(a) For all affected sources complying with the batch process vent testing provisions in Sec. 63.490(c) and the operating limit provisions in Sec. 63.505(c), the terms used in this subpart and in subpart U of this part are defined in Sec. 63.482 and paragraph (g) of this section.
(b) For all affected sources complying with the closed-vent system and bypass line requirements in Sec. 63.148, the terms used in this subpart and in subpart G of this part are defined in Sec. 63.111 and paragraph (g) of this section.
(c) For all affected sources complying with the heat exchanger system requirements in Sec. 63.104, the terms used in this subpart and in subpart F of this part are defined in Sec. 63.101 and paragraph (g) of this section.
(d) For cellulose ether affected sources complying with the maintenance wastewater, process wastewater, and liquid stream in open system requirements of subparts F and G of this part, the terms used in this subpart and in subparts F and G of this part are defined in Sec. Sec. 63.101 and 63.111 and paragraph (g) of this section.
(e) For cellulose ether affected sources complying with the equipment leak requirements of subpart H of this part, the terms used in this subpart and in subpart H of this part are defined in Sec. 63.161 and paragraph (g) of this section.
(f) For cellulose ether affected sources complying with the equipment leak requirements of subpart UU of this part, the terms used in this subpart and in subpart UU of this part are defined in Sec. 63.1020 and paragraph (g) of this section.
(g) All other terms used in this subpart have the meaning given them in Sec. 63.2 and this paragraph (g). If a term is defined in Sec. 63.2, 63.101, 63.111, 63.161, or 63.1020 and in this paragraph (g), the definition in this paragraph (g) applies for purposes of this subpart.
Bottoms receiver means a tank that collects distillation bottoms before the stream is sent for storage or for further downstream processing.
Carbon disulfide unloading and storage operation means a system at an affected source that includes unloading of carbon disulfide from a railcar using nitrogen or water displacement and storage of carbon disulfide in a storage vessel using nitrogen or water padding.
Cellophane means a thin, transparent cellulose material, which is manufactured using the viscose process and used in food packaging (e.g., candy, cheese, baked goods), adhesive tapes, and membranes for industrial uses, such as batteries.
Cellophane operation means the collection of the cellophane process unit and any other equipment, such as heat exchanger systems, wastewater and waste management units, or cooling towers, that are not associated with an individual cellophane process unit, but are located at a cellophane operation for the purpose of manufacturing cellophane and are under common control.
Cellophane process unit means all equipment associated with the viscose process or solvent coating process which collectively function to manufacture cellophane and any associated storage vessels, liquid streams in open systems (as defined in Sec. 63.149), and equipment (as defined in Sec. 63.161) that are used in the manufacturing of cellophane.
Cellulose ether means a compound, such as carboxymethyl cellulose, hydroxyethyl cellulose, hydroxypropyl cellulose, methyl cellulose, or hydroxypropyl methyl cellulose, which is manufactured using the cellulose ether process and used mainly as a thickener, viscosifier, or binder in a wide variety of consumer and other products.
Cellulose ether operation means the collection of the cellulose ether process unit and any other equipment, such as heat exchanger systems, wastewater and waste management units, or cooling towers, that are not associated with an individual cellulose ether process unit, but are located at a cellulose ether operation for the purpose of manufacturing a particular cellulose ether and are under common control.
Cellulose ether process means the following:
(1) A manufacturing process that includes the following process steps:
(i) Reaction of cellulose (e.g., wood pulp or cotton linters) with sodium hydroxide to produce alkali cellulose;
(ii) Reaction of the alkali cellulose with a chemical compound(s), such as ethylene oxide, propylene oxide, methyl chloride, or chloroacetic acid, to produce a particular cellulose ether;
(iii) Washing and purification of the cellulose ether; and
(iv) Drying of the cellulose ether.
(2) Solids handling steps downstream of the drying process are not considered part of the cellulose ether process.
Cellulose ether process change means a change to the cellulose ether process that occurred no earlier than January 1991 that allows the recovery of organic HAP, reduction in organic HAP usage, or reduction in organic HAP leaving the reactor. Includes extended cookout.
Cellulose ether process unit means all equipment associated with a cellulose ether process which collectively function to manufacture a particular cellulose ether and any associated storage vessels, liquid streams in open systems (as defined in Sec. 63.149), and equipment (as defined in Sec. 63.161 or 63.1020) that are used in the manufacturing of a particular cellulose ether.
Cellulose Ethers Production source category means the collection of cellulose ether operations that use the cellulose ether process to manufacture a particular cellulose ether.
Cellulose food casing means a cellulose casing, which is manufactured using the viscose process, used in forming meat products (e.g., hot dogs, sausages) and, in most cases, removed from the meat products before sale.
Cellulose food casing operation means the collection of the cellulose food casing process unit and any other equipment, such as heat exchanger systems, wastewater and waste management units, or cooling towers, that are not associated with an individual cellulose food casing process unit, but are located at a cellulose food casing operation for the purpose of manufacturing cellulose food casings and are under common control.
Cellulose food casing process unit means all equipment associated with the viscose process which collectively function to manufacture cellulose food casings and any associated storage vessels, liquid streams in open systems (as defined in Sec. 63.149), and equipment (as defined in Sec. 63.161) that are used in the manufacturing of cellulose food casings.
Cellulosic sponge means a porous cellulose product, which is manufactured using the viscose process and used mainly for consumer use (e.g., for cleaning).
Cellulosic sponge operation means the collection of the cellulosic sponge process unit and any other equipment, such as heat exchanger systems, wastewater and waste management units, or cooling towers, that are not associated with an individual cellulosic sponge process unit, but are located at a cellulosic sponge operation for the purpose of manufacturing cellulosic sponges and are under common control.
Cellulosic sponge process unit means all equipment associated with the viscose process which collectively function to manufacture cellulosic sponges and any associated storage vessels, liquid streams in open systems (as defined in Sec. 63.149), and equipment (as defined in Sec. 63.161) that are used in the manufacturing of cellulosic sponges.
Closed-loop system means a system wherein the emission stream is not normally vented to the atmosphere but is recycled back to the process.
Control technique means any equipment or process control used for capturing, recovering, treating, or preventing HAP emissions. The equipment includes recovery devices and non-recovery control devices, as defined in this paragraph. The process control includes cellulose ether process changes and viscose process changes, as defined in this paragraph.
Deviation means any instance in which an affected source subject to this subpart, 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 limit, 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 limit, operating limit, or work practice standard in this subpart during startup, shutdown, or malfunction, regardless of whether or not such failure is permitted by this subpart.
Emission point means an individual process vent, storage vessel, waste management unit, or equipment leak.
Extended cookout (ECO) means a cellulose ether process change that reduces the amount of unreacted ethylene oxide, propylene oxide, methyl chloride, or chloroacetic acid leaving the reactor. This is accomplished by allowing the product to react for a longer time, thereby leaving less unreacted ethylene oxide, propylene oxide, methyl chloride, or chloroacetic acid and reducing emissions of ethylene oxide, propylene oxide, methyl chloride, or chloroacetic acid that might have occurred otherwise.
Miscellaneous Viscose Processes source category means the collection of cellulose food casing, rayon, cellulosic sponge, and cellophane operations that use the viscose process to manufacture a particular cellulose product. These cellulose products include cellulose food casings, rayon, cellulosic sponges, and cellophane.
Nitrogen storage system means a system of padding the carbon disulfide storage vessels with nitrogen to prevent contact with oxygen.
Nitrogen unloading and storage system means the combination of a nitrogen unloading system for unloading carbon disulfide and a nitrogen storage system for storing carbon disulfide.
Nitrogen unloading system means a system of unloading carbon disulfide from railcars to storage vessels using nitrogen displacement to prevent gaseous carbon disulfide emissions to the atmosphere and to preclude contact with oxygen.
Non-recovery control device means an individual unit of equipment capable of and normally used for the purpose of capturing or treating HAP emissions. Examples of equipment that may be non-recovery control devices include, but are not limited to, biofilters, caustic scrubbers, flares, thermal oxidizers, and water scrubbers.
Oil absorber means a packed-bed absorber that absorbs pollutant vapors using a type of oil (e.g., kerosene) as the absorption liquid.
Onsite means that records are stored at a location within a major source which encompasses the affected source. Onsite includes, but is not limited to, storage at the affected source or process unit to which the records pertain or storage in central files elsewhere at the major source.
Process vent means a point of discharge to the atmosphere (or the point of entry into a control device, if any) of a HAP-containing gas stream from the unit operation. Process vents do not include vents with a flow rate less than 0.005 standard cubic meter per minute or with a concentration less than 50 parts per million by volume (ppmv) of HAP or TOC, vents on storage tanks, vents on wastewater emission sources, or pieces of equipment regulated under equipment leak standards.
Rayon means cellulose fibers, which are manufactured using the viscose process and used in the production of either textiles (e.g., apparel, drapery, upholstery) or non-woven products (e.g., feminine hygiene products, wipes, computer disk liners, surgical swabs).
Rayon operation means the collection of the rayon process unit and any other equipment, such as heat exchanger systems, wastewater and waste management units, or cooling towers, that are not associated with an individual rayon process unit, but are located at a rayon operation for the purpose of manufacturing rayon and are under common control.
Rayon process unit means all equipment associated with the viscose process which collectively function to manufacture rayon and any associated storage vessels, liquid streams in open systems (as defined in Sec. 63.149), and equipment (as defined in Sec. 63.161) that are used in the manufacturing of rayon.
Recovery device means an individual unit of equipment capable of and normally used for the purpose of recovering HAP emissions for fuel value (i.e., net positive heating value), use, reuse, or for sale for fuel value, use, or reuse. Examples of equipment that may be recovery devices include, but are not limited to, absorbers, carbon adsorbers, condensers, oil-water separators or organic-water separators, or organic removal devices such as decanters, strippers, or thin-film evaporation units.
Responsible official means responsible official as defined in 40 CFR 70.2.
Safety device means a closure device such as a pressure relief valve, frangible disc, fusible plug, or any other type of device which 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. For the purposes of this subpart, a safety device is not used for routine venting of gases or vapors from the vapor headspace underneath a cover such as during filling of the unit or to adjust the pressure in this vapor headspace in responses to normal daily diurnal ambient temperature fluctuations. A safety device is designed to remain in a closed position during normal operation and open only when the internal pressure, or another relevant parameter, exceeds the device threshold setting applicable to the air emission control equipment as determined by the owner or operator based on manufacturer recommendations, applicable regulations, fire protection and prevention codes, standard engineering codes and practices, or other requirements for the safe handling of flammable, combustible, explosive, reactive, or hazardous materials.
Solvent coating process means a manufacturing process in which cellophane film is coated (e.g., with Saran [supreg] or nitrocellulose) to impart moisture impermeability to the film and to make it printable. Both Saran and nitrocellulose use the same solvents--tetrahydrofuran and toluene.
Storage vessel means a tank or other vessel used to store liquids that contain one or more HAP. Storage vessels do not include the following:
(1) Vessels permanently attached to motor vehicles such as trucks, railcars, barges, or ships;
(2) Pressure vessels designed to operate in excess of 204.9 kilopascals (30 pounds per square inch) and without emissions to the atmosphere;
(3) Vessels with capacities smaller than 38 cubic meters (10,000 gallons);
(4) Vessels and equipment storing and/or handling material that contains no HAP or contains HAP as impurities only;
(5) Bottoms receiver tanks;
(6) Surge control vessels;
(7) Wastewater storage vessels; and
(8) Storage vessels assigned to another process unit regulated under another subpart of part 63.
Surge control vessel means feed drums, recycle drums, and intermediate vessels. Surge control vessels are used within a process unit when in-process storage, mixing, or management of flow rates or volumes is needed to assist in production of a product.
Total HAP means the sum of organic HAP emissions measured using EPA Method 18.
Total sulfide means the sum of emissions for carbon disulfide, hydrogen sulfide, and carbonyl sulfide reported as carbon disulfide. Total sulfide, as defined for the purposes of this subpart, does not include other sulfur compounds, such as sulfur dioxide.
Viscose process means the following:
(1) A manufacturing process that includes the following process steps:
(i) Reaction of cellulose (e.g., wood pulp) with sodium hydroxide to produce alkali cellulose;
(ii) Reaction of alkali cellulose with carbon disulfide to produce sodium cellulose xanthate;
(iii) Combination of sodium cellulose xanthate with additional sodium hydroxide to produce viscose solution;
(iv) Extrusion of the viscose into various shapes (e.g., hollow casings, thin fibers, thin sheets, molds);
(v) Regeneration of the cellulose product;
(vi) Washing of the cellulose product; and
(vii) Possibly acid or salt recovery.
