7 Del. Admin. Code § 1124
01/11/2017
1.2 This regulation is applicable to the sources of Volatile Organic Compounds (VOCs) as set-forth herein, except:
1.6 Any owner or operator who owns or operates a process or operation regulated by a subsequent section of this regulation may submit to the Department proposals for alternative compliance schedules. The Department may, with the concurrence of the Administrator of the U. S. Environmental Protection Agency (U.S. EPA), approve the alternative compliance schedules if:
04/11/2010
For the purpose of this regulation, the following definitions apply:
“Actual emissions” means the quantity VOCs emitted from a source during a particular time period.
"Adhesion primer" means a coating that is applied to thermoplastic olefin (TPO) parts to promote adhesion of subsequent coatings. An adhesion primer is clearly identified as an adhesion primer or adhesion promoter on its accompanying material safety data sheet.
“Aerosol coating product” means a pressurized coating product containing pigments or resins that dispenses product ingredients by means of a propellant and in packaged in a disposable can for hand-held application, or for use in specialized equipment for ground traffic marking applications.
“ Air-dried coating ”means a coating that is cured at a temperature below 90o C (194o F).
“As applied” means including any dilution solvents added before application of the coating.
“ Baked coating ”means a coating that is cured at a temperature at or above 90o C (194o F).
“Basecoat” means a pigmented topcoat that is the first coat applied as part of a multistage topcoat system.
“Bulk gasoline plant” means a gasoline storage and distribution facility with an average daily throughput of 76,000 liters (L) (20,000 gallons [gal]) of gasoline or less on a monthly average.
“Bulk gasoline terminal” means a gasoline storage facility that receives gasoline from refineries, delivers gasoline to bulk gasoline plants or to commercial or retail accounts, and has a daily throughput of more than 76,000 L (20,000 gal) of gasoline on a monthly average.
“Capture efficiency” means the weight per unit time of VOC entering a capture system and delivered to a control device divided by the weight per unit time of total VOC generated by a source of VOC, expressed as a percentage.
“Capture system” means all equipment (including, but not limited to, hoods, ducts, fans, booths, ovens, dryers, etc.) that contains, collects, and transports an air pollutant to a control device.
“Carbon absorber” means an add-on control device that uses activated carbon to absorb VOCs from a gas stream.
“Carbon adsorption system" means a carbon adsorber with an inlet and outlet for exhaust gases and a system to regenerate the saturated adsorbent.
“Clearcoat” means a topcoat that contains no pigments or only transparent pigments and that is the final coat applied as part of a multistage topcoat system.
“Coating” means a material applied onto or impregnated into a substrate for protective, decorative, or functional purposes. Such materials include, but are not limited to, paints, varnishes, sealants, adhesives, inks, maskants, and temporary protective coatings.
“Coating unit” means a series of one or more coating applicators and any associated drying area or oven wherein a coating is applied, dried, or cured. A coating unit ends at the point where the coating is dried or cured, or prior to any subsequent application of a different coating. It is not necessary to have an oven or a flash-off area in order to be included in this definition.
“Continuous vapor control system” means a vapor control system that treats vapors displaced from tanks during filling on a demand basis without intermediate accumulation.
“Control device” means equipment (such as an incinerator or carbon adsorber) used to reduce, by destruction or removal, the amount of air pollutant or pollutants in an air stream prior to discharge to the ambient air.
“Control system” means a combination of one or more capture system or systems and control device or devices working in concert to reduce discharges of pollutants to the ambient air.
“Day” means a period of 24 consecutive hours beginning at midnight local time, or beginning at a time consistent with a facility's operating schedule.
“Destruction or removal efficiency” means the amount of VOC destroyed or removed by a control device expressed as a percent of the total amount of VOC entering the device.
"Dip coating" means the application method of a coating material to a substrate by dipping the part into a tank of coating material.
“Double block-and-bleed system” means two block valves connected in series with a bleed valve or line that can vent the line between the two block valves.
"Electric-insulating and thermal-conducting coating" means a coating that displays an electrical insulation of at least 1000 volts DC per mil on a flat test plate and an average thermal conductivity of at least 0.27 BTU per hour-foot-degree Fahrenheit.
"Electrostatic spray" means a method of applying a spray coating in which opposite electric charges are applied to the substrate and the coating. The coating is attracted to the substrate by the electrostatic potential between them.
“Exempt compounds” means any of the compounds listed in 2.0 of 7 DE Admin. Code 1101 - Definitions, "Volatile Organic Compounds," which have been determined to have negligible photochemical reactivity.
For determining compliance with emission limits, VOCs will be measured according to the procedures in Methods 25 and 25A ofAppendix A of 40 CFR, Part 60, and the procedures and equations in §60.755. Where such a method also measures compounds with negligible photochemical reactivity, an owner or operator may exclude these negligibly-reactive compounds when determining compliance with an emission standard. However, the Department may require such owner or operator, as a precondition to excluding these compounds for purposes of determining compliance, to provide monitoring methods and monitoring results demonstrating, to the satisfaction of the Department, the amount of negligibly-reactive compounds in the sources emissions.
In addition to the procedures for requesting a satisfactory compliance determination, where the Department proposes to allow the use of a test method for excluding negligibly-reactive compounds that is different or not specified in the approved SIP, such change shall be submitted to the U.S. EPA for approval as part of a SIP revision.
“External floating roof” means a cover over an open-top storage tank consisting of a double deck or pontoon single deck that rests upon and is supported by the volatile organic liquid being contained and is equipped with a closure seal or seals to close the space between the roof edge and tank shell.
"Extreme high-gloss coating" means a coating which, when tested by ASTM International Method D-523, adopted in 1980, shows a reflectance of 75 or more on a 600 meter.
"Extreme performance coating" means a coating used on a metal surface where the coated surface is, in its intended use, subject to the following; (a) chronic exposure to corrosive, caustic or acidic agents, chemicals, chemical fumes, chemical mixtures or solutions: or (b) repeated exposure to temperatures in excess of 250 0F; or (c) repeated heavy abrasion, including mechanical wear and repeated scrubbing with industrial grade solvents, cleansers of scouring agents.
“Facility” means all of the pollutant-emitting activities, excluding pollutant-emitting activities from mobile sources that are located on one or more contiguous or adjacent properties, and are under the control of the same person (or person under common control).
“First attempt at repair” means to take rapid action for the purpose of stopping or reducing leakage of organic material to the atmosphere using best practices.
“Flash-off area” means the space between the coating application area and the oven.
"Flow coating" means the application of a coating material to a substrate by pouring the coating over the suspended part.
“Gasoline tank truck” means a delivery tank truck used at bulk gasoline plants, bulk gasoline terminals, or gasoline dispensing facilities that is loading or unloading gasoline or that has loaded or unloaded gasoline on the immediately previous load.
“Gloss flattener” means a low-gloss coating that is formulated to eliminate glare on the interior surfaces of a vehicle for safety purposes, as specified under the U.S. Department of Transportation Motor Vehicle Safety Standards.
"Hand application" means a method of applying coatings by non-mechanical hand-held equipment, including, but not limited to, paint brushes, hand rollers, caulking guns, trowels, spatulas, syringe daubers, rags and sponges.
“Heavy-duty truck” means any motor vehicle rated at greater than 3,864 kg (8,500 lb) gross weight designed primarily to transport property.
"High-volume, low-pressure (HVLP) spray equipment" means spray equipment that is used to apply coatings using a spray gun that operates less than or equal to 10 psig of atomized air pressure at the air cap.
“Incinerator” means a combustion apparatus in which solid, semisolid, liquid, or gaseous combustible wastes are ignited and burned and from which the solid and gaseous residues contain little or no combustible material.
“Intermittent vapor control system” means a vapor control system that employs an intermediate vapor holder to accumulate vapors displaced from tanks during filling. The control device treats the accumulated vapors only during automatically controlled cycles.
“Internal Floating Roof” means a cover or roof in a fixed-roof tank that rests upon or is floated upon, the liquid being contained, and is equipped with a closure seal or seals to close the space between the roof edge and the tank shell.
“Knife coating” means the application of a coating material to a substrate by means of drawing the substrate beneath a knife that spreads the coating evenly over the full width of the substrate.
“Leak” means a VOC emission indicated by an instrument calibrated according to Method 21 of 40 CFR, Part 60, Appendix A, using zero air (less than 10 parts per million [ppm] of hydrocarbon in air) and a mixture of methane or n-hexane and air at a concentration of about, but less than, 10,000 ppm methane or n-hexane.
“Lease custody transfer” means the transfer of produced crude oil or condensate, after processing or treating in the producing operations, from storage tanks or automatic transfer facilities to pipelines or any other forms of transportation.
“Liquid-mounted seal” means a primary seal mounted in continuous contact with the liquid between the tank wall and the floating roof around the circumference of the tank.
“Loading rack” means an aggregation or combination of gasoline loading equipment arranged so that all loading outlets in the combination can be connected to a tank truck or trailer parked in a specified loading space.
“Lower explosive limit” (LEL) means the concentration of a compound in air below which a flame will not propagate if the mixture is ignited.
“Maximum theoretical emissions” means the quantity of VOC that theoretically could be emitted by a source without control devices based on the design capacity or maximum production capacity of the source and 8,760 hours of operation per year. The design capacity or maximum production capacity includes use of coatings and inks with the highest VOC content used in practice by the source for the two preceding years.
“Maximum true vapor pressure” means the equilibrium partial pressure exerted by a stored liquid at the temperature equal to:
2. for liquids stored at the ambient temperature, the local maximum monthly average temperature as reported by the National Weather Service. This pressure shall be determined by one of the following:
iv. By any other method approved by the Department as part of the State Implementation Plan (SIP) Revision.
"Metallic coating" means a coating which contains more than 5 grams of metal particles per liter of coating, as applied. Metal particles are pieces of a pure elemental metal or a combination of elemental metals.
"Mold-seal coating" means the initial coating applied to a new mold or a repaired mold to provide a smooth surface which, when coated with a mold release coating prevents products from sticking to the mold.
“Multicomponent coating” means a coating which is packaged in two or more parts, which parts are combined before application, and where a coreactant from one part of the coating chemically reacts, at ambient conditions, with a coreactant from another part of the coating.
"One-component coating" means a coating that is ready for application as it comes out of its container to form an acceptable dry film. A thinner, necessary to reduce the viscosity, is not considered a component.
“Open-ended valve or line” means any valve, except safety relief valves, having one side of the valve seat in contact with process fluid and one side open to the atmosphere, either directly or through open piping.
“Organic compound” means any carbon-containing chemical compound excluding carbon monoxide, carbon dioxide, carbonic acid, metallic carbides or carbonates, and ammonium carbonate.
“Oven” means a chamber which is used to bake, cure, polymerize, or dry a coating.
“Overall emission reduction efficiency” means the weight per unit time of VOC removed or destroyed by a control device divided by the weight per unit time of VOC generated by a source, expressed as a percentage. The overall emission reduction efficiency can also be calculated as the product of the capture efficiency and the control device destruction or removal efficiency.
“Owner or Operator” means any person who owns, leases, controls, operates or supervises a facility, a source, or air pollution control or monitoring equipment.
“Person” means any individual, partnership, copartnership, firm, company, corporation, association, joint stock company, trust, estate, political subdivision, or any other legal entity, or their legal representative, agent, or assigns.
“Petroleum” means the crude oil removed from the earth and the oils derived from tar sands, shale and coal.
“Petroleum Liquid” means petroleum condensate, and any finished or intermediate products manufactured in a petroleum refinery.
“Plastisol” means a coating made of a mixture of finely divided resin and a plasticizer. Plastisol is applied as a thick gel that solidifies when heated.
“Press-Ready Ink” means the ink, as applied to the substrate, after all solvents and diluents have been added.
“Pressure release” means the emission of materials resulting from system pressure being greater than set pressure of the pressure relief device.
"Pretreatment coating" means a coating which contains no more than 12% solids by weight, and at least 0.5% acid by weight, is used to provide surface etching, and is applied directly to metal surfaces to provide corrosion resistance, adhesion, and ease of stripping.
“Primer” means any coating applied prior to the application of a topcoat or color coat for the purposes of surface preparation, corrosion resistance, adhesion, and color uniformity.
“Process unit shutdown” means a work practice or operational procedure that stops production from a process unit or part of a process unit. An unscheduled work practice or operational procedure that stops production from a process unit or part of a process unit for less than 24 hours is not a process unit shutdown. The use of spare equipment and technically feasible bypassing of equipment without stopping production are not process unit shutdowns.
“Reid vapor pressure” means the absolute vapor pressure of volatile crude oil and volatile nonviscous petroleum liquids, except liquified petroleum gases, as determined by ASTM D323-82.
"Repair coating" means a coating used to re-coat portions of a previously coated product which has sustained mechanical damage to the coating following normal coating operations.
“Repaired” means that equipment is adjusted, or otherwise altered, in order to eliminate a leak as indicated by one of the following: an instrument reading of 10,000 ppm or greater, indication of liquids dripping, or indication by a sensor that a seal or barrier fluid system has failed.
“Roll coating” means the application of a coating material to a moving substrate by means of hard rubber, elastomeric, or metal rolls.
“Rotogravure coating” means the application of a coating material to a substrate by means of a roll coating technique in which the pattern to be applied is recessed relative to the non-image area, and the coating material is picked up in these recessed areas and is transferred to the substrate.
"Safety-indicating coatings" means a coating which changes physical characteristics, such as color, to indicate unsafe conditions.
“Shutdown” means the cessation of operation of a facility or of its emission control or emission monitoring equipment.
"Solar-absorbent coating" means a coating which has as its prime purpose the absorption of solar radiation.
"Solid-film lubricant" means a very thin coating consisting of a binder system containing as its chief pigment material one or more of molybdenum disulfide, graphite, polytetraflouroethylene (PTFE) or other solids that act as a dry lubricant between faying surfaces.
“Source” means any building, structure, equipment (excluding mobile equipment temporarily in place), or installation that directly or indirectly releases or discharges, or has the potential to release or discharge, VOCs into the atmosphere.
“Stage I Vapor Recovery System” means the control of gasoline vapor from any delivery vessel into any stationary storage vessel, where the vapor displaced by the liquid gasoline is returned to the delivery vessel and transported to the refinery.
“Stage II Vapor Recovery System” means a system that controls the emissions of gasoline vapor at the vehicle fill-pipe, where the vapor is captured and returned to a vapor-tight storage tank, or is destroyed; which achieves an overall control efficiency of at least 95%.
“Standard conditions” means a temperature of 20oC (68oF) and pressure of 760 mm Hg (29.92 in. Hg).
“Startup” means the setting in operation of a source or of its emission control or emission monitoring equipment.
"Stencil coating" means a coating which is rolled or brushed onto a template or stamp in order to add identifying letters, symbols or numbers.
“Storage Vessel” means each tank, reservoir or container used for the storage of Volatile Organic Liquids, but does not include:
2. Subsurface caverns or porous rock reservoirs.
“Submerged fill” means the method of filling a delivery vessel or storage vessel where product enters within 150 millimeters (mm) (5.9 inches [in.]) of the bottom of the delivery or storage vessel. Bottom filling of delivery and storage vessels is included in this definition.
“Substrate” means the surface onto which a coating is applied or into which a coating is impregnated.
“Throughput” means the amount of gasoline dispensed at a gasoline dispensing facility during a calendar month after November 15, 1990.
"Touch-up coating" means a coating used to cover minor coating imperfections appearing after the main coating operation.
“Transfer efficiency” means the ratio of the amount of coating solids adhering to the object being coated to the total amount of coating solids used in the application process, expressed as a percentage.
"Two-component paint" means a coating that is manufactured in two components that are mixed shortly before use. When mixed, the two liquids rapidly crosslink to form a solid composition.
"Vacuum-metalizing coating" means the undercoat applied to the substrate on which the metal is deposited or the overcoat applied directly to the metal film. Vacuum metalizing/physical vapor deposition (PVD) is the process whereby metal is vaporized and deposited on a substrate in a vacuum chamber.
“Vapor collection system” means all piping, seals, hoses, connections, pressure-vacuum vents, and other equipment between the gasoline tank truck and the vapor processing unit or the storage tanks and vapor holder.
“Vapor control system” means a system that limits or prevents release to the atmosphere of organic compounds in the vapors displaced from a tank during the transfer of gasoline.
“Vapor-mounted seal” means a primary seal mounted so there is an annular vapor space underneath the seal. The annular vapor space is bounded by the bottom of the primary seal, the tank wall, the liquid surface and the floating roof.
“Vapor recovery system” means a vapor-gathering system capable of collecting VOC vapors and gases emitted during the operation of any transfer, storage, or process equipment.
“Vapor-tight” means equipment that allows no loss of vapors. Compliance with vapor-tight requirements can be determined by checking to ensure that the concentration at a potential leak source is not equal to or greater than 100% of the LEL when measured with a combustible gas detector, calibrated with propane, at a distance of 2.54 centimeters (cm) (1 inch) from the source.
“Vapor-tight gasoline tank truck” means a gasoline tank truck that has demonstrated within the 12 preceding months that its product delivery tank will sustain a pressure change of not more than 75 mm (3.0 in.) of water within five minutes (min) after it is pressurized to 450 mm (18 in.) of water; or when evacuated to 150 mm (5.9 in.) of water, the same tank will sustain a pressure change of not more than 75 mm (3.0 in.) of water within 5 min. This capability is to be demonstrated using the test procedures specified in Method 27 of Appendix A of 40 CFR, Part 60 (July 1, 1992).
“Volatile Organic Liquid” (VOL) means any organic liquid which can emit any Volatile Organic Compound into the atmosphere (see definition of "Volatile Organic Compound" of this regulation).
“Volatile Organic Compound” (VOC) means any carbon-containing compound excluding carbon monoxide, carbon dioxide, carbonic acid, metallic carbides or carbonates and ammonium carbonate, which participates in atmospheric photochemical reactions. This includes any organic compounds other than those defined as "Exempt Compounds", which have been determined to have negligible photochemical reactivity (see definition of "Exempt Compounds" of this regulation). In addition to the procedures for requesting a satisfactory compliance demonstration, where the Department proposes to allow the use of a test method for excluding negligibly reactive compounds that is different from or not specified in the approved SIP, such change shall be submitted to the Environmental Protection Agency (U.S. EPA) for approval as part of a SIP Revision.
“Web coating line” means all of the coating applicator or applicators, drying area or areas, or oven or ovens, located between an unwind station and a rewind station, that are used to apply coating onto a continuous strip of substrate (the web). A web coating line need not have a drying oven.
01/11/1993
3.4
3.5 Any facility that claims exemption from the provisions of this regulation by reason of meeting the conditions in 3.3 of this regulation shall maintain the following annual records in a readily accessible location for at least 5 years and shall make those records available to the Department upon verbal or written request:
11/29/1994
4.2 Requirements for coating sources exempt from emission limitations. Any owner or operator of a coating unit, line, or operation that is exempt from the emission limitations of 10.0 through 23.0 of this regulation because combined VOC emissions from all coating units, lines, and operations at the facility are below the applicability threshold specified in the individual sections of this regulation, before the application of capture systems and control devices, shall comply with the following for each section of this regulation from which the owner or operator claims an exemption:
4.2.1 Certification. By November 15, 1993, the owner or operator of a facility referenced in 4.2 of this regulation shall certify to the Department that the facility is exempt from emission limitations by providing all of the following:
4.2.1.4 Calculations of the daily-weighted average that demonstrate that the combined VOC emissions from all coating units, lines, and operations at the facility that are covered by an individual section of this regulation for a day representative of current maximum production levels are less than 6.8 kilograms (kg) (15 pounds [lb]) before the application of capture systems and control devices. The following equation shall be used to calculate total VOC emissions for that day:

(4-1)
where:
T = Total VOC emissions from coating units, lines, and operations at the facility before the application of capture systems and control devices in units of kg/day (lb/day).
n = Number of different coatings applied on each coating unit, each coating line, or each operation at the facility.
i= Subscript denoting an individual coating.
Ai = Mass of VOC per volume of coating (i) (excluding water and exempt compounds), as applied, used at the facility in units of kilograms VOC per liter (kg VOC/L) (pounds VOC per gallon [lb VOC/gal]).
Bi = Volume of coating (i) (excluding water and exempt compounds), as applied, used at the facility in units of liters per day (L/day) (gallons per day [gal/day]). The instrument or method by which the owner or operator accurately measured or calculated the volume of each coating, as applied, used at the facility shall be described in the certification to the Department.
4.2.2 Recordkeeping. On and after November 15, 1993, the owner or operator of a facility referenced in 4.2 of this regulation shall collect and record all of the following information each day and maintain the information at the facility for a period of 5 years:
4.3 Requirements for coating sources using complying coatings. Any owner or operator of a coating unit, line, or operation subject to the limitations of 10.0 through 12.0 or 13.3.1 or 14.0 through 23.0 of this regulation and complying by means of the use of complying coatings shall comply with the following:
4.3.1 Certification. By November 15, 1993, or upon startup of a new coating unit, line, or operation, or upon changing the method of compliance for an existing subject coating unit, line, or operation from daily-weighted averaging or control devices to the use of complying coatings, the owner or operator of a coating unit, line, or operation referenced in 4.3 of this regulation shall certify to the Department that the coating unit, line, or operation is or will be in compliance with the requirements of the applicable section of this regulation on and after November 15, 1993, or on and after the initial startup date. Such certification shall include:
4.3.2 Recordkeeping. On and after November 15, 1993, or on and after the initial startup date, the owner or operator of a coating unit, line, or operation referenced in 4.3 of this regulation and complying by the use of complying coatings shall collect and record all of the following information each day for each coating unit, line, or operation and maintain the information at the facility for a period of five years:
4.3.3 Reporting. On and after November 15, 1993, the owner or operator of a subject coating unit, line, or operation referenced in 4.3 of this regulation shall notify the Department in either of the following instances:
4.4 Requirements for coating sources using daily-weighted averaging. Any owner or operator of a coating unit, line, or operation subject to the limitations of 10.0 through 12.0 or 13.3.1 or 14.0 through 23.0 of this regulation and complying by means of daily-weighted averaging on that unit, line, or operation shall comply with the following:
4.4.1 Certification. By November 15, 1993, or upon startup of a new coating unit, line, or operation, or upon changing the method of compliance for an existing subject coating unit, line, or operation from the use of complying coatings or control devices to daily-weighted averaging, the owner or operator of the subject coating unit, line, or operation shall certify to the Department that the coating unit, line, or operation is or will be in compliance with 4.4 of this regulation on and after November 15, 1993, or on and after the initial startup date. Such certification shall include:
4.4.2 Recordkeeping. On and after November 15, 1993, or on and after the initial startup date, the owner or operator of a coating unit, line, or operation referenced in 4.4 of this regulation and complying by means of daily-weighted averaging shall collect and record all of the following information each day for each coating unit, line, or operation and maintain the information at the facility for a period of five years:
4.4.3 Reporting. On and after November 15, 1993, the owner or operator of a subject coating unit, line, or operation referenced in 4.4 of this regulation shall notify the Department in either of the following instances:
4.5 Requirements for coating sources using control devices. Any owner or operator of a coating unit, line, or operation subject to the limitations of 10.0 through 23.0 of this regulation and complying by means of control devices shall comply with the following:
4.5.2 Recordkeeping. On and after November 15, 1993, or on and after the initial startup date, the owner or operator of a coating unit, line, or operation referenced in 4.5 of this regulation shall collect and record all of the following information each day for each coating unit, line, or operation and maintain the information at the facility for a period of five years:
4.5.3 Reporting. On and after November 15, 1993, the owner or operator of a subject coating unit, line, or operation referenced in 4.5 of this regulation shall notify the Department in either of the following instances:
01/11/1993
5.1 Initial compliance certification. The owner or operator of any facility containing sources subject to 5.0 of this regulation shall submit to the Department an initial compliance certification by November 15, 1993. The owner or operator of any new facility containing sources that become subject to 5.0 of this regulation after November 15, 1992 shall submit an initial compliance certification immediately upon startup of the facility.
5.1.1 The initial compliance certification shall provide at a minimum the following information:
5.1.2 For each subject source, the initial compliance certification shall also provide at a minimum:
5.2 Reports of excess emissions. The owner or operator of any facility containing sources subject to 5.0 of this regulation shall, for each occurrence of excess emissions, within 30 calendar days of becoming aware of such occurrence, supply the Department with the following information, in addition to complying with any other reporting requirements mandated by the State of Delaware:
5.3 Requirements for sources using control devices.
5.3.2 Recordkeeping.
5.3.2.1 Each owner or operator of a source subject to 5.0 of this regulation shall maintain up-to-date, readily accessible continuous records of any equipment operating parameters specified to be monitored in the applicable section of this regulation as well as up-to-date, readily accessible records of periods of operation during which the parameter boundaries established during the most recent performance test are exceeded. These records shall be maintained for at least five years. The Department may at any time require a report of these data. Periods of operation during which the parameter boundaries established during the most recent performance tests are exceeded are defined as follows:
01/11/1993
Each owner or operator of a source subject to this regulation shall maintain all records necessary for determining compliance with this regulation at the facility for a period of five years.
01/11/1993
03/11/11
8.2 Definitions
"Cleanup solvent" means a VOC-containing material used to remove any loosely held uncured (i.e., not dry to the touch) adhesive or sealant that is subject to 4.0 of 7 DE Admin. Code 1141 from a substrate, or to clean equipment used in applying an adhesive or sealant subject to 4.0 of 7 DE Admin. Code 1141.
"Electrical and electronic components" means components and assemblies of components that generate, convert, transmit, or modify electrical energy. Electrical and electronic components include, but are not limited to, wires, windings, stators, rotors, magnets, contacts, relays, printed circuit boards, printed wire assemblies, wiring boards, integrated circuits, resistors, capacitors and transistors. Cabinets in which electrical and electronic components are housed are not considered electrical and electronic components.
"Flushing" means pumping a solvent from a reservoir through a pipe or hose or through equipment (e.g., pipes, hoses, tanks) to remove contaminants or residue.
"Hand-wiping" means a method of cleaning a surface by physically rubbing it with a material such as a rag, paper, sponge or a cotton swab moistened with a solvent.
"Medical device" means an instrument, apparatus, implement, machine, contrivance, implant, in vitro reagent or other similar article, including any component or accessory that is, (i) intended for use in the diagnosis of disease or other conditions, or in the cure, mitigation, treatment, or prevention of diseases, or (ii) is intended to affect the structure or any function of the body, or (iii) is defined in the National Formulary or the United States Pharmacopoeia or any supplement to it.
"Non-manufacturing area cleaning" means the cleaning of cafeterias, laboratories, pilot facilities, restrooms, office buildings, etc.
"Medical Device and Pharmaceutical Manufacturing" means Medical devices; pharmaceutical products; and associated manufacturing and product handling equipment and material, work surfaces, maintenance tools and room surfaces that are subject to US FDA current Good Manufacturing/Laboratory Practice, or CDC/NIH guidelines for biological disinfection of surfaces.
“Pharmaceutical product” means a preparation or compound, which includes any drug, analgesic, decongestant, antihistamine, cough suppressant, vitamin, mineral or herb supplement intended for human or animal consumption and used to cure, mitigate or treat disease or improve or enhance health.
"Precision optics" means the optical elements used in electro-optical devices that are designed to sense, detect, or transmit light energy, including specific wavelengths of light energy and changes of light energy levels.
"Solvent Cleaning Operation" means the removal of uncured adhesives, inks, coatings, or contaminants including dirt, soil, and grease from parts, products, tools, machinery, equipment, and general work areas. Solvent cleaning operations include hand-wiping, surface preparation, flushing and the cleaning of spray guns/cleaning of equipment used to spray coatings, adhesives, etc.
"Stripping" means the removal of cured coatings, cured inks, or cured adhesives.
"Surface preparation" means the removal of contaminants such as dust, soil, oil, grease, etc., prior to coating, adhesive, or ink applications.
"Surface preparation solvent" means a solvent used to remove dirt, oil and other contaminants from a substrate prior to the application of a primer, adhesive or sealant that is subject to 4.0 of 7 DE Admin. Code 1141.
8.3 Exemptions.
8.3.3 The requirements of 8.5 of this regulation shall not apply to any facility subject to 47.0 of this regulation, or to:
8.4 Work Practice Standards.
8.4.1 No owner or operator of a facility subject to 8.4 of this regulation may cause, allow, or permit the disposal of more than five kilograms (kg) (11 pounds [lb]) of any VOC, or of any materials containing more than five kg (11 lb) of any VOCs, at that facility in any one day in a manner that would permit the evaporation of VOC into the ambient air. This provision does not apply to:
8.4.5 No owner or operator of a facility subject to 8.4 of this regulation shall use VOC for the cleanup of spray equipment unless one or more of the following methods are used to collect the cleaning compounds and to minimize their evaporation to the atmosphere.
8.4.6 Any owner or operator of a facility subject to 8.4 of this regulation shall:
8.5 Control Requirements. No owner or operator of a facility subject to 8.5 of this regulation shall use any liquid VOC containing material for any solvent cleaning operation that does not meet one of the requirements of 8.5.1 through 8.5.3.
8.5.3 The emissions of that material are controlled by an emission control system that:
8.6 Test Methods and Procedures.
8.6.1 Any owner or operator subject to 8.5.1 of this regulation shall determine the VOC content of each cleaning solution using the test methods and procedures specified in Appendix A and Appendix B of this regulation, or using the manufacturer's product formulation data, and the following equation:
VOC Content (in grams per liter of material) = (WS -WW -Wes)/Vm
(8-1)
Where:
WS = Weight of volatile compounds in grams(g);
WW = Weight of water, in g;
Wes = Weight of exempt compounds in g;
Vm = Volume of material in liters
8.6.2 Any owner or operator subject to 8.5.2 of this regulation shall determine the VOC composite vapor pressure of each cleaning solution using the test methods and procedures specified in Appendix A and Appendix B of this regulation, or using the manufacturer's product formulation data, and the following equation:

(8-2)
Where:
Wi = Weight of the ith VOC compound, in grams (g);
Ww = Weight of water, in g;
We = Weight of exempt compound, in g;
MWi = Molecular weight of the ith VOC compound, in grams per gram-mole
MWw = Molecular weight of water, in grams per gram-mole
MWe = Molecular weight of exempt compound, in grams per gram-mole;
PPc= VOC composite partial pressure at 20°C, in mmHg
VPi = Vapor pressure of the ith VOC compound at 20°C, in mmHg
8.7 Recordkeeping. Any owner or operator subject to 8.5 of this regulation shall maintain all of the information necessary for the Department to determine compliance with the applicable requirements of 8.5 of this regulation. Such information shall be made available to the Department upon verbal or written request, and shall be maintained for a minimum of five years from the date such record is created. Information sufficient to determine compliance shall include, but is not limited to the following:
01/11/1993
02/11/2003
10.1 Applicability
10.1.1 Except as provided for in 10.1.2 and 10.1.3 of this regulation, 10.0 of this regulation applies to any owner or operator of any aerospace manufacturing or rework facility that conducts any of the following operation or operations:
10.1.2 Except for the requirements in 10.3.8 of this regualtion, 10.0 of this regulation does not apply to the following operations in any aerospace manufacturing or rework facility:
10.2 Definitions. As used in 10.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation of the State of Delaware “Regulations Governing the Control of Air Pollution.”
“Ablative coating” means a specialty coating that chars when exposed to open flame or extreme temperatures, as would occur during the failure of an engine casing or during aerodynamic heating. The ablative char surface serves as an insulation barrier, protecting adjacent components from the heat or open flame.
“Adhesion promoter” means a very thin specialty coating applied to a substrate to promote wetting and form a chemical bond with the subsequently applied material.
“Adhesive bonding” means the joining together of two or more metal parts, such as the parts of a honeycomb core. The surfaces to be bonded are first coated with an adhesive bonding primer to promote adhesion and protect from subsequent corrosion. Structural adhesives are applied as either a thin film or as a paste, and can be oven cured or cured in an autoclave.
“Adhesive bonding primer” means a specialty coating that is applied in a thin film to aerospace components for the purpose of corrosion inhibition and increased adhesive bond strength by attachment. There are two categories of adhesive bonding primers: primers with a design cure at 250oF or below and primers with a design cure above 250oF.
“Aerospace manufacturing or rework facility” means a commercial, civil, or military facility that produces in any amount an aerospace vehicle or component, or a commercial, civil, or military facility that reworks (or repairs) any aerospace vehicle or component.
“Aerospace vehicle or component” means any fabricated part, processed part, assembly of parts, or completed unit of any aircraft including, but not limited to, airplanes, helicopters, missiles, rockets, and space vehicles.
“Aircraft fluid system” means those systems that handle hydraulic fluids, fuel, cooling fluids, or oils.
“Aircraft transparency” means the aircraft windshield, canopy, passenger windows, lenses and other components that are constructed of transparent materials.
“Antichafe coating” means a coating applied to areas of moving aerospace components that may rub during normal operations or installation.
“Bearing coating” means a specialty coating applied to an antifriction bearing, a bearing housing, or the area adjacent to such a bearing in order to facilitate bearing function or to protect base material from excessive wear. A material shall not be classified as a bearing coating if it can also be classified as a dry lubricative material or a solid film lubricant.
“Bonding maskant” means a temporary specialty coating used to protect selected areas of aerospace parts from strong acid or alkaline solutions during processing for bonding.
“Brush coating” means the application of a coating material to a substrate by means of a brush (this technique is commonly used for touch-up and maskant operations).
“Caulking and smoothing compounds” means semi-solid specialty coating materials which are applied by hand application methods and are used to aerodynamically smooth exterior vehicle surfaces or fill cavities such as bolt hole accesses. A material shall not be classified as a caulking and smoothing compound if it can also be classified as a sealant.
“Chemical agent-resistant coating (CARC)” means an exterior topcoat; specialty coating designed to withstand exposure to chemical warfare agents or the decontaminants used on these agents.
“Chemical milling” means a process used to reduce the thickness of selected areas of metal parts in order to reduce weight by submerging the metal parts in an etchant.
“Chemical milling maskant” means a coating that is applied directly to aluminum components to protect surface areas when chemically milling the component with a Type I or II etchant. Type I chemical milling maskants are used with a Type I etchant and Type II chemical milling maskants are used with a Type II etchant. This definition does not include bonding maskants, critical use and line sealer maskants, and seal coat maskants. Additionally, maskants that must be used with a combination of Type I or II etchants and any of the above types of maskants (i.e., bonding, critical use and line sealer, and seal coat) are not included.
“Chemical milling maskant application” means the use of spray equipment or a dip tank to apply a Chemical milling maskant, prior to chemically milling the component with a Type I or II etchant.
“Cleaning operation” means collectively spray gun, hand-wipe, and flush cleaning operations.
“Cleaning solvent” means a liquid VOC containing material used for hand-wipe, spray gun, or flush cleaning.
“Clear coating” means a transparent coating applied to any substrate.
“Coating” means a material that is applied to the surface of an aerospace vehicle or component to form a decorative, protective, or functional solid film, or the solid film itself.
“Coating operation” means the use of a spray booth, tank, or other enclosure or area, such as a hangar, for the application of a single type of coating (e.g., primer). The use of the same spray booth for the application of another type of coating (e.g., topcoat) constitutes a separate coating operation for which compliance determinations are performed separately.
“Commercial exterior aerodynamic structure primer” means a specialty coating primer used on aerodynamic components and structures that protrude from the fuselage, such as wings and attached components, control surfaces, horizontal stabilizers, vertical fins, wing-to-body fairings, antennae, and landing gear and doors, for the purpose of extended corrosion protection and enhanced adhesion.
“Commercial interior adhesive” means specialty coating materials used in the bonding of passenger cabin interior components that meet the FAA fireworthiness requirements.
“Compatible substrate primer” means a specialty coating that is either a compatible epoxy primer or an adhesive primer. Compatible epoxy primer is primer that is compatible with the filled elastomeric coating and is epoxy based. The compatible substrate primer is an epoxy-polyamide primer used to promote adhesion of elastomeric coatings such as impact-resistant coatings. Adhesive primer is a coating that (1) inhibits corrosion and serves as a primer applied to bare metal surfaces or prior to adhesive application, or (2) is applied to surfaces that can be expected to contain fuel. Fuel tank coatings are excluded from this category.
“Composite processing operations” include layup, thermal forming, debulking, curing, break-out, compression molding, and injection molding. Layup means the process of assembling the layers of the composite structure by positioning composite material in a mold and impregnating the material with a resin. Thermal forming means the process of forming the layup in a mold, which usually takes place in an autoclave. Debulking means the simultaneous application of low-level heat and pressure to the composite structure to force out excess resin, trapped air, vapor, and volatiles from between the layers of the composite structure. Curing means the process of changing the resin into a solid material through a polymerization reaction. Break-out means the removal of the composite structure from the mold or curing fixtures. Compression molding means the process of filling one half of molds with a molding compound, closing the mold, and applying heat and pressure until the material is cured. Injection molding means the use of a closed mold, where the molding compound is injected into the mold, maintained under pressure, and then cured by applying heat.
“Corrosion prevention system” means a coating system that provides corrosion protection by displacing water and penetrating mating surfaces, forming a protective barrier between the metal surface and moisture. Coatings containing oils or waxes are excluded from this category.
“Critical use line and sealer maskant” means a temporary specialty coating, not covered under other maskant categories, used to protect selected areas of aerospace parts from strong acid or alkaline solutions such as those used in anodizing, plating, chemical milling and processing of magnesium, titanium, or high-strength steel, high-precision aluminum chemical milling of deep cuts, and aluminum chemical milling of complex shapes. Materials used for repairs or to bridge gaps left by scribing operations (i.e., line sealer) are also included in this category.
“Cryogenic flexible primer” means a specialty coating primer designed to provide corrosion resistance, flexibility, and adhesion of subsequent coating systems when exposed to loads up to and surpassing the yield point of the substrate at cryogenic temperatures (-275oF and below).
“Cryoprotective coating” means a specialty coating that insulates cryogenic or subcooled surfaces to limit propellant boil-off, maintain structural integrity of metallic structures during ascent or re-entry, and prevent ice formation.
“Cyanoacrylate adhesive” means a fast-setting, single component specialty coating adhesive that cures at room temperature. Also known as “super glue.”
“Depainting” means the removal of any coating from the outer surface of an aerospace vehicle or component by either chemical or non-chemical means.
“Depainting operation” means the use of a chemical agent, media blasting, or any other technique to remove coatings from the outer surface of aerospace vehicles or components. The depainting operation includes washing of the aerospace vehicle or component to remove residual stripper and coating residue.
“Dip coating” means the application of a coating material to a substrate by dipping the part into a tank of the coating material.
“Dry lubricative material” means a specialty coating consisting of lauric acid, cetyl alcohol, waxes, or other noncross linked or resin-bound materials that act as a dry lubricant.
“Electric or radiation-effect coating” means a specialty coating or coating system engineered to interact, through absorption or reflection, with specific regions of the electromagnetic energy spectrum, such as the ultraviolet, visible, infrared, or microwave regions. Uses include, but are not limited to, lightning strike protection, electromagnetic pulse (EMP) protection, and radar avoidance. Coatings that have been designated as “classified” by the Department of Defense are exempt.
“Electrodeposition” means an additive process for metal substrates in which another metal layer is added to the substrate in order to enhance corrosion and wear resistance necessary for the successful performance of the component. The two types of electrodeposition typically used are electroplating and plasma arc spraying.
“Electrostatic discharge and electromagnetic interference (EMI) coating” means a specialty coating applied to space vehicles, missiles, aircraft radomes, and helicopter blades to disperse static energy or reduce electromagnetic interference.
“Electrostatic spray” means a method of applying a spray coating in which opposite electrical charges are applied to the substrate and the coating. The coating is attracted to the substrate by the electrostatic potential between them.
“Elevated-temperature Skydrol-resistant commercial primer” means a specialty coating primer applied primarily to commercial aircraft (or commercial aircraft adapted for military use) that must withstand immersion in phosphate-ester (PE) hydraulic fluid (Skydrol 500b or equivalent) at the elevated temperature of 150oF for 1,000 hours.
“Epoxy polyamide topcoat” means a specialty coating used where harder films are required or where engraving is accomplished in camouflage colors.
“Etchant” means a chemical used to mill a part or subassembly (e.g., sodium hydroxide for aluminum parts).
“Exempt solvent” means an organic compound that has been determined to have negligible photochemical reactivity, as specified, and is defined in 2.0 of this regulation under “exempt compounds.”
“Fire-resistant (interior) coating” means for civilian aircraft, fire-resistant interior coatings used on passenger cabin interior parts that are subject to the FAA fire worthiness requirements. For military aircraft, fire-resistant interior coatings mean coatings that are used on parts that are subject to the flammability requirements of MIL-STD-1630A and MIL-A-87721. For space applications, fireresistant interior coatings means coatings that are used on parts that are subject to the flammability requirements of SE-R-0006 and SSP 30233.
“Flexible primer” means a specialty coating primer that meets flexibility requirements such as those needed for adhesive bond primed fastener heads or on surfaces expected to contain fuel. The flexible coating is required because it provides a compatible, flexible substrate over bonded sheet rubber and rubber-type coatings as well as a flexible bridge between the fasteners, skin, and skin-to-skin joints on outer aircraft skins. This flexible bridge allows more topcoat flexibility around fasteners and decreases the chance of the topcoat cracking around the fasteners. The result is better corrosion resistance.
“Flow coating” means the application of a coating material to a substrate by pouring the coating over the suspended part.
“Flush cleaning” means the cleaning of an aerospace vehicle or component by passing solvent over, into, or through the vehicle or component. The solvent may simply be poured into the vehicle or component and then drained, or assisted by air or hydraulic pressure, or by pumping. Hand-wipe cleaning operations where wiping, scrubbing, mopping, or other hand action is used are not flush cleaning operations.
“Formulation” means a specific coating made by a specific manufacturer. Each different color of a specific coating is considered a separate formulation.
“Fuel tank adhesive” means a specialty coating adhesive used to bond components exposed to fuel which shall be compatible with fuel tank coatings.
“Fuel tank coating” means a specialty coating applied to fuel tank components for the purpose of corrosion or bacterial growth inhibition, and to assure sealant adhesion in extreme environmental conditions.
“Hand-wipe cleaning operation” means the removal of contaminants such as dirt, grease, oil, and coatings from aerospace vehicles or components by physically rubbing them with a material such as a rag, paper, or cotton swab that has been moistened with a cleaning solvent.
“High temperature coating” means a specialty coating designed to withstand temperatures of more than 350oF.
“High volume low pressure (HVLP) spray equipment” means spray equipment that is used to apply coatings using a spray gun that operates at equal to or less than 10.0 psig of atomized air pressure at the air cap.
“Insulation covering” means a specialty coating material that is applied to foam insulation to protect the insulation from mechanical or environmental damage.
“Intermediate release coating” means a thin specialty coating applied beneath topcoats to assist in removing the topcoat in depainting operations, which generally allows the use of less hazardous depainting methods.
“Lacquer” means a clear or pigmented specialty coating formulated with a nitrocellulose or synthetic resin to dry by evaporation without a chemical reaction. Lacquers are resoluble in their original solvent.
“Leak” means any visible leakage, including misting and clouding.
“Limited access space” means internal surfaces or passages of an aerospace vehicle or component that cannot be reached for the application of coatings without the aid of an airbrush or a spray gun extension.
“Metal finishing” means conversion coating, anodizing, desmutting, descaling, and any operation that chemically affect the surface layer of a part, and is used to prepare the surface of a part for better adhesion, improved surface hardness, and improved corrosion resistance.
“Metalized epoxy coating” means a specialty coating that contains relatively large quantities of metallic pigmentation for appearance or added protection.
“Mold release” means a specialty coating applied to a mold surface to prevent the molded piece from sticking to the mold as it is removed.
“Non-chemical-based depainting equipment” means any depainting equipment or technique that does not rely on a chemical stripper to depaint an aerospace vehicle or component (e.g., media blasting equipment).
“Nonstructural adhesive” means a specialty coating adhesive that bonds nonload bearing aerospace components in noncritical applications and is not covered in any other specialty adhesive categories.
“Optical anti-reflective coating” means a coating with a low reflectance in the infrared and invisible wavelength ranges that is used for anti-reflection on or near optical and laser hardware.
“Part marking coating” means a specialty coating or ink used to make identifying markings on materials, components, or assemblies. These markings may be either permanent or temporary.
“Pretreatment coating” means an organic specialty coating that contains at least 0.5% acids by weight and is applied directly to metal or composite surfaces to provide surface etching, corrosion resistance, adhesion, and ease of stripping.
“Primer” means the first layer and any subsequent layers of identically formulated coating applied to the surface of an aerospace vehicle or component. Primers are typically used for corrosion prevention, environment protection, functional fluid resistance, and adhesion promotion of subsequent coatings. Primers that are defined as specialty coatings are not included under this definition.
“Radome” means the non-metallic protective housing for electromagnetic transmitters and receivers (e.g., radar, electronic countermeasures, etc.).
“Rain erosion-resistant coating” means a specialty coating or coating system used to protect the leading edges of parts such as flaps, stabilizers, radomes, engine inlet nacelles, etc. against erosion caused by rain impact during flight.
“Research and development” means an operation whose primary purpose is for research and development of new processes and products and that is conducted under the close supervision of technically trained personnel and is not involved in the manufacture of final or intermediate products for commercial purposes, except in a de minimis manner.
“Rocket motor bonding adhesive” means a specialty coating adhesive used in rocket motor bonding applications.
“Rocket motor nozzle coating” means a catalyzed epoxy specialty coating system used in elevated temperature applications on rocket motor nozzles.
“Rubber-based adhesive” means a quick setting, specialty coating contact cement that provides a strong, yet flexible bond between two mating surfaces that may be of dissimilar materials.
“Scale inhibitor” means a specialty coating that is applied to the surface of a part prior to thermal processing to inhibit the formation of scale.
“Screen print ink” means a specialty coating ink used in screen printing processes during fabrication of decorative laminates and decals.
“Sealant” means a specialty coating material used to prevent the intrusion of water, fuel, air, or other liquids or solids from certain areas of aerospace vehicles or components. There are two categories of sealants: extrudable/rollable/brushable sealants and sprayable sealants.
“Seal coat maskant” means a specialty coating overcoat applied over a maskant to improve abrasion and chemical resistance during production operations.
“Self-priming topcoat” means a coating that is applied directly to an Aerospace vehicle or component for purposes of corrosion protection, environmental protection, and functional fluid resistance and that is not subsequently topcoated. More than one layer of identical coating formulation may be applied to the aerospace vehicle or component. Self-priming topcoats that are defined as specialty coatings are not included under this definition.
“Silicone insulation material” means an insulating specialty coating material applied to exterior metal surfaces for protection from high temperatures caused by atmospheric friction or engine exhaust. These materials differ from ablative coatings in that they are not “sacrificial.”
“Solids” means the nonvolatile portion of the coating that after drying makes up the dry film.
“Solid film lubricant” means a very thin specialty coating consisting of a binder system containing as its main pigment material one or more of the following: molybdenum, graphite, polytetrafluoroethylene (PTFE), or other solids that act as a dry lubricant between faying (i.e., closely or tightly fitting) surfaces.
“Space vehicle” means a man-made device, either manned or unmanned, designed for operation prototypes, molds, jigs, tooling, hardware jackets, and test coupons. Also included is auxiliary equipment associated with test, transport, and storage that through contamination can compromise the space vehicle performance.
“Specialty coating” means a coating that, even though it meets the definition of a primer, topcoat, or self-priming topcoat, has additional performance criteria beyond those of primers, topcoats, and selfpriming topcoats for specific applications. These performance criteria may include, but are not limited to, temperature or fire resistance, substrate compatibility, antireflection, temporary protection or marking, sealing, adhesively joining substrates, or enhanced corrosion protection. A specialty coating is any coating listed in Table 10-1 of this regulation and defined in 10.2 of this regulation.
“Specialized function coating” means a specialty coating that fulfills extremely specific engineering requirements that are limited in application and are characterized by low volume usage. This category excludes coatings covered in other Specialty Coating categories.
“Spray gun” means a device that uses air pressure or air flow to atomize a coating or other material,
“Stripper” means a liquid that is applied to an aerospace vehicle or component to remove primer, topcoat, self-priming topcoat, or coating residue.
“Structural autoclavable adhesive” means a specialty coating adhesive used to bond load-carrying aerospace components that are cured by heat and pressure in an autoclave.
“Structural nonautoclavable adhesive” means a specialty coating adhesive cured under ambient conditions that is used to bond load-carrying aerospace components or other critical functions, such as nonstructural bonding in the proximity of engines.
“Surface preparation” means the removal of contaminants from the surface of an aerospace vehicle or component, or the activation or reactivation of the surface in preparation for the application of a coating.
“Temporary protective coating” means a specialty coating applied to provide scratch or corrosion protection during manufacturing, storage, or transportation. Two types include peelable protective coatings and alkaline removable coatings. These materials are not intended to protect against strong acid or alkaline solutions. Coatings that provide this type of protection from chemical processing are not included in this category.
“Thermal control coating” means a specialty coating formulated with specific thermal conductive or radiative properties to permit temperature control of the substrate.
“Topcoat” means a coating that is applied over a primer on an aerospace vehicle or component for appearance, identification, camouflage, or protection. Topcoats that are defined as specialty coatings are not included under this definition.
“Touch-up and repair coating” means a coating used to cover minor coating imperfections appearing after the main coating operation.
“Touch-up and repair operation” means that portion of the coating operation that is the incidental application of coating used to cover minor imperfections in the coating finish or to achieve complete coverage. This definition includes out-of-sequence or out-of-cycle coating. Touch-up and repairoperations are not to exceed an area of 4 square feet per aerospace vehicle.
“Type II etchant” or “Type II chemical milling etchant” means a Chemical milling etchant that is a strong sodium hydroxide solution containing amines (Type I etchants do not contain amines).
“Volatile Organic Compound (VOC)” means any compound defined as VOC in 2.0 of this regulation - Definitions.
“VOC composite vapor pressure” means the sum of the partial pressures of the compounds defined as VOCs and is determined by the following calculation:

(10-1)
where
Wi = Weight of the ith VOC compound, grams
Ww = Weight of water, grams
We = Weight of nonwater, non-VOC compound, grams
MWi = Molecular weight of the ith VOC compound, g/g-mole
MWw = Molecular weight of water, g/g-mole
MWe = Molecular weight of exempt compound, g/g-mole
PPc = VOC composite partial pressure at 20oC, mm Hg
VPi = Vapor pressure of the ith VOC compound at 20oC, mm Hg
“Wet fastener installation coating” means a specialty coating primer or sealant applied by dipping, brushing, or daubing to fasteners that are installed before the coating is cured.
“Wing coating” means a corrosion-resistant specialty coating topcoat that is resilient enough to withstand the flexing of the wings.
10.3 Standards
10.3.1 Hand-Wipe Cleaning Operations
10.3.1.1 Except as exempted in 10.3.1.2 of this regulation, no person subject to 10.0 of this regulation shall cause or allow the use of any cleaning solvent in any hand-wipe cleaning operation that does not comply with one of the following limits:
10.3.1.2 The requirements of 10.3.1.1 of this regulation shall not apply to the following hand-wipe cleaning operations:
10.3.2 Spray Gun Cleaning Operations
10.3.2.1 No person subject to 10.0 of this regulation shall cause or allow the use of anyspray guncleaning techniques that does not comply with one of the following:
10.3.4 Primer, Topcoat, and Self-Priming Topcoat Application.
10.3.4.1 Except as provided for in 10.3.4.2, 10.4 and 10.5 of this regulation, no person subject to 10.0 of this regulation shall cause or allow the application of any primer, topcoat, or self-priming topcoat with a VOC content that does not comply with the following limits:
10.3.4.2 The requirements of 10.3.4.1.2 of this regulation shall not apply to facilities that use less than 50 gallons per consecutive rolling 12-month period of a particular formulation of topcoat, or self-priming topcoat provided:
10.3.4.3 Except as provided for in 10.3.4.4 of this regulation, no person subject to 10.0 of this regulation shall cause or allow the use of any application technique to apply any primer, topcoat, or self-priming topcoat other than the following:
10.3.4.4 The equipment standards and application techniques in 10.3.4.3 of this regulation shall not apply to the following primer, topcoat and self-priming topcoat application operations:
10.3.5 Depainting Operation. No person subject to 10.0 of this regulation shall cause or allow the use of any stripper that does not comply with one of the following limits:
10.3.6 Chemical Milling Maskant Application. Except as provided for in 10.4 or 10.5 of this regulation, no person subject to 10.0 of this regulation shall cause or allow the application of any chemical milling maskant with a VOC content that does not comply with the following emission limits:
10.3.7 Specialty Coatings. Except as provided for in 10.4 or 10.5 of this regulation, no person subject to 10.0 of this regulation shall cause or allow the application of any specialty coating that has a VOC content, as applied, excluding water and exempt compounds, that is greater than the limits specified in Table 10-1 of this regulation:
| Table 10-1. VOC Content Limits for Specialty Coatings (g/L)a | |||
| Coating Type | Limit | Coating Type | Limit |
| Ablative Coating | 600 | Flight-Test Coatings: Missile of Single Use Aircraft All other | 420 840 |
| Adhesives: | Fuel-Tank Coating | 720 | |
| Commercial Interior Adhesive | 760 | High-Temperature Coating | 850 |
| Cyanoacrylate Adhesive | 1,020 | Insulation Covering | 740 |
| Fuel Tank Adhesive | 620 | Intermediate Release Coating | 750 |
| Nonstructural Adhesive | 360 | Lacquer | 830 |
| Rocket Motor Bonding Adhesive | 890 | Maskants (excluding Type I and Type II): | |
| Rubber-based Adhesive | 850 | Bonding maskant | 1,230 |
| Structural Autoclavable Adhesive | 60 | Critical Use and Line Sealer Maskant | 1,020 |
| Structural Nonautoclavable Adhesive | 850 | Seal Coat Maskant | 1,230 |
| Adhesion Promoter | 890 | Metalized Epoxy Coating | 740 |
| Adhesive Bonding Primers: Cured at 250oF or below Cured above 250oF | 850 1,030 | Mold Release | 780 |
| Antichafe Coating | 660 | Optical Anti-Reflective Coating | 750 |
| Bearing Coating | 620 | Part Marking Coating | 850 |
| Caulking and Smoothing Compounds | 850 | Pretreatment Coating | 780 |
| Chemical Agent-Resistant Coating | 550 | Rain Erosion-Resistant Coating | 850 |
| Clear Coating | 720 | Rocket Motor Nozzle Coating | 660 |
| Commercial Exterior Aerodynamic Structure Primer | 650 | Scale Inhibitor | 880 |
| Compatible Substrate Primer | 780 | Screen Print Ink | 840 |
| Corrosion Prevention Compound | 710 | Sealants: Extrudable/Rollable/Brushable Sealant Sprayable Sealant | 280 600 |
| Cryogenic Flexible Primer | 645 | Silicone Insulation Material | 850 |
| Cryoprotective Coating | 600 | Solid Film Lubricant | 880 |
| Dry Lubricative Material | 880 | Specialized Function Coating | 890 |
| Electric or Radiation-Effect Coating | 800 | Temporary Protective Coating | 320 |
| Electrostatic Discharge and Electromagnetic Interference (EMI) Coating | 800 | Thermal Control Coating | 800 |
| Elevated-Temperature Skydrol-Resistant Commercial Primer | 740 | Wet Fastener Installation Coating | 675 |
| Epoxy Polyamide Topcoat | 660 | Wing Coating | 850 |
| Fire-Resistant (interior) Coating | 800 | ||
| Flexible Primer | 640 |
a Coatinglimits expressed in terms of mass (grams) of VOC per volume (liters) of coatingless water and less exempt solvent. To convert from g/L to lbs/gallon multiply by 0.00835.
10.3.8 VOC Handling and Storage.
10.3.8.1 Except as provided in 10.3.8.2 of this regulation, any person subject to 10.0 of this regulation shall use good house keeping measures when handling any VOC and any VOC-containing material at the facility. Such measures shall include:
10.4 Daily-Weighted Average Limitations. As an alternative to complying with the individual limits specified in 10.3.4.1.1, 10.3.4.1.2, 10.3.6.1, 10.3.6.2 and 10.3.7 of this regulation, coatings in any primer, topcoat, chemical milling maskant, or specialty coating application operation shall not be applied at the facility whose daily-weighted average VOC content, calculated in accordance with the procedure specified inAppendix C of this regulation and the provisions listed below, exceeds the applicable emission limits in 10.3.4.1.1, 10.3.4.1.2, 10.3.6.1, 10.3.6.2 and 10.3.7 of this regulation, as applicable.
10.5 Control Devices.
10.5.1 As an alternative to complying with the individual limits specified in 10.3.4.1.1, 10.3.4.1.2, 10.3.6.1, 10.3.6.2 and 10.3.7 of this regulation, any person subject to 10.0 of this regulation shall, for any primer, topcoat, self-priming topcoat, chemical milling maskant, or specialty coating application operation:
10.6 Test Methods.
10.7 Recordkeeping. Any person subject to 10.0 of this regulation shall maintain at the facility for a minimum period of 5 years from the information’s date of record, all of the following information. Such information shall be immediately submitted to the Department upon written or verbal request.
10.7.1 For any person subject to the requirements of 10.3.1 of this regulation (i.e., hand-wipe cleaning operations):
10.7.2 For any person subject to 10.3.2 of this regulation (i.e., spray gun cleaning):
10.7.3 For any person subject to 10.3.4 of this regulation (i.e., primer, topcoat, and self-priming topcoat application):
10.7.3.1 For each coating applied pursuant to 10.3.4.2 of this regulation.
10.7.4 For any person subject to 10.3.4, 10.3.6 and 10.3.8 of this regulation (i.e., primer, topcoat, self-priming topcoat, chemical milling maskant, and specialty coating application):
10.7.5 For any person subject to 10.3.5 of this regulation:
10/11/2010
11.1 Applicability
11.1.2 The provisions of 11.0 of this regulation shall not apply to any person who supplies, sells, offers for sale, blends, repackages for sale, manufacturers, distributes, uses, applies or specifies the use or application of any coating or cleaning solvent:
11.2 Definitions. As used in 11.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“Airless Spray” means a spray coating method in which the coating is atomized by forcing it through a small nozzle at high pressure. The coating is not mixed with air before exiting from the nozzle opening.
"As supplied" means the VOC and solids content of a coating or coating component as sold and delivered to the end user.
"Automotive coating" means a coating or coating component used or recommended for use in motor vehicle or mobile equipment refinishing, service, maintenance, repair, restoration, or modification, except metal plating activities. A reference to automotive refinishing or automobile coating included on the container, on a label affixed to the container or in sales, advertising, technical or product literature constitutes a recommendation for use in motor vehicle or mobile equipment refinishing and recoating.
"Automotive coating component" means a portion of a coating, including a reducer or thinner, toner, hardener, or additive, which is recommended by a person to distributors or end-users for use in an automotive coating, or which is supplied for or used in an automotive coating. Raw materials used to produce the components are not considered automotive coating components.
"Automotive pretreatment coating" means a coating that contains a minimum of 0.5% acid by weight and not more than 16% solids by weight necessary to provide surface etching and is labeled and formulated for application directly to bare metal surfaces to provide corrosion resistance and adhesion.
"Automotive primer" means a coating, which may be pigmented, labeled and formulated for application to a substrate to provide one or more of; a bond between the substrate and subsequent coats; corrosion resistance; a smooth substrate surface; and, resistance to penetration of subsequent coats and on which a subsequent coating is applied.
"Automotive refinishing facility" means a shop, business, location, or parcel of land where motor vehicles or mobile equipment or their associated parts and components are coated, including autobody collision repair shops, but not including the original equipment manufacturing plant where new motor vehicles or new mobile equipment is assembled.
"Cavity wax" means a coating applied into the cavities of the vehicle primarily for the purpose of enhancing corrosion protection.
"Cleaning operation" means the removal of loosely held uncured adhesives, inks, coatings, or contaminants, including, but not limited to, dirt, soil, or grease from motor vehicles, mobile equipment, associated parts and components, substrates, products, tools, machinery, equipment, or general work areas.
"Cleaning solvent" means a fluid containing VOC used to perform surface preparation, or cleaning of surface coating equipment. Cleaning solvent does not include thinners, reducers or other solvents that may be used to adjust the solvent content of coatings.
"Clear coating" means a coating that contains no pigments and is labeled and formulated for application over a color coating or clear coating. A clear coating may contain talc or silica which are not considered pigments for the purposes of this regulation.
"Coating" means, for the purposes of this regulation, a material applied to a substrate for decorative, protective, or functional purposes.
"Color coating" means a pigmented coating, excluding adhesion promoters, primers, and multicolor coatings, that requires a subsequent clear coating and which is applied over a primer, adhesion promoter, or color coating. Color coating includes metallic/iridescent coatings.
"Coating solids" means the nonvolatile portion of the coating that makes up the dry film.
"Deadener" means a coating applied to selected vehicle surfaces primarily for the purpose of reducing the sound of road noise in the passenger compartment.
“Electrostatic spray” means the application of charged atomized paint droplets that are deposited by electrostatic attraction.
"Gasket/sealing material" means a fluid applied to coat a gasket or replace and perform the same function as a gasket including room temperature vulcanization (RTV) seal material.
"Graphic arts operation" means the application of logos, letters, numbers, or graphics to a painted surface by brush, roller, or airbrush.
“High Volume Low Pressure” or “(HVLP)” means a method of spraying a coating, that improves the transfer efficiency while maintaining the air pressure between 0.1 and 10 pounds per square inch gauge (psig).
"Low-solids coating" means a coating containing 0.12 kilogram or less of solids per liter (one pound or less solids per gallon) of coating material.
"Lubricating wax/compound" means a protective lubricating material applied to vehicle hubs and hinges.
"Metallic/iridescent color coating" means a coating that contains more than five grams per liter (0.042 pounds per gallon) of metal or iridescent particles as applied, where the particles are visible in the dried film.
“Mobile equipment” means any equipment that is physically capable of being driven or drawn upon a highway including, but not limited to, the following types of equipment: automobiles; trucks, truck cabs, truck bodies; buses; motorcycles; ground support vehicles, used in support of aircraft activities at airports; construction vehicles (such as mobile cranes, bulldozers, concrete mixers); farming equipment (such as wheel tractors, plows, and pesticide sprayers); hauling equipment (such as truck trailers, utility bodies, and camper shells); and miscellaneous equipment (such as street cleaners and golf carts).
"Multicolor coating" means a coating that exhibits more than one color in the dried film after a single application, is packaged in a single container, hides surface defects on areas of heavy use, and is applied over a primer or adhesion promoter.
"Other automotive coating type" means, for the purposes of this regulation, an automotive coating that does not meet the definitions for the specified automotive coating categories in Table 11-1.
"Sealer" means a high viscosity material with a primary purpose to fill body joints completely so there is no intrusion of water, gases or corrosive materials into the passenger area of the body compartment. Sealer is also referred to as sealant or caulk.
"Single-stage coating" means a pigmented coating, excluding automotive primers and multicolor coatings, labeled and formulated for application without a subsequent clear coat and includes single-stage metallic/iridescent coatings.
"Solvent" means a fluid containing VOC added to a coating, including, but not limited to, reducers and thinners.
"Spot repair" means repair of an area of less than one panel in size on a motor vehicle, piece of mobile equipment, or associated parts or components. There are several coating operations unique to spot repair that utilize a uniform finish solvent and in some cases a blend of such solvent with appropriate film forming solids. As the blend required and the appropriate VOC content may vary depending upon the nature and extent of the spot repair, no VOC limits are specified for this operation which is limited to spot repair.
"Temporary protective coating" means a coating labeled and formulated for the purpose of temporarily protecting areas from overspray or mechanical damage.
"Truck bed liner coating" means a coating, excluding clear, color, multi color and single-stage coatings, labeled and formulated for application to a cargo bed, after the application of topcoat, to protect it from surface abrasion and provide additional durability and chip resistance.
"Trunk interior coating" means a coating applied to the trunk interior to provide chip protection.
"Underbody coating" means a coating labeled and formulated for application to wheel wells, the inside of door panels or fenders, the underside of a trunk or hood, or the underside of the motor vehicle.
11.3 Standards
11.3.1 Except as exempted in 11.3.3 of this regulation, no person subject to the requirements of 11.0 of this regulation shall supply, sell, offer for sale, blend, repackage for sale, manufacture, distribute, use, apply or specify the use or application of an automotive coating unless that person meets the requirements of either 11.3.1.1 or 11.3.1.2.
11.3.1.1 The VOC content of the coating, calculated in accordance with equation 11-1, is less than or equal to the limits listed in Table 11-1 of this regulation. If, on the container of an automotive coating, or a label or sticker affixed to the container or in sales, advertising, technical or product literature any representation is made that indicates that the coating meets the definition of or is recommended for use for more than one of the coating categories listed in Table 11-1, then the lowest applicable VOC content limit shall apply.
VOC coating regulatory content = (Wv - Ww - Wec) (Equation 11-1)
(Vm - Vw - Vec)
Where:
VOC coating regulatory content = VOC content in grams per liter (g/l)
Wv = Weight of total volatiles in grams (g)
Ww = Weight of water in grams (g)
Wec = Weight of exempt compounds in grams (g)
Vm = Volume of material (coating, including water and exempt compounds) in liters (l)
Vw = Volume of water in liters (l)
Vec = Volume of exempt compounds in liters (l)
Table 11-1: Allowable VOC Content
| Coating Category | VOC REGULATORY – AS APPLIED | |
| lb/gal | gm/l | |
| Adhesion promoter | 4.5 | 540 |
| Automotive pretreatment coating | 5.5 | 660 |
| Automotive primer | 2.1 | 250 |
| Cavity wax | 5.4 | 650 |
| Clear coating | 2.1 | 250 |
| Color coating | 3.5 | 420 |
| Deadener | 5.4 | 650 |
| Gasket/gasket sealing material | 1.7 | 200 |
| Lubricating wax/compound | 5.8 | 700 |
| Multicolor coating | 5.7 | 680 |
| Sealer | 5.4 | 650 |
| Single-stage coating | 2.8 | 340 |
| Temporary protective coating | 0.5 | 60 |
| Truck bed liner coating | 1.7 | 200 |
| Trunk interior coating | 5.4 | 650 |
| Underbody coating | 3.6 | 430 |
| All other coating types | 2.1 | 250 |
11.3.2 Except as exempted in 11.3.3 or provided for in 11.3.2.1 and 11.3.2.2 of this regulation, no person subject to the requirements of 11.0 of this regulation shall supply, sell, offer for sale, blend, repackage for sale, manufacture, distribute, use, apply or specify the use or application of a cleaning solvent with a VOC content, calculated in accordance with equation 11-2 of this regulation, that is greater than 25 grams per liter.
11.3.2.2 VOC content (or actual) = (Wv - Ww - Wec) (Equation 11-2)
Vm
Where:
VOC content = VOC content (or actual) in grams per liter (g/l)
Wv = Weight of total volatiles in grams (g)
Ww = Weight of water in grams (g)
Wec= Weight of exempt compounds in grams (g)
Vm = Volume of material (coating or cleaning solvent, as applicable, including water
and exempt compounds) in liters (l)
11.3.4 Except as exempted in 11.3.5 of this regulation, any person who uses or applies automotive coatings subject to 11.3 of this regulation shall use only the following application techniques:
11.3.5 The following are exempt from the requirements of 11.3.4 of this regulation:
11.3.6 Any person who uses or applies automotive coatings or cleaning solvents subject to 11.3 of this regulation shall implement the following work practice standards.
11.3.6.1 Spray guns shall be cleaned by one or a combination of the following methods, using cleaning solvent or non-VOC containing solutions:
11.3.6.5 Any person who uses or applies automotive coatings, solvents or cleaning solvents subject to 11.0 of this regulation shall be trained in the proper use and handling of automotive coatings, solvents, cleaning solvents, and waste products in order to minimize the emission of air contaminants.
11.4 Control Devices
11.4.1 Any person subject to 11.3.1.2 of this regulation shall determine the emission reduction efficiency needed to comply and demonstrate compliance as follows:
11.4.2 Any person subject to 11.3.1.2 of this regulation shall ensure that:
11.5 Compliance Procedures, Recordkeeping, and Reporting Requirements Applicable to Any Person Who Uses or Applies Automotive Coatings or Cleaning Solvents. Any person who uses or applies automotive coatings or cleaning solvents subject to 11.3 of this regulation shall maintain and have available at all times, on site, the information specified in 11.5.1, 11.5.2, and 11.5.3 of this regulation:
11.5.1 For each automotive coating and cleaning solvent used or applied, a list that includes the following information:
11.5.2 For each automotive coating or cleaning solvent purchased, purchase records identifying the following;
11.5.3 For any person subject to the requirements of 11.3.4 of this regulation:
11.5.3.3 For any coating application technique complying with 11.3.4.5 of this regulation:
11.6 Compliance Procedures, Recordkeeping, and Reporting Requirements Applicable to Any Person Who Blends, Repackages for Sale, Manufactures, Supplies, Sells, or Offers for sale Automotive Coatings or Cleaning Solvents. Any person who supplies, sells, offers for sale, blends, repackages for sale, manufactures, or distributes automotive coating or cleaning solvent subject to this regulation shall:
11.6.1 For each automotive coating product, include the following information on product data sheets or an equivalent medium:
11.6.2 For each automotive coating product, include the following information on all containers or on a label affixed to the container, or on the package:
11.6.2.3 The month and year on which the automotive coating was manufactured, or a code indicating that date.
11.6.2.3.4 Except as provided for in 11.6.2.3.5 of this regulation, any person using a date-code to comply with 11.6.2.3 of this regulation shall comply with 11.6.2.3.4.1 and 11.6.2.3.4.2 of this regulation.
11.6.2.3.5 The requirements of 11.6.2.3.4 of this regulation shall not apply to any date-code that is represented separately from other codes on the automotive coating container, label or package so that it is easily recognizable, and that is expressed as follows:
YY DDD
where,
YY = represents the year the coating was manufactured
DDD = represents the Julian date
11.7 Test Methods. These methods are in addition to methods included inAppendix A, Appendix B, Appendix D, and Appendix E of this regulation. The following test methods are incorporated by reference herein, and shall be used to test automotive coatings, automotive coating components and cleaning solvents subject to this regulation. A source is in violation of this regulation if a measurement by one or more of the listed applicable test methods exceeds the standards of this regulation.
11.7.4 Spray gun cleaning system. The active and passive solvent losses from the use of an enclosed spray gun cleaning system or equivalent cleaning system, shall be determined using South Coast Air Quality Management District (SCAQMD) Method, General Test Method for Determining Solvent Losses from Spray Gun Cleaning Systems, October 3, 1989, SCAQMD, 21865 Copley Drive, Diamond Bar, CA, 91765 USA.
10/11/2011
12.1 Applicability
12.1.4 The provisions of 12.0 of this regulation do not apply to the following plastic parts or products:
12.2 Definitions. As used in 12.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“Basecoat/clearcoat” means a two-step topcoat system in which a highly pigmented, often metallic, basecoat is followed by a clearcoat, resulting in a finish with high-gloss characteristics. It is often used on automotive plastic parts.
"Black coating" means a coating which meets a maximum lightness of 23 units, and has a saturation of less than 2.8, where saturation equals the square root of A² + B². These criteria are based on Cielab color space, 0/45 geometry. For spherical geometry, specular included, the maximum lightness is 33 units.
"Business machine" means a device that uses electronic or mechanical methods to process information, perform calculations, print or copy information or convert sound into electrical impulses for transmission, including devices listed in standard industrial classification numbers 3572, 3573, 3574,3579, and 3661 and photocopy machines, a subcategory of standard industrial classification number 3861.
"Commercial machine" means a device that is used in commercial activities, including, but not limited to, medical, laboratory and entertainment equipment.
"Electric dissipating coating" means a coating that rapidly dissipates a high-voltage electric charge.
"Electrostatic preparation coating" means a coating that is applied to a plastic part solely to provide conductivity for the subsequent application of a prime, a topcoat, or other coating through the use of electrostatic application methods. An electrostatic prep coat is clearly identified as an electrostatic prep coat on its accompanying material safety data sheet.
“EMI/RFI Electromagnetic interference/radio frequency interference shielding coating” means a coating that is used in a plastic business or commercial machine housing to attenuate electromagnetic and radio frequency interference signals that would otherwise pass through the plastic housing.
“Flexible primer” means any coating that is required to comply with engineering specifications for impact resistance, mandrel bend, or elongation as defined by the original equipment manufacturer.
"Fog coat" means a coating that is applied to a plastic part for the purpose of color matching without masking a molded-in texture. A fog coat shall not be applied at a thickness of more than 0.5 mils of coating solids.
"Gloss reducer" means a coating that is applied to a plastic part solely to reduce the shine of the part. A gloss reducer shall not be applied at a thickness of more than 0.5 mils of coating solids.
“High-bake coating” means a coating that is designed to cure at temperatures above 90 degrees Celsius (°C) (194 degrees Fahrenheit [°F]).
“Higher-solids coating” means a coating that contains greater amounts of pigment and binder than a conventional coating. Solids are the non-solvent, non-water ingredients in the coating. A higher-solids coating usually contains more than 60% solids by volume.
“Low-bake coating” means a coating that is designed to cure at temperatures lower than 90°C (194°F).
"Mask coating" means thin film coating applied through a template to coat a small portion of a substrate.
"Military specification coating" means a coating which has a formulation approved by a United States military agency for use on military equipment.
“Nonflexible primer” means a paint that cannot withstand dimensional changes.
"Optical coating" means a coating applied to an optical lens.
“Plastic part or product” means a piece made from a substance that has been formed from resin through the application of pressure or heat. Plastic parts or products include automotive or other transportation equipment including, but not limited to, parts or products for automobiles, trucks (light-, medium and heavy-duty), large and small farm machinery, motorcycles, recreational vehicles, construction equipment, vans, buses, lawnmowers and other motorized mobile equipment; business and commercial machines, including, but not limited to, computers, copy machines, typewriters, medical equipment, laboratory equipment and entertainment equipment; and commercial and industrial machinery, sporting goods, toys, lawn and garden equipment and other industrial and household products.
"Red coating" means a coating which meets all of the following criteria: yellow limit, the hue of hostaperm scarlet; blue limit, the hue of monastral red-violet, lightness limit for metallics, 35% aluminum flake; lightness limit for solids, 50% titanium dioxide white; solid reds, hue angle of -11 to 38 degrees and maximum lightness of 23 to 45 units; metallic reds, hue angle of -16 to 35 degrees and maximum lightness of 28 to 45 units. These criteria are based on Cielab color space, 0/45 geometry. For spherical geometry, specula included, the upper limit is 49 units. The maximum lightness varies as the hue moves from violet to orange. This is a natural consequence of the strength of the colorants, and real colors show this effect.
“Solids content” means the non-solvent, non-water ingredients in the coating, which consist of pigments and binders, that do not evaporate and have the potential to form a cured (dry) film. The solids content can be expressed in terms of volume percent or weight percent.
“Specialty coating” means a coating that is used for unusual job performance requirements, usually in small amounts. These products include but are not limited to adhesion primers, resist coatings, soft coatings, reflective coatings, electrostatic prep coatings, headlamp lens coatings, ink pad printing coatings, stencil coatings, texture coatings (automotive), vacuum metalizing coatings, and gloss flatteners.
"Texture coat" means a coating that is applied to a plastic part which, in its finished form, consists of discrete raised spots of the coating.
"Translucent coating" means a coating which contains binders and pigment, and is formulated to form a colored, but not opaque, film.
12.3 Standards
12.3.1 Except as provided in 12.4 of this regulation, no owner or operator of a plastic parts or products coating unit subject to 12.0 of this regulation shall cause or allow the application of any coating to plastic parts or products unless:
12.3.2 Except as provided in 12.3.1.3 and 12.4 of this regulation, no owner or operator of a plastic parts or products coating unit subject to 12.0 of this regulation shall apply a coating to plastic parts or products unless the coating is applied with equipment properly operated and maintained according to the manufacturer's suggested guidelines and using one or more of the following coating application methods:
12.3.2.7 An alternative method demonstrated to be capable of achieving a transfer efficiency equal to or better than HVLP spray and approved by the Department and by the EPA.
Table 12-1 Plastic Parts Coating VOC Content Limits
Table 12-1 coating VOC content limits are expressed as mass (kilogram [kg] or pound [lb]) per volume (liter [l] or gallon [gal]) of coating less water and exempt compounds, as applied.
| Coating Category | kg VOC/I coating | lb VOC/gal coating |
| General | ||
| One component coating | 0.28 | 2.3 |
| Multi component coating | 0.42 | 3.5 |
| Electric dissipating coatings and shock-free Coatings | 0.36 | 3.0 |
| Extreme performance | 0.42 (2pack) | 3.5 (2pack) |
| Metallic | 0.42 | 3.5 |
| Military specification | 0.34 (1pack) | 2.8 (1pack) |
| 0.42 (2 pack) | 3.5 (2pack) | |
| Mold-seal | 0.76 | 6.3 |
| Multicolored coatings | 0.68 | 5.7 |
| Optical coatings | 0.80 | 6.7 |
| Vacuum-metalizing | 0.80 | 6.7 |
| Business Machine Parts | ||
| Primers | 0.14 | 1.2 |
| Topcoat | 0.28 | 2.3 |
| Fog Coat | 0.26 | 2.2 |
| Touchup and repair | 0.28 | 2.3 |
| Clearcoats | 0.28 | 2.3 |
| EMI/RFI Coatings | 0.48 | 4.0 |
| Soft Coatings | 0.52 | 4.3 |
| Plating Resist Coatings | 0.71 | 5.9 |
| Plating Sensitizer Coatings | 0.85 | 7.1 |
| High bake coatings | ||
| Flexible Primer | 0.46 | 3.8 |
| Non-flexible primer | 0.42 | 3.5 |
| Base coats | 0.52 | 4.3 |
| Clear coat | 0.48 | 4.0 |
| Non-basecoat/clear coat | 0.52 | 4.3 |
| Interior colorcoat | 0.49 | 4.1 |
| Exterior colorcoat | 0.55 | 4.6 |
| Low bake/air dried coatings - exterior | ||
| Primers | 0.58 | 4.8 |
| Basecoat | 0.60 | 5.0 |
| Clearcoats | 0.54 | 4.5 |
| Non-basecoat/clearcoat | 0.60 | 5.0 |
| Red and black colorcoats | 0.67 | 5.6 |
| All other colorcoats | 0.61 | 5.1 |
| Low bake/air dried coatings - interior primers | 0.42 | 3.5 |
| colorcoats | 0.38 | 3.2 |
| Touchup and Repair coatings | 0.62 | 5.2 |
| Auto Specialty | ||
| Vacuum metalizing basecoats | 0.66 | 5.5 |
| Texture coatings | 0.66 | 5.5 |
| Reflective argent coatings | 0.71 | 5.9 |
| Soft specialty coatings | 0.71 | 5.9 |
| Air bag cover coatings | 0.71 | 5.9 |
| Gloss Flatteners | 0.77 | 6.4 |
| Vacuum metalizing topcoats | 0.77 | 6.4 |
| Texture topcoats | 0.77 | 6.4 |
| Stencil Coatings | 0.81 | 6.8 |
| Adhesion primers | 0.81 | 6.8 |
| Ink pad printing coatings | 0.81 | 6.8 |
| Electrostatic prep coats | 0.81 | 6.8 |
| Resist coatings | 0.81 | 6.8 |
| Headlamp lens coatings | 0.89 | 7.4 |
* General refers to those parts or products which are not Business Machine Parts or Automotive/Transportation Parts.
12.4 Specific Exemptions
12.4.1 The requirements of 12.3.1 of this regulation shall not apply to the following coatings and coating operations related to general plastic parts and products:
12.4.3 The requirements of 12.3.1 and 12.3.2 of this regulation shall not apply to the following types of coatings:
12.5 Control Devices
12.5.1 An owner or operator of a plastic part or products coating unit subject to 12.3.1.3 of this regulation shall determine the emission reduction efficiency needed to comply and demonstrate compliance as follows:
12.5.2 An owner or operator of a plastic parts or products coating unit subject to 12.3.1.3 of this regulation shall ensure that:
12.6 Test Methods. The test methods found inAppendices A through D of this regulation shall be used to determine compliance with 12.0 of this regulation.
12.7 Compliance Certification, Recordkeeping, and Reporting Requirements.
03/11/11
13.1 Applicability
13.2 Definitions. As used in 13.0 of this regulation, all terms not defined herein shall have the meaning given them in this regulation or in the Clean Air Act Amendments (CAAA) of November 15, 1990, or in 2.0 of this regulation.
"Adhesive" means any chemical substance that is applied for the purpose of bonding two surfaces together other than by mechanical means.
“Application area” means the area where a coating is applied by dipping or spraying.
“Automobile” means a motor vehicle capable of carrying no more than 12 passengers.
"Automobile and light-duty truck adhesive" means an adhesive, including glass bonding adhesive, used at an automobile or light-duty truck assembly coating facility, applied for the purpose of bonding two vehicle surfaces together without regard to the substrates involved.
"Automobile and light-duty truck bedliner" means a multi-component coating, used at an automobile or light-duty truck assembly coating facility, applied to a cargo bed after the application of topcoat and outside of the topcoat operation to provide additional durability and chip resistance.
“Automobile and light-duty truck body” means the exterior and interior surfaces of an automobile or light-duty truck including, but not limited to, hoods, fenders, cargo boxes, doors, grill opening panels, engine compartment, all or portions of the passenger compartment, and trunk interior.
"Automobile and light-duty truck cavity wax" means a coating, used at an automobile or light-duty truck assembly coating facility, applied into the cavities of the vehicle primarily for the purpose of enhancing corrosion protection.
"Automobile and light-duty truck deadener" means a coating, used at an automobile or light-duty truck assembly coating facility, applied to selected vehicle surfaces primarily for the purpose of reducing the sound of road noise in the passenger compartment.
"Automobile and light-duty truck gasket/gasket sealing material" means a fluid, used at an automobile or light-duty truck assembly coating facility, applied to coat a gasket or replace and perform the same function as a gasket. Automobile and light-duty truck gasket/gasket sealing material includes room temperature vulcanization (RTV) seal material.
"Automobile and light-duty truck glass bonding primer" means a primer, used at an automobile or light-duty truck assembly coating facility, applied to windshield or other glass, or to body openings, to prepare the glass or body opening for the application of glass bonding adhesives or the installation of adhesive bonded glass. Automobile and light-duty truck glass bonding primer includes glass bonding/cleaning primers that perform both functions (cleaning and priming of the windshield and other glass, or body openings) prior to the application of adhesive or the installation of adhesive bonded glass.
"Automobile and light-duty truck lubricating wax/compound" means a protective lubricating material, used at an automobile or light-duty truck assembly coating facility, applied to vehicle hubs and hinges.
"Automobile and light-duty truck sealer" means a high viscosity material, used at an automobile or light-duty truck assembly coating facility, generally, but not always, applied in the paint shop after the body has received an electrodeposition primer coating and before the application of subsequent coatings (e.g. primer-surfacer). The primary purpose of the automobile and light-duty truck sealer is to fill body joints completely so that there is no intrusion of water, gases or corrosive materials into the passenger area of the compartment. Such materials are also referred to as sealant or caulk.
"Automobile and light-duty truck trunk interior coating" means a coating, used at an automobile or light-duty truck assembly coating facility outside of the primer-surfacer and topcoat operations, applied to the trunk interior to provide chip protection.
"Automobile and light-duty truck underbody coating" means a coating, used at an automobile or light-duty truck assembly coating facility, applied to the undercarriage or firewall to prevent corrosion and/or provide chip protection.
"Automobile and light-duty truck weatherstrip adhesive" means an adhesive, used at an automobile or light-duty truck assembly coating facility, applied to weatherstripping materials for the purpose of bonding the weatherstrip material to the surface of the vehicle.
“Electro-deposition (EDP)” means a process of applying a protective, corrosion resistant waterborne prime coat by which the automobile or truck body is submerged in a tank filled with coating material and an electrical field is used to effect the deposition of the coating material on the body. Also referred to as E-Coat, Uni-Prime, and ELPO Primer.
“EDP prime coat operation” means the application area or areas, flashoff area or areas, and oven or ovens that are used to apply and dry or cure the EDP prime coat on components of automobile and truck bodies on a single assembly line.
“Final repair operation” means the operations performed and coating applied to completely assembled motor vehicles or to parts that are not yet on a completely assembled vehicle to correct damage or imperfections in the coating. The curing of the coatings applied in these operations is accomplished at a lower temperature than used for curing primer-surfacer and topcoat. This lower temperature cure avoids the need to send parts that are not yet on a completely assembled vehicle through the same type of curing process used for primer-surfacer and topcoat and is necessary to protect heat sensitive components on completely assembled vehicles.
"In-line Repair" means the operation performed and coating used to correct damage or imperfections in the topcoat on parts that are on a completely assembled vehicle. The curing of the coatings applied in these operations is accomplished at essentially the same temperature as that used for curing the previously applied topcoat. Also referred to as high bake repair or high bake reprocess. In-line repair is considered part of the topcoat operation.
“Light-duty truck” means any motor vehicle rated at 3,864 kg (8,500 lb) gross weight or less designed primarily to transport property.
“Prime coat operation” means the application area or areas, flashoff area or areas, and oven or ovens that are used to apply and dry or cure the prime coat on components of automobile and light-duty truck bodies on a single assembly line.
"Primer-surfacer" means an intermediate protective coating applied over the electrodeposition primer and under the topcoat. Primer-surfacer provides adhesion, protection and appearance properties to the total finish. Primer-surfacer may also be called guide coat or surfacer. Primer-surfacer operations may include other coatings (e.g., anti-chip, lower-body anti-chip, chip resistant edge primer, spot primer, blackout, deadener, interior color, basecoat replacement coating, etc) that are applied in the same spray booth.
“Primer-surfacer operation” means the application area or areas, flashoff area or areas, and oven or ovens that are used to apply and dry or cure primer surfacer between the prime coat and the topcoat operations on components of automobile and light-duty truck bodies on a single assembly line.
"Primer-surfacer and topcoat protocol" means the EPA document "Protocol for Determining the Daily Volatile Organic Compound Emission Rate of Automobile and Light-Duty Truck Primer-Surfacer and Topcoat Operations", EPA 453/R-08-002, September 2008.
“Solids turnover ratio (R T )” means the ratio of total volume of coating solids that is added to the EDP system in a calendar month divided by the total volume design capacity of the EDP system.
“Topcoat” means the final coating applied to provide the final color and/or a protective finish. The topcoat may be a monocoat color or basecoat/clearcoat system. In-line repair and two-tone are part of topcoat. Topcoat operations may include other coatings (e.g., blackout, interior color, etc.) that are applied in the same spray booth.
“Topcoat operation” means the application area or areas, flashoff area or areas, and oven or ovens used to apply and dry or cure topcoat on components of automobile and light-duty truck bodies on a single assembly line.
“Volume design capacity” means for the EDP system the total liquid volume that is contained in the EDP system (tanks, pumps, recirculating lines, filters, etc.) at the system's designed liquid operating level. The EDP system volume design capacity is designated LE.
13.3 Standards
13.3.1 No owner or operator of an EDP prime coat operation subject to 13.0 of this regulation shall cause or allow on any day the application of any coating on that operation with VOC content, as applied, that exceeds either of the following:
13.3.1.1 0.084 kg/l (0.7 lb/gal) of coating solids from any EDP prime coat operation when the solids turnover ratio (RT) is 0.16 or greater. RTshall be calculated as follows:

(13-1)
where:
TV =Total volume of coating solids that is added to the EDP system in a calendar month (liters).
LE = Volume design capacity of the EDP system (liters).
13.3.4 No owner or operator of an automobile or light-duty truck prime coat operation or final repair operation subject to 13.0 of this regulation shall cause or allow the application of any coating on that operation with VOC content, as applied, that does not comply with one of the following:
13.3.6 Additional VOC content limits for miscellaneous motor vehicle materials used at automotive and light-duty truck assembly facilities (grams of VOC per liter of coating excluding water and exempt compounds, as applied)are shown in Table 13-1 of this regulation.
Table 13-1
| Coating Category | VOC REGULATORY AS APPLIED (g/l) |
| Automobile and light-duty truck adhesive | 250 |
| Automotive and light-duty truck bedliner | 200 |
| Automotive and light-duty truck cavity wax | 650 |
| Automotive and light-duty truck deadener | 650 |
| Automotive and light-duty truck gasket/gasket sealing material | 200 |
| Automotive and light-duty truck glass bonding primer | 900 |
| Automotive and light-duty truck lubricating wax/compound | 700 |
| Automotive and light-duty truck sealer | 650 |
| Automotive and light-duty truck trunk interior coating | 650 |
| Automotive and light-duty truck underbody coating | 430 |
| Automotive and light-duty truck weatherstrip adhesive | 750 |
13.5 Control devices
13.5.1 An owner or operator subject to 13.0 of this regulation may comply with the applicable emission limits for any coating operation by:
13.5.2 An owner or operator subject to 13.0 of this regulation shall ensure that:
13.6 Compliance procedures for EDP prime coat operations
13.7 Test methods
13.7.2 An owner or operator shall use the primer-surfacer and topcoat protocol to determine compliance with 13.3.2, 13.3.3 and 13.3.5 of this regulation. This protocol "Protocol for Determining the Daily Volatile Organic compound Emission Rate of Automobile and Light-duty Truck Primer-Surfacer and Topcoat Operations" EPA453/R-08-002, September 2008 can be found at
www.epa.gov/ttn/oarpg/t1/ctg/autotruck_primer_topcoat_protocol_093008.pdf.
13.8 Recordkeeping and reporting for non-EDP prime coat, final repair and miscellaneous motor vehicle materials coating operations.
13.9 Recordkeeping and reporting for EDP prime coat operations. An owner or operator of an EDP prime coat operation subject to 13.0 of this regulation and complying with the requirements in 13.3.1.1, 13.3.1.2 and 13.3.1.3 of this regulation shall comply with the following:
13.9.1 Certification. By November 15, 1993 or upon startup of a new EDP prime coat operation, the owner or operator shall certify to the Department that the coating operation is and will be in compliance with the requirements in 13.3.1.1 or 13.3.1.2 of this regulation on and after November 15, 1993, or on and after the initial startup date. Such certification shall include:
13.9.2 Recordkeeping. On and after November 15, 1993 or on and after the initial startup date of a new EDP prime coat operation, the owner or operator shall collect and record the following information for each EDP prime coat operation. These records shall be maintained at the facility for at least five years and shall be made available to the Department upon verbal or written request:
13.9.3 Reporting. On and after November 15, 1993, the owner or operator of an EDP prime coat operation subject to 13.0 of this regulation shall notify the Department in either of the following instances:
13.10 Reporting and recordkeeping for topcoat and primer surfacer operations.
13.10.1 An owner or operator of an automobile or light-duty truck coating operation subject to 13.0 of this regulation and complying with 13.2.1, 13.3.3 or 13.3.5 of this regulation shall comply with the following:
13.10.1.2 Recordkeeping
01/11/1993
14.1 Applicability
14.2 Definitions. As used in 14.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“Can” means any cylindrical single-walled container, with or without a top, cover, spout, or handle, that is manufactured from metal sheets thinner than 29 gauge (0.0141 in.) and into which solid or liquid materials may be packaged.
“Can coating unit” means a coating unit in which any coating is applied onto the surface of cans or can components.
“End sealing compound coat” means a compound applied onto can ends that functions as a gasket when the end is assembled onto the can.
“Exterior base coat” means a coating applied to the exterior of a two-piece can body to provide protection to the metal or to provide background for any lithographic or printing operation.
“Interior body spray coat” means a coating applied to the interior of the can body to provide a protective film between the product and the can.
“Overvarnish” means a coating applied directly over a design coating or directly over ink to reduce the coefficient of friction, to provide gloss, and to protect the finish against abrasion and corrosion.
“Sheet basecoat” means a coating applied to metal in sheet form to serve as either the exterior or interior of two-piece or three-piece can bodies or can ends.
“Side-seam spray coat” means a coating applied to the seam of a three-piece can.
“Three-piece can” means a can that is made by rolling a rectangular sheet of metal into a cylinder that is soldered, welded, or cemented at the seam and attaching two ends.
“Two-piece can” means a can whose body and one end are formed from a shallow cup and to which the other end is later attached.
“Two-piece can exterior end coat” means a coating applied by roller coating or spraying to the exterior end of a two-piece can to provide protection to the metal.
14.3 Standards
14.3.1 No owner or operator of a can coating unit subject to 14.0 of this regulation shall cause or allow the application of any coating on that unit with VOC content, as applied, that exceeds the limits in 14.3.1.1 through 14.3.1.6 of this regulation.
| kg/La | lb/gala | ||
| 14.3.1.1 14.3.1.2 14.3.1.3 14.3.1.4 14.3.1.5 14.3.1.6 | Sheet basecoat and sheet overvarnish Exterior basecoat and overvarnish (two-piece can) Interior body spray coat Two-piece can exterior end coat Side seam spray coat End-sealing compound coat | 0.34 0.34 0.51 0.51 0.66 0.44 | 2.8 2.8 4.2 4.2 5.5 3.7 |
a VOC content values are expressed in units of mass of VOC (kg, lb) per volume of coating (liter [L], gallon [gal]), excluding water and exempt compounds, as applied.
14.4 Daily-weighted average limitations
14.5 Control devices
14.5.1 An owner or operator of a can coating unit subject to 14.0 of this regulation may comply with 14.3.2 of this regulation by:
14.5.2 An owner or operator of a can coating unit subject to 14.0 of this regulation shall ensure that:
14.7 Recordkeeping and reporting
01/11/1993
15.1 Applicability
15.2 Definitions. As used in 15.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“Coil” means any continuous metal strip with thickness of 0.15 millimeter (mm) (0.006 inch [in.]) or more that is packaged in a roll or coil.
“Coil coating line” means a web coating line where coating is applied to coil.
“Coil coating unit” means a coating application station and its associated flashoff area, drying area, or drying oven wherein coating is applied and dried or cured on a coil coating line. A coil coating line may include more than one coil coating unit.
15.3 Standards
15.5 Control devices
15.5.1 An owner or operator of a coil coating unit subject to 15.0 of this regulation may comply with 15.0 of this regulation by:
15.5.2 An owner or operator of a coil coating unit subject to 15.0 of this regulation shall ensure that:
15.7 Recordkeeping and reporting
03/11/11
16.1 Applicability
16.2 Definitions. As used in 16.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
"Coating" means a material being applied, or an action of applying such a material, onto or impregnated into a substrate for decorative, protective, or functional purpose.
“Paper, film, or foil coating line” means a series of coating applicators, flash-off areas, and any associated curing/drying equipment between one or more unwind/feed stations and one or more rewind/cutting stations to apply a coating onto a continuous strip of substrate (a web). Printing presses are not considered coating lines. Products produced on a paper, film, or foil coating line include, but are not limited to, adhesive tapes and labels, book covers, post cards, office copier paper, drafting paper, and pressure sensitive tapes and labels. Coating lines include, but are not limited to, application by impregnation or saturation or by the use of roll, knife, or rotogravure coating. A coating line may include more than one coating unit.
“Paper, film, or foil coating unit” means any coating unit applying a coating to paper, film, or foil substrates used in the manufacturing of several major product types for the following industry sectors: pressure sensitive tape and labels (including fabric coated for use in pressure sensitive tapes and labels); photographic film; industrial and decorative laminates; abrasive products (including fabric coated for use in abrasive products) and flexible packaging (including coating of non-woven polymer substrates for use in flexible packaging). Paper, film, or foil coating unit also includes a coating unit applying a coating during miscellaneous coating operations for several products including: corrugated and solid fiber boxes; die-cut paper paperboard, and cardboard; converted paper and paperboard not elsewhere classified; folding paperboard boxes, including sanitary boxes; manifold business forms and related products; plastic aseptic packaging; and carbon paper and inked ribbons.
16.3 Standards. No owner or operator of any paper, film, or foil coating unit shall operate the coating unit unless the owner or operator meets the applicable requirements listed under 16.3.1, 16.3.2, 16.3.3, and 16.3.4 of this regulation.
16.5 Control devices
16.5.1 An owner or operator of a paper, film, or foil coating unit subject to 16.0 of this regulation may comply with 16.0 of this regulation by:
16.5.2 An owner or operator of a paper, film, or foil coating unit subject to 16.0 of this regulation shall ensure that:
16.7 Recordkeeping and reporting
01/11/1993
17.1 Applicability
17.2 Definitions. As used in 17.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“Fabric coating line” means a web coating line where coating is applied to fabric. A fabric printing line is not considered a fabric coating line.
“Fabric coating unit” means a coating application station and its associated flashoff area, drying area, or oven wherein coating is applied and dried or cured in a fabric coating line. A fabric coating line may include more than one fabric coating unit.
17.3 Standards
17.5 Control devices
17.5.1 An owner or operator of a fabric coating unit subject to 17.0 of this regulation may comply with 17.0 of this regulation by:
17.5.2 An owner or operator of a fabric coating unit subject to 17.0 of this regulation shall ensure that:
17.7 Recordkeeping and reporting
01/11/1993
18.1 Applicability
18.1.2 The provisions of 18.0 of this regulation do not apply to:
18.2 Definitions. As used in 18.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“Vinyl coating line” means a web coating line where a decorative, functional, or protective coating is applied to a continuous web of vinyl or vinyl-coated fabric. Lines used for coating or printing on vinyl and coating or printing on urethane are considered vinyl coating lines.
18.3 Standards
18.5 Control devices
18.5.1 An owner or operator of a vinyl coating line subject to 18.0 of this regulation may comply with 18.0 of this regulation by:
18.5.2 An owner or operator of a vinyl coating line subject to 18.0 of this regulation shall ensure that:
18.7 Recordkeeping and reporting
10/11/2011
19.1 Applicability
19.2 Definitions. As used in 19.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments, or in 2.0 of this regulation.
“Metal furniture” means any furniture piece made of metal or any metal part that will be assembled with other metal, wood, fabric, plastic, or glass parts to form a furniture piece including, but not limited to, tables, chairs, waste baskets, beds, desks, lockers, benches, shelving, file cabinets, fixtures, lamps, lighting units, and room dividers.
“Metal furniture coating unit” means a coating unit in which a protective, decorative, or functional coating is applied onto the surface of metal furniture.
19.3 Standards
19.3.1 Except as provided in 19.4.1 of this regulation, no owner or operator of a metal furniture coating unit subject to 19.0 of this regulation shall cause or allow the application of any coating to metal furniture unless:
19.3.1.1 The VOC content of the coating is less than or equal to the limits listed in Table 19-1 of this regulation, or
Table 19-1 Metal Furniture Coating VOC Content Limits
VOC content limits are expressed as mass (either kilogram [kg] or pound [lb]) per volume (either liter [l] or gallon [gal]) of coating less water and exempt compounds, as applied.
| Baked | Air Dried | |||
| kg VOC/l | lb VOC/gal | kg VOC/l | lb VOC/gal | |
| Coating Category | coating | coating | coating | coating |
| General, one-component | 0.275 | 2.3 | 0.275 | 2.3 |
| General, multi-component | 0.275 | 2.3 | 0.340 | 2.8 |
| Extreme high-gloss | 0.360 | 3.0 | 0.340 | 2.8 |
| Extreme performance | 0.360 | 3.0 | 0.420 | 3.5 |
| Heat-resistant | 0.360 | 3.0 | 0.420 | 3.5 |
| Metallic | 0.420 | 3.5 | 0.420 | 3.5 |
| Pretreatment | 0.420 | 3.5 | 0.420 | 3.5 |
| Solar-absorbent | 0.360 | 3.0 | 0.420 | 3.5 |
19.3.2 Except as provided in 19.3.1.3 and 19.4 of this regulation, no owner or operator of a metal furniture coating unit subject to 19.0 of this regulation shall apply a coating to metal furniture unless the coating is applied with equipment properly operating and maintained according to the manufacturer's suggested guidelines and using one or more of the following coating application methods:
19.4 Specific Exemptions
19.4.1 The requirements of 19.3.1 and 19.3.2 of this regulation shall not apply for the following types of coatings:
19.5 Control Devices
19.5.1 An owner or operator of a metal furniture coating unit subject to 19.3.1.3 of this regulation shall determine the emission reduction efficiency needed to comply and demonstrate compliance as follows:
19.5.2 An owner or operator of a metal furniture coating unit subject to 19.3.1.3 of this regulation shall ensure that:
19.6 Test Methods. The test methods found inAppendix A through Appendix D of this regulation shall be used to determine compliance with 19.0 of this regulation.
19.7 Compliance Certification, Recordkeeping and Reporting Requirements
10/11/2011
20.1 Applicability
20.2 Definitions. As used in 20.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“Large appliance” means any residential or commercial washer, dryer, range, oven, microwave oven, refrigerator, freezer, water heater, dishwasher, trash compactor, air conditioner, or other similar products under North American Industry Classification System code 33522.
“Large appliance coating unit” means a coating unit in which any protective, decorative, or functional coating is applied onto the surface of component metal parts (including, but not limited to, doors, cases, lids, panels, and interior parts) of large appliances.
20.3 Standards
20.3.1 Except as provided in 20.4.1 of this regulation, no owner or operator of a large appliance coating unit subject to 20.0 of this regulation shall cause or allow the application of any coating to large appliances unless:
20.3.1.1 The VOC content of the coating is less than or equal to the limits listed in Table 20-1 of this regulation, or
Table 20-1 Large Appliance Coating VOC Content Limits
VOC content limits are expressed as mass (either kilogram [kg] or pound [lb]) per volume (either liter [l] or gallon [gal]) of coating less water and exempt compounds, as applied.
| Baked | Air Dried | |||
| kg VOC/l | lb VOC/gal | kg VOC/l | lb VOC/gal | |
| Coating Category | coating | coating | coating | coating |
| General, one-component | 0.275 | 2.3 | 0.275 | 2.3 |
| General, multi-component | 0.275 | 2.3 | 0.340 | 2.8 |
| Extreme high-gloss | 0.360 | 3.0 | 0.340 | 2.8 |
| Extreme performance | 0.360 | 3.0 | 0.420 | 3.5 |
| Heat-resistant | 0.360 | 3.0 | 0.420 | 3.5 |
| Metallic | 0.420 | 3.5 | 0.420 | 3.5 |
| Pretreatment | 0.420 | 3.5 | 0.420 | 3.5 |
| Solar-absorbent | 0.360 | 3.0 | 0.420 | 3.5 |
20.3.2 Except as provided in 20.3.1.3 and 20.4 of this regulation, no owner or operator of a large appliance coating unit subject to 20.0 of this regulation shall apply a coating to large appliances unless the coating is applied with equipment properly operating and maintained according to the manufacturer's suggested guidelines and using one or more of the following coating application methods:
20.4 Specific Exemptions
20.4.1 The requirements of 20.3.1 and 20.3.2 of this regulation do not apply for the following types of coatings:
20.5 Control Devices
20.5.1 An owner or operator of a large appliance coating unit subject to 20.3.1.3 of this regulation shall determine the emission reduction efficiency needed to comply and demonstrate compliance as follows:
20.5.2 An owner or operator of a large appliance coating unit subject to 20.3.1.3 of this regulation shall ensure that:
20.6 Test Methods. The test methods found inAppendix A through Appendix D of this regulation shall be used to determine compliance with 20.0 of this regulation.
20.7 Compliance Certification, Recordkeeping and Reporting
11/29/1994
21.1 Applicability
21.2 Definitions. As used in 21.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“Magnet wire coating unit” means a coating unit in which an electrically insulating varnish or enamel is applied onto the surface of wire for use in electrical machinery.
21.3 Standards
21.5 Control devices
21.5.1 An owner or operator of a magnet wire coating unit subject to 21.0 of this regulation may comply with 21.0 of this regulation by:
21.5.2 An owner or operator of a magnet wire coating unit subject to 21.0 of this regulation shall ensure that:
21.7 Recordkeeping and reporting
10/11/2011
22.1 Applicability
22.1.3 The provisions of 22.0 of this regulation do not apply to the following miscellaneous metal parts and products:
22.2 Definitions. As used in 22.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“ Camouflage coating ” means a coating used principally by the military to conceal equipment from detection.
“Drum” means any cylindrical metal shipping container larger than 12 gallons capacity, but no larger than 110 gallon capacity.
“ Electric-insulating varnish ”means a non-convertible-type coating applied to electric motors, components of electric motors, or power transformers, to provide electrical, mechanical and environmental protection or resistance.
“Etching filler ”means a coating that contains less than 23% solids by weight and at least 0.5 percent acid by weight and is used instead of applying a pretreatment coating followed by a primer.
“ High-performance architectural coating ”means a coating used to protect architectural subsections and which meets the requirements of the Architectural Aluminum Manufacturer Associations publication number AAMA 2604-05 (Voluntary Specification, Performance Requirements and Test Procedures for High Performance Organic Coatings on Aluminum Extrusions and Panels) or 2605-05 (Voluntary Specification Performance Requirements and Test Procedures for Superior Performing Organic Coatings on Aluminum Extrusions and Panels).
“ High-temperature coating ”means a coating that is certified to withstand a temperature of 10000 F for 24 hours.
“ Military specification coating ” means a coating which has a formulation approved by a United States military agency for use on military equipment.
“Miscellaneous metal parts and products coating unit” means a coating unit in which a coating is applied to any miscellaneous metal parts and products.
“Miscellaneous parts and products” means any metal part or metal product, even if attached to or combined with a nonmetal part or product. Miscellaneous metal parts and products include, but are not limited to:
7. Any other metal part or product that is within one of the following Standard Industrial Classification Codes: Major Group 33 (primary metal industries), Major Group 34 (fabricated metal products), Major Group 35 (nonelectric machinery), Major Group 36 (electrical machinery), Major Group 37 (transportation equipment), Major Group 38. (miscellaneous instruments), and Major Group 39 (miscellaneous manufacturing industries).
22.3 Standards
22.3.1 Except as provided for in 22.4, no owner or operator of a miscellaneous metal parts and products coating unit subject to 22.0 of this regulation shall cause or allow the application of any coating to miscellaneous metal parts and products unless:
22.3.2 Except as provided in 22.3.1.3 and 22.4, no owner or operator of a miscellaneous metal parts and products coating unit subject to 22.0 of this regulation shall apply a coating to miscellaneous metal parts and products unless the coating is applied with equipment properly operated and maintained according to the manufacturer’s suggested guidelines and using one or more of the following coating application methods:
22.3.2.7 An alternative method that is demonstrated to be capable of achieving a transfer efficiency equal to or better than HVLP spray and approved by the Department and by the EPA.
Table 22 – 1 Metal Parts and Products Coating VOC Content Limits
coating VOC content limits are expressed as mass (kilogram [kg] or pound [lb]) per volume
(liter [l] or gallon [gal]) of coating less water and exempt compounds, as applied
| Air Dried | Baked | |||
| kg VOC/l | lb VOC/gal | kg VOC/l | lb VOC/gal | |
| Coating Category | coating | coating | coating | coating |
| General One Component | 0.34 | 2.8 | 0.28 | 2.3 |
| General Multi Component | 0.34 | 2.8 | 0.28 | 2.3 |
| Camouflage | 0.42 | 3.5 | 0.36 | 3.0 |
| Electric Insulating Varnish | 0.42 | 3.5 | 0.36 | 3.0 |
| Electric Insulating and Thermal Conducting Coatings | 0.42 | 3.5 | 0.36 | 3.0 |
| Etching Filler | 0.42 | 3.5 | 0.36 | 3.0 |
| Extreme High Gloss | 0.42 | 3.5 | 0.36 | 3.0 |
| Extreme Performance | 0.42 | 3.5 | 0.36 | 3.0 |
| Heat Resistant | 0.42 | 3.5 | 0.36 | 3.0 |
| High Performance Architectural | 0.42 | 3.5 | 0.36 | 3.0 |
| High Temperature | 0.42 | 3.5 | 0.36 | 3.0 |
| Magnetic Data Storage Disc Coatings | 0.42 | 3.5 | 0.36 | 3.0 |
| Metallic | 0.42 | 3.5 | 0.36 | 3.0 |
| Military Specification | 0.34 | 2.8 | 0.28 | 2.3 |
| Mold Seal | 0.42 | 3.5 | 0.36 | 3.0 |
| Pan Backing | 0.42 | 3.5 | 0.36 | 3.0 |
| Prefabricated Architectural Multi Component | 0.42 | 3.5 | 0.28 | 2.3 |
| Prefabricated Architectural One Component | 0.42 | 3.5 | 0.28 | 2.3 |
| Pretreatment Coatings | 0.42 | 3.5 | 0.36 | 3.0 |
| Repair and Touch Up | 0.42 | 3.5 | 0.36 | 3.0 |
| Safety Indicating Coatings | 0.42 | 3.5 | 0.36 | 3.0 |
| Silicone Release | 0.42 | 3.5 | 0.42 | 3.5 |
| Solar Absorbent | 0.42 | 3.5 | 0.36 | 3.0 |
| Solid-Film Lubricant | 0.42 | 3.5 | 0.36 | 3.0 |
| Stencil Coatings | 0.42 | 3.5 | 0.36 | 3.0 |
| Vacuum Metalizing | 0.42 | 3.5 | 0.42 | 3.5 |
| Drum Coating, New, Exterior | 0.34 | 2.8 | 0.34 | 2.8 |
| Drum Coating, New, Interior | 0.42 | 3.5 | 0.42 | 3.5 |
| Drum Coating, Reconditioned, Exterior | 0.42 | 3.5 | 0.36 | 3.0 |
| Drum Coating, Reconditioned, Interior | 0.50 | 4.2 | 0.50 | 4.2 |
22.4 Specific Exemptions
22.4.1 The requirements of 22.3.1 and 22.3.2 of this regulation shall not apply to the following coatings and coating operations:
22.4.2 The requirements of 22.3.2 of this regulation shall not apply to the following coatings and coating operations:
22.5 Control Devices
22.5.1 An owner or operator of a miscellaneous metal parts and products coating unit subject to 22.3.1.3 of this regulation shall determine the emission efficiency needed to comply and demonstrate compliance as follows:
22.5.2 An owner or operator of a miscellaneous metal parts and products coating unit subject to 22.3.1.3 of this regulation shall ensure that:
22.6 Test methods. The test methods found inAppendix A through Appendix D of this regulation shall be used to determine compliance with 22.0 of this regulation.
22.7 Compliance Certification, Recordkeeping and Reporting Requirements.
“Pail” means any cylindrical metal shipping container of 1- to 12-gallon capacity and constructed of 29-gauge and heavier material.
“ Pan-backing coating ” means a coating applied to the surface of pots, pans, or other cooking implements that are exposed directly to a flame or other heating elements.
“ Prefabricated architectural component coating ” means a coating applied to metal parts and products which is to be used as an architectural structure.
“Silicone-release coating”means a coating which contains silicone resin and is intended to prevent food from sticking to metal surfaces such as baking pans.
03/11/11
23.2 Definitions. As used in 23.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“Class I hardboard paneling finish” means finishes that meet the specifications for Class I of Voluntary Product Standard PS-59-73 as approved by the American National Standards Institute.
“Class II hardboard paneling finish” means finishes that meet the specifications for Class II of Voluntary Product Standard PS-59-73 as approved by the American National Standards Institute.
"Exterior siding" means wood panels with a flat surface made of solid wood, hardboard, or waferboard and are intended for use in commercial or residential construction, generally as a covering for an outside wall.
“Flat wood paneling coating line” means a coating line used to apply and dry or cure coatings applied to one of the following flat wood paneling product categories: printed interior panels made of hardwood plywood and thin particle board (i.e., less than or equal to 0.64 centimeter (cm) (0.25 inch [in.]) in thickness); natural finish hardwood plywood panels; and hardwood paneling with Class II finishes.
“Hardboard” is a panel manufactured primarily from inter-felted ligno-cellulosic fibers that are consolidated under heat and pressure in a hot press.
“Hardwood plywood” is plywood whose surface layer is a veneer of hardwood.
“Natural finish hardwood plywood panels” means panels whose original grain pattern is enhanced by essentially transparent finishes frequently supplemented by fillers and toners.
“Printed interior panels” means panels whose grain or natural surface is obscured by fillers and basecoats upon which a simulated grain or decorative pattern is printed.
“Thin particleboard” is a manufactured board that is 0.64 cm (0.25 in.) or less in thickness made of individual wood particles that have been coated with a binder and formed into flat sheets by pressure.
“Tileboard” means paneling that meets the specifications for Class I hardboard given by the standard ANSI/AHA A135.4-1995 as approved by the American National Standards Institute. The standard specifies requirements and test methods for water absorption, thickness swelling, modulus of rupture, tensile strength, surface finish, dimensions, squareness, edge straightness, and moisture content for five classes of hardboard. Tileboard is also known as Class I hardboard or tempered hardboard.
23.3 Standards
23.3.1 No owner or operator of a flat wood paneling coating line subject to 23.0 of this regulation shall cause or allow, on any day, VOC emissions from the coating of any one of the following flat wood paneling product categories in excess of the emission limits in Table 23-1 of this regulation:
Table 23-1. VOC Emission Limits from Flat Wood Paneling Coatings.
| Flat Wood Paneling Product Category | VOC Content Limits in Coatings, Inks, or Adhesives Being Applied | |
| lb/gal | g/L | |
| Printed interior panels made of hardwood, plywood, or thin particleboard | 2.1* | 250 |
| Natural finish hardwood plywood panels | 2.1 | 250 |
| Class II finishes on hardboard panels | 2.1 | 250 |
| Tileboard | 2.1 | 250 |
| Exterior siding | 2.1 | 250 |
*This limit of 2.1 lb/gal is equivalent to 5.0 lb VOC per 1,000 ft2 coating area.
23.5 Control devices
23.5.1 An owner or operator of a flat wood paneling coating line subject to 23.0 of this regulation may comply with 23.0 of this regulation by:
23.5.1.3 Determining for each day the overall emission reduction efficiency needed to demonstrate compliance. The overall emission reduction needed for a day is the greater of:
23.5.2 An owner or operator of a flat wood paneling coating line subject to 23.0 of this regulation shall ensure that:
23.6 Test Methods and Efficiency of Control System
23.6.2 The required overall emission reduction efficiency of the control system for the day shall be calculated according to the following equation:

(23-1)
where:
E = The required overall emission reduction efficiency of the control system for the day.
VOCa = The maximum VOC content of the coatings, as applied, used each day on a coating line in units of lb VOC/gal of coating material applied (or kg VOC/L of coating material applied), as determined by the applicable test methods and procedures specified in Appendix B of this regulation.
S = applicable VOC emission limitation in Table 23-1 of this regulation in terms of lb VOC/gal of coating material applied (or kg VOC/L of coating material applied).
23.7 Recordkeeping and reporting
23.7.1 Requirements for coating sources exempt from emission limitations. An owner or operator of a flat wood paneling coating line that is exempt from the emission limitations of 23.3 of this regulation because combined VOC emissions on any day from all flat wood paneling coating lines at the facility are below the applicability threshold specified in 23.1.2 of this regulation, before the application of capture systems and control devices, shall comply with the following:
23.7.1.1 Certification. Within six months after March11, 2011, the owner or operator of a facility specified in 23.7.1 of this regulation shall certify to the Department that the facility is exempt by providing the following:
23.7.1.1.3 A declaration that the facility is exempt from the emission limitations of 23.3 of this regulation because combined VOC emissions on any day from all flat wood paneling coating lines at the facility are below the applicability threshold before the application of capture systems and control devices. The following equation shall be used to calculate total VOC emissions for that day:

(23-2)
where:
T = Total VOC emissions from coating lines at the facility for each category of flat wood paneling (as specified in 23.3.1 of this regulation) before the application of capture systems and control devices in units of kg VOC/day (lb VOC/day).
n = Number of different coatings applied on each coating line at the facility.
i = Subscript denoting an individual coating.
C = Mass of VOC per area of coated finished product in units of kg VOC/100 m2 (lb VOC/1,000 ft2).
D = The surface area coated at the facility each day in units of m2/day (ft2/day).
a = Constant = 100 m2 if using metric units.
= 1,000 ft2 if using English units.
23.7.1.2 Recordkeeping. On and after March 11, 2011, the owner or operator of a facility specified in 23.7.1 of this regulation shall collect and record all of the following information each day and maintain the information at the facility for a period of five years:
23.7.2 Requirements for coating sources using complying coatings. An owner or operator of a flat wood paneling coating line subject to 23.0 of this regulation and complying with 23.3 of this regulation by means of the use of complying coatings shall comply with the following:
23.7.2.1 Certification. By Within six months after March 11, 2011, or upon startup of a new coating line, or upon changing the method of compliance for an existing coating line from control devices to the use of complying coatings, the owner or operator of a coating line specified in 23.7.2 of this regulation shall certify to the Department that the coating line is or will be in compliance with the requirements of the applicable section of this regulation on and after March 11, 2011, or on and after the initial startup date. Such certification shall include:
23.7.2.2 Recordkeeping. On and after March 11, 2011, or on and after the initial startup date, the owner or operator of a coating line referenced in 23.7.2 of this regulation and complying by the use of complying coatings shall collect and record all of the following information each day for each coating line and maintain the information at the facility for a period of five years:
23.7.2.3 Reporting. On and after March 11, 2011, the owner or operator of a flat wood paneling coating line referenced in 23.7.2 of this regulation shall notify the Department in either of the following instances:
23.7.3 Requirements for coating sources using control devices. Any owner or operator of a flat wood paneling coating line subject to 23.0 of this regulation and complying with 23.3 of this regulation by the use of control devices shall comply with the following:
23.7.3.2 Recordkeeping. On and after March 11, 2011, or on and after the initial startup date, the owner or operator of a coating line referenced in 23.7.3 of this regulation shall collect and record all of the following information each day for each coating line and maintain the information at the facility for a period of five years:
23.7.3.3 Reporting. On and after March 11, 2011, the owner or operator of a subject coating line referenced in 23.7.3 of this regulation shall notify the Department in the following instances:
01/11/1993
24.1 Applicability
24.1.2 The following are subject only to the requirements of 24.3.3.7, 24.3.3.8 and 24.3.3.9 of this regulation:
24.3 Standards
24.3.3 Each owner or operator of a bulk gasoline plant subject to 24.0 of this regulation shall act to ensure that the procedures in 24.3.3.1 through 24.3.3.9 of this regulation are followed during all loading, unloading, and storage operations:
24.5 Recordkeeping. The owner or operator of a facility subject to this regulation shall maintain the following records in a readily accessible location for at least five years and shall immediately make these records available to the Department upon verbal or written request.
24.5.2 A record of each monthly leak inspection required under 24.3.4 of this regulation shall be kept on file at the plant. Inspection records shall include, at a minimum, the following information:
11/29/1994
25.1 Applicability
25.2 Standards for loading racks at bulk gasoline terminals.
25.2.3 Loadings of liquid product into gasoline tank trucks shall be limited to vapor-tight gasoline tank trucks using the following procedures:
25.3 Test methods and procedures
25.3.1 In determining compliance with 25.2.6 of this regulation, the following procedures shall be used:
25.3.2 In determining compliance with the mass emission limitation of 25.2.9 of this regulation, the following reference methods shall be used:
25.3.2.1 In determining volume at the exhaust vent:
25.3.4 The test procedure for determining compliance with 25.2.6 and 25.2.9 of this regulation is as follows:
25.3.4.3 For intermittent vapor control systems:
25.3.4.5 An emission testing interval shall consist of each five-minute period during the performance test. For each interval:
25.3.4.6 The mass emitted during each testing interval shall be calculated as follows:

(25-1)
where:
Mei = Mass of total organic compounds (milligrams [mg]) emitted during testing interval i.
Ves = Volume of air-vapor mixture exhausted (cubic meters [m3]), at standard conditions.
Ce = Total organic compounds concentration (measured as carbon) at the exhaust vent (ppmv).
K = Density of calibration gas (milligrams/cubic meter [mg/m3]) at standard conditions.
= 1.83x106 for propane.
= 2.41x106 for butane.
s = Standard conditions, 20°C and 760 millimeters of mercury (mm Hg).
25.3.4.7 The total organic compounds mass emissions shall be calculated as follows:

(25-2)
where:
E = Mass of total organic compounds emitted per volume of gasoline loaded, mg/L.
Mei = Mass of total organic compounds emitted during testing interval i, mg.
L = Total volume of gasoline loaded, L.
n = Number of testing intervals.
25.4 Recordkeeping. The owner or operator of a facility subject to the requirements of 25.0 of this regulation shall maintain the following records in a readily accessible location for at least five years and shall make these records available to the Department upon verbal or written request.
25.4.2 The documentation file for each gasoline tank truck shall be updated at least once per year to reflect current test results as determined by Method 27. This documentation shall include, at a minimum, the following information:
25.4.3 A record of each monthly leak inspection required under 25.2.8 of this regulation shall be kept on file at the terminal. Inspection records shall include, at a minimum, the following information:
07/11/2020
26.1 Applicability
26.1.1 The provisions of Section 26.0 apply to any stationary gasoline storage tank located at any gasoline dispensing facility (GDF) in the State of Delaware, except:
26.1.1.1 The following storage tanks shall be subject only to the requirements of subsection 26.3.1.1:
26.1.3 Compliance Schedule
26.1.3.1 Storage tanks located at any facility that first commences operations:
Any stationary gasoline storage tank subject to the requirements of Section 26.0 shall be in compliance as follows:
26.2 Definitions
26.2.1 Terms being defined in subsection 26.2 are used exclusively for Section 26.0. Other terms not defined herein shall have meanings defined in the Clean Air Act Amendments of 1990 (CAA),7 DE Admin. Code 1101, or Section 2.0 of 7 DE Admin. Code 1124.
“Monthly Throughput” means the total volume of gasoline dispensed from all the gasoline storage tanks located at a single affected GDF in a calendar month.
26.3 Standards
26.3.1 The owner or operator of any stationary storage tank that is subject to the requirements of Section 26.0 shall:
26.3.1.2 Design, install, operate, and maintain a Stage I Vapor Recovery System that is required in Section 36.0 and operates such that the vapors displaced by the liquid gasoline are returned to the delivery vessel and transported back to the bulk plant or terminal.
26.3.2 The filling of storage tanks subject to the requirements of Section 26.0 shall be limited to unloading by vapor-tight gasoline tank trucks or delivery trucks which:
01/11/1993
27.2 Standards. Each owner or operator of a gasoline tank truck subject to 27.0 of this regulation shall ensure that the gasoline tank truck:
27.2.2 Displays a sticker near the Department of Transportation Certification plate required by 49 CFR 178.340-10b, that:
27.3 Monitoring gasoline tank trucks for vapor tightness
27.5 Recordkeeping and reporting requirements
27.5.2 The records required by 27.5.1 of this regulation shall, at a minimum, contain:
27.5.3 The owner or operator of a gasoline tank truck subject to 27.0 of this regulation shall certify and report to the Department annually that the gasoline tank truck has been tested by Method 27 as specified in 27.4 of this regulation. The certification shall include:
01/11/1993
28.1 Applicability
28.2 Definitions. As used in 28.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“Accumulator” means the reservoir of a condensing unit receiving the condensate from the condenser.
“Firebox” means the chamber or compartment of a boiler or furnace in which materials are burned but does not mean the combustion chamber of an incinerator.
“Forebays” means the primary sections of a wastewater separator.
“Hot well” means the reservoir of a condensing unit receiving the warm condensate from the condenser.
“Refinery process unit” means any segment of the petroleum refinery in which a specific processing operation is conducted.
“Refinery fuel gas” means any gas that is generated by a petroleum refinery process unit and that is combusted, including any gaseous mixture of natural gas and fuel gas.
“Turnaround” means the procedure of shutting a refinery unit down after a run to perform necessary maintenance and repair work and then returning the unit to operation.
“Vacuum-producing system” means any reciprocating, rotary, or centrifugal blower or compressor, or any jet ejector or device that takes suction from a pressure below atmospheric pressure and discharges against atmospheric pressure.
“Wastewater (oil/water) separator” means any device or piece of equipment that utilizes the difference in density between oil and water to remove oil and associated chemicals from water, or any device, such as a flocculation tank, clarifier, etc., that removes petroleum-derived compounds from wastewater.
28.3 Standards
28.3.1 Vacuum-producing systems. No person shall permit the emission of any uncondensed volatile organic compound (VOC) from the condensers, hot wells, or accumulators of any vacuum producing system at a petroleum refinery. The standard shall be achieved by either of the following:
28.3.2 Wastewater separators. The owner or operator of any wastewater (oil/water) separator at a petroleum refinery shall:
28.3.3 Process unit turnarounds. The owner or operator of a petroleum refinery shall provide for the following during process unit turnaround:
28.3.3.3 Recordkeeping of the following items:
11/29/1994
29.1 Applicability
29.1.2 The requirements of 29.4 through 29.8 of this regulation do not apply to:
29.2 Definitions. As used in 29.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“[In] gas/vapor service” means that the piece of equipment in VOC service contains process fluid that is in the gaseous state at operating conditions.
“[In] heavy liquid service” means that the piece of equipment in VOC service is not in gas/vapor service or not in light liquid service.
“[In] light liquid service” means that the piece of equipment in VOC service either (1) contains a liquid that meets all of the conditions in definition A; or (2) meets the condition specified in definition B:
Definition A--(1) the vapor pressure of one or more of the components is greater than 0.3 kiloPascals (kPa) (0.044 inches of mercury [in. Hg]) at 20°C (68°F). Standard reference tests or ASTM D-2879 shall be used to determine the vapor pressures; (2) the total concentration of the pure components having a vapor pressure greater than 0.3 kPa (0.044 in. Hg) at 20°C (68°F) is equal to or greater than 20% by weight; and (3) the fluid is a liquid at operating conditions.
Definition B--Equipment is "in light liquid service" if the weight percent evaporated is greater than 10% at 150°C as determined by ASTM D86.
“[In] vacuum service” means that the equipment in VOC service is operating at an internal pressure that is at least five kPa (0.73 in. Hg) below ambient pressure.
“[In] VOC service” means that the piece of equipment contains or contacts a process fluid that is at least 10% VOC by weight. The provisions of 29.9.2 of this regulation specify how to determine that a piece of equipment is not in VOC service.
“Process unit” means components assembled to produce intermediate or final products from petroleum, unfinished petroleum derivatives, or other intermediates; a process unit can operate independently if supplied with sufficient feed or raw materials and sufficient storage facilities for the product.
29.3 Standards: General. The owner or operator of a petroleum refinery complex subject to 29.0 of this regulation shall ensure that:
29.4 Standards: Equipment inspection program. The owner or operator of a petroleum refinery shall conduct the equipment inspection program described in 29.4.1 thorough 29.4.3 of this regulation using the test methods specified inAppendix F of this regulation.
29.4.1 The owner or operator of a petroleum refinery shall conduct quarterly monitoring of each:
29.5 Standards: Alternative standards for valves: Skip period leak detection and repair.
29.6 Standards: Alternative standards for unsafe-to-monitor valves and difficult-to-monitor valves.
29.6.1 Any valve that is designated, as described in 29.10.5.1 of this regulation, as an unsafe-to-monitor valve is exempt from the requirements of 29.4 of regulation if:
29.6.2 Any valve that is designated, as described in 29.10.5.1 of this regulation, as a difficult-to-monitor valve is exempt from the requirements of 29.4 of this regulation if:
29.7 Standards: Equipment repair program. The owner or operator of a petroleum refinery shall:
29.8 Standards: Delay of repair.
29.9 Test methods and procedures.
29.9.2 The owner or operator shall test each piece of equipment as required under 29.4 of this regulation unless it is demonstrated that a process unit is not in VOC service, i.e., that the VOC content would never be reasonably expected to exceed 10% by weight. For purposes of this demonstration, the following methods and procedures shall be used:
29.9.3 The owner or operator shall demonstrate that a piece of equipment is in light liquid service by showing one of the following:
29.9.3.1 All of the following conditions apply:
29.10 Recordkeeping requirements
29.10.3 When each leak is detected as specified in 29.4 of this regulation, the following information shall be recorded in a log and shall be kept for five years in a readily accessible location:
29.10.5 The following information pertaining to all valves subject to the requirements of 29.6 of this regulation shall be recorded in a log that is kept for five years in a readily accessible location:
29.10.6 The following information for valves complying with 29.5 of this regulation shall be recorded in a log that is kept for five years in a readily accessible location:
11/29/1994
30.1 Applicability
30.1.2 The provisions of 30.0 of this regulation do not apply to any petroleum liquid storage tank that:
30.1.2.4 Contains a petroleum liquid with a maximum true vapor pressure less than 27.6 kPa (4.0 psia) that:
30.2 Definitions. As used in 30.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments, or in 2.0 of this regulation.
“Waxy, heavy-pour crude oil” means a crude oil with a pour point of 10°C (50°F) or higher as determined by the American Society for Testing and Materials Standard D97-66, “Test for Pour Point of Petroleum Oils”.
30.3 Standards. No owner of a petroleum liquid storage vessel subject to 30.0 of this regulation shall store a petroleum liquid in that tank unless:
30.3.1 The tank has been fitted with one of the following:
30.3.2 All seal closure devices meet the following requirements:
30.3.3 All openings in the external floating roof, except for automatic bleeder vents, rim space vents, and leg sleeves, are equipped with:
30.4 Inspections
The owner or operator of a petroleum liquid storage tank with an external floating roof subject to 30.0 of this regulation shall:
30.5 Recordkeeping
30.5.1 The owner or operator of any petroleum liquid storage tank with an external floating roof subject to 30.0 of this regulation shall maintain the following records in a readily accessible location for at least five years and shall make copies of the records available to the Department upon verbal or written request:
30.5.2 The owner or operator of a petroleum liquid storage vessel with an external floating roof exempted from 30.0 of this regulation by 30.1.2.3 of this regulation, but containing a petroleum liquid with a true vapor pressure greater than 7.0 kPa (1.0 psia), shall maintain the following records in a readily accessible location for at least five years and shall make copies of the records available to the Department upon verbal or written request:
30.6 Compliance provisions. Compliance with 30.3.2.3 of this regulation shall be determined by:
11/29/1994
31.1 Applicability
31.1.2 The provisions of 31.0 of this regulation do not apply to any petroleum liquid storage tank that:
31.3 Standards. No owner or operator of a petroleum liquid storage tank subject to 31.0 of this regulation shall store petroleum liquid in that tank unless:
31.3.1 The tank is equipped with one of the following:
31.3.3 All openings, except stub drains, are equipped with covers, lids, or seals such that:
31.4 Inspections. The owner or operator of a petroleum liquid storage tank with a fixed roof subject to 31.0 of this regulation shall:
31.4.1 For tanks equipped with a single seal system:
31.4.2 For tanks equipped with a double seal system:
31.5 Recordkeeping
31.5.1 The owner or operator of a petroleum liquid storage tank with a fixed roof subject to 31.0 of this regulation shall maintain the following records in a readily accessible location for at least five years and shall make copies of the records available to the Department upon verbal or written request:
31.5.2 The owner or operator of a petroleum liquid storage tank with a fixed roof exempted from 31.1.2 of this regulation, but containing a petroleum liquid with a true vapor pressure greater than 7.0 kPa (1.0 psia), shall maintain the following records in a readily accessible location for at least five years and shall make copies of the records available to the Department upon verbal or written request:
11/29/1994
32.1 Applicability
32.1.2 The provisions of 32.0 of this regulation do not apply to:
32.1.3 The equipment inspection requirements in 32.4 of this regulation do not apply to:
32.2 Definitions. As used in 32.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“Equipment” means each pump, compressor, pressure relief device, sampling connection system, open-ended valve or line, valve, and flange or other connector in VOC service or in wet gas service and any devices or systems required by 32.0 of this regulation.
“Field gas” means feedstock gas entering the natural gas processing plant.
“[In] gas/vapor service” means that the piece of equipment in VOC service contains process fluid that is in the gaseous state at operating conditions.
“[In] heavy liquid service” means that the piece of equipment in VOC service is not in gas/vapor service or not in light liquid service.
“[In] light liquid service” means that the piece of equipment in VOC service either (1) contains a liquid that meets all of the conditions in definition A or (2) meets the condition specified in definition B:
Definition A--(1) the vapor pressure of one or more of the components is greater than 0.3 kiloPascal (kPa) (0.044 inch of mercury [in. Hg]) at 20°C (68°F). Standard reference tests or ASTM D-2879 shall be used to determine the vapor pressures; (2) the total concentration of the pure components having a vapor pressure greater than 0.3 kPa (0.044 in. Hg) at 20°C (68°F) is equal to or greater than 20% by weight; and (3) the fluid is a liquid at operating conditions.
Definition B--Equipment is "in light liquid service" if the weight percent evaporated is greater than 10% at 150°C as determined by ASTM D86.
“Liquids dripping” means any visible leakage from a seal including spraying, misting, clouding, and ice formation.
“Natural gas liquids” means the hydrocarbons, such as ethane, propane, butane, and pentane, that are extracted from field gas.
“Natural gas processing plant” (gas plant) means any processing site engaged in the extraction of natural gas liquids from field gas, fractionation of mixed natural gas liquids to natural gas products, or both.
“Nonfractionating plant” means any gas plant that does not fractionate mixed natural gas liquids into natural gas products.
“Onshore” means all facilities except those that are located in the territorial seas or on the outer continental shelf.
“Process unit” means equipment assembled for the extraction of natural gas liquids from field gas, the fractionation of the liquids into natural gas products, or other operations associated with processing natural gas products. A process unit can operate independently if supplied with sufficient feed or raw materials and sufficient storage facilities for the products.
“Reciprocating compressor” means a piece of equipment that increases the pressure of a process gas by positive displacement, employing linear movement of the driveshaft.
“[In] vacuum service” means that the equipment in VOC service is operating at an internal pressure that is at least five kPa (0.73 in. Hg) below ambient pressure.
“[In] VOC service” means that the piece of equipment contains or contacts a process fluid that is at least 1% VOC by weight. The provisions of 32.9.2 of this regulation specify how to determine that a piece of equipment is not in VOC service.
“[In] wet gas service” means that a piece of equipment contains or contacts the field gas before the extraction step in the process.
32.3 Standards: General. The owner or operator of a natural gas/gasoline processing facility subject to 32.0 of this regulation shall ensure that:
32.4 Standards: Equipment inspection program. The owner or operator of a natural gas/gasoline processing facility subject to 32.0 of this regulation shall conduct the equipment inspection program described in 32.4.1 through 32.4.3 of this regulation using the test methods specified inAppendix F of this regulation.
32.4.1 The owner or operator of a natural gas/gasoline processing facility subject to 32.0 of this regulation shall conduct quarterly monitoring of each:
32.4.4
32.4.5
32.5 Standards: Alternative standards for valves Skip period leak detection and repair.
32.6 Standards: Alternative standards for valves that are unsafe or difficult to monitor.
32.6.1 Any valve that is designated, as described in 32.10.5.1 of this regulation, as an unsafe-to-monitor valve is exempt from the requirements of 32.4 of this regulation if:
32.6.2 Any valve that is designated, as described in 32.10.5.1 of this regulation, as a difficult-to-monitor valve is exempt from the requirements of 32.4 of this regulation if:
32.7 Standards: Equipment repair program. The owner or operator of a natural gas/gasoline processing facility shall:
32.8 Standards: Delay of repair
32.9 Test methods and procedures
32.9.2 The owner or operator shall test each piece of equipment unless it is demonstrated that a process unit is not in VOC service, i.e., that the VOC content would never be reasonably expected to exceed 1% by weight. For purposes of this demonstration, the following methods and procedures shall be used:
32.9.3 The owner or operator shall demonstrate that a piece of equipment is in light liquid service by showing that all of the following conditions apply:
32.10 Recordkeeping
32.10.3 When each leak is detected as specified in 32.4 of this regulation, the following information shall be recorded in a log and shall be kept for five years in a readily accessible location:
32.10.5 The following information pertaining to all valves subject to the requirements of 32.6 of this regulation shall be recorded in a log that is kept for five years in a readily accessible location:
32.10.6 The following information pertaining to all valves complying with 32.5 of this regulation shall be recorded in a log that is kept for five years in a readily accessible location:
32.10.7 The following information shall be recorded in a log that is kept for five years in a readily accessible location for use in determining exemptions as provided in 32.1 of this regulation:
08/11/2021
33.1 Applicability
33.1.1 The applicable provisions of Section 33.0 apply to any person who owns or operates a solvent cleaning machine that meets the following criteria:
33.2 Definitions. As used in Section 33.0, all terms not defined herein shall have the meaning given them in Section 2.0, in7 DE Admin. Code 1101, in 7 Del.C. Ch. 60, or in the November 15, 1990 Clean Air Act Amendments.
“Airless cleaning system” means a solvent cleaning machine that is automatically operated and seals at a differential pressure of 0.50 pounds per square inch gauge (psig) or less, prior to the introduction of solvent or solvent vapor into the cleaning chamber and maintains differential pressure under vacuum during all cleaning and drying cycles.
“Airtight cleaning system” means a solvent cleaning machine that is automatically operated and seals at a differential pressure of 0.50 pounds per square inch gauge (psig) or less, prior to the introduction of solvent or solvent vapor into the cleaning chamber and during all cleaning and drying cycles.
“Automated parts handling system” means a mechanical device that carries all parts and parts baskets at a controlled speed from the initial loading of soiled or wet parts through the removal of the cleaned or dried parts. Automated parts handling systems include, but are not limited to, hoists and conveyors.
“Batch cold cleaning machine” means a batch operated cleaning machine that is designed to contain a liquid solvent or cleaning solution, has a solvent/air interface, and is always operated at a temperature below the boiling point of the cleaning solution. Batch cold cleaning machine includes batch-loaded and immersion cold cleaning machines, remote reservoir cold cleaning machines (also known as sink-on-a-drum) and various types of spray booths, flush booths or wash stations.
“Batch vapor cleaning machine” means a vapor solvent cleaning machine in which individual parts or a set of parts move through the entire cleaning or drying cycle before new parts are introduced into the cleaning machine. The term does not include machines that do not have a solvent/air interface, such as airless cleaning systems and airtight cleaning systems.
“Carbon adsorber” means a bed of activated carbon into which an air/solvent gas-vapor stream is routed and which adsorbs the solvent on the carbon.
“Cold cleaning machine” means a solvent cleaning machine that contains or uses a non-boiling liquid solvent into which parts are placed to remove soils from the surfaces of the parts or to dry the parts. The term does not include machines that do not have a solvent/air interface, such as airless cleaning systems and airtight cleaning systems.
“Downtime mode” means the time period when a solvent cleaning machine is not cleaning or drying parts and the sump heating coils, if present, are turned off.
“Dwell” means the technique of holding parts within the freeboard area but above the vapor zone of a solvent cleaning machine. Dwell occurs after cleaning or drying to allow solvent to drain from the parts or parts baskets back into the solvent cleaning machine.
“Dwell time” means the period of time between when parts or a parts basket is placed in the vapor zone of a batch vapor or in-line vapor cleaning machine and when solvent dripping ceases.
“Freeboard height” means, for a batch cold cleaning machine, the distance from the liquid solvent level to the lip of the solvent cleaning machine. For a batch vapor cleaning machine, it is the distance from the solvent/air interface to the lip of the solvent cleaning machine, as measured during idling mode. For an in-line cleaning machine, it is the distance from the solvent/air interface to the bottom of the entrance or exit opening, whichever is lower, as measured during idling mode.
“Freeboard ratio” means the ratio of the solvent cleaning machine freeboard height to the smaller interior dimension (length, width, or diameter) of the solvent cleaning machine.
“Freeboard refrigeration device” means a set of secondary coils mounted in the freeboard area of a solvent cleaning machine that carries a refrigerant or other chilled substance to provide a chilled air blanket above the solvent vapor. A primary condenser which is capable of maintaining a temperature in the center of the chilled air blanket at not more than 30 percent of the solvent boiling point is both a primary condenser and a freeboard refrigeration device.
“Idling mode” means the time period when a solvent cleaning machine is turned on but is not actively processing parts.
“In-line cold cleaning machine” means a cold cleaning machine that uses an automated parts handling system, typically a conveyor, to automatically provide a continuous supply of parts to be cleaned or dried. These units are fully enclosed except for the conveyor inlet and exit portals.
“In-line vapor cleaning machine” means a vapor solvent cleaning machine that uses an automated parts handling system, typically a conveyor, to automatically provide a continuous supply of parts to be cleaned or dried. These units are fully enclosed except for the conveyor inlet and exit portals.
“Lip exhaust” means a system which collects solvent vapors escaping from the top of a solvent cleaning machine and directs them away from operating personnel.
“Primary condenser” means a series of circumferential cooling coils on a vapor cleaning machine through which a chilled substance is circulated or recirculated to provide continuous condensation of rising solvent vapors and, thereby, creating a concentrated solvent vapor zone.
“Reduced room draft” means decreasing the flow or movement of air across the top of the freeboard area of a solvent cleaning machine to less than 15.2 meters per minute (50 feet per minute) by methods including, but not limited to, redirecting fans or air vents to not blow across the cleaning machine, moving the cleaning machine to a corner where there is less room draft, and constructing a partial or complete enclosure around the cleaning machine.
“Remote reservoir cold cleaning machine” means a solvent cleaning machine in which liquid solvent is pumped to a sink-like work area that immediately drains solvent back into an enclosed container while parts are being cleaned or dried, allowing no solvent to pool in the work area. A remote reservoir cold cleaning machine is also termed a sink-on-a-drum. A remote reservoir cold cleaning machine that uses an enclosed container for dipping or soaking parts is considered to be a batch-loaded, or immersion cold cleaning machine.
“Soils” means contaminants that are removed from the parts, products, tools and machinery being cleaned. Soils include, but are not limited to, grease, oils, waxes, metal chips, carbon deposits, fluxes, and tars.
“Solvent” means any liquid containing volatile organic compounds (VOC) which is used to perform solvent cleaning or drying.
“Solvent/air interface” means, for a vapor cleaning machine, the location of contact between the concentrated solvent vapor layer and the air. This location of contact is defined as the mid-line height of the primary condenser coils. For a cold cleaning machine, it is the location of contact between the liquid solvent and the air.
“Solvent cleaning machine” means any device or piece of equipment that uses volatile organic compounds, liquid or vapor, to remove soils from parts or to dry parts. Types of solvent cleaning machines include, but are not limited to, batch vapor, in-line vapor, in-line cold, immersion cold, and remote reservoir cold cleaning machines, as well as, airless cleaning systems and airtight cleaning systems.
“Superheated vapor system” means a system that heats the solvent vapor, either passively or actively, to a temperature 10oF above the solvent’s boiling point. Parts are held in the superheated vapor before exiting the machine to evaporate the liquid solvent on the parts. Hot vapor recycle is an example of a superheated vapor system.
“Vapor cleaning machine” means a batch or in-line solvent cleaning machine that heats liquid solvent that is used as part of the cleaning or drying cycle. The heated solvent may or may not be boiling. The term does not include machines that do not have a solvent/air interface, such as airless cleaning systems and airtight cleaning systems.
“Vapor up control switch” means a thermostatically controlled switch that shuts off or prevents solvent from being sprayed when there is no vapor. On in-line vapor cleaning machines the switch also prevents the conveyor from operating when there is no vapor.
“Working mode” means the time period when the solvent cleaning machine is actively cleaning or drying parts.
“Working mode cover” means any cover or solvent cleaning machine design that allows the cover to shield the cleaning machine openings from outside air disturbances while parts are being cleaned or dried in the cleaning machine. A cover that is used during the working mode is opened only during parts entry and removal.
33.3 Standards for batch cold cleaning machines. The provisions of subsection 33.3 apply to all batch cold cleaning machines. The provisions of subsection 33.3 shall not apply if the owner or operator of the cold cleaning machine demonstrates and the Department approves in writing that compliance with subsection 33.3 will result in unsafe operating conditions.
33.3.2 Immersion cold cleaning machines and remote reservoir cold cleaning machines shall:
33.3.3 Batch cold cleaning machines shall be operated in accordance with the following procedures:
33.3.5 For up to twelve months after August 11, 2021, a person who sells or offers for sale any solvent containing volatile organic compounds for use in a cold cleaning machine shall provide, to the purchaser, the following written information:
33.3.7 Beginning on August 11, 2022, the following VOC requirements for cold cleaning machines shall apply.
33.4 Standards for batch vapor cleaning machines. The provisions of subsection 33.4 apply to batch vapor cleaning machines.
33.4.1 Batch vapor cleaning machines shall be equipped with:
33.4.2 In addition to the requirements of subsection 33.4.1, the owner or operator of a batch vapor cleaning machine with a solvent/air interface area of 13 square feet or less shall implement one of the following control options:
33.4.3 In addition to the requirements of subsection 33.4.1, the owner or operator of a batch vapor cleaning machine with a solvent/air interface area of greater than 13 square feet shall implement one of the following control options:
33.4.4 Batch vapor cleaning machines shall be operated in accordance with the following procedures:
33.5 Standards for in-line cleaning machines. The provisions of subsection 33.5 apply to in-line cold and in-line vapor cleaning machines.
33.5.1 In-line cleaning machines shall be equipped with:
33.5.2 In addition to the requirements of subsection 33.5.1, the owner or operator of an in-line cleaning machine shall implement one of the following control options:
33.5.3 In-line cleaning machines shall be operated in accordance with the following procedures:
33.5.4 VOC requirements for in-line cleaning machines.
33.6 Standards for cleaning machines not having a solvent/air interface. The provisions of subsection 33.6 apply to cleaning machines that do not have a solvent/air interface. These cleaning machines include, but are not limited to, airless cleaning systems and airtight cleaning systems.
33.6.2 The owner or operator of each machine shall demonstrate that the emissions from each machine, on a three-month rolling average, are equal to or less than the allowable emission limit determined using Equation 33-1.

