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NR 469.02(33) (33) “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, create a concentrated solvent vapor zone.
NR 469.02(34) (34) “Reduced room draft" means decreasing the flow or movement of air across the top of the freeboard area of the solvent cleaning machine to meet the specifications of s. NR 469.06 (2) (b). Methods of achieving a reduced room draft include, but are 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.
NR 469.02(35) (35) “Remote reservoir cold cleaning machine" means any device in which liquid solvent is pumped to a sink-like work area that drains solvent back into an enclosed container while parts are being cleaned, allowing no solvent to pool in the work area.
NR 469.02(35m) (35m) “Remote reservoir continuous web cleaning machine" means a continuous web cleaning machine in which there is no exposed solvent sump. In these units, the solvent is pumped from an enclosed chamber and is typically applied to the continuous web part through a nozzle or series of nozzles. The solvent then drains from the part and is collected and recycled through the machine, allowing no solvent to pool in the work or cleaning area.
NR 469.02(36) (36) “Soils" means contaminants that are removed from the parts being cleaned. Soils include, but are not limited to, grease, oils, waxes, metal chips, carbon deposits, fluxes and tars.
NR 469.02(37) (37) “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.
NR 469.02(38) (38) “Solvent/air interface area" means, for a vapor cleaning machine, the surface area of the solvent vapor zone that is exposed to the air. For an in-line cleaning machine, it is the total surface area of all the sumps. For a cold cleaning machine, it is the surface area of the liquid solvent that is exposed to the air.
NR 469.02(39) (39) “Solvent cleaning machine" means any device or piece of equipment that uses any halogenated HAP solvent liquid or vapor to remove soils from the surfaces of materials. Types of solvent cleaning machines include, but are not limited to, batch vapor, in-line vapor, in-line cold and batch cold solvent cleaning machines. Buckets, pails and beakers with capacities of 7.6 liters (2 gallons) or less are not considered solvent cleaning machines.
NR 469.02(40) (40) “Solvent vapor zone" means, for a vapor cleaning machine, the area that extends from the liquid solvent surface to the level at which solvent vapor is condensed. This condensation level is defined as the midline height of the primary condenser coils.
NR 469.02(40m) (40m) “Squeegee system" means a system that uses a series of pliable surfaces to remove the solvent film from the surfaces of the continuous web part. These pliable surfaces, called squeegees, are typically made of rubber or plastic media, and need to be periodically replaced to ensure continued proper function.
NR 469.02(41) (41) “Sump" means the part of a solvent cleaning machine where the liquid solvent is located.
NR 469.02(42) (42) “Sump heater coils" means the heating system on a cleaning machine that uses steam, electricity or hot water to heat or boil the liquid solvent.
NR 469.02(42m) (42m) “Superheated part technology" means a system that is part of the continuous web process that heats the continuous web part either directly or indirectly to a temperature above the boiling point of the cleaning solvent. This could include a process step, such as a tooling die that heats the part as it is processed, as long as the part remains superheated through the cleaning machine.
NR 469.02(43) (43) “Superheated vapor system" means a system that heats the solvent vapor, either passively or actively, to a temperature above the solvent's boiling point. Parts are held in the superheated vapor before exiting the machine to evaporate the liquid solvent on them. Hot vapor recycle is an example of a superheated vapor system.
NR 469.02(44) (44) “Vapor cleaning machine" means a batch or in-line solvent cleaning machine that boils liquid solvent generating solvent vapor that is used as a part of the cleaning or drying cycle.
NR 469.02(45) (45) “Water layer" means a layer of water that floats above the denser solvent and provides control of solvent emissions.
NR 469.02 Note Note: In many cases, the solvent used in batch cold cleaning machines is sold containing the appropriate amount of water to create a water cover.
NR 469.02(46) (46) “Working mode" means the time period when the solvent cleaning machine is actively cleaning parts.
