Current through all regulations passed and filed through September 16, 2024
[Comment: For dates and availability of non-regulatory
government publications, publications of recognized organizations and
associations, federal rules, and federal statutory provisions referenced in
this rule, see paragraph (JJ) of rule
3745-21-01 of the Administrative
Code titled "referenced materials."]
(A) Applicability.
(1) Except as otherwise provided in paragraph
(A)(2) of this rule, this rule shall apply to any facility that has reinforced
plastic composites production operations.
(2) Excluded from this rule, except for the
recordkeeping requirements specified under paragraphs (A)(2)(d) and (A)(2)(e)
of this rule, are the following:
(a) Any
facility that only repairs reinforced plastic composites. Repair includes the
non-routine manufacture of individual components or parts intended to repair a
larger item as defined in paragraph (GG) of rule
3745-21-01 of the Administrative
Code.
(b) Any facility that is a
research and development facility as defined under section
3704.01 of the Revised
Code.
(c) The production of any
reinforced plastic composite that is used in the manufacturing of fiberglass
boats within the facility.
(d) Any
facility in which the reinforced plastic composites operations not otherwise
excluded under paragraphs (A)(2)(a) to (A)(2)(c) of this rule use less than 1.2
tons per year of thermoset resins and gel coats that contain styrene combined.
The owner or operator of such facility shall maintain records of the amount (in
pounds) of thermoset resins and gel coats used each month that contain styrene.
These records shall be retained by the owner or operator for a period of not
less than five years and shall be made available to the director or any
authorized representative of the director for review during normal business
hours.
(e) Any facility that has a
potential to emit for VOC of less than 10.0 tons per year for all reinforced
plastic composites production operations combined. The owner or operator of
such facility shall maintain an up-to-date record of the potential to emit for
VOC from all reinforced plastic composites production operations, shall employ
emission factors or emission estimates in the calculation of the potential to
emit that meet paragraph (E) of this rule, shall maintain the records specified
in paragraph (P)(2) of this rule for any sheet molding compound manufacturing
machine, and within fifteen days after the end of each month, and shall
maintain a record of the VOC emissions from any SMC manufacturing machine for
the recent month and the rolling twelvemonth period. However, this exclusion is
not available for any facility that has, or once had, a potential to emit for
VOC equal to or greater than 10.0 tons per year for all reinforced plastic
composites production operations combined on or after December 14, 2010.
(3) Upon achieving
compliance with this rule, the reinforced plastic composites production
operations at the facility are not required to meet rule
3745-21-07 of the Administrative
Code.
(B) Definitions.
The definitions applicable to this rule are contained in
paragraphs (A), (B) and (GG) of rule
3745-21-01 of the Administrative
Code.
(C) Affected
operations.
(1) Except as otherwise provided
in paragraphs (C)(2) and (C)(3) of this rule, the affected operations consist
of all parts of the reinforced plastic composites production facility engaged
in the following operations:
(a) Open
molding.
(b) Compression/injection
molding.
(c) Centrifugal
casting.
(d) Continuous
lamination.
(e) Continuous
casting.
(f) Polymer
casting.
(g) Pultrusion.
(h) Sheet molding compound (SMC)
manufacturing.
(i) Bulk molding
compound (BMC) manufacturing.
(j)
Mixing.
(k) Cleaning of equipment
used in reinforced plastic composites manufacture.
(l) VOC-containing materials
storage.
(m) Repair operations on
reinforced plastic composites parts that are manufactured at the facility.
(2) The following
operations and materials are specifically excluded from in this rule:
(a) Application of mold sealing and release
agents.
(b) Mold stripping and
cleaning.
(c) Repair of reinforced
plastic composites parts that the facility did not manufacture, including
non-routine manufacturing of parts.
(d) Personal activities that are not part of
the manufacturing operations (such as hobby shops on military bases).
(e) Prepreg materials.
(f) Non-gel coat surface coatings.
(g) Application of putties, polyputties, and
adhesives.
(h) Repair or production
materials that do not contain resin or gel coat.
(i) Research and development operations as
defined under section
3704.01 of the Revised
Code.
(j) Polymer
casting.
(k) Any closed molding
operation other than compression/injection molding (for example, resin transfer
molding).
[Note: The exclusion of certain operations from this rule
applies only to operations specifically listed in this paragraph. This rule
still applies to any colocated operations. For example, although polymer
casting and resin transfer molding operations are specifically excluded from
this rule, any gel coating, mixing, VOC-containing materials storage, or
cleaning operation associated with a polymer casting operation or a resin
transfer molding operation is still subject to this rule.]
(3) Production resins
that shall meet military specifications are allowed to meet the monomer content
limit contained in that specification. In order for this exemption to be used,
the owner or operator shall supply to the appropriate Ohio EPA district office
or local air agency the specifications certified as accurate by the military
procurement officer, and those specifications shall state a requirement for a
specific resin, or a specific resin monomer content. Production resins for
which this exemption is used shall be applied with nonatomizing resin
application equipment unless the owner or operator can demonstrate this is
infeasible. The owner or operator shall keep a record of the resins for which
the owner or operator is using this exemption.
(D) VOC control.
(1) The owner or operator of the reinforced
plastic composites production facility shall meet the work practice standards
in table 1 of this rule for affected operations.
(2) If the reinforced plastic composites
production facility has VOC emissions less than the threshold of one hundred
tons of VOC per year from the combination of all open molding, centrifugal
casting, continuous lamination/ casting, pultrusion, SMC manufacturing, mixing,
and BMC manufacturing, the owner or operator shall meet the VOC emissions
limits in table 2 of this rule. A facility's VOC emissions threshold shall be
calculated in accordance with paragraph (F) of this rule.
(3) Except as provided in paragraph (D)(4) of
this rule, if the reinforced plastic composites production facility has VOC
emissions equal to or greater than the threshold of one hundred tons of VOC per
year from the combination of all open molding, centrifugal casting, continuous
lamination/casting, pultrusion, SMC manufacturing, mixing, and BMC
manufacturing, the owner or operator shall reduce the total VOC emissions from
these operations by at least ninety-five per cent by weight. As an alternative
to meeting ninety-five per cent by weight, the owner or operator may meet the
VOC emissions limits in table 3 of this rule. A facility's VOC emissions
threshold shall be calculated in accordance with paragraph (F) of this
rule.
(4) If the reinforced plastic
composites production facility manufactures large reinforced plastic composites
parts using open molding or pultrusion operations, the specific open molding
and pultrusion operations used to produce large parts are not required to
reduce VOC emissions by ninety-five weight per cent, but shall meet the
emission limits in table 2 of this rule. A large open molding part is defined
as a part that, when the final finished part is enclosed in the smallest
rectangular six-sided box into which the part can fit, the total interior
volume of the box exceeds two hundred fifty cubic feet, or any interior sides
of the box exceed fifty square feet. A large pultruded part is a part that
exceeds an outside perimeter of twenty-four inches or has more than three
hundred fifty reinforcements.
(5)
Once a reinforced plastic composites production facility equals or exceeds the
one hundred tons of VOC per year threshold of paragraph (D)(3) of this rule on
or after December 14, 2009, the facility is always subject to paragraph (D)(3)
of this rule, except as otherwise provided in paragraph (D)(6) of this
rule.
(6) In the event a reinforced
plastic composites production facility equals or exceeds the one hundred tons
of VOC per year threshold of paragraph (D)(3) of this rule on or after December
14, 2009, but reduces emissions to less than the one hundred tons of VOC per
year threshold by no later than the compliance date of this rule, the facility
is not subject to paragraphs (D)(3) of this rule. If such reinforced plastic
composites production facility subsequently equals or exceeds the one hundred
tons of VOC per year threshold of paragraph (D)(3) of this rule, then the
facility becomes subject to paragraph (D)(3) of this rule.
(7) If the reinforced plastic composites
production facility has repair operations subject to this rule, these repair
operations shall meet table 1 and table 2 of this rule and are not required to
meet the ninety-five per cent VOC emissions reduction requirement in paragraph
(D)(3) of this rule.
(8) Except
where exempted under paragraph (D)(9) of this rule, any owner or operator of a
SMC manufacturing machine shall install and operate a VOC emission control
system that reduces the VOC emissions from the SMC manufacturing machine by at
least ninety-five per cent by weight (i.e., an overall control efficiency of at
least ninety-five per cent by weight).
(9) Exempted from the requirement of
paragraph (D)(8) of this rule is any uncontrolled SMC manufacturing machine
with VOC emissions of less than 25.0 tons per rolling twelve-month
period.
(10) If an add-on control
device is used to comply with this rule, such add-on control device shall meet
40 CFR part 63, subpart SS. The owner or operator shall also establish each
control device operating limit in 40 CFR part 63, subpart SS, that
applies.
(11) Alternatives.
The provisions of paragraphs (D)(1) to (D)(10) of this rule
shall not apply to any emissions unit that meets the following:
(a) The director has determined that best
available technology for the emissions unit, as required by rule
3745-31-05 of the Administrative
Code, is a control requirement or emission limitation that is either less
stringent than or inconsistent with paragraph (D) of this rule. Best available
technology shall be defined in accordance with division (F) of section
3704.01 of the Revised Code and,
for purposes of this paragraph, shall provide, where an emission limitation is
applicable, the lowest emission limitation that the emissions unit is capable
of meeting by the application of control technology that is reasonably
available considering technological and economic feasibility. Also, for an
emissions unit located within an ozone nonattainment area, the best available
technology determination shall comply with Section 193 (general savings clause)
of the Clean Air Act.
