CFR
180 (cargo tanks) or 49 CFR
173.31 (tank cars).------------------------------------------------------------------------ [71 FR 42915, July 28, 2006]
Sec. Table 5 to Subpart EEEE of Part 63--Requirements for Performance
Tests and Design Evaluations
As stated in Sec. Sec. 63.2354(a) and 63.2362, you must comply with the requirements for performance tests and design evaluations for existing, reconstructed, or new affected sources as follows: --------------------------------------------------------------------------------------------------------------------------------------------------------
According to the
For . . . You must conduct . . . According to . . . Using . . . To determine . . . following
(1) EPA Method 1 or (A) Sampling port (i) Sampling sites
reconstructed, and each new to determine the 63.985(b)(1)(ii), 1A in appendix A-1 locations and the must be located at
affected source using a nonflare organic HAP (or, upon Sec. 63.988(b), of 40 CFR part 60, required number of the inlet and outlet
control device to comply with an approval, TOC) Sec. 63.990(b), or as appropriate. traverse points. of each control
emission limit in Table 2 to this control efficiency of Sec. 63.995(b). device if complying
subpart, items 1 through 10. each nonflare control with the control
device, OR the efficiency
exhaust concentration requirement or at
of each combustion the outlet of the
device; OR. control device if
complying with the
exhaust
concentration
requirement; AND
(ii) the outlet
sampling site must
be located at each
control device prior
to any releases to
the atmosphere.
(2) EPA Method 2, 2A, (A) Stack gas See the requirements
2C, 2D, or 2F in velocity and in items
(1)(A)(i) and
CFR part 60, or EPA (ii) of this table.
Method 2G in
appendix A-2 of 40
CFR part 60, as
appropriate.
(3) EPA Method 3 or (A) Concentration of See the requirements
3B in appendix A-2 CO2 and O2 and dry in items
(1)(A)(i) and
as appropriate. the stack gas. (ii) of this table.
(4) EPA Method 4 in (A) Moisture content See the requirements
appendix A-3 of 40 of the stack gas. in items
(1)(A)(i) and
(ii) of this table.
(5) EPA Method 18 in (A) Total organic HAP (i) The organic HAP
appendix A-6 of 40 (or, upon approval, used for the
CFR part 60, or EPA TOC), or calibration gas for
Method 25 or 25A in formaldehyde EPA Method 25A in
appendix A-7 of 40 emissions. appendix A-7 of 40
CFR part 60, as CFR part 60 must be
appropriate, or EPA the single organic
Method 316 in HAP representing the
appendix A of 40 CFR largest percent by
part 63 for volume of emissions;
measuring form- AND
aldehyde. (ii) During the
performance test,
you must establish
the operating
parameter limits
within which total
organic HAP (or,
upon approval, TOC)
emissions are
reduced by the
required weight-
percent or, as an
option for nonflare
combustion devices,
to 20 ppmv exhaust
concentration.
b. A design evaluation Sec. 63.985(b)(1)(i) ..................... ..................... During a design
(for nonflare control evaluation, you must
devices) to determine establish the
the organic HAP (or, operating parameter
upon approval, TOC) limits within which
control efficiency of total organic HAP,
each nonflare control (or, upon approval,
device, or the TOC) emissions are
exhaust concentration reduced by at least
of each combustion 95 weight-percent
control device. for storage tanks or
98 weight-percent
for transfer racks,
or, as an option for
nonflare combustion
devices, to 20 ppmv
exhaust
concentration.2. Each transport vehicle that you A performance test to ...................... EPA Method 27 in Vapor tightness...... The pressure change
own that is equipped with vapor determine the vapor appendix A of 40 CFR in the tank must be
collection equipment and is loaded tightness of the tank part 60. no more than 250
with organic liquids at a transfer and then repair as pascals (1 inch of
rack that is subject to control needed until it water) in 5 minutes
based on the criteria specified in passes the test.. after it is
table 2 to this subpart, items 7 pressurized to 4,500
through 10, at an existing, pascals (18 inches
reconstructed, or new affected of water).
source.-------------------------------------------------------------------------------------------------------------------------------------------------------- [71 FR 42916, July 28, 2006, as amended at 73 FR 21831, Apr. 23, 2008]
Sec. Table 6 to Subpart EEEE of Part 63--Initial Compliance With
Emission Limits
As stated in Sec. Sec. 63.2370(a) and 63.2382(b), you must show initial compliance with the emission limits for existing, reconstructed, or new affected sources as follows: ------------------------------------------------------------------------
You have
For each . . . For the following demonstrated initial
emission limit . . . compliance if . . .------------------------------------------------------------------------1. Storage tank at an Reduce total organic Total organic HAP
existing, reconstructed, or HAP (or, upon (or, upon approval,
new affected source meeting approval, TOC) TOC) emissions,
any set of tank capacity emissions by at based on the
and liquid organic HAP least 95 weight- results of the
vapor pressure criteria percent, or as an performance testing
specified in Table 2 to option for nonflare or design
this subpart, items 1 combustion devices evaluation
through 6. to an exhaust specified in Table
concentration of 5 to this subpart,
<=20 ppmv. item 1.a or 1.b,
respectively, are
reduced by at least
95 weight-percent
or as an option for
nonflare combustion
devices to an
exhaust
concentration <=20
ppmv.