NR 469.02(47) (47) “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 in the cleaning machine. A cover that is used during the working mode is opened only during parts entry and removal. A cover that meets this definition may also be used as an idling-mode cover if that definition is also met.
NR 469.02 History History: Cr. Register, March, 1997, No. 495, eff. 4-1-97; CR 07-105: cr. (1m), (8m), (9m), (35m), (40m) and (42m), am. (32) Register December 2008 No. 636, eff. 1-1-09.
NR 469.03 NR 469.03Batch cold cleaning machine standards.
NR 469.03(1)(1) Except as provided in sub. (4), each owner or operator of an immersion batch cold solvent cleaning machine shall comply with one of the following requirements:
NR 469.03(1)(a) (a) Employ a tightly fitting cover on the machine that shall be closed at all times except during parts entry and removal, and a water layer that has a minimum thickness of 2.5 centimeters (1.0 inch) on the surface of the solvent within the cleaning machine.
NR 469.03(1)(b) (b) Employ a tightly fitting cover on the machine that shall be closed at all times except during parts entry and removal, and a freeboard ratio of 0.75 or greater; and comply with the work and operational practices specified in sub. (3).
NR 469.03(2) (2) Each owner or operator of a remote-reservoir batch cold solvent cleaning machine shall employ a tightly fitting cover over the solvent sump that shall be closed at all times except during the cleaning of parts and comply with the work and operational practices specified in sub. (3).
NR 469.03(3) (3) Each owner or operator of a batch cold solvent cleaning machine complying with sub. (1) (b) or (2) shall comply with the work and operational practice requirements specified in pars. (a) to (i), as applicable.
NR 469.03(3)(a) (a) All waste solvent shall be collected and stored in closed containers. Each closed container may contain a device that allows pressure relief, but that device may not allow liquid solvent to drain from the container.
NR 469.03(3)(b) (b) If a flexible hose or flushing device is used, flushing shall be performed only within the freeboard area of the solvent cleaning machine.
NR 469.03(3)(c) (c) The owner or operator shall drain solvent cleaned parts for 15 seconds or until dripping has stopped, whichever is longer. Parts having cavities or blind holes shall be tipped or rotated while draining.
NR 469.03(3)(d) (d) The owner or operator shall ensure that the solvent level does not exceed the fill line.
NR 469.03(3)(e) (e) Spills during solvent transfer shall be wiped up immediately. The wipe rags shall be stored in covered containers meeting the requirements of par. (a).
NR 469.03(3)(f) (f) When an air- or pump-agitated solvent bath is used, the owner or operator shall ensure that the agitator is operated to produce a rolling motion of the solvent but not observable splashing against tank walls or parts being cleaned.
NR 469.03(3)(g) (g) The owner or operator shall ensure that, when the cover is open, the cold cleaning machine is not exposed to drafts greater than 40 meters per minute (132 feet per minute), as measured between one and 2 meters (3.3 and 6.6 feet) upwind and at the same elevation as the tank lip.
NR 469.03(3)(h) (h) Except as provided in par. (i), sponges, fabric, wood and paper products may not be cleaned.
NR 469.03(3)(i) (i) The prohibition in par. (h) does not apply to the cleaning of porous materials that are part of polychlorinated biphenyl (PCB) laden transformers if those transformers are handled throughout the cleaning process and disposed of in compliance with an approved PCB disposal permit issued in accordance with the Toxic Substances Control Act (15 USC 2605).
NR 469.03(3m) (3m) Each owner or operator subject to the requirements of sub. (3) (a) to (h) may request to use measures other than those described in sub. (3) (a) to (h). The owner or operator shall demonstrate to the department that the alternative measures will result in equivalent or better emissions control compared to the measures described in sub. (3) (a) to (h).
NR 469.03 Note Note: For example, storing solvent and solvent-laden materials in an enclosed area that is ventilated to a solvent recovery or destruction device may be considered an acceptable alternative.
