NR 468.20(2)(c)
(c) “Colorimetric detector tube" means a glass tube, sealed prior to use, containing material impregnated with a chemical that is sensitive to perchloroethylene and designed to measure the concentration of perchloroethylene in air.
NR 468.20(2)(d)
(d) “Construction", for purposes of this section, means the on site fabrication, erection or installation of a dry cleaning system subject to this section.
NR 468.20(2)(dm)
(dm) “Desorption" means regeneration of a carbon adsorber by removal of the perchloroethylene adsorbed on the carbon.
NR 468.20(2)(e)
(e) “Diverter valve" means a flow control device that prevents room air from passing through a refrigerated condenser when the door of the dry cleaning machine is open.
NR 468.20(2)(em)
(em) “Dry cleaning" means the process of cleaning articles using perchloroethylene.
NR 468.20(2)(f)
(f) “Dry cleaning cycle" means the washing and drying of articles in a dry-to-dry machine or transfer machine system.
NR 468.20(2)(fm)
(fm) “Dry cleaning facility" means an establishment with one or more dry cleaning systems.
NR 468.20(2)(g)
(g) “Dry cleaning machine" means a dry-to-dry machine or each machine of a transfer machine system.
NR 468.20(2)(gm)
(gm) “Dry cleaning machine drum" means the perforated container inside the dry cleaning machine that holds the articles during dry cleaning.
NR 468.20(2)(h)
(h) “Dry cleaning system" means a dry-to-dry machine and its ancillary equipment or a transfer machine system and its ancillary equipment.
NR 468.20(2)(hm)
(hm) “Dryer" means a machine used to remove perchloroethylene from articles by tumbling them in a heated air stream (see reclaimer).
NR 468.20(2)(i)
(i) “Dry-to-dry machine" means a one-machine dry cleaning operation in which washing and drying are performed in the same machine.
NR 468.20(2)(im)
(im) “Equivalent control device" means an equivalent emission control technology as determined by the administrator.
NR 468.20 Note
Note: The procedure for making this determination is found under
40 CFR 63.325 as in effect on July 1, 1994.
NR 468.20(2)(j)
(j) “Exhaust damper" means a flow control device that prevents the air-perchloroethylene gas-vapor stream from exiting the dry cleaning machine into a carbon adsorber before room air is drawn into the dry cleaning machine.
NR 468.20(2)(jm)
(jm) “Existing" means a dry cleaning system on which construction or reconstruction commenced before December 9, 1991.
NR 468.20(2)(k)
(k) “Filter" means a porous device through which perchloroethylene is passed to remove contaminants in suspension. Examples include, but are not limited to, lint filter (button trap), cartridge filter, tubular filter, regenerative filter, prefilter, polishing filter and spin disc filter.
NR 468.20(2)(km)
(km) “Heating coil" means the device used to heat the air stream circulated from the dry cleaning machine drum, after perchloroethylene has been condensed from the air stream and before the stream reenters the dry cleaning machine drum.
NR 468.20(2)(Lm)
(Lm) “Muck cooker" means a device for heating perchloroethylene-laden waste material to volatilize and recover perchloroethylene.
NR 468.20(2)(m)
(m) “New" means a dry cleaning system on which construction or reconstruction commenced on or after December 9, 1991.
NR 468.20(2)(mm)
(mm) “Perceptible leaks" mean any perchloroethylene vapor or liquid leaks that are obvious from any of the following:
NR 468.20(2)(mm)3.
3. The detection of gas flow by passing the fingers over the surface of equipment.
NR 468.20(2)(n)
(n) “Perchloroethylene consumption" means the total volume of perchloroethylene purchased based upon purchase receipts or other reliable measures.
NR 468.20(2)(nm)
(nm) “Reclaimer" means a machine used to remove perchloroethylene from articles by tumbling them in a heated air stream (see dryer).
NR 468.20(2)(o)
(o) “Reconstruction", for purposes of this section, means replacement of a washer, dryer, or reclaimer; or replacement of any components of a dry cleaning system to such an extent that the fixed capital cost of the new components exceeds 50% of the fixed capital cost that would be required to construct a comparable new source.