2. Transfer rack that is Reduce total organic Total organic HAP
subject to control based on HAP (or, upon (or, upon approval,
the criteria specified in approval, TOC) TOC) emissions from
table 2 to this subpart, emissions from the the loading of
items 7 through 10, at an loading of organic organic liquids,
existing, reconstructed, or liquids by at least based on the
new affected source. 98 weight-percent, results of the
or as an option for performance testing
nonflare combustion or design
devices to an evaluation
exhaust specified in table
concentration of 5 to this subpart,
<=20 ppmv. item 1.a or 1.b,
respectively, are
reduced by at least
98 weight-percent
or as an option for
nonflare combustion
devices to an
exhaust
concentration of
<=20 ppmv.------------------------------------------------------------------------ [71 FR 42918, July 28, 2006, as amended at 73 FR 21832, Apr. 23, 2008]
Sec. Table 7 to Subpart EEEE of Part 63--Initial Compliance With Work
Practice Standards ------------------------------------------------------------------------
You have
For each . . . If you . . . demonstrated initial
compliance if . . .------------------------------------------------------------------------1. Storage tank at an a. Install a i. After emptying
existing affected source floating roof or and degassing, you
meeting either set of tank equivalent control visually inspect
capacity and liquid organic that meets the each internal
HAP vapor pressure criteria requirements in floating roof
specified in Table 2 to Table 4 to this before the
this subpart, items 1 or 2. subpart, item 1.a. refilling of the
storage tank and
perform seal gap
inspections of the
primary and
secondary rim seals
of each external
floating roof
within 90 days
after the refilling
of the storage
tank.
b. Route emissions i. You meet the
to a fuel gas requirements in
system or back to a Sec. 63.984(b)
process. and submit the
statement of
connection required
by Sec.
63.984(c).
c. Install and, i. You meet the
during the filling requirements in
of the storage tank Sec.
with organic 63.2346(a)(4).
liquids, operate a
vapor balancing
system.2. Storage tank at a a. Install a i. You visually
reconstructed or new floating roof or inspect each
affected source meeting any equivalent control internal floating
set of tank capacity and that meets the roof before the
liquid organic HAP vapor requirements in initial filling of
pressure criteria specified Table 4 to this the storage tank,
in Table 2 to this subpart, subpart, item 1.a. and perform seal
items 3 through 5. gap inspections of
the primary and
secondary rim seals
of each external
floating roof
within 90 days
after the initial
filling of the
storage tank.
b. Route emissions i. See item 1.b.i of
to a fuel gas this table.
system or back to a
process.
c. Install and, i. See item 1.c.i of
during the filling this table.
of the storage tank
with organic
liquids, operate a
vapor balancing
system.3. Transfer rack that is a. Load organic i. You comply with
subject to control based on liquids only into the provisions
the criteria specified in transport vehicles specified in table
table 2 to this subpart, having current 4 to this subpart,
items 7 through 10, at an vapor tightness item 5 or item 6,
existing, reconstructed, or certification as as applicable.
new affected source. described in table
4 to this subpart,
item 5 and item 6.
b. Install and, i. You design and
during the loading operate the vapor
of organic liquids, balancing system to
operate a vapor route organic HAP
balancing system. vapors displaced
from loading of
organic liquids
into transport
vehicles to the
storage tank from
which the liquid
being loaded
originated or to
another storage
tank connected to a
common header.
ii. You design and
operate the vapor
balancing system to
route organic HAP
vapors displaced
from loading of
organic liquids
into containers
directly (e.g., no
intervening tank or
containment area
such as a room) to
the storage tank
from which the
liquid being loaded
originated or to
another storage
tank connected to a
common header.
c. Route emissions i. See item 1.b.i of
to a fuel gas this table.
system or back to a
process.
4. Equipment leak component, a. Carry out a leak i. You specify which
as defined in Sec. detection and one of the control
63.2406, that operates in repair program or programs listed in
organic liquids service =300 hours per year according to one of subpart you have
at an existing, the subparts listed selected, OR
reconstructed, or new in table 4 to this ii. Provide written
affected source. subpart, item 4.a. specifications for
your equivalent
control approach.------------------------------------------------------------------------ [71 FR 42918, July 28, 2006, as amended at 73 FR 21833, Apr. 23, 2008]
Sec. Table 8 to Subpart EEEE of Part 63--Continuous Compliance With
Emission Limits
As stated in Sec. Sec. 63.2378(a) and (b) and 63.2390(b), you must show continuous compliance with the emission limits for existing, reconstructed, or new affected sources according to the following table: ------------------------------------------------------------------------
You must demonstrate
For the following continuous
For each . . . emission limit . . . compliance by . . .
------------------------------------------------------------------------1. Storage tank at an a. Reduce total i. Performing CMS
existing, reconstructed, or organic HAP (or, monitoring and
new affected source meeting upon approval, TOC) collecting data
any set of tank capacity emissions from the according to Sec.
and liquid organic HAP closed vent system Sec. 63.2366,
vapor pressure criteria and control device 63.2374, and
specified in table 2 to by 95 weight- 63.2378; AND
this subpart, items 1 percent or greater, ii. Maintaining the
through 6. or as an option to operating limits
20 ppmv or less of established during
total organic HAP the design
(or, upon approval, evaluation or
TOC) in the exhaust performance test
of combustion that demonstrated
devices. compliance with the
emission limit.2. Transfer rack that is a. Reduce total i. Performing CMS
subject to control based on organic HAP (or, monitoring and
the criteria specified in upon approval, TOC) collecting data
table 2 to this subpart, emissions during according to Sec.
