218.100 | Introduction |
218.101 | Savings Clause |
218.102 | Abbreviations and Conversion Factors |
218.103 | Applicability |
218.104 | Definitions |
218.105 | Test Methods and Procedures |
218.106 | Compliance Dates |
218.107 | Operation of Afterburners |
218.108 | Exemptions, Variations, and Alternative Means of Control or Compliance Determinations |
218.109 | Vapor Pressure of Volatile Organic Liquids |
218.110 | Vapor Pressure of Organic Material or Solvent |
218.111 | Vapor Pressure of Volatile Organic Material |
218.112 | Incorporations by Reference |
218.113 | Monitoring for Negligibly-Reactive Compounds |
218.114 | Compliance with Permit Conditions |
SUBPART B: ORGANIC EMISSIONS FROM STORAGE | |
AND LOADING OPERATIONS | |
Section | |
218.119 | Applicability for VOL |
218.120 | Control Requirements for Storage Containers of VOL |
218.121 | Storage Containers of VPL |
218.122 | Loading Operations |
218.123 | Petroleum Liquid Storage Tanks |
218.124 | External Floating Roofs |
218.125 | Compliance Dates |
218.126 | Compliance Plan (Repealed) |
218.127 | Testing VOL Operations |
218.128 | Monitoring VOL Operations |
218.129 | Recordkeeping and Reporting for VOL Operations |
SUBPART C: ORGANIC EMISSIONS FROM MISCELLANEOUS EQUIPMENT | |
Section | |
218.141 | Separation Operations |
218.142 | Pumps and Compressors |
218.143 | Vapor Blowdown |
218.144 | Safety Relief Valves |
SUBPART E: SOLVENT CLEANING | |
Section | |
218.181 | Solvent Cleaning Degreasing Operations |
218.182 | Cold Cleaning |
218.183 | Open Top Vapor Degreasing |
218.184 | Conveyorized Degreasing |
218.185 | Compliance Schedule (Repealed) |
218.186 | Test Methods |
218.187 | Other Industrial Solvent Cleaning Operations |
SUBPART F: COATING OPERATIONS | |
Section | |
218.204 | Emission Limitations |
218.205 | Daily-Weighted Average Limitations |
218.206 | Solids Basis Calculation |
218.207 | Alternative Emission Limitations |
218.208 | Exemptions from Emission Limitations |
218.209 | Exemption from General Rule on Use of Organic Material |
218.210 | Compliance Schedule |
218.211 | Recordkeeping and Reporting |
218.212 | Cross-Line Averaging to Establish Compliance for Coating Lines |
218.213 | Recordkeeping and Reporting for Cross-Line Averaging Participating Coating Lines |
218.214 | Changing Compliance Methods |
218.215 | Wood Furniture Coating Averaging Approach |
218.216 | Wood Furniture Coating Add-On Control Use |
218.217 | Wood Furniture Coating and Flat Wood Paneling coating Work Practice Standards |
218.218 | Work Practice Standards for Paper Coatings, Metal Furniture Coatings, and Large Appliance Coatings |
218.219 | Work Practice Standards for Automobile and Light-Duty Truck Assembly Coatings and Miscellaneous Metal and Plastic Parts Coatings |
SUBPART G: USE OF ORGANIC MATERIAL | |
Section | |
218.301 | Use of Organic Material |
218.302 | Alternative Standard |
218.303 | Fuel Combustion Emission Units |
218.304 | Operations with Compliance Program |
SUBPART H: PRINTING AND PUBLISHING | |
Section | |
218.401 | Flexographic and Rotogravure Printing |
218.402 | Applicability |
218.403 | Compliance Schedule |
218.404 | Recordkeeping and Reporting |
218.405 | Lithographic Printing: Applicability |
218.406 | Provisions Applying to Heatset Web Offset Lithographic Printing Prior to March 15, 1996 (Repealed) |
218.407 | Emission Limitations and Control Requirements for Lithographic Printing Lines |
218.408 | Compliance Schedule for Lithographic Printing On and After March 15, 1996 (Repealed) |
218.409 | Testing for Lithographic Printing On and After March 15, 1996 |
218.410 | Monitoring Requirements for Lithographic Printing |
218.411 | Recordkeeping and Reporting for Lithographic Printing |
218.412 | Letterpress Printing Lines: Applicability |
218.413 | Emission Limitations and Control Requirements for Letterpress Printing Lines |
218.415 | Testing for Letterpress Printing Lines |
218.416 | Monitoring Requirements for Letterpress Printing Lines |
218.417 | Recordkeeping and Reporting for Letterpress Printing Lines |
SUBPART Q: SYNTHETIC ORGANIC CHEMICAL | |
AND POLYMER MANUFACTURING PLANT | |
Section | |
218.421 | General Requirements |
218.422 | Inspection Program Plan for Leaks |
218.423 | Inspection Program for Leaks |
218.424 | Repairing Leaks |
218.425 | Recordkeeping for Leaks |
218.426 | Report for Leaks |
218.427 | Alternative Program for Leaks |
218.428 | Open-Ended Valves |
218.429 | Standards for Control Devices |
218.430 | Compliance Date (Repealed) |
218.431 | Applicability |
218.432 | Control Requirements |
218.433 | Performance and Testing Requirements |
218.434 | Monitoring Requirements |
218.435 | Recordkeeping and Reporting Requirements |
218.436 | Compliance Date |
SUBPART R: PETROLEUM REFINING AND | |
RELATED INDUSTRIES; ASPHALT MATERIALS | |
Section | |
218.441 | Petroleum Refinery Waste Gas Disposal |
218.442 | Vacuum Producing Systems |
218.443 | Wastewater (Oil/Water) Separator |
218.444 | Process Unit Turnarounds |
218.445 | Leaks: General Requirements |
218.446 | Monitoring Program Plan for Leaks |
218.447 | Monitoring Program for Leaks |
218.448 | Recordkeeping for Leaks |
218.449 | Reporting for Leaks |
218.450 | Alternative Program for Leaks |
218.451 | Sealing Device Requirements |
218.452 | Compliance Schedule for Leaks |
218.453 | Compliance Dates (Repealed) |
SUBPART S: RUBBER AND MISCELLANEOUS PLASTIC PRODUCTS | |
Section | |
218.461 | Manufacture of Pneumatic Rubber Tires |
218.462 | Green Tire Spraying Operations |
218.463 | Alternative Emission Reduction Systems |
218.464 | Emission Testing |
218.465 | Compliance Dates (Repealed) |
218.466 | Compliance Plan (Repealed) |
SUBPART T: PHARMACEUTICAL MANUFACTURING | |
Section | |
218.480 | Applicability |
218.481 | Control of Reactors, Distillation Units, Crystallizers, Centrifuges and Vacuum Dryers |
218.482 | Control of Air Dryers, Production Equipment Exhaust Systems and Filters |
218.483 | Material Storage and Transfer |
218.484 | In-Process Tanks |
218.485 | Leaks |
218.486 | Other Emission Units |
218.487 | Testing |
218.488 | Monitoring for Air Pollution Control Equipment |
218.489 | Recordkeeping for Air Pollution Control Equipment |
SUBPART V: BATCH OPERATIONS AND AIR OXIDATION PROCESSES | |
Section | |
218.500 | Applicability for Batch Operations |
218.501 | Control Requirements for Batch Operations |
218.502 | Determination of Uncontrolled Total Annual Mass Emissions and Average Flow Rate Values for Batch Operations |
218.503 | Performance and Testing Requirements for Batch Operations |
218.504 | Monitoring Requirements for Batch Operations |
218.505 | Reporting and Recordkeeping for Batch Operations |
218.506 | Compliance Date |
218.520 | Emission Limitations for Air Oxidation Processes |
218.521 | Definitions (Repealed) |
218.522 | Savings Clause |
218.523 | Compliance |
218.524 | Determination of Applicability |
218.525 | Emission Limitations for Air Oxidation Processes |
218.526 | Testing and Monitoring |
218.527 | Compliance Date (Repealed) |
SUBPART W: AGRICULTURE | |
Section | |
218.541 | Pesticide Exception |
SUBPART X: CONSTRUCTION | |
Section | |
218.561 | Architectural Coatings |
218.562 | Paving Operations |
218.563 | Cutback Asphalt |
SUBPART Y: GASOLINE DISTRIBUTION | |
Section | |
218.581 | Bulk Gasoline Plants |
218.582 | Bulk Gasoline Terminals |
218.583 | Gasoline Dispensing Operations – Storage Tank Filling Operations |
218.584 | Gasoline Delivery Vessels |
218.585 | Gasoline Volatility Standards |
218.586 | Gasoline Dispensing Operations – Motor Vehicle Fueling Operations |
SUBPART Z: DRY CLEANERS | |
Section | |
218.601 | Perchloroethylene Dry Cleaners (Repealed) |
218.602 | Applicability (Repealed) |
218.603 | Leaks (Repealed) |
218.604 | Compliance Dates (Repealed) |
218.605 | Compliance Plan (Repealed) |
218.606 | Exception to Compliance Plan (Repealed) |
218.607 | Standards for Petroleum Solvent Dry Cleaners |
218.608 | Operating Practices for Petroleum Solvent Dry Cleaners |
218.609 | Program for Inspection and Repair of Leaks |
218.610 | Testing and Monitoring |
218.611 | Applicability for Petroleum Solvent Dry Cleaners |
218.612 | Compliance Dates (Repealed) |
218.613 | Compliance Plan (Repealed) |
SUBPART AA: PAINT AND INK MANUFACTURING | |
Section | |
218.620 | Applicability |
218.621 | Exemption for Waterbase Material and Heatset-Offset Ink |
218.623 | Permit Conditions (Repealed) |
218.624 | Open-Top Mills, Tanks, Vats or Vessels |
218.625 | Grinding Mills |
218.626 | Storage Tanks |
218.628 | Leaks |
218.630 | Clean Up |
218.636 | Compliance Schedule |
218.637 | Recordkeeping and Reporting |
SUBPART BB: POLYSTYRENE PLANTS | |
Section | |
218.640 | Applicability |
218.642 | Emissions Limitation at Polystyrene Plants |
218.644 | Emissions Testing |
SUBPART CC: POLYESTER RESIN PRODUCT MANUFACTURING PROCESS | |
Section | |
218.660 | Applicability |
218.666 | Control Requirements |
218.667 | Compliance Schedule |
218.668 | Testing |
218.670 | Recordkeeping and Reporting for Exempt Emission Units |
218.672 | Recordkeeping and Reporting for Subject Emission Units |
SUBPART DD: AEROSOL CAN FILLING | |
Section | |
218.680 | Applicability |
218.686 | Control Requirements |
218.688 | Testing |
218.690 | Recordkeeping and Reporting for Exempt Emission Units |
218.692 | Recordkeeping and Reporting for Subject Emission Units |
SUBPART FF: BAKERY OVENS (REPEALED) | |
Section | |
218.720 | Applicability (Repealed) |
218.722 | Control Requirements (Repealed) |
218.726 | Testing (Repealed) |
218.727 | Monitoring (Repealed) |
218.728 | Recordkeeping and Reporting (Repealed) |
218.729 | Compliance Date (Repealed) |
218.730 | Certification (Repealed) |
SUBPART GG: MARINE TERMINALS | |
Section | |
218.760 | Applicability |
218.762 | Control Requirements |
218.764 | Compliance Certification |
218.766 | Leaks |
218.768 | Testing and Monitoring |
218.770 | Recordkeeping and Reporting |
SUBPART HH: MOTOR VEHICLE REFINISHING | |
Section | |
218.780 | Emission Limitations |
218.782 | Alternative Control Requirements |
218.784 | Equipment Specifications |
218.786 | Surface Preparation Materials |
218.787 | Work Practices |
218.788 | Testing |
218.789 | Monitoring and Recordkeeping for Control Devices |
218.790 | General Recordkeeping and Reporting (Repealed) |
218.791 | Compliance Date |
218.792 | Registration (Repealed) |
218.875 | Applicability of Subpart BB (Renumbered) |
218.877 | Emissions Limitation at Polystyrene Plants (Renumbered) |
218.879 | Compliance Date (Repealed) |
218.881 | Compliance Plan (Repealed) |
218.883 | Special Requirements for Compliance Plan (Repealed) |
218.886 | Emissions Testing (Renumbered) |