NR 468.20(2)(om)
(om) “Refrigerated condenser" means a vapor recovery system into which an air-perchloroethylene gas-vapor stream is routed and the perchloroethylene is condensed by cooling the gas-vapor stream.
NR 468.20(2)(p)
(p) “Refrigerated condenser coil" means the coil containing the chilled liquid used to cool and condense the perchloroethylene.
NR 468.20(2)(pm)
(pm) “Room enclosure" means a stationary structure that encloses a transfer machine system, and is vented to a carbon adsorber or an equivalent control device during operation of the transfer machine system.
NR 468.20(2)(q)
(q) “Source", for purposes of this section, means each dry cleaning system.
NR 468.20(2)(qm)
(qm) “Still" means any device used to volatilize and recover perchloroethylene from contaminated perchloroethylene.
NR 468.20(2)(r)
(r) “Transfer machine system" means a multiple-machine dry cleaning operation in which washing and drying are performed in different machines. Examples include, but are not limited to:
NR 468.20(2)(rm)
(rm) “Washer" means a machine used to clean articles by immersing them in perchloroethylene. This includes a dry-to-dry machine when used with a reclaimer.
NR 468.20(2)(s)
(s) “Water separator" means any device used to recover perchloroethylene from a water-perchloroethylene mixture.
NR 468.20(3)(a)(a) The owner or operator of each existing dry cleaning system shall comply with either
subd. 1. or
2. and shall comply with
subd. 3. if applicable.
NR 468.20(3)(a)1.
1. Route the air-perchloroethylene gas-vapor stream contained within each dry cleaning machine through a refrigerated condenser or an equivalent control device.
NR 468.20(3)(a)2.
2. Route the air-perchloroethylene gas-vapor stream contained within each dry cleaning machine through a carbon adsorber installed on the dry cleaning machine prior to September 22, 1993.
NR 468.20(3)(a)3.
3. Contain the dry cleaning machine inside a room enclosure if the dry cleaning machine is a transfer machine system located at a major source. Each room enclosure shall be constructed of materials impermeable to perchloroethylene and designed and operated to maintain a negative pressure at each opening at all times that the machine is operating.
NR 468.20(3)(b)
(b) The owner or operator of each new dry cleaning system shall do all of the following:
NR 468.20(3)(b)1.
1. Route the air-perchloroethylene gas-vapor stream contained within each dry cleaning machine through a refrigerated condenser or an equivalent control device.
NR 468.20(3)(b)2.
2. Eliminate any emission of perchloroethylene during the transfer of articles between the washer and dryers.
NR 468.20 Note
Note: Subdivision 2., in effect, prohibits the installation of transfer machine systems because such systems normally cannot meet this provision.
NR 468.20(3)(b)3.
3. Pass the air-perchloroethylene gas-vapor stream from inside the dry cleaning machine drum through a carbon adsorber or equivalent control device immediately before or as the door of the dry cleaning machine is opened if the dry cleaning machine is located at a major source.
NR 468.20(3)(c)
(c) The owner or operator shall close the door of each dry cleaning machine immediately after transferring articles to or from the machine, and shall keep the door closed at all other times.
NR 468.20(3)(d)
(d) The owner or operator of each dry cleaning system shall operate and maintain the system according to the manufacturers' specifications and recommendations.
NR 468.20(3)(e)
(e) Each refrigerated condenser used for the purposes of complying with
par. (a) or
(b) and installed on a dry-to-dry machine, dryer or reclaimer shall be all of the following:
NR 468.20(3)(e)1.
1. Operated to not vent or release the air-perchloroethylene gas-vapor stream contained within the dry cleaning machine to the atmosphere while the dry cleaning machine drum is rotating.
NR 468.20(3)(e)3.
3. Operated with a diverter valve, which prevents air drawn into the dry cleaning machine when the door of the machine is open from passing through the refrigerated condenser.