(33-1)
where:
EL = the three-month rolling average monthly emission limit (kilograms/month).
Vol = the cleaning capacity of machine (cubic meters).
33.6.7 Cleaning machines not having a solvent/air interface shall be operated in accordance with the following procedures:
33.6.8 The owner or operator of a solvent cleaning machine complying with subsection 33.6 shall maintain records and determine compliance with the applicable provisions in accordance with the following:
33.6.8.2 Using the records of all solvent additions and deletions for the previous monthly reporting period, determine total solvent emissions, E, using Equation 33-2:

(33-2)
where:
E = the total VOC solvent emissions from the solvent cleaning machine during the most recent monthly reporting period (kilograms of solvent per month).
SA = the total amount of VOC liquid solvent added to the solvent cleaning machine during the most recent monthly reporting period (kilograms of solvent per month).
LSR = the total amount of VOC liquid solvent removed from the solvent cleaning machine during the most recent monthly reporting period (kilograms of solvent per month).
SSR = the total amount of VOC solvent removed from the solvent cleaning machine in solid waste during the most recent monthly reporting period (kilograms of solvent per month), as determined from tests conducted using Method 25D inAppendix Aof 40 CFR part 60, dated July 1, 2019 and hereby incorporated by reference or by engineering calculations included in the compliance report.
33.6.8.3 Determine the monthly rolling average solvent emission, EA, using Equation 33-3:

(33-3)
where:
EA = the average VOC solvent emissions over the preceding three monthly reporting periods (kilograms of solvent per month).
E = the total VOC solvent emissions for each month (j) for the most recent three monthly reporting periods (kilograms of solvent per month).
j = 1 = the most recent monthly reporting period.
j = 2 = the monthly reporting period immediately prior to j = 1.
j = 3 = the monthly reporting period immediately prior to j = 2.
33.7 Alternative standard. As an alternative to meeting the requirements of subsection 33.4 or subsection 33.5, the owner or operator of a batch vapor or vapor in-line cleaning machine can elect to comply with the requirements of subsection 33.7.1 through subsection 33.7.4. The owner or operator shall maintain records sufficient to demonstrate compliance. The records shall include, at a minimum, the quantity of solvent added to and removed from the solvent cleaning machine, the dates of the addition and removal, and the calculations of the monthly rolling three-month average emission limit.
33.7.1 The owner or operator shall:
33.7.1.2 Ensure that emissions from each solvent cleaning machine are equal to or less than the allowable emission limit presented in Table 33-1.
Table 33-1 - Emission Limits for Batch Vapor and In-line Cleaning Machines
| Solvent cleaning machine | Three-Month rolling average monthly emission limit (kilograms/square meters/month) |
| Batch vapor cleaning machines | 150 |
| Existing in-line cleaning machines | 153 |
| New in-line cleaning machines | 99 |
33.7.2 In addition to the requirements of subsection 33.7.1, the owner or operator of a cleaning machine shall comply with the following:
33.7.4 The owner or operator of a solvent cleaning machine complying with subsection 33.7 shall maintain records and determine compliance with the applicable provisions in accordance with the following:
33.7.4.2 Using the records of all solvent additions and deletions for the previous monthly reporting period, determine total solvent emissions, E, using Equation 33-4:

(33-4)
where:
E = the total VOC solvent emissions from the solvent cleaning machine during the most recent monthly reporting period (kilograms of solvent per square meter of solvent/air interface area per month).
SA = the total amount of VOC liquid solvent added to the solvent cleaning machine during the most recent monthly reporting period (kilograms of solvent per month).
LSR = the total amount of VOC liquid solvent removed from the solvent cleaning machine during the most recent monthly reporting period (kilograms of solvent per month).
SSR = the total amount of VOC solvent removed from the solvent cleaning machine in solid waste during the most recent monthly reporting period (kilograms of solvent per month), as determined from tests conducted using Method 25D inAppendix A of 40 CFR part 60, dated July 1, 2019 and hereby incorporated by reference or by engineering calculations included in the compliance report.
AREA = the solvent/air interface area of the solvent cleaning machine (square meters).
33.7.4.3 Determine the monthly rolling average solvent emission, EA, using Equation 33-5:

(33-5)
where:
EA = the average VOC solvent emissions over the preceding three monthly reporting periods (kilograms of solvent per square meter of solvent/air interface area per month).
E = the total VOC solvent emissions for each month (j) for the most recent three monthly reporting periods (kilograms of solvent per square meter of solvent/air interface area per month).
j = 1 = the most recent monthly reporting period.
j = 2 = the monthly reporting period immediately prior to j = 1.
j = 3 = the monthly reporting period immediately prior to j = 2.
33.8 Monitoring. The owner or operator of a solvent cleaning machine subject to the provisions of subsections 33.3 through 33.7 shall conduct monitoring as follows.
33.8.6 If reduced room draft is used to comply with Section 33.0, the owner or operator shall determine the average wind speed and controlling room parameters (i.e., redirecting fans, closing doors and windows, etc.) as follows.
33.8.6.1 Initially measure the wind speed within six inches above the top of the freeboard area of the solvent cleaning machine in accordance with the following:
33.9 Recordkeeping. The owner or operator of a solvent cleaning machine subject to Section 33.0 shall maintain the following records in a readily accessible location for at least five years and shall make these records available to the Department, upon verbal or written request:
33.10 Reporting. The owner of operator of a solvent cleaning machine subject to Section 33.0 shall:
33.10.3 Beginning on August 11, 2022, obtain from any person from whom they purchase or obtain any solvent containing VOC for use in a cold cleaning machine, a document specifying the following accurate information specific to all purchased or obtained product:
33.11 Test Methods
01/11/1993
34.2 Definitions. As used in 34.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“Asphalt” means a dark-brown to black cementitious material (solid, semisolid, or liquid in consistency) of which the main constituents are bitumens that occur naturally or are a residue of petroleum refining.
“Cutback asphalt” means asphalt cement that has been liquefied by blending with petroleum solvents (diluents). Upon exposure to atmospheric conditions, the diluents evaporate, leaving the asphalt cement to perform its function.
“Emulsified asphalt” means an emulsion of asphalt cement and water that contains a small amount of an emulsifying agent; it is a heterogeneous system containing two normally immiscible phases (asphalt and water) in which the water forms the continuous phase of the emulsion, and minute globules of asphalt form the discontinuous phase.
“Penetrating prime coat” means an application of low-viscosity liquid asphalt to an absorbent surface. It is used to prepare an untreated base for an asphalt surface. The prime coat penetrates the base, plugs the voids, and hardens and helps bind the top to the overlying asphalt course. The penetrating prime coat also reduces the necessity of maintaining an untreated base course prior to placing the asphalt pavement.
34.3 Standards
34.3.2 The Department may approve, as part of a State Implementation Plan (SIP) revision, the manufacture, mixing, storage, use, or application of cutback asphalts where either:
11/29/1994
35.1 Applicability. The provisions of 35.0 of this regulation apply to the following sources of volatile organic compounds (VOCs) at all synthesized pharmaceutical manufacturing facilities:
35.2 Definitions. As used in 35.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“Production equipment exhaust system” means a device for collecting and directing out of the work area VOC fugitive emissions from reactor openings, centrifuge openings, and other vessel openings to protect workers from excessive VOC exposure.
“Reactor” means a vat or vessel, which may be jacketed to permit temperature control, designed to contain chemical reactions.
“Separation operation” means a process that separates a mixture of compounds and solvents into two or more components. Specific mechanisms include extraction, centrifugation, filtration, and crystallization.
“Synthesized pharmaceutical manufacturing” means manufacture of pharmaceutical products and intermediates by chemical synthesis. The production and recovery of materials produced via fermentation, extraction of organic chemicals from vegetative materials or animal tissues, and formulation and packaging of the product are not considered synthesized pharmaceutical manufacturing.
35.3 Standards
35.3.1 Reactors, distillation operations, crystallizers, centrifuges, and vacuum dryers. The owner or operator of a synthesized pharmaceutical manufacturing facility subject to 35.0 of this regulation shall control the VOC emissions from all vents from reactors, distillation operations, crystallizers, centrifuges, and vacuum dryers at the facility that emit 6.8 kilograms per day (kg/day) (15 pounds per day [lb/day]) or more of VOC as determined by the procedure in "Control of Volatile Organic Emissions from Manufacture of Synthesized Pharmaceutical Products,"Appendix B, EPA-450/2-78-029, December 1978. Surface condensers or equivalent controls shall be used, provided that:
35.3.1.1 If surface condensers are used, the condenser outlet gas temperature shall not exceed the allowable temperature limit described for each associated vapor pressure in the following table:
| Allowable condenser outlet gas temperature, °C (°F) | VOC vapor pressure at 20°C kPa (psi) | |
| -25 (-13) -15 (5) 0 (32) 10 (50) 25 (77) | >40.01 >20.0 >10.0 >7.0 >3.5 | (5.8) (2.9) (1.5) (1.0) (0.5) |
35.3.2 Air dryers and production equipment exhaust systems. The owner or operator of a synthesized pharmaceutical manufacturing facility subject to 35.0 of this regulation shall reduce the VOC emissions from all air dryers and production equipment exhaust systems either:
35.3.3 Storage tanks. The owner or operator of a synthesized pharmaceutical manufacturing facility subject to 35.0 of this regulation shall reduce the VOC emissions from storage tanks by:
35.5 Monitoring for air pollution control equipment.
35.5.1 At a minimum, continuous monitors for the following parameters shall be installed on air pollution control equipment used to control sources subject to 35.0 of this regulation:
35.6 Recordkeeping.
35.6.1 The owner or operator of a pharmaceutical manufacturing facility subject to 35.0 of this regulation shall maintain the following records:
35.6.2 For any leak subject to 35.3.6 of this regulation, which cannot be readily repaired within one hour after detection, the following records shall be kept:
04/11/2021
36.1 Applicability
36.1.1 The provisions of Section 36.0 apply to any gasoline dispensing facility (GDF) located in the State of Delaware, except:
36.1.4 Compliance Schedule. Any gasoline dispensing facility subject to the requirements of Section 36.0 shall be in compliance as follows:
36.1.4.1 Decommission of Stage II vapor recovery system
36.1.4.2 Installation of Stage I enhanced vapor recovery (EVR) system
36.2 Definitions
36.2.1 Terms being defined in subsection 36.2 are used exclusively for Section 36.0. Other terms not defined herein shall have meanings defined in the Clean Air Act Amendments of 1990 (CAA), or7 DE Admin. Code 1101, or Section 2.0 of 7 DE Admin. Code 1124.
“Assist System” means a system that creates a vacuum to assist the movement of vapors back into the storage tank.
“Balance System” means a system where pressure develops in the vehicle tank during fueling operations, and vacuum in the storage tank created when the fuel is removed, forces displaced vapors out the vehicle tank.
“Day” means a calendar day. However, when used to determine when a required document is due and the day falls on a weekend or holiday, the document may be submitted on the first working Day after the weekend or holiday.
“Monthly” means, when describing a compliance requirement, every 30 days or at least once each calendar month.
“Monthly Throughput” means the total volume of gasoline dispensed from all the gasoline storage tanks located at a single affected GDF in a calendar month.
“Pressure/Vacuum Valve” or “P/V Valve” means a relief valve installed on the vent stack of a tank system that is designed to open at specific pressure and vacuum settings to protect the system from excessive pressure or vacuum.
“Tank System” means a storage tank or a set of manifolded storage tankscontaining gasoline at a gas dispensing facility.
“Ullage” means the empty volume of a gasoline storage tank system that contains liquid gasoline. Ullage is expressed as accumulated gallons of empty volume for all of the gasoline storage tanks in a manifolded system.
36.3 Standards for Facilities with Stage II Vapor Recovery Systems
36.3.1 The owner or operator of any gasoline dispensing facility that operates a Stage II vapor recovery system shall meet the following requirements:
36.3.1.4 To conspicuously post "Operating Instructions" on both sides of each gasoline dispenser. Such instructions shall include:
36.3.2 At least one representative (an owner, facility manager, or designated employee) from each facility, or facilities under common ownership, shall attend a training program on the operation and maintenance requirements of the Stage II equipment that is installed on their facility premises. Acceptable forms of training include equipment manufacturer's seminars, classes or workshops, or any other training approved by the Department.
36.3.2.3 Training shall include, but not be limited to, the following subjects:
36.3.3 Each day personnel trained pursuant to subsection 36.3.2 shall perform routine maintenance inspections and record the inspection results.
36.3.3.1 Such inspections shall consist of inspection of the Stage II system for the following defects:
36.3.4 Testing requirements. Any gasoline dispensing facility subject to subsection 36.3 shall perform the following tests annually (every 12 calendar months) for its Stage II vapor recovery system, or as otherwise approved by the Department and US Environmental Protection Agency (EPA).
36.4 Standards for Facilities with Stage I Vapor Recovery Systems
36.4.1 The owner or operator of any gasoline dispensing facility identified in subsection 36.1.4.2 shall design, install, operate, and maintain one of the Stage I enhanced vapor recovery (EVR) systems identified in California Air Resource Board (CARB) Executive Orders (EOs) as listed in subsection 36.10.2. All Stage I EVR systems shall be designed, installed, maintained and repaired by a contractor that is trained and certified by the Stage I EVR system manufacturer of the selected system. In addition, the Stage I EVR systems shall be maintained and tested in accordance with CARB Executive Orders VR-101-T, VR-102-U, VR-104-K, VR-105-I, VR-401-F, and VR-402-E, hereby incorporated by reference as specified in subsection 36.11.3.
36.4.1.1 For a Underground Storage Tank (UST) system, the following components of the Stage I EVR system shall be routinely tested: rotatable phase I vapor adaptors, overfill prevention device, spill container drain valve, and P/V valve. Specifically:
36.4.1.2 For an Aboveground Storage Tank (AST) system, the following components of the Stage I EVR system shall be routinely tested: rotatable phase I vapor adaptors (if existing), phase I adaptors, emergency vents, drain valve, dedicated gauging port with drop tube and tank gauge components. Specifically:
36.4.2 The following tests shall be performed within 10 days after installation of the Stage I EVR system:
36.4.6 Any facility subject to subsection 36.4 shall meet the following posting and maintenance inspection requirements.
36.4.6.1 Posting. Conspicuously post "Operating Instructions" on both sides of each gasoline dispenser. Such instructions shall include:
36.4.6.2 Inspection. Personnel shall perform daily routine maintenance inspections and record the inspection results following the recordkeeping requirements in subsection 36.7.1. Such inspections shall consist of, but not limited to, inspection of the dispensing systems for the following defects:
36.5 Requirements for Stage I Facilities with Continuous Pressure Monitoring Systems
36.5.5 Performance standards for the CPM system
36.5.6 CPM system warnings and correction requirements for tank leaks
36.5.6.2 Within 21 days after the initial warning, the owner or operator shall:
36.6 Requirements for Stage I Facilities without Continuous Pressure Monitoring Systems
36.6.1 The owner or operator of a gasoline dispensing facility identified in subsection 36.1.4.2 shall conduct monthly an inspection for the Stage I EVR system, which includes the following:
36.6.2 Testing requirements. The owner or operator of a gasoline dispensing facility subject to subsection 36.6 shall conduct annually (every 12 calendar months) a pressure decay test as specified in subsection 36.4.2.1 and a P/V valve test as specified in subsection 36.4.2.3, without any corrective action taken before or during the test on the day of the test; and
36.7 Recordkeeping and Reporting
36.7.1 The owner or operator of a gasoline dispensing facility subject to the requirements of Section 36.0 shall keep on the facility premises and in a form acceptable to the Department, all of the following information. This information shall be retained for at least five (5) years, unless otherwise specified by the Department, from the date of record and shall be made immediately available to the Department upon request.
36.7.1.5 For facilities with a CPM system specified in subsection 36.5, the CPM system shall generate a daily report which includes the following:
36.7.1.6 For facilities with a CPM system specified in subsection 36.5, the CPM system shall generate a monthly report which includes the following:
36.7.1.7 Compliance Records. A file shall be maintained of all compliance records. This record shall include:
36.8 Compliance Testing Company Requirements
36.8.1 Any owner or operator, or both, of any company that performs compliance testing pursuant to applicable subsections 36.3, 36.4, 36.5, 36.6 and 36.9 within the State of Delaware shall submit all of the following information to the Department to become qualified to perform any compliance testing within the State of Delaware:
36.8.1.4 Certification by an individual who is a responsible and trained representative of the compliance testing company shall contain the following language:
36.8.4 Any person subject to subsection 36.8 shall certify to the owner or operator of the gasoline dispensing facility that each compliance test performed to meet the applicable requirements of subsections 36.3, 36.4, 36.5 and 36.6 was performed in accordance with subsections 36.3, 36.4, 36.5 and 36.6. Certification shall include:
36.8.4.4 Certification by a responsible and trained representative or representatives of the compliance testing company containing the following language verbatim:
36.9 Stage II Decommissioning Requirements
36.10 Approved Systems
36.10.1 Stage II Vapor Recovery Systems.
| Executive Order Number & Date | Description |
| G-70-7-AD (03/22/93) | Certification of the Hasstech Model VCP-2 and VCP 2A Phase II Vapor Recovery System. |
| G-70-14-AA (02/08/83) | Recertification of Red Jacket Aspirator Assist Phase II Vapor Recovery System. |
| G-70-17-AD (05/06/93) | Modification of Certification of the Emco Wheaton Balance Phase II Vapor Recovery System. |
| G-70-18-C (08/28/79) | Modification of Certification of the Shell Model 75B1 and 75B1-R3 Service Station Phase II Vapor Recovery System. |
| G-70-23-AC (04/29/96) | Recertification of the Exxon Balance Phase II Vapor Recovery System. |
| G-70-25-AA (02/08/83) | Recertification of the Atlantic Richfield Balance Phase II Vapor Recovery System. |
| G-70-33-AB (03/09/84) | Certification of the Modified Hirt VCS-200 Vacuum Assist Phase II Vapor Recovery System. |
| G-70-36-AD (09/18/92) | Modification of Certification of the OPW Balance Phase II Vapor Recovery System. |
| G-70-37-B (01/22/80) | Modification of the Certification of the Chevron Balance Phase II Vapor Recovery System with OPW nozzles for Service. |
| G-70-38-AB (12/19/90) | Recertification of the Texaco Balance Phase II Vapor Recovery System. |
| G-70-48-AA (02/08/83) | Recertification of the Mobil Oil Balance Phase II Vapor Recovery System. |
| G-70-49-AA (02/08/83) | Recertification of the Union Balance Phase II Vapor Recovery System. |
| G-70-52-AM (10/04/91) | Certification of Components for Red Jacket, Hirt and Balance Phase II Vapor Recovery System. |
| G-70-53-AA (02/08/83) | Recertification of the Chevron Balance Phase II Vapor Recovery System. |
| G-70-70-AC (06/23/92) | Certification of the Healy Phase II Vapor Recovery System of Service Stations. |
| G-70-77 (09/15/82) | Certification of the OPW Repair/Replacement Parts and Modification of the Certification of the OPW Balance Phase II Vapor Recovery System. |
| G-70-78 (05/20/83) | Certification of the E-Z Flo Nozzle Company Rebuilt Vapor Recovery Nozzles and Vapor Recovery Components. |
| G-70-101-B (11/15/85) | Certification of the E-Z Flo Model 3006 and 3007 Vapor Recovery Nozzles and Use of E-Z Flo Components with OPW Models 11 VC and 11 VE Vapor Recovery Nozzles. |
| G-70-107 (05/15/86) | Certification of Rainbow Petroleum Products Model RA3003, RA3005, RA3006 and RA3007 Vapor Recovery Nozzles and Vapor Recovery Components. |
| G-70-110 (01/20/87) | Certification of Stage I and II Vapor Recovery Systems for Methanol Fueling Facilities. |
| G-70-118-AB (03/31/95) | Certification of Amoco V-1 Vapor Recovery System. |
| G-70-125-AA (03/16/93) | Modification of the Certification of the Husky Model V Phase II Balance Vapor Recovery Nozzle. |
| G-70-127 (08/16/90) | Certification of the OPW Model 111-V Phase Vapor Recovery Nozzle. |
| G-70-134 (12/21/90) | Certification of the EZ Flo Rebuilt A-4000 Series and 11V-Series Vapor Recovery System. |
| G-70-139 (03/17/92) | Addition to the Certification of the Hirt Model VCS-200 Phase II Vapor Recovery System. |
| G-70-150-AE (07/12/00) | Modification of the Certification of the Gilbarco Vapor Vac Phase II Vapor Recovery System. |
| G-70-153-AD (04/03/00) | Modification to the Certification of the Dresser/Wayne WayneVac Phase II Vapor Recovery System. |
| G-70-154-AA (06/10/97) | Modification to the Certification of the Tokheim MaxVac Phase II Vapor Recovery System. |
| G-70-159-AB (07/17/95) | Modification of the Certification of the Saber Nozzle for Use with the Gilbarco VaporVac Phase II Vapor Recovery System. |
| G-70-163-AA (09/04/96) | Certification of the OPW VaporEZ Phase II Vapor Recovery System. |
| G-70-164-AA (12/10/96) | Modification to the Certification of the Hasstech VCP-3A Vacuum Assist Phase II Vapor Recovery System. |
| G-70-165 (04/20/95) | Healy Vacuum Assist Phase II Vapor Recovery System. |
| G-70-169-AA (08/11/97) | Modification to the Certification of the Franklin Electric INTELLIVAC Phase II Vapor Recovery System. |
| G-70-170 (02/22/96) | Certification of the EZ-flo Rebuilt 5005 and 5015 for use with the Balance Phase II Vapor Recovery System. |
| G-70-177-AA (06/22/00) | Certification of the VCS400-7 Vacuum Assist Phase II Vapor Recovery System. |
| G-70-179 (07/02/97) | Certification of the Catlow ICVN-V1 Vacuum Assist Phase II Vapor Recovery System. |
| G-70-180 (04/17/97) | Order Revoking Certification of the Healy Phase II Vapor Recovery Systems for Gasoline Dispensing Systems. |
| G-70-183 (03/04/98) | Certification of the Healy/Franklin Vacuum Assist Phase II Vapor Recovery System. |
| G-70-186 (10/26/98) | Certification of the Healy Model 400 ORVR Vapor Recovery System. |
| G-70-188 (05/18/99) | Certification of the Catlow ICVN Vapor Recovery Nozzle System for use with the Gilbarco VaporVac Vapor Recovery System. |
| G-70-191 (08/08/99) | Healy/Franklin VP-1000 Vapor Pump Phase II Vapor Recovery System (Healy ORVR Phase II Vapor Recovery System). |
| G-70-196 (12/30/00) | Certification of the Saber Technologies, LLC SaberVac VR Phase II Vapor Recovery System. |
36.10.2 Stage I Enhanced Vapor Recovery (EVR) Systems
| Executive Order Number | Description | Date |
| VR-101-T | Phil-Tite Phase I Vapor Recovery System | June 3, 2020 |
| VR-102-U | OPW Phase I Vapor Recovery System | June 3, 2020 |
| VR-104-K | CNI Manufacturing Phase I Vapor Recovery System | June 3, 2020 |
| VR-105-I | EMCO Wheaton Retail Phase I Vapor Recovery | June 3, 2020 |
| VR-401-F | OPW Phase I EVR System for ASTs | July 17, 2019 |
| VR-402-E | Morrison Brothers Phase I EVR System for ASTs | July 17, 2019 |
The following lists of California Air Resources Board (CARB) executive orders (EOs) are hereby adopted by reference. In the lists, the term “Phase I” is equivalent to the term “Stage I,” and the term “Phase II” is equivalent to the term “Stage II,” as used in Section 36.0.
36.11 Referenced Standards
36.11.3 Stage I EVR system maintenance and test requirements. California Air Resources Board. Specifically:
36.11.5 Assist Phase II Enhanced Vapor Recovery (EVR) System including In-Station Diagnostics (ISD), Executive Order VR-202-Z (November 5, 2019). California Air Resources Board. Specifically, the referenced standards include:
03/11/11
37.1 Applicability
37.2 Definitions. As used in 37.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments, or in 2.0 of this regulation.
"Add-on air pollution control device (APCD)" means an emission control device or system that is originally separated from an emission source but can be later added or installed to the emission source to reduce emission from the source.
"Flexible packaging" means any package or part of a package the shape of which can be readily changed. Flexible packaging includes, but is not limited to, bags, pouches, liners, and wraps utilizing paper, plastic, film, aluminum foil, metalized or coated paper or film, or any combination of these materials.
"Flexible packaging printing" means printing, coating and laminating activities being performed on or in-line with a flexible packaging printing press.
“Flexographic printing press” means a printing press that uses a roll printing technique in which the pattern to be applied is raised above the printing roll and the image carrier is made of rubber or other elastomeric materials.
“Packaging rotogravure printing press” means a rotogravure printing press used to print on paper, paper board, metal foil, plastic film, and other substrates that are, in subsequent operations, formed into packaging products and labels, and other nonpublication products.
“Press-Ready Ink” means ink, as applied to a substrate, after all solvents and diluents have been added.
“Printing press” means equipment used to apply words, pictures, or graphic designs to either a continuous substrate or a sheet. A continuous substrate consists of paper, plastic, or other material that is unwound from a roll, passed through coating or ink applicators and any associated drying areas. The press includes all coating and ink applicators and drying areas between unwind and rewind of the continuous substrate. A sheet consists of paper, plastic, or other material that is carried through the process on a moving belt. The press includes all coating and ink applicators and drying operations between the time that the sheet is put on the moving belt until it is taken off.
“Publication rotogravure printing press” means a rotogravure printing press on which the following paper products are printed:
8. Telephone and other directories, including business reference services.
“Roll printing” means the application of words, designs, and pictures to a substrate, usually by means of a series of rolls each with only partial coverage.
“Rotogravure printing press” means any printing press designed to print on a substrate using a gravure cylinder.
37.3 Standards
37.3.1 No owner or operator of a packaging rotogravure or flexographic printing press subject to 37.0 of this regulation shall apply any coating or ink unless the VOC content is equal to or less than one of the following:
37.3.2 No owner or operator of a publication rotogravure printing press subject to 37.0 of this regulation shall apply any coating or ink unless the VOC content is equal to or less than one of the following:
37.4 Daily-weighted average limitations
37.4.2 An owner or operator may comply with the daily-weighted average limitation by grouping coatings or inks used on a printing press into two categories that meet the conditions in 37.4.2.1 and 37.4.2.2 of this regulation. Any use of averaging between the two categories of coating or inks used on a packaging rotogravure press or on a flexographic press requires compliance with the emission standard in 37.3.1.3 of this regulation, as determined by the equation in 37.4.6 of this regulation.
37.4.4 The following equation shall be used to determine if the weighted average VOC content of all coatings and inks, as applied, each day on the subject printing press exceeds the limitation specified in 37.3.1.1 or 37.3.2.1 of this regulation:

(37-1)
where:
VOC(i)(A) = The weighted average VOC content in units of percent VOC by volume of all coatings and inks (excluding water and exempt compounds) used each day.
i = Subscript denoting a specific coating or ink, as applied.
n = The number of different coatings or inks, as applied, each day on a printing press.
Li = The liquid volume of each coating or ink, as applied, used that day in units of liters (L) (gallons [gal]).
Vsi = The volume fraction of solids in each coating or ink, as applied.
VVOCi = The volume fraction of VOC in each coating or ink, as applied.
37.4.5 The following equation shall be used to determine if the weighted average VOC content of all coatings and inks, as applied, each day on the subject printing press exceeds the limitation specified in 37.3.1.2 or 37.3.2.2 of this regulation:

(37-2)
where:
VOC(i)(B) = The weighted average VOC content in units of percent VOC 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 or inks, as applied, each day on each printing press.
Li = The liquid volume of each coating or ink, as applied, in units of L (gal).
VVOCi = The volume fraction of VOC in each coating or ink, as applied.
VVCi = The volume fraction of volatile matter in each coating or ink, as applied.
37.4.6 The following equation shall be used to determine if the weighted average VOC content of all coatings and inks, as applied, each day on the subject printing press exceeds the limitation specified in 37.3.1.3 of this regulation:

(37-3)
where:
VOC(i)(C) = The weighted average VOC content in units of mass of VOC per mass of coating solids.
i = Subscript denoting a specific coating or ink, as applied.
n = The number of different coatings or inks, as applied, each day on a printing press.
Li = The liquid volume of each coating or ink, as applied, used on the day in units of L (gal).
Di = The density of each, as applied, in units of mass of coating or ink per unit volume of
coating or ink.
WVOCi = The weight fraction of VOC in each coating or ink, as applied.
Wsi = The weight fraction of solids in each coating or ink, as applied.
37.5 Control devices
37.5.1 No owner or operator of a packaging rotogravure, publication rotogravure, or flexographic printing press equipped with a control system shall operate the printing press unless the owner or operator meets one of the requirements under 37.5.1.1 and 37.5.1.2 of this regulation.
37.5.1.1 Control device efficiency
37.5.1.2 Overall control efficiency. The printing press is equipped with a capture system and control device that provides:
37.5.1.2.1 For any press not subject to 37.5.1.2.2 of this regulation, an overall emission reduction efficiency of at least:
37.5.1.2.2 For any individual flexible packing printing press with the potential-to-emit before controls greater than 25 tons of VOC per year, an overall emission reduction efficiency specified in 37.5.1.2.1, or specified in 37.5.1.2.2.1 through 37.5.1.2.2.4 below, whichever is higher:
37.5.2 An owner or operator of a packaging rotogravure, publication rotogravure, or flexographic printing press equipped with a control system shall ensure that:
37.7 Recordkeeping and reporting
37.7.1 Requirements for exempt sources. Within six months after March 11, 2011, any owner or operator of a printing press that is exempt from the requirements of 37.0 of this regulation because of the criteria in 37.1 of this regulation shall comply with the following:
37.7.1.1 Initial certification. The owner or operator shall certify to the Department that the facility is exempt under the provisions of 37.1 of this regulation. Such certification shall include:
37.7.1.1.4 Calculations demonstrating that total potential emissions of VOC from all flexographic and rotogravure printing presses at the facility are and will be less than 7.7 tons per year of press-ready ink, before the application of capture systems and control devices. Total potential emissions of VOC for a flexographic or rotogravure printing facility is the sum of potential emissions of VOC from each flexographic and rotogravure printing press at the facility. The following equation shall be used to calculate total potential emissions of VOC per calendar year before the application of capture systems and control devices for each flexographic and rotogravure printing press at the facility:

(37-4)
where:
EP = Total potential emissions of VOC from one flexographic or rotogravure printing press in units of kilograms per year (kg/yr) (pounds per year [lb/yr]).
A = Weight of VOC per volume of solids of the coating or ink with the highest VOC content, as applied, each year on the printing press in units of kilograms VOC per liter (kg VOC/L) (pounds of VOC per gallon [lb VOC/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 press in units of liters per year (L/yr) (gallons per year [gal/yr]). The instrument or method by which the owner or operator accurately measured or calculated the volume of coating and ink solids applied and the amount that can potentially be applied each year on the printing press shall be described in the certification to the Department.
37.7.1.2 Recordkeeping. The owner or operator shall collect and record all of the following information each year for each printing press and maintain the information at the facility for a period of five years:
37.7.2 Requirements for sources using complying coatings or inks. Any owner or operator of a printing press subject to 37.0 of this regulation and complying by means of use of complying coatings or inks, shall comply with the following:
37.7.2.1 Initial certification. Within six months after [insert the effective date of this revision of 37.0, or upon initial startup of a new printing press, or upon changing the method of compliance for an existing subject printing press from daily-weighted averaging or control devices to use of complying coatings or inks, the owner or operator of a subject printing press shall certify to the Department that the printing press will be in compliance with 37.3.1 or 37.3.2 of this regulation on and after March 11, 2011, or on and after the initial startup date. Such certification shall include:
37.7.2.2 Recordkeeping. On and after March 11, 2011, or on and after the initial startup date, the owner or operator of a printing press subject to the limitations of 37.0 of this regulation and complying by means of 37.3.1.1 or 37.3.2.1 of this regulation shall collect and record all of the following information each day for each printing press and maintain the information at the facility for a period of five years:
37.7.2.3 Reporting.
37.7.3 Requirements for sources using daily-weighted averaging. Any owner or operator of a printing press subject to the limitations of 37.0 of this regulation and complying by means of daily-weighted averaging shall comply with the following:
37.7.3.1 Initial certification. Within six months after March 11, 2011, or upon initial startup of a new printing press, or upon changing the method of compliance for an existing subject press from use of complying coating or control devices to daily-weighted averaging, the owner or operator of the subject printing press shall certify to the Department that the printing press will be in compliance with 37.4 of this regulation on and after March 11, 2011, or on and after the initial startup date. Such certification shall include:
37.7.3.2 Recordkeeping. On and after March 11, 2011, or on and after the initial startup date, the owner or operator of a printing press subject to the limitations of 37.0 of this regulation and complying by means of daily-weighted averaging shall collect and record all of the following information each day for each printing press and maintain the information at the facility for a period of five years:
37.7.3.3 Reporting. On and after March 11, 2011, the owner or operator of a subject printing press shall notify the Department in the following instances:
37.7.4 Requirements for sources using control devices. Any owner or operator of a printing press subject to 37.0 of this regulation and complying by means of control devices shall comply with 4.5 of this regulation and the following:
37.7.4.2 Recordkeeping. On and after March 11, 2011, or on and after the initial startup date, the owner or operator of a printing press subject to the limitations of 37.0 of this regulation and complying by means of control devices shall collect and record all of the following information each day for each printing press and maintain the information at the facility for a period of five years:
37.7.4.3 Reporting. On and after March 11, 2011, the owner or operator of a subject printing press shall notify the Department in the following instances:
01/11/1993
38.1 Applicability
38.2 Definitions. As used in 38.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments, or in 2.0 of this regulation.
“Filter cartridge” means a replaceable filter unit containing filtration paper and carbon or carbon only.
“Perceptible leaks” means any petroleum solvent vapor or liquid leaks that are conspicuous from visual observation or that bubble after application of a soap solution, such as pools or droplets of liquid, open containers of solvent, or solvent-laden waste standing open to the atmosphere.
“Petroleum solvent cartridge filtration system” means a process in which soil-laden solvent is pumped under pressure from a washer through a sealed vessel containing filter cartridges that remove entrained solids and impurities from the solvent.
“Petroleum solvent dry cleaning facility” means a facility engaged in the cleaning of fabrics, clothing, and other articles in a petroleum solvent by means of one or more washes in the solvent, extraction of excess solvent by spinning, and drying by tumbling in an airstream. Equipment at the facility includes, but is not limited to, any petroleum solvent washer, dryer, solvent filter system, settling tank, vacuum still, and any other container or conveyor of petroleum solvent.
“Settling tank” means a container, and any associated piping and ductwork, that gravimetrically separates oils, grease, and dirt from petroleum solvent.
“Solvent filter” means a discrete solvent filter unit containing a porous medium that traps and removes contaminants from petroleum solvent, together with the piping and ductwork used in installing this device.
“Solvent recovery dryer” means a class of dry cleaning dryers that employs a condenser to condense and recover solvent vapors evaporated in a closed-loop stream of heated air, together with the piping and ductwork used in installing this device.
“Standard dryer” means a device that dries dry-cleaned articles by tumbling in a heated airstream.
“Still” means a device used to volatilize, separate, and recover petroleum solvent from contaminated olvent, together with the piping and ductwork used in installing this device.
“Washer” means a machine which agitates fabric articles in a petroleum solvent bath and spins the articles to remove the solvent, together with the piping and ductwork used in installing this device.
38.3 Standards
38.3.1 Fugitive emissions. The owner or operator of a petroleum solvent dry cleaning facility subject to 38.0 of this regulation shall ensure that:
38.3.3 Dryers. The owner or operator of a petroleum solvent dry cleaning facility subject to 38.0 of this regulation shall do one of the following:
38.3.4 Filtration systems. The owner or operator of a petroleum solvent filtration system subject to 38.0 of this regulation shall do either 38.3.4.1 or 38.3.4.2 of this regulation:
38.3.4.1 Reduce the VOC content in filtration waste to one kg (2.2 lb) VOC per 100 kg (220 lb) dry weight of articles dry cleaned.
38.4 Test methods and procedures
38.4.1 To be in compliance with 38.3.3.1 of this regulation, each owner or operator of a petroleum solvent dry cleaning facility subject to 38.0 of this regulation shall:
38.4.1.1 Calculate the weight of VOCs vented from the dryer emission control device calculated by using Methods 1, 2, and 25A (40 CFR, Part 60,Appendix A, July 1, 1992) with the following specifications:
38.4.1.1.3 Determination of the weight of VOCs vented to the atmosphere by:
38.4.2 To determine initial compliance with 38.3.3.2 of this regulation, the owner or operator of a petroleum solvent dry cleaning facility shall:
38.4.2.1 Verify that the flow rate of recovered solvent from the solvent-recovery dryer at the end of the recovery phase is no greater than 50 ml/min (0.013 gal/min) by:
38.4.3 To be in compliance with 38.3.4 of this regulation, the owner or operator of a petroleum solvent dry cleaning facility subject to 38.0 of this regulation shall:
38.5 Recordkeeping requirements
38.5.2 The owner or operator of a petroleum solvent dry cleaning facility subject to 38.0 of this regulation shall maintain the following records in a readily accessible location for at least five years:
38.6 Reporting requirements. The owner or operator of any facility containing sources subject to 38.0 of this regulation shall:
06/30/1999
01/11/1993
40.1 Applicability
40.1.1
40.1.1.2 A piece of equipment is not in VOC service if the VOC content of the process fluid can never be reasonably expected to exceed 10% by weight. For purposes of this demonstration, the following methods and procedures shall be used:
40.1.3 The requirements of 40.4 of this regulation do not apply to:
40.2 Definitions. As used in 40.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments, or in 2.0 of this regulation.
“[In] gas/vapor service” means that the piece of equipment in VOC service contains process fluid that is in the gaseous state at operating conditions.
“[In] heavy liquid service” means that the piece of equipment in VOC service is not in gas/vapor service or not in light liquid service.
“[In] light liquid service” means that the piece of equipment in VOC service contacts a fluid that contains greater than 10% by weight light liquid and meets the following conditions: (1) the vapor pressure of one or more of the components is greater than 0.3 kiloPascal (kPa). (0.044 inch of mercury [in. Hg]) at 20°C (68°F) (standard reference tests or ASTM D-2879 shall be used to determine the vapor pressures); and (2) the fluid is a liquid at operating conditions.
“Process unit” means components assembled to produce, as intermediate or final products, one or more of the chemicals listed in 40 CFR 60.489 (July 1, 1992). A process unit can operate independently if supplied with sufficient feed or raw materials and sufficient storage facilities for the product.
“[In] vacuum service” means that the equipment in VOC service is operating at an internal pressure that is at least five kPa (0.73 in. Hg) below ambient pressure.
“[In] VOC service” means that the piece of equipment contains or contacts a process fluid that is at least 10% VOC by weight. The provisions of 40.1.1.2 of this regulation specify how to determine that a piece of equipment is not in VOC service.
40.3 Standards: General. The owner or operator of a synthetic organic chemical, polymer, or resin manufacturing facility subject to 40.0 of this regulation shall ensure that:
40.4 Standards: Equipment inspection program. The owner or operator of a synthetic organic chemical, polymer, or resin manufacturing facility shall conduct the equipment inspection program described in 40.4.1 through 40.4.3 of this regulation using the test methods specified inAppendix F of this regulation.
40.4.1 The owner or operator of a synthetic organic chemical, polymer, or resin manufacturing facility shall conduct quarterly monitoring of each:
40.4.4
40.5 Standards: Alternative standards for valves Skip period leak detection and repair.
40.5.2
40.6 Standards: Alternative standards for unsafe-to-monitor valves and difficult-to-monitor valves.
40.6.1 Any valve is exempt from the requirements of 40.4 of this regulation as an unsafe-to-monitor valve if:
40.6.2 Any valve is exempt from the requirements of 40.4 of this regulation as a difficult-to-monitor valve if:
40.7 Standards: Equipment repair program. The owner or operator of a synthetic organic chemical, polymer, or resin manufacturing facility shall:
40.8 Standards: Delay of repair
40.9 Test methods and procedures
40.9.2 The owner or operator shall demonstrate that a piece of equipment is in light liquid service by showing that all of the following conditions apply:
40.10 Recordkeeping requirements
40.10.3 When each leak is detected as specified in 40.4 of this regulation, the following information shall be recorded in a log and shall be kept for five years in a readily accessible location:
40.10.5 The following information for valves complying with 40.5 of this regulation shall be recorded in a log that is kept for five years in a readily accessible location:
40.10.6 The following information pertaining to all valves subject to the requirements of 40.6 of this regulation shall be recorded in a log that is kept for five years in a readily accessible location:
40.10.7 The following information shall be recorded in a log that is kept for five years in a readily accessible location for use in determining exemptions as provided in 40.1 of this regulation:
01/11/1993
41.1 Applicability
41.1.1 The provisions of 41.0 of this regulation applies to the following process Sections at facilities engaged in manufacturing high-density polyethylene, polypropylene, and polystyrene:
41.1.2 Facilities having all process Sections with uncontrolled emission rates at or below those identified in 41.1.2.1 through 41.1.2.6 of this regulation are exempt from the requirements of 41.0 of this regulation except that owners or operators seeking to comply with 41.0 of this regulation by complying with the uncontrolled emission rates in 41.1.2.1 through 41.1.2.6 of this regulation are still required to comply with the initial certification requirements at 5.0 of this regulation
.
| Production Process | Process Section | Uncontrolled emission rate, megagram of product per year (Mg/yr) | |
| 41.1.2.1 | High-density polyethylene, liquid-phase slurry process | material recovery Section | 7 |
| 41.1.2.2 | High-density polyethylene, liquid-phase slurry process | product finishing Section | 19 |
| 41.1.2.3 | Polypropylene, liquid-phase process | polymerization reaction Section | 7 |
| 41.1.2.4 | Polypropylene, liquid-phase process | material recovery Section | 8 |
| 41.1.2.5 | Polypropylene, liquid-phase process | product finishing Section | 36 |
| 41.1.2.6 | Polystyrene, continuous process | material recovery Section | 7 |
41.2 Definitions. As used in 41.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments, or in 2.0 of this regulation.
“Continuous process” means a polymerization process in which reactants are introduced continuously and products are removed either continuously or intermittently at regular intervals so that the process can be operated and polymers produced essentially continuously.
“Flame zone” means that portion of the combustion chamber in a boiler occupied by the flame envelope.
“High-density polyethylene” means a linear, thermoplastic polymer comprised of at least 50% ethylene by weight and having a density greater than 0.94 grams per cubic centimeter (g/cm3) (59 pounds per cubic foot [lb/ft3]).
“Liquid-phase process” means a polymerization process in which the polymerization reaction is carried out in the liquid phase; i.e., the monomer or monomers and any catalyst are dissolved or suspended in a liquid solvent.
“Liquid-phase slurry process” means a liquid-phase polymerization process in which the monomer or monomers are in solution (completely dissolved) in a liquid solvent, but the polymer is in the form of solid particles suspended in the liquid reaction mixture during the polymerization reaction, sometimes called a particle-form process.
“Polypropylene” means a polymer comprised of at least 50% propylene by weight.
“Polystyrene” means a thermoplastic polymer comprised of at least 80% styrene or para-methylstyrene by weight.
“Process line” means a group of equipment assembled that can operate independently if supplied with sufficient raw materials to produce polypropylene, high-density polyethylene, or polystyrene. A process line consists of the equipment in the following process Sections (to the extent that these process Sections are present at a plant): raw materials preparation, polymerization reaction, product finishing, product storage, and material recovery.
“Process Section” means the equipment designed to accomplish a general but well-defined task in polymer production. Process Sections include raw materials preparation, polymerization reaction, material recovery, product finishing, and product storage and may be dedicated to a single process line or common to more than one process line.
“Product finishing Section” means the equipment that treats, shapes, or modifies the polymer or resin to produce the finished end product of the particular facility. Product finishing equipment may extrude and pelletize, cool and dry, blend, introduce additives, cure, or anneal. Product finishing does not include polymerization or shaping such as fiber spinning, molding, or fabricating or modification such as fiber stretching and crimping.
41.3 Standards: High-density polyethylene and polypropylene
41.3.1 The owner or operator of a high-density polyethylene or polypropylene process line containing a process section subject to 41.0 of this regulation shall comply with one of the following:
41.3.1.3 Combust the emissions in a flare as follows:
41.3.1.3.5
41.4 Standards: Polystyrene. The owner or operator of a polystyrene process line containing process Sections subject to 41.0 of this regulation shall comply with one of the following:
41.5 Test methods and procedures.
41.5.1 The owner or operator shall determine compliance with the percent emission reduction standard in 41.3.1.1 of this regulation as follows:
41.5.1.1 The emission reduction of total VOC shall be determined using the following equation:

(41-1)
where:
P = Percent emission reduction, by weight.
Einlet = Mass rate of total VOC entering the control device, kg VOC/hr.
Eoutlet = Mass rate of total VOC discharged to the atmosphere, kg VOC/hr.
41.5.1.2 The mass rates of total VOC (Ei, Eo) shall be computed using the following equations:

(41-2)

(41-3)
where:
Cij, Coj = Concentration of sample component J of the gas stream at the inlet and outlet of the control device, respectively, dry basis, ppmv.
Mij, Moj = Molecular weight of sample component J of the gas stream at the inlet and outlet of the control device respectively, g/g-mole (lb/lb-mole).
Qi, Qo = Flow rate of the gas stream at the inlet and outlet of the control device, respectively, dscm/hr (dscf/hr).
K1 = 4.157x10-8 [(kg)/(g-mole)]/[(g)(ppm)(dscm)]{5.711x10-15 [(lb)(/(lb-mole)] / [(lb)(ppm)(dscf)]}.
41.5.2 The owner or operator shall determine compliance with the emission concentration standard in 41.3.1.1 of this regulation as follows:
41.5.2.1 The total VOC concentration is the sum of the individual components and shall be computed for each run using the following equation:

(41-4)
where:
CVOC = Concentration of total VOC, dry basis, ppmv.
Cj = Concentration of sample component j, ppm.
n = Number of components in the sample.
41.5.3
41.5.3.1 If supplemental combustion air is used, the total VOC concentration shall be corrected to 3% oxygen and shall be computed using the following equation:

(41-5)
where:
CCORR = Concentration of total VOC corrected to 3% oxygen, dry basis, ppmv.
CMEAS = Concentration of total VOC, dry basis, ppmv, as calculated in 41.5.2.1 of this relation.
%O2d = Concentration of O2, dry basis, percent by volume.
41.5.4 When a flare is used to comply with 41.3.1.3 of this regulation:
41.5.5 The test methods in 40 CFR Part 60,Appendix A (July 1, 1992), shall be used as reference methods for determining the VOC emission rate in terms of kg emission per megagram (Mg) of product, exit velocities, or net heating value of the gas combusted to determine compliance under 41.3 and 41.4 of this regulation as follows:
41.5.5.2 The composition of the process vent stream shall be determined as follows:
41.5.5.5 The maximum permitted velocity, Vmax, for flares complying with 41.3.1.3.5.1 of this regulation shall be determined using the following equation:

(41-6)
where:
Vmax = Maximum permitted velocity, m/s.
31.7 = Constant.
41.5.5.6 The Vmax for air-assisted flares shall be determined by the following equation:

(41-7)
where:
Vmax = Maximum permitted velocity, m/s.
HT = The net heating value as determined in 41.5.5.7 of this regulation.
0.7084 = Constant.
41.5.5.7 The net heating value of the process vent stream being combusted in a flare shall be calculated using the following equation:

(41-8)
where:
HT = Net heating value of the sample, MJ/scm, where the net enthalpy per mole of off-gas is based on combustion at 25°C and 760 millimeters of Mercury (mm Hg) (77°F and 29.92 inches of Mercury [in. Hg]), but the standard temperature for determining the volume corresponding to one mole is 20°C (68°F).
K = Constant: 
where standard temperature for
is 20°C.
Ci = Concentration of sample components i in ppm on a wet basis, as measured for organics by Method 18 and measured for hydrogen and carbon monoxide by ASTM D1946-82.
Hi = Net heat of combustion of sample component i, kcal/g-mole at 25°C (77°F) and 760 mm Hg (29.92 in. Hg). The heats of combustion of process vent stream components may be determined using ASTM D2382-76 (reapproved 1977) if published values are not available or cannot be calculated.
41.5.5.8 The emission rate of VOC in the process vent stream shall be calculated using the following equation:

(41-9)
where:
EVOC = Emission rate of total organic compounds in the sample, kilogram per hour (kg/hr).
K = Constant, 2.494x10-6(1/ppm)(g-mole/scm)(kg/g)(min/hr), where standard temperature for (g-mole/scm) is 20°C (68°F).
Ci = Concentration of sample component i, ppm.
Mi = Molecular weight of sample component i, g/g-mole.
Qs = Vent stream flow rate (scm/min), at a standard temperature of 20°C (68°F).
41.5.5.10 The emission rate of VOC in terms of kilograms of emissions per megagram of production shall be calculated using the following equation:

(41-10)
where:
ERVOC = Emission rate of VOC, kg VOC/Mg product.
EVOC = Emission rate of VOC in the sample, kg/hr.
PP = The rate of polymer produced, kg/hr.
HT = The net heating value as determined in 41.5.5.7 of this regulation.
41.6 Recordkeeping. The owner or operator of a facility subject to 41.0 of this regulation shall maintain the following records in a readily accessible location for at least five years and shall make these records available to the Department upon verbal or written request:
41.6.5 For all facilities containing sources subject to 41.0 of this regulation, the following records shall be kept:
41.7 Reporting requirements. The owner or operator of any facility containing sources subject to 41.0 of this regulation shall:
01/11/1993
42.1 Applicability
42.1.1 The provisions of 42.0 of this regulation apply to the following air oxidation facilities in the synthetic organic chemical manufacturing industry:
42.2 Definitions. As used in 42.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“Air oxidation facility” means a product recovery system and all associated air oxidation process reactors discharging directly into that system or any such reactors discharging directly into the atmosphere.
“Air oxidation process” means a reactor in which air is used as an oxidizing agent to produce an organic chemical.
“Air oxidation reactor” means any device or process vessel in which one or more organic reactants are combined with air or a combination of air and oxygen to produce one or more organic compounds. Ammoxidation and oxychlorination are included in this definition.
“Air oxidation reactor recovery train” means an individual recovery system receiving the vent stream from at least one air oxidation reactor, along with all air oxidation reactors feeding vent streams into this system.
“Product recovery system” means any equipment used to collect volatile organic compounds (VOCs) for use, reuse, or sale. Such equipment includes, but is not limited to, absorbers, adsorbers, condensers, and devices that recover non-VOCs such as ammonia and HCl.
“Synthetic organic chemical manufacturing industry” means the industry that produces, as intermediates or final products, one or more of the chemicals listed at 40 CFR 60.489 (July 1, 1992).
“Total resource effectiveness index value,” or TRE index value, means a measure of the supplemental total resource requirement per unit of VOC emission reduction associated with an individual air oxidation vent stream, based on vent stream flow rate, emission rate of VOC, net heating value, and corrosive properties, as quantified by the equation given under 42.5.1 of this regulation.
“Vent stream” means any gas stream containing nitrogen that was introduced as air to the air oxidation reactor and released to the atmosphere directly from any air oxidation reactor recovery train or indirectly, after diversion through other process equipment.
42.3 Standards. For each vent stream from an air oxidation reactor or combination air oxidation reactor and recovery train subject to 42.0 of this regulation, the owner or operator shall comply with 42.3.1, 42.3.2, or 42.3.3 of this regulation.
42.4 Monitoring requirements.
42.4.1 The owner or operator of an air oxidation facility that uses an incinerator to seek to comply with the VOC emission limit specified under 42.3.1 of this regulation shall install, calibrate, maintain, and operate according to manufacturer's specifications the following equipment:
42.4.1.1 A temperature monitoring device equipped with a continuous recorder and having an accuracy of ±1% of the temperature being monitored expressed in degrees Celsius or ±0.5°C, whichever is greater.
42.4.2 The owner or operator of an air oxidation facility that uses a flare to seek to comply with 42.3.2 of this regulation shall install, calibrate, maintain, and operate according to manufacturer's specifications the following equipment:
42.4.3 The owner or operator of an air oxidation facility that uses a boiler or process heater to seek to comply with 42.3.1 of this regulation shall install, calibrate, maintain, and operate according to the manufacturer's specifications the following equipment:
42.4.4 The owner or operator of an air oxidation facility that seeks to demonstrate compliance with the TRE index value limit specified under 42.3.3 of this regulation shall install, calibrate, maintain, and operate according to manufacturer's specifications the following equipment:
42.4.4.1 Where an absorber is the final recovery device in a recovery system:
42.4.4.2 Where a condenser is the final recovery device in a recovery system:
42.4.4.3 Where a carbon adsorber is the final recovery device in a recovery system:
42.5 Test methods and procedures. The following methods shall be used as reference methods to demonstrate compliance with 42.3 of this regulation:
42.5.1 The following equation shall be used to calculate the TRE index for a given vent stream:

(42-1)
where:
TRE = The total resource effectiveness index value.
E = The measured hourly emissions in units of kilograms per hour (kg/hr).
FL = The vent stream flow rate in standard cubic meter per minute (scm/min), at a standard temperature of 20°C. For a Category E stream, the factor f(FL)0.5 should be replaced with:

where:
HT = Vent stream net heating value in units of megajoules per standard cubic meter (MJ/scm), where the net enthalpy per mole of off-gas is based on combustion at 25°C (68°F) and 760 millimeters of Mercury (mm Hg), but the standard temperature for determining the volume corresponding to one mole is 20°C, as in the definition of FL.
a, b, c, d, e, and f = Specific coefficients for six different general categories of process vent streams. The set of coefficients that apply to a given air oxidation process vent stream may be obtained from the Department.
42.5.5 The emission rate correction factor, integrated sampling, and analysis procedure of Method 3 shall be used to determine the oxygen concentration (%O2d) for determining compliance with the 20 ppmv limit. The sampling site shall be the same as that of the VOC. samples, and the samples shall be taken during the same time that the VOC samples are taken. The VOC concentration corrected to 3% O2 (Cc) shall be computed using the following equation:

(42-2)
where:
Cc = Concentration of VOC corrected to 3% O2, dry basis, ppmv.
CVOC = Concentration of VOC, dry basis, ppmv.
%O2d = Concentration of O2, dry basis, percent by volume.
42.5.6 Method 18 to determine the VOC concentration in the control device outlet and the VOC concentration in the inlet when the reduction efficiency of the control device is to be determined.
42.5.6.2 The emission reduction (R) of VOC shall be determined using the following equation:

(42-3)
where:
R = Emission reduction, percent by weight.
Ei = Mass rate of VOC entering the control device, kg VOC/hr.
Eo = Mass rate of VOC discharged to the atmosphere, kg VOC/hr.
42.5.6.3 The mass rates of VOC (Ei, Eo) shall be computed using the following equations:

(42-4)

(42-5)
where:
Cij, Coj = Concentration of sample component J of the gas stream at the inlet and outlet of the control device, respectively.
Mij, Moj = Molecular weight of sample component J of the gas stream at the inlet and outlet of the control device, respectively, g/g-mole (lb/lb-mole).
Qi, Qo = Flow rate of gas stream at the inlet and outlet of the control device, respectively, dscm/min (dscf/hr).
K2 = Constant, 2.494x10-6(1/ppm)(g-mole/scm)(kg/g)(min/hr), where standard temperature for (g-mole/scm) is 20°C.
42.5.6.4 The VOC concentration (CVOC) is the sum of the individual components and shall be computed for each run using the following equation:

(42-6)
where:
CVOC = Concentration of VOC, dry basis, ppmv.
Cj = Concentration of sample components in the sample.
n = Number of components in the sample.
42.5.9
42.5.9.2 If any gas stream other than the air oxidation vent stream is normally conducted through the final recovery device:
42.5.10 The molar composition of the process vent stream shall be determined as follows:
42.5.12 The net heating value of the vent stream shall be calculated using the following equation:

(42-7)
where:
HT = Net heating value of the sample, MJ/scm, where the net enthalpy per mole of off-gas is based on combustion at 25°C and 760 mm Hg, but the standard temperature for determining the volume corresponding to one mole is 20°C, as in the definition of Qs (off-gas flow rate).
K1 = Constant, 1.740x10-7
where standard temperature for
is 20°C.
Cj = Concentration of compound j in ppm, as measured for organics by Method 18 and measured for hydrogen and carbon monoxide by ASTM D1946-77 as indicated in 42.5.10 of this regulation.
Hj = Net heat of combustion of compound j, kilocalories per gram-mole (kcal/g-mole), based on combustion at 25°C and 760 mm Hg. The heats of combustion of vent stream components would be required to be determined using ASTM D2382-76 if published values are not available or cannot be calculated.
42.5.13 The emission rate of VOCs in the process vent stream shall be calculated using the following equation:

(42-8)
where:
EVOC = Emission rate of VOC in the sample, kg/hr.
K2 = Constant, 2.494x10-6(1/ppm)(g-mole/scm)(kg/g)(min/hr), where standard temperature for (g-mole/scm) is 20°C.
Cj = Concentration on a dry basis of compound j in ppm as measured by Method 18 as indicated in 42.5.10 of this regulation.
Mj = Molecular weight of sample j, g/g-mole.
Qs = Vent stream flow rate (scm/min) at a standard temperature of 20°C.
42.6 Recordkeeping. The owner or operator of a facility subject to 42.0 of this regulation shall keep the records specified in 42.6 of this regulation in a readily accessible location for at least 5 years. These records shall be made available to the Department immediately upon verbal or written request.
42.6.1 Where an owner or operator subject to 42.0 of this regulation seeks to demonstrate compliance with 42.3.1 of this regulation through using either a thermal or catalytic incinerator:
42.6.2 Where an owner or operator subject to the provisions of 42.0 of this regulation seeks to demonstrate compliance with 42.3.1 of this regulation through using a boiler or process heater:
42.6.3 Where an owner or operator subject to the provisions of 42.0 of this regulation seeks to comply with 42.3.2 of this regulation through the use of a smokeless flare:
42.6.4 Where an owner or operator seeks to demonstrate compliance with 42.3.3 of this regulation:
42.6.5 Each owner or operator subject to the provisions of 42.0 of this regulation shall keep up-to-date, readily accessible, continuous records of the equipment operating parameters specified to be monitored under 42.4.1 and 42.4.3 of this regulation, as well as up-to-date, readily accessible records of periods of operation during which the parameter boundaries established during the most recent compliance test are exceeded. The Department may at any time require a report of these data. Where a combustion device is used by an owner or operator seeking to demonstrate compliance with 42.3.1 or 42.3.3 of this regulation, periods of operation during which the parameter boundaries established during the most recent performance tests are exceeded are defined as follows:
42.6.9 Each owner or operator subject to the provisions of 42.0 of this regulation shall keep up-to-date, readily accessible, continuous records of the equipment operating parameters specified to be monitored under 42.4.3 of this regulation as well as up-to-date, readily accessible records of periods of operation during which the parameter boundaries established during the most recent compliance test are exceeded. The Department may at any time require a report of these data. Where the owner or operator seeks to demonstrate compliance with 42.3.3 of this regulation, periods of operation during which the parameter boundaries established during the most recent compliance tests are exceeded are defined as follows:
42.6.9.1 Where an absorber is the final recovery device in a recovery system, and where an organic monitoring device is not used, either 42.6.9.1.1 or 42.6.9.1.2 of this regulation:
42.6.9.3 Where a carbon adsorber is the final recovery device in a recovery system and where an organic monitoring device is not used, either 42.6.9.3.1 or 42.6.9.3.2 of this regulation:
42.6.10 Each owner or operator subject to the provisions of 42.0 of this regulation and seeking to demonstrate compliance with 42.3.3 of this regulation shall keep up-to-date, readily accessible records of:
42.7 Reporting requirements. The owner or operator of any facility containing sources subject to 42.0 of this regulation shall:
08/08/1994
43.1 Applicability
43.2 Definitions. As used in 43.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“Ballasting” means the loading of water or other liquid into a marine tank vessel's cargo tank to obtain proper propeller, rudder and hull immersion.
“Boiler” means any enclosed combustion device that uses fuel to produce energy in the form of steam.
“Car-sealed” means having a seal that is placed on the device used to change the position of a valve (e.g., from open to closed) such that the position of the valve cannot be changed without breaking the seal and requiring the replacement of the old seal, once broken, with a new seal.
“Combustion device” means all equipment, including, but not limited to, incinerators, flares, boilers, and process heaters used for combustion or destruction of organic vapors displaced from the loading berths.
“Flare” means an engineered control device designed for direct combustion of waste gases.
“Facility” means any plant, terminal, refinery or other location where there exists a dock, berth, or anchorage capable of bulk loading on marine tank vessels.
“Gasoline” means any petroleum product having a Reid Vapor Pressure of four psia or greater and used as automotive fuel and aviation fuel.
“Housekeeping” means altering the composition of gases contained within marine vessel tanks by tank washing, gas freeing, or purging.
“Inlet to the control device” means any point on the vapor line between the vessel and the control device prior to the addition of any inert, dilution or enrichment gas.
“Loading berth” means the loading arms, pumps, meters, shutoff valves, relief valves, and other piping and valves necessary to fill marine vessels. This includes those items necessary for off shore loading.
“Loading cycle” means the time period from the beginning of filling a marine vessel until flow of product into the vessel ceases, as measured by the flow indicator.
“Marine tank vessel” means any tank ship or barge which transports liquid product such as gasoline in bulk.
“Non-vapor tight” means any marine vessel that does not pass the required vapor-tightness test.
“Process heater” means a device that transfers heat liberated by burning fuel to fluids contained in tubes, except water that is heated to produce steam.
“Recovery device” means an individual unit of equipment, including but not limited to an absorber, carbon adsorber, or condensers, capable of and used for the purpose of removing vapors and recovering liquids.
“Vapor collection system” means any equipment located at the affected facility used for containing vapors displaced during the loading of marine tank vessels. This does not include the vapor collection system that is part of any marine vessel vapor collection manifold system.
“Vapor-tight” means any marine tank vessel that has demonstrated within the preceding 12 months to have no leaks. This demonstration shall be made using 40 CFR Part 60, App. A., Method 21 (7/1/92), during the last 20% of loading in a product tank. A reading of greater than 10,000 ppmv as methane shall constitute a leak. As an alternative, a marine vessel owner or operator may use the vapor-tightness test described in 43.6 of this regulation to demonstrate vapor-tightness. A marine vessel loaded at negative pressure is assumed to be vapor-tight.
43.3 Standards. On or before December 31, 1995:
43.3.3 The owner or operator of a bulk gasoline marine tank vessel loading facility subject to 43.0 of this regulation shall comply with 43.3.3.1, 43.3.3.2, or 43.3.3.3 of this regulation.
43.3.4 Loading of gasoline into marine tank vessels shall be limited to marine tank vessels that have been approved by the United States Coast Guard for connection to marine vapor control systems and are vapor tight. Vapor tightness shall be determined using the following procedures:
43.4 Monitoring requirements.
43.4.1 The owner or operator of a bulk gasoline marine tank vessel loading facility that uses an incinerator to comply with the VOC emission reduction specified under 43.3.3.1 of this regulation shall install, calibrate, maintain, and operate according to manufacturer's specifications a temperature monitoring device equipped with a continuous recorder and having an accuracy of ±1% of the temperature being monitored expressed in Celsius or ±0.5°, whichever is greater.
43.4.3 The owner or operator of a bulk gasoline marine tank vessel loading facility that uses a boiler or process heater to comply with 43.3.3.1 of this regulation shall install, calibrate, maintain, and operate according to manufacturer's specifications the following equipment, or monitor and record operating parameters described as follows:
43.4.4 The owner or operator of a bulk gasoline marine tank vessel loading facility that uses a carbon adsorption system to comply with 43.3.3.3 of this regulation shall install, calibrate, maintain, and operate according to manufacturer's specifications the following equipment:
43.4.6 The owner or operator of a bulk gasoline marine tank vessel loading facility subject to 43.0 of this regulation that uses a vent system that contains valves that could divert a vent stream from a control device used to comply with the requirements of 43.0 of this regulation shall do the following:
43.5 Test method and procedures for control devices. The following methods from 40 CFR. Part 60, App. A. (7/1/92), shall be used as reference methods to demonstrate compliance with 43,3,3,1 and 43.3.3.3 of this regulation:
43.5.6 An emission testing interval shall consist of each five minute period during the performance test. For each interval:
43.5.7 The mass emitted during each testing interval shall be calculated as follows:

(43-1)
where:
Mei = Mass of total organic compounds (milligrams [mg]) emitted during testing interval i.
Ves = Volume of air-vapor mixture exhausted (cubic meters [m3]), at standard conditions.
Ce = Total organic compounds concentration (measured as carbon) at the exhaust vent (ppmv).
K = Density of calibration gas (milligrams/cubic meter [mg/m3]) at standard conditions.
= 1.83x106 for propane
= 2.41x106 for butane
s = Standard conditions, 20°C and 760 millimeters of mercury (mm Hg).
43.5.8 The total organic compounds mass emission rate before and after the control device shall be calculated as follows:

(43-2)
where:
E = Mass of total organic compounds emitted, kilograms per hour (kg/hr).
Mi = Mass of total organic compounds emitted during testing interval i, kg.
T = Total time of all testing intervals, hr.
n = Number of testing intervals.
43.5.9 The percent reduction across the control device shall be calculated as follows:

(43-3)
where:
R = Efficiency of control device, %
Eb = Mass flow of total organic compounds prior to control device, kg/hr
Ea = Mass flow of total organic compounds after control device, kg/hr
43.5.12 The test procedure for determining compliance with 43.3.7 of this regulation is as follows:
43.6 Test methods and procedures for marine tank vessels. The following test methods shall be used to comply with the marine tank vessel vapor tightness requirements specified in 43.3.4 of this regulation:
43.6.3 At the end of 30 minutes, the pressure in the marine tank vessel and piping shall be measured and recorded. The change in pressure shall be calculated as follows:
(43-4)
where:
43.6.4 The change in pressure, P, shall be compared to the pressure calculated as follows:
(43-5)
where:

43.7 Recordkeeping. The owner or operator of a bulk gasoline marine tank vessel loading facility subject to 43.0 of this regulation shall keep the records specified in 43.7 of this regulation in a readily accessible location for at least five years. These records shall be made available to the Department immediately upon verbal or written request.
43.7.1 An operator or owner subject to 43.0 of this regulation seeking to demonstrate compliance with 43.3.3.1 of this regulation through using either a thermal or catalytic incinerator shall record:
43.7.2 An operator or owner subject to 43.0 of this regulation seeking to demonstrate compliance with 43.3.3.1 of this regulation through use of a boiler or process heater shall record:
43.7.3 An operator or owner subject to 43.0 of this regulation seeking to demonstrate compliance with 43.3.3.2 of this regulation through use of a smokeless flare or other flare design (i.e., steam-assisted, air-assisted or nonassisted) shall record:
43.7.4 An operator or owner subject to 43.0 of this regulation seeking to demonstrate compliance with 43.3.3.3 of this regulation through use of a carbon adsorber where an organic monitor is not used shall record:
43.7.5 An operator or owner subject to 43.0 of this regulation seeking to demonstrate compliance with 43.3.3.3 of this regulation through use of a carbon adsorber where an organic monitor is used shall record:
43.7.6 The owner or operator subject to 43.0 of this regulation shall keep up-to-date, readily accessible, continuous records of the equipment operating parameters specified to be monitored under 43.4 of this regulation, as well as permanent, up-to-date, readily accessible, continuous records of periods of operation during which the parameter boundaries established during the most recent performance test are exceeded. The Department may at any time require a report of these data. Periods of operation during which parameter boundaries established during the most recent performance test are exceeded are defined as follows:
43.7.6.6 For carbon adsorbers where an organic monitor is not used:
43.7.9 Each owner or operator subject to the provisions of 43.0 of this regulation that uses a vent system with valves that could divert the vent stream from the control device shall keep readily accessible records of:
43.7.10 The owner or operator of a bulk gasoline marine tank loading facility subject to 43.0 of this regulation shall keep up-to-date documentation of each marine tank vessel's vapor tightness test results by 43.3.4.1 of this regulation to include as a minimum the following:
43.8 Reporting requirements. The owner or operator of a bulk gasoline marine tank loading facility subject to 43.0 of this regulation shall:
11/29/1994
44.1 Applicability.
44.1.1 The provisions of 44.0 of this regulation apply to process vents associated with batch processing operations in the following affected manufacturing facilities with the corresponding primary Standard Industrial Classification ("SIC") Codes:
44.1.3 Except for the recordkeeping and reporting requirements listed in 44.6 and 44.7 of this regulation, the requirements of 44.0 of this regulation do not apply to the following operations:
44.2 Definitions. As used in 44.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“Aggregated” means the summation of all process vents within a process that contain VOCs.
“Annual mass emissions total” means the sum of all non-fugitive VOC emissions, evaluated before control, from a vent. Annual mass emissions may be calculated from an individual process vent or from groups of process vents by using the emission estimation equations contained in Appendix K of this regulation and then multiplying this result by the expected duration and frequency of the emission or groups of emissions over the course of a year.
“Average flow rate” means the flow rate averaged over the amount of time that VOCs are emitted during emission events. For the evaluation of average flow rate from an aggregate of sources, the average flow rate is the weighted average of the average flow rates of the emission events and their annual venting time:
Weighted Average Flow Rate =
(44-1)
“Batch cycle” means a manufacturing event of an intermediate or product from start to finish in a batch process.
“Batch process” means a discontinuous process that involves the bulk movement of material through sequential manufacturing steps. Mass, temperature, concentration, and other properties of the material may vary with time and location in the process. Batch processes are typically characterized as "non-steady-state."
"Batch process train" means an equipment train that is used to produce a product or intermediate. A typical equipment train consists of equipment used for the synthesis, mixing, and purification of a material.
“Control device” means an air pollution abatement device, not a device such as a condenser that operates under reflux conditions, which is required for processing.
“Emissions before control” means the VOC emissions total prior to the application of a control device, or if no control device is used, the VOC emissions total. No credit for discharge of VOCs into wastewater shall be considered when the wastewater is further handled or processed with the potential for VOCs to be emitted to the atmosphere.
“Emission event” means a discrete venting episode that may be associated with a single unit of operation. For example, a displacement of vapor resulting from the charging of a vessel with VOCs will result in a discrete emission event that will last through the duration of the charge and will have an average flow rate equal to the rate of the charge. If the vessel is then heated, there will also be another discrete emission event resulting from the expulsion of vapor from the expansion caused by heating. Both emission events may occur in the same vessel or unit operation.
“Process” means, for the purpose of determining RACT applicability, any equipment within a contiguous area that is connected during the course of a year. "Connected" means a link between equipment, whether it is physical, such as a pipe, or whether it consists of a series of steps from which material is transferred from one unit operation to another unit operation.
“Process vent” means a point of emission from a piece of equipment within which a unit operation takes place. Typical process vents from batch processes include condenser vents, vacuum pumps, steam ejectors, and atmospheric vents from reactors and other process vessels. Relief valve discharges and equipment exhaust systems that discharge from unit operations would also be considered process vents.
“Semi-continuous operation” means an operation that is conducted in a steady-state mode but only for finite durations during the course of a year. For example, a steady-state distillation operation that functions for one month would be considered a semi-continuous operation.
“Single unit operation” means a discrete piece of equipment used in a processing step to prepare reactants, facilitate reactions, separate and purify products, or recycle materials.
“Volatility” means a physical property of materials which exhibits the following characteristics: low-volatility materials have a vapor pressure of less than or equal to 75 millimeters (mm) mercury (Hg) (3.0 inches [in] Hg) at 20 degrees Celsius (°C) (68 degrees Fahrenheit [°F]); moderate-volatility materials have a vapor pressure of greater than 75 mm Hg (3.0 in Hg) and less than or equal to 150 mm Hg (6.0 in Hg) at 20°C (68°F); and high-volatility materials have a vapor pressure of greater than 150 mm Hg (6.0 in Hg) at 20°C (68°F). To evaluate VOC volatility for single unit operations that service numerous VOCs or for processes handling multiple VOCs, the weighted average volatility can be calculated using the total amount of each VOC used in a year, and the individual component vapor pressure, as shown in the following equation:
Weighted Average Volatility =
(44-2)
44.3 Standards. Individual vents with an actual average flow rate less than the flow rate calculated using the RACT applicability equations (FR) provided in 44.3.3 of this regulation, as a function of uncontrolled annual VOC emissions (AE), shall reduce VOC emissions by 90%. Vents in aggregate within a batch process having an actual weighted-average flow rate less than FR calculated using the RACT applicability equations in 44.3.3 of this regulation, as a function of AE, shall reduce process VOC emissions by 90%.
44.3.3 RACT Applicability Equations. RACT applicability equations are specific to VOC volatility and are presented below:

(44-3)
where:
FR = Calculated Flow Rate (standard cubic feet per minute [scfm])
AE = Uncontrolled Annual VOC Emissions (pounds per year [lb/yr])
An owner or operator shall compare the calculated flow rate (FR) with the actual average flow rate or the actual weighted-average flow rate determined using the procedures described in 44.3.2 of this regulation, and if FR exceeds the actual average flow rate, the owner or operator shall reduce VOC emissions by 90%.
44.4 Performance Testing.
44.4.2 The following methods in 40 Code of Federal Regulations (CFR) Part 60,Appendix A(July 1, 1992), shall be used to demonstrate that the process vent or vents comply with the control efficiency requirement listed in 44.3 of this regulation.
44.4.2.3 Method 25A or Method 18, if applicable, for the determination of VOC concentration in the control device inlet and outlet.
44.5 Monitoring Requirements.
44.5.1 An owner or operator of an affected facility that uses an incinerator to seek compliance with the VOC control requirement specified under 44.3 of this regulation shall install, calibrate, maintain, and operate, according to the manufacturer's specifications, a temperature monitoring device that is equipped with a continuous recorder and that has an accuracy of ± 0.5°C.
44.5.3 An owner or operator of an affected facility that uses an absorber to seek compliance with the VOC control requirement specified under 44.3 of this regulation shall install, calibrate, maintain, and operate, according to the manufacturer's specifications, at least one of the following devices:
44.5.4 An owner or operator of an affected facility that uses a condenser or refrigeration system to seek compliance with the VOC control requirement specified under 44.3 of this regulation shall install, calibrate, maintain, and operate, according to the manufacturer's specifications, at least one of the following devices:
44.5.5 An owner or operator of an affected facility that uses a carbon adsorber to seek compliance with the VOC control requirements specified under 44.3 of this regulation shall install, calibrate, maintain, and operate, according to the manufacturer's specifications, at least one of the following devices:
44.6 Recordkeeping Requirements.
44.6.1 Each facility with a batch processing operation subject to 44.0 of this regulation shall keep records for a minimum of five years of the following emission stream parameters for each process vent contained in the batch process:
44.6.2 Each facility with a batch processing operation subject to 44.0 of this regulation shall keep records of the following parameters, which are required to be measured during the performance test described under 44.4 of this regulation, and are required to be monitored under 44.5 of this regulation:
44.6.2.3 Where an owner or operator subject to the provisions of 44.0 of this regulation seeks to demonstrate compliance with 44.3 of this regulation, the following records must be maintained:
44.8 Certification. An owner of operator of any facility containing sources subject to 44.0 of this regulation shall submit to the Department an annual compliance certification based on a calendar year. The owner of operator of any new facility containing sources that become subject to 44.0 of this regulation, shall submit an initial compliance certification immediately upon startup of the facility, and every year thereafter, an annual certification.
44.8.1 The annual compliance certification shall provide, at a minimum, the following information:
44.8.2 For each batch process train and single unit operation, the annual compliance certification shall also provide, at a minimum, the following information:
03/11/11
45.1 Applicability.
45.1.1 The provisions of 45.0 of this regulation apply to all sources that use organic solvents for the purpose of cleaning. The provisions of 45.3, 45.4, and 45.5 of this regulation do not apply to the following sources:
45.2 Definitions. As used in 45.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 this regulation.
“Cleaning activity” means the physical removal of foreign material from substrate that is being cleaned.
“Cleaning of external surface” means the act of applying a solvent to an external surface for cleaning. The cleaning activities may include, but are not limited to, wiping and spraying. Unit operation systems in this category include, but are not limited to, floor cleaning, equipment cleaning, large manufactured component cleaning, small manufactured component cleaning, and spray-booth cleaning.
“Cleaning of internal surface” means the act of applying a solvent to an interior surface for cleaning. The cleaning activities may include, but are not limited to, flushing, purging, and spraying. Unit operation systems in this category include, but are not limited to, line cleaning, tank cleaning, spray-gun cleaning, and spray-booth cleaning.
“Dipping” means immersing an item in a container of solvent to remove contaminants or residue.
“Equipment, facility, and procedural change” means the use of alternative cleaning techniques and procedures, such as the use of high-pressure water equipment to reduce solvent stripping, floor scrubbers, removable or replaceable equipment covers, improved containment of volatile organic compounds (VOCs) from materials in storage/transfer/use, improved reclaim/reuse/recycle procedures, etc.
“Flushing” means pumping a solvent from a reservoir through a pipe or hose or through equipment (e.g., pipes, hoses, tanks) to remove contaminants or residue.
“Material change” means the use of caustic cleaners, cleaners with a low VOC content or low vapor pressure, peelable-type equipment/structure coatings, etc.
“Non-manufacturing area cleaning” means the cleaning of cafeterias, laboratories, pilot facilities, restrooms, office buildings, etc.
“Parts cleaning” means the spraying or wiping of solvent on a part or the dipping of a part in solvent for cleaning. Unit operation systems in this category include, but are not limited to, small manufactured component cleaning, tool cleaning, and maintenance equipment cleaning.
“Purging” means the cleaning of the interior of a spray gun and other attached equipment (e.g., hoses, paint cups) cleaned simultaneously with the spray gun.
“Spraying” means the application of a cleaning solvent to a surface through a nozzle.
“Unit operation system (UOS)’ means the ensemble of equipment around which a material balance is performed. A UOS includes all possible points/sources that could result in losses to the atmosphere as a result of its being cleaned, including losses during dispensing of solvent, losses from residual solvent on or in cleaning tools (such as rags), losses from solvent storage, etc. An item of equipment used for cleaning parts by definition is a unit operation; therefore, carry-out losses during removal of cleaned parts shall be considered in a material balance. A UOS may include more than one cleaning activity that, by itself, could be classified as a UOS.
45.3 Standards.
45.3.1 Solvent Usage Study. An owner or operator of a source that uses organic solvents for the purpose of cleaning shall conduct a Solvent Usage Study in accordance with the following procedures:
45.3.1.1 Each type of cleaning operation involving the use of an organic solvent shall be categorized as one or more of the following operations:
45.3.1.2 Each type of cleaning operation involving the use of an organic solvent shall be defined as a UOS that has a theoretical system boundary such that all solvent inputs, outputs, and evaporative losses may be calculated using a simple mass balance equation. The owner or operator shall submit the following information for each UOS as part of the Solvent Usage Study:
45.3.2 Screening Tests. An owner or operator of a source that uses organic solvents for the purpose of cleaning shall conduct Screening Tests to evaluate the performance of alternative (aqueous or lower VOC) cleaning solutions in accordance with the following procedures:
45.3.2.4 The Screening Tests results submitted to the Department shall include, at a minimum, the following information for each alternative cleaning solution examined:
45.3.3 Trial Evaluations. An owner or operator of a source that uses organic solvents for the purpose of cleaning shall conduct Trial Evaluations for the alternative solvents which show the greatest degree of emission reductions, considering technical and economical feasibility, based on the Screening Tests results accepted by the Department. The Trial Evaluations shall be conducted in accordance with the following procedures:
45.3.3.3 Following the Trial Evaluations, an owner or operator of the source shall prepare a Summary Report on the results of the Trial Evaluations. The Summary Report shall include the following information:
45.4 Test Methods. Compliance with 45.3.2.4 of this regulation shall be achieved by applying any of the following test methods:
45.5 Recordkeeping. An owner or operator of a source that uses organic solvents for the purpose of cleaning shall maintain the following records in a readily accessible location for at least five years and shall make these records available to the Department upon verbal or written request:
45.6 Reporting and Certification. An owner or operator of a source that uses organic solvents for the purpose of cleaning shall initially report to the Department the total quantity of solvent that it used for the calendar year prior to the promulgation date of 45.0 of this regulation. This initial report shall be submitted to the Department within three months of the promulgation of 45.0 of this regulation. Each year, the owner or operator shall submit subsequent reports to the Department by the promulgation date (month, day) of 45.0 of this regulation. The initial and subsequent reports shall include the following information:
05/11/2007
46.1 Applicability.
46.2 Definitions.
As used in 46.0 of this regulation, all terms not defined herein shall have the meaning given them in7 DE Admin. Code 1101 or in 2.0 of this regulation.
“Baseline volume” means the average annual volume, in barrels per year, of crude oil lightered in the waters of the State during calendar years 2004 and 2005. If an existing lightering service did not carry out lightering operations throughout 2004 and 2005, the baseline volume for that existing lightering service shall be the average annual volume of crude oil lightered in the waters of State during the 24 month period beginning with its first lightering operation after December 31, 2003.
“Controlled lightering operation” means a lightering operation in which the VOC emissions are being controlled by the use of a vapor balancing system.
“Depressurization venting” means the release of vapors to the atmosphere from the ship to be lightered, the service vessel or the vapor balancing system during controlled lightering operations.
“Emergency lightering operations” means the transfer of crude oil cargo to mitigate or prevent a cargo spill, to stabilize a vessel whose integrity has been compromised, or to comply with the requirements of a Coast Guard Captain of the Port Order issued under the authority of the Ports and Waterways Safety Act, 33 USC 1221, as implemented by 33 CFR 160.111.
“Existing lightering service” means any lightering service that carried out a lightering operation in the waters of the State with an operating permit prior to the effective date of 46.0 of this regulation.
“Existing service vessel” means a service vessel that has been used in a lightering operation in the waters of the State prior to the effective date of 46.0 of this regulation.
“ Lightering operation ” means the transfer of crude oil from the cargo tank of a ship to be lightered to the cargo tank of a service vessel. Transfers of crude oil from the cargo tanks of a lightering service’s marine tank vessel to the cargo tanks of another marine tank vessel or reverse lightering is exempt from the requirements of 46.0 of this regulation.
“ Lightering service ” means any owner or operator that, under contract, carries out a lightering operation.
“Marine tank vessel” means any marine vessel, which is specifically constructed or converted to carry liquid bulk cargo in cargo tanks.
“New lightering service” means any lightering service that is not an existing lightering service.
“New service vessel” means a service vessel that is not an existing service vessel.
“Ozone Action Day” means a day that is predicted, based on forecasted weather conditions, to reach unhealthy ozone concentrations. Frequently called a Code Red Day, an Ozone Action Day is declared prior to 1430 hours (local time) for the following day.
“Service vessel” means the marine tank vessel receiving crude oil during a lightering operation.
“Ship to be lightered” means the marine tank vessel delivering crude oil during a lightering operation.
“ Uncontrolled lightering ” means the period or periods when VOC emissions are vented from the service vessel to the atmosphere during a lightering operation.
“ Uncontrolled lightering operation ” means a lightering operation conducted without vapor balancing.
“ Vapor balancing ” means the collection and transfer of vapors displaced by the incoming crude oil from the cargo tank of a service vessel into a cargo tank of the ship to be lightered.
“Vapor control system” means an arrangement of piping and equipment used to control vapor emissions collected from a marine tank vessel. For the purposes of 46.0 of this regulation, vapor control system, also, includes vapor balancing.
“Vapor leak” means a gaseous leak that is detectable by sight, sound, or smell.
“ Vapor tight service vessel ” means a marine tank vessel that has successfully demonstrated vapor tightness using the method in either paragraph (c)(1) or (c)(2) of 40 CFR 63.565 within the preceding twelve months.
“Waters of the State” means those waters within the boundaries of the State, including the 12 mile circle described from New Castle and extended to the low water mark on the eastern side of the Delaware River and extending below the 12 mile circle with the middle of the shipping channel through the Delaware River and Bay and extending to the Atlantic Ocean and including those waters of the territorial sea which are in direct contact with the coast of Delaware, extending from the line of ordinary low water seaward for a distance of three geographical miles. This definition shall include any waters beyond the three-mile mark as authorized by Federal Law.
46.3 Standards.
46.3.4 During vapor balancing, the owner or operator of a lightering service subject to 46.0 of this regulation shall verify that there are no vapor leaks in the vapor balancing system of the service vessel. Whenever a vapor leak is detected:
46.4 Compliance schedule.
46.4.1 The owner or operator of a lightering service subject to 46.0 of this regulation shall comply with the following requirements.
46.4.1.1 The owner or operator of an existing lightering service shall provide the following information to the Department not later than 90 days after the effective date of 46.0 of this regulation.
46.4.1.2 The owner or operator of a lightering service shall provide the following information to the Department upon the initial use of a new service vessel in the waters of the State.
46.4.1.3 Compliance with standards.
46.4.1.4 Maximum allowable uncontrolled lightering volume.
46.4.1.4.2 Beginning May 1, 2008, the 12-month rolling total volume of uncontrolled lightering shall not exceed an existing lightering service’s baseline volume multiplied by the percentages listed in Table 46-1 of this regulation.
| Table 46-1 | |
| Beginning on | Maximum allowable uncontrolled lightering volume |
| May 1, 2008 | 80 % |
| May 1, 2010 | 61 % |
| May 1, 2012 | 43 % |
46.4.1.5 The total volume of uncontrolled lightering for any given lightering operation shall be calculated using the following equation.

