Terms used in this subpart are defined in the CAA, in the General Provisions of this part, and in this section as follows:
Add-on control device means an air pollution control device, such as a thermal oxidizer or carbon adsorber, that reduces pollution in an air stream by destruction or removal before discharge to the atmosphere.
Add-on control device efficiency means the ratio of the emissions collected or destroyed by an add-on air pollution control device to the total emissions that are introduced into the control device, expressed as a percentage.
Adhesive means any chemical substance that is applied for the purpose of bonding two surfaces together.
Adhesive and sealer material means adhesives, sealers and thinners added to adhesives or sealers.
Anti-chip coating means a specialty type of coating designed to reduce stone chipping damage. Anti-chip coating may be applied to broad areas of the vehicle or to selected vehicle surfaces that are most vulnerable to impingement by stones and other road debris. Anti-chip coating is typically applied after the electrodeposition primer and before the topcoat. Anti-chip coating is a type of primer-surfacer.
Automobile means a motor vehicle designed to carry up to eight passengers, excluding vans, sport utility vehicles, and motor vehicles designed primarily to transport light loads of property. See also Light-duty truck.
Automobile and light-duty truck assembly plant means a facility which assembles automobiles or light-duty trucks, including coating facilities and processes.
Bake oven air seal means an entry or entry vestibule to or an exit or exit vestibule from a bake oven which isolates the bake oven from the area immediately preceding (for an entry or entry vestibule) or immediately following (for an exit or exit vestibule) the bake oven. No significant VOC generating activity takes place in a bake oven air seal. Fresh air is supplied into a bake oven air seal and is then directed in part into the bake oven and in part into the area immediately preceding or immediately following the bake oven. All types of bake ovens, including ovens associated with spray booths and electrodeposition primer bake ovens, may have bake oven air seals.
Basecoat/clearcoat means a topcoat system applied to exterior and selected interior vehicle surfaces primarily to provide an aesthetically pleasing appearance and acceptable durability performance. It consists of a layer of pigmented basecoat color coating, followed directly by a layer of a clear or semitransparent coating. It may include multiple layers of color coats or tinted clear materials.
Blackout coating means a type of specialty coating applied on selected vehicle surfaces (including areas of the engine compartment visible through the grill, and window and pillar trim) to provide a cosmetic appearance. Typically black or dark gray color. Blackout coating may be included in either the primer-surfacer or topcoat operations.
Body part means exterior parts such as hoods, fenders, doors, roof, quarter panels, decklids, tail gates, and cargo beds. Body parts were traditionally made of sheet metal, but now are also made of plastic. Bumpers, fascia, and cladding are not body parts.
Capture device means a hood, enclosure, room, floor sweep, or other means of containing or collecting emissions and directing those emissions into an add-on air pollution control device.
Capture efficiency or capture system efficiency means the portion (expressed as a percentage) of the pollutants from an emission source that is delivered to an add-on control device.
Capture system means one or more capture devices intended to collect emissions generated by a coating operation in the use of coatings, both at the point of application and at subsequent points where emissions from the coatings occur, such as flash-off, drying, or curing. As used in this subpart, multiple capture devices that collect emissions generated by a coating operation are considered a single capture system.
Catalytic oxidizer means a device for oxidizing pollutants or waste materials via flame and heat incorporating a catalyst to aid the combustion at lower operating temperature.
Chip resistant edge primer means an anti-chip coating applied to the leading edge of parts such as the hood or roof.
Cleaning material means a solvent used to remove contaminants and other materials such as dirt, grease, oil, and dried (e.g., depainting) or wet coating from a substrate before or after coating application; or from equipment associated with a coating operation, such as spray booths, spray guns, tanks, and hangers. Thus, it includes any cleaning material used on substrates or equipment or both.
Coating means a material applied to a substrate for decorative, protective, or functional purposes. Such materials include, but are not limited to, paints, sealants, caulks, inks, adhesives, primers, deadeners, and maskants. Decorative, protective, or functional materials that consist only of protective oils for metal, acids, bases, or any combination of these substances are not considered coatings for the purposes of this subpart.
Coating operation means equipment used to apply coating to a substrate (coating application) and to dry or cure the coating after application. A single coating operation always includes at least the point at which a coating is applied and all subsequent points in the affected source where organic HAP emissions from that coating occur. There may be multiple coating operations in an affected source. Coating application with hand-held nonrefillable aerosol containers, touchup bottles, touchup markers, marking pens, or pinstriping equipment is not a coating operation for the purposes of this subpart. The application of temporary materials such as protective oils and ``travel waxes'' that are designed to be removed from the vehicle before it is delivered to a retail purchaser is not a coating operation for the purposes of this subpart.
Coating solids means the nonvolatile portion of the coating.
Container means a receptacle, such as a can, vessel, tote, or tank, in which coatings, solvents or cleaning materials are held, stored, mixed, or carried.
Continuous parameter monitoring system (CPMS) means the total equipment that may be required to meet the data acquisition and availability requirements of this subpart; used to sample, condition (if applicable), analyze, and provide a record of coating operation, or capture system, or add-on control device parameters.
Controlled coating operation means a coating operation from which some or all of the organic HAP emissions are routed through a capture system and an add-on control device which are taken into account when demonstrating compliance with an emission limitation in this subpart.
Day tank means tank with agitation and pumping system used for mixing and continuous circulation of coatings from the paint storage area to the spray booth area of the paint shop.
Deadener means a specialty coating applied to selected vehicle surfaces primarily for the purpose of reducing the sound of road noise in the passenger compartment.
Deadener material means deadener and thinner added to deadener.
Deposited solids means the coating solids which remain on the substrate or object being painted.
Deviation means any instance in which an affected source subject to this subpart, or an owner or operator of such a source 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; 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 fails to meet any emission limit or 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. A deviation is not always a violation.
Electrodeposition primer or electrocoating primer means a process of applying a protective, corrosion-resistant waterborne primer on exterior and interior surfaces that provides thorough coverage of recessed areas. It is a dip coating method that uses an electrical field to apply or deposit the conductive coating onto the part. The object being painted acts as an electrode that is oppositely charged from the particles of paint in the dip tank. Also referred to as E-Coat, Uni-Prime, and ELPO Primer.
Emission limitation means an emission limit, operating limit, or work practice standard.
Final repair means the operations performed and coating(s) applied to completely-assembled motor vehicles or to parts that are not yet on a completely assembled motor vehicle to correct damage or imperfections in the coating. The curing of the coatings applied in these operations is accomplished at a lower temperature than that used for curing primer-surfacer and topcoat. This lower temperature cure avoids the need to send parts that are not yet on a completely assembled vehicle through the same type of curing process used for primer-surfacer and topcoat and is necessary to protect heat sensitive components on completely assembled motor vehicles.