items 7 through 10, at an the loading of Sec. 63.2366,
existing, reconstructed, or organic liquids 63.2374, and
new affected source. from the closed 63.2378 during the
vent system and loading of organic
control device by liquids; AND
98 weight-percent ii. Maintaining the
or greater, or as operating limits
an option to 20 established during
ppmv or less of the design
total organic HAP evaluation or
(or, upon approval, performance test
TOC) in the exhaust that demonstrated
of combustion compliance with the
devices. emission limit
during the loading
of organic liquids.------------------------------------------------------------------------ [71 FR 42919, July 28, 2006]
Sec. Table 9 to Subpart EEEE of Part 63--Continuous Compliance With
Operating Limits--High Throughput Transfer Racks
As stated in Sec. Sec. 63.2378(a) and (b) and 63.2390(b), you must show continuous compliance with the operating limits for existing, reconstructed, or new affected sources according to the following table: ----------------------------------------------------------------------------------------------------------------
You must demonstrate
For each existing, reconstructed, and For the following operating limit . . . continuous compliance by .
each new affected source using . . . . .----------------------------------------------------------------------------------------------------------------1. A thermal oxidizer to comply with an a. Maintain the daily average fire box i. Continuously monitoring
emission limit in table 2 to this or combustion zone, as applicable, and recording fire box or
subpart. temperature greater than or equal to combustion zone, as
the reference temperature established applicable, temperature
during the design evaluation or every 15 minutes and
performance test that demonstrated maintaining the daily
compliance with the emission limit. average fire box
temperature greater than
or equal to the reference
temperature established
during the design
evaluation or performance
test that demonstrated
compliance with the
emission limit; AND
ii. Keeping the applicable
records required in Sec.
63.998.2. A catalytic oxidizer to comply with an a. Replace the existing catalyst bed i. Replacing the existing
emission limit in table 2 to this before the age of the bed exceeds the catalyst bed before the
subpart. maximum allowable age established age of the bed exceeds the
during the design evaluation or maximum allowable age
performance test that demonstrated established during the
compliance with the emission limit; AND design evaluation or
performance test that
demonstrated compliance
with the emission limit;
AND
ii. Keeping the applicable
records required in Sec.
63.998.
b. Maintain the daily average i. Continuously monitoring
temperature at the inlet of the and recording the
catalyst bed greater than or equal to temperature at the inlet
the reference temperature established of the catalyst bed at
during the design evaluation or least every 15 minutes and
performance test that demonstrated maintaining the daily
compliance with the emission limit; AND average temperature at the
inlet of the catalyst bed
greater than or equal to
the reference temperature
established during the
design evaluation or
performance test that
demonstrated compliance
with the emission limit;
AND
ii. Keeping the applicable
records required in Sec.
63.998.
c. Maintain the daily average i. Continuously monitoring
temperature difference across the and recording the
catalyst bed greater than or equal to temperature at the outlet
the minimum temperature difference of the catalyst bed every
established during the design 15 minutes and maintaining
evaluation or performance test that the daily average
demonstrated compliance with the temperature difference
emission limit. across the catalyst bed
greater than or equal to
the minimum temperature
difference established
during the design
evaluation or performance
test that demonstrated
compliance with the
emission limit; AND
ii. Keeping the applicable
records required in Sec.
63.998.3. An absorber to comply with an emission a. Maintain the daily average i. Continuously monitoring
limit in table 2 to this subpart. concentration level of organic the organic concentration
compounds in the absorber exhaust less in the absorber exhaust
than or equal to the reference and maintaining the daily
concentration established during the average concentration less
design evaluation or performance test than or equal to the
that demonstrated compliance with the reference concentration
emission limit; OR established during the
design evaluation or
performance test that
demonstrated compliance
with the emission limit;
AND
ii. Keeping the applicable
records required in Sec.
63.998.
b. Maintain the daily average scrubbing i. Continuously monitoring
liquid temperature less than or equal the scrubbing liquid
to the reference temperature temperature and
established during the design maintaining the daily
evaluation or performance test that average temperature less
demonstrated compliance with the than or equal to the
emission limit; AND reference temperature
Maintain the difference between the established during the
specific gravities of the saturated and design evaluation or
fresh scrubbing fluids greater than or performance test that
equal to the difference established demonstrated compliance
during the design evaluation or with the emission limit;
performance test that demonstrated AND
compliance with the emission limit. ii. Maintaining the
difference between the
specific gravities greater
than or equal to the
difference established
during the design
evaluation or performance
test that demonstrated
compliance with the
emission limit; AND
iii. Keeping the applicable
records required in Sec.
63.998.4. A condenser to comply with an emission a. Maintain the daily average i. Continuously monitoring
limit in table 2 to this subpart. concentration level of organic the organic concentration
compounds at the exit of the condenser at the condenser exit and
less than or equal to the reference maintaining the daily
concentration established during the average concentration less
design evaluation or performance test than or equal to the
that demonstrated compliance with the reference concentration
emission limit; OR established during the
design evaluation or
performance test that
demonstrated compliance
with the emission limit;
AND
ii. Keeping the applicable
records required in Sec.
63.998.
b. Maintain the daily average condenser i. Continuously monitoring
exit temperature less than or equal to and recording the
the reference temperature established temperature at the exit of
during the design evaluation or the condenser at least
performance test that demonstrated every 15 minutes and
compliance with the emission limit. maintaining the daily
average temperature less
than or equal to the
reference temperature
established during the
design evaluation or
performance test that
demonstrated compliance
with the emission limit;
AND
ii. Keeping the applicable
records required in Sec.
63.998.
5. An adsorption system with adsorbent a. Maintain the daily average i. Continuously monitoring
regeneration to comply with an emission concentration level of organic the daily average organic
limit in table 2 to this subpart. compounds in the adsorber exhaust less concentration in the
than or equal to the reference adsorber exhaust and
concentration established during the maintaining the
design evaluation or performance test concentration less than or
that demonstrated compliance with the equal to the reference
emission limit; OR concentration established
during the design
evaluation or performance
test that demonstrated
compliance with the
emission limit; AND
ii. Keeping the applicable
records required in Sec.