(b) The USEPA
has informed the Ohio EPA, in writing, prior to the issuance of a final
permit-to-install for the emissions unit, that the agency has no objection to
the issuance of the final permit and the control requirement or emission
limitation specified therein.
(c) A
final permit-to-install has been issued for the emissions unit pursuant to
Chapter 3745-31 of the Administrative Code. The permit-to-install shall contain
terms and conditions that specify the control requirement or emission
limitation that is the basis for the director's best available technology
determination for the emissions unit, as described in paragraph (D)(11)(a) of
this rule, and the permit-to-install shall be issued by the Ohio EPA in a
manner that makes the control requirement or emission limitation federally
enforceable.
(d) USEPA has approved
the alternative limitation as a revision to the Ohio state implementation plan.
(E) Procedures
for determination of VOC emissions factors for reinforced plastic composites
production operations and determination of monomer content of resins and gel
coats.
(1) Emissions factors are used in this
rule to determine compliance with certain VOC emissions limits in table 2 and
table 3 of this rule and to calculate VOC emissions. A person may use the
equations in table 1 of 40 CFR part 63, subpart WWWW to calculate such
emissions factors or may use any VOC emissions factor approved by USEPA, such
as emission factors or emission factor equations from AP-42. These equations
and emissions factors are intended to provide a method for one to demonstrate
compliance without the need to conduct a VOC emissions test. In lieu of these
equations and emissions factors, the owner or operator can elect to use
site-specific VOC emissions factors to demonstrate compliance and to calculate
VOC emissions provided the sitespecific VOC emissions factors are incorporated
in the facility's air emissions permit and are based on actual facility VOC
emissions test data using the test procedures in
40
CFR 63.5850 or paragraph (C) of rule
3745-21-10 of the Administrative Code. Stack test data for the facility shall
supersede emission factors and other emission estimating techniques.
(2) In order to determine the monomer content
of resins and gel coats, the owner or operator may rely on information provided
by the material manufacturer, such as manufacturer's formulation data and
material safety data sheets (MSDS), using the procedures specified in
paragraphs (E)(2)(a) to (E)(2)(c) of this rule, as applicable.
(a) Include in the total monomer content each
monomer compound that is present at 0.1 per cent by mass or more for
OSHA-defined carcinogens, as specified in paragraph A.6.4.1 of
29 CFR
1910.1200, appendix A and at 1.0 per cent by
mass or more for other monomer compounds.
(b) If the monomer content is provided by the
material supplier or manufacturer as a range, the owner or operator shall use
the upper limit of the range for determining compliance. If a separate
measurement of the total monomer content, such as an analysis of the material
by USEPA method 311 of 40 CFR part 63, appendix A, exceeds the upper limit of
the range of the total monomer content provided by the material supplier or
manufacturer, then the owner or operator shall use the measured monomer content
to determine compliance.
(c) If the
monomer content is provided as a single value, the owner or operator may use
that value to determine compliance. If a separate measurement of the total
monomer content is made and is less than two percentage points higher than the
value for total monomer content provided by the material supplier or
manufacturer, then the owner or operator still may use the provided value to
demonstrate compliance. If the measured total monomer content exceeds the
provided value by two percentage points or more, then the owner or operator
shall use the measured total monomer content to determine
compliance.
(F)
Calculation of facility's VOC emissions threshold.
(1) To calculate the facility's VOC emissions
threshold in tons per year for purposes of determining which requirements apply
under paragraph (D) of this rule, the owner or operator shall use the
procedures in either paragraph (F)(2) of this rule for new facilities prior to
startup, or paragraph (F)(3) of this rule for existing facilities and new
facilities after startup. A facility's VOC emissions threshold pertains to the
following operations: open molding, centrifugal casting, continuous
lamination/casting, pultrusion, SMC manufacturing, mixing, and BMC
manufacturing. The owner or operator is not required to calculate or report
emissions under this paragraph if the facility does not have any of those
operations. However, emissions calculation and emission reporting procedures in
other paragraphs of this rule still apply. For the facility's VOC emissions
threshold, calculate VOC emissions prior to any add-on control device, and do
not include VOC emissions from any resin or gel coat used in operations subject
to the boat manufacturing NESHAP, 40 CFR part 63, subpart VVVV, or from the
manufacture of large parts as defined in paragraph (D)(4) of this rule. A "new
facility" means a facility that has one or more operations specified in
paragraph (F)(1) of this rule in which all such operations have a startup on or
after December 14, 2009. An "existing facility" means a facility that has one
or more operations specified in paragraph (F)(1) of this rule in which and at
least one such operation has a startup prior to December 14, 2009.
(2) For new facilities prior to startup, the
owner or operator shall calculate a weighted average VOC emissions factor for
the operations specified in paragraph (F)(1) of this rule on a pounds of VOC
per ton of resin, monomer, or gel coat basis. Base the weighted average on the
projected operation for the twelve months subsequent to facility startup.
Multiply the weighted average VOC emissions factor by projected resin, monomer,
or gel coat use over the same period. The owner or operator may calculate a VOC
emissions factor based on the factors in table 1 of 40 CFR part 63, subpart
WWWW, or may use any VOC emissions factor approved by USEPA, such as factors
from AP-42, or VOC emissions test data from similar facilities. The organic HAP
emissions factors in table 1 of 40 CFR part 63, subpart WWWW are equivalent to
the VOC emissions factors for this rule.
(3) For existing facilities and new
facilities after startup, the owner or operator may use the procedures in
either paragraph (F)(3)(a), (F)(3)(b), or (F)(3)(c) of this rule for the
operations specified in paragraph (F)(1) of this rule. If the emission factors
for an existing facility have changed over the period of time prior to its
initial compliance date due to incorporation of pollution-prevention control
techniques, the existing facility may base the average emission factor on its
operations as they exist on the compliance date. If an existing or new facility
has accepted an enforceable permit limit that would result in less than one
hundred tons per year (per rolling twelve-month period) of VOC measured prior
to any add-on controls, and can demonstrate that it will operate at that level
subsequent to the compliance date, it can be deemed to be below the one hundred
tons per year threshold.
(a) Use a calculated
emission factor.
Calculate a weighted average VOC emissions factor on a pounds
per ton of resin, monomer, or gel coat basis. Base the weighted average on the
prior twelve months of operation. Multiply the weighted average VOC emissions
factor by resin, monomer, or gel coat use over the same period. The owner or
operator may calculate this VOC emissions factor based on the equations in
table 1 of 40 CFR part 63, subpart WWWW, or the owner or operator may use any
VOC emissions factor approved by USEPA, such as emission factors or emission
factor equations from AP-42, or site-specific VOC emissions factors if they are
supported by VOC emissions test data. The organic HAP emissions factors in
table 1 of 40 CFR part 63, subpart WWWW are equivalent to the VOC emissions
factors for this rule.
(b)
Conduct performance testing.
Conduct performance testing using the test procedures in
40
CFR 63.5850 or paragraph (C) of rule
3745-21-10 of the Administrative Code to determine a site-specific VOC
emissions factor in units of pounds of VOC per ton of resin, monomer, or gel
coat used. Conduct the test under conditions expected to result in the highest
possible VOC emissions. Multiply this factor by annual resin, monomer, or gel
coat use to determine annual VOC emissions. This calculation shall be repeated
and reported annually.
(c)
Pultrusion operations.
For pultrusion operations employing enclosures or resin
injection (direct or preform) pursuant to paragraph (I)(5)(b) of this rule,
actual emissions may be calculated as four tenths and one tenth, respectively,
of open line emissions, where open line emissions are calculated as specified
in air permits covering these operations.
(4) Existing facilities shall initially
perform this calculation based on their twelve months of operation prior to
December 14, 2009, and include this information with their applicability
notification report. Existing facilities shall repeat the calculation based on
their resin, monomer, and gel coat use in the twelve months prior to their
compliance date, and submit this information with the initial
compliance report.
(5) After the
initial compliance date, existing and new facilities shall calculate VOC
emissions over the twelve-month period ending June thirtieth or December
thirty-first, whichever date is the first date following the compliance date
specified in paragraph (R) of this rule. Subsequent calculations should cover
the periods in the semiannual compliance reports.
(G) Options for meeting the VOC emissions
limits for open molding and centrifugal casting operations.
The owner or operator shall use one of the following methods in
paragraphs (G)(1) to (G)(4) of this rule to meet the VOC emissions limits for
open molding or centrifugal casting operations specified in table 2 or table 3
of this rule. The owner or operator may use any control method that reduces VOC
emissions, including reducing resin and gel coat monomer content, changing to
nonatomized mechanical application, using covered curing techniques, and
routing part or all of the VOC emissions to an add-on control. The owner or
operator may use different compliance options for the different operations
listed in table 2 or table 3 of this rule. The necessary calculations shall be
completed within thirty days after the end of each month. The owner or operator
may switch between the compliance options in paragraphs (G)(1) to (G)(4) of
this rule. When the owner or operator changes to an option based on a
twelvemonth rolling average, the owner or operator shall base the average on
the previous twelve months of data calculated using the compliance option the
owner or operator is changing to, unless the owner or operator was previously
using an option that did not require the owner or operator to maintain records
of resin and gel coat use. In this case, the owner or operator shall
immediately begin collecting resin and gel coat use data and demonstrate
compliance twelve months after changing options.