NR 469.03(4) (4) Each owner or operator of an immersion batch cold cleaning machine that is not exempt under s. NR 423.03 (2) (a), (b), (c) or (h), but is exempt under s. NR 423.03 (2) (i), shall comply with one of the following requirements:
NR 469.03(4)(a) (a) Employ a tightly fitting cover on the machine that shall be closed at all times except during parts entry and removal, and a water layer that has a minimum thickness of 2.5 centimeters (1.0 inch) on the surface of the solvent within the cleaning machine; and comply with the work and operational practices specified in sub. (5).
NR 469.03(4)(b) (b) Employ a tightly fitting cover on the machine that shall be closed at all times except during parts entry and removal, and a freeboard ratio of 1.0 or greater; and comply with the work and operational practices specified in sub. (3).
NR 469.03(5) (5) Each owner or operator of a batch cold solvent cleaning machine complying with sub. (4) (a) shall comply with the work and operational practices specified in pars. (a) to (d).
NR 469.03(5)(a) (a) Equip the machine with a facility for draining cleaned parts, with the drainage facility constructed so that parts are enclosed under the cover while draining, except that the drainage facility may be external for applications where an internal type cannot fit into the cleaning system.
NR 469.03(5)(b) (b) If used, supply a solvent spray that is a solid fluid stream, not a fine, atomized or shower type spray, at a pressure that does not cause splashing.
NR 469.03(5)(c) (c) Provide a permanent, conspicuous label, summarizing the operating requirements.
NR 469.03(5)(d) (d) Provide supervision or instruction adequate to ensure the operation is conducted in accord with all of the following:
NR 469.03(5)(d)1. 1. Close the cover whenever parts are not being handled in the cleaner.
NR 469.03(5)(d)2. 2. Drain the cleaned parts for at least 15 seconds or until dripping ceases.
NR 469.03(5)(d)3. 3. Store waste solvent only in covered containers and not dispose of waste solvent or transfer it to another person in such a way as to cause greater than 15% of the waste solvent, by weight, to evaporate into the ambient air during ozone season, s. NR 419.04 notwithstanding.
NR 469.03(5)(d)4. 4. Repair solvent leaks immediately, or shut down the machine until the leaks are repaired.
NR 469.03 Note Note: Subsections (4) and (5) contain pertinent language previously applicable under s. NR 423.03 (3) and now applicable under this chapter instead to owners and operators of immersion batch cleaning machines that use solvents that contain halogenated HAP compounds that are also VOCs.
NR 469.03(6) (6) Each owner or operator of a new batch cold cleaning machine shall comply with the initial notification reporting requirements as described in s. NR 469.12 (1). Each owner or operator of a batch cold cleaning machine shall comply with the initial statement of compliance reporting requirements as described in s. NR 469.12 (2). No further reporting or recordkeeping is required.
NR 469.03(7) (7) Each owner or operator of a batch cold cleaning machine shall submit an initial notification report as described in s. NR 469.12 (1) and an initial statement of compliance as described in s. NR 469.12 (2).
NR 469.03 History History: Cr. Register, March, 1997, No. 495, eff. 4-1-97; CR 07-105: r. (1) (c), (2) (b) and (4) (c), am. (3) (intro.) and (h), cr. (3) (i), (3m) and (7) Register December 2008 No. 636, eff. 1-1-09; corrections in (2) and (3) (intro.) made under 13.92 (4) (b) 1. and 7., Stats., Register December 2008 No. 636.
NR 469.04 NR 469.04Batch vapor and in-line cleaning machine standards.
NR 469.04(1) (1) Except as provided in s. NR 469.08 for all cleaning machines, each owner or operator of a solvent cleaning machine subject to the provisions of this chapter shall ensure that each existing or new batch vapor or in-line solvent cleaning machine subject to the provisions of this chapter conforms to the design requirements specified in pars. (a) to (g). The owner of operator of a continuous web cleaning machine shall comply with the requirements of s. NR 469.073 or 469.077, as appropriate, in lieu of complying with this paragraph.