63.998.
b. Maintain the total regeneration i. Maintaining the total
stream mass flow during the adsorption regeneration stream mass
bed regeneration cycle greater than or flow during the adsorption
equal to the reference stream mass flow bed regeneration cycle
established during the design greater than or equal to
evaluation or performance test that the reference stream mass
demonstrated compliance with the flow established during
emission limit; AND the design evaluation or
Before the adsorption cycle commences, performance test that
achieve and maintain the temperature of demonstrated compliance
the adsorption bed after regeneration with the emission limit;
less than or equal to the reference AND
temperature established during the ii. Maintaining the
design evaluation or performance test; temperature of the
AND adsorption bed after
Achieve greater than or equal to the regeneration less than or
pressure reduction during the equal to the reference
adsorption bed regeneration cycle temperature established
established during the design during the design
evaluation or performance test that evaluation or performance
demonstrated compliance with the test that demonstrated
emission limit. compliance with the
emission limit; AND
iii. Achieving greater than
or equal to the pressure
reduction during the
regeneration cycle
established during the
design evaluation or
performance test that
demonstrated compliance
with the emission limit;
AND
iv. Keeping the applicable
records required in Sec.
63.998.6. An adsorption system without adsorbent a. Maintain the daily average i. Continuously monitoring
regeneration to comply with an emission concentration level of organic the organic concentration
limit in table 2 to this subpart. compounds in the adsorber exhaust less in the adsorber exhaust
than or equal to the reference and maintaining the
concentration established during the concentration less than or
design evaluation or performance test equal to the reference
that demonstrated compliance with the concentration established
emission limit; OR during the design
evaluation or performance
test that demonstrated
compliance with the
emission limit; AND
ii. Keeping the applicable
records required in Sec.
63.998.
b. Replace the existing adsorbent in i. Replacing the existing
each segment of the bed before the age adsorbent in each segment
of the adsorbent exceeds the maximum of the bed with an
allowable age established during the adsorbent that meets the
design evaluation or performance test replacement specifications
that demonstrated compliance with the established during the
emission limit; AND design evaluation or
Maintain the temperature of the performance test before
adsorption bed less than or equal to the age of the adsorbent
the reference temperature established exceeds the maximum
during the design evaluation or allowable age established
performance test that demonstrated during the design
compliance with the emission limit. evaluation or performance
test that demonstrated
compliance with the
emission limit; AND
ii. Maintaining the
temperature of the
adsorption bed less than
or equal to the reference
temperature established
during the design
evaluation or performance
test that demonstrated
compliance with the
emission limit; AND
iii. Keeping the applicable
records required in Sec.
63.998.7. A flare to comply with an emission a. Maintain a pilot flame in the flare i. Continuously operating a
limit in table 2 to this subpart. at all times that vapors may be vented device that detects the
to the flare (Sec. 63.11(b)(5)); AND presence of the pilot
flame; AND
ii. Keeping the applicable
records required in Sec.
63.998.
b. Maintain a flare flame at all times i. Maintaining a flare
that vapors are being vented to the flame at all times that
flare (Sec. 63.11(b)(5)); AND vapors are being vented to
the flare; AND
ii. Keeping the applicable
records required in Sec.
63.998.
c. Operate the flare with no visible i. Operating the flare with
emissions, except for up to 5 minutes no visible emissions
in any 2 consecutive hours (Sec. exceeding the amount
63.11(b)(4)); AND EITHER allowed; AND
ii. Keeping the applicable
records required in Sec.
63.998.
d.1. Operate the flare with an exit i. Operating the flare
velocity that is within the applicable within the applicable exit
limits in Sec. 63.11(b)(7) and (8) velocity limits; AND
and with a net heating value of the gas ii. Operating the flare
being combusted greater than the with the gas heating value
applicable minimum value in Sec. greater than the
63.11(b)(6)(ii); OR applicable minimum value;
AND
iii. Keeping the applicable
records required in Sec.
63.998.
d.2. Adhere to the requirements in Sec. i. Operating the flare
63.11(b)(6)(i). within the applicable
limits in 63.11(b)(6)(i);
AND
ii. Keeping the applicable
records required in Sec.
63.998.8. Another type of control device to Submit a monitoring plan as specified in Submitting a monitoring
comply with an emission limit in table 2 Sec. Sec. 63.995(c) and 63.2366(c), plan and monitoring the
to this subpart. and monitor the control device in control device according
accordance with that plan. to that plan.---------------------------------------------------------------------------------------------------------------- [69 FR 5063, Feb. 3, 2004, as amended at 71 FR 42919, July 28, 2006]
Sec. Table 10 to Subpart EEEE of Part 63--Continuous Compliance With
Work Practice Standards
As stated in Sec. Sec. 63.2378(a) and (b) and 63.2386(c)(6), you must show continuous compliance with the work practice standards for existing, reconstructed, or new affected sources according to the following table: ----------------------------------------------------------------------------------------------------------------
You must demonstrate
For each . . . For the following standard . . . continuous compliance by .