(2) The cellulose products manufactured using the viscose process include cellulose food casings, rayon, cellulosic sponges, and cellophane.
Viscose process change means a change to the viscose process that occurred no earlier than January 1991 that allows either the recovery of carbon disulfide or a reduction in carbon disulfide usage in the process.
Wastewater means water that:
(1) Contains either:
(i) An annual average concentration of organic HAP (listed in Table 9 to subpart G of this part) of at least 5 parts per million by weight (ppmw) and has an annual average flow rate of 0.02 liter per minute or greater; or
(ii) An annual average concentration of organic HAP (listed in Table 9 to subpart G of this part) of at least 10,000 ppmw at any flow rate.
(2) Is discarded from a cellulose food casing, rayon, cellulosic sponge, cellophane, or cellulose ether process unit that is part of an affected source. Wastewater is process wastewater or maintenance wastewater.
Water storage system means a system of padding the carbon disulfide storage vessels with water to prevent contact with oxygen. The water, which is saturated with carbon disulfide, is later sent to wastewater treatment.
Water unloading and storage system means the combination of a water unloading system for unloading carbon disulfide and a water storage system for storing carbon disulfide.
Water unloading system means a system of unloading carbon disulfide from railcars to storage vessels using water displacement to prevent gaseous carbon disulfide emissions to the atmosphere and to preclude contact with oxygen.
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 Clean Air Act. [67 FR 40055, June 11, 2002, as amended at 70 FR 36524, June 24, 2005; 70 FR 46693, Aug. 10, 2005]
Sec. Table 1 to Subpart UUUU of Part 63--Emission Limits and Work
Practice Standards
As required in Sec. 63.5505(a), you must meet the appropriate emission limits and work practice standards in the following table: ------------------------------------------------------------------------
For . . . at . . . you must . . .------------------------------------------------------------------------1. the sum of all viscose a. each existing i. reduce total
process vents. cellulose food uncontrolled sulfide
casing operation. emissions (reported
as carbon disulfide)
by at least 25%
based on a 6-month
rolling average;
ii. for each vent
stream that you
control using a
control device,
route the vent
stream through a
closed-vent system
to the control
device; and
iii. comply with the
work practice
standard for closed-
vent systems.
b. each new i. reduce total
cellulose food uncontrolled sulfide
casing operation. emissions (reported
as carbon disulfide)
by at least 75%
based on a 6-month
rolling average;
ii. for each vent
stream that you
control using a
control device,
route the vent
stream through a
closed-vent system
to the control
device; and
iii. comply with the
work practice
standard for closed-
vent systems.
c. each existing i. reduce total
rayon operation. uncontrolled sulfide
emissions (reported
as carbon disulfide)
by at least 35%
within 3 years after
the effective date
based on a 6-month
rolling average; for
each vent stream
that you control
using a control
device, route the
vent stream through
a closed-vent system
to the control
device; and comply
with the work
practice standard
for closed-vent
systems; and
ii. reduce total
uncontrolled sulfide
emissions (reported
as carbon disulfide)
by at least 40%
within 8 years after
the effective date
based on a 6-month
rolling average; for
each vent stream
that you control
using a control
device, route the
vent stream through
a closed-vent system
to the control
device; and comply
with the work
practice standard
for closed-vent
systems.
d. each new rayon i. reduce total
operation. uncontrolled sulfide
emissions (reported
as carbon disulfide)
by at least 75%
based on a 6-month
rolling average;
ii. for each vent
stream that you
control using a
control device,
route the vent
stream through a
closed-vent system
to the control
device; and
iii. comply with the
work practice
standard for closed-
vent systems.
e. each existing i. reduce total
or new uncontrolled sulfide
cellulosic emissions (reported
sponge operation. as carbon disulfide)
by at least 75%
based on a 6-month
rolling average;
ii. for each vent
stream that you
control using a
control device,
route the vent
stream through a
closed-vent system
to the control
device; and
iii. comply with the
work practice
standard for closed-
vent systems.
f. each existing i. reduce total
or new uncontrolled sulfide
cellophane emissions (reported
operation. as carbon disulfide)
by at least 75%
based on a 6-month
rolling average;
ii. for each vent
stream that you
control using a
control device
(except for
retractable hoods
over sulfuric acid
baths at a
cellophane
operation), route
the vent stream
through a closed-
vent system to the
control device; and
iii. comply with the
work practice
standard for closed-
vent systems (except
for retractable
hoods over sulfuric
acid baths at a
cellophane
operation).2. the sum of all solvent a. each existing i. reduce
coating process vents. or new uncontrolled toluene
cellophane emissions by at
operation. least 95% based on a
6-month rolling
average;
ii. for each vent
stream that you
control using a
control device,
route the vent
stream through a
closed-vent system
to the control
device; and
iii. comply with the
work practice
standard for closed-
vent systems.3. the sum of all cellulose a. each existing i. reduce total
ether process vents. or new cellulose uncontrolled organic
ether operation. HAP emissions by at
least 99%;
ii. for each vent
stream that you
control using a
control device,
route the vent
stream through a
closed-vent system
to the control
device; and
iii. comply with the
work practice
standard for closed-
vent systems.4. closed-loop systems........ each existing or comply by operating
new cellulose the closed-loop
ether operation. system.5. each carbon disulfide a. each existing i. reduce
unloading and storage or new viscose uncontrolled carbon
operation. process affected disulfide emissions
source. by at least 83% from
unloading and
storage operations
based on a 6-month
rolling average if
you use an
alternative control
technique not listed
in this table source
for carbon disulfide
unloading and
storage operations;
if using a control
device to reduce
emissions, route
emissions through a
closed-vent system
to the control
device; and comply
with the work
practice standard
for closed-vent
systems;
ii. reduce
uncontrolled carbon
disulfide emissions
by at least 0.14%
from viscose process
vents based on a 6-
month rolling
average; for each
vent stream that you
control using a
control device,
route the vent
stream through a
closed-vent system
to the control
device; and comply
with the work
practice standard
for closed-vent
systems;
iii. install a
nitrogen unloading
and storage system
(as defined in Sec.
63.5610); or
iv. install a
nitrogen unloading
system (as defined
in Sec. 63.5610);
reduce uncontrolled
carbon disulfide
emissions by at
least 0.045% from
viscose process
vents based on a 6-
month rolling
average; for each
vent stream that you
control, route the
vent stream through
a closed-vent to the
control device; and
comply with the work
practice standard
for closed-vent
systems.6. each toluene storage vessel a. each existing i. reduce
or new uncontrolled toluene
cellophane emissions by at
operation. least 95% based on a
6-month rolling
average;
ii. if using a
control device to
reduce emissions,
route the emissions
through a closed-
vent system to the
control device; and
iii. comply with the
work practice
standard for closed-
vent systems.
7. equipment leaks............ a. each existing i. comply with the
or new cellulose applicable equipment
ether operation. leak standards of
Sec. Sec. 63.162
through 63.179,
except that
references to
``process unit''
mean ``cellulose
ether process unit''
for the purposes of
this subpart; or
ii. comply with the
applicable equipment
leak standards of
Sec. Sec. 63.1021
through 63.1037,
except that
references to
``process unit''
mean ``cellulose
ether process unit''
for the purposes of
this subpart.8. all sources of wastewater each existing or comply with the
emissions. new cellulose applicable
ether operation. wastewater
provisions of Sec.
Sec. 63.105 and
63.132 through
63.140.9. liquid streams in open each existing or comply with the
systems. new cellulose applicable
ether operation. provisions or Sec.
63.149, except that
references to
``chemical
manufacturing
process unit'' ether
means ``cellulose
ether process unit''
for the purposes of
this subpart.10. closed-vent system used to each existing or conduct annual
route emissions to a control new affected inspections, repair
device. source (except leaks, and maintain
for retractable records as specified
hoods over in Sec. 63.148.
sulfuric acid
baths at a
cellophane
operation).11. closed-vent system a. each existing (i) install,
containing a bypass line that or new affected calibrate, maintain,
could divert a vent stream source (except and operate a flow
away from a control device, for retractable indicator as
except for equipment needed hoods over specified in Sec.
for safety purposes sulfuric acid 63.148(f)(1); or
(described in Sec. baths at a (ii) secure the
63.148(f)(3). cellophane bypass line valve in
operation). the closed position
with a car-seal or
lock-and-key type
configuration and
inspect the seal or
closure mechanism at
least once per month
as specified in Sec.
63.148(f)(2)).12. heat exchanger system that each existing or monitor and repair
cools process equipment or new affected the heat exchanger
materials in the process unit. source. system according to
Sec. 63.104(a)
through (e), except
that references to
``chemical
manufacturing
process unit'' mean
``cellulose food
casing, rayon,
cellulosic sponge,
cellophane, or
cellulose ether
process unit'' for
the purposes of this
subpart.------------------------------------------------------------------------ [67 FR 40055, June 11, 2002, as amended at 70 FR 46694, Aug. 10, 2005]
Sec. Table 2 to Subpart UUUU of Part 63--Operating Limits
As required in Sec. 63.5505(b), you must meet the appropriate operating limits in the following table: ------------------------------------------------------------------------
For the following control
technique . . . you must . . .------------------------------------------------------------------------1. condenser................. maintain the daily average condenser
outlet gas or condensed liquid
temperature no higher than the value
established during the compliance
demonstration.2. thermal oxidizer.......... maintain the daily average thermal
oxidizer firebox temperature no lower
than the value established during the
compliance demonstration.3. water scrubber............ maintain the daily average scrubber
pressure drop and scrubber liquid flow
rate within the range of values
established during the compliance
demonstration.4. caustic scrubber.......... maintain the daily average scrubber
pressure drop, scrubber liquid flow
rate, and scrubber liquid pH,
conductivity, or alkalinity within the
range of values established during the
compliance demonstration.5. flare..................... maintain the presence of a pilot flame.6. biofilter................. maintain the daily average biofilter
inlet gas temperature, biofilter
effluent pH, and pressure drop within
the operating values established during
the compliance demonstration.7. carbon absorber........... maintain the regeneration frequency,
total regeneration adsorber stream mass
or volumetric flow during carbon bed
regeneration, and temperature of the
carbon bed after regeneration (and
within 15 minutes of completing any
cooling cycle(s)) for each regeneration
cycle within the values established
during the compliance demonstration.8. oil absorber.............. maintain the daily average absorption
liquid flow, absorption liquid
temperature, and steam flow within the
values established during the compliance
demonstration.9. any of the control if using a CEMS, maintain the daily
techniques specified in this average control efficiency of each
table. control device no lower than the value
established during the compliance
demonstration.