Flash-off area means the portion of a coating process between the coating application station and the next coating application station or drying oven where solvent begins to evaporate from the coated vehicle.
Glass bonding adhesive means an adhesive used to bond windshield or other glass to an automobile or light-duty truck body.
Glass bonding primer means a primer applied to windshield or other glass, or to body openings to prepare the glass or body openings for the application of glass bonding adhesive, or the installation of adhesive bonded glass.
Guide coat means Primer-surfacer.
In-line repair means the operation performed and coating(s) applied to correct damage or imperfections in the topcoat on parts that are not yet on a completely assembled motor vehicle. The curing of the coatingspplied in these operations is accomplished at essentially the same temperature as that used for curing the previously applied topcoat. Also referred to as high bake repair or high bake reprocess. In-line repair is considered part of the topcoat operation.
Light-duty truck means vans, sport utility vehicles, and motor vehicles designed primarily to transport light loads of property with gross vehicle weight rating of 8,500 lbs or less.
Lower body anti-chip coating means an anti-chip coating applied to lower body surfaces such as rocker panels, valence panels, lower portions of doors, or lower portions of fenders.
Manufacturer's formulation data means data on a material (such as a coating) that are supplied by the material manufacturer based on knowledge of the ingredients used to manufacture that material, rather than based on testing of the material with the test methods specified in Sec. Sec. 63.3151 and 63.3161. Manufacturer's formulation data may include, but are not limited to, information on density, organic HAP content, volatile organic matter content, and coating solids content.
Mass fraction of organic HAP means the ratio of the mass of organic HAP to the mass of a material in which it is contained, expressed as kg of organic HAP per kg of material.
Month means a calendar month or a pre-specified period of 28 days to 35 days to allow for flexibility in recordkeeping when data are based on a business accounting period.
Organic HAP content means the mass of organic HAP per mass of coating material.
Other motor vehicle means a self-propelled vehicle designed for transporting persons or property on a street or highway that has a gross vehicle weight rating over 8,500 pounds. You may choose to make the coating of other motor vehicles subject to this subpart pursuant to Sec. 63.3082(c).
Other motor vehicle assembly plant means a facility which assembles other motor vehicles, including coating facilities and processes.
Paint line means a set of coating operations which includes a topcoat operation and, if present, includes electrodeposition primer, primer-surfacer, final repair, glass bonding primer and glass bonding adhesive operations in which the same new automobile or new light-duty truck bodies, or body parts for new automobiles, or new light-duty trucks are coated. The most typical paint line consists of a set of electrodeposition primer, primer-surfacer, topcoat, final repair, glass bonding primer, and glass bonding adhesive operations in which the same new automobile or new light-duty truck bodies are coated.
Paint shop means the collection of all areas at the facility in which new automobile or new light-duty truck bodies, or body parts for new automobiles or new light-duty trucks are phosphated and coated (including application, flash-off, drying and curing of electrodeposition primer, primer-surfacer, topcoat, final repair, glass bonding primer, glass bonding adhesive, deadener, adhesives and sealers); all coating operations added to the affected source pursuant to Sec. 63.3082(c); all areas at the facility in which substrates or equipment are cleaned relating to the coating of new automobile or new light-duty truck bodies, the coating of body parts for new automobiles or new light-duty trucks, or coating operations added to the affected source pursuant to Sec. 63.3082(c); and all areas at the facility used for storage, mixing, conveying and waste handling of coatings, thinners and cleaning materials related to the coating of new automobile or new light-duty truck bodies, the coating of body parts for new automobiles or new light-duty trucks, or coating operations added to the affected source pursuant to Sec. 63.3082(c). If there is no application of topcoat to new automobile or new light-duty truck bodies, or body parts for new automobiles or new light-duty trucks at the facility, then for purposes of this subpart the facility does not have a paint shop.
Permanent total enclosure (PTE) means a permanently installed enclosure that meets the criteria of Method 204 of appendix M, 40 CFR part 51, for a PTE and that directs all the exhaust gases from the enclosure to an add-on control device.
Plastic or composites molding facility means a facility where the purchase cost of capital equipment used for plastic or composites molding, including presses, tooling, and associated material processing and handling equipment, is greater than the purchase cost of capital equipment used for the surface coating of new automobile or new light-duty truck bodies or body parts for new automobiles or new light-duty trucks.
Primer-surfacer means an intermediate protective coating applied on the electrodeposition primer and under the topcoat. Primer-surfacer provides adhesion, protection, and appearance properties to the total finish. Primer-surfacer may also be called guide coat or surfacer. Anti-chip coating is a type of primer-surfacer.
Purge/clean operation means the process of flushing paint out and cleaning the spray lines when changing colors or to remove undesired material. It includes use of air and solvents to clean the lines.
Purge capture means the capture of purge solvent and materials into a closed collection system immediately after purging the system. It is used to prevent the release of organic HAP emissions and includes the disposal of the captured purge material.
Purge material means the coating and associated cleaning solvent materials expelled from the spray system during the process of cleaning the spray lines and applicators when color-changing or to maintain the cleanliness of the spray system.
Protective oil means an organic material that is applied to metal for the purpose of providing lubrication or protection from corrosion without forming a solid film. This definition of protective oil includes, but is not limited to, lubricating oils, evaporative oils (including those that evaporate completely), and extrusion oils.
Research or laboratory operations means surface coating for which the primary purpose is research and development of new processes and products, that is conducted under the close supervision of technically trained personnel, and that is not part of the manufacture of final or intermediate products for commercial purposes, except in a de minimis manner.
Responsible official means responsible official as defined in 40 CFR 70.2.
Sealer means a high solids, high viscosity material, generally, but not always, applied in the paint shop after the body has received an electrodeposition primer coating. The primary purpose of sealers is to fill body joints completely so that there is no intrusion of water, gases or corrosive materials into the passenger area of the body compartment. Also referred to as sealants.
Spray booth means a ventilated structure housing automatic and/or manual spray application equipment for coating operations. Includes facilities for the capture and entrapment of particulate overspray.
Spray booth air seal means an entry or entry vestibule to or exit or exit vestibule from a spray booth which isolates the spray booth from the area immediately preceding (for an entry or entry vestibule) or immediately following (for an exit or exit vestibule) the spray booth. No coating application or other VOC generating activity takes place in a spray booth air seal. Fresh air is supplied into a spray booth air seal and is then directed in part into the spray booth and in part into the area immediately preceding or immediately following the spray booth.
Startup, initial means the first time equipment is used in a facility to produce a salable product.