. .----------------------------------------------------------------------------------------------------------------1. Internal floating roof (IFR) storage a. Install a floating roof designed and i. Visually inspecting the
tank at an existing, reconstructed, or operated according to the applicable floating roof deck, deck
new affected source meeting any set of specifications in Sec. 63.1063(a) and fittings, and rim seals of
tank capacity, and vapor pressure (b). each IFR once per year
criteria specified in table 2 to this (Sec. 63.1063(d)(2));
subpart, items 1 through 5. AND
ii. Visually inspecting the
floating roof deck, deck
fittings, and rim seals of
each IFR either each time
the storage tank is
completely emptied and
degassed or every 10
years, whichever occurs
first (Sec.
63.1063(c)(1), (d)(1), and
(e)); AND
iii. Keeping the tank
records required in Sec.
63.1065.2. External floating roof (EFR) storage a. Install a floating roof designed and i. Visually inspecting the
tank at an existing, reconstructed, or operated according to the applicable floating roof deck, deck
new affected source meeting any set of specifications in Sec. 63.1063(a) and fittings, and rim seals of
tank capacity and vapor pressure (b). each EFR either each time
criteria specified in table 2 to this the storage tank is
subpart, items 1 through 5. completely emptied and
degassed or every 10
years, whichever occurs
first (Sec.
63.1063(c)(2), (d), and
(e)); AND
ii. Performing seal gap
measurements on the
secondary seal of each EFR
at least once every year,
and on the primary seal of
each EFR at least every 5
years (Sec.
63.1063(c)(2), (d), and
(e)); AND
iii. Keeping the tank
records required in Sec.
63.1065.3. IFR or EFR tank at an existing, a. Repair the conditions causing storage i. Repairing conditions
reconstructed, or new affected source tank inspection failures (Sec. causing inspection
meeting any set of tank capacity and 63.1063(e)). failures: before refilling
vapor pressure criteria specified in the storage tank with
table 2 to this subpart, items 1 through organic liquid, or within
5. 45 days (or up to 105 days
with extensions) for a
tank containing organic
liquid; AND
ii. Keeping the tank
records required in Sec.
63.1065(b).
4. Transfer rack that is subject to a. Ensure that organic liquids are i. Ensuring that organic
control based on the criteria specified loaded into transport vehicles in liquids are loaded into
in table 2 to this subpart, items 7 accordance with the requirements in transport vehicles in
through 10, at an existing, table 4 to this subpart, items 5 or 6, accordance with the
reconstructed, or new affected source. as applicable. requirements in table 4 to
this subpart, items 5 or
6, as applicable.
b. Install and, during the loading of i. Monitoring each
organic liquids, operate a vapor potential source of vapor
balancing system. leakage in the system
quarterly during the
loading of a transport
vehicle or the filling of
a container using the
methods and procedures
described in the rule
requirements selected for
the work practice standard
for equipment leak
components as specified in
table 4 to this subpart,
item 4. An instrument
reading of 500 ppmv
defines a leak. Repair of
leaks is performed
according to the repair
requirements specified in
your selected equipment
leak standards.
c. Route emissions to a fuel gas system i. Continuing to meet the
or back to a process. requirements specified in
Sec. 63.984(b).5. Equipment leak component, as defined a. Comply with the requirements of 40 i. Carrying out a leak
in Sec. 63.2406, that operates in CFR part 63, subpart TT, UU, or H. detection and repair
organic liquids service at least 300 program in accordance with
hours per year. the subpart selected from
the list in item 5.a of
this table.6. Storage tank at an existing, a. Route emissions to a fuel gas system i. Continuing to meet the
reconstructed, or new affected source or back to the process. requirements specified in
meeting any of the tank capacity and Sec. 63.984(b).
vapor pressure criteria specified in
table 2 to this subpart, items 1 through
6.
b. Install and, during the filling of i. Except for pressure
the storage tank with organic liquids, relief devices, monitoring
operate a vapor balancing system. each potential source of
vapor leakage in the
system, including, but not
limited to pumps, valves,
and sampling connections,
quarterly during the
loading of a storage tank
using the methods and
procedures described in
the rule requirements
selected for the work
practice standard for
equipment leak components
as specified in Table 4 to
this subpart, item 4. An
instrument reading of 500
ppmv defines a leak.
Repair of leaks is
performed according to the
repair requirements
specified in your selected
equipment leak standards.
For pressure relief
devices, comply with Sec.
63.2346(a)(4)(v). If no
loading of a storage tank
occurs during a quarter,
then monitoring of the
vapor balancing system is
not required.---------------------------------------------------------------------------------------------------------------- [69 FR 5063, Feb. 3, 2004, as amended at 71 FR 42922, July 28, 2006; 73 FR 40982, July 17, 2008]
Sec. Table 11 to Subpart EEEE of Part 63--Requirements for Reports
As stated in Sec. 63.2386(a), (b), and (f), you must submit compliance reports and startup, shutdown, and malfunction reports according to the following table: ------------------------------------------------------------------------
The report must You must submit the
You must submit a(n) . . . contain . . . report . . .------------------------------------------------------------------------1. Compliance report or a. The information Semiannually, and it
Periodic Report. specified in Sec. must be postmarked
63.2386(c), (d), by January 31 or
(e). If you had a July 31, in
SSM during the accordance with
reporting period Sec. 63.2386(b).
and you took
actions consistent
with your SSM plan,
the report must
also include the
information in Sec.
63.10(d)(5)(i);
AND
b. The information See the submission
required by 40 CFR requirement in item
part 63, subpart 1.a of this table.