SUBPART II: FIBERGLASS BOAT MANUFACTURING MATERIALS | |
Section | |
218.890 | Applicability |
218.891 | Emission Limitations and Control Requirements |
218.892 | Testing Requirements |
218.894 | Recordkeeping and Reporting Requirements |
SUBPART JJ: MISCELLANEOUS INDUSTRIAL ADHESIVES | |
Section | |
218.900 | Applicability |
218.901 | Emission Limitations and Control Requirements |
218.902 | Testing Requirements |
218.903 | Monitoring Requirements |
218.904 | Recordkeeping and Reporting Requirements |
SUBPART PP: MISCELLANEOUS FABRICATED PRODUCT | |
MANUFACTURING PROCESSES | |
Section | |
218.920 | Applicability |
218.923 | Permit Conditions (Repealed) |
218.926 | Control Requirements |
218.927 | Compliance Schedule |
218.928 | Testing |
218.929 | Cementable and Dress or Performance Shoe Leather |
SUBPART QQ: MISCELLANEOUS FORMULATION | |
MANUFACTURING PROCESSES | |
Section | |
218.940 | Applicability |
218.943 | Permit Conditions (Repealed) |
218.946 | Control Requirements |
218.947 | Compliance Schedule |
218.948 | Testing |
SUBPART RR: MISCELLANEOUS ORGANIC CHEMICAL | |
MANUFACTURING PROCESSES | |
Section | |
218.960 | Applicability |
218.963 | Permit Conditions (Repealed) |
218.966 | Control Requirements |
218.967 | Compliance Schedule |
218.968 | Testing |
SUBPART TT: OTHER EMISSION UNITS | |
Section | |
218.980 | Applicability |
218.983 | Permit Conditions (Repealed) |
218.986 | Control Requirements |
218.987 | Compliance Schedule |
218.988 | Testing |
SUBPART UU: RECORDKEEPING AND REPORTING | |
Section | |
218.990 | Exempt Emission Units |
218.991 | Subject Emission Units |
218.APPENDIX A | List of Chemicals Defining Synthetic Organic Chemical and Polymer Manufacturing |
218.APPENDIX B | VOM Measurement Techniques for Capture Efficiency (Repealed) |
218.APPENDIX C | Reference Methods and Procedures |
218.APPENDIX D | Coefficients for the Total Resource Effectiveness Index (TRE) Equation |
218.APPENDIX E | List of Affected Marine Terminals |
218.APPENDIX G | TRE Index Measurements for SOCMI Reactors and Distillation Units |
218.APPENDIX H | Baseline VOM Content Limitations for Subpart F, Section 218.212 Cross-Line Averaging |
a) | This Part contains standards and limitations for emissions of organic material and volatile organic material from stationary sources located in the Chicago area, which is comprised of Cook, DuPage, Kane, Lake, McHenry and Will Counties and Aux Sable Township and Goose Lake Township in Grundy County and Oswego Township in Kendall County. |
b) | Sources subject to this Part may be subject to the following: |
1) | Permits required under 35 Ill. Adm. Code 201 and |
2) | Air quality standards under 35 Ill. Adm. Code 243. |
c) | This Part is divided into Subparts which are grouped as follows: |
1) | Subpart A: General Provisions; |
2) | Subparts B-F: Emissions from equipment and operations in common to more than one industry; |
3) | Subpart G: Emissions from use of organic material; |
4) | Subparts H-RR: Rules for various industry groups. |
5) | Subpart TT: Rules for emission units not otherwise addressed. |
6) | Subpart UU: Recordkeeping and reporting for equipment and operations addressed by Subparts PP, QQ, RR, and TT. |
a) | Every owner or operator of an emission unit formerly subject to 35 Ill. Adm. Code 215 shall have complied with its standards and limitations by the dates and schedules applicable to the emission unit in accordance with 35 Ill. Adm. Code 215 or upon initial start-up. All compliance dates or schedules found in 35 Ill. Adm. Code 215 are not superseded by this Part and remain in full force and effect. |
b) | Nothing in this Part shall affect the responsibility of any owner or operator that is now or has been subject to the FIP to comply with its requirements thereunder by the dates specified in the FIP. |
c) | Nothing in this Part as it is amended from time to time shall relieve the owner or operator of a source subject to the requirements of this Part from the obligation to comply with the applicable requirements and compliance dates set forth in Section 218.106 of this Subpart or any specific schedules contained within the applicable Subparts of this Part even though those compliance dates may have been expressly superseded by subsequent amendments. |
a) | The provisions of this Part shall become effective on July 1, 1991 with the following exceptions: |
1) | The provisions of this Part shall become effective on September 1, 1991 for each appellant, including the constituents represented by appellants who are associations, who has appealed the federal implementation plan (FIP) for the Chicago area (Illinois Regulatory Group v. USEPA, No. 90-2778 (and consolidated cases) (7th Cir.)). |
2) | The effectiveness of any provision of this Part applicable to any individual source or category of sources which has appealed the FIP shall be stayed to the extent that such individual source or category of sources received a stay of the effectiveness of the FIP, pending reconsideration, from the USEPA or from the court in the FIP appeal cited in subsection 218.103(a)(1) above. When USEPA has published in the Federal Register final action to revise or affirm the provisions of the FIP specifically applicable to such individual source or category of sources or such stay is otherwise terminated, the Board shall take corresponding action and the Agency shall submit such action to USEPA for approval. Until such time as USEPA approves the corresponding amendment to this Part, the FIP rule shall remain the applicable implementation plan for that source or category of sources under the Clean Air Act. |
3) | The provisions of this Part shall become effective on November 15, 1992 for all sources located in Aux Sable Township or Goose Lake Township in Grundy County or in Oswego Township in Kendall County. |
b) | The provisions of the Part shall not apply to Viskase Corporation; Allsteel, Incorporated; Stepan Company; or Ford Motor Company to the extent such source has obtained an adjusted standard from the Board or an exclusion from the General Assembly for any Subpart of this Part or of 35 Ill. Adm. Code 215. |
a) | Coatings, Inks and Fountain Solutions |
1) | Sampling: Samples collected for analyses shall be one-liter taken into a one-liter container at a location and time such that the sample will be representative of the coating as applied (i.e., the sample shall include any dilution solvent or other VOM added during the manufacturing process). The container must be tightly sealed immediately after the sample is taken. Any solvent or other VOM added after the sample is taken must be measured and accounted for in the calculations in subsection (a)(3) of this Section. For multiple package coatings, separate samples of each component shall be obtained. A mixed sample shall not be obtained as it will cure in the container. Sampling procedures shall follow the guidelines presented in: |
A) | ASTM D 3925-81 (1985) standard practice for sampling liquid paints and related pigment coating. This practice is incorporated by reference in Section 218.112 of this Part. |
B) | ASTM E 300-86 standard practice for sampling industrial chemicals. This practice is incorporated by reference in Section 218.112 of this Part. |
2) | Analyses: The applicable analytical methods specified below shall be used to determine the composition of coatings, inks, or fountain solutions as applied. |
A) | Method 24 of 40 CFR 60, appendix A, incorporated by reference in Section 218.112 of this Part, shall be used to determine the VOM content and density of coatings. If it is demonstrated to the satisfaction of the Agency and the USEPA that plant coating formulation data are equivalent to Method 24 results, formulation data may be used. In the event of any inconsistency between a Method 24 test and a facility's formulation data, the Method 24 test will govern. |
B) | Method 24A of 40 CFR 60, appendix A, incorporated by reference in Section 218.112 of this Part, shall be used to determine the VOM content and density of rotogravure printing inks and related coatings. If it is demonstrated to the satisfaction of the Agency and USEPA that the plant coating formulation data are equivalent to Method 24A results, formulation data may be used. In the event of any inconsistency between a Method 24A test and formulation data, the Method 24A test will govern. |
C) | The following ASTM methods are the analytical procedures for determining VOM: |
i) | ASTM D 1475-85: Standard test method for density of paint, varnish, lacquer and related products. This test method is incorporated by reference in Section 218.112 of this Part. |
ii) | ASTM D 2369-87: Standard test method for volatile content of a coating. This test method is incorporated by reference in Section 218.112 of this Part. |
iii) | ASTM D 3792-86: Standard test method for water content of water-reducible paints by direct injection into a gas chromatograph. This test method is incorporated by reference in Section 218.112 of this Part. |
iv) | ASTM D 4017-81 (1987): Standard test method for water content in paints and paint materials by the Karl Fischer method. This test method is incorporated by reference in Section 218.112 of this Part. |
v) | ASTM D 4457-85: Standard test method for determination of dichloromethane and 1,1,1, trichloroethane in paints and coatings by direct injection into a gas chromatograph. (The procedure delineated above can be used to develop protocols for any compounds specifically exempted from the definition of VOM.) This test method is incorporated by reference in Section 218.112 of this Part. |
vi) | ASTM D 2697-86: Standard test method for volume non-volatile matter in clear or pigmented coatings. This test method is incorporated by reference in Section 218.112 of this Part. |
vii) | ASTM D 3980-87: Standard practice for interlaboratory testing of paint and related materials. This practice is incorporated by reference in Section 218.112 of this Part. |
viii) | ASTM E 180-85: Standard practice for determining the precision data of ASTM methods for analysis of and testing of industrial chemicals. This practice is incorporated by reference in Section 218.112 of this Part. |
ix) | ASTM D 2372-85: Standard method of separation of vehicle from solvent-reducible paints. This method is incorporated by reference in Section 218.112 of this Part. |
D) | Use of an adaptation to any of the analytical methods specified in subsections (a)(2)(A), (B), and (C) of this Section may not be used unless approved by the Agency and USEPA. An owner or operator must submit sufficient documentation for the Agency and USEPA to find that the analytical methods specified in subsections (a)(2)(A), (B), and (C) of this Section will yield inaccurate results and that the proposed adaptation is appropriate. |