Surface preparation means use of a cleaning material on a portion of or all of a substrate. This includes use of a cleaning material to remove dried coating, which is sometimes called ``depainting.''
Surfacer means Primer-surfacer.
Tack-wipe means solvent impregnated cloth used to remove dust from surfaces prior to application of coatings.
Temporary total enclosure means an enclosure constructed for the purpose of measuring the capture efficiency of pollutants emitted from a given source as defined in Method 204 of appendix M, 40 CFR part 51.
Thermal oxidizer means a device for oxidizing air pollutants or waste materials via flame and heat.
Thinner means an organic solvent that is added to a coating after the coating is received from the supplier.
Topcoat means the final coating system applied to provide the final color and/or a protective finish. The topcoat may be a monocoat color or basecoat/clearcoat system. In-line repair and two-tone are part of topcoat.
Total volatile hydrocarbon (TVH) means the total amount of nonaqueous volatile organic matter determined according to Methods 204 and 204A through F of appendix M to 40 CFR part 51 and substituting the term TVH each place in the methods where the term VOC is used. The TVH includes both VOC and non-VOC.
Touchup bottle means a coating container with a volume of 0.25 liter or less used with a brush or other non-atomizing applicator.
Transfer efficiency means the ratio of the amount of coating solids deposited onto the surface of the object to the total amount of coating solids sprayed while applying the coating to the object.
Uncontrolled coating operation means a coating operation from which none of the organic HAP emissions are routed through an emission capture system and add-on control device.
Underbody anti-chip coating means an anti-chip coating applied to the underbody or wheel wells primarily for the purpose of protecting these areas of the vehicle from stone chipping.
Volatile organic compound (VOC) means any compound defined as VOC in 40 CFR 51.100(s).
Volume fraction of coating solids means the ratio of the volume of coating solids (also known as volume of nonvolatiles) to the volume of coating; liters of coating solids per liter of coating. [69 FR 22623, Apr. 26, 2004, as amended at 71 FR 76927, Dec. 22, 2006; 72 FR 20236, Apr. 24, 2007]
Sec. Table 1 to Subpart IIII of Part 63--Operating Limits for Capture
Systems and Add-On Control Devices
If you are required to comply with operating limits by Sec. 63.3093, you must comply with the applicable operating limits in the following table ------------------------------------------------------------------------
And you must
You must meet the demonstrateFor the following device ... following operating continuous
limit ... compliance with the
operating limit by------------------------------------------------------------------------1. Thermal oxidizer......... a. The average i. Collecting the
combustion combustion
temperature in any temperature data
3-hour period must according to Sec.
not fall below the 63.3168(c);
combustion ii. Reducing the
temperature limit data to 3-hour
established block averages; and
according to Sec. iii. Maintaining the
63.3167(a). 3-hour average
combustion
temperature at or
above temperature
limit.------------------------------------------------------------------------2. Catalytic oxidizer....... a. The average i. Collecting the
temperature temperature data
measured just temperature
before the catalyst according to Sec.
bed in any 3-hour 63.3168(c);
period must not ii. Reducing the
fall below the data to 3-hour
limit established block averages; and
according to Sec. iii. Maintaining the
63.3167(b); and 3-hour average
either. temperature before
the catalyst bed at
or above the
temperature limit.
b. Ensure that the i. Collecting the
average temperature temperature data
difference across according to Sec.
the catalyst bed in 63.3168(c);
any 3-hour period ii. Reducing the
does not fall below data to 3-hour
the temperature block averages; and
difference limit iii. Maintaining the
established 3-hour average
according to Sec. temperature
63.3167(b)(2); or. difference at or
above the
temperature
difference limit;
or
c. Develop and i. Maintaining an up-
implement an to-date inspection
inspection and maintenance plan,
maintenance plan records of annual
according to Sec. catalyst activity
63.3167(b)(4). checks, records of
monthly inspections
of the oxidizer
system, and records
of the annual
internal
inspections of the
catalyst bed. If a
problem is
discovered during a
monthly or annual
inspection required
by Sec.
63.3167(b)(4), you
must take
corrective action
as soon as
practicable
consistent with the
manufacturer's
recommendations.------------------------------------------------------------------------3. Regenerative carbon a. The total i. Measuring the
adsorber. regeneration total regeneration
desorbing gas desorbing gas
(e.g., steam or (e.g., steam or
nitrogen) mass flow nitrogen) mass flow
for each carbon bed for each
regeneration cycle regeneration cycle
must not fall below according to Sec.
the total 63.3168(d); and
regeneration ii. Maintaining the
desorbing gas mass total regeneration
flow limit desorbing gas mass
established flow at or above
according to Sec. the mass flow
63.3167(c). limit.
b. The temperature i. Measuring the
of the carbon bed temperature of the
after completing carbon bed after
each regeneration completing each
and any cooling regeneration and
cycle must not any cooling cycle
exceed the carbon according to Sec.
bed temperature 63.3168(d); and
limit established ii. Operating the
according to Sec. carbon beds such
63.3167(c). that each carbon
bed is not returned
to service until
completing each
regeneration and
any cooling cycle
until the recorded
temperature of the
carbon bed is at or
below the
temperature limit.------------------------------------------------------------------------4. Condenser................ a. The average i. Collecting the
condenser outlet condenser outlet
(product side) gas (product side) gas
temperature in any temperature
3-hour period must according to Sec.
not exceed the 63.3168(e);
temperature limit ii. Reducing the
established data to 3-hour
according to Sec. block averages; and
63.3167(d). iii. Maintaining the
3-hour average gas
temperature at the
outlet at or below
the temperature
limit.------------------------------------------------------------------------5. Concentrators, including a. The average i. Collecting the
zeolite wheels and rotary desorption gas temperature data
carbon adsorbers. inlet temperature according to Sec.
in any 3-hour 63.3168(f);
period must not ii. Reducing the
fall below the data to 3-hour
limit established block averages; and
according to Sec. iii. maintaining the
63.3167(e). 3-hour average
temperature at or
above the
temperature limit.------------------------------------------------------------------------6. Emission capture system a. The direction of i. Collecting the
that is a PTE. the air flow at all direction of air
times must be into flow, and either
the enclosure; and the facial velocity
either. of air through all
b. The average natural draft
facial velocity of openings according
air through all to Sec.
natural draft 63.3168(g)(1) or
openings in the the pressure drop
enclosure must be across the
at least 200 feet enclosure according
per minute; or. to Sec.