TT, UU, or H, as
applicable, for
pumps, valves, and
sampling
connections; AND
c. The information See the submission
required by Sec. requirement in item
63.999(c); AND 1.a of this table.
d. The information See the submission
specified in Sec. requirement in item
63.1066(b) 1.a. of this table.
including:
Notification of
inspection,
inspection results,
requests for
alternate devices,
and requests for
extensions, as
applicable.2. Immediate SSM report if a. The information i. By letter within
you had a SSM that resulted required in Sec. 7 working days
in an applicable emission 63.10(d)(5)(ii). after the end of
standard in the relevant the event unless
standard being exceeded, you have made
and you took an action that alternative
was not consistent with arrangements with
your SSM plan. the permitting
authority (Sec.
63.10(d)(5)(ii)).------------------------------------------------------------------------ [71 FR 42923, July 28, 2006]
Sec. Table 12 to Subpart EEEE of Part 63--Applicability of General
Provisions to Subpart EEEE
As stated in Sec. Sec. 63.2382 and 63.2398, you must comply with the applicable General Provisions requirements as follows: ----------------------------------------------------------------------------------------------------------------
Applies to subpart
Citation Subject Brief description EEEE----------------------------------------------------------------------------------------------------------------Sec. 63.1........................ Applicability......... Initial applicability Yes.
determination;
Applicability after
standard established;
Permit requirements;
Extensions, Notifications.Sec. 63.2........................ Definitions........... Definitions for part 63 Yes.
standards.Sec. 63.3........................ Units and Units and abbreviations for Yes.
Abbreviations. part 63 standards.Sec. 63.4........................ Prohibited Activities Prohibited activities; Yes.
and Circumvention. Circumvention,
Severability.Sec. 63.5........................ Construction/ Applicability; Yes.
Reconstruction. Applications; Approvals.Sec. 63.6(a)..................... Compliance with GP apply unless compliance Yes.
Standards/O&M; extension; GP apply to
Applicability. area sources that become
major.Sec. 63.6(b)(1)-(4).............. Compliance Dates for Standards apply at Yes.
New and Reconstructed effective date; 3 years
Sources. after effective date; upon
startup; 10 years after
construction or
reconstruction commences
for section 112(f).Sec. 63.6(b)(5).................. Notification.......... Must notify if commenced Yes.
construction or
reconstruction after
proposal.Sec. 63.6(b)(6).................. [Reserved].Sec. 63.6(b)(7).................. Compliance Dates for Area sources that become Yes.
New and Reconstructed major must comply with
Area Sources That major source standards
Become Major. immediately upon becoming
major, regardless of
whether required to comply
when they were an area
source.Sec. 63.6(c)(1)-(2).............. Compliance Dates for Comply according to date in Yes.
Existing Sources. this subpart, which must
be no later than 3 years
after effective date; for
section 112(f) standards,
comply within 90 days of
effective date unless
compliance extension.Sec. 63.6(c)(3)-(4).............. [Reserved].Sec. 63.6(c)(5).................. Compliance Dates for Area sources that become Yes.
Existing Area Sources major must comply with
That Become Major. major source standards by
date indicated in this
subpart or by equivalent
time period (e.g., 3
years).Sec. 63.6(d)..................... [Reserved].Sec. 63.6(e)(1).................. Operation & Operate to minimize Yes.
Maintenance. emissions at all times;
correct malfunctions as
soon as practicable; and
operation and maintenance
requirements independently
enforceable; information
Administrator will use to
determine if operation and
maintenance requirements
were met.Sec. 63.6(e)(2).................. [Reserved].
(1) the
content of SSM plan; 2-day reporting
actions during SSM. requirement in
paragraph Sec.
63.6(e)(3)(iv) does
not apply and (2)
Sec. 63.6(e)(3)
does not apply to
emissions sources not
requiring control.Sec. 63.6(f)(1).................. Compliance Except You must comply with Yes.
During SSM. emission standards at all
times except during SSM.Sec. 63.6(f)(2)-(3).............. Methods for Compliance based on Yes.
Determining performance test,
Compliance. operation and maintenance
plans, records, inspection.Sec. 63.6(g)(1)-(3).............. Alternative Standard.. Procedures for getting an Yes.
alternative standard.Sec. 63.6(h)..................... Opacity/Visible Requirements for compliance No; except as it
Emission Standards. with opacity and visible applies to flares for
emission standards. which Method 22
observations are
required as part of a
flare compliance
assessment.Sec. 63.6(i)(1)-(14)............. Compliance Extension.. Procedures and criteria for Yes.
Administrator to grant
compliance extension.Sec. 63.6(j)..................... Presidential President may exempt any Yes.
Compliance Exemption. source from requirement to
comply with this subpart.Sec. 63.7(a)(2).................. Performance Test Dates Dates for conducting Yes.
initial performance
testing; must conduct 180
days after compliance date.Sec. 63.7(a)(3).................. Section 114 Authority. Adminsitrator may require a Yes.
performance test under CAA
section 114 at any time.Sec. 63.7(b)(1).................. Notification of Must notify Administrator Yes.
Performance Test. 60 days before the test.Sec. 63.7(b)(2).................. Notification of If you have to reschedule Yes.
Rescheduling. performance test, must
notify Administrator of
rescheduled date as soon
as practicable and without
delay.Sec. 63.7(c)..................... Quality Assurance (QA)/ Requirement to submit site- Yes.
Test Plan. specific test plan 60 days
before the test or on date
Administrator agrees with;
test plan approval
procedures; performance
audit requirements;
internal and external QA
procedures for testing.Sec. 63.7(d)..................... Testing Facilities.... Requirements for testing Yes.
facilities.Sec. 63.7(e)(1).................. Conditions for Performance tests must be Yes.
Conducting conducted under
Performance Tests. representative conditions;
cannot conduct performance
tests during SSM.Sec. 63.7(e)(2).................. Conditions for Must conduct according to Yes.