(1) Demonstrate that an individual resin or
gel coat, as applied, meets the applicable emission limit in table 2 or table 3
of this rule.
(a) Calculate the actual VOC
emissions factor for each different process stream within each operation type.
A process stream is defined as each individual combination of resin or gel
coat, application technique, and control technique. Process streams within
operations types are considered different from each other if any of the
following four characteristics vary: the neat resin plus or neat gel coat plus
monomer content, the gel coat type, the application technique, or the control
technique. The owner or operator shall calculate VOC emissions factors for each
different process stream by using the appropriate equations in table 1 of 40
CFR part 63, subpart WWWW for open molding and for centrifugal casting, or
site-specific VOC emissions factors discussed in paragraph (E) of this rule.
The emission factor calculation should include any and all emission reduction
techniques used including any add-on controls. If vapor suppressants are used
to reduce VOC emissions, the owner or operator shall determine the vapor
suppressant effectiveness (VSE) by conducting testing according to the
procedures specified in 40 CFR part 63, Subpart WWWW, appendix A. If an add-on
control device is used to reduce VOC emissions, the owner or operator shall
determine the addon control factor by conducting capture and control efficiency
testing using the procedures specified in
40
CFR 63.5850. The VOC emissions factor
calculated from the equations in table 1 of 40 CFR part 63, subpart WWWW, or a
site-specific emissions factor, is multiplied by the addon control factor to
calculate the VOC emissions factor after control. The add-on control factor
used in the VOC emissions factor equations is calculated from the following
equation:
Add-on Control Factor = 1 - (% Control Efficiency / 100)
where:
Per cent control efficiency = value calculated from VOC
emissions test measurements made according to
40
CFR 63.5850.
(b) If the calculated emission factor is less
than or equal to the appropriate emission limit, the owner or operator has
demonstrated that this process stream complies with the emission limit in table
2 of this rule. It is not necessary that all process streams, considered
individually, demonstrate compliance to use this option for some process
streams. However, for any individual resin or gel coat being used, if any of
the process streams that include that resin or gel coat are to be used in any
averaging calculations described in paragraphs (G)(2) to (G)(4) of this rule,
then all process streams using that individual resin or gel coat shall be
included in the averaging calculations.
(2) Demonstrate that, on average, the
individual VOC emissions limits for each unique combination of operation type
and resin application method or gel coat type shown in table 2 of this rule
that applies to the facility are met.
(a)
Group the process streams described in paragraph (G)(1) of this rule by
operation type and resin application method or gel coat type listed in table 2
of this rule and then calculate a weighted average emission factor based on the
amounts of each individual resin or gel coat used for the last twelve months.
To do this, sum the product of each individual VOC emissions factor calculated
in paragraph (G)(1)(a) of this rule and the amount of neat resin plus and neat
gel coat plus usage that corresponds to the individual factors and divide the
numerator by the total amount of neat resin plus and neat gel coat plus used in
that operation type as shown in the following equation:
Click to
view image
where:
Actual Process Stream EFi = actual VOC
emissions factor for process stream i, pounds of VOC per ton of neat resin plus
or neat gel coat plus.
Materiali = the amount of neat resin
plus or neat gel coat plus used during the last twelve calendar months for
process stream i, tons.
n = number of process streams where the owner or operator
calculated a VOC emissions factor.
(b) The owner or operator may, but is not
required to, include process streams where the owner or operator has
demonstrated compliance as described in paragraph (G)(1) of this rule, subject
to the limitations described in paragraph (G)(1)(b) of this rule, and the owner
or operator is not required to and should not include process streams for which
the owner or operator will demonstrate compliance using the procedures in
paragraph (G)(4) of this rule.
(c)
Compare each VOC emissions factor calculated in paragraph (G)(2)(a) of this
rule with its corresponding VOC emissions limit in table 2 or table 3 of this
rule. If all emissions factors are equal to or less than
the
corresponding emission limits, then the operation is in compliance.
(3) Demonstrate
compliance with a weighted average VOC emissions limit.
Demonstrate each month that each weighted average of the VOC
emissions limits in table 2 or table 3 of this rule that apply are being met.
When using this option, the owner or operator shall demonstrate compliance with
the weighted average VOC emissions limit for all open molding operations, and
then separately demonstrate compliance with the weighted average VOC emissions
limit for all centrifugal casting operations. Open molding operations and
centrifugal casting operations may not be averaged with each other.
(a) Each month calculate the weighted average
VOC emissions limit for all open molding operations and the weighted average
VOC emissions limit for all centrifugal casting operations for the facility for
the last twelvemonth period to determine the VOC emissions limit the owner or
operator shall meet. To do this, multiply the individual VOC emissions limits
in table 2 or table 3 of this rule for each open molding (centrifugal casting)
operation type by the amount of neat resin plus or neat gel coat plus used in
the last twelve months for each open molding (centrifugal casting) operation
type, sum these results, and then divide this sum by the total amount of neat
resin plus and neat gel coat plus used in open molding (centrifugal casting)
over the last twelve months as shown in the following equation:
Click to
view image
where:
ELi= VOC emissions limit for operation
type i, pounds per ton from table 2 or table 3 of this rule.
Materiali = amount of neat resin plus or
neat gel coat plus used during the last twelve-month period for operation type
i, tons.
n = number of operations.
(b) Each month calculate the weighted average
VOC emissions factor for open molding and centrifugal casting. To do this,
multiply the actual open molding (centrifugal casting) operation VOC emissions
factors calculated in paragraph (G)(2)(a) of this rule and the amount of neat
resin plus and neat gel coat plus used in each open molding (centrifugal
casting) operation type, sum the results, and divide this sum by the total
amount of neat resin plus and neat gel coat plus used in open molding
(centrifugal casting) operations as shown in the following equation:
Click to
view image
where:
Actual Operation EFi = Actual VOC
emissions factor for operation type i, pounds of VOC per ton of neat resin plus
or neat gel coat plus.
Materiali = amount of neat resin plus or
neat gel coat plus used during the last twelve calendar months for operation
type i, tons.
n = number of operations.
(c) Compare the values calculated in
paragraphs (G)(3)(a) and (G)(3)(b) of this rule. If each twelve-month rolling
average VOC emissions factor is less than or equal to the corresponding
twelve-month rolling average VOC emissions limit, then the operation is in
compliance.
(4) Meet the
VOC emissions limit for one application method and use the same resins for all
application methods of that resin type.
This option is limited to resins of the same type. The resin
types for which this option may be used are noncorrosion-resistant,
corrosion-resistant or high strength, and tooling.
(a) For any combination of manual resin
application, mechanical resin application, filament application, or centrifugal
casting, the owner or operator may elect to meet the VOC emissions limit for
any one of these application methods and use the same resin in all of the resin
application methods listed in this paragraph. Table 4 of this rule presents the
possible combinations based on the owner or operator selecting the application
process that results in the highest allowable monomer content resin. If the
resin's monomer content is below the applicable value shown in the table 4 of
this rule, the resin is in compliance.
(b) The owner or operator may also use a
weighted average monomer content for each application method described in
paragraph (G)(4)(a) of this rule. Calculate the weighted average monomer
content monthly. Use the equation in paragraph (G)(2)(a) of this rule except
substitute monomer content for VOC emissions factor. The operation is in
compliance if the weighted average monomer content based on the last twelve
months of resin use is less than or equal to the applicable monomer contents in
the table 4 of this rule.
(c) The
owner or operator may simultaneously use the averaging provisions in paragraph
(G)(2) or (G)(3) of this rule to demonstrate compliance for any operations or
resins the owner or operator does not include in the compliance demonstrations
in paragraphs (G)(4)(a) and (G)(4)(b) of this rule. However, any resins for
which the owner or operator claims compliance under the option in paragraphs
(G)(4)(a) and (G)(4)(b) of this rule shall not be included in any of the
averaging calculations described in paragraph (G)(2) or (G)(3) of this
rule.
(d) The owner or operator
does not have to keep records of resin use for any of the individual resins
where the owner or operator demonstrates compliance under the option in
paragraph (G)(4)(a) of this rule unless the owner or operator elects to include
that resin in the averaging calculations described in paragraph (G)(4)(b) of
this rule.
(H)
Options for meeting the VOC emissions limits for continuous lamination/casting
operations.
For continuous casting/lamination operations, the owner or
operator shall use one or more of the options listed in paragraphs (H)(1) to
(H)(4) of this rule to meet the VOC emissions limits specified in table 2 or
table 3 of this rule and shall use the calculation procedures provided in
paragraphs (J) to (M) of this rule.
(1) Compliant line option.
Demonstrate that each continuous lamination line and each
continuous casting line complies with the applicable VOC emissions
limit.
(2) Averaging
option.
Demonstrate that all continuous lamination and continuous
casting lines combined, comply with the applicable VOC emissions limit.
(3) Add-on control device option.
If the operation shall meet the 58.5 weight per cent VOC
emissions reduction limit in table 2 of this rule, the owner or operator has
the option of demonstrating that the operation achieves ninety-five per cent
reduction of all wet-out area VOC emissions.