c. The pressure drop 63.3168(g)(2); and
across the ii. Maintaining the
enclosure must be facial velocity of
at least 0.007 inch air flow through
water, as all natural draft
established in openings or the
Method 204 of pressure drop at or
appendix M to 40 above the facial
CFR part 51. velocity limit or
pressure drop
limit, and
maintaining the
direction of air
flow into the
enclosure at all
times.------------------------------------------------------------------------7. Emission capture system a. The average gas i. Collecting the
that is not a PTE. volumetric flow gas volumetric flow
rate or duct static rate or duct static
pressure in each pressure for each
duct between a capture device
capture device and according to Sec.
add-on control 63.3168(g);
device inlet in any ii. Reducing the
3-hour period must data to 3-hour
not fall below the block averages; and
average volumetric iii. Maintaining the
flow rate or duct 3-hour average gas
static pressure volumetric flow
limit established rate or duct static
for that capture pressure for each
device according to capture device at
Sec. 63.3167(f). or above the gas
This applies only volumetric flow
to capture devices rate or duct static
that are not part pressure limit.
of a PTE that meets
the criteria of
Sec. 63.3165(a)
and that are not
capturing emissions
from a downdraft
spray booth or from
a flashoff area or
bake oven
associated with a
downdraft spray
booth.------------------------------------------------------------------------ [69 FR 22623, Apr. 26, 2004, as amended at 72 FR 20236, Apr. 24, 2007]
Sec. Table 2 to Subpart IIII of Part 63--Applicability of General
Provisions to Subpart IIII of Part 63
You must comply with the applicable General Provisions requirements according to the following table ----------------------------------------------------------------------------------------------------------------
Citation Subject Applicable to subpart IIII Explanation----------------------------------------------------------------------------------------------------------------Sec. 63.1(a)(1)-(12)............. General Applicability. Yes........................Sec. 63.1(b)(1)-(3).............. Initial Applicability Yes........................ Applicability to
Determination. subpart IIII is also
specified in Sec.
63.3081.Sec. 63.1(c)(1).................. Applicability After Yes........................
Standard Established.Sec. 63.1(c)(2).................. Applicability of No......................... Area sources are not
Permit Program for subject to subpart
Area Sources. IIII.Sec. 63.1(c)(5).................. Extensions and Yes........................
Notifications.Sec. 63.1(e)..................... Applicability of Yes........................
Permit Program Before
Relevant Standard is
Set.Sec. 63.2........................ Definitions........... Yes........................ Additional definitions
are specified in Sec.
63.3176.Sec. 63.3(a)-(c)................. Units and Yes........................
Abbreviations.Sec. 63.4(a)(1)-(5).............. Prohibited Activities. Yes........................Sec. 63.4(b)-(c)................. Circumvention/ Yes........................
Fragmentation.Sec. 63.5(a)..................... Preconstruction Review Yes........................
Applicability.Sec. 63.5(b)(1)-(6).............. Requirements for Yes........................
Existing, Newly
Constructed, and
Reconstructed Sources.Sec. 63.5(d)..................... Application for Yes........................
Approval of
Construction/
Reconstruction.Sec. 63.5(e)..................... Approval of Yes........................
Construction/
Reconstruction.Sec. 63.5(f)..................... Approval of Yes........................
Construction/
Reconstruction Based
on Prior State Review.Sec. 63.6(a)..................... Compliance With Yes........................
Standards and
Maintenance
Requirements--Applica
bility.Sec. 63.6(b)(1)-(7).............. Compliance Dates for Yes........................ Section 63.3083
New and Reconstructed specifies the
Sources. compliance dates.Sec. 63.6(c)(1)-(5).............. Compliance Dates for Yes........................ Section 63.3083
Existing Sources. specifies the
compliance dates.Sec. 63.6(e)(1)-(2).............. Operation and Yes........................
Maintenance.Sec. 63.6(e)(3).................. SSMP.................. Yes........................ Only sources using an
add-on control device
to comply with the
standard must
complete SSMP.Sec. 63.6(f)(1).................. Compliance Except Yes........................ Applies only to
During Startup, sources using an add-
Shutdown, and on control device to
Malfunction. comply with the
standards.Sec. 63.6(f)(2)-(3).............. Methods for Yes.
Determining
Compliance.Sec. 63.6(g)(1)-(3).............. Use of an Alternative Yes.
Standard.Sec. 63.6(h)..................... Compliance With No......................... Subpart IIII does not
Opacity/Visible establish opacity
Emission Standards. standards and does
not require
continuous opacity
monitoring systems
(COMS).Sec. 63.6(i)..................... Extension of Yes.
Compliance.63.6(j)............................ Presidential Yes.
Compliance Exemption.Sec. 63.7(a)(1).................. Performance Test Yes........................ Applies to all
Requirements--Applica affected sources.
bility. Additional
requirements for
performance testing
are specified in Sec.
Sec. 63.3164 and
63.3166.
Sec. 63.7(a)(2).................. Performance Test Yes........................ Applies only to
Requirements--Dates. performance tests for
capture system and
control device
efficiency at sources
using these to comply
with the standards.
Section 63.3160
specifies the
schedule for
performance test
requirements that are
earlier than those
specified in Sec.
63.7(a)(2).Sec. 63.7(a)(3).................. Performance Tests Yes.
Required By the
Administrator.Sec. 63.7(b)-(e)................. Performance Test Yes........................ Applies only to
Requirements--Notific performance tests for
ation, Quality capture system and
Assurance, Facilities add-on control device
Necessary for Safe efficiency at sources
Testing Conditions using these to comply
During Test. with the standards.Sec. 63.7(f)..................... Performance Test Yes........................ Applies to all test
Requirements--Use of methods except those
Alternative Test used to determine
Method. capture system
efficiency.Sec. 63.7(g)-(h)................. Performance Test Yes........................ Applies only to
Requirements--Data performance tests for
Analysis, capture system and
Recordkeeping, add-on control device
Reporting, Waiver of efficiency at sources
Test. using these to comply
with the standards.Sec. 63.8(a)(1)-(3).............. Monitoring Yes........................ Applies only to
Requirements--Applica monitoring of capture
bility. system and add-on
control device
efficiency at sources
using these to comply
with the standards.
Additional
requirements for
monitoring are
specified in Sec.
63.3168.Sec. 63.8(a)(4).................. Additional Monitoring No......................... Subpart IIII does not
Requirements. have monitoring
requirements for
flares.Sec. 63.8(b)..................... Conduct of Monitoring. Yes........................63.8(c)(1)-(3)..................... Continuous Monitoring Yes........................ Applies only to
Systems (CMS) monitoring of capture
Operation and system and add-on
Maintenance. control device
efficiency at sources
using these to comply
with the standards.
Additional
requirements for CMS
operations and
maintenance are
specified in Sec.