NR 469.04 Note Note: Owners and operators of batch vapor and in-line cleaning machines should also refer to ss. NR 469.05 and 469.06.
NR 469.04(1)(a) (a) Each cleaning machine shall be designed or operated to meet one of the following requirements:
NR 469.04(1)(a)1. 1. Equip the cleaning machine with an idling and downtime mode cover, as described in s. NR 469.05 (1) (a), that may be readily opened or closed, that completely covers the cleaning machine openings when in place, and is free of cracks, holes and other defects.
NR 469.04(1)(a)2. 2. Use reduced room draft as described in s. NR 469.06 (2) (b).
NR 469.04(1)(b) (b) Each cleaning machine shall have a freeboard ratio of 0.75 or greater.
NR 469.04(1)(c) (c) Each cleaning machine shall have an automated parts handling system capable of moving parts or parts baskets at a speed of 3.4 meters per minute (11 feet per minute) or less from the initial loading of parts through removal of cleaned parts.
NR 469.04(1)(d) (d) Each vapor cleaning machine shall be equipped with a device that shuts off the sump heat if the sump liquid solvent level drops to the sump heater coils. This requirement does not apply to a vapor cleaning machine that uses steam to heat the solvent.
NR 469.04(1)(e) (e) Each vapor cleaning machine shall be equipped with a vapor level control device that shuts off sump heat if the vapor level in the vapor cleaning machine rises above the height of the primary condenser.
NR 469.04(1)(f) (f) Each vapor cleaning machine shall have a primary condenser.
NR 469.04(1)(g) (g) Each cleaning machine that uses a lip exhaust shall be designed and operated to route all collected solvent vapors through a properly operated and maintained carbon adsorber that meets the requirements of s. NR 469.06 (2) (g).
NR 469.04(2) (2) Except as provided in s. NR 469.08, each owner or operator of an existing or new batch vapor cleaning machine shall comply with either par. (a) or (b).
NR 469.04(2)(a) (a) Each owner or operator of a batch vapor cleaning machine with a solvent/air interface area of 1.21 square meters (13 square feet) or less shall comply with the requirements specified in either subd. 1. or 2.
NR 469.04(2)(a)1. 1. Employ one of the control combinations listed in Table 1 or other equivalent methods of control determined using the procedures in sub. (4).
Table 1. Control Combinations for Batch Vapor Solvent Cleaning Machines With a Solvent/Air Interface Area of 1.21 Square Meters (13 Square Feet) or Less - See PDF for table PDF - See PDF for table PDF
NR 469.04 Note Note: Unlike most of the control techniques available for complying with this rule, carbon adsorbers are not considered to be a pollution prevention measure. Use of such units may impose additional cost and burden for a number of reasons. First, carbon adsorption units are generally more expensive than other controls listed in the options. Second, these units may present cross-media impacts such as effluent discharges if not properly operated and maintained, and spent carbon beds have to be disposed of as hazardous waste. When making decisions about what controls to install on halogenated solvent cleaning machines to meet the requirements of this rule, all of these factors should be weighed and pollution prevention measures are encouraged wherever possible.
NR 469.04(2)(a)2. 2. Demonstrate that the solvent cleaning machine can achieve and maintain an idling emission limit of 0.22 kilograms per hour per square meter (0.045 pounds per hour per square foot) of solvent/air interface area as determined using the procedures in s. NR 469.09 (1).
NR 469.04 Note Note: Owners and operators who choose to comply with an idling emission limit should also refer to s. NR 469.07.
NR 469.04(2)(b) (b) Each owner or operator of a batch vapor cleaning machine with a solvent/air interface area greater than 1.21 square meters (13 square feet) shall comply with the requirements specified in either subd. 1. or 2.
NR 469.04(2)(b)1. 1. Employ one of the control combinations listed in Table 2 or other equivalent methods of control determined using the procedures in sub. (4).