(4) Combination option.
Use any combination of options in paragraphs (H)(1) to (H)(3)
of this rule.
(I)
Options for meeting the standards for pultrusion operations subject to the
sixty per cent by weight VOC emissions reductions requirement.
For pultrusion operations, the owner or operator shall use one
or more of the options in paragraphs (I)(1) to (I)(5) of this rule to meet the
sixty weight per cent VOC emissions limit in table 2 of this rule.
(1) Achieve an overall reduction in VOC
emissions of sixty per cent by weight capturing the VOC emissions and venting
them to a control device or any combination of control devices. Conduct capture
and destruction efficiency testing as specified in
40
CFR 63.5850 to determine the per cent VOC
emissions reduction.
(2) Design,
install, and operate wet area enclosures and resin drip collection systems on
pultrusion machines that meet the following:
(a) The enclosure shall cover and enclose the
open resin bath and the forming area in which reinforcements are pre-wet or
wet-out and moving toward the die. The surfaces of the enclosure shall be
closed except for openings to allow material to enter and exit the
enclosure.
(b) For open bath
pultrusion machines with a radio frequency pre-heat unit, the enclosure shall
extend from the beginning of the resin bath to within 12.5 inches or less of
the entrance of the radio frequency pre-heat unit. If the stock that is within
12.5 inches or less of the entrance to the radio frequency pre-heat unit has
any drip, it shall be enclosed. The stock exiting the radio frequency pre-heat
unit is not required to be in an enclosure if the stock has no drip between the
exit of the radio frequency pre-heat unit to within 0.5 inches of the entrance
of the die.
(c) For open bath
pultrusion machines without a radio frequency pre-heat unit, the enclosure
shall extend from the beginning of the resin bath to within 0.5 inches or less
of the die entrance.
(d) For
pultrusion lines with pre-wet area prior to direct die injection, no more than
12.5 inches of open wet stock is permitted between the entrance of the first
pre-wet area and the entrance to the die. If the pre-wet stock has any drip, it
shall be enclosed.
(e) The total
open area of the enclosure shall not exceed two times the cross sectional area
of the puller window and shall comply with the following:
(i) All areas that are open need to be
included in the total open area calculation with the exception of access
panels, doors, or hatches that are part of the enclosure.
(ii) The area that is displaced by entering
reinforcement or exiting product is considered open.
(iii) Areas that are covered by brush covers
are considered closed.
(f) Open areas for level control devices,
monitoring devices, agitation shafts, and fill hoses shall have no more than
1.0 inch clearance.
(g) The access
panels, doors, or hatches that are part of the enclosure shall close tightly.
Damaged access panels, doors, or hatches that do not close tightly shall be
replaced.
(h) The enclosure may not
be removed from the pultrusion line, and access panels, doors, or hatches that
are part of the enclosure shall remain closed whenever resin is in the bath,
except for the time period discussed in paragraph (I)(2)(i) of this
rule.
(i) The maximum length of
time the enclosure may be removed from the pultrusion line or the access
panels, doors, or hatches and may be open, is thirty minutes per eight-hour
shift, forty-five minutes per twelve-hour shift, or ninety minutes per day if
the machine is operated for twenty-four hours in a day. The time restrictions
do not apply if the open doors or panels do not cause the limit of two times
the puller window area to be exceeded. Facilities may average the times that
access panels, doors, or hatches are open across all operating lines. In that
case the average shall not exceed the times shown in this paragraph. All lines
included in the average shall have operated the entire time period being
averaged.
(j) No fans, blowers, or
air lines may be allowed within the enclosure. The enclosure shall not be
ventilated.
(3) Use direct
die injection pultrusion machines with resin drip collection systems that meet
the following:
(a) All the resin that is
applied to the reinforcement is delivered directly to the die.
(b) No exposed resin is present, except at
the face of the die.
(c) Resin drip
is captured in a closed system and recycled back to the process.
(4) Use a preform
injection system that meets the definition in paragraph (GG) of rule
3745-21-01 of the Administrative
Code.
(5) Use any combination of
options in paragraphs (I)(1) to (I)(4) of this rule in which different
pultrusion lines comply with different options described in paragraphs (I)(1)
to (I)(4) of this rule, in addition to one of the following:
(a) Each individual pultrusion machine meets
the sixty per cent reduction requirement.
(b) The weighted average reduction based on
resin throughput of all pultrusion machines combined is sixty per cent. For
purposes of the average per cent reduction calculation, wet area enclosures
reduce VOC emissions by sixty per cent, and direct die injection and preform
injection reduce VOC emissions by ninety per cent. For averaging purposes, zero
reduction credit is earned during production on lines that have not installed
and operated enclosures or injection systems as described in paragraphs (I)(2)
to (I)(4) of this rule.
(J) Calculation of annual uncontrolled and
controlled VOC emissions from wet-out areas and ovens for continuous
lamination/casting operations.
To calculate the annual uncontrolled and controlled VOC
emissions from the wet-out areas and from the ovens of continuous
lamination/casting operations, the owner or operator shall develop uncontrolled
and controlled wet-out area and uncontrolled and controlled oven VOC emissions
estimation equations or factors to apply to each formula applied on each line,
determine how much of each formula for each end product is applied each year on
each line, and assign uncontrolled and controlled wet-out area and uncontrolled
and controlled oven VOC emissions estimation equations or factors to each
formula. The owner or operator shall determine the overall capture efficiency
using the procedures in
40
CFR 63.5850.
(1) To develop uncontrolled and controlled
VOC emissions estimation equations and factors, the owner or operator shall, at
a minimum, do the following:
(a) Identify each
end product and the thickness of each end product produced on the line.
Separate end products into the following end product groupings, as applicable:
corrosion-resistant gel coated end products, noncorrosion-resistant gel coated
end products, corrosion-resistant non-gel coated end products, and
noncorrosion-resistant non-gel coated end products. This step creates end
product/thickness combinations.
(b)
Identify each formula used on the line to produce each end product/ thickness
combination. Identify the amount of each such formula applied per year. Rank
each formula used to produce each end product/thickness combination according
to usage within each end product/thickness combination.
(c) For each end product/thickness
combination being produced, select the formula with the highest usage rate for
testing.
(d) If not already
selected, also select the worst-case formula (likely to be associated with the
formula with the highest monomer content, type of monomer, application of gel
coat, thin product, low line speed, higher resin table temperature) amongst all
formulae. (The owner or operator may use the results of the worst-case formula
test for all formulae if desired to limit the amount of testing
required.)
(e) For each formula
selected for testing, conduct at least one test (consisting of three runs).
During the test, track information on monomer content and type of monomer, end
product thickness, line speed, and resin temperature on the wet-out area
table.
(f) Using the test results,
develop uncontrolled and controlled VOC emissions estimation equations (or
factors) or series of equations (or factors) that best fit the results for
estimating uncontrolled and controlled VOC emissions, taking into account the
monomer content and type of monomer, end product thickness, line speed, and
resin temperature on the wet-out area table.
(2) In lieu of using the method specified in
paragraph (J)(1) of this rule for developing uncontrolled and controlled VOC
emissions estimation equations and factors, the owner or operator may use
either of the following methods:
(a) For
either uncontrolled or controlled VOC emissions estimates, the owner or
operator may use previously established, facility-specific VOC emissions
equations or factors, provided the owner or operator allow estimation of both wet-out
area and oven VOC emissions, where necessary, and have been approved by the
appropriate Ohio EPA district office or local air agency. If a previously
established equation or factor is specific to the wet-out area only, or to the
oven only, then the owner or operator shall develop the corresponding
uncontrolled or controlled equation or factor for the other VOC emissions
source.
(b) For uncontrolled
(controlled) VOC emissions estimates, the owner or operator may use controlled
(uncontrolled) VOC emissions estimates and control device destruction
efficiency to calculate the uncontrolled (controlled) VOC emissions provided
the control device destruction efficiency was calculated at the same time the
owner or operator collected the data to develop the facility's
controlled (uncontrolled) VOC emissions estimation equations and factors.
(3) The owner or
operator shall assign to each formula an uncontrolled VOC emissions estimation
equation or factor based on the end product/thickness combination for which
that formula is used.
(4)
Calculation of annual uncontrolled and annual controlled VOC emissions from
wet-out areas and ovens.
(a) To calculate the
annual uncontrolled VOC emissions from wet-out areas that do not have any
capture and control and from wet-out areas that are captured by an enclosure,
but are vented to the atmosphere and not to a control device, multiply each
formula's annual usage by its appropriate VOC emissions estimation equation or
factor and sum the individual results.
(b) To calculate the annual uncontrolled VOC
emissions that escape from the enclosure on the wet-out area, multiply each
formula's annual usage by the appropriate uncontrolled VOC emissions estimation
equation or factor, sum the individual results, and multiply the summation by
one minus the per cent capture (expressed as a fraction).
(c) To calculate the annual uncontrolled oven
VOC emissions, multiply each formula's annual usage by
the
appropriate uncontrolled VOC emissions estimation equation or factor and sum
the individual results.
(d) To
calculate the annual controlled VOC emissions, multiply each formula's annual
usage by the appropriate VOC emissions estimation equation or
factor and sum the individual results to obtain total annual controlled VOC
emissions.