63.3168.Sec. 63.8(c)(4).................. CMS................... No......................... Section 63.3168
specifies the
requirements for the
operation of CMS for
capture systems and
add-on control
devices at sources
using these to comply
with the standards.Sec. 63.89(c)(5)................. COMS.................. No......................... Subpart IIII does not
have opacity or
visible emission
standards.Sec. 63.8(c)(6).................. CMS Requirements...... No......................... Section 63.3168
specifies the
requirements for
monitoring systems
for capture systems
and add-on control
devices at sources
using these to comply
with the standards.Sec. 63.8(c)(7).................. CMS Out-of-Control No ......................
Periods.Sec. 63.8(c)(8).................. CMS Out-of-Control No......................... Section 63.3120
Periods Reporting. requires reporting of
CMS out-of-control
periods.Sec. 63.8(d)-(e)................. Quality Control No......................... Subpart IIII does not
Program and CMS require the use of
Performance continuous emissions
Evaluation. monitoring systems.Sec. 63.8(f)(1)-(5).............. Use of an Alternative Yes.
Monitoring Method.Sec. 63.8(f)(6).................. Alternative to No......................... Subpart IIII does not
Relative Accuracy require the use of
Test. continuous emissions
monitoring systems.Sec. 63.8(g)(1)-(5).............. Data Reduction........ No......................... Sections 63.3167 and
63.3168 specify
monitoring data
reduction.
Sec. 63.9(a)-(d)................. Notification Yes.
Requirements.Sec. 63.9(e)..................... Notification of Yes........................ Applies only to
Performance Test. capture system and
add-on control device
performance tests at
sources using these
to comply with the
standards.Sec. 63.9(f)..................... Notification of No......................... Subpart IIII does not
Visible Emissions/ have opacity or
Opacity Test. visible emission
standards.Sec. 63.9(g)(1)-(3).............. Additional No......................... Subpart IIII does not
Notifications When require the use of
Using CMS. continuous emissions
monitoring systems.Sec. 63.9(h)..................... Notification of Yes........................ Section 63.3110
Compliance Status. specifies the dates
for submitting the
notification of
compliance status.Sec. 63.9(i)..................... Adjustment of Yes........................ ......................
Submittal Deadlines.Sec. 63.9(j)..................... Change in Previous Yes.
Information.Sec. 63.10(a).................... Recordkeeping/ Yes.
Reporting--Applicabil
ity and General
Information.Sec. 63.10(b)(1)................. General Recordkeeping Yes........................ Additional
Requirements. requirements are
specified in Sec.
Sec. 63.3130 and
63.3131.Sec. 63.10(b)(2)(i)-(v).......... Recordkeeping Relevant Yes........................ Requirements for
to Startup, Shutdown, startup, shutdown,
and Malfunction and malfunction
Periods and CMS. records only apply to
capture systems and
add-on control
devices used to
comply with the
standards.Sec. 63.10(b)(2)(vi)-(xi)........ ...................... Yes.Sec. 63.10(b)(2)(xii)............ Records............... Yes.Sec. 63.10(b)(2)(xiii)........... ...................... No......................... Subpart IIII does not
require the use of
continuous emissions
monitoring systems.Sec. 63.10(b)(2)(xiv)............ ...................... Yes.Sec. 63.10(b)(3)................. Recordkeeping Yes.
Requirements for
Applicability
Determinations.Sec. 63.10(c)(1)-(6)............. Additional Yes.
Recordkeeping
Requirements for
Sources with CMS.Sec. 63.10(c)(7)-(8)............. ...................... No......................... The same records are
required in Sec.
63.3120(a)(6).Sec. 63.10(c)(9)-(15)............ ...................... Yes ......................Sec. 63.10(d)(1)................. General Reporting Yes........................ Additional
Requirements. requirements are
specified in Sec.
63.3120.Sec. 63.10(d)(2)................. Report of Performance Yes........................ Additional
Test Results. requirements are
specified in Sec.
63.3120(b).Sec. 63.10(d)(3)................. Reporting Opacity or No......................... Subpart IIII does not
Visible Emissions require opacity or
Observations. visible emissions
observations.Sec. 63.10(d)(4)................. Progress Reports for Yes.
Sources With
Compliance Extensions.Sec. 63.10(d)(5)................. Startup, Shutdown, and Yes........................ Applies only to
Malfunction Reports. capture systems and
add-on control
devices used to
comply with the
standards.Sec. 63.10(e)(1)-(2)............. Additional CMS Reports No......................... Subpart IIII does not
require the use of
continuous emissions
monitoring systems.Sec. 63.10(e)(3)................. Excess Emissions/CMS No......................... Section 63.3120(b)
Performance Reports. specifies the
contents of periodic
compliance reports.Sec. 63.10(e)(4)................. COMS Data Reports..... No......................... Subpart IIII does not
specify requirements
for opacity or COMS.Sec. 63.10(f).................... Recordkeeping/ Yes ......................
Reporting Waiver.Sec. 63.11....................... Control Device No......................... Subpart IIII does not
Requirements/Flares. specify use of flares
for compliance.Sec. 63.12....................... State Authority and Yes.
Delegations.Sec. 63.13....................... Addresses............. Yes.
Sec. 63.14....................... Incorporation by Yes.
Reference.Sec. 63.15....................... Availability of Yes.