10. any of the control a. if you wish to establish alternative
techniques specified in this operating parameters, submit the
table. application for approval of the
alternative operating parameters no
later than the notification of the
performance test or CEMS performance
evaluation or no later than 60 days
prior to any other initial compliance
demonstration;
b. the application must include:
information justifying the request for
alternative operating parameters (such
as the infeasibility or impracticality
of using the operating parameters in
this final rule); a description of the
proposed alternative control device
operating parameters; the monitoring
approach; the frequency of measuring and
recording the alternative parameters;
how the operating limits are to be
calculated; and information documenting
that the alternative operating
parameters would provide equivalent or
better assurance of compliance with the
standard;
c. install, operate, and maintain the
alternative parameter monitoring systems
in accordance with the application
approved by the Administrator;
d. establish operating limits during the
initial compliance demonstration based
on the alternative operating parameters
included in the approved application;
and
e. maintain the daily average alternative
operating parameter values within the
values established during the compliance
demonstration.11. alternative control a. submit for approval no later than the
technique. notification of the performance test or
CEMS performance evaluation or no later
than 60 days prior to any other initial
compliance demonstration a proposed site-
specific plan that includes: a
description of the alternative control
device; test results verifying the
performance of the control device; the
appropriate operating parameters that
will be monitored; and the frequency of
measuring and recording to establish
continuous compliance with the operating
limits;
b. install, operate, and maintain the
parameter monitoring system for the
alternative control device in accordance
with the plan approved by the
Administrator;
c. establish operating limits during the
initial compliance demonstration based
on the operating parameters for the
alternative control device included in
the approved plan; and
d. maintain the daily average operating
parameter values for the alternative
control technique within the values
established during the compliance
demonstration.------------------------------------------------------------------------ [67 FR 40055, June 11, 2002, as amended at 70 FR 46694, Aug. 10, 2005]
Sec. Table 3 to Subpart UUUU of Part 63--Initial Compliance With
Emission Limits and Work Practice Standards
As required in Sec. Sec. 63.5530(a) and 63.5535(g) and (h), you must demonstrate initial compliance with the appropriate emission limits and work practice standards according to the requirements in the following table: ----------------------------------------------------------------------------------------------------------------
for the following you have demonstrated
For . . . at . . . emission limit or work initial compliance if .
practice standard . . . . .----------------------------------------------------------------------------------------------------------------1. the sum of all viscose process a. each existing i. reduce total (1) the average
vents. cellulose food casing uncontrolled sulfide uncontrolled total
operation. emissions (reported as sulfide emissions,
carbon disulfide) by determined during the
at least 25% based on month-long compliance
a 6-month rolling demonstration or using
average; engineering
ii. for each vent assessments, are
stream that you reduced by at least
control using a 25%;
control device, route (2) you have a record
the vent stream of the range of
through a closed-vent operating parameter
system to the control values over the month-
device; and. long compliance
iii. comply with the demonstration during
work practice standard which the average
for closed-vent uncontrolled total
systems. sulfide emissions were
reduced by at least
25%;
(3) you prepare a
material balance that
includes the pertinent
data used to determine
the percent reduction
of total sulfide
emissions; and
(4) you comply with the
initial compliance
requirements for
closed-vent systems.
b. each new cellulose i. reduce total (1) the average
food casing operation. uncontrolled sulfide uncontrolled total
emissions (reported as sulfide emissions,
carbon disulfide) by determined during the
at least 75% based on month-long compliance
a 6-month rolling demonstration or using
average; engineering
ii. for each vent assessments, are
stream that you reduced by at least
control using a 75%;
control device, route (2) you have a record
the vent stream of the range of
through a closed-vent operating parameter
system to the control values over the month-
device; and. long compliance
iii. comply with the demonstration during
work practice standard which the average
for closed-vent uncontrolled total
systems. sulfide emissions were
reduced by at least
75%;
(3) you prepare a
material balance that
includes the pertinent
data used to determine
the percent reduction
of total sulfide
emissions; and
(4) you comply with the
initial compliance
requirements for
closed-vent systems.
c. each existing rayon i. reduce total (1) the average
operation. uncontrolled sulfide uncontrolled total
emissions (reported as sulfide emissions,
carbon disulfide) by determined during the
at least 35% within 3 month-long compliance
years after the demonstration or using
effective date based engineering
on a 6-month rolling assessments, are
average; for each vent reduced by at least
stream that you 35% within 3 years
control using a after the effective
control device, route date;
the vent stream (2) you have a record
through a closed-vent of the average
system to the control operating parameter
device; and comply values over the month-
with the work practice long compliance
standard for closed- demonstration during
vent systems; and which the average
uncontrolled total
sulfide emissions were
reduced by at least
35%;
(3) you prepare a
material balance that
includes the pertinent
data used to determine
the percent reduction
of total sulfide
emissions; and
(4) you comply with the
initial compliance
requirements for
closed-vent systems;
and
ii. reduce total (1) the average
uncontrolled sulfide uncontrolled total
emissions (reported as sulfide emissions,
carbon disulfide) by determined during the
at least 40% within 8 month-long compliance
years after the demonstration or using
effective date based engineering
on a 6-month rolling assessments, are
average; for each vent reduced by at least
stream that you 40% within 8 years
control using a after the effective
control device, route date;
the vent stream (2) you have a record
through a closed-vent of the average
system to the control operating parameter
device; and comply values over the month-
with the work practice long compliance
standard for closed- demonstration during
vent systems. which the average
uncontrolled total
sulfide emissions were
reduced by at least
40%;
(3) you prepare a
material balance that
includes the pertinent
data used to determine
the percent reduction
of the total sulfide
emissions; and
(4) you comply with the
initial compliance
requirements for
closed-vent systems.
d. each new rayon i. reduce total (1) the average
operation. uncontrolled sulfide uncontrolled total
emissions (reported as sulfide emissions,
carbon disulfide) by determined during the
at least 75%; based on month-long compliance
a 6-month rolling demonstration or using
average; engineering
ii. for each vent assessments, are
stream that you reduced by at least
control using a 75%;
control device, route (2) you have a record
the vent stream of the average
through a closed-vent operating parameter
system to the control values over the month-
device; and. long compliance
iii. comply with the demonstration during
work practice standard which the average
for closed-vent uncontrolled total
systems. sulfide emissions were
reduced by at least
75%;
(3) you prepare a
material balance that
includes the pertinent
data used to determine
the percent reduction
of total sulfide
missions; and
(4) you comply with the
initial compliance
requirements for
closed-vent systems.
e. each existing or new i. reduce total (1) the average
cellulosic sponge uncontrolled sulfide uncontrolled total
operation. emissions (reported as sulfide emissions,
carbon disulfide) by determined during the
at least 75% based on month-long compliance
a 6-month rolling demonstration or using
average; engineering
ii. for each vent assessments, are
stream that you reduced by at least
control using a 75%;
control device, route (2) you have a record
the vent stream of the average
through a closed-vent operating parameter
system to the control values over the month-
device; and. long compliance
iii. comply with the demonstration during
work practice standard which the average
for closed-vent uncontrolled total
systems. sulfide emissions were
reduced by at least
75%;
(3) you prepare a
material balance that
includes the pertinent
data used to determine
and the percent
reduction of total
sulfide emissions; and
(4) you comply with the
initial compliance
requirements for
closed-vent systems.
f. each existing or new i. reduce total (1) the average
cellophane operation. uncontrolled sulfide uncontrolled total
emissions (reported as sulfide emissions,
carbon disulfide) by determined during the
at least 75% based on month-long compliance
a 6-month rolling demonstration or using
average; engineering
ii. for each vent assessments, are
stream that you reduced by at least
control using a 75%;
control device (except (2) you have a record
for retractable hoods of the average
over sulfuric acid operating parameter
baths at a cellophane values over the month-
operation), route the long compliance
vent stream through a demonstration during
closed-vent system to which the average
the control device; uncontrolled total
and. sulfide emissions were
iii. comply with the reduced by at least
work practice standard 75%;
for closed-vent (3) you prepare a
systems. material balance that
includes the pertinent
data used to determine
the percent reduction
of total sulfide
emissions; and
(4) you comply with the
initial compliance
requirements for
closed-vent systems.
2. the sum of all solvent coating a. each existing or new i. reduce uncontrolled (1) the average
process vents. cellophane operation. toluene emissions by uncontrolled toluene
at least 95% based on emissions, determined
a 6-month rolling during the month-long
average; compliance
ii. for each vent demonstration or using
stream that you engineering
control using a assessments, are
control device, route reduced by at least
the vent stream 95%;
through a closed-vent 2. you have a record of
system to the control the average operating
device; and. parameter values over
iii. comply with the the month-long
work practice standard compliance
for closed-vent demonstration during
systems. which the average
uncontrolled toluene
emissions were reduced
by at least 95%;
3. you prepare a
material balance that
includes the pertinent
data used to determine
the percent reduction
of toluene emissions;
and
4. you comply with the
initial compliance
requirements for
closed-vent systems.3. the sum of all cellulose ether a. each existing or new i. reduce total (1) average
process vents. cellulose ether uncontrolled organic uncontrolled total
operation using a HAP emissions by at organic HAP emissions,
performance test to least 99%; ii. for measured during the
demonstrate initial each vent stream that performance test or
compliance; or. you control using a determined using
control device, route engineering estimates
the vent stream are reduced by at
through a closed-vent least 99%;
system to the control (2) you have a record
device; and iii. of the average
comply with the work operating parameter
practice standard for values over the
closed-vent systems; performance test
or during which the
average uncontrolled
total organic HAP
emissions were reduced
by at least 99%; and
(3) you comply with the
initial compliance
requirements for
closed-vent systems;
or
b. each existing or new i. reduce total (1) average
cellulose ether uncontrolled organic uncontrolled total
operation using a HAP emissions by at organic HAP emissions,
material balance least 99% based on a 6- determined during the
compliance month rolling average; month-long compliance
demonstration to ii. for each vent demonstration or using
demonstrate initial stream that you engineering estimates
compliance. control using a are reduced by at
control device, route least 99%;
the vent stream (2) you have a record
through a closed-vent of the average
system the control operation parameter
device; and iii. values over the month-
comply with the work long compliance
practice standard for demonstration during
closed-vent systems. which the average
uncontrolled total
organic HAP emissions
were reduced by at
least 99%;
(3) you prepare a
material balance that
includes the pertinent
data used to determine
the percent reduction
of total organic HAP
emissions;
(4) if you use extended
cookout to comply, you
measure the HAP
charged to the
reactor, record the
grade of product
produced, and then
calculate reactor
emissions prior to
extended cookout by
taking a percentage of
the total HAP charged.4. closed-loop systems............... each existing or new operate and maintain you have a record
cellulose ether the closed-loop system certifying that a
operation. for cellulose ether closed-loop system is
operations. in use for cellulose
ether operations.
5. each carbon disulfide unloading a. each existing or new i. reduce uncontrolled (1) you have a record
and storage operation. viscose process carbon disulfide documenting the 83%
affected source. emissions by at least reduction in
83% from unloading and uncontrolled carbon
storage operations disulfide emissions;
based on a 6-month and
rolling average if you (2) if venting to a
use an alternative control device to
control technique not reduce emissions, you
listed in this table comply with the
for carbon disulfide initial compliance
unloading and storage requirements for
operations; if using a closed-vent systems;
control device to
reduce emissions,
route emissions
through a closed-vent
system to the control
device; and comply
with the work practice
standard for closed-
vent systems;
ii. reduce uncontrolled (1) you comply with the
carbon disulfide by at initial compliance
least 0.14% from requirements for
viscose process vents viscose process vents
based on a 6-month at existing or new
rolling average; for cellulose food casing,
each vent stream that rayon, cellulosic
you control using a sponge, or cellophane
control device, route operations, as
the vent stream applicable;
through a closed-vent (2) the 0.14% reduction
system to the control must be in addition to
device; and comply the reduction already
with the work practice required for viscose
standard for closed- process vents at
vent systems;. existing or new
cellulose food casing,
rayon, cellulosic
sponge, or cellophane
operations, as
applicable; and
(3) you comply with the
initial compliance
requirements for
closed-vent systems;
iii. install a nitrogen you have a record
unloading and storage certifying that a
system; or nitrogen unloading and
storage system is in
use; or
iv. install a nitrogen (1) you have a record
unloading system; certifying that a
reduce uncontrolled nitrogen unloading
carbon disulfide by at system is in use;
least 0.045% from (2) you comply with the
viscose process vents initial compliance
based on a 6-month requirements for
rolling average; for viscose process vents
each vent stream that at existing or new
you control using a cellulose food casing,
control device, route rayon, cellulosic
the vent stream sponge, or cellophane
through a closed-vent operations, as
system to the control applicable;
device; and comply (3) the 0.045%
with the work practice reduction must be in
standard for closed- addition to the
vent systems. reduction already
required for viscose
process vents at
cellulose food casing,
rayon, cellulosic
sponge, or cellophane
operations, as
applicable; and
(4) you comply with the
initial compliance
requirements for
closed-vent systems.