3) | Calculations: Calculations for determining the VOM content, water content and the content of any compounds which are specifically exempted from the definition of VOM of coatings, inks and fountain solutions as applied shall follow the guidance provided in the following documents: |
A) | "A Guide for Surface Coating Calculation", EPA-340/1-86-016, incorporated by reference in Section 218.112 of this Part. |
B) | "Procedures for Certifying Quantity of Volatile Organic Compounds Emitted by Paint, Ink and Other Coatings" (revised June 1986), EPA-450/3-84-019, incorporated by reference in Section 218.112 of this Part. |
C) | "A Guide for Graphic Arts Calculations", August 1988, EPA-340/1-88-003, incorporated by reference in Section 218.112 of this Part. |
b) | Automobile or Light-Duty Truck Test Protocol |
1) | The protocol for testing, including determining the transfer efficiency of coating applicators, at primer surfacer operations and topcoat operations at an automobile or light-duty truck assembly source shall follow the procedures in the following: |
A) | Prior to May 1, 2012: "Protocol for Determining the Daily Volatile Organic Compound Emission Rate of Automobile and Light-Duty Truck Topcoat Operations" ("topcoat protocol"), December 1988, EPA-450/3-88-018, incorporated by reference in Section 218.112 of this Part. |
B) | On and after May 1, 2012: "Protocol for Determining the Daily Volatile Organic Compound Emission Rate of Automobile and Light-Duty Truck Primer-Surfacer and Topcoat Operations" (topcoat protocol), September 2008, EPA-453/R-08-002, incorporated by reference in Section 218.112 of this Part. |
2) | Prior to testing pursuant to the applicable topcoat protocol, the owner or operator of a coating operation subject to the topcoat or primer surfacer limit in Section 218.204(a)(1)(B), (a)(1)(C), (a)(2)(B), (a)(2)(C), or (a)(2)(E) shall submit a detailed testing proposal specifying the method by which testing will be conducted and how compliance will be demonstrated consistent with the applicable topcoat protocol. The proposal shall include, at a minimum, a comprehensive plan (including a rationale) for determining the transfer efficiency at each booth through the use of in-plant or pilot testing, the selection of coatings to be tested (for the purpose of determining transfer efficiency) including the rationale for coating groupings, the method for determining the analytic VOM content of as applied coatings and the formulation solvent content of as applied coatings, and a description of the records of coating VOM content as applied and coating's usage that will be kept to demonstrate compliance. Upon approval of the proposal by the Agency and USEPA, the compliance demonstration for a coating line may proceed. |
c) | Capture System Efficiency Test Protocols |
1) | Applicability |
A) | If an emission unit is equipped with (or uses) a permanent total enclosure (PTE) that meets Agency and USEPA specifications, and which directs all VOM to a control device, then the emission unit is exempted from the requirements described in subsection (c)(2) of this Section. The Agency and USEPA specifications to determine whether a structure is considered a PTE are given in Method 204 of appendix M of 40 CFR 51, incorporated by reference in Section 218.112 of this Part. In this instance, the capture efficiency is assumed to be 100 percent and the emission unit is still required to measure control efficiency using appropriate test methods as specified in subsection (d) of this Section. |
B) | If an emission unit is equipped with (or uses) a control device designed to collect and recover VOM (e.g., carbon adsorber), an explicit measurement of capture efficiency is not necessary provided that the conditions given below are met. The overall control of the system can be determined by directly comparing the input liquid VOM to the recovered liquid VOM. The general procedure for use in this situation is given in 40 CFR 60.433, incorporated by reference in Section 218.112 of this Part, with the following additional restrictions: |
i) | Unless otherwise specified in subsection (c)(1)(B)(ii), the owner or operator shall obtain data each operating day for the solvent usage and solvent recovery to permit the determination of the solvent recovery efficiency of the system each operating day using a 7-day rolling period. The recovery efficiency for each operating day is computed as the ratio of the total recovered solvent for that day and the most recent prior 6 operating days to the total solvent usage for the same 7-day period used for the recovered solvent, rather than a 30-day weighted average as given in 40 CFR 60.433 incorporated by reference at Section 218.112 of this Part. This ratio shall be expressed as a percentage. The ratio shall be computed within 72 hours following each 7-day period. A source that believes that the 7-day rolling period is not appropriate may use an alternative multi-day rolling period not to exceed 30 days, with the approval of the Agency and USEPA. In addition, the criteria in subsection (c)(1)(B)(iii) or subsection (c)(1)(B)(iv) must be met. |
ii) | The owner or operator of the source engaged in printing located at 350 E. 22nd Street, Chicago, Illinois, shall obtain data each operating day for the solvent usage and solvent recovery to permit the determination of the solvent recovery efficiency of the system each operating day using a 14-day rolling period. The recovery efficiency for each operating day is computed as the ratio of the total recovered solvent for that day and the most recent prior 13 operating days to the total solvent usage for the same 14-day period used for the recovered solvent, rather than a 30-day weighted average as given in 40 CFR 60.433, incorporated by reference in Section 218.112 of this Part. This ratio shall be expressed as a percentage. The ratio shall be computed within 17 days following each 14-day period. In addition, the criteria in subsection (c)(1)(B)(iii) or subsection (c)(1)(B)(iv) must be met. |
iii) | The solvent recovery system (i.e., capture and control system) must be dedicated to a single coating line, printing line, or other discrete activity that by itself is subject to an applicable VOM emission standard, or |
iv) | If the solvent recovery system controls more than one coating line, printing line or other discrete activity that by itself is subject to an applicable VOM emission standard, the overall control (i.e., the total recovered VOM divided by the sum of liquid VOM input from all lines and other activities venting to the control system) must meet or exceed the most stringent standard applicable to any line or other discrete activity venting to the control system. |
2) | Capture Efficiency Protocols |
A) | Gas/gas method using temporary total enclosure (TTE). The Agency and USEPA specifications to determine whether a temporary enclosure is considered a TTE are given in Method 204 of appendix M of 40 CFR 51, incorporated by reference in Section 218.112 of this Part. The capture efficiency equation to be used for this protocol is: |
where: |
CE | = | Capture efficiency, decimal fraction; |
Gw | = | Mass of VOM captured and delivered to control device using a TTE; |
Fw | = | Mass of uncaptured VOM that escapes from a TTE. |
CE | = | Capture efficiency, decimal fraction; |
L | = | Mass of liquid VOM input to process emission unit; |
Fw | = | Mass of uncaptured VOM that escapes from a TTE. |
CE | = | Capture efficiency, decimal fraction; |
G | = | Mass of VOM captured and delivered to control device; |
FB | = | Mass of uncaptured VOM that escapes from building enclosure. |
CE | = | Capture efficiency, decimal fraction; |
L | = | Mass of liquid VOM input to process emission unit; |
FB | = | Mass of uncaptured VOM that escapes from building enclosure. |
E | =
|
Equivalent overall efficiency of the capture system and control device as a percentage; |
VOMa | =
|
Actual VOM content of a coating, or the daily-weighted average VOM content of two or more coatings (if more than one coating is used), as applied to the subject coating line as determined by the applicable test methods and procedures specified in subsection (a) of this Section in units of kg VOM/1 (lb VOM/gal) of coating solids as applied; |
VOMl | =
|
The VOM emission limit specified in Section 218.204 or 218.205 of this Part in units of kg VOM/ℓ (lb VOM/gal) of coating solids as applied. |
kg/l lb/gal |
i) | Electrical apparatus components and electronic components | 0.10 0.83 |
ii) | Medical device and pharmaceutical manufacturing | 0.80 6.7 |
kg/l lb/gal |
i) | Electrical apparatus components and electronic components | 0.10 0.83 |
ii) | Medical device and pharmaceutical manufacturing tools, equipment, and machinery | 0.80 6.7 |
iii) | Medical device and pharmaceutical manufacturing general work surfaces | 0.60 5.0 |
kg/l lb/gal |
i) | Rotogravure printing that does not print flexible packaging | 0.10 0.83 |
ii) | Screen printing, including screen reclamation activities | 0.50 4.2 |
iii) | Ultraviolet ink and electron beam ink application equipment, except screen printing | 0.65 5.4 |
iv) | Flexographic printing that does not print flexible packaging | 0.10 0.83 |
a) | Automobile or Light-Duty Truck Coating | kg/l | lb/gal |
1) | Prior to May 1, 2012: |
A) | Prime coat | 0.14 | (1.2) |
0.14* | (1.2)* |
B) | Primer surface coat | 1.81 | (15.1) |
1.81* | (15.1)* |
C) | Topcoat | kg/l | lb/gal |
1.81 | (15.1) | |||
1.81* | (15.1)* |
D) | Final repair coat | kg/l | lb/gal |
0.58 | (4.8) | |||
0.58* | (4.8)* |
kg VOM/l coating solids applied | lb VOM/gal coating solids applied | |||
i) | When solids turnover ratio (RT) is greater than or equal to 0.160 | 0.084 | (0.7) |
ii) | When RT is greater than or equal to 0.040 and less than 0.160 | 0.084 x
3500.160-RT |
(0.084 x 3500.160-RT x 8.34) |
B) | Primer surfacer operations | kg VOM/l coating solids deposited | lb VOM/gal coating solids deposited |
i) | VOM content limitation | 1.44 | (12.0) | |||
ii) | Compliance with the limitation set forth in subsection (a)(2)(B)(i) shall be based on the daily-weighted average from an entire primer surfacer operation. Compliance shall be demonstrated in accordance with the topcoat protocol referenced in Section 218.105(b)(1)(B) and the recordkeeping and reporting requirements specified in Section 218.211(f). Testing to demonstrate compliance shall be performed in accordance with the topcoat protocol and a detailed testing proposal approved by the Agency and USEPA specifying the method of demonstrating compliance with the protocol. Section 218.205 does not apply to the primer surfacer limitation. |