(5) Where a
facility is calculating both uncontrolled and controlled VOC emissions
estimation equations and factors, the owner or operator shall test the same
formulae. In addition, the owner or operator shall develop both sets of
equations and factors from the same tests.
(K) Determination of the capture efficiency
of the enclosure on the wet-out area and the capture efficiency of the oven for
continuous lamination/casting operations.
(1)
The capture efficiency of a wet-out area enclosure is assumed to be one hundred
per cent if it meets the design and operation requirements for a permanent
total enclosure (PTE) specified in USEPA method 204 of 40 CFR part 51, appendix
M. If a PTE does not exist, then a temporary total enclosure shall be
constructed and verified using USEPA method 204, and capture efficiency testing
shall be determined using USEPA methods 204B to E of 40 CFR part 51, appendix
M.
(2) The capture efficiency of an
oven is to be considered one hundred per cent, provided the oven is operated
under negative pressure.
(L) Procedures to determine how much neat
resin plus is applied to the line and how much neat gel coat plus is applied to
the line for continuous lamination/casting operations.
Use the following procedures to determine how much neat resin
plus and neat gel coat plus is applied to the line each year:
(1) Track formula usage by end
product/thickness combinations.
(2)
Use in-house records to show usage. This may be either from automated systems
or manual records.
(3) Record daily
the usage of each formula/end product combination on each line. This is to be
recorded at the end of each run ( i.e., when a changeover in formula or product
is made) and at the end of each shift.
(4) Sum the amounts from the daily records to
calculate annual usage of each formula/ end product combination by
line.
(M) Calculation of
per cent reduction to demonstrate compliance for continuous lamination/ casting
operations.
The owner or operator shall calculate per cent reduction for
continuous lamination/ casting operations using any of the following
methods:
(1) Compliant line option.
If all of the wet-out areas have a PTE that meets USEPA method
204 of 40 CFR part 51, appendix M, and all of the wet-out area VOC emissions
and oven VOC emissions are vented to an add-on control device, use the equation
in paragraph (M)(1)(a) of this rule to demonstrate compliance. In all other
situations, use the equation in paragraph (M)(1)(b) of this rule to demonstrate
compliance.
(a)
Click to
view image
PR = ((Inlet - Outlet) / Inlet) x
100
where:
PR = per cent reduction.
Inlet = VOC emissions entering the control device, pounds of
VOC per year.
Outlet = VOC emissions exiting the control device to the
atmosphere, pounds of VOC per year.
(b)
Click to
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PR = (((WAEci +
Oci) - (WAEco +
Oco)) / (WAEci +
WAEu + Oci +
Ou)) x 100
where:
PR = per cent reduction.
Oci = oven VOC emissions, pounds of VOC
per year, vented to a control device.
Oco = oven VOC emissions, pounds of VOC
per year, from the control device outlet.
Ou = oven VOC emissions, pounds of VOC
per year, not vented to a control device.
WAEci = wet-out area VOC emissions,
pounds of VOC per year, vented to a control device.
WAEco = wet-out area VOC emissions,
pounds of VOC per year, from the control device outlet.
WAEu = wet-out area VOC emissions,
pounds of VOC per year, not vented to a control
device.
(2)
Averaging option.
Use the following equation to calculate per cent
reduction:
Click to
view image
where:
PR = per cent reduction.
Ojci = VOC emissions from oven j, pounds
of VOC per year, sent to a control device.
Ojco = VOC emissions from oven j, pounds
of VOC per year, at the outlet of the control device.
Oju = VOC emissions from oven j, pounds
of VOC per year, not sent to a control device.
WAEici = wet-out area VOC emissions from
wet-out area i, pounds of VOC per year, sent to a control device.
WAEico = wet-out area VOC emissions from
wet-out area i, pounds of VOC per year, at the outlet of a control
device.
WAEiu = wet-out area VOC emissions from
wet-out area i, pounds of VOC per year, not sent to a control device.
m = number of wet-out areas.
n = number of ovens.
(3) Add-on control device option.
Use the equation in paragraph (M)(1)(a) of this rule to
calculate per cent reduction.
(4) Combination option.
Use the equations in paragraphs (M)(1)(a), (M)(1)(b), and
(M)(2) of this rule, as applicable, to calculate per cent reduction.
(N) Calculation of a VOC
emissions factor to demonstrate compliance for continuous lamination/casting
operations.
(1) Compliant line option.
Use the following equation to calculate a VOC emissions factor
in pounds of VOC per ton of neat resin plus and neat gel coat plus.
Click to
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E = (WAEu +
WAEc + Ou +
Oc) / (R + G)
where:
E = VOC emissions factor in pounds of VOC per ton of neat resin
plus and neat gel coat plus.
WAEu = uncontrolled wet-out area VOC
emissions, pounds of VOC per year.
WAEc = controlled wet-out area VOC
emissions, pounds of VOC per year.
Ou = uncontrolled oven VOC emissions,
pounds of VOC per year.
Oc = controlled oven VOC emissions, pounds of VOC per
year.
R = total usage of neat resin plus, tons per year.
G = total usage of neat gel coat plus, tons per
year.
(2) Averaging option.
Use the following equation to demonstrate compliance:
Click to
view image
where:
E = VOC emissions factor in pounds of VOC per ton of resin and
gel coat.
WAEui = uncontrolled VOC emissions from
wet-out area i, pounds of VOC per year.
WAEci = controlled VOC emissions from
wet-out area i, pounds of VOC per year.
Ouj = uncontrolled VOC emissions from
oven j, pounds of VOC per year.
Ocj = controlled VOC emissions from oven
j, pounds of VOC per year.
i = number of wet-out areas.
j = number of ovens.
m = number of wet-out areas uncontrolled.
n = number of ovens uncontrolled.
o = number of wet-out areas controlled.
p = number of ovens controlled.
R = total usage of neat resin plus, tons per year.
G = total usage of neat gel coat plus, tons per year.
(3) Combination option.
Use the equations in paragraphs (N)(1) and (N)(2) of this rule,
as applicable, to demonstrate compliance.
(O) Demonstration of continuous compliance
and the associated monitoring and data collection requirements.
(1) Demonstration of continuous compliance.
(a) The owner or operator shall demonstrate
continuous compliance with each VOC control requirement in paragraph (D) of
this rule that applies to the affected operations according to the following
methods:
(i) Compliance with VOC emissions
limits for affected operations using add-on control devices is demonstrated by
following the procedures in 40 CFR part 63, subpart SS, which include the use
of continuous parameter monitors. Affected operations using addon control
devices may also use continuous emissions monitors to demonstrate continuous
compliance as an alternative to continuous parameter monitors.
(ii) Compliance with VOC emissions limits is
demonstrated by maintaining a VOC emissions factor value less than or equal to
the appropriate VOC emissions limit listed in table 2 or table 3 of this rule,
on a twelve-month rolling average, or by including in each compliance report a
statement that individual resins and gel coats, as applied, meet the
appropriate VOC emissions limits, as discussed in paragraph (O)(2)(c) of this
rule.
(iii) Compliance with monomer
content limits in table 4 of this rule is demonstrated by maintaining an
average monomer content value less than or equal to the appropriate monomer
contents listed in table 4 of this rule, on a twelve-month rolling average, or
by including in each compliance report a statement that resins and gel coats
individually meet the appropriate monomer content limits in table 4 of this
rule, as discussed in paragraph (G)(4)(d) of this rule.
(iv) Compliance with the work practice
standards in table 1 of this rule is demonstrated by performing the work
practice required for the affected operation.
(b) The owner or operator shall report each
deviation from each VOC control requirement in paragraph (D) of this rule that
applies. The deviations shall be reported according to paragraph (Q) of this
rule.
(c) Except as provided in
paragraph (O)(1)(d) of this rule, during periods of startup, shutdown or
malfunction, the owner or operator shall meet the VOC emissions limits and work
practice standards that apply.
(d)
When an add-on control device is used to meet a VOC control requirement in
paragraph (D) of this rule, the owner or operator is not required to meet that
VOC control requirement during periods of startup, shutdown, or malfunction,
but the owner or operator shall operate the affected operation to minimize
emissions to the greatest extent which is consistent with safety and good air
pollution control practice.
(e)
Deviations that occur during a period of malfunction for those affected
operations and standards specified in paragraph (O)(1)(d) of this rule are not
violations if the owner or operator demonstrates to the director's satisfaction
that the owner or operator was operating in accordance with paragraph (O)(1)(d)
of this rule. The director will determine whether deviations that occur during
a period of startup, shutdown, and malfunction are violations.
(2) Monitoring and data
collection requirements to demonstrate continuous compliance.
(a) If using an add-on control device, the
owner or operator shall during production collect and keep a record of data as
indicated in 40 CFR part 63, subpart SS and shall monitor and collect the
following data:
(i) Except for monitoring
malfunctions, associated repairs, and required quality assurance or control
activities (including, as applicable, calibration checks and required zero and
span adjustments), the owner or operator shall conduct all monitoring in
continuous operation (or collect data at all required intervals) at all times
that the controlled operation is operating.
(ii) The owner or operator may not use data
recorded during monitoring malfunctions, associated repairs, and required
quality assurance or control activities for purposes of this rule, including
data averages and calculations, or fulfilling a minimum data availability
requirement, if applicable. The owner or operator shall use all the data
collected during all other periods in assessing the operation of the control
device and associated control system.