Information/
Confidentiality.----------------------------------------------------------------------------------------------------------------
Sec. Table 3 to Subpart IIII of Part 63--Default Organic HAP Mass
Fraction for Solvents and Solvent Blends
You may use the mass fraction values in the following table for solvent blends for which you do not have test data or manufacturer's formulation data --------------------------------------------------------------------------------------------------------------------------------------------------------
Average organic
Solvent/solvent blend CAS. No. HAP mass fraction Typical organic HAP, percent by mass--------------------------------------------------------------------------------------------------------------------------------------------------------1. Toluene..................................... 108-88-3 1.0 Toluene.2. Xylene(s)................................... 1330-20-7 1.0 Xylenes, ethylbenzene.3. Hexane...................................... 110-54-3 0.5 n-hexane.4. n-Hexane.................................... 110-54-3 1.0 n-hexane.5. Ethylbenzene................................ 100-41-4 1.0 Ethylbenzene.6. Aliphatic 140............................... ............... 0 None.7. Aromatic 100................................ ............... 0.02 1% xylene, 1% cumene.8. Aromatic 150................................ ............... 0.09 Naphthalene.9. Aromatic naphtha............................ 64742-95-6 0.02 1% xylene, 1% cumene.10. Aromatic solvent........................... 64742-94-5 0.1 Naphthalene.11. Exempt mineral spirits..................... 8032-32-4 0 None.12. Ligroines (VM & P)......................... 8032-32-4 0 None.13. Lactol spirits............................. 64742-89-6 0.15 Toluene.14. Low aromatic white spirit.................. 64742-82-1 0 None.15. Mineral spirits............................ 64742-88-7 0.01 Xylenes.16. Hydrotreated naphtha....................... 64742-48-9 0 None.17. Hydrotreated light distillate.............. 64742-47-8 0.001 Toluene.18. Stoddard solvent........................... 8052-41-3 0.01 Xylenes.19. Super high-flash naphtha................... 64742-95-6 0.05 Xylenes.20. Varsol [supreg] solvent.................... 8052-49-3 0.01 0.5% xylenes, 0.5% ethylbenzene.21. VM & P naphtha............................. 64742-89-8 0.06 3% toluene, 3% xylene.22. Petroleum distillate mixture............... 68477-31-6 0.08 4% naphthalene, 4% biphenyl.--------------------------------------------------------------------------------------------------------------------------------------------------------
Sec. Table 4 to Subpart IIII of Part 63--Default Organic HAP Mass
Fraction for Petroleum Solvent Groups \a\
You may use the mass fraction values in the following table for solvent blends for which you do not have test data or manufacturer's formulation data ----------------------------------------------------------------------------------------------------------------
Average organic
Solvent type HAP mass Typical organic HAP, percent by mass
fraction----------------------------------------------------------------------------------------------------------------Aliphatic \b\.................. 0.03 1% Xylene, 1% Toluene, and 1% Ethylbenzene.Aromatic \c\................... 0.06 4% Xylene, 1% Toluene, and 1% Ethylbenzene.----------------------------------------------------------------------------------------------------------------\a\ Use this table only if the solvent blend does not match any of the solvent blends in Table 3 to this
subpart, and you only know whether the blend is aliphatic or aromatic.\b\ E.g., Mineral Spirits 135, Mineral Spirits 150 EC, Naphtha, Mixed Hydrocarbon, Aliphatic Hydrocarbon,
Aliphatic Naphtha, Naphthol Spirits, Petroleum Spirits, Petroleum Oil, Petroleum Naphtha, Solvent Naphtha,
Solvent Blend.\c\ E.g., Medium-flash Naphtha, High-flash Naphtha, Aromatic Naphtha, Light Aromatic Naphtha, Light Aromatic
Hydrocarbons, Aromatic Hydrocarbons, Light Aromatic Solvent.
Sec. Appendix A to Subpart IIII of Part 63--Determination of Capture Efficiency of Automobile and Light-Duty Truck Spray Booth Emissions From
Solvent-borne Coatings Using Panel Testing
1.0 Applicability, Principle, and Summary of Procedure.
1.1 Applicability.
This procedure applies to the determination of capture efficiency of automobile and light-duty truck spray booth emissions from solvent-borne coatings using panel testing. This procedure can be used to determine capture efficiency for partially controlled spray booths (e.g., automated spray zones controlled and manual spray zones not controlled) and for fully controlled spray booths.
1.2 Principle.
1.2.1 The volatile organic compounds (VOC) associated with the coating solids deposited on a part (or panel) in a controlled spray booth zone (or group of contiguous controlled spray booth zones) partition themselves between the VOC that volatilize in the controlled spray booth zone (principally between the spray gun and the part) and the VOC that remain on the part (or panel) when the part (or panel) leaves the controlled spray booth zone. For solvent-borne coatings essentially all of the VOC associated with the coating solids deposited on a part (or panel) in a controlled spray booth zone that volatilize in the controlled spray booth zone pass through the waterwash and are exhausted from the controlled spray booth zone to the control device.
1.2.2 The VOC associated with the overspray coating solids in a controlled spray booth zone partition themselves between the VOC that volatilize in the controlled spray booth zone and the VOC that are still tied to the overspray coating solids when the overspray coating solids hit the waterwash. For solvent-borne coatings almost all of the VOC associated with the overspray coating solids that volatilize in the controlled spray booth zone pass through the waterwash and are exhausted from the controlled spray booth zone to the control device. The exact fate of the VOC still tied to the overspray coating solids when the overspray coating solids hit the waterwash is unknown. This procedure assumes that none of the VOC still tied to the overspray coating solids when the overspray coating solids hit the waterwash are captured and delivered to the control device. Much of this VOC may become entrained in the water along with the overspray coating solids. Most of the VOC that become entrained in the water along with the overspray coating solids leave the water, but the point at which this VOC leave the water is unknown. Some of the VOC still tied to the overspray coating solids when the overspray coating solids hit the waterwash may pass through the waterwash and be exhausted from the controlled spray booth zone to the control device.
1.2.3 This procedure assumes that the portion of the VOC associated with the overspray coating solids in a controlled spray booth zone that volatilizes in the controlled spray booth zone, passes through the waterwash and is exhausted from the controlled spray booth zone to the control device is equal to the portion of the VOC associated with the coating solids deposited on a part (or panel) in that controlled spray booth zone that volatilizes in the controlled spray booth zone, passes through the waterwash, and is exhausted from the controlled spray booth zone to the control device. This assumption is equivalent to treating all of the coating solids sprayed in the controlled spray booth zone as if they are deposited coating solids (i.e., assuming 100 percent transfer efficiency) for purposes of using a panel test to determine spray booth capture efficiency.
1.2.4 This is a conservative (low) assumption for the portion of the VOC associated with the overspray coating solids in a controlled spray booth zone that volatilizes in the controlled spray booth zone. Thus, this assumption results in an underestimate of conservative capture efficiency. The overspray coating solids have more travel time and distance from the spray gun to the waterwash than the deposited coating solids have between the spray gun and the part (or panel). Therefore, the portion of the VOC associated with the overspray coating solids in a controlled spray booth zone that volatilizes in the controlled spray booth zone should be greater than the portion of the VOC associated with the coating solids deposited on a part (or panel) in that controlled spray booth zone that volatilizes in that controlled spray booth zone.
1.3 Summary of Procedure.
1.3.1 A panel test is performed to determine the mass of VOC that remains on the panel when the panel leaves a controlled spray booth zone. The total mass of VOC associated with the coating solids deposited on the panel is calculated.
1.3.2 The percent of the total VOC associated with the coating solids deposited on the panel in the controlled spray booth zone that remains on the panel when the panel leaves the controlled section of the spray booth is then calculated from the ratio of the two previously determined masses. The percent of the total VOC associated with the coating solids deposited on the panel in the controlled spray booth zone that is captured and delivered to the control device equals 100 minus this percentage. (The mass of VOC associated with the coating solids deposited on the panel which is volatilized and captured in the controlled spray booth zone equals the difference between the total mass of VOC associated with the coating solids deposited on the panel and the mass of VOC remaining with the coating solids deposited on the panel when the panel leaves the controlled spray booth zone.)