C) | Topcoat operations | kg VOM/l coating solids deposited | lb VOM/gal coating solids deposited | ||
i) | VOM content limitation | 1.44 | (12.0) |
ii) | Compliance with the limitation set forth in subsection (a)(2)(C)(i) shall be based on the daily-weighted average from an entire topcoat operation. Compliance shall be demonstrated in accordance with the topcoat protocol referenced in Section 218.105(b)(1)(B) and the recordkeeping and reporting requirements specified in Section 218.211(f). Testing to demonstrate compliance shall be performed in accordance with the topcoat protocol and a detailed testing proposal approved by the Agency and USEPA specifying the method of demonstrating compliance with the protocol. Section 218.205 does not apply to the topcoat limitation. |
D) | Combined primer surfacer and topcoat operations | kg VOM/l coating solids deposited | lb VOM/gal coating solids deposited | ||
i) | VOM content limitation | 1.44 | (12.0) |
ii) | Compliance with the limitation set forth in subsection (a)(2)(D)(i) shall be based on the daily-weighted average from the combined primer surfacer and topcoat operations. Compliance shall be demonstrated in accordance with the topcoat protocol referenced in Section 218.105(b)(1)(B) and the recordkeeping and reporting requirements specified in Section 218.211(f). Testing to demonstrate compliance shall be performed in accordance with the topcoat protocol and a detailed testing proposal approved by the Agency and USEPA specifying the method of demonstrating compliance with the protocol. Section 218.205 does not apply to the combined primer surfacer and topcoat limitation. |
E) | Final repair coat operations | kg/l coatings | lb/gal coatings | ||
i) | VOM content limitation | 0.58 | (4.8) | |||
ii) | Compliance with the final repair operations limitation set forth in subsection (a)(2)(E)(i) shall be on an occurrence-weighted average basis, calculated in accordance with the equation below, in which clear coatings shall have a weighting factor of 2 and all other coatings shall have a weighting factor of 1. For purposes of this subsection (a)(2)(E)(ii), an "occurrence" is the application of the combination of coatings that constitute a final repair coat for a single automobile or light-duty truck. Section 218.205 does not apply to the final repair coat limitation. |
VOMtot | = | Total VOM content of all coatings, as applied, on an occurrence weighted average basis, and used to determine compliance with this subsection (a)(2)(E). |
i | = | Subscript denoting a specific coating applied. |
n | = | Total number of coatings applied in the final repair operation, other than clear coatings. |
VOMcc | = | The VOM content, as applied, of the clear coat used in the final repair operation. |
VOMi | = | The VOM content of each coating used in the final repair operation, as applied, other than clear coatings. |
kg/l | lb/gal |
i) | Glass bonding primer | 0.90 | (7.51) |
ii) | Adhesive | 0.25 | (2.09) |
iii) | Cavity wax | 0.65 | (5.42) |
iv) | Trunk sealer | 0.65 | (5.42) |
v) | Deadener | 0.65 | (5.42) |
vi) | Gasket/gasket sealing material | 0.20 | (1.67) |
vii) | Underbody coating | 0.65 | (5.42) |
viii) | Trunk interior coating | 0.65 | (5.42) |
ix) | Bedliner | 0.20 | (1.67) |
x) | Weatherstrip adhesive | 0.75 | (6.26) |
xi) | Lubricating wax/compound | 0.70 | (5.84) |
b) | Can Coating | kg/l | lb/gal |
1) | Sheet basecoat and overvarnish |
A) | Sheet basecoat | 0.34 | (2.8) | ||
0.26* | (2.2)* |
B) | Overvarnish | 0.34 | (2.8) | ||
0.34 | (2.8)* |
2) | Exterior basecoat and overvarnish | 0.34 | (2.8) | |
0.25* | (2.1)* | |||
3) | Interior body spray coat |
A) | Two piece | 0.51 | (4.2) | ||
0.44* | (3.7)* |
B) | Three piece | 0.51 | (4.2) | ||
0.51* | (4.2)* |
4) | Exterior end coat | 0.51 | (4.2) | |
0.51* | (4.2)* |
5) | Side seam spray coat | 0.66 | (5.5) | |
0.66* | (5.5)* | |||
6) | End sealing compound coat | 0.44 | (3.7) | |
0.44* | (3.7)* |
c) | Paper Coating |
1) | Prior to May 1, 2011: | kg/l | lb/gal |
0.28 | (2.3) | ||
2) | On and after May 1, 2011: | kg VOM/kg | kg VOM/kg |
(lb VOM/lb) | (lb VOM/lb) | ||
solids applied | coatings applied |
A) | Pressure sensitive tape and
label surface coatings |
0.20 | (0.067) |
B) | All other paper coatings | 0.40 | (0.08) |
d) | Coil Coating | kg/l | lb/gal |
0.31 | (2.6) | ||
0.20* | (1.7)* |
e) | Fabric Coating | 0.35 | (2.9) |
0.28* | (2.3)* |
f) | Vinyl Coating | 0.45 | (3.8) |
0.28* | (2.3)* |
g) | Metal Furniture Coating |
1) | Prior to May 1, 2011: | |||
kg/l | lb/gal |
A) | Air dried | 0.34 | (2.8) |
B) | Baked | 0.28 | (2.3) |
2) | On and after May 1, 2011: | |||
kg/l
(lb/gal) |
kg/l (lb/gal)
solids applied |
A) | General, One-Component | 0.275 | 0.40 | ||
(2.3) | (3.3) |
B) | General, Multi-Component |
i) | Air dried | 0.340 | 0.55 | |||
(2.8) | (4.5) |
ii) | Baked | 0.275 | 0.40 | |||
(2.3) | (3.3) |
C) | Extreme High Gloss |
i) | Air dried | 0.340 | 0.55 | |||
(2.8) | (4.5) |
ii) | Baked | 0.360 | 0.61 | |||
(3.0) | (5.1) |
D) | Extreme Performance |
i) | Air dried | 0.420 | 0.80 | |||
(3.5) | (6.7) |
ii) | Baked | 0.360 | 0.61 | |||
(3.0) | (5.1) |
E) | Heat Resistant |
i) | Air dried | 0.420 | 0.80 | |||
(3.5) | (6.7) |
ii) | Baked | 0.360 | 0.61 | |||
(3.0) | (5.1) |
F) | Metallic | 0.420 | 0.80 |
(3.5) | (6.7) |
G) | Pretreatment Coatings | 0.420 | 0.80 |
(3.5) | (6.7) |
H) | Solar Absorbent |
i) | Air dried | 0.420 | 0.80 | |||
(3.5) | (6.7) |
ii) | Baked | 0.360 | 0.61 | |||
(3.0) | (5.1) |
h) | Large Appliance Coating |
1) | Prior to May 1, 2011: | kg/l | lb/gal |
A) | Air dried | 0.34 | (2.8) | |
B) | Baked | 0.28 | (2.3) |
2) | On and after May 1, 2011: | kg/l | kg/l (lb/gal) |
(lb/gal) | solids applied | |||
A) | General, One Component | 0.275 | 0.40 | |
(2.3) | (3.3) | |||
B) | General, Multi-Component |
i) | Air dried | 0.340 | 0.55 |
(2.8) | (4.5) |
ii) | Baked | 0.275 | 0.40 |
(2.3) | (3.3) | |||
C) | Extreme High Gloss |
i) | Air dried | 0.340 | 0.55 |
(2.8) | (4.5) |
ii) | Baked | 0.360 | 0.61 |
(3.0) | (5.1) | |||
D) | Extreme Performance |
i) | Air dried | 0.420 | 0.80 |
(3.5) | (6.7) |
ii) | Baked | 0.360 | 0.61 |
(3.0) | (5.1) | |||
E) | Heat Resistant |
i) | Air dried | 0.420 | 0.80 |
(3.5) | (6.7) |
ii) | Baked | 0.360 | 0.61 | ||
(3.0) | (5.1) |
F) | Metallic | 0.420 | 0.80 | |
(3.5) | (6.7) | |||
G) | Pretreatment Coatings | 0.420 | 0.80 | |
(3.5) | (6.7) | |||
H) | Solar Absorbent |
i) | Air dried | 0.420 | 0.80 |
(3.5) | (6.7) |
ii) | Baked | 0.360 | 0.61 | ||
(3.0) | (5.1) |
i) | Magnet Wire Coating | kg/1 | lb/gal |
0.20 | (1.7) | ||
0.20* | (1.7)* |
j) | Prior to May 1, 2012: Miscellaneous Metal Parts
and Products Coating |
1) | Clear coating | 0.52 | (4.3) | |
0.52* | (4.3)* |
2) | Extreme performance coating |
A) | Air dried | 0.42 | (3.5) | ||
0.42* | (3.5)* | ||||
B) | Baked | 0.42 | (3.5) | ||
0.40* | (3.3)* |
3) | Steel pail and drum interior coating | 0.52 | (4.3) | |
0.52* | (4.3)* |
4) | All other coatings |
A) | Air dried | 0.42 | (3.5) | ||
0.40* | (3.3)* |
B) | Baked | 0.36 | (3.0) | ||
0.34* | (2.8)* |
5) | Marine engine coating |
A) | Air dried | 0.42 | (3.5) | ||
0.42* | (3.5)* | ||||
B) | Baked |
i) | Primer/Topcoat | 0.42 | (3.5) | |||
0.42* | (3.5)* |
ii) | Corrosion resistant basecoat | 0.42 | (3.5) |
0.28* | (2.3)* |
C) | Clear Coating | 0.52 | (4.3) | ||
0.52* | (4.3)* |
6) | Metallic Coating |
A) | Air dried | 0.42 | (3.5) | ||
0.42* | (3.5)* |
B) | Baked | 0.36 | (3.0) | ||
0.36 | (3.0)* |
k) | Heavy Off-Highway Vehicle Products Coating | kg/l | lb/gal |
1) | Extreme performance prime coat | 0.42 | (3.5) | |
0.42* | (3.5)* |
2) | Extreme performance topcoat (air dried) | 0.42 | (3.5) | |
0.42* | (3.5)* |
3) | Final repair coat (air dried) | 0.42 | (3.5) | |
0.42* | (3.5)* |
l) | Wood Furniture Coating |
1) | Limitations before March 15, 1998: | kg/l | lb/gal |
A) | Clear topcoat | 0.67 | (5.6) |
B) | Opaque stain | 0.56 | (4.7) |
C) | Pigmented coat | 0.60 | (5.0) |
D) | Repair coat | 0.67 | (5.6) |
E) | Sealer | 0.67 | (5.6) |
F) | Semi-transparent stain | 0.79 | (6.6) |
G) | Wash coat | 0.73 | (6.1) |
kg VOM/
kg solids |
lb VOM/
lb solids |
A) | Topcoat | 0.8 | (0.8) |
B) | Sealers and topcoats with the following limits: |
i) | Sealer other than acid-cured alkyd amino vinyl sealer | 1.9 | (1.9) |
ii) | Topcoat other than acid-cured alkyd amino conversion varnish topcoat | 1.8 | (1.8) |
iii) | Acid-cured alkyd amino vinyl sealer | 2.3 | (2.3) |
iv) | Acid-cured alkyd amino conversion varnish topcoat | 2.0 | (2.0) |
|
kg/l | lb/gal |
A) | Opaque stain | 0.56 | (4.7) |
B) | Non-topcoat pigmented coat | 0.60 | (5.0) |
C) | Repair coat | 0.67 | (5.6) |
D) | Semi-transparent stain | 0.79 | (6.6) |
E) | Wash coat | 0.73 | (6.1) |
m) | Existing Diesel-Electric Locomotive Coating Lines in Cook County | kg/l | lb/gal |
1) | Extreme performance prime coat | 0.42 | (3.5) | |
0.42* | (3.5)* |
2) | Extreme performance top-coat (air dried) | 0.42 | (3.5) | |
0.42* | (3.5)* |
3) | Final repair coat (air dried) | 0.42 | (3.5) | |
0.42* | (3.5)* |
4) | High-temperature aluminum coating | 0.72 | (6.0) | |
0.72* | (6.0)* |
5) | All other coatings | 0.36 | (3.0) | |
0.36* | (3.0)* |
n) | Prior to May 1, 2012: Plastic Parts Coating: Automotive/Transportation | kg/l | lb/gal |
1) | Interiors |
A) | Baked |
i) | Color coat | 0.49* | (4.1)* |
ii) | Primer | 0.46* | (3.8)* |
B) | Air dried |
i) | Color coat | 0.38* | (3.2)* |
ii) | Primer | 0.42* | (3.5)* |
2) | Exteriors (flexible and non-flexible) |
A) | Baked |
i) | Primer | 0.60* | (5.0)* |
ii) | Primer non-flexible | 0.54* | (4.5)* |
iii) | Clear coat | 0.52* | (4.3)* |
iv) | Color coat | 0.55* | (4.6)* |
B) | Air dried |
i) | Primer | 0.66* | (5.5)* |
ii) | Clear coat | 0.54* | (4.5)* |
iii) | Color coat (red & black) | 0.67* | (5.6)* |
iv) | Color coat (others) | 0.61* | (5.1)* |
3) | Specialty |
A) | Vacuum metallizing basecoats, texture base coats | 0.66* | (5.5)* |
B) | Black coatings, reflective argent coatings, air bag cover coatings, and soft coatings | 0.71* | (5.9)* |
C) | Gloss reducers, vacuum metallizing topcoats, and texture topcoats | 0.77* | (6.4)* |
D) | Stencil coatings, adhesion primers, ink pad coatings, electrostatic prep coatings, and resist coatings | 0.82* | (6.8)* |
E) | Headlamp lens coatings | 0.89* | (7.4)* |
o) | Prior to May 1, 2012: Plastic Parts Coating: Business Machine | kg/l | lb/gal |
1) | Primer | 0.14* | (1.2)* |
2) | Color coat (non-texture coat) | 0.28* | (2.3)* |
3) | Color coat (texture coat) | 0.28* | (2.3)* |