NR 468.20(3)(f)
(f) Each refrigerated condenser used for the purpose of complying with
par. (a) and installed on a washer shall comply with all of the following requirements:
NR 468.20(3)(f)1.
1. It shall be operated to not vent the air-perchloroethylene gas-vapor contained within the washer to the atmosphere until the washer door is opened.
NR 468.20(3)(f)3.
3. It may not use the same refrigerated condenser coil for the washer that is used by a dry-to-dry machine, dryer or reclaimer.
NR 468.20(3)(g)
(g) Each carbon adsorber used for the purposes of complying with
par. (a) or
(b) shall meet all of the following requirements:
NR 468.20(3)(g)1.
1. It may not be bypassed to vent or release any air-perchloroethylene gas-vapor stream to the atmosphere at any time.
NR 468.20(3)(h)
(h) Each room enclosure used for the purposes of complying with
par. (a) 3. shall meet all of the following requirements:
NR 468.20(3)(h)1.
1. It shall be operated to vent all air from the room enclosure through a carbon adsorber or an equivalent control device.
NR 468.20(3)(i)
(i) The owner or operator of an affected facility shall drain all cartridge filters in their housing, or other sealed container, for a minimum of 24 hours, or shall treat such filters in an equivalent manner, before removal from the dry cleaning facility.
NR 468.20(3)(j)
(j) The owner or operator of an affected facility shall store all perchloroethylene and wastes that contain perchloroethylene in solvent tanks or solvent containers with no perceptible leaks.
NR 468.20(3)(k)
(k) Except as provided in
par. (L), the owner or operator of a dry cleaning system shall inspect all of the following components weekly for perceptible leaks while the dry cleaning system is operating:
NR 468.20(3)(L)
(L) The owner or operator of a dry cleaning facility with a total facility consumption below the applicable consumption levels of
sub. (1) (d) or
(e) shall inspect the components listed in
par. (k) biweekly for perceptible leaks while the dry cleaning system is operating.
NR 468.20(3)(m)1.1. Except as provided under
subd. 2., the owner or operator of a dry cleaning system shall repair all perceptible leaks detected under
par. (k) or
(L) within 24 hours.
NR 468.20(3)(m)2.
2. If repair parts must be ordered, either a written or verbal order for those parts shall be initiated within 2 working days of detecting such a leak. Such repair parts shall be installed within 5 working days after receipt.
NR 468.20(3)(n)
(n) If parameter values monitored under
par. (e),
(f) or
(g) do not meet the values specified in
sub. (4) (a),
(b) or
(c), adjustments or repairs shall be made to the dry cleaning system or control device to meet those values. If repair parts must be ordered, either a written or verbal order for such parts shall be initiated within 2 working days of detecting such a parameter value. Such repair parts shall be installed within 5 working days after receipt.
NR 468.20(4)(a)1.
1. Measure the temperature of the air-perchloroethylene gas-vapor stream on the outlet side of the refrigerated condenser on a dry-to-dry machine, dryer, or reclaimer weekly with a temperature sensor to determine if it is equal to or less than 7.2
°C (45
°F). The temperature sensor shall be used according to the manufacturer's instructions and shall be designed to measure a temperature of 7.2
°C (45
°F) to an accuracy of
+ 1.1
°C (
+ 2
°F).
NR 468.20(4)(a)2.
2. Calculate the difference between the temperature of the air-perchloroethylene gas-vapor stream entering the refrigerated condenser on a washer and the temperature of the air-perchloroethylene gas-vapor stream exiting the refrigerated condenser on the washer weekly to determine that the difference is greater than or equal to 11.1
°C (20
°F).
NR 468.20(4)(a)2.a.
a. Measurements of the inlet and outlet streams shall be made with a temperature sensor. Each temperature sensor shall be used according to the manufacturer's instructions, and designed to measure at least a temperature range from 0
°C (32
°F) to 48.9
°C (120
°F) to an accuracy of
+1.1
°C (
+2
°F).