(iii) At all times, the owner or operator
shall maintain necessary parts for routine repairs of the monitoring
equipment.
(iv) A monitoring
malfunction is any sudden, infrequent, not reasonably preventable failure of
the monitoring equipment to provide valid data. Monitoring failures that are
caused in part by poor maintenance or careless operation are not
malfunctions.
(b) For
meeting any VOC emissions limits based on a VOC emissions limit specified in
table 2 or table 3 of this rule, the owner or operator shall collect and keep
records of resin and gel coat use, monomer content, and operation where the
resin is used. If the owner or operator is averaging monomer contents to meet
any monomer content limits specified in table 4 of this rule, the owner or
operator shall collect and keep records of resin and gel coat use, monomer
content, and operation where the resin is used. Resin use records may be based
on purchase records if the owner or operator can reasonably estimate how the
resin is applied. The monomer content records may be based on MSDS or on resin
specifications supplied by the resin supplier.
(c) Resin and gel coat use records are not
required for the individual resins and gel coats that are demonstrated, as
applied, to meet their applicable emission limit as defined in paragraph (G)(1)
of this rule. However, the owner or operator shall retain the records of resin
and gel coat monomer content, and the owner or operator shall include the list
of these resins and gel coats and identify their application methods in the
semiannual compliance reports. If after the owner or operator has initially
demonstrated that a specific combination of an individual resin or gel coat,
application method, and controls meets an applicable emission limit, and the
resin or gel coat changes or the monomer content increases, or the owner or
operator changes the application method or controls, then the owner or operator
again shall demonstrate that the individual resin or gel coat meets its
emission limit as specified in paragraph (G)(1) of this rule. If any of the
previously mentioned changes results in a situation where an individual resin
or gel coat exceeds its applicable emission limit in table 2 or table 3 of this
rule, the owner or operator shall begin collecting resin and gel coat use
records and calculate compliance using one of the averaging options on a
twelve-month rolling average.
(d)
For each pultrusion machine, the owner or operator shall record all times that
doors or covers of wet area enclosures are open and there is resin present in
the resin bath.
(P) Recordkeeping.
(1) The owner or operator shall keep the
following records:
(a) A copy of each
applicability notification and compliance status report submitted to comply
with this rule, including all documentation supporting any applicability or
compliance status.
(b) For any
add-on control device, all records required in 40 CFR part 63, subpart SS, to
show continuous compliance with this rule.
(c) For operations listed in tables 2, 3, and
4 of this rule all data, assumptions, and calculations used to determine
monomer contents and VOC emissions factors.
(d) For any continuous laminating/casting
operation:
(i) All data, assumptions, and
calculations used to determine monomer contents, VOC emissions factors, per
cent reduction of VOC emissions, or pounds of VOC per ton as
applicable.
(ii) A brief
description of the rationale for the assignment of a VOC emissions equation or
VOC emissions factor to each resin or gel coat formula.
(iii) When using facility-specific VOC
emissions estimation equations or factors, all data, assumptions, and
calculations used to derive the VOC emissions estimation equations and factors
and identification and rationale for the worst-case resin or gel coat
formula.
(iv) For all VOC emissions
estimation equations and VOC emissions factors, documentation that USEPA has
approved them. This requirement does not apply to VOC emissions estimation
equations and VOC emissions factors found in table 1 of 40 CFR part 63, subpart
WWWW or AP-42.
(e) A
certified statement that operations are in compliance with the work practice
standards specified in table 1 of this rule, as applicable.
(2) Regardless of any
exclusion in paragraph (A)(2)(e) of this rule, the owner or operator of a SMC
manufacturing machine shall keep the following records:
(a) Monthly production records of the
following operational data for each SMC manufacturing machine:
(i) The amount of SMC produced for each type
of SMC product.
(ii) The monomer
content of each SMC product.
(b) Monthly VOC emissions records for each
SMC manufacturing machine that show the VOC emissions factor used for each SMC
product, including a citation of the source of the emission factor, and the
results of the VOC emission calculations.
(3) For any uncontrolled SMC manufacturing
machine exempted under paragraph (D) (9) of this rule, the owner or operator
shall record the VOC emissions from that SMC manufacturing machine for the
recent month and rolling twelve-month period within fifteen days after the end
of each month. The owner or operator shall notify the appropriate Ohio EPA
district office or local air agency of any record showing the SMC manufacturing
machine exceeded the applicable VOC emissions limit. A copy of such record
shall be sent to the appropriate Ohio EPA district office or local air agency
within forty-five days after the exceedance occurs.
(4) All records specified under paragraphs
(P)(1) to (P)(3) of this rule shall be retained by the owner or operator for a
period of not less than five years following the date of each occurrence,
measurement, maintenance, corrective action, report, or record and shall be
made available to the director or any authorized representative of the director
for review during normal business hours.
(Q) Reporting.
(1) The owner or operator of a facility that
has reinforced plastic composites production operations subject to this rule
shall submit semiannual compliance status reports containing the information
specified in paragraphs (Q)(3)(a) to (Q)(3)(h) of this rule. The semiannual
compliance status reports shall be submitted no later than thirty calendar days
after the end of each six-month period to the appropriate Ohio EPA district
office or local air agency. The first compliance report shall cover the period
beginning on the compliance date that is specified in paragraph (R) of this
rule and ending on June thirtieth or December thirty-first, whichever date is
the first date following the end of the first calendar half after the
compliance date that is specified in paragraph (R) of this rule. Each
subsequent compliance report shall cover the semiannual reporting period from
January first through June thirtieth or the semiannual reporting period from
July first through December thirty-first.
(2) For each facility that is subject to
permitting requirements pursuant to Chapter 3745-77 of the Administrative Code
(pertaining to Title V permits), the owner or operator may submit the first and
subsequent semiannual compliance reports according to the dates established
within the facility's Title V permit, instead of according to the dates
specified in paragraph (Q)(1) of this rule.
(3) The compliance report shall contain the
following information:
(a) Company name and
address.
(b) Statement by a
responsible official with that official's name, title, and signature,
certifying the truth, accuracy, and completeness of the content of the
report.
(c) Date of the report and
beginning and ending dates of the reporting period.
(d) If there are no deviations from any VOC
emissions limitations and operating limits that apply and there are no
deviations from the work practice standards in table 1 of this rule, a
statement that there were no deviations from VOC emissions limitations,
operating limits, or work practice standards during the reporting
period.
(e) If there were no
periods during which a continuous monitoring system (CMS), including a
continuous emissions monitoring system and a continuous parameter monitoring
system, were out of control, a statement that there were no periods during
which the CMS was out of control during the reporting period.
(f) For each deviation from a VOC emissions
limitation or operating limit and for each deviation from a work practice
standard that occurs at an affected operation where a CMS is not used to comply
with the VOC emissions limitation, operating limit, or work practice standard
in this rule, the compliance report shall contain the following information:
(i) The total operating time of each affected
operation during the reporting period.
(ii) Information on the number, duration, and
cause of deviations (including unknown cause, if applicable), as applicable,
and the corrective action taken.
(g) For each deviation from an VOC emissions
limitation or operating limit that occurs at an affected operation where a CMS
is used to comply with the VOC emissions limitation or operating limit in this
rule, the compliance report shall include the following information:
(i) The date and time that each malfunction
started and stopped.
(ii) The date
and time that each CMS was inoperative, except for zero (low-level) and
high-level checks.
(iii) The date,
time, and duration that each CMS was out of control, as defined in paragraph
(c)(7) of
40 CFR
63.8, including the information in paragraph
(c)(8) of
40 CFR
63.8.
(iv) The date and time that each deviation
started and stopped, and whether each deviation occurred during a period of
startup, shutdown, or malfunction, or during another period.
(v) A summary of the total duration of the
deviation during the reporting period and the total duration as a per cent of
the total source operating time during that reporting period.
(vi) A breakdown of the total duration of the
deviations during the reporting period into those that are due to startup,
shutdown, control equipment problems, process problems, other known causes, and
other unknown causes.
(vii) A
summary of the total duration of CMS downtime during the reporting period and
the total duration of CMS downtime as a per cent of the total source operating
time during that reporting period.
(viii) An identification of each VOC that was
monitored at the affected source.
(ix) A brief description of the affected
operations.
(x) A brief description
of the CMS.
(xi) The date of the
latest CMS certification or audit.
(xii) A description of any changes in CMS,
processes, or controls since the last reporting period.
(h) Where multiple compliance options are
available, the owner or operator shall state in this compliance report if the
owner or operator has changed compliance options since the last compliance
report.
(4) The owner or
operator shall report if the facility exceeded the one hundred tons of VOC per
year emissions threshold if that exceedance would make the facility subject to
paragraph (D)(3) of this rule.
(5)
Each facility that has obtained a Title V permit pursuant to Chapter 3745-77 of
the Administrative Code shall report all deviations as described in this rule
in the semiannual monitoring report required by the Title V permit. If the
facility submits a semiannual compliance report pursuant to this rule along
with, or as part of, the semiannual monitoring report required by the
facility's Title V permit, and the semiannual compliance report includes all
required information concerning deviations from any VOC emissions limitation,
operating limit, or work practice standard in this rule, submission of the
semiannual compliance report shall be deemed to satisfy any obligation to
report the same deviations in the semiannual monitoring report. However,
submission of a compliance report shall not otherwise affect any obligation the
affected source may have to report deviations from permit requirements to the
appropriate Ohio EPA district office or local air agency.