4) | Electromagnetic interference/radio frequency interference (EMI/RFI) shielding coatings | 0.48* | (4.0)* |
5) | Specialty coatings |
A) | Soft coat | 0.52* | (4.3)* |
B) | Plating resist | 0.71* | (5.9)* |
C) | Plating sensitizer | 0.85* | (7.1)* |
kg/l
(lb/gal) coatings |
kg/l
(lb/gal) solids |
A) | General one component coating | ||||
i) | Air dried | 0.34 | 0.54 | |||
(2.8) | (4.52) | |||||
ii) | Baked | 0.28 | 0.40 | |||
(2.3) | (3.35) | |||||
B) | General multi-component coating | ||||
i) | Air dried | 0.34 | 0.54 | |||
(2.8) | (4.52) | |||||
ii) | Baked | 0.28 | 0.40 | |||
(2.3) | (3.35) | |||||
C) | Camouflage coating | 0.42 | 0.80 |
(3.5) | (6.67) | |||||
D) | Electric-insulating varnish | 0.42 | 0.80 |
(3.5) | (6.67) | |||||
E) | Etching filler | 0.42 | 0.80 |
(3.5) | (6.67) | |||||
F) | Extreme high-gloss coating |
i) | Air dried | 0.42 | 0.80 | |||
(3.5) | (6.67) | |||||
ii) | Baked | 0.36 | 0.61 | |||
(3.0) | (5.06) | |||||
G) | Extreme performance coating |
i) | Air dried | 0.42 | 0.80 | |||
(3.5) | (6.67) | |||||
ii) | Baked | 0.36 | 0.61 | |||
(3.0) | (5.06) | |||||
H) | Heat-resistant coating | ||||
i) | Air dried | 0.42 | 0.80 |
(3.5) | (6.67) | ||||
ii) | Baked | 0.36 | 0.61 |
(3.0) | (5.06) | ||||
I) | High performance architectural coating | 0.42
(3.5) |
0.80
(6.67) |
||
J) | High temperature coating | 0.42 | 0.80 | ||
(3.5) | (6.67) | ||||
K) | Metallic coating | ||||
i) | Air dried | 0.42 | 0.80 |
(3.5) | (6.67) | ||||
ii) | Baked | 0.36 | 0.61 |
(3.0) | (5.06) | ||||
L) | Military specification coating | ||||
i) | Air dried | 0.34 | 0.54 |
(2.8) | (4.52) | ||||
ii) | Baked | 0.28 | 0.40 |
(2.3) | (3.35) | ||||
M) | Mold-seal coating | 0.42 | 0.80 | ||
(3.5) | (6.67) | ||||
N) | Pan backing coating | 0.42 | 0.80 | ||
(3.5) | (6.67) | ||||
O) | Prefabricated architectural
coating: multi-component |
||||
i) | Air dried | 0.42 | 0.80 |
(3.5) | (6.67) | ||||
ii) | Baked | 0.28 | 0.40 |
(2.3) | (3.35) | ||||
P) | Prefabricated architectural | ||||
coating: one-component | |||||
i) | Air dried | 0.42 | 0.80 |
(3.5) | (6.67) | ||||
ii) | Baked | 0.28 | 0.40 |
(2.3) | (3.35) | ||||
Q) | Pretreatment coating | 0.42 | 0.80 | ||
(3.5) | (6.67) | ||||
R) | Repair coats and touch-up coatings | ||||
i) | Air dried | 0.42 |
(3.5) | |||||
ii) | Baked | 0.36 |
(3.01) | |||||
S) | Silicone release coating | 0.42 | 0.80 | ||
(3.5) | (6.67) | ||||
T) | Solar-absorbent coating | ||||
i) | Air dried | 0.42 | 0.80 |
(3.5) | (6.67) | ||||
ii) | Baked | 0.36 | 0.61 |
(3.0) | (5.06) | ||||
U) | Vacuum-metalizing coating | 0.42 | 0.80 | ||
(3.5) | (6.67) | ||||
V) | Drum coating, new, exterior | 0.34 | 0.54 | ||
(2.8) | (4.52) | ||||
W) | Drum coating, new, interior | 0.42 | 0.80 | ||
(3.5) | (6.67) | ||||
X) | Drum coating, reconditioned, exterior | 0.42
(3.5) |
0.80
(6.67) |
||
Y) | Drum coating, reconditioned, interior | 0.50
(4.2) |
1.17
(9.78) |
||
Z) | Ammunition Sealants | ||||
i) | Air dried | 0.42 | 0.80 |
(3.5) | (6.67) | ||||
ii) | Baked | 0.36 | 0.61 |
(3.0) | (5.06) | ||||
AA) | Electrical switchgear compartment coatings | ||||
i) | Air dried | 0.42 | 0.80 |
(3.5) | (6.67) | ||||
ii) | Baked | 0.36 | 0.61 |
(3.0) | (5.06) | ||||
BB) | All other coatings | ||||
i) | Air dried | 0.40 | 0.73 |
(3.3) | (5.98) | ||||
ii) | Baked | 0.34 | 0.54 |
(2.8) | (4.52) |
kg/l (lb/gal) coatings | kg/l
(lb/gal) solids |
|||
A) | General one component coating | 0.28 | 0.40 |
(2.3) | (3.35) |
B) | General multi-component | 0.42 | 0.80 |
(3.5) | (6.67) |
C) | Electric dissipating coatings | 0.80 | 8.96 | ||
and shock-free coatings | (6.7) | (74.7) | |||
D) | Extreme performance
(2-pack coatings) |
0.42
(3.5) |
0.80
(6.67) |
||
E) | Metallic coating | 0.42 | 0.80 | ||
(3.5) | (6.67) | ||||
F) | Military specification coating | ||||
i) | 1-pack coatings | 0.28 | 0.54 |
(2.3) | (4.52) | ||||
ii) | 2-pack coatings | 0.42 | 0.80 |
(3.5) | (6.67) |
G) | Mold-seal coating | 0.76 | 5.24 | ||
(6.3) | (43.7) | ||||
H) | Multi-colored coating | 0.68 | 3.04 | ||
(5.7) | (25.3) | ||||
I) | Optical coating | 0.80 | 8.96 | ||
(6.7) | (74.7) | ||||
J) | Vacuum-metalizing coating | 0.80 | 8.96 | ||
(6.7) | (74.7) |
kg/l (lb/gal) coatings | kg/l
(lb/gal) solids |
A) | High bake coatings − interior and exterior parts | ||||
i) | Flexible primer | 0.54 | 1.39 |
(4.5) | (11.58) | ||||
ii) | Non-flexible primer | 0.42 | 0.80 |
(3.5) | (6.67) | ||||
iii) | Basecoats | 0.52 | 1.24 |
(4.3) | (10.34) |
iv) | Clear coat | 0.48 | 1.05 | |||
(4.0) | (8.76) | |||||
v) | Non-basecoat/clear coat | 0.52 | 1.24 |
(4.3) | (10.34) | ||||
B) | Low bake/air dried coatings − exterior parts | ||||
i) | Primers | 0.58 | 1.66 |
(4.8) | (13.80) | ||||
ii) | Basecoat | 0.60 | 1.87 |
(5.0) | (15.59) | ||||
iii) | Clear coats | 0.54 | 1.39 |
(4.5) | (11.58) |
iv) | Non-basecoat/clear coat | 0.60 | 1.87 | |||
(5.0) | (15.59) | |||||
C) | Low bake/air dried coatings − interior parts | ||||
i) | Color coat | 0.38 | 0.67 |
(3.2) | (5.66) | ||||
ii) | Primer | 0.42 | 0.80 |
(3.5) | (6.67) | ||||
D) | Touchup and repair coatings | 0.62 | 2.13 | ||
(5.2) | (17.72) |
E) | Specialty | ||||
i) | Vacuum metallizing basecoats | 0.66
(5.5) |
2.62
(21.8) |
ii) | Vacuum metallizing topcoats | 0.77
(6.4) |
6.06
(49.1) |
F) | Red, yellow, and black coatings: Subject coating lines shall comply with a limit determined by multiplying the appropriate limit in subsections (q)(3)(A) through (q)(3)(C) of this Section by 1.15. |
kg/l (lb/gal) coatings | kg/l
(lb/gal) solids |
|||
A) | Primers | 0.35 | 0.57 |
(2.9) | (4.80) |
B) | Topcoat | 0.35 | 0.57 |
(2.9) | (4.80) |
C) | Color coat (texture coat) | 0.28 | 0.40 | ||
(2.3) | (4.80) | ||||
D) | Color coat (non-texture coat) | 0.28 | 0.40 | ||
(2.3) | (4.80) | ||||
E) | Texture coats other than color texture coats | 0.35
(2.9) |
0.57
(4.80) |
||
F) | EMI/RFI shielding coatings | 0.48 | 1.05 | ||
(4.0) | (8.76) |
G) | Fog coat | 0.26 | 0.38 | ||
(2.2) | (3.14) |
H) | Touchup and repair | 0.35 | 0.57 |
kg/l (lb/gal) coatings | kg/l
(lb/gal) solids |
||||
A) | Extreme high gloss coating − topcoat | 0.60 | 1.88 | ||
(5.0) | (15.6) |
B) | High gloss coating − topcoat | 0.42 | 0.80 |
(3.5) | (6.7) | ||||||
C) | Pretreatment wash primer | 0.78 | 6.67 |
(6.5) | (55.6) |
D) | Finish primer/surfacer |
Prior to January 1, 2014 | 0.60 | 1.88 | ||||
(5.0) | (15.6) | |||||
On and after January 1, 2014 | 0.42 | 0.80 | ||||
(3.5) | (6.7) | |||||
E) | High build primer/surfacer | 0.34 | 0.55 |
(2.8) | (4.6) | |||||
F) | Aluminum substrate antifoulant coating | 0.56
(4.7) |
1.53
(12.8) |
G) | Other substrate antifoulant coating | 0.40 | 0.73 |
(3.3) | (5.8) |
H) | Antifouling Sealer/Tie Coat | 0.42 | 0.80 |
(3.5) | (6.7) | |||||
I) | All other pleasure craft surface coatings for metal or plastic | 0.42
(3.5) |
0.80
(6.7) |
kg/l (lb/gal) coatings | |||||
A) | Cavity wax | 0.65 | |||
(5.42) |
B) | Sealer | 0.65 |
(5.42) | |||||||
C) | Deadener | 0.65 |
(5.42) |
D) | Gasket/gasket sealing material | 0.20 |
(1.67) | ||||||
E) | Underbody coating | 0.65 |
(5.42) | ||||||
F) | Trunk interior coating | 0.65 |
(5.42) |
G) | Bedliner | 0.20 |
(1.67) |
H) | Lubricating wax/compound | 0.70
(5.84) |
Ed | =
|
Actual VOM emissions for the day in units of kg/day (lbs/day); |
i | =
|
Subscript denoting a specific coating applied; |
n | =
|
Total number of coatings applied in the can coating operation, i.e., all can coating lines at the source; |
Vi | =
|
Volume of each coating applied for the day in units of l/day (gal/day) of coating (minus water and any compounds that are specifically exempted from the definition of VOM); |
Ci | =
|
The VOM content of each coating as applied in units of kg VOM/l (lbs VOM/gal) of coating (minus water and any compounds that are specifically exempted from the definition of VOM). |
Ad | =
|
The VOM emissions allowed for the day in units of kg/day (lbs/day); |
i | =
|
Subscript denoting a specific coating applied; |
n | =
|
Total number of surface coatings applied in the can coating operation; |
Ci | =
|
The VOM content of each surface coating as applied in units of kg VOM/l (lbs VOM/gal) of coating (minus water and any compounds that are specifically exempted from the definition of VOM); |
Di | =
|
The density of VOM in each coating applied. For the purposes of calculating Ad, the density is 0.882 kg VOM/l VOM (7.36 lbs VOM/gal VOM); |
Vi | =
|
Volume of each surface coating applied for the day in units of l (gal) of coating (minus water and any compounds that are specifically exempted from the definition of VOM); |
Li | =
|
The VOM emission limitation for each surface coating applied as specified in Section 218.204(b) of this Subpart in units of kg VOM/l (lbs VOM/gal) of coating (minus water and any compounds that are specifically exempted from the definition of VOM). |
Ed | =
|
Actual VOM emissions for the day in units of kg/day (lbs/day); |
i | =
|
Subscript denoting the specific coating applied; |
n | =
|
Total number of surface coatings as applied in the can coating operation; |
Vi | =
|
Volume of each coating as applied for the day in units of l/day (gal/day) of coating (minus water and any compounds that are specifically exempted from the definition of VOM); |
Ci | =
|
The VOM content of each coating as applied in units of kg VOM/l (lbs VOM/gal) of coating (minus water and any compounds that are specifically exempted from the definition of VOM); and |
Fi | =
|
Fraction, by weight, of VOM emissions from the surface coating, reduced or prevented from being emitted to the ambient air. This is the overall efficiency of the capture system and control device. |
Te | =
|
Total VOM emissions from coating lines each day before the application of capture systems and control devices in units of kg/day (lbs/day); |
m | =
|
Number of coating lines at the source that otherwise would be subject to the same subsection of Section 218.104 of this Part (because they belong to the same category, e.g., can coating); |
j | =
|
Subscript denoting an individual coating line; |
n | =
|
Number of different coatings as applied each day on each coating line; |
i | =
|
Subscript denoting an individual coating; |
Ai | =
|
Weight of VOM per volume of each coating (minus water and any compounds that are specifically exempted from the definition of VOM) as applied each day on each coating line in units of kg VOM/l (lbs VOM/gal); and |
Bi | =
|
Volume of each coating (minus water and any compounds that are specifically exempted from the definition of VOM) as applied each day on each coating line in units of l/day (gal/day). The instrument or method by which the owner or operator accurately measured or calculated the volume of each coating as applied on each coating line each day shall be described in the certification to the Agency. |