1.3.3 The percent of the total VOC associated with the coating sprayed in the controlled spray booth zone that is captured and delivered to the control device is assumed to be equal to the percent of the total VOC associated with the coating solids deposited on the panel in the controlled spray booth zone that is captured and delivered to the control device. The percent of the total VOC associated with the coating sprayed in the entire spray booth that is captured and delivered to the control device can be calculated by multiplying the percent of the total VOC associated with the coating sprayed in the controlled spray booth zone that is captured and delivered to the control device by the fraction of coating sprayed in the spray booth that is sprayed in the controlled spray booth zone.
2.0 Procedure.
2.1 You may conduct panel testing to determine the capture efficiency of spray booth emissions. You must follow the instructions and calculations in this appendix A, and use the panel testing procedures in ASTM Method D5087-02, ``Standard Test Method for Determining Amount of Volatile Organic Compound (VOC) Released from Solventborne Automotive Coatings and Available for Removal in a VOC Control Device (Abatement)'' (incorporated by reference, see Sec. 63.14), or the guidelines presented in ``Protocol for Determining Daily Volatile Organic Compound Emission Rate of Automobile and Light-Duty Truck Topcoat Operations,'' EPA-450/3-88-018 (Docket ID No. OAR-2002-0093 and Docket ID No. A-2001-22). You must weigh panels at the points described in section 2.5 of this appendix A and perform calculations as described in sections 3 and 4 of this appendix A. You may conduct panel tests on the production paint line in your facility or in a laboratory simulation of the production paint line in your facility.
2.2 You may conduct panel testing on representative coatings as described in ``Protocol for Determining Daily Volatile Organic Compound Emission Rate of Automobile and Light-Duty Truck Topcoat Operations,'' EPA-450/3-88-018 (Docket ID No. OAR-2002-0093 and Docket ID No. A-2001-22). If you panel test representative coatings, then you may calculate either a unique percent capture efficiency value for each coating grouped with that representative coating, or a composite percent capture efficiency value for the group of coatings. If you panel test each coating, then you must convert the panel test result for each coating to a unique percent capture efficiency value for that coating.
2.3 Identification of Controlled Spray Booth Zones.
You must identify each controlled spray booth zone or each group of contiguous controlled spray booth zones to be tested. (For example, a controlled bell zone immediately followed by a controlled robotic zone.) Separate panel tests are required for non-contiguous controlled spray booth zones. The flash zone between the last basecoat zone and the first clearcoat zone makes these zones non-contiguous.
2.4 Where to Apply Coating to the Panel.
If you are conducting a panel test for a single controlled spray booth zone, then you must apply coating to the panel only in that controlled spray booth zone. If you are conducting a panel test for a group of contiguous controlled spray booth zones, then you must apply coating to the panel only in that group of contiguous controlled spray booth zones.
2.5 How to Process and When to Weigh the Panel.
The instructions in this section pertain to panel testing of coating, i, or of the coating representing the group of coatings that includes coating, i.
2.5.1 You must weigh the blank panel. (Same as in bake oven panel test.) The mass of the blank panel is represented by Wblank,i (grams).
2.5.2 Apply coating, i, or the coating representing coating, i, to the panel in the controlled spray booth zone or group of contiguous controlled spray booth zones being tested (in plant test), or in a simulation of the controlled spray booth zone or group of contiguous controlled spray booth zones being tested (laboratory test).
2.5.3 Remove and weigh the wet panel as soon as the wet panel leaves the controlled spray booth zone or group of contiguous controlled spray booth zones being tested. (Different than bake oven panel test.) This weighing must be conducted quickly to avoid further evaporation of VOC. The mass of the wet panel is represented by Wwet,i (grams).
2.5.4 Return the wet panel to the point in the coating process or simulation of the coating process where it was removed for weighing.
2.5.5 Allow the panel to travel through the rest of the coating process in the plant or laboratory simulation of the coating process. You must not apply any more coating to the panel after it leaves the controlled spray booth zone (or group of contiguous controlled spray booth zones) being tested. The rest of the coating process or simulation of the coating process consists of:
2.5.5.1 All of the spray booth zone(s) or simulation of all of the spray booth zone(s) located after the controlled spray booth zone or group of contiguous controlled spray booth zones being tested and before the bake oven where the coating applied to the panel is cured,
2.5.5.2 All of the flash-off area(s) or simulation of all of the flash-off area(s) located after the controlled spray booth zone or group of contiguous controlled spray booth zones being tested and before the bake oven where the coating applied to the panel is cured, and
2.5.5.3 The bake oven or simulation of the bake oven where the coating applied to the panel is cured.
2.5.6 After the panel exits the bake oven, you must cool and weigh the baked panel. (Same as in bake oven panel test.) The mass of the baked panel is represented by Wbaked,i (grams).
3.0 Panel Calculations.
The instructions in this section pertain to panel testing of coating, i, or of the coating representing the group of coatings that includes coating, i.
3.1 The mass of coating solids (from coating, i, or from the coating representing coating, i, in the panel test) deposited on the panel equals the mass of the baked panel minus the mass of the blank panel as shown in Equation A-1.[GRAPHIC] [TIFF OMITTED] TR26AP04.028 Where: Wsdep, i = Mass of coating solids (from coating, i, or from
the coating representing coating, i, in the panel test)
deposited on the panel, grams.
3.2 The mass of VOC (from coating, i, or from the coating representing coating, i, in the panel test) remaining on the wet panel when the wet panel leaves the controlled spray booth zone or group of contiguous controlled spray booth zones being tested equals the mass of the wet panel when the wet panel leaves the controlled spray booth zone or group of contiguous controlled spray booth zones being tested minus the mass of the baked panel as shown in Equation A-2.[GRAPHIC] [TIFF OMITTED] TR26AP04.029 Where: Wrem, i = Mass of VOC (from coating, i, or from the coating
representing coating, i, in the panel test) remaining on the
wet panel when the wet panel leaves the controlled spray booth
zone or group of contiguous controlled spray booth zones being
tested, grams.
3.3 Calculate the mass of VOC (from coating, i, or from the coating representing coating, i, in the panel test) remaining on the wet panel when the wet panel leaves the controlled spray booth zone or group of contiguous controlled spray booth zones being tested per mass of coating solids deposited on the panel as shown in Equation A-3.[GRAPHIC] [TIFF OMITTED] TR26AP04.030 Where: Pm, i = Mass of VOC (from coating, i, or from the coating
representing coating, i, in the panel test) remaining on the
wet panel when the wet panel leaves the controlled spray booth
zone or group of contiguous controlled spray booth zones being
tested per mass of coating solids deposited on the panel,
grams of VOC remaining per gram of coating solids deposited.Wrem, i = Mass of VOC (from coating, i, or from the coating
representing coating, i, in the panel test) remaining on the
wet panel when the wet panel leaves the controlled spray booth
zone or group of contiguous controlled spray booth zones being
tested, grams.Wsdep, i = Mass of coating solids (from coating, i, or from
the coating representing coating, i, in the panel test)
deposited on the panel, grams.