6. each toluene storage vessel....... a. each existing or new i. reduce uncontrolled (1) the average
cellophane operation. toluene emissions by uncontrolled toluene
at least 95% based on emissions, determined
a 6-month rolling during the month-long
average; compliance
ii. if using a control demonstration or using
device to reduce engineering
emissions, route the assessments, are
emissions through a reduced by at least
closed-vent system to 95%;
the control device; (2) you have a record
and. of the average
iii. comply with the operating parameter
work practice standard values over the month-
for closed-vent long compliance
systems. demonstration during
which the average
uncontrolled toluene
emissions were reduced
by at least 95%;
(3) you prepare a
material balance that
includes the pertinent
data used to determine
the percent reduction
of toluene emissions;
and
(4) if venting to a
control device to
reduce emissions, you
comply with the
initial compliance
requirements for
closed-vent systems.7. equipment leaks................... a. each existing or new i. comply with the you comply with the
cellulose ether applicable equipment applicable
operation. leak standards of Sec. requirements described
Sec. 63.162 through in the Notification of
63.179; or Compliance Status
Report provisions in
Sec. 63.182(a)(2)
and (c)(1) through
(3), except that
references to the term
``process unit'' mean
``cellulose ether
process unit'' for the
purposes of this
subpart; or
ii. comply with the you comply with the
applicable equipment applicable
leak standards of Sec. requirements described
Sec. 63.1021 in the Initial
through 63.1027. Compliance Status
Report provisions of
Sec. 63.1039(a),
except that references
to the term ``process
unit'' mean
``cellulose ether
process unit'' for the
purposes of this
subpart.8. all sources of wastewater each existing or new comply with the you comply with the
emissions. cellulose ether applicable wastewater applicability and
operation. provisions of Sec. Group 1/Group 2
63.105 and Sec. Sec. determination
63.132 through 63.140. provisions of Sec.
63.144 and the initial
compliance provisions
of Sec. Sec. 63.105
and 63.145.9. liquid streams in open systems.... each existing or new comply with the you install emission
cellulose ether applicable provisions suppression equipment
operation. of Sec. 63.149, and conduct an initial
except that references inspection according
to ``chemical to the provisions of
manufacturing process to Sec. Sec. 63.133
unit'' mean through 63.137.
``cellulose ether
process unit'' for the
purposes of this
subpart.10. closed-vent system used to route a. each existing or new i. conduct annual (1) you conduct an
emissions to a control device. affected source. inspections, repair initial inspection of
leaks, and maintain the closed-vent system
records as specified and maintain records
in Sec. 63.148. according to Sec.
63.148;
(2) you prepare a
written plan for
inspecting unsafe-to-
inspect and difficult-
to-inspect equipment
according to Sec.
63.148(g)(2) and
(h)(2); and
(2); and
(3) you repair any
leaks and maintain
records according to
Sec. 63.148.11. closed-vent system containing a a. each existing or new i. install, calibrate, you have a record
bypass line that could divert a vent affected source. maintain, and operate documenting that you
stream away from a control device, a flow indicator as installed a flow
except for equipment needed for specified in Sec. indicator as specified
safety purposes (described in Sec. 63.148(f)(1); or. in Table 1 to this
63.148(f)(3)). subpart; or
ii. secure the bypass you have record
line valve in the documenting that you
closed position with a have secured the
car-seal or lock-and- bypass line valve as
key type configuration specified in Table 1
and inspect the seal to this subpart.
or closure mechanism
at lease once per
month as specified in
Sec. 63.148(f)(2).12. heat exchanger system that cools a. each existing or new i. monitor and repair (1) you determine that
process equipment or materials in affected source. the heat exchanger the heat exchanger
the process unit. system according to system is exempt from
Sec. 63.104(a) monitoring
through (e), except requirements because
that references to it meets one of the
``chemical conditions in Sec.
manufacturing process 63.104(a)(1) through
unit'' mean (6), and you document
``cellulose food this finding in your
casing, rayon, Notification of
cellulosic sponge, Compliance Status
cellophane, or Report; or
cellulose ether (2) if your heat
process unit'' for the exchanger system is
purposes of this not exempt, you
subpart. identify in your
Notification of
Compliance Status
Report the HAP or
other representative
substance that you
will monitor, or you
prepare and maintain a
site-specific plan
containing the
information required
by Sec. 63.104(c)
(1) (i) through (iv)
(i) through (iv)
that documents the
procedures you will
use to detect leaks by
monitoring surrogate
indicators of the
leak.---------------------------------------------------------------------------------------------------------------- [67 FR 40055, June 11, 2002, as amended at 70 FR 46695, Aug. 10, 2005]
Sec. Table 4 to Subpart UUUU of Part 63--Requirements for Performance
Tests
As required in Sec. Sec. 63.5530(b) and 63.5535(a), (b), (g)(1), and (h)(1), you must conduct performance tests, other initial compliance demonstrations, and CEMS performance evaluations and establish operating limits according to the requirements in the following table: ----------------------------------------------------------------------------------------------------------------
according to the
For . . . at . . . you must . . . using . . . following
requirements . . .----------------------------------------------------------------------------------------------------------------1. the sum of all process vents a. each existing i. select EPA Method 1 or sampling sites must be
or new affected sampling port's 1A in appendix A located at the inlet
source. location and the to 40 CFR Sec. and outlet to each
number of 63.7(d)(1)(i); control device;
traverse points;
ii. determine EPA Method 2, 2A, you may use EPA Method
velocity and 2C, 2D, 2F, or 2A, 2C, 2D, 2F, or 2G
volumetric flow 2G in appendices as an alternative to
rate; A-1 and A-2 to using EPA Method 2,
part 60 of this as appropriate;
chapter;
iii. conduct gas (1) EPA Method 3, you may use EPA Method
analysis; and, 3A, or 3B in 3A or 3B as an
appendix A-2 to alternative to using
part 60 of this EPA Method 3; or,
chapter; or,
(2) ASME PTC you may use ASME PTC
19.10-1981--Part 19.10-1981--Part 10
10; and, (available for
purchase from Three
Park Avenue, New
York, NY 10016-5990)
as an alternative to
using EPA Method 3B.
iv. measure EPA Method 4 in
moisture content appendix A-3 to
of the stack part 60 of this
gas. chapter.2. the sum of all viscose a. each existing i. measure total (1) EPA Method 15 (a) you must conduct
process vents. or new viscose sulfide in appendix A-5 testing of emissions
process source. emissions. to part 60 of at the inlet and
this chapter; or outlet of each
control device;
(b) you must conduct
testing of emissions
from continuous
viscose process vents
and combinations of
batch and continuous
viscose process vents
at normal operating
conditions, as
specified in Sec.
Sec. 63.7(e)(1) and
63.5535;
(c) you must conduct
testing of emissions
from batch viscose
process vents as
specified in Sec.
63.490(c), except
that the emission
reductions required
for process vents
under this subpart
supersede the
emission reductions
required for process
vents under subpart U
of this part; and
(d) you must collect
CPMS data during the
period of the initial
compliance
demonstration and
determine the CPMS
operating limit
during the period of
the initial
compliance
demonstration; or
(2) carbon (a) you must measure
disulfide and/or emissions at the
hydrogen sulfide inlet and outlet of
CEMS, as each control device
applicable; using CEMS;
(b) you must install,
operate, and maintain
the CEMS according to
the applicable
performance
specification (PS-7,
PS-8, PS-9, or PS-15)
of 40 CFR part 60,
appendix B; and
(c) you must collect
CEMS emissions data
at the inlet and
outlet of each
control device during
the period of the
initial compliance
demonstration and
determine the CEMS
operating limit
during the period of
the initial
compliance
demonstration.3. the sum of all solvent a. each existing i. measure (1) EPA Method 18 (a) you must conduct
coating process vents. or new toluene in appendix A-6 testing of emissions
cellophane emissions. to part 60 of at the inlet and
operation. this chapter, or outlet of each
Method 320 in control device;
appendix A to
part 63, or
(b) you may use EPA
Method 18 or 320 to
determine the control
efficiency of any
control device for
organic compounds;
for a combustion
device, you must use
only HAP that are
present in the inlet
to the control device
to characterize the
percent reduction
across the combustion
device;
(c) you must conduct
testing of emissions
from continuous
solvent coating
process vents and
combinations of batch
and continuous
solvent coating
process vents at
normal operating
conditions, as
specified in Sec.
Sec. 63.7(e)(1) and
63.5535;
(d) you must conduct
testing of emissions
from batch solvent
coating process vents
as specified in Sec.
63.490(c), except
that the emission
reductions required
for process vents
under this subpart
supersede the
emission reductions
required for process
vents under subpart U
of this part; and
(e) you must collect
CPMS data during the
period of the initial
compliance
demonstration and
determine the CPMS
operating limit
during the initial
compliance
demonstration; or
(2) ASTM D6420-99 (a) you must conduct
testing of emissions
at the inlet and
outlet of each
control device;
(b) you may use ASTM
D6420-99 (available
for purchase from at
least one of the
following addresses:
100 Barr Harbor
Drive, West
Conshohocken, PA
19428-2959; or
University Microfilms
International, 300
North Zeeb Road, Ann
Arbor, MI 48106) as
an alternative to EPA
Method 18 only where:
the target
compound(s) are those
listed in Section 1.1
of ASTM D6420-99; and
the target
concentration is
between 150 parts per
billion by volume
(ppbv) and 100 ppmv;
for target
compound(s) not
listed in Section 1.1
of ASTM D6420-99, but
potentially detected
by mass spectrometry,
the additional system
continuing
calibration check
after each run, as
detailed in Section
10.5.3 of the ASTM
method, must be
followed, met,
documented, and
submitted with the
data report even if
there is no moisture
condenser used or the
compound is not
considered water
soluble; and for
target compound(s)
not listed in Section
1.1 of ASTM D6420-99
and not amenable to
detection by mass
spectrometry, ASTM
D6420-99 does not
apply;
(c) you must conduct
testing of emissions
from continuous
solvent coating
process vents and
combinations of batch
and continuous
solvent coating
process vents at
normal operating
conditions, as
specified in Sec.
Sec. 63.7(e)(1) and
63.5535;
(d) you must conduct
testing of emissions
from batch solvent
coating process vents
as specified in Sec.
63.490(c), except
that the emission
reductions required
for process vents
under this subpart
supersede the
emission reductions
required for process
vents under subpart U
of this part; and,
(e) you must collect
CPMS data during the
period of the initial
compliance
demonstration and
determine the CPMS
operating limit
during the period of
the initial
compliance
demonstration.4. the sum of all cellulose a. each existing i. measure total (1) EPA Method 18 (a) you must conduct
ether process vents. or new cellulose organic HAP in appendix A-6 testing of emissions
ether operation. emissions. to part 60 of at the inlet and
this chapter or outlet of each
Method 320 in control device;
appendix A to (b) you may use EPA
part 63, or Method 18 or 320 to
determine the control
efficiency of any
control device for
organic compounds;
for a combustion
device, you must use
only HAP that are
present in the inlet
to the control device
to characterize the
percent reduction
across the combustion
device;
(c) you must conduct
testing of emissions
from continuous
cellulose ether
process vents and
combinations of batch
and continuous
cellulose ether
process vents at
normal operating
conditions, as
specified in Sec.
Sec. 63.7(e)(1) and
63.5535;
(d) you must conduct
testing of emissions
from batch cellulose
ether process vents
as specified in Sec.
63.490(c), except
that the emission
reductions required
for process vents
under this subpart
supersede the
emission reductions
required for process
vents under subpart U
of this part; and
(e) you must collect
CPMS data during the
period of the initial
performance test and
determine the CPMS
operating limit
during the period of
the initial
performance test;
(2) ASTM D6420-99 (a) you must conduct
testing of emissions
at the inlet and
outlet of each
control device;
(b) you may use ASTM
D6420-99 (available
for purchase from at
least one of the
following addresses:
100 Barr Harbor
Drive, West
Conshohocken, PA
19428-2959; or
University Microfilms
International, 300
North Zeeb Road, Ann
Arbor, MI 48106) as
an alternative to EPA
Method 18 only where:
the target
compound(s) are those
listed in Section 1.1
of ASTM D6420-99; and
the target
concentration is
between 150 ppbv and
100 ppmv; for target
compound(s) not
listed in Section 1.1
of ASTM D6420-99, but
potentially detected
by mass spectrometry,
the additional system
continuing
calibration check
after each run, as
detailed in Section
10.5.3 of the ASTM
method, must be
followed, met,
documented, and
submitted with the
data report even if
there is no moisture
condenser used or the
compound is not
considered water
soluble; and for
target compound(s)
not listed in Section
1.1 of ASTM D6420-99
and not amenable to
detection by mass
spectrometry, ASTM
D6420-99 does not
apply; target
concentration is
between 150 ppbv and
100 ppmv for target
compound(s).
(c) you must conduct
testing of emissions
from continuous
cellulose ether
process vents and
combinations of batch
and continuous
cellulose ether
process vents at
normal operating
conditions, as
specified in Sec.
Sec. 63.7(e)(1) and
63.5535;
(d) you must conduct
testing of emissions
from batch cellulose
ether process vents
as specified in Sec.