Conducting this subpart and EPA test
Performance Tests. methods unless
Administrator approves
alternative.Sec. 63.7(e)(3).................. Test Run Duration..... Must have three test runs Yes; however, for
of at least 1 hour each; transfer racks per
compliance is based on Sec. Sec.
arithmetic mean of three 63.987(b)(3)(i)(A)-(B
runs; conditions when data ) and
from an additional test 63.997(e)(1)(v)(A)-(B
run can be used. ) provide exceptions
to the requirement
for test runs to be
at least 1 hour each.Sec. 63.7(f)..................... Alternative Test Procedures by which Yes.
Method. Administrator can grant
approval to use an
intermediate or major
change, or alternative to
a test method.Sec. 63.7(g)..................... Performance Test Data Must include raw data in Yes; however,
Analysis. performance test report; performance test data
must submit performance is to be submitted
test data 60 days after with the Notification
end of test with the of Compliance Status
Notification of Compliance according to the
Status; keep data for 5 schedule specified in
years. Sec. 63.9(h)(1)-(6)
below.Sec. 63.7(h)..................... Waiver of Tests....... Procedures for Yes.
Administrator to waive
performance test.Sec. 63.8(a)(1).................. Applicability of Subject to all monitoring Yes.
Monitoring requirements in standard.
Requirements.Sec. 63.8(a)(2).................. Performance Performance Specifications Yes.
Specifications. in appendix B of 40 CFR
part 60 apply.
Sec. 63.8(a)(3).................. [Reserved].Sec. 63.8(a)(4).................. Monitoring of Flares.. Monitoring requirements for Yes; however,
flares in Sec. 63.11. monitoring
requirements in Sec.
63.987(c) also
apply.Sec. 63.8(b)(1).................. Monitoring............ Must conduct monitoring Yes.
according to standard
unless Administrator
approves alternative.Sec. 63.8(b)(2)-(3).............. Multiple Effluents and Specific requirements for Yes.
Multiple Monitoring installing monitoring
Systems. systems; must install on
each affected source or
after combined with
another affected source
before it is released to
the atmosphere provided
the monitoring is
sufficient to demonstrate
compliance with the
standard; if more than one
monitoring system on an
emission point, must
report all monitoring
system results, unless one
monitoring system is a
backup.Sec. 63.8(c)(1).................. Monitoring System Maintain monitoring system Yes.
Operation and in a manner consistent
Maintenance. with good air pollution
control practices.Sec. 63.8(c)(1)(i)-(iii)......... Routine and Keep parts for routine Yes.
Predictable SSM. repairs readily available;
reporting requirements for
SSM when action is
described in SSM plan..Sec. 63.8(c)(2)-(3).............. Monitoring System Must install to get Yes.
Installation. representative emission or
parameter measurements;
must verify operational
status before or at
performance test.Sec. 63.8(c)(4).................. CMS Requirements...... CMS must be operating Yes; however, COMS are
except during breakdown, not applicable.
out-of control, repair,
maintenance, and high-
level calibration drifts;
COMS must have a minimum
of one cycle of sampling
and analysis for each
successive 10-second
period and one cycle of
data recording for each
successive 6-minute
period; CEMS must have a
minimum of one cycle of
operation for each
successive 15-minute
period.Sec. 63.8(c)(5).................. COMS Minimum COMS minimum procedures.... No.
Procedures.Sec. 63.8(c)(6)-(8).............. CMS Requirements...... Zero and high level Yes, but only applies
calibration check for CEMS. 40 CFR part
requirements. Out-of- 63, subpart SS
control periods. provides requirements
for CPMS.Sec. 63.8(d)..................... CMS Quality Control... Requirements for CMS Yes, but only applies
quality control, including for CEMS. 40 CFR part
calibration, etc.; must 63, subpart SS
keep quality control plan provides requirements
on record for 5 years; for CPMS.
keep old versions for 5
years after revisions.Sec. 63.8(e)..................... CMS Performance Notification, performance Yes, but only applies
Evaluation. evaluation test plan, for CEMS.
reports.Sec. 63.8(f)(1)-(5).............. Alternative Monitoring Procedures for Yes, but 40 CFR part
Method. Administrator to approve 63, subpart SS also
alternative monitoring. provides procedures
for approval of CPMS.Sec. 63.8(f)(6).................. Alternative to Procedures for Yes.
Relative Accuracy Administrator to approve
Test. alternative relative
accuracy tests for CEMS.Sec. 63.8(g)..................... Data Reduction........ COMS 6-minute averages Yes; however, COMS are
calculated over at least not applicable.
36 evenly spaced data
points; CEMS 1 hour
averages computed over at
least 4 equally spaced
data points; data that
cannot be used in average.Sec. 63.9(a)..................... Notification Applicability and State Yes.
Requirements. delegation.Sec. 63.9(b)(1)-(2), (4)-(5)..... Initial Notifications. Submit notification within Yes.
120 days after effective
date; notification of
intent to construct/
reconstruct, notification
of commencement of
construction/
reconstruction,
notification of startup;
contents of each.Sec. 63.9(c)..................... Request for Compliance Can request if cannot Yes.
Extension. comply by date or if
installed best available
control technology or
lowest achievable emission
rate (BACT/LAER).
Sec. 63.9(d)..................... Notification of For sources that commence Yes.
Special Compliance construction between
Requirements for New proposal and promulgation
Sources. and want to comply 3 years
after effective date.Sec. 63.9(e)..................... Notification of Notify Administrator 60 Yes.
Performance Test. days prior.Sec. 63.9(f)..................... Notification of VE/ Notify Administrator 30 No.