4.0 Converting Panel Result to Percent Capture.
The instructions in this section pertain to panel testing of for coating, i, or of the coating representing the group of coatings that includes coating, i.
4.1 If you panel test representative coatings, then you may convert the panel test result for each representative coating from section 3.3 of this appendix A either to a unique percent capture efficiency value for each coating grouped with that representative coating by using coating specific values for the mass fraction coating solids and mass fraction VOC in section 4.2 of this appendix A, or to a composite percent capture efficiency value for the group of coatings by using the average values for the group of coatings for mass fraction coating solids and mass fraction VOC in section 4.2 of this appendix A. If you panel test each coating, then you must convert the panel test result for each coating to a unique percent capture efficiency value by using coating specific values for the mass fraction coating solids and mass fraction VOC in section 4.2 of this appendix A. The mass fraction of VOC in the coating and the mass fraction of solids in the coating must be determined by Method 24 (appendix A to 40 CFR part 60) or by following the guidelines for combining analytical VOC content and formulation solvent content presented in ``Protocol for Determining Daily Volatile Organic Compound Emission Rate of Automobile and Light-Duty Truck Topcoat Operations,'' EPA-450/3-88-018 (Docket ID No. OAR-2002-0093 and Docket ID No. A-2001-22).
4.2 The percent of VOC for coating, i, or composite percent of VOC for the group of coatings including coating, i, associated with the coating solids deposited on the panel that remains on the wet panel when the wet panel leaves the controlled spray booth zone or group of contiguous controlled spray booth zones being tested is calculated using Equation A-4. [GRAPHIC] [TIFF OMITTED] TR26AP04.031 Where: Pvocpan, i = Percent of VOC for coating, i, or composite
percent of VOC for the group of coatings including coating, i,
associated with the coating solids deposited on the panel that
remains on the wet panel when the wet panel leaves the
controlled spray booth zone (or group of contiguous controlled
spray booth zones) being tested, percent.Pm, i = Mass of VOC (from coating, i, or from the coating
representing coating, i, in the panel test) remaining on the
wet panel when the wet panel leaves the controlled spray booth
zone or group of contiguous controlled spray booth zones being
tested per mass of coating solids deposited on the panel,
grams of VOC remaining per gram of coating solids deposited.Ws, i = Mass fraction of coating solids for coating, i, or
average mass fraction of coating solids for the group of
coatings including coating, i, grams coating solids per gram
coating, determined by Method 24 (appendix A to 40 CFR part
60) or by following the guidelines for combining analytical
VOC content and formulation solvent content presented in
``Protocol for Determining Daily Volatile Organic Compound
Emission Rate of Automobile and Light-Duty Truck Topcoat
Operations,'' EPA-450/3-88-018 (Docket ID No. OAR-2002-0093
and Docket ID No. A-2001-22).Wvocc, i = Mass fraction of VOC in coating, i, or average
mass fraction of VOC for the group of coatings including
coating, i, grams VOC per grams coating, determined by Method
24 (appendix A to 40 CFR part 60) or the guidelines for
combining analytical VOC content and formulation solvent
content presented in ``Protocol for Determining Daily Volatile
Organic Compound Emission Rate of Automobile and Light-Duty
Truck Topcoat Operations,'' EPA-450/3-88-018 (Docket ID No.
OAR-2002-0093 and Docket ID No. A-2001-22).
4.3 The percent of VOC for coating, i, or composite percent of VOC for the group of coatings including coating, i, associated with the coating sprayed in the controlled spray booth zone (or group of contiguous controlled spray booth zones) being tested that is captured in the controlled spray booth zone or group of contiguous controlled spray booth zones being tested, CEzone,i (percent), is calculated using Equation A-5.[GRAPHIC] [TIFF OMITTED] TR26AP04.032 Where: CEzone, i = Capture efficiency for coating, i, or for the
group of coatings including coating, i, in the controlled
spray booth zone or group of contiguous controlled spray booth
zones being tested as a percentage of the VOC in the coating,
i, or of the group of coatings including coating, i, sprayed
in the controlled spray booth zone or group of contiguous
controlled spray booth zones being tested, percent.
4.4 Calculate the percent of VOC for coating, i, or composite percent of VOC for the group of coatings including coating, i, associated with the entire volume of coating, i, or with the total volume of all of the coatings grouped with coating, i, sprayed in the entire spray booth that is captured in the controlled spray booth zone or group of contiguous controlled spray booth zones being tested, using Equation A-6. The volume of coating, i, or of the group of coatings including coating, i, sprayed in the controlled spray booth zone or group of contiguous controlled spray booth zones being tested, and the volume of coating, i, or of the group of coatings including coating, i, sprayed in the entire spray booth may be determined from gun on times and fluid flow rates or from direct measurements of coating usage.[GRAPHIC] [TIFF OMITTED] TR26AP04.033 Where: CEi = Capture efficiency for coating, i, or for the group of
coatings including coating, i, in the controlled spray booth
zone (or group of contiguous controlled spray booth zones)
being tested as a percentage of the VOC in the coating, i, or
of the group of coatings including coating, i, sprayed in the
entire spray booth in which the controlled spray booth zone
(or group of contiguous controlled spray booth zones) being
tested, percent.Vzone, i = Volume of coating, i, or of the group of coatings
including coating, i, sprayed
in the controlled spray booth zone or group of contiguous
controlled spray booth zones being tested, liters.Vbooth, i = Volume of coating, i, or of the group of coatings
including coating, i, sprayed in the entire spray booth
containing the controlled spray booth zone (or group of
contiguous controlled spray booth zones) being tested, liters.
4.5 If you conduct multiple panel tests for the same coating or same group of coatings in the same spray booth (either because the coating or group of coatings is controlled in non-contiguous zones of the spray booth, or because you choose to conduct separate panel tests for contiguous controlled spray booth zones), then you may add the result from section 4.4 for each such panel test to get the total capture efficiency for the coating or group of coatings over all of the controlled zones in the spray booth for the coating or group of coatings.
Subpart JJJJ_National Emission Standards for Hazardous Air Pollutants:
Paper and Other Web Coating
Source: 67 FR 72341, Dec. 4, 2002, unless otherwise noted.
What This Subpart Covers