Ed | =
|
Actual daily VOM emissions from participating coating lines in units of kg/day (lbs/day); |
i | =
|
Subscript denoting a specific coating applied; |
n | =
|
Total number of coatings applied by all participating coating lines at the source; |
Vi | =
|
Volume of each coating applied for the day in units of l/day (gal/day) of coating (minus water and any compounds that are specifically exempted from the definition of VOM); and |
Ci | =
|
The VOM content of each coating as applied in units of kg VOM/l (lbs VOM/gal) of coating (minus water and any compounds that are specifically exempted from the definition of VOM). |
Ai | =
|
The VOM emissions allowed for the day in units of kg/day (lbs/day); |
i | =
|
Subscript denoting a specific coating applied; |
n | =
|
Total number of coatings applied in the participating coating lines; |
Ci | =
|
The VOM content of each coating as applied in units of kg VOM/l (lbs VOM/gal) of coating (minus water and any compounds that are specifically exempted from the definition of VOM); |
Di | =
|
The density of VOM in each coating applied. For the purposes of calculating Al, the density is 0.882 kg VOM/l VOM (7.36 lbs VOM/gal VOM); |
Vi | =
|
Volume of each coating applied for the day in units of l (gal) of coating (minus water and any compounds that are specifically exempted from the definition of VOM); and |
Li | =
|
The VOM emission limitation for each coating applied, as specified in Section 218.204 of this Subpart, in units of kg VOM/l (lbs VOM/gal) of coating (minus water and any compounds that are specifically exempted from the definition of VOM). |
Ap | =
|
The VOM emissions allowed for the day in units of kg/day (lbs/day); |
h | =
|
Subscript denoting a specific powder coating line; |
j | =
|
Subscript denoting a specific powder coating applied; |
m | =
|
Total number of participating powder coating lines; |
n | =
|
Total number of powder coatings applied in the participating coating lines; |
Dj | =
|
The assumed density of VOM in liquid coating, 0.882 kg VOM/l VOM (7.36 lbs VOM/gal VOM); |
Vj | =
|
Volume of each powder coating consumed for the day in units of l (gal) of coating; |
Lj | =
|
The VOM emission limitation for each coating applied, as specified in Section 218.204 of this Subpart, in units of kg VOM/l (lbs VOM/gal) of coating (minus water and any compounds that are specifically exempted from the definition of VOM); and |
K | =
|
A constant for each individual coating line representing the ratio of the volume of coating solids consumed on the liquid coating system that has been replaced to the volume of powder coating consumed on the replacement line to accomplish the same coating job. This value shall be determined by the source based on tests conducted and records maintained pursuant to the requirements of Section 218.213 of this Subpart demonstrating the amount of coating solids consumed as both liquid powder. Test methods and recordkeeping requirements shall be approved by the Agency and USEPA and shall be contained in the source's operating permit as federally enforceable permit conditions, subject to the following restrictions:
•) K cannot exceed 0.9 for non-recycled powder coating systems; or •) K cannot exceed 2.0 for recycled powder coating systems. |
VOM(i)(A) | =
|
The weighted average VOM content in units of percent VOM by volume of all coatings and inks (minus water and any compounds that are specifically exempted from the definition of VOM) used each day; |
i | =
|
Subscript denoting a specific coating or ink as applied; |
n | =
|
The number of different coatings and/or inks as applied each day on a printing line; |
Ci | =
|
The VOM content in units of percent VOM by volume of each coating or ink as applied (minus water and any compounds that are specifically exempted from the definition of VOM); |
Li | =
|
The liquid volume of each coating or ink as applied in units of l (gal); |
Vsi | =
|
The volume fraction of solids in each coating or ink as applied; and |
VVOMi | =
|
The volume fraction of VOM in each coating or ink as applied. |
VOM(i)(B) | =
|
The weighted average VOM content in units of percent VOM by volume of the volatile content of all coatings and inks used each day; |
i | =
|
Subscript denoting a specific coating or ink as applied; |
n | =
|
The number of different coatings and/or inks as applied each day on each printing line; |
Ci | =
|
The VOM content in units of percent VOM by volume of the volatile matter in each coating or ink as applied; |
Li | =
|
The liquid volume of each coating or ink as applied in units of l (gal) and |
VVMi | =
|
The volume fraction of volatile matter in each coating or ink as applied. |
VOM(A) | =
|
The weighted average VOM content in units of kg VOM per kg (lbs VOM per lb) solids of all coatings and inks used each day; |
i | =
|
Subscript denoting a specific coating or ink as applied; |
n | =
|
The number of different coatings and/or inks as applied each day on a printing line; |
Ci | =
|
The VOM content in units of kg VOM per kg (lbs VOM per lb) solids of each coating or ink as applied; |
Wi | =
|
Weight of solids in each coating or ink, as applied, in units of kg (lb). |
VOM(B) | =
|
The weighted average VOM content in units of kg (lbs) VOM per weight in kg (lbs) of all coatings or inks as applied each day; |
i | =
|
Subscript denoting a specific coating or ink as applied; |
n | =
|
The number of different coatings and/or inks as applied each day on each printing line; |
Ci | =
|
The VOM content in units of kg (lbs) VOM per weight in kg (lbs) of each coating or ink as applied; |
Li | =
|
The weight of each coating or ink, as applied, in units of kg (lb). |
Ep | = | Total maximum theoretical emissions of VOM from one flexographic or rotogravure printing line in units of kg/year (lbs/year); |
A | = | Weight of VOM per volume of solids of the coating or ink with the highest VOM content as applied each year on the printing line in units of kg VOM/l (lbs VOM/gal) of coating or ink solids; |
B | = | Total volume of solids for all coatings and inks that can potentially be applied each year on the printing line in units of l/year (gal/year). The method by which the owner or operator accurately calculated the volume of each coating and ink as applied and the amount that can potentially be applied each year on the printing line shall be described in the certification to the Agency; |
C | = | Weight of VOM per volume of material for the cleanup material or solvent with the highest VOM content as used each year on the printing line in units of kg/l (lbs VOM/gal); |
D | = | The greatest volume of cleanup material or solvent used in any 8-hour period; |
F | = | The highest fraction of cleanup material or solvent which is not recycled or recovered for offsite disposal during any 8-hour period. |
Ep | =
|
Total maximum theoretical emissions of VOM from one heatset web offset printing line in units of kg/yr (lb/yr); |
A | =
|
Weight of VOM per volume of solids of ink with the highest VOM content as applied each year on the printing line in units of kg/l (lb/gal) of solids; |
B | =
|
Total volume of solids for all inks that can potentially be applied each year on the printing line in units of 1/yr (gal/yr). The method by which the owner or operator accurately calculated the volume of each ink as applied and the amount that can potentially be applied each year on the printing line shall be described in the certification to the Agency; |
C | =
|
Weight of VOM per volume of fountain solution with the highest VOM content as applied each year on the printing line in units of kg/l (lb/gal); |
D | =
|
The total volume of fountain solution that can potentially be used each year on the printing line in units of 1/yr (gal/yr). The method by which the owner or operator accurately calculated the volume of each fountain solution used and the amount that can potentially be used each year on the printing line shall be described in the certification to the Agency; |
F | =
|
Weight of VOM per volume of material for the cleanup material or solvent with the highest VOM content as used each year on the printing line in units of kg/l (lb/gal) of such material; |
G | =
|
The greatest volume of cleanup material or solvent used in any 8-hour period; |
H | =
|
The highest fraction of cleanup material or solvent that is not recycled or recovered for offsite disposal during any 8-hour period; |
R | =
|
The multiplier representing the amount of VOM not retained in the substrate being used. For paper, R = 0.8. For metal, plastic, or other impervious substrates, R = 1.0; |
VOMtot | =
|
Total VOM in the fountain solution; |
VOMfs | =
|
VOM emitted from the fountain solution; |
DE | =
|
Destruction efficiency of the control device on the associated dryer, in decimal form (i.e., 95% control is represented as 0.95). If no control device is present, DE = 0; |
VOMtot | =
|
Total VOM in the blanket wash; |
VOMtow | =
|
VOM emitted from the blanket wash; |
DE | =
|
Destruction efficiency of the control device on the associated dryer, in decimal form (i.e., 95% control is represented as 0.95). If no control device is present, DE = 0; |
Hr = | Net heating value of the sample in MJ/scm; where the net enthalpy per mole of offgas is based on combustion at 25oC and 760 mm Hg, but the standard temperature for determining the volume corresponding to one mole is 20o C; |
K = | Constant, 1.740 x 10-7 (1/ppm) (g-mole/scm) (MJ/Kcal) |
Ci = | Concentration of sample component i, in ppm, as measured by USEPA Reference Method 18, 40 CFR 60, Appendix A (1986), and ASTM D 2504-83, both incorporated by reference in Section 218.112;
|
Hi = | Net heat of combustion of sample component i, kcal/g mole. The heats of combustion may be determined using ASTM D 2382-83, incorporated by reference in Section 218.112 of this Part, if published values are not available or cannot be calculated. |
Hr = | The net heating value as determined in subsection (c) (4) of this Section.
. |
kg/l | (lb/gal) | ||
1) | Pretreatment wash primer | 0.78 | (6.5) |
2) | Precoat | 0.66 | (5.5) |
3) | Primer/primer surfacer coating | 0.58 | (4.8) |
4) | Primer sealer | 0.55 | (4.6) |
5) | Topcoat system or basecoat/clearcoat | 0.60 | (5.0) |
6) | Three or four stage topcoat system | 0.63 | (5.2) |
7) | Specialty coatings | 0.84 | (7.0) |
8) | Anti-glare/safety coating | 0.84 | (7.0) |
Excess Non-Monomer VOM
|
=
|
Non-monomer VOM Content
– 5 percent, by weight |
Weighted average monomer VOM content
(weight percent) |
A) | Production resin |
i) | Atomized spray | 28
|
ii) | Non-atomized | 35
|
B) | Pigmented gel coat | 33
|
|
C) | Clear gel coat | 48
|
|