Opacity Test. days prior.Sec. 63.9(g)..................... Additional Notification of performance Yes; however, there
Notifications When evaluation; notification are no opacity
Using CMS. about use of COMS data; standards.
notification that exceeded
criterion for relative
(1)-(6).............. Notification of Contents due 60 days after Yes; however, (1)
Compliance Status. end of performance test or there are no opacity
other compliance standards and (2) all
demonstration, except for initial Notification
opacity/visible emissions, of Compliance Status,
which are due 30 days including all
after; when to submit to performance test
Federal vs. State data, are to be
authority. submitted at the same
time, either within
240 days after the
compliance date or
within 60 days after
the last performance
test demonstrating
compliance has been
completed, whichever
occurs first.Sec. 63.9(i)..................... Adjustment of Procedures for Yes.
Submittal Deadlines. Administrator to approve
change in when
notifications must be
submitted.Sec. 63.9(j)..................... Change in Previous Must submit within 15 days No. These changes will
Information. after the change. be reported in the
first and subsequent
compliance reports.Sec. 63.10(a).................... Recordkeeping/ Applies to all, unless Yes.
Reporting. compliance extension; when
to submit to Federal vs.
State authority;
procedures for owners of
more than one source.Sec. 63.10(b)(1)................. Recordkeeping/ General requirements; keep Yes.
Reporting. all records readily
available; keep for 5
years.Sec. 63.10(b)(2)(i)-(iv)......... Records Related to Occurrence of each for Yes.
Startup, Shutdown, operations (process
and Malfunction. equipment); occurrence of
each malfunction of air
pollution control
equipment; maintenance on
air pollution control
equipment; actions during
SSM.Sec. 63.10(b)(2)(vi)-(xi)........ CMS Records........... Malfunctions, inoperative, Yes.
out-of-control periods.Sec. 63.10(b)(2)(xii)............ Records............... Records when under waiver.. Yes.Sec. 63.10(b)(2)(xiii)........... Records............... Records when using Yes.
alternative to relative
accuracy test.Sec. 63.10(b)(2)(xiv)............ Records............... All documentation Yes.
supporting initial
notification and
notification of compliance
status.Sec. 63.10(b)(3)................. Records............... Applicability Yes.
determinations.Sec. 63.10(c).................... Records............... Additional records for CMS. Yes.Sec. 63.10(d)(1)................. General Reporting Requirement to report...... Yes.
Requirements.Sec. 63.10(d)(2)................. Report of Performance When to submit to Federal Yes.
Test Results. or State authority.Sec. 63.10(d)(3)................. Reporting Opacity or What to report and when.... Yes.
VE Observations.Sec. 63.10(d)(4)................. Progress Reports...... Must submit progress Yes.
reports on schedule if
under compliance extension.Sec. 63.10(d)(5)................. SSM Reports........... Contents and submission.... Yes.Sec. 63.10(e)(1)-(2)............. Additional CMS Reports Must report results for Yes; however, COMS are
each CEMS on a unit; not applicable.
written copy of CMS
performance evaluation; 2-
3 copies of COMS
performance evaluation.Sec. 63.10(e)(3)(i)-(iii)........ Reports............... Schedule for reporting Yes; however, note
excess emissions and that the title of the
parameter monitor report is the
exceedance (now defined as compliance report;
deviations). deviations include
excess emissions and
parameter
exceedances.
Sec. 63.10(e)(3)(iv)-(v)......... Excess Emissions Requirement to revert to Yes.
Reports. quarterly submission if
there is an excess
emissions or parameter
monitoring exceedance (now
defined as deviations);
provision to request
semiannual reporting after
compliance for 1 year;
submit report by 30th day
following end of quarter
or calendar half; if there
has not been an exceedance
or excess emissions (now
defined as deviations),
report contents in a
statement that there have
been no deviations; must
submit report containing
all of the information in
Sec. Sec. 63.8(c)(7)-
(8) and 63.10(c)(5)-(13).Sec. 63.10(e)(3)(vi)-(viii)...... Excess Emissions Requirements for reporting Yes.
Report and Summary excess emissions for CMS
Report. (now called deviations);
requires all of the
information in Sec. Sec.
63.10(c)(5)-(13) and
63.8(c)(7)-(8).Sec. 63.10(e)(4)................. Reporting COMS Data... Must submit COMS data with No.
performance test data.Sec. 63.10(f).................... Waiver for Procedures for Yes.
Recordkeeping/ Administrator to waive.
Reporting.Sec. 63.11(b).................... Flares................ Requirements for flares.... Yes; Sec. 63.987
requirements apply,
and the section
references Sec.
63.11(b).Sec. 63.11(c), (d), and (e)...... Control and work Alternative work practice Yes.
practice requirements. for equipment leaks.Sec. 63.12....................... Delegation............ State authority to enforce Yes.
standards.Sec. 63.13....................... Addresses............. Addresses where reports, Yes.
notifications, and
requests are sent.Sec. 63.14....................... Incorporation by Test methods incorporated Yes.
Reference. by reference.Sec. 63.15....................... Availability of Public and confidential Yes.
Information. information.---------------------------------------------------------------------------------------------------------------- [69 FR 5063, Feb. 3, 2004, as amended at 71 FR 20463, Apr. 20, 2006; 71 FR 42924, July 28, 2006; 73 FR 78215, Dec. 22, 2008]
Subpart FFFF_National Emission Standards for Hazardous Air Pollutants:
Miscellaneous Organic Chemical Manufacturing
Source: 68 FR 63888, Nov. 10, 2003, unless otherwise noted.
What This Subpart Covers