63.490(c), except
that the emission
reductions required
for process vents
under this subpart
supersede the
emission reductions
required for process
vents under subpart U
of this part; and
(e) you must collect
CPMS data during the
period of the initial
performance test and
determine the CPMS
operating limit
during the period of
the initial
performance test.
(3) EPA Method 25 (a) you must conduct
in appendix A-7 testing of emissions
to part 60 of at the inlet and
this chapter; or outlet of each
control device;
(b) you may use EPA
Method 25 to
determine the control
efficiency of
combustion devices
for organic
compounds; you may
not use EPA Method 25
to determine the
control efficiency of
noncombustion control
devices;
(c) you must conduct
testing of emissions
from continuous
cellulose ether
process vents and
combinations of batch
and continuous
cellulose ether
process vents at
normal operating
conditions, as
specified in Sec.
Sec. 63.7(e)(1) and
63.5535;
(d) you must conduct
testing of emissions
from batch cellulose
ether process vents
as specified in Sec.
63.490(c), except
that the emission
reductions required
for process vents
under this subpart
supersede the
emission reductions
required for process
vents under subpart U
of this part; and
(e) you must collect
CPMS data during the
period of the initial
performance test and
determine the CPMS
operating limit
during the period of
the initial
performance test; or
(4) EPA Method (a) you must conduct
25A in appendix testing of emissions
A-7 to part 60 at the inlet and
of this chapter outlet of each
control device;
(b) you may use EPA
Method 25A if: an
exhaust gas volatile
organic matter
concentration of 50
ppmv or less is
required in order to
comply with the
emission limit; the
volatile organic
matter concentration
at the inlet to the
control device and
the required level of
control are such as
to result in exhaust
volatile organic
matter concentrations
of 50 ppmv or less;
or because of the
high control
efficiency of the
control device, the
anticipated volatile
organic matter
concentration at the
control device
exhaust is 50 ppmv or
less, regardless of
the inlet
concentration;
(c) you must conduct
testing of emissions
from continuous
cellulose ether
process vents and
combinations of batch
and continuous
cellulose ether
process vents at
normal operating
conditions, as
specified in Sec.
Sec. 63.7(e)(1) and
63.5535;
(d) you must conduct
testing of emissions
from batch cellulose
ether process vents
as specified in Sec.
63.490(c), except
that the emission
reductions required
for process vents
under this subpart
supersede the
emission reductions
required for process
vents under subpart U
of this part; and,
(e) you must collect
CPMS data during the
period of the initial
performance test and
determine the CPMS
operating limit
during the period of
the initial
performance test.5. each toluene storage vessel. a. each existing i. measure (1) EPA Method 18 (a) if venting to a
or new toluene in appendix A-6 control device to
cellophane emissions. to part 60 of reduce emissions, you
operation. this chapter or must conduct testing
Method 320 in of emissions at the
appendix A to inlet and outlet of
part 63; or each control device;
(b) you may use EPA
Method 18 or 320 to
determine the control
efficiency of any
control device for
organic compounds;
for a combustion
device, you must use
only HAP that are
present in the inlet
to the control device
to characterize the
percent reduction
across the combustion
device;
(c) you must conduct
testing of emissions
from continuous
storage vessel vents
and combinations of
batch and continuous
storage vessel vents
at normal operating
conditions, as
specified in Sec.
Sec. 63.7(e)(1) and
63.5535 for
continuous process
vents;
(d) you must conduct
testing of emissions
from batch storage
vessel vents as
specified in Sec.
63.490(c) for batch
process vents, except
that the emission
reductions required
for process vents
under this subpart
supersede the
emission reductions
required for process
vents under subpart U
of this part; and,
(e) you must collect
CPMS data during the
period of the initial
compliance
demonstration and
determine the CPMS
operating limit
during the period of
the initial
compliance
demonstration; or
(2) ASTM D6420-99 (a) if venting to a
control device to
reduce emissions, you
must conduct testing
of emissions at the
inlet and outlet of
each control device;
(b) you may use ASTM
D6420-99 (available
for purchase from at
least one of the
following addresses:
100 Barr Harbor
Drive, West
Conshohocken, PA
19428-2959; or
University Microfilms
International, 300
North Zeeb Road, Ann
Arbor, MI 48106) as
an alternative to EPA
Method 18 only where:
the target
compound(s) are those
listed in Section 1.1
of ASTM D6420-99, and
the target
concentration is
between 150 ppbv and
100 ppmv; for target
compound(s) not
listed in Section 1.1
of ASTM D6420-99, but
potentially detected
by mass spectrometry,
the additional system
continuing
calibration check
after each run, as
detailed in Section
10.5.3 of the ASTM
method, must be
followed, met,
documented, and
submitted with the
data report even if
there is no moisture
condenser used or the
compound is not
considered water
soluble; and for
target compound(s)
not listed in Section
1.1 of ASTM D6420-99
and not amenable to
detection by mass
spectrometry, ASTM
D6420-99 does not
apply;
(c) you must conduct
testing of emissions
from continuous
storage vessel vents
and combinations of
batch and continuous
storage vessel vents
at normal operating
conditions, as
specified in Sec.
Sec. 63.7(e)(1) and
63.5535 for
continuous process
vents;
(d) you must conduct
testing of emissions
from batch storage
vessel vents as
specified in Sec.
63.490(c) for batch
process vents, except
that the emission
reductions required
for process vents
under this subpart
supersede the
emission reductions
required for process
vents under subpart U
of this part; and,
(e) you must collect
CPMS data during the
period of the initial
compliance
demonstration and
determine the CPMS
operating limit
during the period of
the initial
compliance
demonstration.6. the sum of all process vents a. each existing i. measure (1) EPA Method 22 (a) you must conduct
controlled using a flare. or new affected visible in appendix A-7 the flare visible
source. emissions. to part 60 of emissions test
this chapter. according to Sec.
63.11(b).7. equipment leaks............. a. each existing i. measure leak (1) applicable (a) you must follow
or new cellulose rate. equipment leak all requirements for
ether operation. test methods in the applicable
Sec. 63.180; equipment leak test
or methods in Sec.
63.180; or
(2) applicable (a) you must follow
equipment leak all requirements for
test methods in the applicable
Sec. 63.1023 equipment leak test
methods in Sec.
63.1023.8. all sources of wastewater a. each existing i. measure (1) applicable (a) You must follow
emissions. or new cellulose wastewater HAP wastewater test all requirements for
ether operation. emissions. methods and the applicable
procedures in wastewater test
Sec. Sec. methods and
63.144 and procedures in Sec.
63.145; or Sec. 63.144 and
63.145; or
(2) applicable (a) you must follow
wastewater test all requirements for
methods and the applicable waste
procedures in water test methods
Sec. Sec. and procedures in
63.144 and Sec. Sec. 63.144
63.145, using and 63.145, except
ASTM D5790-95 as that you may use ASTM
an alternative D5790-95 (available
to EPA Method for purchase from at
624 in appendix least one of the
A to part 163 of following addresses:
this chapter. 100 Barr Harbor
Drive, West
Conshohocken, PA
19428-2959; or
University Microfilms
International, 300
North Zeeb Road, Ann
Arbor, MI 48106) as
an alternative to EPA
Method 624, under the
condition that this
ASTM method be used
with the sampling
procedures of EPA
Method 25D or an
equivalent method.9. any emission point.......... a. each existing i. conduct a CEMS (1) applicable (a) you must conduct
or new affected performance requirements in the CEMS performance
source using a evaluation. Sec. 63.8 and evaluation during the
CEMS to applicable period of the initial
demonstrate performance compliance
compliance. specification demonstration
(PS-7, PS-8, PS- according to the
9, or PS-15) in applicable
appendix B to requirements in Sec.
part 60 of this 63.8 and the
chapter. applicable
performance
specification (PS-7,
PS-8, PS-9, or PS-15)
of 40 CFR part 60,
appendix B;
(b) you must install,
operate, and maintain
the CEMS according to
the applicable
performance
specification (PS-7,
PS-8, PS-9, or PS-15)
of 40 CFR part 60,
appendix B; and
(c) you must collect
CEMS emissions data
at the inlet and
outlet of each
control device during
the period of the
initial compliance
demonstration and
determine the CEMS
operating limit
during the period of
the initial
compliance
demonstration.---------------------------------------------------------------------------------------------------------------- [79 FR 11284, Feb. 27, 2014]
Sec. Table 5 to Subpart UUUU of Part 63--Continuous Compliance With
Emission Limits and Work Practice Standards
As required in Sec. 63.5555(a), you must demonstrate continuous compliance with the appropriate emission limits and work practice standards according to the requirements in the following table: ----------------------------------------------------------------------------------------------------------------
for the following emission you must demonstrate
For . . . at . . . limit or work practice continuous compliance by
standard . . . . . .----------------------------------------------------------------------------------------------------------------1. the sum of all viscose process a. each existing or i. reduce total (1) maintaining a
vents. new viscose process uncontrolled sulfide material balance that
affected source. emissions (reported as includes the pertinent
carbon disulfide) by at data used to determine
least the specified the percent reduction of
percentage based on a 6- total sulfide emissions;
month rolling average; (2) documenting the
ii. for each vent stream percent reduction of
that you control using a total sulfide emissions
control device (except using the pertinent data
for retractable hoods from the material
over sulfuric acid baths balance; and
at a cellophane (3) complying with the
operation), route the continuous compliance
vent stream through a requirements for closed-
closed-vent system to the vent systems.
control device; and.
iii. comply with the work
practice standard for
closed-vent systems
(except for retractable
hoods over sulfuric acid
baths at a cellophane
operation).
2. the sum of all solvent coating a. each existing or i. reduce uncontrolled (1) maintaining a
process vents. new cellophane toluene emissions by at material balance that
operation. least 95% based on a 6- includes the pertinent
month rolling average; data used to determine
ii. for each vent stream the percent reduction of
that you control using a toluene emissions;
control device, route the (2) documenting the
vent stream through a percent reduction of
closed-vent system to the toluene emissions using
control device; and. the pertinent data from
iii. comply with the work the material balance;
practice standard for and
closed-vent systems. (3) complying with the
continuous compliance
requirements for closed-
vent systems.3. the sum of all cellulose ether a. each existing or i. reduce total (1) complying with the
process vents. new cellulose ether uncontrolled organic HAP continuous compliance
operation using a emissions by at least requirements for closed-
performance test to 99%; vent systems; or
demonstrate initial ii. for each vent stream (2) if using extended
compliance; or. that you control using a cookout to comply,
control device, route the monitoring reactor
vent stream through a charges and keeping
closed-vent system to the records to show that
control device; and,. extended cookout was
iii. comply with the work employed.
practice standard for
closed-vent systems; or.