(R) Compliance dates.
(1) Except where otherwise specified within
this rule, any owner or operator of an affected operation that is subject to
this rule shall comply with this rule by no later than the following dates:
(a) For any affected operation for which
installation commenced before December 14, 2009, the compliance date of the
affected operation is the initial startup of the affected operation or December
14, 2010, whichever is later.
(b)
For any affected operation for which installation commenced on or after
December 14, 2009, the compliance date of the affected operation is the date of
initial startup of the affected operation.
(2) If the reinforced plastic composites
production facility has VOC emissions less than the threshold of one hundred
tons of VOC per year from the combination of all open molding, centrifugal
casting, continuous lamination/ casting, pultrusion, SMC manufacturing, mixing,
and BMC manufacturing, and the facility subsequently increases VOC emissions to
meet or exceed the threshold of one hundred tons of VOC per year from the
combination of such operations, the compliance date of any affected operation
pertaining to a new VOC emission requirement is two years from the date that
the semiannual compliance report indicates the facility meets or exceeds the
threshold of one hundred tons of VOC per year.
(3) In the event an uncontrolled SMC
manufacturing machine is exempted under paragraph (D)(9) of this rule and is
later equipped with a VOC emission control system, the compliance date of the
SMC manufacturing machine pertaining to paragraph (D)(8) of this rule is the
date of first startup of the installed VOC emission control system for the SMC
manufacturing machine. Until the date of first startup of the installed VOC
emission control system for the SMC manufacturing machine, the SMC
manufacturing machine shall continue to comply with paragraph (D)(9) of this
rule.
(4) If an affected operation
is vented to an add-on control to meet a VOC emissions requirement specified
within the rule, the owner or operator shall demonstrate compliance by testing
the operation and the add-on control device in accordance with this rule within
ninety days after the compliance date of the affected operation.
(5) Additional testing of an affected
operation vented to an add-on control may be required by the director to ensure
continued compliance.
(S)
Applicability notification, permit application, and testing notification.
(1) The owner or operator of an affected
operation, as described in paragraph (C) of this rule, that is subject to this
rule and that has an initial startup date before December 14, 2009 shall notify
the appropriate Ohio EPA district office or local air agency in writing that
such operation is subject to this rule. The notification, which shall be
submitted not later than February 12, 2010, shall provide the following
information:
(a) Name and address of the owner
or operator.
(b) Address (i.e.,
physical location) of the facility.
(c) Equipment description and Ohio EPA
application number (if assigned) of the affected operation.
(d) Identification of the applicable
requirements, the means of compliance, and the compliance date for the affected
operation under this rule.
(e) An
application for an operating permit or an application for a modification to an
operating permit in accordance with Chapter 3745-77 of the Administrative Code
(for sources subject to the Title V permit program) or an application for a
permit-to-install and operate or an application for a modification to a
permit-to-install and operate in accordance with Chapter 3745-31 of the
Administrative Code (for sources not subject to the Title V permit program) for
each subject process that meets one of the following:
(i) The process does not possess an effective
operating permit or permit-to-install and operate.
(ii) The process possesses an effective
operating permit or permit-to-install and operate and the owner or operator
cannot certify in writing to the director that such subject process is in
compliance with this rule. An application for an operating permit or
permit-to-install and operate is not required provided the subject process is
operating under an effective permit and certifies compliance. Such
certification shall include all compliance certification requirements under
paragraph (Q)(3) of this rule.
(2) The owner or operator of an affected
operation, as described in paragraph (C) of this rule, that is subject to this
rule and that has an initial startup date on or after December 14, 2009 shall
notify the appropriate Ohio EPA district office or local air agency in writing
that the affected operation is subject to this rule. The notification, which
shall be submitted not later than either the date of initial startup of the
affected operation or February 12, 2010, whichever is later, shall provide the
information listed under paragraph (F)(1) of this rule. The application for a
permit to install under rule
3745-31-02 of the Administrative
Code may be used to fulfill the notification requirements of this
paragraph.
(3) For the compliance
testing of an affected operation that is vented to an add-on control device to
meet a VOC emissions requirement specified within this rule, the owner or
operator shall submit an intent to test that is in accordance with the
procedures of paragraph (A) of rule
3745-21-10 of the Administrative
Code and that includes the test procedures specified within this rule.
Table 1: Work practice standards. As required in paragraph
(D)(1) of this rule, the owner or operator shall meet the work practice
standards specified by type of operation in the following table:
|
Type of operation |
Work practice standards |
|
1. Compression/injection molding |
Uncover, unwrap or expose only one charge per mold
cycle per compression/injection molding machine. For machines with multiple
molds, one charge means sufficient material to fill all molds for one cycle.
For machines with robotic loaders, no more than one charge may be exposed prior
to the loader. For machines fed by hoppers, sufficient material may be
uncovered to fill the hopper. Hoppers shall be closed when not adding
materials. Materials may be uncovered to feed to slitting machines. Materials
shall be recovered after slitting. |
|
2. Cleaning operation (cleaning of equipment used in
reinforced plastic composites manufacture) |
Do not use cleaning solvents (cleaners) that have a VOC
content greater than 0.42 pound VOC per gallon, except cleaners used in closed
systems and used to clean cured resin from application equipment. Application
equipment includes any equipment that directly contacts resin. |
|
3. VOC-containing materials storage
operation |
Keep containers that store VOC-containing materials
closed or covered except during the addition or removal of materials. Bulk
VOC-containing materials storage tanks may be vented as necessary for
safety. |
|
4. SMC manufacturing operation |
a. Close or cover the resin delivery system to the
doctor box on each SMC manufacturing machine. The doctor box itself may be
open. |
|
b. Use a nylon containing film to enclose
SMC. |
|
5. All mixing or BMC manufacturing
operations1 |
a. Use mixer covers with no visible gaps present in the
mixer covers, except that gaps of up to 1.0 inch are permissible around mixer
shafts and any required instrumentation. |
|
b. Close any mixer vents when actual mixing is
occurring, except that venting is allowed during addition of materials, or as
necessary prior to adding materials or opening the cover for safety. Vents
routed to a ninety-five per cent efficient control device are exempt from this
requirement. |
|
c. Keep the mixer covers closed while actual mixing is
occurring except when adding materials or changing covers to the mixing
vessels. |
|
6. Pultrusion operation manufacturing parts that meet
the following criteria: one thousand or more reinforcements or the glass
equivalent of one thousand ends of one hundred thirteen yield roving or more;
and have a cross-sectional area of sixty square inches or more that is not
subject to the ninety-five per cent VOC emissions reduction
requirement |
a. Do not allow vents from the building ventilation
system, or local or portable fans to blow directly on or across the wet-out
area. |
|
b. Do not permit point suction of ambient air in the
wet-out area unless that air is directed to a control device. |
|
c. Use devices such as deflectors, baffles, and
curtains when practical to reduce air flow velocity across the wet-out
area. |
|
d. Direct any compressed air exhausts away from resin
and wet-out area. |
|
e. Convey resin collected from drip-off pans or other
devices to reservoirs, tanks, or sumps via covered troughs, pipes, or other
covered conveyance that shields the resin from the ambient air. |
|
f. Cover all reservoirs, tanks, sumps, or
VOC-containing materials storage vessels except when they are being charged or
filled. |
|
g. Cover or shield from ambient air resin delivery
systems to the wet-out area from reservoirs, tanks, or sumps where
practical. |
1Containers of five gallons or less
may be open when active mixing is taking place, or during periods when they are
in process (i.e., they are actively being used to apply resin). For polymer
casting mixing operations, containers with a surface area of five hundred
square inches or less may be open while active mixing is taking place.