Table 2. Control Combinations for Batch Vapor Solvent Cleaning Machines With a Solvent/Air Interface Area Greater Than 1.21 Square Meters (13 Square Feet) - See PDF for table PDF
NR 469.04 Note Note: Unlike most of the control techniques available for complying with this rule, carbon adsorbers are not considered to be a pollution prevention measure. Use of such units may impose additional cost and burden for a number of reasons. First, carbon adsorption units are generally more expensive than other controls listed in the options. Second, these units may present cross-media impacts such as effluent discharges if not properly operated and maintained, and spent carbon beds have to be disposed of as hazardous waste. When making decisions about what controls to install on halogenated solvent cleaning machines to meet the requirements of this rule, all of these factors should be weighed and pollution prevention measures are encouraged wherever possible.
NR 469.04(2)(b)2. 2. Demonstrate that the solvent cleaning machine can achieve and maintain an idling emission limit of 0.22 kilograms per hour per square meter (0.045 pounds per hour per square foot) of solvent/air interface area as determined using the procedures in s. NR 469.09 (1).
NR 469.04 Note Note: Owners and operators who choose to comply with an idling emission limit should also refer to s. NR 469.07.
NR 469.04(3) (3) Except as provided in s. NR 469.08 for all cleaning machines, each owner or operator of an in-line cleaning machine shall comply with par. (a) or (b), as appropriate. The owner of operator of a continuous web cleaning machine shall comply with the requirements of s. NR 469.073 or 469.077, as appropriate, in lieu of complying with this section.
NR 469.04(3)(a) (a) Each owner or operator of an existing in-line cleaning machine shall comply with the requirements specified in either subd. 1. or 2.
NR 469.04(3)(a)1. 1. Employ one of the control combinations listed in Table 3 or other equivalent methods of control determined using the procedures in sub. (4).
Table 3. Control Combinations for Existing In-line Solvent Cleaning Machines - See PDF for table PDF
NR 469.04 Note Note: Unlike most of the control techniques available for complying with this rule, carbon adsorbers are not considered to be a pollution prevention measure. Use of such units may impose additional cost and burden for a number of reasons. First, carbon adsorption units are generally more expensive than other controls listed in the options. Second, these units may present cross-media impacts such as effluent discharges if not properly operated and maintained, and spent carbon beds have to be disposed of as hazardous waste. When making decisions about what controls to install on halogenated solvent cleaning machines to meet the requirements of this rule, all of these factors should be weighed and pollution prevention measures are encouraged wherever possible.
NR 469.04(3)(a)2. 2. Demonstrate that the solvent cleaning machine can achieve and maintain an idling emission limit of 0.10 kilograms per hour per square meter (0.021 pounds per hour per square foot) of solvent/air interface area as determined using the procedures in s. NR 469.09 (1).
NR 469.04 Note Note: Owners and operators who choose to comply with an idling emission limit should also refer to s. NR 469.07.
NR 469.04(3)(b) (b) Each owner or operator of a new in-line cleaning machine shall comply with the requirements specified in either subd. 1. or 2.
NR 469.04(3)(b)1. 1. Employ one of the control combinations listed in Table 4 or other equivalent methods of control determined using the procedures in sub. (4).
Table 4. Control Combinations for New In-line
Solvent Cleaning Machines - See PDF for table PDF
NR 469.04 Note Note: Unlike most of the control techniques available for complying with this rule, carbon adsorbers are not considered to be a pollution prevention measure. Use of such units may impose additional cost and burden for a number of reasons. First, carbon adsorption units are generally more expensive than other controls listed in the options. Second, these units may present cross-media impacts such as effluent discharges if not properly operated and maintained, and spent carbon beds have to be disposed of as hazardous waste. When making decisions about what controls to install on halogenated solvent cleaning machines to meet the requirements of this rule, all of these factors should be weighed and pollution prevention measures are encouraged wherever possible.
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Published under s. 35.93, Stats. Updated on the first day of each month. Entire code is always current. The Register date on each page is the date the chapter was last published.