b. each existing or i. reduce total (1) maintaining a
new cellulose ether uncontrolled organic HAP material balance that
operation using a emissions by at least 99% includes the pertinent
material balance based on a 6-month data used to determine
compliance rolling average;. the percent reduction of
demonstration to ii. for each vent stream total organic HAP
demonstrate initial that you control using a emissions;
compliance control device, route the (2) documenting the
vent stream through a percent reduction of
closed-vent system to total organic HAP
control device; and. emissions using the
iii. comply with the work pertinent data from the
practice standard for material balance;
closed-vent systems. (3) if using extended
cookout to comply,
monitoring reactor
charges and keeping
records to show that
extended cookout was
employed;
(4) complying with the
continuous compliance
requirements for closed-
vent systems.4. closed-loop systems............ each existing or new operate and maintain a keeping a record
cellulose either closed-loop system. certifying that a closed-
operation. loop system is in use
for cellulose ether
operations.5. each carbon disulfide unloading a. each existingor i. reduce uncontrolled (1) keeping a record
and storage operation. new viscose process carbon disulfide documenting the 83%
affected source. emissions by at least 83% reduction in carbon
based on a 6-month disulfide emissions; and
rolling average if you (2) if venting to a
use an alternative control device to reduce
control technique not emissions, complying
listed in this table for with the continuous
carbon disulfide compliance requirements
unloading and stroage for closed-vent systems;
operations; if using a
control device to reduce
emissions, route
emissions through a
closed-vent system to the
control device; and
comply with the work
practice standard for
closed-vent systems;
ii. reduce total (1) maintaining a
uncontrolled sulfide material balance that
emissions by at least includes the pertinent
0.14% from viscose data used to determine
process vents based on a the percent reduction of
6-month rolling average; total sulfide emissions;
for each vent stream that (2) documenting the
you control using a percent reduction of
control device, route the total sulfide emissions
vent stream through a using the pertinent data
closed-vent system to the from the material
control device; and balance; and (3)
comply with the work complying with the
practice standard for continuous compliance
closed-vent systems; requirements for closed-
vent systems;
iii. install a nitrogen Keeping a record
unloading and storage certifying that a
system; or nitrogen unloading and
storage system is in
use; or
iv. install a nitrogen (1) keeping a record
unloading system; reduce certifying that a
total uncontrolled nitrogen unloading
sulfide emissions by at system is in use; (2)
least 0.045% from viscose maintaining a material
process vents based on a balance that includes
6-month rolling average; the pertinent data used
for each vent stream that to determine the percent
you control using a reduction of total
control device, route the sulfide emissions; (3)
vent stream through a documenting the percent
closed-vent system to the reduction of total
control device; and sulfide emissions using
comply with the work the pertinent data from
practice standard for the material balance;
closed-vent systems and (4) complying with
the continuous
compliance requirements
for closed-vent systems.6. each toluene storage vessel.... a. each existing or i. reduce uncontrolled (1) maintaining a
new cellophane toluene emissions by at material balance that
operation. least 95% based on a 6- includes the pertinent
month rolling average; data used to determine
ii. if using a control the percent reduction of
device to reduce toluene emissions;
emissions, route the (2) documenting the
emissions through a percent reduction of
closed-vent system to the toluene emissions using
control device; and. the pertinent data from
iii. comply with the work the material balance;
practice standard for and
closed-vent systems. (3) if venting to a
control device to reduce
emissions, complying
with the continuous
compliance requirements
for closed-vent systems.7. equipment leaks................ a. each existing or i. applicable equipment complying with the
new cellulose ether leak standards of Sec. applicable equipment
operation. Sec. 63.162 through leak continuous
63.179; or compliance provisions of
ii. applicable equipment Sec. Sec. 63.162
leak standards of Sec. through 63.179; or
Sec. 63.1021 through complying with the
63.1037. applicable equipment
leak continuous
compliance provisions of
Sec. Sec. 63.1021
through 63.1037.8. all sources of wastewater each existing or new applicable wastewater complying with the
emissions. cellulose either provisions of Sec. applicable wastewater
operation. 63.105 and Sec. Sec. continuous compliance
63.132 through 63.140. provisions of Sec. Sec.
63.105, 63.143, and
63.148.9. liquid streams in open systems. each existing or new comply with the applicable conducting inspections,
cellulose ether provisions of Sec. repairing failures,
operation. 63.149, except that documenting delay of
references to ``chemical repair, and maintaining
manufacturing process records of failures and
unit'' mean ``cellulose corrective actions
ether process unit'' for according to Sec. Sec.
the purposes of this 63.133 through 63.137.
subpart.10. closed-vent system used to each existing or new conduct annual conducting the
route emissions to a control affected source. inspections, repair inspections, repairing
device. leaks, maintain records leaks, and maintaining
as specified in Sec. records according to
(1) taking readings from
a bypass line that could divert a new affected source. maintain, and operate a the flow indicator at
vent stream away from a control flow indicator as least once every 15
device, except for equipment specified in Sec. minutes;
needed for safety purposes 63.148(f)(1); or (2) maintaining hourly
(described in Sec. 63.148(f)(3). records of flow
indicator operation and
detection of any
diversion during the
hour, and
(3) recording all periods
when the vent stream is
diverted from the
control stream or the
flow indicator is not
operating; or
ii. secure the bypass line (1) maintaining a record
valve in the closed of the monthly visual
position with a car-seal inspection of the seal
or lock-and-key type or closure mechanism for
configuration and inspect the bypass line; and
the seal or mechanism at (2) recording all periods
least once per month as when the seal mechanism
specified in Sec. is broken, the bypass
63.148(f)(2). line valve position has
changed, or the key for
a lock-and-key type lock
has been checked out.
12. heat exchanger system that a. each existing or i. monitor and repair the (1) monitoring for HAP
cools process equipment or new affected source. heat exchanger system compounds, other
materials in the process unit. according to Sec. substances, or surrogate
63.104(a) through (e), indicators at the
except that references to frequency specified in
``chemical manufacturing Sec. 63.104(b) or (c);
process unit'' mean (2) repairing leaks
``cellulose food casing, within the time period
rayon, cellulosic sponge, specified in Sec.
cellophane, or cellulose 63.104(d)(1);
ether process unit'' for (3) confirming that the
the purposes of this repair is successful as
subpart. specified in Sec.
63.104(d)(2);
(4) following the
procedures in Sec.
63.104(e) if you
implement delay of
repair; and
(5) recording the results
of inspections and
repair according to Sec.
63.104(f)(1).---------------------------------------------------------------------------------------------------------------- [67 FR 40055, June 11, 2002, as amended at 70 FR 46698, Aug. 10, 2005]
Sec. Table 6 to Subpart UUUU of Part 63--Continuous Compliance With
Operating Limits
As required in Sec. 63.5555(a), you must demonstrate continuous compliance with the appropriate operating limits according to the requirements in the following table: ------------------------------------------------------------------------
for the following you must demonstrate
For the following control operating limit . . continuous
technique . . . . compliance by . . .------------------------------------------------------------------------1. condenser................ maintain the daily collecting the
average condenser condenser outlet
outlet gas or gas or condensed
condensed liquid liquid temperature
temperature no data according to
higher than the Sec. 63.5545;
value established reducing the
during the condenser outlet
compliance gas temperature
demonstration. data to daily
averages; and
maintaining the
daily average
condenser outlet
gas or condensed
liquid temperature
no higher than the
value established
during the
compliance
demonstration.2. thermal oxidizer......... maintain the daily collecting the
average thermal thermal oxidizer
oxidizer firebox firebox temperature
temperature no data according to
lower than the Sec. 63.5545;
value established reducing the
during the thermal oxidizer
compliance firebox temperature
demonstration. data to daily
averages; and
maintaining the
daily average
thermal oxidizer
firebox temperature
no lower than the
value established
during the
compliance
demonstration.3. water scrubber........... maintain the daily collecting the
average scrubber scrubber pressure
pressure drop and drop and scrubber
scrubber liquid liquid flow rate
flow rate within data according to
the range of values Sec. 63.5545;
established during reducing the
the compliance scrubber parameter
demonstration. data to daily
averages; and
maintaining the
daily scrubber
parameter values
within the range of
values established
during the
compliance
demonstration.4. caustic scrubber......... maintain the daily collecting the
average scrubber scrubber pressure
pressure drop, drop, scrubber
scrubber liquid liquid flow rate,
flow rate, and and scrubber liquid
scrubber liquid pH, pH, conductivity,
conductivity, or or alkalinity data
alkalinity within according to Sec.
the range of values 63.5545; reducing
established during the scrubber
the compliance parameter data to
demonstration. daily averages; and
maintaining the
daily scrubber
parameter values
within the range of
values established
during the
compliance
demonstration.5. flare.................... maintain the collecting the pilot
presence of a pilot flame data
flame. according to Sec.
63.5545; and
maintaining the
presence of the
pilot flame.6. biofilter................ maintain the daily collecting the
average biofilter biofilter inlet gas
inlet gas temperature,
temperature, biofilter effluent
biofilter effluent pH, and biofilter
pH, and pressure pressure drop data
drop within the according to Sec.
values established 63.5545; reducing
during the the biofilter
compliance parameter data to
demonstration. daily averages; and
maintaining the
daily biofilter
parameter values
within the values
established during
the compliance
demonstration.
7. carbon absorber.......... maintain the collecting the data
regeneration on regeneration
frequency, total frequency, total
regeneration stream regeneration stream
mass or volumetric mass or volumetric
flow during carbon flow during carbon
bed regeneration bed regeneration
and temperature of and temperature of
the carbon bed the carbon bed
after regeneration after regeneration
(and within 15 (and within 15
minutes of minutes of
completing any completing any
cooling cycle(s)) cooling cycle(s))
for each for each
regeneration cycle regeneration cycle
within the values according to Sec.
established during 63.5545; and
the compliance maintaining carbon
demonstration. absorber parameter
values for each
regeneration cycle
within the values
established during
the compliance
demonstration.8. oil absorber............. maintain the daily collecting the
average absorption absorption liquid
liquid flow, flow, absorption
absorption liquid liquid temperature,
temperature, and and steam flow data
steam flow within according to Sec.
the values 63.5545; reducing
established during the oil absorber
the compliance parameter data to
demonstration. daily averages; and
maintaining the
daily oil absorber
parameter values
within the values
established during
the compliance
demonstration.9. any of the control if using a CEMS, collecting CEMS
techniques specified in maintain the daily emissions data at
this table. average control the inlet and
efficiency for each outlet of each
control device no control device
lower than the according to Sec.
value established 63.5545;
during the determining the
compliance control efficiency
demonstration. values for each
control device
using the inlet and
outlet CEMS
emissions data;
reducing the
control efficiency
values for each
control device to
daily averages; and
maintaining the
daily average
control efficiency
for each control
device no lower
than the value
established during
the compliance
demonstration.------------------------------------------------------------------------ [67 FR 40055, June 11, 2002, as amended at 70 FR 46699, Aug. 10, 2005]
Sec. Table 7 to Subpart UUUU of Part 63--Notifications
As required in Sec. Sec. 63.5490(c)(4), 63.5530(c), 63.5575, and 63.5595(b), you must submit the appropriate notifications specified in the following table: ------------------------------------------------------------------------
If you . . . then you must . . .------------------------------------------------------------------------1. are required to conduct a submit a notification of intent
performance test. to conduct a performance test
at least 60 calendar days
before the performance test is
scheduled to begin, as
specified in Sec. Sec.
63.7(b)(1) and 63.9(e).2. wish to use an alternative submit a request to use
monitoring method. alternative monitoring method
no later than the notification
of the initial performance
test or CEMS performance
evaluation or 60 days prior to
any other initial compliance
demonstration, as specified in
Sec. 63.8(f)(4).3. start up your affected source before submit an initial notification
June 11, 2002. no later than 120 days after
June 11, 2002, as specified in
Sec. 63.9(b)(2).4. start up your new or reconstructed submit an initial notification
source on or after June 11, 2002. no later than 120 days after
you become subject to this
subpart, as specified in Sec.
63.9(b)(3).5. cannot comply with the relevant submit a request for extension
standard by the applicable compliance of compliance no later than
date. 120 days before the compliance
date, as specified in Sec.
Sec. 63.9(c) and 63.6(i)(4).6. are subject to special requirements notify the Administrator of
as specified in Sec. 63.6(b)(3) and your compliance obligations no
(4). later than the initial
notification dates established
in Sec. 63.9(b) for new
sources not subject to the
special provisions, as
specified in Sec. 63.9(d).7. are required to conduct visible notify the Administrator of the
emission observations to determine the anticipated date for
compliance of flares as specified in conducting the observations
Sec. 63.11(b)(4). specified in Sec.
63.6(h)(5), as specified in
Sec. Sec. 63.6(h)(4) and
63.9(f).8. are required to conduct a a. submit a Notification of
performance test or other initial Compliance Status Report, as
compliance demonstration as specified specified in Sec. 63.9(h);
in Table 3 to this subpart. and b. submit the Notification
of Compliance Status Report,
including the performance
test, CEMS performance
evaluation, and any other
initial compliance
demonstration results within
240 calendar days following
the compliance date specified
in Sec. 63.5495.