Table 2: VOC Emissions limits for specific open molding,
centrifugal casting, pultrusion and continuous lamination/casting operations at
facilities with VOC emissions less than the threshold of one hundred tons of
VOC per year. As required in paragraph (D)(2) of this rule, the owner or
operator shall meet the VOC emissions limits specified by type of operation and
resin application method or gel coat type in the following table:
|
Type of operation |
Resin application method or gel coat
type |
VOC emissions
limit1 |
|
1. Open molding: corrosion-resistant and/or high
strength (CR/ HS) |
a. Mechanical resin application |
113 lb/ton |
|
b. Filament application |
171 lb/ton |
|
c. Manual resin application |
123 lb/ton |
|
2. Open molding: non-CR/HS |
a. Mechanical resin application |
88 lb/ton |
|
b. Filament application |
188 lb/ton |
|
c. Manual resin application |
87 lb/ton |
|
3. Open molding: tooling |
a. Mechanical resin application |
254 lb/ton |
|
b. Manual resin application |
157 lb/ton |
|
4. Open molding: low-flame spread/low-smoke
products |
a. Mechanical resin application |
497 lb/ton |
|
b. Filament application |
270 lb/ton |
|
c. Manual resin application |
238 lb/ton |
|
5. Open molding: shrinkage controlled
resins2 |
a. Mechanical resin application |
354 lb/ton |
|
b. Filament application |
215 lb/ton |
|
c. Manual resin application |
180 lb/ton |
|
6. Open molding: gel
coat3 |
a. Tooling gel coat |
440 lb/ton |
|
b. White/off white pigmented gel coat |
267 lb/ton |
|
c. All other pigmented gel coat |
377 lb/ton |
|
d. CR/HS or high performance gel coat |
605 lb/ton |
|
e. Fire retardant gel coat |
854 lb/ton |
|
f. Clear production gel coat |
522 lb/ton |
|
7. Centrifugal casting: CR/HS |
a. Resin application with the mold closed, and the mold
is vented during spinning and cure |
25 lb/ton4 |
|
b. Resin application with the mold closed, and the mold
is not vented during spinning and cure |
Not applicable (this is considered to be a closed
molding operation) |
|
c. Resin application with the mold open, and the mold
is vented during spinning and cure |
25 lb/ton4 |
|
d. Resin application with the mold open, and the mold
is not vented during spinning and cure |
Use the appropriate open molding emission
limit5 |
|
8. Centrifugal casting: non-CR/HS |
a. Resin application with the mold closed, and the mold
is vented during spinning and cure |
20 lb/ton4 |
|
b. Resin application with the mold closed, and mold is
not vented during the spinning and cure |
Not applicable (this is considered to be a closed
molding operation) |
|
c. Resin application with the mold open, and the mold
is vented during spinning and cure |
20 lb/ton4 |
|
d. Resin application with the mold open, and the mold
is not vented during spinning and cure |
Use the appropriate open molding emission 5
limit5 |
|
9.
Pultrusion6 |
Not applicable |
Reduce total VOC emissions by at least sixty per cent
by weight |
|
10. Continuous lamination/casting |
Not applicable |
Reduce total VOC emissions by at least 58.5 per cent by
weight or not exceed a VOC emissions limit of 15.7 pounds of VOC per ton of
neat resin plus and neat gel coat plus |
1VOC emissions limits for open
molding and centrifugal casting are expressed as pounds of VOC per ton of resin
or gel coat (pounds per ton). The operation shall be at or below these values
based on a twelve-month rolling average.
2This emission limit applies
regardless of whether the shrinkage controlled resin is used as a production
resin or a tooling resin.
3If applying gel coat with manual
application, for compliance purposes treat the gel coat as if it were applied
using atomized spray guns to determine both emission limits and emission
factors. If using multiple application methods and any portion of a specific
gel coat is applied using nonatomized spray, the owner or operator may use the
nonatomized spray gel coat equation to calculate an emission factor for the
manually applied portion of that gel coat. Otherwise, use the atomized spray
gel coat application equation to calculate emission factors.
4For compliance purposes, calculate
the VOC emission factor using only the appropriate centrifugal casting equation
in item 2 of table 1 of 40 CFR part 63, subpart WWWW, or a site-specific
emission factor for after the mold is closed as discussed in paragraph (E) (1)
of this rule.
5Calculate
the
emission factor using the appropriate open molding covered cure emission factor
in item 1 of table 1 of 40 CFR part 63, subpart WWWW, or a site-specific
emission factor as discussed in paragraph (E)(1) of this rule.
6Pultrusion machines that produce
parts that meet the following criteria: one thousand or more reinforcements or
the glass equivalent of one thousand ends of one hundred thirteen yield roving
or more; and have a cross sectional area of sixty square inches or more are not
subject to this requirement. the requirement is the work practice of air flow
management which is described in table 1 of this rule.
Table 3: Alternative VOC emissions limits for open molding,
centrifugal casting, and continuous lamination/casting operations at facilities
with VOC emissions equal to or greater than the threshold of one hundred tons
of VOC per year. As provided in paragraph (D)(3) of this rule, as an
alternative to the ninety-five per cent VOC emissions reductions requirement,
the owner or operator may meet the appropriate VOC emissions limits specified
by type of operation and resin application method, gel coat type, or vent
system type in the following table:
|
Type of operation |
Resin application method |
VOC emissions
limit1 |
|
1. Open molding: corrosion-resistant and/or high
strength (CR/HS) |
a. Mechanical resin application |
6 lb/ton |
|
b. Filament application |
9 lb/ton |
|
c. Manual resin application |
7 lb/ton |
|
2. Open molding: non-CR/ HS |
a. Mechanical resin application |
13 lb/ton |
|
b. Filament application |
10 lb/ton |
|
c. Manual resin application |
5 lb/ton |
|
3. Open molding: tooling |
a. Mechanical resin application |
13 lb/ton |
|
b. Manual resin application |
8 lb/ton |
|
4. Open molding: low flame spread/low smoke
products |
a. Mechanical resin application |
25 lb/ton |
|
b. Filament application |
14 lb/ton |
|
c. Manual resin application |
12 lb/ton |
|
5. Open molding: shrinkage controlled
resins |
a. Mechanical resin application |
18 lb/ton |
|
b. Filament application |
11 lb/ton |
|
c. Manual resin application |
9 lb/ton |
|
6. Open molding: gel coat: Open molding: gel
coat2 |
a. Tooling gel coat |
22 lb/ton |
|
b. White/off white pigmented gel coat |
22 lb/ton |
|
c. All other pigmented gel coat |
19 lb/ton |
|
d. CR/HS or high performance gel coat |
31 lb/ton |
|
e. Fire retardant gel coat |
43 lb/ton |
|
f. Clear production gel coat |
27 lb/ton |
|
7. Centrifugal casting: CR/
HS3,4 |
a. Uses a vent system that moves heated air through the
mold |
27 lb/ton |
|
b. Uses a vent system that moves ambient air through
the mold |
2 lb/ton |
|
8. Centrifugal casting:
non-CR/HS3,4 |
a. Uses a vent system that moves heated air through the
mold |
21 lb/ton |
|
b. Uses a vent system that moves ambient air through
the mold |
1 lb/ton |
|
9. Continuous lamination/ casting |
Not applicable |
1.47 lb/ton |
1For open molding and centrifugal
casting operations, the VOC emissions limits are expressed as pounds of VOC per
ton of resin or gel coat used (pound per ton). For a continuous
lamination/casting operation, the VOC emissions limit is expressed as pounds of
VOC per ton of neat resin plus and neat gel coat plus used. The operations
shall be at or below these values based on a twelve-month rolling
average.
2These limits are for spray
application of gel coat. Manual gel coat application shall be included as part
of spray gel coat application for compliance purposes using the same VOC
emissions factor equation and VOC emissions limit. If only gel coat is applied
with manual application, treat the manually applied gel coat as if it were
applied with atomized spray for compliance determinations.
3Centrifugal casting operations
where the mold is not vented during spinning and cure are considered to be
closed molding and are not subject to any emissions limit. Centrifugal casting
operations where the mold is not vented during spinning and cure, and the resin
is applied to the open centrifugal casting mold using mechanical or manual open
molding resin application techniques are considered to be open molding
operations and the appropriate open molding emission limits apply.
4Centrifugal casting operations
where the mold is vented during spinning and the resin is applied to the open
centrifugal casting mold using mechanical or manual open molding resin
application techniques, are to use the appropriate centrifugal casting emission
limit to determine compliance. Calculate the emission factor using the
appropriate centrifugal casting emission factor in table 1 of 40 CFR part 63,
subpart WWWW, or a site-specific emissions factor as discussed in paragraph
(E)(1) of this rule.
Table 4: Options allowing use of the same resin across
different operations that use the same resin type. As provided in paragraph
(G)(4) of this rule, when electing to use the same resin for multiple resin
application methods, the owner or operator may use any resin with a monomer
content less than or equal to the values shown in the following table, or any
combination of resins whose weighted average monomer content based on a
twelve-month rolling average is less than or equal to the values shown in the
following table:
|
Type of operation |
Resin application method |
Monomer content limit (per cent by weight of
resin) |
|
1. CR/HS resins, centrifugal
casting1,2 |
a. CR/HS
mechanical3 |
48.0 |
|
b. CR/HS filament application |
48.0 |
|
c. CR/HS manual |
48.0 |
|
2. CR/HS resins, nonatomized mechanical |
a. CR/HS filament application |
46.4 |
|
b. CR/HS manual |
46.4 |
|
3. CR/HS resins, filament application |
CR/HS manual |
42.0 |
|
4. Non-CR/HS resins, filament
application |
a. Non-CR/HS
mechanical3 |
45.0 |
|
b. Non-CR/HS manual |
45.0 |
|
c. Non-CR/HS centrifugal
casting1,2 |
45.0 |
|
5. Non-CR/HS resins, nonatomized
mechanical |
a. Non-CR/HS manual |
38.5 |
|
b. Non-CR/HS centrifugal
casting1,2 |
38.5 |
|
6. Non-CR/HS resins, centrifugal
casting1,2 |
Non-CR/HS manual |
37.5 |
|
7. Tooling resins, nonatomized
mechanical |
Tooling manual |
91.4 |
|
8. Tooling resins, manual |
Tooling atomized mechanical |
45.9 |
1If the centrifugal casting
operation blows heated air through the molds, then ninety-five per cent capture
and control shall be used if the owner or operator wishes to use this
compliance option.
2If the centrifugal casting molds
are not vented, the owner or operator may treat the centrifugal casting
operations as if the molds were vented if the owner or operator wishes
to use this compliance option.
3Nonatomized mechanical application
shall be used.