D) | Tooling resin |
i) | Atomized | 30
|
ii) | Non-atomized | 39
|
|
E) | Tooling gel coat | 40
|
Weighted Average
Monomer VOM Content |
= | ![]() |
Mi | = | Mass of open molding resin or gel coat (i) used in the past 12 months in an operation, in megagrams; |
VOMi | = | Monomer VOM content, by weight percent, of open molding resin or gel coat (i) used in the past 12 months in an operation; |
n | = | Number of different open molding resins or gel coats used in the past 12 months in an operation. |
Monomer VOM Limit
|
=
|
![]() |
Monomer VOM Limit | = | Total allowable monomer VOM that can be emitted from the open molding operations included in the average, expressed in kilograms per 12-month period; |
MR | = | Mass of production resin used in the past 12 months, excluding any materials that are exempt, expressed in megagrams (Mg); |
MPG | = | Mass of pigmented gel coat used in the past 12 months, excluding any materials that are exempt, expressed in Mg; |
MCG | = | Mass of clear gel coat used in the past 12 months, excluding any materials that are exempt, expressed in Mg; |
MTR | = | Mass of tooling resin used in the past 12 months, excluding any materials that are exempt, expressed in Mg; |
MTG | = | Mass of tooling gel coat used in the past 12 months, excluding any materials that are exempt, expressed in Mg. |
Monomer
VOM Emissions |
=
|
![]() |
Monomer VOM Emissions | = | Monomer VOM emissions calculated using the monomer VOM emission equations for each operation included in the average, expressed in kilograms; |
PVR | = | Weighted-average monomer VOM emission rate for production resin used in the past 12 months, expressed in kg/Mg, calculated in accordance with Equation 4 in subsection (c)(3); |
MR | = | Mass of production resin used in the past 12 months, expressed in Mg; |
PVPG | = | Weighted-average monomer VOM emission rate for pigmented gel coat used in the past 12 months, expressed in kg/Mg, calculated pursuant to Equation 4; |
MPG | = | Mass of pigmented gel coat used in the past 12 months, expressed in Mg; |
PVCG | = | Weighted-average monomer VOM emission rate for clear gel coat used in the past 12 months, expressed in kg/Mg, calculated pursuant to Equation 4; |
MCG | = | Mass of clear gel coat used in the past 12 months, expressed in Mg; |
PVTR | = | Weighted-average monomer VOM emission rate for tooling resin used in the past 12 months, expressed in kg/Mg, calculated pursuant to Equation 4; |
MTR | = | Mass of tooling resin used in the past 12 months, expressed in Mg; |
PVTG | = | Weighted-average monomer VOM emission rate for tooling gel coat used in the past 12 months, expressed in kg/Mg, calculated pursuant to Equation 4; |
MTG | = | Mass of tooling gel coat used in the past 12 months, expressed in Mg. |
PVOP | = | Weighted-average monomer VOM emission rate for each open molding operation (PVR, PVPG, PVCG, PVTR, and PVTG) included in the average, expressed in kg of monomer VOM per Mg of material applied; |
Mi | = | Mass of resin or gel coat (i) used within an operation in the past 12 months, expressed in Mg; |
n | = | Number of different open molding resins and gel coats used within an operation in the past 12 months; |
PVi | = | The monomer VOM emission rate for resin or gel coat (i) used within an operation in the past 12 months, expressed in kg of monomer VOM per Mg of material applied. The monomer VOM emission rate formulas in subsection (c)(4) of this Section shall be used to compute PVi. If a source includes filled resins in the emissions average, the source shall use the value of PVF, calculated using Equation 5 in subsection (e)(3) of this Section, as the value of PVi for those resins; |
i | = | Subscript denoting a specific open molding resin or gel coat applied. |
PVF | = | The as-applied monomer VOM emission rate for the filled production resin or tooling resin, expressed in kg monomer VOM per Mg of filled material; |
PVU | = | The monomer VOM emission rate for the unfilled resin, before filler is added, expressed in kg monomer VOM per Mg, as calculated using the formulas in Section 218.891(c)(4) of this Subpart; |
% Filler | = | The weight-percent of filler in the as-applied filled resin system. |
kg VOM/l adhesive or adhesive primer applied | lb VOM/gal adhesive or adhesive primer applied |
1) | General adhesive application operations |
A) | Reinforced plastic composite | 0.200 | (1.7)
|
|
B) | Flexible vinyl | 0.250 | (2.1)
|
|
C) | Metal | 0.030 | (0.3)
|
|
D) | Porous material (except wood) | 0.120 | (1.0)
|
|
E) | Rubber | 0.250 | (2.1)
|
|
F) | Wood | 0.030 | (0.3)
|
|
G) | Other substrates | 0.250 | (2.1)
|
|
2) | Specialty adhesive application operations |
A) | Ceramic tile installation | 0.130
|
(1.1) | |
B) | Contact adhesive | 0.250
|
(2.1) | |
C) | Cove base installation | 0.150
|
(1.3) | |
D) | Indoor floor covering installation | 0.150
|
(1.3) | |
E) | Outdoor floor covering installation | 0.250
|
(2.1) | |
F) | Installation of perimeter bonded
sheet flooring |
0.660
|
(5.5) | |
G) | Metal to urethane/rubber molding or casting | 0.850
|
(7.1) | |
H) | Motor vehicle adhesive | 0.250
|
(2.1) | |
I) | Motor vehicle weatherstrip adhesive | 0.750
|
(6.3) | |
J) | Multipurpose construction | 0.200
|
(1.7) | |
K) | Plastic solvent welding (acrylonitrile butadiene styrene (ABS) welding) | 0.400
|
(3.3) | |
L) | Plastic solvent welding (except ABS welding) | 0.500
|
(4.2) | |
M) | Sheet rubber lining installation | 0.850
|
(7.1) | |
N) | Single-ply roof membrane installation/repair (except ethylene propylenediene monomer (EPDM) roof membrane) | 0.250
|
(2.1) | |
O) | Structural glazing | 0.100
|
(0.8) | |
P) | Thin metal laminate | 0.780
|
(6.5) | |
Q) | Tire repair | 0.100
|
(0.8) | |
R) | Waterproof resorcinol glue | 0.170
|
(1.4) | |
3) | Adhesive primer application operations |
A) | Motor vehicle glass bonding primer | 0.900
|
(7.5) | |
B) | Plastic solvent welding adhesive primer | 0.650
|
(5.4) | |
C) | Single-ply roof membrane adhesive primer | 0.250
|
(2.1) | |
D) | Other adhesive primer | 0.250
|
(2.1) |
VOMWA | = | The weighted average VOM content in units of kg (lbs) VOM per volume in l (gal) of all subject adhesives as applied each day; |
i | = | Subscript denoting a specific adhesive as applied; |
n | = | The number of different adhesives as applied each day by each miscellaneous industrial adhesive application operation; |
Vi | = | The volume of each adhesive, as applied, in units of l (gal); |
VOMi | = | The VOM content in units of kg (lbs) VOM per volume in l (gal) of each adhesive as applied; |
LimitWA | = | The allowable weighted average VOM limit in units of kg (lbs) VOM per volume in l (gal) of all subject adhesives as applied each day in a single operation; |
i | = | Subscript denoting a specific adhesive as applied; |
n | = | The number of different adhesives as applied each day by each miscellaneous industrial adhesive application operation; |
Vi | = | The volume of each adhesive, as applied, in units of1 (gal); |
Limiti | = | The VOM limit, taken from subsection (b) of this Section, in units of kg (lbs) VOM per volume in l (gal) of each adhesive as applied. |
CAS No.a | Chemical |
105-57-7 | Acetal |
75-07-0 | Acetaldehyde |
107-89-1 | Acetaldol |
60-35-5 | Acetamide |
103-84-4 | Acetanilide |
64-19-7 | Acetic acid |
108-24-7 | Acetic anhydride |
67-64-1 | Acetone |
75-86-5 | Acetone cyanohydrin |
75-05-8 | Acetonitrile |
98-86-2 | Acetophenone |
75-36-5 | Acetyl chloride |
74-86-2 | Acetylene |
107-02-8 | Acrolein |
79-06-1 | Acrylamide |
79-10-7 | Acrylic acid & esters |
107-13-1 | Acrylonitrile |
124-04-9 | Adipic acid |
111-69-3 | Adiponitrile |
b) | Alkyl naphthalenes |
107-18-6 | Allyl alcohol |
107-05-1 | Allyl chloride |
1321-11-5 | Aminobenzoic acid |
111-41-1 | Aminoethylethanolamine |
123-30-8 | p-aminophenol |
628-63-7, | Amyl acetates |
123-92-271-41-0c | Amyl alcohols |
110-58-7 | Amyl amine |
543-59-9 | Amyl chloride |
110-68-7c | Amyl mercaptans |
1322-06-1 | Amyl phenol |
62-53-3 | Aniline |
142-04-1 | Aniline hydrochloride |
29191-52-4 | Anisidine |
100-66-3 | Anisole |
118-92-3 | Anthranilic acid |
84-65-1 | Anthraquinone |
100-52-7 | Benzaldehyde |
55-21-0 | Benzamide |
71-43-2 | Benzene |
98-48-6 | Benzenedisulfonic acid |
CAS No.a | Chemical |
98-11-3 | Benzenesulfonic acid |
134-81-6 | Benzil |
76-93-7 | Benzilic acid |
65-85-0 | Benzoic acid |
119-53-9 | Benzoin |
100-47-0 | Benzonitrile |
119-61-9 | Benzophenone |
98-07-7 | Benzotrichloride |
98-88-4 | Benzoyl chloride |
100-51-6 | Benzyl alcohol |
100-46-9 | Benzylamine |
120-51-4 | Benzyl benzoate |
100-44-7 | Benzyl chloride |
98-87-3 | Benzyl dichloride |
92-52-4 | Biphenyl |
80-05-7 | Bisphenol A |
10-86-1 | Bromobenzene |
27497-51-4 | Bromonaphthalene |
106-99-0 | Butadiene |
106-98-9 | l-butene |
123-86-4 | n-butyl acetate |
141-32-2 | n-butyl acrylate |
71-36-3 | n-butyl alcohol |
78-92-2 | s-butyl alcohol |
75-65-0 | t-butyl alcohol |
109-73-9 | n-butylamine |
13952-84-6 | s-butylamine |
75-64-9 | t-butylamine |
98-73-7 | p-tert-butyl benzoic acid |
107-88-0 | 1,3-butylene glycol |
123-72-8 | n-butyraldehyde |
107-92-6 | Butyric acid |
106-31-0 | Butyric anhydride |
109-74-0 | Butyronitrile |
105-60-2 | Caprolactam |
75-1-50 | Carbon disulfide |
558-13-4 | Carbon tetrabromide |
55-23-5 | Carbon tetrachloride |
9004-35-7 | Cellulose acetate |
79-11-8 | Chloroacetic acid |
108-42-9 | m-chloroaniline |
95-51-2 | o-chloroaniline |
106-47-8 | p-chloroaniline |
35913-09-8 | Chlorobenzaldehyde |
108-90-7 | Chlorobenzene |
118-91-2, | Chlorobenzoic acid |
535-80-8, | |
CAS No.a | Chemical |
74-11-3c2136-81-4 | Chlorobenzotrichloride |
2136-89-2, | |
5216-25-1c | |
1321-03-5 | Chlorobenzoyl chloride |
75-45-6 | Chlorodifluoroethane |
25497-29-4 | Chlorodifluoromethane |
67-66-3 | Chloroform |
25586-43-0 | Chloronaphthalene |
88-73-3 | o-chloronitrobenzene |
100-00-5 | p-chloronitrobenzene |
25167-80-0 | Chlorophenols |
126-99-8 | Chloroprene |
7790-94-5 | Chlorosulfonic acid |
108-41-8 | m-chlorotoluene |
95-49-8 | o-chlorotoluene |
106-43-4 | p-chlorotoluene |
75-72-9 | Chlorotrifluoromethane |
108-39-4 | m-cresol |
95-48-7 | o-cresol |
106-44-5 | p-cresol |
1319-77-3 | Mixed cresols |
1319-77-3 | Cresylic acid |
4170-30-0 | Crotonaldehyde |
3724-65-0 | Crontonic acid |
98-82-8 | Cumene |
80-15-9 | Cumene hydroperoxide |
372-09-8 | Cyanoacetic acid |
506-77-4 | Cyanogen chloride |
108-80-5 | Cyanuric acid |
108-77-0 | Cyanuric chloride |
110-82-7 | Cyclohexane |
108-93-0 | Cyclohexanol |
108-94-1 | Cyclohexanone |
110-83-8 | Cyclohexene |
108-91-8 | Cyclohexylamine |
111-78-4 | Cyclooctadiene |
112-30-1 | Decanol |
123-42-2 | Diacetone alcohol |
27576-04-1 | Diaminobenzoic acid |