(46-1)
where,
TUV = the total uncontrolled volume for each given lightering operation. This total volume is used in the determination of 12-month rolling total volume of uncontrolled lightering in 46.4.1.4 of this regulation.
V = the volume of crude oil transferred to the service vessel when displaced vapors are emitted directly to the atmosphere rather than collected and controlled by vapor balancing.
EV = the equivalent volume of crude oil transferred corresponding to the collected and controlled vapors emitted from the service vessel to the atmosphere as a result of depressurization venting.The equivalent volume of crude oil shall be calculated using paragraph (d)(2)(i)(D)(10) of 40 CFR 63.1257 or a method approved by the Department.
i = the individual uncontrolled venting when transferring crude oil.
j = the individual depressurization venting.
m = the total number of uncontrolled ventings of displaced vapors when transferring crude oil for each given lightering operation.
n = the total number of depressurization ventings for each given lightering operation.
46.4.1.6 VOC emissions reduction and audits.
Beginning in February 2010, the Department shall conduct an annual audit of lightering service records to identify the frequency and duration of VOC ventings from the ships to be lightered. If the Department finds that ventings from the ships to be lightered reduce the VOC emission reductions achieved by the lightering services to a level below the maximum allowable uncontrolled lightering volume required in Table 46-1 of this regulation, the Department shall implement solutions, which could include amending 46.0 of this regulation.
46.4.2 Ozone Action Day limitations.
46.4.2.2 If the Department declares consecutive Ozone Action Days, the owner or operator of a lightering service shall, to the greatest extent practicable, minimize uncontrolled lightering operations on the second and subsequent consecutively declared Ozone Action Days as follows:
Beginning May 1, 2007, uncontrolled lightering operations shall be curtailed as follows on any day that the Department declares an Ozone Action Day.
46.5 Compliance Plan.
46.5.2 Initial Compliance.
To demonstrate initial compliance, the owner or operator of a lightering service shall provide the Department with the information specified in 46.5.2.1 and 46.5.2.2 of this regulation.
46.5.3 Ongoing Compliance.
The ongoing compliance demonstration plan shall include, at a minimum, the information specified in 46.5.3.1 through 46.5.3.5 of this regulation.
46.6 Equivalent methods of control.
46.7 Recordkeeping.
46.7.3 Beginning on the effective date of 46.0 of this regulation or upon initial lightering operation in the waters of Delaware, whichever is later, the owner or operator of a lightering service subject to 46.0 of this regulation shall keep the following information for each lightering operation.
46.7.4 Beginning on the effective date of 46.0 of this regulation or upon the initial startup of a service vessel’s vapor balancing system, whichever is later, the owner or operator of a lightering service shall keep the following information.
46.7.4.1 Vapor tightness documentation for the service vessel in accordance with 46.3.2 of this regulation. The documentation shall include, at a minimum, the information specified in 46.7.4.1.1 through 46.7.4.1.6 of this regulation.
The owner or operator of a lightering service subject to 46.0 of this regulation shall keep the records specified in 46.7 of this regulation in a readily accessible location for at least five years. These records shall be made immediately available to the Department on verbal or written request. For the purposes of 46.7 of this regulation, the terms “readily accessible location” and “immediately available” may apply to records located on a service vessel.
46.8 Emergency lightering operation exemption.
46.8.1 The owner or operator of a lightering service that carried out emergency lightering operations shall submit a written notification to the Department within 24 hours of the completion of the emergency lightering operations. The notification shall include, at minimum, the following information.
46.8.1.1 A brief description of the emergency, which may be limited to the following:
46.8.2 The owner or operator of a lightering service that carried out emergency lightering operations shall submit a written report to the Department within 30 days following the completion of the emergency lightering operations. The report shall include, at minimum, the following information.
46.8.2.1 A brief description of the emergency, which may be limited to the following:
The owner or operator of a lightering service shall be exempted from the requirements of 46.0 of this regulation while carrying out emergency lightering operations, except for the requirements of 46.8.1 and 46.8.2 of this regulation.
46.9 Reporting requirements.
46.9.1 The owner or operator of a lightering service subject to 46.0 of this regulation shall submit to the Department an initial compliance certification not later than 90 days after the effective date of 46.0 of this regulation or upon the initial startup of a vapor balancing system for each service vessel, whichever is later. The initial compliance notification shall provide, at a minimum, the following information.
46.9.2 Reports of excess emissions.
The owner or operator of a lightering service subject to 46.0 of this regulation shall, for each occurrence of an excess emission, submit a report to the Department within 30 calendar days of becoming aware of such occurrence. Excess emissions can include, but are not limited to, failing to operate the vapor balancing system when practicable, inadvertently or knowingly venting VOCs from the vapor balancing system to the atmosphere during controlled lightering operations, conducting uncontrolled lightering operations on an Ozone Action Day during prohibited times, exceeding the maximum allowable uncontrolled lightering volume percentages in Table 46-1 of this regulation, etc. The report shall contain the following information, in addition to complying with any other reporting requirements required by the Department.
04/11/2011
47.1 Applicability.
47.2 Definitions. As used in 47.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“Alcohol” means a chemical compound consisting of the hydroxyl (OH) group attached to an alkyl radical and having the general formula CnH2n+1OH, such as ethanol, n-propanol, and iso-propanol.
“Alcohol substitute” means a non-alcohol additive that contains VOCs and is used in the fountain solution to reduce the surface tension of water or to prevent piling (ink build-up).
“Batch” means a supply of fountain solution that is prepared continuously or as a batch and that is used without alteration until completely used or removed from the printing process.
“Cleaning solution” means a liquid that is used to remove ink, including dried ink, and debris from the operating surfaces of the printing press and its parts.
“Fountain solution” means a mixture of water and non-volatile printing chemicals, and additives which reduce the surface tension of the water. The fountain solution wets the non-image areas so that the ink is maintained within the image areas.
“Heatset” means any operation in which heat is required to evaporate ink oil from the printing ink.
"Letterpress printing" means a printing process in which the image is raised relative to the non-image area and the paste ink is transferred to the substrate directly from the image surface.
“Lithography” or “lithographic printing” means a printing process in which the image and non-image areas are chemically differentiated; the image area is oil-receptive and the non-image area is water-receptive. This method differs from other printing methods, in which the image is a raised or recessed surface.
“Non-heatset” or “coldset” means any operation in which printing inks are set without the use of heat. For the purposes of 47.0 of this regulation, ultraviolet-cured and electron beam-cured inks are considered non-heatset operations.
“Offset lithographic printing” means a printing process that transfers the ink film is transferred from the lithographic plate to an intermediary surface (blanket), which, in turn, transfers the ink film to the substrate.
“Press” means a printing production assembly that is composed of one or many units to produce a printed sheet or web.
“Sheet-fed” means a printing operation in which individual sheets of substrate are fed to the press sequentially.
“Total actual VOC emissions” means the quantity of VOCs emitted from all lithographic and letterpress printing operations, including VOC emissions from cleaning materials and activities, during a particular time period.
“Unit” means the smallest complete printing component of a printing press.
“Web” means a continuous roll of paper used as the printing substrate.
47.3 Standards.
47.3.1 No owner or operator of a heatset offset lithographic printing press or a heatset letterpress printing press shall operate the printing press unless the owner or operator installs a control device to reduce VOC emissions from the press dryer exhaust vent by complying with 47.3.1.1, or 47.3.1.2, or 47.3.1.3 at all time the press operates:
47.3.2 No owner or operator of an offset lithographic printing press shall operate the printing press unless the owner or operator meets the requirements listed under 47.3.2.1, 47.3.2.2, or 47.3.2.3 of this regulation.
47.3.2.1 For any heatset web offset lithographic printing press:
47.3.2.1.1 When the fountain solution contains alcohol, the fountain solution on-press (as applied) VOC content shall be maintained:
47.3.2.2 For any non-heatset web offset lithographic printing press:
47.3.2.3 For any sheet-fed offset lithographic printing press, the fountain solution on-press (as-applied) VOC content shall be maintained.
47.3.3 No owner or operator of an offset lithographic printing press or a letterpress printing press shall operate the printing press unless the owner or operator reduces VOC emissions from cleaning solutions by meeting requirements in 47.3.3.1, or 47.3.3.2 and 47.3.3.3, of this regulation:
47.3.3.2 Using of cleaning solutions with a VOC composite partial vapor pressure less than 10 millimeters (mm) mercury (Hg) (0.4 inches [in] Hg) at 20°C (68°F). The VOC composite partial vapor pressure is calculated as follows:

(47-1)
Where:
Wi = Weight of the ith VOC compound, in grams (g);
Ww = Weight of water, in g;
We = Weight of exempt compound, in g;
MWi = Molecular weight of the ith VOC compound, in grams per gram-mole;

MWw = Molecular weight of water, in;
MWe = Molecular weight of exempt compound, in;
PPC = VOC composite partial pressure at 20°C, in mmHg
VPi = Vapor pressure of the ith VOC compound at 20°C, in mmHg
47.4 Control Devices. An owner or operator of an offset lithographic printing press or a letterpress printing press equipped with a control system shall ensure that:
47.5 Test Methods and Procedures.
47.5.4 To determine compliance with 47.3.2 of this regulation, the owner or operator of an offset lithographic printing facility shall perform the following procedures:
47.5.6 To determine compliance with 47.3.3 of this regulation, an owner or operator of an offset lithographic printing press or a letterpress printing press shall:
47.6 Recordkeeping and Reporting.
47.6.1 Requirements for Sources Below Threshold Emission Limit. Any owner or operator of any offset lithography printing facility, any letterpress printing facility, or any facility with both offset lithographic and letterpress printing operations, that emits less than the threshold limit according to 47.1 of this regulation shall comply with the following requirements:
47.6.1.1 Initial Certification. Within six months after April 11, 2011, or upon initial startup of a new printing press, the owner or operator shall certify to the Department that the facility emits less than the threshold limit according to 47.1 of this regulation. Such certification shall include the following information:
47.6.1.2 Recordkeeping. On and after April 11, 2011, the owner or operator shall collect and record all of the following information each year for each offset lithographic printing press and each letterpress printing press and maintain the information at the facility for a period of five years:
47.6.2 Requirements for Sources Above Threshold Emission Limit. Any owner or operator of any offset lithography printing facility, or any letterpress printing facility, or any facility with both offset lithographic and letterpress printing operations, that emits greater than the threshold limit according to 47.1 of this regulation shall comply with the following requirements:
47.6.2.1 Initial Certification. Within six months after April 11, 2011, or upon initial startup of a new printing press, the owner or operator shall certify to the Department that the facility emits greater than the threshold limit according to 47.1 of this regulation. Such certification shall include the following information:
47.6.2.2 Recordkeeping. On and after April 11, 2011, the owner or operator shall collect and record all of the following information each year for each offset lithographic printing press and each letterpress printing press and maintain the information at the facility for a period of five years:
47.6.3 Requirements for Sources Using an Add-On Dryer Exhaust Control Device.
47.6.4 Requirements for Monitoring Fountain Solution VOC Concentration. On and after April 11, 2011, the alcohol concentration in the fountain solution shall be monitored to provide data that can be correlated to the amount of material used when the fountain solution complies with the limits listed in 47.3.2.1 through 47.3.2.3 of this regulation. One of the following methods shall be used to frequently measure the concentration of alcohol in the fountain solution:
47.6.5 Requirements for Monitoring Fountain Solution Temperature. On and after April 11, 2011:
47.6.7 Requirements for Monitoring Other Key Parameters. On and after April 11, 2011, the owner or operator of any offset lithographic printing press or any letterpress printing press shall record daily, and make available to the Department within 45 calendar days upon the Department’s verbal or written request, the following key parameters:
11/29/1994
48.1 Applicability.
48.1.2 The provisions of 48.0 of this regulation do not apply to the following operations:
48.2 Definitions. As used in 48.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments (CAAA), or in 2.0 of this regulation.
“Batch mode” means a non-continuous operation or process in which a discrete quantity or batch of feed is charged into a process unit and distilled or reacted at one time.
“Boiler” means any enclosed combustion device that extracts useful energy in the form of steam.
“By compound” means by individual stream components, not carbon equivalents.
“Continuous recorder” means a data recording device that records an instantaneous data value at least once every 15 minutes.
“Distillation operation” means an operation in which one or more feed stream or streams are separated into two or more exit stream or streams. Each exit stream has component concentrations different from those in the feed stream or streams. The separation is achieved by the redistribution of the components between the liquid and vapor phase as they approach equilibrium within the distillation unit.
“Distillation unit” means a device or vessel in which distillation operations occur, including all associated internal components (such as trays or packing) and accessories (such as reboilers, condensers, vacuum pumps, stream jets, etc.), plus any associated recovery system.
“Engineering assessment” means the use of documented estimation methods or procedures or sound judgment. Engineering assessment includes, but is not limited to, previous test results that are representative of current operating practices at the process unit, bench-scale or pilot-scale test data that are representative of the process under representative operating conditions, a specification or implication of the maximum flow rate within a permit limit applicable to the process vent, a design analysis based on accepted chemical engineering principles, measurable process parameters, or physical or chemical laws or properties. Examples for analytical methods include, but are not limited to, the use of material balances based on process stoichiometry to estimate the maximum VOC concentration, the estimation of the maximum flow rate based on physical equipment design parameters such as pump or blower capacities, the estimation of the total organic compound (TOC) concentration based on saturation conditions, and the estimation of the maximum expected net heating value based on the stream concentration of each organic compound, or, alternatively, as if all TOCs in the stream were the compound with the highest heating value. All data, assumptions, and procedures used in engineering assessments shall be documented.
“Flame zone” means the portion of the combustion chamber in a boiler that is occupied by the flame envelope.
“Flow indicator” means a device that indicates whether gas flow is present in a vent stream.
“Halogenated vent stream” means any vent stream that is determined to have a total concentration of halogen atoms (by volume) contained in organic compounds of 200 ppmv or greater, as determined by Method 18 in Appendix E of this regulation or by engineering assessment or process knowledge that no halogenated organic compounds are present. For example, 150 ppmv of ethylene dichloride would contain 300 ppmv of total halogen atoms.
“Primary fuel” means the fuel that provides the principal heat input to the device. To be considered primary, the fuel must be able to sustain operation without the addition of other fuels.
“Process heater” means a device which transfers heat that is liberated by burning fuel to fluids contained in tubes, including all fluids except water that is heated to produce steam.
“Process unit’ means equipment that is assembled and connected by pipes or ducts to produce, as intermediates or final products, one or more SOCMI chemicals. A process unit can operate independently if it is supplied with sufficient feed or raw materials and sufficient product storage facilities.
“Product” means any compound or SOCMI chemical that is produced as that chemical for sale as a product, by-product, co-product, or intermediate, or for use in the production of other chemicals or compounds.
“Reactor process” means a unit operation in which one or more chemicals, or reactants other than air, are combined or decomposed in such a way that their molecular structures are altered and one or more new organic compounds are formed.
“Recovery device” means an individual unit of equipment, such as an adsorber, a carbon adsorber, or a condenser, that is capable of and used for the purpose of recovering chemicals for use, reuse, or sale.
“Recovery system” means an individual recovery device or series of such devices applied to the same vent stream.
“Synthetic organic chemical manufacturing industry” or “SOCMI” means the industry that produces, as intermediates or final products, one or more of the chemicals listed at 40 Code of Federal Regulations (CFR) Part 60.489 (July 1, 1992).
“Total organic compounds” or “TOC” means those compounds measured according to the procedures of Method 18 in Appendix E of this regulation.
“Total resource effectiveness index value” or “TRE index value” means a measure of the supplemental total resource requirement per unit reduction of VOCs associated with a process vent stream, based on the vent stream flow rate, the emission rate of VOCs, the net heating value, and the corrosion properties (whether or not the vent stream contains halogenated compounds), as quantified by the equations provided in 48.4 of this regulation. The TRE index is a decision tool used to determine if the annual cost of controlling a given vent gas stream is acceptable when considering the emissions reduction achieved.
“Vent stream” means any gas stream which discharges directly from a distillation operation or reactor process to the atmosphere or which discharges indirectly to the atmosphere after diversion through other process equipment. The definition of vent stream excludes relief valve discharges and equipment leaks including, but not limited to, pumps, compressors, and valves.
48.3 Standards.
48.3.1 For individual vent streams within a process unit with a TRE index value of less than or equal to 1.0, the owner or operator shall comply with the standards in 48.3.1.1, 48.3.1.2, or 48.3.1.3 of this regulation.
48.4 Test Methods and Procedures for Total Resource Effectiveness Index Value Determination, Performance Testing, and Exemption Testing. The following methods shall be used as reference methods to demonstrate compliance with 48.3 of this regulation:
48.4.1 The TRE index value of the vent shall be calculated using the following equation:
48.4.1.2 The owner or operator of a unit with a halogenated vent stream, determined as any stream with a total concentration of halogen atoms contained in organic compounds of 200 ppmv or greater, shall use the applicable coefficients in Table 48-1 of this regulation to calculate the TRE index value based on a thermal incinerator and a scrubber.
Table 48-1. Coefficients For Total Resource Effectiveness For Nonhalogenated And Halogenated Vent Streams
| Type of Stream | Control Device Basis | Value of Coefficients | |||
| a | b | c | d | ||
| Non-halogenated | Flare Thermal incinerator 0% heat recovery Thermal incinerator 70% heat recovery | 2.219 3.075 3.803 | 0.183 0.021 0.032 | -0.005 -0.037 -0.042 | 0.359 0.018 0.007 |
| Halogenated | Thermal incinerator and scrubber | 5.470 | 0.181 | -0.040 | 0.004 |

(48-1)
where:
TRE = TRE index value.
Qs = Vent stream flow rate standard cubic meters per minute at a standard temperature of 20 degrees Celsius (°C).
HT = Vent stream net heating value (megajoules per standard cubic meter), as calculated in 48.4.6.6 of this regulation.
ETOC = Hourly emission rate of TOC (minus methane and ethane) (kilograms per hour), as calculated in 48.4.6.4 of this regulation.
a,b,c,d = Coefficients presented in Table 48-1 of 48.0 of this regulation.
48.4.2 For the purpose of demonstrating compliance with the TRE index value, engineering assessment may be used to determine the process vent stream flow rate, the net heating value, and the TOC emission rate for the representative operating condition expected to yield the lowest TRE index value.
48.4.4 The following methods inAppendix E of this regulation, shall be used to demonstrate compliance with the emission limit or percent reduction efficiency requirement listed in 48.3.1.1 of this regulation.
48.4.4.3 The emission rate correction factor, integrated sampling, and analysis procedure of Method 3 shall be used to determine the oxygen concentration (%O2d) for the purpose of determining compliance with the 20 ppmv limit. The sampling site shall be the same as that of the TOC samples, and samples shall be taken during the same time in which the TOC samples are taken. The TOC concentration (Cc), corrected to 3% oxygen, shall be computed using the following equation:

(48-2)
where:
Cc = Concentration of TOC (minus methane and ethane), corrected to 3% oxygen on a dry basis (parts per million by volume).
CTOC = Concentration of TOC (minus methane and ethane) on a dry basis (parts per million by volume).
%O2d = Concentration of oxygen on a dry basis (% by volume).
48.4.4.4 Method 18 shall be used to determine the concentration of TOC (less methane and ethane) at the outlet of the control device when determining compliance with the 20 ppmv limit, or at both the control device inlet and the outlet when the reduction efficiency of the control device is to be determined.
48.4.4.4.2 The emission reduction (R) of TOC (less methane and ethane) shall be determined using the following equation:

(48-3)
where:
R = Emission reduction (percent by weight).
Ei = Mass rate of TOC (minus methane and ethane) entering the control device (kilograms of TOC per hour).
Eo = Mass rate of TOC (minus methane and ethane) discharged to the atmosphere (kilograms of TOC per hour).
48.4.4.4.3 The mass rates of TOC (Ei, Eo) shall be computed using the following equations:

(48-4)

(48-5)
where:
Cij, Coj = Concentration of sample component J of the gas stream at the inlet and outlet of the control device, respectively, on a dry basis (parts per million by volume).
Mij, Moj = Molecular weight of sample component J of the gas stream at the inlet and outlet of the control device, respectively (grams per gram-mole).
Qi, Qo = Flow rate of the gas stream at the inlet and outlet of the control device, respectively (dry standard cubic meters per minute).
K2 = Constant, 2.494x10-6 (parts per million)-1(gram-moles per standard cubic meter)(kilograms per gram)(minutes per hour), where standard temperature for (gram-moles per standard cubic meter) is 20°C.
48.4.4.4.4 The TOC concentration (CTOC) is the sum of the individual components and shall be computed for each run using the following equation:

(48-6)
where:
CTOC = Concentration of TOC (minus methane and ethane) on a dry basis (parts per million by volume).
Cj = Concentration of sample component J on a dry basis (parts per million by volume).
n = Number of components in the sample.
48.4.6 The following test methods found inAppendix Eof this regulation shall be used to determine compliance with the TRE index value.
48.4.6.1 Method 1 or 1A, as appropriate, shall be used for the selection of the sampling sites.
48.4.6.1.2 If any gas stream other than the reactor or distillation vent stream is normally conducted through the final recovery device:
48.4.6.2 The molar composition of the vent stream shall be determined as follows:
48.4.6.4 The emission rate of TOC (minus methane and ethane) (ETOC) in the vent stream shall be calculated using the following equation:

(48-7)
where:
ETOC = Emission rate of TOC (minus methane and ethane) in the sample (kilograms per hour).
K2 = Constant, 2.494x10-6 (parts per million)-1(gram-moles per standard cubic meter)(kilograms per gram)(minutes per hour), where standard temperature for (gram-moles per standard cubic meter) is 20°C.
Cj = Concentration of compound J, on a dry basis (parts per million), as measured by Method 18, as indicated in 48.4.4.4 of this regulation.
Mj = Molecular weight of sample J (grams per gram-mole).
Qs = Vent stream flow rate (standard cubic meters per minute) at a temperature of 20°C.
48.4.6.6 The net heating value of the vent stream shall be calculated using the following equation:

(48-8)
where:
HT = Net heating value of the sample (megajoules per standard cubic meter), where the net enthalpy per mole of vent stream is based on combustion at 25°C and 760 millimeters of mercury, but the standard temperature for determining the volume corresponding to one mole is 20°C, as in the definition of Qs (vent stream flow rate).
K1 = Constant, 1.740x10-7 (parts per million)-1(gram-moles per standard cubic meter)(megajoules per kilocalorie), where standard temperature for (gram-moles per standard cubic meter) is 20°C.
Bws = Water vapor content of the vent stream, proportion by volume; except that if the vent stream passes through a final steam jet and is not condensed, it shall be assumed that Bws = 0.023 in order to correct to 2.3% moisture.
Cj = Concentration on a dry basis of compound J (parts per million), as measured for all organic compounds by Method 18 and measured for hydrogen and carbon monoxide by the ASTM Method D1946-77.
Hj = Net heat of combustion of compound J (kilocalories per gram-mole), based on combustion at 25°C and 760 millimeters of mercury. The heats of combustion of vent stream components shall be determined using ASTM Method D2382-76 if published values are not available or cannot be calculated.
48.4.9 For the purpose of demonstrating that a process vent stream has a VOC concentration of less than 500 ppmv, the following procedures shall be used:
48.4.9.3 Where Method 18 is used, the following procedures shall be used to calculate ppmv TOC concentrations:
48.4.9.4 Where Method 25A is used, the following procedures shall be used to calculate (ppmv) TOC concentrations:
48.5 Monitoring Requirements.
48.5.1 The owner or operator of an affected facility that uses an incinerator to seek compliance with the TOC emission limit or the percent reduction specified in 48.3.1.1 of this regulation shall install, calibrate, maintain, and operate, according to manufacturer's specifications, a temperature monitoring device that is equipped with a continuous recorder and that has an accuracy of ±1% of the temperature being measured, expressed in degrees Celsius or ±0.5°C, whichever is greater.
48.5.4 The owner or operator of an affected facility that seeks to demonstrate compliance with the TRE index value limit specified in 48.3.1.3 or 48.3.2 of this regulation shall install, calibrate, maintain, and operate, according to manufacturer's specifications, the following equipment:
48.5.4.1 Where an absorber is the final recovery device in the recovery system, the following monitoring equipment is required.
48.5.4.4 Where an absorber is used to scrub halogenated streams after an incinerator, boiler, or process heater, the following monitoring equipment is required for the scrubber.
48.5.5 The owner or operator of a process vent using a vent system that contains bypass lines that could divert a vent stream away from the combustion device shall either:
48.6 Reporting/Recordkeeping Requirements.
48.6.1 Each owner or operator with a reactor process or distillation operation subject to 48.0 of this regulation shall keep records of the following parameters that are measured during a performance test or TRE determination, as specified in 48.4 of this regulation, and that are required to be monitored, as specified in 48.5 of this regulation.
48.6.1.1 Where an owner or operator subject to the provisions of 48.0 of this regulation seeks to demonstrate compliance with 48.3.1.1 of this regulation through the use of either a thermal or catalytic incinerator:
48.6.1.2 Where an owner or operator subject to the provisions of 48.0 of this regulation seeks to demonstrate compliance with 48.3.1.1 of this regulation through the use of a boiler or process heater:
48.6.1.4 Where an owner or operator subject to the provisions of 48.0 of this regulation seeks to demonstrate compliance with 48.3.1.3 or 48.3.2 of this regulation:
48.6.2 Each owner or operator with a reactor process or distillation operation seeking to comply with 48.3.1.3 or 48.3.2 of this regulation shall also keep records of the following information:
48.6.5 Each owner or operator with a reactor process of distillation operation subject to the provisions of 48.0 of this regulation shall comply with the following requirements:
11/29/1994
49.1 Applicability.
49.1.2 The provisions of 49.0 of this regulation do not apply to:
49.1.2.5 Storage vessels whose emissions to the atmosphere are covered by:
49.2 Definitions. As used in 49.0 of this regulation, all terms not defined herein shall have the meaning given them in the November 15, 1990 Clean Air Act Amendments, or in 2.0 of this regulation.
“Fill” means the introduction of VOL into a storage vessel but not necessarily to complete capacity.
“Mechanical Shoe Seal” means a metal sheet held vertically against the wall of the storage vessel by springs or weighted levers and connected by braces to the floating roof.
49.3 Standards.
49.3.1 The owner or operator of each storage vessel with a capacity equal to or greater than 40,000 gal which contains a VOL that, as stored, has a maximum true vapor pressure equal to or greater than 1.5 psia but less than 11.1 psia shall equip the storage vessel with the equipment specified in either 49.3.1.1, 49.3.1.2, 49.3.1.3, or 49.3.1.4 of this regulation; whichever is applicable.
49.3.1.1 Each fixed roof tank shall be equipped with an internal floating roof as specified below, or a vapor control system as specified in 49.3.1.3 of this regulation, or an equivalent system as specified in 49.3.1.4 of this regulation.
49.3.1.1.1 Each internal floating roof shall meet all of the specifications stated in 49.3.1.1.2 through 49.3.1.1.12 of this regulation according to the following schedule:
49.3.1.1.5 Each internal floating roof shall be equipped with one of the following closure devices between the wall of the storage vessel and the edge of the internal floating roof:
49.3.1.2 Each external floating roof tank shall be equipped with an external floating roof as specified below, or a vapor control system as specified in 49.3.1.3 of this regulation, or an equivalent system as specified in 49.3.1.4 of this regulation.
49.3.1.2.1 Each external floating roof tank shall meet all of the specifications stated in 49.3.1.2.2 through 49.3.1.2.9 of this regulation according to the following schedule:
49.3.1.2.4 Each external floating roof shall be equipped with a closure device between the wall of the storage vessel and the roof edge.
49.3.1.2.4.4 As determined by the method in 49.4.2.3.1 of this regulation the width of any portion of any gap between the tank wall and:
49.3.1.2.4.5 As determined by the method in 49.4.2.3.2 of this regulation the accumulated area of gaps between the tank wall and:
49.3.1.3 As an alternative to installing the internal floating roof specified in 49.3.1.1, or the external floating roof specified in 49.3.1.2, or as required by 49.3.2.1, or where the control technologies specified in 49.3.1.1 and 49.3.1.2 of this regulation are not appropriate (e.g. horizontal storage vessels), emissions shall be controlled with a closed vent system and a control device.
49.3.1.3.1 Each closed vent system and control device shall meet the specifications stated in 49.3.1.3.2 through 49.3.1.3.4 of this regulation according to the following schedule:
49.3.1.3.2 The closed vent system shall:
49.3.1.4 If, in the Department's judgment, an alternative means of emission limitation will achieve a reduction in emissions at least equivalent to the reduction in emissions achieved by 49.3.1.1, 49.3.1.2, or 49.3.1.3 of this regulation, whichever is applicable, the owner or operator shall:
49.3.1.4.1 Be in compliance with the applicable standard according to the following schedule:
49.3.1.4.2 Submit to the Department a written application including, at a minimum:
49.3.2 The owner or operator of each storage vessel with a capacity equal to or greater than 40,000 gal which contains a VOL that, as stored, has a maximum true vapor pressure equal to or greater than 11.1 psia shall equip the storage vessel with one of the following:
49.4 Inspections. The owner or operator of each storage vessel subject to 49.3.1.1 through 49.3.1.3 of this regulation shall meet the requirements of 49.4.1 through 49.4.4 of this regulation; whichever is applicable.
49.4.1 After installing the control equipment required to meet 49.3.1.1 of this regulation (fixed roof tank with an internal floating roof), the owner or operator shall, at a minimum:
49.4.1.2 Conduct periodic inspections according to the following schedule:
49.4.1.4 The inspection required by 49.4.1.1, 49.4.1.2.2, or 49.4.1.3 of this regulation shall consist of a visual inspection of the internal floating roof, the primary seal, the secondary seal (if one is in service), gaskets, slotted membranes and sleeve seals (if any).
49.4.1.4.3 The owner or operator shall notify the Department in writing at least 30 days prior to the filling of the storage vessel for which the inspection specified in 49.4.1.4 of this regulation is required to afford the Department the opportunity to inspect the storage vessel prior to filling.
49.4.1.5 The inspection required by 49.4.1.2.1 of this regulation shall consist of a visual inspection of the internal floating roof and the primary seal or the secondary seal (if one is in service) through access and roof hatches on the fixed roof.
49.4.2 After installing the control equipment required to meet 49.3.1.2 of this regulation (external floating roof) the owner or operator shall, at a minimum:
49.4.2.1 Conduct the following inspection and measurement:
49.4.2.1.2 Determine the seal gap widths and the gap areas by the method described in 49.4.2.3 of this regulation according to the following schedule:
49.4.2.2 Visually inspect the external floating roof, the primary seal, the secondary seal, and the fittings.
49.4.2.2.3 The owner or operator shall notify the Department in writing at least 30 days prior to the filling of the storage vessel for which the inspection specified in 49.4.2.2 of this regulation is required to afford the Department the opportunity to inspect the storage vessel prior to filling.
49.4.2.3 Seal gap widths and the gap areas shall be determined for the primary seal and for the secondary seal by the following methods:
49.4.2.3.1 Seal gap width.
49.4.2.3.2 Seal gap surface area.
49.4.2.3.4 The owner or operator shall make necessary repairs or empty the storage vessel within 45 days if any seals do not meet the standards listed in 49.3.1.2.4.4 and 49.3.1.2.4.5 of this regulation:
49.4.3 The owner or operator of each storage vessel that is equipped with a closed vent system and control device, other than a flare, as specified in 49.3.1.3 of this regulation shall:
49.4.3.1 Submit to the Department for approval an operating plan containing all of the information listed below.
49.4.3.1.1 Documentation demonstrating that the control device will achieve the required control efficiency during maximum loading conditions.
49.5 Recordkeeping. The owner or operator of each storage vessel subject to the standards in 49.3 of this regulation shall keep records consistent with 49.5.1, 49.5.2, and 49.5.3 (if applicable) of this regulation, and the records required by 49.5.4 through 49.5.7 of this regulation, whichever is applicable. All records, except for the records required by 49.5.2 and by 49.5.6.1 of this regulation, shall be kept for at least five years and shall immediately be submitted to the Department upon verbal or written request. The records required by 49.5.2 and by 49.5.6.1 of this regulation shall be kept for the life of the source.
49.5.1 The owner or operator of each storage vessel shall maintain the following records:
49.5.3 The owner or operator of each vessel storing a mixture of indeterminate or variable composition shall:
49.5.3.2 For vessels in which the vapor pressure of the anticipated liquid composition is greater than 1.0 psia but less than 1.5 psia, conduct an initial physical test of the vapor pressure; and a physical test at least once every six months thereafter as determined by one of the following methods:
49.5.4 After installing control equipment in accordance with 49.3.1.1 of this regulation (fixed roof tank with an internal floating roof), the owner or operator shall:
49.5.4.1 Keep a record of each inspection performed as required by 49.4.1.1, 49.4.1.2, or 49.4.1.3 of this regulation. Each record shall identify:
49.5.5 After installing control equipment in accordance with 49.3.1.2 of this regulation (external floating roof), the owner or operator shall:
49.5.5.1 Keep a record of each inspection performed as required by 49.4.2.1.1 of this regulation. Each record shall identify:
49.5.5.2 Keep a record of each gap measurement performed as required by 49.4.2.1.2 of this regulation. Each record shall identify:
49.5.6 After installing control equipment in accordance with 49.3.1.3 of this regulation (closed vent system and control device), other than a flare, the owner or operator shall keep the following records.
49.5.7 After installing a closed vent system and a flare to comply with 49.3.1.3 of this regulation (closed vent system and control device) the owner or operator shall meet the following requirements.
11/29/1994
50.1 Applicability.
50.1.3
50.1.5 The control requirements in 50.0 of this regulation do not apply to the following source categories for which the U.S. EPA must issue Control Technique Guidelines (CTGs) by November 15, 1993 under the non-attainment provisions of Title I of the November 15, 1990 Clean Air Act Amendments:
50.2 Standards. The owner or operator of any source at a facility subject to 50.0 of this regulation shall do one of the following:
50.2.3 Comply with an alternative control plan that has been approved by the Administrator of the U.S. EPA as part of a State Implementation Plan (SIP) or Federal Implementation Plan (FIP) revision. The alternative control plan shall:
50.4 Reporting and Recordkeeping Requirements for Exempt Non-Control Technique Guideline (Non-CTG) Sources.
50.4.2 Non-Coating Sources. An owner or operator of a non-coating source that is exempt from the emission limitations in 50.2 of this regulation shall submit, upon request by the Department records that document that the source is exempt from these requirements.
50.5 Reporting and Recordkeeping Requirements for Subject Non-CTG Coating Sources.
50.6 Reporting and Recordkeeping Requirements for Subject Non-CTG, Non-Coating Sources.
5 DE Reg. 1106 (11/01/01)
2 DE Reg. 1387 (02/01/99)
2 DE Reg. 1433 (03/01/99)
5 DE Reg. 1101 (11/01/01)
5 DE Reg. 1106 (11/01/01)
5 DE Reg. 1478 (01/01/02)
6 DE Reg. 190 (08/01/02)
6 DE Reg. 971 (02/01/03)