9. comply with the equipment leak comply with the notification
requirements of subpart H of this part requirements specified in Sec.
for existing or new cellulose ether 63.182(a)(1) and (2), (b),
affected sources. and (c)(1) through (3) for
equipment leaks, with the
Notification of Compliance
Status Reports required in
subpart H included in the
Notification of Compliance
Status Report required in this
subpart.10. comply with the equipment leak comply with the notification
requirements of subpart UU of this requirements specified in Sec.
part for existing or new cellulose 63.1039(a) for equipment
ether affected sources. leaks, with the Notification
Compliance Status Reports
required in subpart UU of this
part included in the
Notification of Compliance
Status Report required in this
subpart.11. comply with the wastewater comply with the notification
requirements of subparts F and G of requirements specified in Sec.
this part for existing or new Sec. 63.146(a) and (b),
cellulose ether affected sources. 63.151, and 63.152(a)(1)
through (3) and (b)(1) through
(5) for wastewater, with the
Notification of Compliance
Status Reports required in
subpart G of this part
included in the Notification
of Compliance Status Report
required in this subpart.------------------------------------------------------------------------
Sec. Table 8 to Subpart UUUU of Part 63--Reporting Requirements
As required in Sec. 63.5580, you must submit the appropriate reports specified in the following table: ------------------------------------------------------------------------
You must submit a compliance report, which must and you must submit
contain the following information . . . the report . . .------------------------------------------------------------------------1. if there are no deviations from any emission semiannually as
limit, operating limit, or work practice specified in Sec.
standard during the reporting period, then the 63.5580(b).
report must contain the information specified
in Sec. 63.5580(c);2. if there were no periods during which the CMS
was out-of-control, then the report must
contain a statement that there were no periods
during which the CMS was out-of-control during
the reporting period; you must develop and
include specifications for out-of-control
operation in the CMS quality control plan
required under Sec. 63.8(d)(2);3. if there is a deviation from any emission
limit, operating limit, or work practice
standard during the reporting period, then the
report must contain the information specified
in Sec. 63.5580(c) and (d);4. if there were periods during which the CMS
was out-of-control, then the report must
contain the information specified in Sec.
63.5580(e);5. if you had a startup, shutdown, or
malfunction during the reporting period and you
took actions consistent with your SSM plan,
then the report must contain the information
specified in Sec. 63.10(d)(5)(i);6. if you had a startup, shutdown, or
malfunction during the reporting period and you
took actions that are not consistent with your
SSM plan, then the report must contain the
information specified in Sec.
63.10(d)(5)(ii);7. the report must contain any change in
information already provided, as specified in
Sec. 63.9(j);8. for cellulose ether affected sources
complying with the equipment leak requirements
of subpart H of this part, the report must
contain the information specified in Sec.
63.182(a)(3) and (6) and (d)(2) through (4);9. for cellulose ether affected sources
complying with the equipment leak requirements
of subpart UU of this part, the report must
contain the information specified in Sec.
63.1039(b);10. for cellulose ether affected sources
complying with the wastewater requirements of
subparts F and G of this part, the report must
contain the information specified in Sec. Sec.
63.146(c) through (e) and 63.152(a)(4) and
(5) and (c) through (e);11. for affected sources complying with the
closed-vent system provisions in Sec. 63.148,
the report must contain the information
specified in Sec. 63.148(j)(1);12. for affected sources complying with the
bypass line provisions in Sec. 63.148(f), the
report must contain the information specified
in Sec. 63.148(j)(2) and (3);13. for affected sources invoking the delay of
repair provisions in Sec. 63.104(e) for heat
exchanger systems, the next compliance report
must contain the information in Sec.
63.104(f)(2)(i) through (iv); if the leak
remains unrepaired, the information must also
be submitted in each subsequent compliance
report until the repair of the leak is
reported; and14. for storage vessels subject to the emission
limits and work practice standards in Table 1
to Subpart UUUU, the report must contain the
periods of planned routine maintenance during
which the control device does not comply with
the emission limits or work practice standards
in Table 1 to this subpart------------------------------------------------------------------------
Sec. Table 9 to Subpart UUUU of Part 63--Recordkeeping Requirements
As required in Sec. 63.5585, you must keep the appropriate records specified in the following table: ----------------------------------------------------------------------------------------------------------------
If you operate . . . then you must keep . . . and the record(s) must contain . . .----------------------------------------------------------------------------------------------------------------1. an existing or new affected source.... a copy of each notification all documentation supporting any Initial
and report that you Notification or Notification of
submitted to comply with Compliance Status Report that you
this subpart. submitted, according to the
requirements in Sec.
63.10(b)(2)(xiv), and any compliance
report required under this subpart.2. an existing or new affected source.... a. the records in Sec. i. SSM plan;
63.6(e)(3)(iii) through ii. when actions taken during a startup,
(iv) related to startup, shutdown, or malfunction are consistent
shutdown, and malfunction. with the procedures specified in the
SSM plan, records demonstrating that
the procedures specified in the plan
were followed;
iii. records of the occurrence and
duration of each startup, shutdown, or
malfunction; and
iv. when actions taken during a startup,
shutdown, or malfunction are not
consistent with the procedures
specified in the SSM plan, records of
the actions taken for that event.3. an existing or new affected source.... a. a site-specific i. information regarding the
monitoring plan. installation of the CMS sampling source
probe or other interface at a
measurement location relative to each
affected process unit such that the
measurement is representative of
control of the exhaust emissions (e.g.,
on or downstream of the last control
device);
ii. performance and equipment
specifications for the sample
interface, the pollutant concentration
or parametric signal analyzer, and the
data collection and reduction system;
iii. performance evaluation procedures
and acceptance criteria (e.g.,
calibrations);
iv. ongoing operation and maintenance
procedures in accordance with the
general requirements of Sec. Sec.
63.8(c)(1), (3), and (4)(ii) and
63.5580(c)(6);
v. ongoing data quality assurance
procedures in accordance with the
general requirements of Sec.
63.8(d)(2); and
vi. ongoing recordkeeping and reporting
procedures in accordance with the
general requirements of Sec. Sec.
63.10(c), (e)(1), and (e)(2)(i) and
63.5585.4. an existing or new affected source.... records of performance all results of performance tests, CEMS
tests and CEMS performance performance evaluations, and any other
evaluations, as required initial compliance demonstrations,
in Sec. including analysis of samples,
63.10(b)(2)(viii) and any determination of emissions, and raw
other initial compliance data.
demonstrations.5. an existing or new affected source.... a. records for each CEMS... i. records described in Sec.
63.10(b)(2)(vi) through (xi);
ii. previous (superseded) versions of
the performance evaluation plan as
required in Sec. 63.8(d)(3);
iii. request for alternatives to
relative accuracy test for CEMS as
required in Sec. 63.8(f)(6)(i);
iv. records of the date and time that
each deviation started and stopped, and
whether the deviation occurred during a
period of startup, shutdown, or
malfunction or during another period;
and
v. records required in Table 6 to
Subpart UUUU to show continuous
compliance with the operating limit.6. an existing or new affected source.... a. records for each CPMS... i. records required in Table 6 to
Subpart UUUU to show continuous
compliance with each operating limit
that applies to you; and
ii. results of each CPMS calibration,
validation check, and inspection
required by Sec. 63.5545(b)(4).7. an existing or new cellulose ether records of closed-loop records certifying that a closed-loop
affected ether source. systems. system is in use for cellulose ether
operations.8. an existing or new viscose process records of nitrogen records certifying that a nitrogen
affected source. unloading and storage unloading and storage system or
systems or nitrogen nitrogen unloading system is in use.
unloading systems.9. an existing or new viscose process records of material all pertinent data from the material
affected source. balances. balances used to estimate the 6-month
rolling average percent reduction in
HAP emissions.10. an existing or new viscose process records of calculations.... documenting the percent reduction in HAP
affected source. emissions using pertinent data from the
material balances.11. an existing or new cellulose ether a. extended cookout records i. the amount of HAP charged to the
affected source. reactor;
ii. the grade of product produced;
iii. the calculated amount of HAP
remaining before extended cookout; and
iv. information showing that extended
cookout was employed.12. an existing or new cellulose ether a. equipment leak records.. i. the records specified in Sec.
affected source. 63.181 for equipment leaks; or
ii. the records specified in 63.1038 for
equipment leaks.13. an existing or new cellulose ether wastewater records......... the records specified in Sec. Sec.
affected source. 63.105, 63.147, and 63.152(f) and (g)
for wastewater.
14. an existing or new affected source... closed-vent system records. the records specified in Sec.
63.148(i).15. an existing or new affected source... a. bypass line records..... i. hourly records of flow indicator
operation and detection of any
diversion during the hour and records
of all periods when the vent stream is
diverted from the control stream or the
flow indicator is not operating; or
ii. the records of the monthly visual
inspection of the seal or closure
mechanism and of all periods when the
seal mechanism is broken, the bypass
line valve position has changed, or the
key for a lock-and-key type lock has
been checked out and records of any car-
seal that has broken.16. an existing or new affected source... heat exchanger system records of the results of inspections
records. and repair according to source Sec.
63.104(f)(1).17. an existing or new affected source... control device maintenance records of planned routine maintenance
records. for control devices used to comply with
the percent reduction emission limit
for storage vessels in Table 1 to
Subpart UUUU.18. an existing or new affected source... safety device records...... a record of each time a safety device is
opened to avoid unsafe conditions
according to Sec. 63.5505(d).----------------------------------------------------------------------------------------------------------------
Sec. Table 10 to Subpart UUUU of Part 63--Applicability of General
Provisions to Subpart UUUU
As required in Sec. Sec. 63.5515(h) and 63.5600, you must comply with the appropriate General Provisions requirements specified in the following table: ----------------------------------------------------------------------------------------------------------------
Citation Subject Brief description Applies to Subpart UUUU----------------------------------------------------------------------------------------------------------------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 Abbreviations Units and abbreviations Yes.
for part 63 standards.Sec. 63.4.......................... Prohibited Activities.. Prohibited activities; Yes.
compliance date;
circumvention,
severability.Sec. 63.5.......................... Construction and Applicability; Yes.
Reconstruction. applications;
approvals.Sec. 63.6(a)....................... Applicability.......... General provisions Yes.
apply unless
compliance extension;
general provisions
apply to area sources
that become major.Sec. 63.6(b)(1) through(4)......... Compliance Dates for Standards apply at Yes.
New and Reconstructed effective date; 3
sources. years after effective
date; upon startup; 10
years after
construction or
reconstruction
commences for CAA
section 112(f).Sec. 63.6(b)(5).................... Notification........... Must notify if Yes.
commenced construction
or reconstruction
after proposal.Sec. 63.6(b)(6).................... [Reserved].............Sec. 63.6(b)(7).................... Compliance Dates for Area sources that Yes.
New and Reconstructed become major must
Area Sources That comply with major
Become Major. source and standards
immediately upon
becoming major,
regardless of whether
required to comply
when they were an area
source.Sec. 63.6(c)(1) and (2)............ Compliance Dates for Comply according to Yes, except that
Existing Sources. date in subpart, which existing rayon
must be no later than operations are given 8
3 years after years to comply with
effective date; for 40% reduction emission
CAA section 112(f) limit, as specified in
standards, comply Sec.
within 90 days of 63.5495(b)(2)(iii).
effective date unless
compliance extension.Sec. 63.6(c)(3) and (4)............ [Reserved].............
Sec. 63.6(c)(5).................... Compliance Dates for Area sources that Yes.
Existing Area Sources become major must
That Become Major. comply with major
source standards by
date indicated in
subpart or by
equivalent time period
(e.g., 3 years).Sec. 63.6(d)....................... [Reserved].............Sec. 63.6(e)(1) and (2)............ Operation and Operate to minimize Yes.
Maintenance. emissions at all
times; correct
malfunctions as soon
as practicable;
operation and
maintenance
requirements
independently
enforceable;
information
Administrator will use
to determine if
operation and
maintenance
requirements were met.Sec. 63.6(e)(3).................... Startup, Shutdown, and Requirement for Yes.
Malfunction Plan. startup, shutdown, and
malfunction and SSM
plan; content of SSM
plan.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) and (3)............ Methods for Determining Compliance based on Yes.
Compliance. performance test,
operation and
maintenance plans,
records, inspection.Sec. 63.6(g)(1) through (3)........ Alternative Standard... Procedures for getting Yes.
an alternative
standard.Sec. 63.6(h)....................... Opacity and Visible Requirements for Yes, but only for
Emission (VE) opacity and visible flares for which EPA
Standards. emission limits. Method 22 observations
are required under
Sec. 63.11(b).Sec. 63.6(i)(1) through (14)....... Compliance Extension... Procedures and criteria Yes.
for Administrator to
grant compliance
extension.Sec. 63.6(j)....................... Presidential Compliance President may exempt Yes.
Exemption. source category from
requirement to comply
with subpart.Sec. 63.7(a)(1) and (2)............ Performance Test Dates. Dates for conducting Yes.
initial performance
test; testing and
other compliance
demonstrations; must
conduct 180 days after
first subject to
subpart.Sec. 63.7(a)(3).................... Section 114 Authority.. Administrator may Yes.
require a performance
test under CAA Section
114 at any time.Sec. 63.7(b)(1).................... Notification of Must notify Yes.