95-76-1, | Dichloroaniline |
95-82-9, | |
554-00-7, | |
608-27-5, | |
608-31-1, | |
626-43-7, | |
CAS No.a | Chemical |
27134-27-6, | |
57311-92-9c | |
541-73-1 | m-dichlorobenzene |
95-50-1 | o-dichlorobenzene |
106-46-7 | p-dichlorobenzene |
75-71-8 | Dichlorodifluoromethane |
111-44-4 | Dichloroethyl ether |
107-06-2 | 1,2-dichloroethane (EDC) |
96-23-1 | Dichlorohydrin |
26952-23-8 | Dichloropropene |
101-83-7 | Dicyclohexylamine |
109-89-7 | Diethylamine |
111-46-6 | Diethylene glycol |
112-36-7 | Diethylene glycol diethyl ether |
111-96-6 | Diethylene glycol dimethyl ether |
112-34-5 | Diethylene glycol monobutyl ether |
124-17-7 | Diethylene glycol mononbutyl ether acetate |
111-90-0 | Diethylene glycol monoethyl ether |
112-15-2 | Diethylene glycol monoethyl ether acetate |
111-77-3 | Diethylene glycol monomethyl ether |
64-67-5 | Diethyl sulfate |
75-37-6 | Difluoroethane |
25167-70-8 | Diisobutylene |
26761-40-0 | Diisodecyl phthalate |
27554-26-3 | Diisooctyl phthalate |
674-82-8 | Diketene |
124-40-3 | Dimethylamine |
121-69-7 | N,N-dimethylaniline |
115-10-6 | N,N-dimethyl ether |
68-12-2 | N,N-dimethylformamide |
57-14-7 | Dimethylhydrazine |
77-78-1 | Dimethyl sulfate |
75-18-3 | Dimethyl sulfide |
67-68-5 | Dimethyl sulfoxide |
120-61-6 | Dimethyl terephthalate |
99-34-3 | 3,5-dinitrobenzoic acid |
51-28-5 | Dinitrophenol |
Dinitrotoluene | |
123-91-1 | Dioxane |
646-06-0 | Dioxilane |
CAS No.a | Chemical |
122-39-4 | Diphenylamine |
101-84-4 | Diphenyl oxide |
102-08-9 | Diphenyl thiourea |
25265-71-8 | Dipropylene glycol |
25378-22-7 | Dodecene |
28675-17-4 | Dodecylaniline |
27193-86-8 | Dodecylphenol |
106-89-8 | Epichlorohydrin |
64-17-5 | Ethanol |
141-43-5c | Ethanolamines |
141-78-6 | Ethyl acetate |
141-97-9 | Ethyl acetoacetate |
140-88-5 | Ethyl acrylate |
75-04-7 | Ethylamine |
100-41-4 | Ethylbenzene |
74-96-4 | Ethyl bromide |
9004-57-3 | Ethylcellulose |
75-00-3 | Ethyl chloride |
105-39-5 | Ethyl chloroacetate |
105-56-6 | Ethylcyanoacetate |
74-85-1 | Ethylene |
96-49-1 | Ethylene carbonate |
107-07-3 | Ethylene chlorohydrin |
107-15-3 | Ethylenediamine |
106-93-4 | Ethylene dibromide |
107-21-1 | Ethylene glycol |
111-55-7 | Ethylene glycol diacetate |
110-71-4 | Ethylene glycol dimethyl ether |
111-76-2 | Ethylene glycol monobutyl ether |
112-07-2 | Ethylene glycol monobutyl ether acetate |
110-80-5 | Ethylene glycol monoethyl ether |
111-15-9 | Ethylene glycol monoethyl ether acetate |
109-86-4 | Ethylene glycol monoethyl ether |
110-49-6 | Ethylene glycol monomethyl ether acetate |
122-99-6 | Ethylene glycol monophenyl ether |
2807-30-9 | Ethylene glycol monopropyl ether |
75-21-8 | Ethylene oxide |
60-29-7 | Ethyl ether |
104-76-7 | 2-ethylhexanol |
122-51-0 | Ethyl orthoformate |
95-92-1 | Ethyl oxalate |
41892-71-1 | Ethyl sodium oxaloacetate |
CAS No.a | Chemical |
50-00-0 | Formaldehyde |
75-12-7 | Formamide |
64-18-6 | Formic acid |
110-17-8 | Fumaric acid |
98-01-1 | Furfural |
56-81-5 | Glycerol (Synthetic) |
26545-73-7 | Glycerol dichlorohydrin |
25791-96-2 | Glycerol triether |
56-40-6 | Glycine |
107-22-2 | Glyoxal |
118-74-1 | Hexachlorobenzene |
67-72-1 | Hexachloroethane |
36653-82-4 | Hexadecyl alcohol |
124-09-4 | Hexamethylenediamine |
629-11-8 | Hexamethylene glycol |
100-97-0 | Hexamethylenetetramine |
74-90-8 | Hydrogen cyanide |
123-31-9 | Hydroquinone |
99-96-7 | p-hydroxybenzoic acid |
26760-64-5 | Isoamylene |
78-83-1 | Isobutanol |
110-19-0 | Isobutyl acetate |
115-11-7 | Isobutylene |
78-84-2 | Isobutyraldehyde |
79-31-2 | Isobutyric acid |
25339-17-7 | Isodecanol |
26952-21-6 | Isooctyl alcohol |
78-78-4 | Isopentane |
78-59-1 | Isophorone |
121-91-5 | Isophthalic acid |
78-79-5 | Isoprene |
67-63-0 | Isopropanol |
108-21-4 | Isopropyl acetate |
75-31-0 | Isopropylamine |
75-29-6 | Isopropyl chloride |
25168-06-3 | Isopropylphenol |
463-51-4 | Ketene |
b | Linear alkyl sulfonate* |
123-01-3 | Linear alkylbenzene |
110-16-7 | Maleic acid |
108-31-6 | Maleic anhydride |
6915-15-7 | Malic acid |
141-79-7 | Mesityl oxide |
121-47-1 | Metanilic acid |
79-41-4 | Methacrylic acid |
563-47-3 | Methallyl chloride |
67-56-1 | Methanol |
CAS No.a | Chemical |
79-20-9 | Methyl acetate |
105-45-3 | Methyl acetoacetate |
74-89-5 | Methylamine |
100-61-8 | n-methylaniline |
74-83-9 | Methyl bromide |
37365-71-2 | Methyl butynol |
74-87-3 | Methyl chloride |
108-87-2 | Methyl cyclohexane |
1331-22-2 | Methyl cyclohexanone |
75-09-2 | Methylene chloride |
101-77-9 | Methylene dianiline |
101-68-8 | Methylene diphenyl diisocyanate |
78-93-3 | Methyl ethyl ketone |
107-31-3 | Methyl formate |
108-11-2 | Methyl isobutyl carbinol |
108-10-1 | Methyl isobutyl ketone |
80-62-6 | Methyl methacrylate |
77-75-8 | Methylpentynol |
98-83-9 | B-methylstyrene |
110-91-8 | Morpholine |
85-47-2 | a-naphthalene sulfonic acid |
120-18-3 | B-naphthalene sulfonic acid |
90-15-3 | a-naphthol |
135-19-3 | B-naphthol |
75-98-9 | Neopentanoic acid |
88-74-4 | o-nitroaniline |
100-01-6 | p-nitroaniline |
91-23-6 | o-nitroanisole |
100-17-4 | p-nitroanisole |
98-95-3 | Nitrobenzene |
27178-83-2c | Nitrobenzoic acid (o, m & p) |
79-24-3 | Nitroethane |
75-52-5 | Nitromethane |
88-75-5 | Nitrophenol |
25322-01-4 | Nitropropane |
1321-12-6 | Nitrotoluene |
27215-95-8 | Nonene |
25154-52-3 | Nonylphenol |
27193-28-8 | Octylphenol |
123-63-7 | Paraldehyde |
115-77-5 | Pentaerythritol |
109-66-0 | n-pentane |
109-67-1 | l-pentene |
127-18-4 | Perchloroethylene |
594-42-3 | Perchloromethyl mercaptan |
94-70-2 | o-phenetidine |
156-43-4 | p-phenetidine |
CAS No.a | Chemical |
108-95-2 | Phenol |
98-67-9, | Phenolsulfonic acids |
585-38-6, | |
609-46-1, | |
133-39-7c | |
91-40-7 | Phenyl anthranilic acid |
(b) | Phenylenediamine |
75-44-5 | Phosgene |
85-44-9 | Phthalic anhydride |
85-41-6 | Phthalimide |
108-99-6 | b-picoline |
110-85-0 | Piperazine |
9003-29-6, | Polybutenes |
25036-29-7c | |
25322-68-3 | Polyethylene glycol |
25322-69-4 | Polypropylene glycol |
123-38-6 | Propionaldehyde |
79-09-4 | Propionic acid |
71-23-8 | n-propyl alcohol |
107-10-8 | Propylamine |
540-54-5 | Propyl chloride |
115-07-1 | Propylene |
127-00-4 | Propylene chlorohydrin |
78-87-5 | Propylene dichloride |
57-55-6 | Propylene glycol |
75-56-9 | Propylene oxide |
110-86-1 | Pyridine |
106-51-4 | Quinone |
108-46-3 | Resorcinol |
27138-57-4 | Resorcylic acid |
69-72-7 | Salicylic acid |
127-09-3 | Sodium acetate |
532-32-1 | Sodium benzoate |
9004-32-4 | Sodium carboxymethyl cellulose |
3926-62-3 | Sodium chloroacetate |
141-53-7 | Sodium formate |
139-02-6 | Sodium phenate |
110-44-1 | Sorbic acid |
100-42-5 | Styrene |
110-15-6 | Succinic acid |
110-61-2 | Succinitrile |
121-57-3 | Sulfanilic acid |
126-33-0 | Sulfolane |
1401-55-4 | Tannic acid |
100-21-0 | Terephthalic acid |
79-34-5c | Tetrachloroethanes |
CAS No. a | Chemical |
117-08-8 | Tetrachlorophthalic anhydride |
78-00-2 | Tetraethyllead |
119-64-2 | Tetrahydronaphthalene |
85-43-8 | Tetrahydrophthalic anhydride |
75-74-1 | Tetramethyllead |
110-60-1 | Tetramethylenediamine |
110-18-9 | Tetramethylethylenediamine |
108-88-3 | Toluene |
95-80-7 | Toluene-2,4-diamine |
584-84-9 | Toluene-2,4-diisocyanate |
26471-62-5 | Toluene diisocyanates (mixture) |
1333-07-9 | Toluene sulfonamide |
104-15-4c | Toluenesulfonic acids |
98-59-9 | Toluene sulfonyl chloride |
26915-12-8 | Toluidines |
87-61-6, | Trichlorobenzenes |
108-70-3, | |
120-82-1c | |
71-55-6 | 1,1,1-trichloroethane |
79-00-5 | 1,1,2-trichloroethane |
79-01-6 | Trichloroethylene |
75-69-4 | Trichlorofluoromethane |
96-18-4 | 1,2,3-trichloropropane |
76-13-1 | 1,1,2-trichloro-1,2,2-trifluoroethane |
121-44-8 | Triethylamine |
112-27-6 | Triethylene glycol |
112-49-2 | Triethylene glycoldimethyl ether |
7756-94-7 | Triisobutylene |
75-50-3 | Trimethylamine |
57-13-6 | Urea |
108-05-4 | Vinyl acetate |
75-01-4 | Vinyl chloride |
75-35-4 | Vinylidene chloride |
25013-15-4 | Vinyl toluene |
1330-20-7 | Xylenes (mixed) |
95-47-6 | o-xylene |
106-42-3 | p-xylene |
1300-71-6 | Xylenol |
1300-73-8 | Xylidine |
(b) | methyl tert-butyl ether |
9002-88-4 | Polyethylene |
(b) | Polypropylene |
9009-53-6 | Polystyrene |
Min. | Max. | a | b | c | d | e | f |
0.0 | 13.5 | 48.73 | 0. | 0.404 | -0.1632 | 0. | 0. |
13.5 | 700. | 42.35 | 0.624 | 0.404 | -0.1632 | 0. | 0.0245 |
700. | 1400. | 84.38 | 0.678 | 0.404 | -0.1632 | 0. | 0.0346 |
1400. | 2100. | 126.41 | 0.712 | 0.404 | -0.1632 | 0. | 0.0424 |
2100. | 2800. | 168.44 | 0.747 | 0.404 | -0.1632 | 0. | 0.0490 |
2800. | 3500. | 210.47 | 0.758 | 0.404 | -0.1632 | 0. | 0.0548 |
Min. | Max. | a | b | c | d | e | f |
0. | 13.5 | 47.76 | 0. | -0.292 | 0. | 0. | 0. |
13.5 | 700. | 41.58 | 0.605 | -0.292 | 0. | 0. | 0.0245 |
700. | 1400. | 82.84 | 0.658 | -0.292 | 0. | 0. | 0.0346 |
1400. | 2100. | 123.10 | 0.691 | -0.292 | 0. | 0. | 0.0424 |
2100. | 2800. | 165.36 | 0.715 | -0.292 | 0. | 0. | 0.0490 |
2800. | 3500. | 206.62 | 0.734 | -0.292 | 0. | 0. | 0.0548 |
Min. | Max. | a | b | c | d | e | f |
0. | 13.5 | 19.05 | 0. | 0.113 | -0.214 | 0. | 0. |
13.5 | 1350. | 16.61 | 0.239 | 0.113 | -0.214 | 0. | 0.0245 |
1350. | 2700. | 32.91 | 0.260 | 0.113 | -0.214 | 0. | 0.0346 |
2700. | 4050. | 49.21 | 0.273 | 0.113 | -0.214 | 0. | 0.0424 |
Min. | Max. | a | b | c | d | e | f |
0. | 13.5 | 19.74 | 0. | 0.400 | -0.202 | 0. | 0. |
13.5 | 1350. | 18.30 | 0.138 | 0.400 | -0.202 | 0. | 0.0245 |
1350. | 2700. | 36.28 | 0.150 | 0.400 | -0.202 | 0. | 0.0346 |
2700. | 4050. | 54.26 | 0.158 | 0.400 | -0.202 | 0. | 0.0424 |
Min. | Max. | a | b | c | d | e | f |
.0 | 13.5 | 15.24 | 0. | 0.033 | 0. | 0. | 0. |
13.5 | 1190. | 13.63 | 0.157 | 0.033 | 0. | 0. | 0.0245 |
1190. | 2380. | 26.95 | 0.171 | 0.033 | 0. | 0. | 0.0346 |
2380. | 3570. | 40.27 | 0.179 | 0.033 | 0. | 0. | 0.0424 |
Min. | Max. | a | b | c | d | e | f |
0. | 13.5 | 15.24 | 0. | 0. | 0.0090 | 0. | 0. |
13.5 | 1190. | 13.63 | 0. | 0. | 0.0090 | 0.0503 | 0.0245 |
1190. | 2380. | 26.95 | 0. | 0. | 0.0090 | 0.0546 | 0.0346 |
2380. | 3570. | 40.27 | 0. | 0. | 0.0090 | 0.0573 | 0.0424 |
Facility | Permit/Source | Reduction |
Mobil-Joliet Refining Corp. | 88010021045 | 1,595 |
Facility ID# 197800AAA | ||
Texaco Refining | 84050048007 | 541 |
Facility ID # 197810AAA | ||
UNO-VEN Company | 88010019055 | 549 |
Facility ID # 197090AAI |
Value of Coefficients
|
Type of Stream | Control Device Basis | a | b | c | d |
Nonhalogenated | Flare | 2.129 | 0.183 | -0.005 | 0.359 |
Thermal incinerator zero (0) Percent heat Recovery | 3.075 | 0.021 | -0.037 | 0.018 | |
Thermal incinerator70 Percent heat Recovery | 3.803 | 0.032 | -0.042 | 0.007 | |
Halogenated | Thermal incinerator and scrubber | 5.470 | 0.181 | -0.040 | 0.004 |