Performance Test. Administrator 60 days
before the test.Sec. 63.7(b)(2).................... Notification of If rescheduling a Yes.
Rescheduling. performance test is
necessary, must notify
Administrator 5 days
before scheduled date
of rescheduled test.Sec. 63.7(c)....................... Quality Assurance and Requirement to submit No.
Test Plan. site-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 Yes.
testing facilities.Sec. 63.7(e)(1).................... Conditions for Performance tests must Yes, except that
Conducting Performance be conducted under performance tests for
Tests. representative batch process vents
conditions; cannot must be conducted
conduct performance under other
tests during SSM; not conditions, as
a violation to exceed specified in Table 4
standard during SSM. to this subpart.Sec. 63.7(e)(2).................... Conditions for Must conduct according Yes.
Conducting Performance to this subpart and
Tests. EPA test methods
unless Administrator
approves alternative.
Sec. 63.7(e)(3).................... Test Run Duration...... Must have three test Yes.
runs of at least 1
hour each; compliance
is based on arithmetic
mean of three runs;
conditions when data
from an additional
test run can be used.Sec. 63.7(f)....................... Alternative Test Method Procedures by which Yes.
Administrator can
grant approval to use
an alternative test
method.Sec. 63.7(g)....................... Performance Test Data Must include raw data Yes.
Analysis. in performance test
report; must submit
performance test data
60 days after end of
test with the
Notification of
Compliance Status
Report; keep data for
5 years.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 Yes.
Monitoring monitoring
Requirements. requirements in
standard.Sec. 63.8(a)(2).................... Performance Performance Yes.
Specifications. specifications in
Appendix B of 40 CFR
part 60 apply.Sec. 63.8(a)(3).................... [Reserved].............Sec. 63.8(a)(4).................... Monitoring with Flares. Unless your subpart Yes.
says otherwise, the
requirements for
flares in Sec. 63.11
apply.Sec. 63.8(b)(1).................... Monitoring............. Must conduct monitoring Yes.
according to standard
unless Administrator
approves alternative.Sec. 63.8(b)(2) and (3)............ Multiple Effluents and Specific requirements Yes.
Multiple Monitoring for installing
Systems. monitoring systems;
must install on each
effluent before it is
combined and before it
is released to the
atmosphere unless
Administrator approves
otherwise; 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 Yes.
Operation and system in a manner
Maintenance. consistent with good
air pollution control
practices.Sec. 63.8(c)(1)(i)................. Routine and Predictable Keep parts for routine Yes.
SSM. repairs readily
available; reporting
requirements for SSM
when action is
described in SSM plan.Sec. 63.8(c)(1)(ii)................ SSM Not in SSM plan.... Reporting requirements Yes.
for SSM when action is
not described in SSM
plan.Sec. 63.8(c)(1)(iii)............... Compliance with How Administrator Yes.
Operation and determines if source
Maintenance complying with
Requirements. operation and
maintenance
requirements; review
of source operation
and maintenance
procedures, records;
manufacturer's
instructions,
recommendations;
inspection.Sec. 63.8(c)(2) and (3)............ Monitoring System Must install to get Yes.
Installation. representative
emission of parameter
measurements; must
verify operational
status before or at
performance test.Sec. 63.8(c)(4).................... Continuous Monitoring CMS must be operating No. Replaced with
System (CMS) except during language in Sec.
Requirements. breakdown, out-of 63.5560.
control, repair,
maintenance, and high-
level calibration
drifts.
Sec. 63.8(c)(4)(i) and (ii)........ Continuous Monitoring Continuous opacity Yes, except that Sec.
System (CMS) monitoring systems 63.8(c)(4)(i) does not
Requirements. (COMS) must have a apply because subpart
minimum of one cycle UUUU does not require
of sampling and COMS.
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 Procedures COMS minimum procedures No. Subpart UUUU does
not require COMS.Sec. 63.8(c)(6).................... CMS Requirements....... Zero and high level No. Replaced with
calibration check language in Sec.
requirements; out-of- 63.5545.
control periods.Sec. 63.8(c)(7) and (8)............ CMS Requirements....... Out-of-control periods, No. Replaced with
including reporting. language in Sec.
63.5580(c)(6).Sec. 63.8(d)....................... CMS Quality Control.... Requirements for CMS No, except for
quality control, requirements in Sec.
including calibration, 63.8(d)(2).
etc.; must keep
quality control plan
on record for 5 years;
keep old versions for
5 years after
revisions.Sec. 63.8(e)....................... CMS Performance Notification, Yes, except that Sec.
Evaluation. performance evaluation 63.8(e)(5)(ii) does
test plan, reports. not apply because
subpart UUUU does not
require COMS.Sec. 63.8(f)(1) through (5)........ Alternative Monitoring Procedures for Yes, except that no
Method. Administrator to site-specific test
approve alternative plan is required. The
monitoring. request to use an
alternative monitoring
method must be
submitted with the
notification of
performance test or
CEMS performance
evaluation or 60 days
prior to any initial
compliance
demonstration.Sec. 63.8(f)(6).................... Alternative to Relative Procedures for Yes.
Accuracy Test. Administrator to
approve alternative
relative accuracy
tests for CEMS.Sec. 63.8(g)(1) through (4)........ Data Reduction......... COMS 6-minute averages No. Replaced with
calculated over at language in Sec.
least 36 evenly spaced 63.5545(e).
data points; CEMS 1-
hour averages computed
over at least four
equally spaced data
points; data that
cannot be used in
average.Sec. 63.8(g)(5).................... Data Reduction......... Data that cannot be No. Replaced with
used in computing language in Sec.
averages for CEMS and 63.5560(b).
COMS.Sec. 63.9(a)....................... Notification Applicability and State Yes.
Requirements. delegation.Sec. 63.9(b)(1) through (5)........ Initial Notifications.. Submit notification Yes.
subject 120 days after
effective date;
notification of intent
to construct or
reconstruct;
notification of
commencement of
construction or
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 BACT/LAER.Sec. 63.9(d)....................... Notification of Special For sources that Yes.
Compliance commence construction
Requirements for New between proposal and
Source. promulgation 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 or Notify Administrator 30 Yes, but only for
Opacity Test. days prior. flares for which EPA
Method 22 observations
are required as part
of a flare compliance
assessment.
Sec. 63.9(g)....................... Additional Notification of Yes, except that Sec.
Notifications When performance 63.9(g)(2) does not
Using CMS. evaluation; apply because subpart
notification using UUUU does not require
COMS data; COMS.
notification that
exceeded criterion for
relative accuracy.Sec. 63.9(h)(1) through (6)........ Notification of Contents; due 60 days Yes, except that Table
Compliance Status after end of 7 to this subpart
Report. performance test or specifies the
other compliance submittal date for the
demonstration, except notification. The
for opacity or VE, contents of the
which are due 30 days notification will also
after; when to submit include the results of
to Federal vs. State EPA Method 22
authority. observations required
as part of a flare
compliance assessment.Sec. 63.9(i)....................... Adjustment of Submittal Procedures for Yes.
Deadlines. Administrator to
approve change in when
notifications must be
submitted.Sec. 63.9(j)....................... Change in Previous Must submit within 15 Yes, except that the
Information. days after the change. notification must be
submitted as part of
the next semiannual
compliance report, as
specified in Table 8
to this subpart.Sec. 63.10(a)...................... Recordkeeping and 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 and General requirements; Yes.
Reporting. keep all records
readily available;
keep for 5 years.Sec. 63.10(b)(2)(i) through (iv)... Records Related to Occurrence of each of Yes.
Startup, Shutdown, and operation (process
Malfunction. equipment); occurrence
of each malfunction of
air pollution
equipment; maintenance
on air pollution
control equipment;
actions during
startup, shutdown, and
malfunction.Sec. 63.10(b)(2)(vi), (x), and (xi) CMS Records............ Malfunctions, Yes.
inoperative, out-of-
control; calibration
checks, adjustments,
maintenance.Sec. 63.10(b)(2)(vii) and (ix)..... Records................ Measurements to Yes, including results
demonstrate compliance of EPA Method 22
with emission limits; observations required
performance test, as part of a flare
performance compliance assessment.
evaluation, and VE
observation results;
measurements to
determine conditions
of performance tests
and performance
evaluations.Sec. 63.10(b)(2)(xii).............. Records................ Records when under Yes.
waiver.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
Report.Sec. 63.10(b)(3)................... Records................ Applicability Yes.
determinations.Sec. 63.10(c)(1) through (6), (9) Records................ Additional records for Yes.
through (15). CMS.Sec. 63.10(c)(7) and (8)........... Records................ Records of excess No. Replaced with
emissions and language in Table 9 to
parameter monitoring this subpart.
exceedances for CMS.Sec. 63.10(d)(1)................... General Reporting Requirement to report.. Yes.
Requirements.Sec. 63.10(d)(2)................... Report of Performance When to submit to Yes, except that Table
Test Results. Federal or State 7 to this subpart
authority. specifies the
submittal date for the
Notification of
Compliance Status
Report.Sec. 63.10(d)(3)................... Reporting Opacity or VE What to report and when Yes, but only for
Observations. flares for which EPA
Method 22 observations
are required as part
of a flare compliance
assessment.Sec. 63.10(d)(4)................... Progress Reports....... Must submit progress Yes.
reports on schedule if
under compliance
extension.
Sec. 63.10(d)(5)................... Startup, Shutdown, and Contents and submission Yes, except that the
Malfunction Reports. immediate SSM report
must be submitted as
part of the next
semiannual compliance
report, as specified
in Table 8 to this
subpart.Sec. 63.10(e)(1) and (2)........... Additional CMS Reports. Must report results for Yes, except that Sec.
each CEMS on a unit; 63.10(e)(2)(ii) does
written copy of not apply because
performance subpart UUUU does not
evaluation; three require COMS.
copies of COMS
performance evaluation.Sec. 63.10(e)(3)................... Reports................ Excess emission reports No. Replaced with
language in Sec.
63.5580.Sec. 63.10(e)(3)(i) through (iii).. Reports................ Schedule for reporting No. Replaced with
excess emissions and language in Sec.
parameter monitor 63.5580.
exceedance (now
defined as deviations).Sec. 63.10(e)(3)(iv) through (v)... Excess Emissions Requirement to revert No. Replaced with
Reports. to quarterly language in Sec.
submission if there is 63.5580.
an excess emissions
and parameter monitor
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 emission (now
defined as
deviations), report
contents is a
statement that there
have been no
deviations.Sec. 63.10(e)(3)(iv) and (v)....... Excess Emissions Must submit report No. Replaced with
Reports. containing all of the language in Sec.
information in Sec. 63.5580.
63.10(c)(5) through
(13), Sec.
63.8(c)(7) and (8).Sec. 63.10(e)(3)(vi) through (viii) Excess Emissions Report Requirements for No. Replaced with
and Summary Report. reporting excess language in Sec.
emissions for CMS (now 63.5580.
called deviations);
requires all of the
information in Sec.
63.10(c)(5) through
(13), Sec.
63.8(c)(7) and (8).Sec. 63.10(e)(4)................... Reporting COMS data.... Must submit COMS data No. Subpart UUUU does
with performance test not require COMS.
data.Sec. 63.10(f)...................... Waiver for Procedures for Yes.
Recordkeeping or Administrator to waive.
Reporting.Sec. 63.11......................... Control and work Requirements for flares Yes.
practice requirements. and alternative work
practice for equipment
leaks.Sec. 63.12......................... Delegation............. State authority to Yes.
enforce standards.Sec. 63.13......................... Addresses.............. Addresses where Yes.
reports,
notifications, and
requests are sent.Sec. 63.14......................... Incorporation by Test methods Yes.
Reference. incorporated by
reference.Sec. 63.15......................... Availability of Public and confidential Yes.
Information. information.---------------------------------------------------------------------------------------------------------------- [67 FR 40055, June 11, 2002, as amended at 71 FR 20466, Apr. 20, 2006; 73 FR 78216, Dec. 22, 2008]
Subpart VVVV_National Emission Standards for Hazardous Air Pollutants
for Boat Manufacturing
Source: 66 FR 44232, Aug. 22, 2001, unless otherwise noted.
What the Subpart Covers