NR 440.57(2)(a)3.
3. “Curing oven" means a device that uses heat to dry or cure the coatings applied to large appliance parts or products.
NR 440.57(2)(a)4.
4. “Electrodeposition" or “EDP" means a method of coating application in which the large appliance part or product is submerged in a tank filled with coating material suspended in water and an electrical potential is used to enhance deposition of the material on the part or product.
NR 440.57(2)(a)5.
5. “Flashoff area" means the portion of a surface coating line between the coating application station and the curing oven.
NR 440.57(2)(a)6.
6. “Large appliance part" means any organic surface-coated metal lid, door, casing, panel or other interior or exterior metal part or accessory that is assembled to form a large appliance product. Parts subject to in-use temperatures in excess of 250
°F are not included in this definition.
NR 440.57(2)(a)7.
7. “Large appliance product" means any organic surface-coated metal range, oven, microwave oven, refrigerator, freezer, washer, dryer, dishwasher, water heater or trash compactor manufactured for household, commercial or recreational use.
NR 440.57(2)(a)8.
8. “Large appliance surface coating line" means that portion of a large appliance assembly plant engaged in the application and curing of organic surface coatings on large appliance parts or products.
NR 440.57(2)(a)9.
9. “Organic coating" means any coating used in a surface coating operation, including dilution solvents, from which VOC emissions occur during the application or the curing process. For the purpose of this section, powder coatings are not included in this definition.
NR 440.57(2)(a)10.
10. “Powder coating" means any surface coating that is applied as a dry powder and is fused into a continuous coating film through the use of heat.
NR 440.57(2)(a)11.
11. “Spray booth" means the structure housing automatic or manual spray application equipment where a coating is applied to large appliance parts or products.
NR 440.57(2)(a)12.
12. “Surface coating operation" means the system on a large appliance surface coating line used to apply and dry or cure an organic coating on the surface of large appliance parts or products. The surface coating operation may be a prime coat or a topcoat operation and includes the coating application station or stations, flashoff area and curing oven.
NR 440.57(2)(a)13.
13. “Transfer efficiency" means the ratio of the amount of coating solids deposited onto the surface of a large appliance part or product to the total amount of the coating solids used.
NR 440.57(2)(a)14.
14. “VOC content" means the proportion of a coating that is volatile organic compounds (VOCs), expressed as kilograms of VOCs per liter of coating solids.
NR 440.57(2)(a)15.
15. “VOC emissions" means the mass of volatile organic compounds (VOCs), expressed as kilograms of VOCs per liter of applied coating solids, emitted from a surface coating operation.
NR 440.57(2)(b)
(b) As used in this section, symbols not defined in this paragraph have the meanings given in
s. NR 440.03.
NR 440.57(2)(b)1.
1. C
a is
the concentration of VOCs in a gas stream leaving a control device and entering the atmosphere (parts per million by volume, as carbon).
NR 440.57(2)(b)2.
2. C
b is the concentration of VOCs in a gas stream entering a control device (parts per million by volume, as carbon).
NR 440.57(2)(b)3.
3. C
f is the concentration of VOCs in a gas stream emitted directly to the atmosphere (parts per million by volume, as carbon).
NR 440.57(2)(b)4.
4. D
c is the density of coating (or input stream), as received (kilograms per liter).
NR 440.57(2)(b)5.
5. D
d is the density of a VOC solvent added to coatings (kilograms per liter).
NR 440.57(2)(b)6.
6. D
r is the density of a VOC solvent recovered by an emission control device (kilograms per liter).
NR 440.57(2)(b)7.
7. E is the VOC destruction efficiency of a control device (fraction).
NR 440.57(2)(b)8.
8. F is the proportion of total VOCs emitted by an affected facility that enters a control device (fraction).
NR 440.57(2)(b)9.
9. G is the volume-weighted average mass of VOCs in coatings consumed in a calendar month per unit volume of applied coating solids (kilograms per liter).
NR 440.57(2)(b)12.
12. L
r is the volume of VOC solvent recovered by an emission control device (liters).
NR 440.57(2)(b)15.
15. M
o is the mass of VOCs in coatings consumed, as received (kilograms).
NR 440.57(2)(b)16.
16. M
r is the mass of VOCs recovered by an emission control device (kilograms).
NR 440.57(2)(b)17.
17. Q
a is the volumetric flow rate of a gas stream leaving a control device and entering the atmosphere (dry standard cubic meters per hour).
NR 440.57(2)(b)18.
18. Q
b is the volumetric flow rate of a gas stream entering a control device (dry standard cubic meters per hour).
NR 440.57(2)(b)19.
19. Q
f is the volumetric flow rate of a gas stream emitted directly to the atmosphere (dry standard cubic meters per hour).
NR 440.57(2)(b)20.
20. R is the overall VOC emission reduction achieved for an affected facility (fraction).
NR 440.57(2)(b)22.
22. V
s is the proportion of solids in a coating (or input stream), as received (fraction by volume).
NR 440.57(2)(b)23.
23. W
o is the proportion of VOCs in a coating (or input stream), as received (fraction by weight).
NR 440.57(3)
(3) Standard for volatile organic compounds. On and after the date on which the performance test required by
s. NR 440.08 is completed, no owner or operator of an affected facility subject to the provisions of this section may discharge or cause the discharge of VOC emissions that exceed 0.90 kilogram of VOCs per liter of applied coating solids from any surface coating operation on a large appliance surface coating line.
NR 440.57(4)
(4) Performance test and compliance provisions. NR 440.57(4)(b)
(b) The owner or operator of an affected facility shall conduct an initial performance test as required under
s. NR 440.08 (1) and thereafter a performance test each calendar month for each affected facility according to the procedures in this paragraph.
NR 440.57(4)(b)1.
1. An owner or operator shall use the following procedures for an affected facility that does not use a capture system and control device to comply with the emissions limit specified under
sub. (3). The owner or operator shall determine the composition of the coatings by formulation data supplied by the coating manufacturer or by analysis of each coating, as received, using Method 24 of
40 CFR part 60, Appendix A, incorporated by reference in
s. NR 440.17 (1). The department may require the owner or operator who uses formulation data supplied by the coating manufacturer to determine the VOC content of coatings using Method 24. The owner or operator shall determine the volume of coating and the mass of VOC-solvent used for thinning purposes from company records on a monthly basis. If a common coating distribution system serves more than one affected facility or serves both affected and existing facilities, the owner or operator shall estimate the volume of coatings used at each facility by using the average dry weight of coating and the surface area coated by each affected and existing facility or by other procedures acceptable to the department.
NR 440.57(4)(b)1.a.
a. Except as provided in
subd. 1. d., the weighted average of the total mass of VOCs consumed per unit volume of coatings solids applied each calendar month shall be determined as follows:
1) Calculate the mass of VOCs consumed (M
o+ M
d) during the calendar month for each affected facility by the following equation: -
See PDF for diagram
(SLdj Ddj will be zero if no VOC-solvent is added to the coatings, as received.)
where:
n is the number of different coatings used during the calender month
m is the number of different VOC solvents added to coatings during the calendar month
2) Calculate the total volume of coatings solids used (L
s) in the calendar month for each affected facility by the following equation: -
See PDF for diagram
where:
n is the number of different coatings used during the calendar month
3) Select the appropriate transfer efficiency from Table 1. If the owner or operator can demonstrate to the satisfaction of the department that transfer efficiencies other than those shown are appropriate, the department shall approve their use on a case-by-case basis. Transfer efficiencies for application methods not listed shall be determined by the department on a case-by-case basis. An owner or operator shall submit sufficient data for the department to judge the accuracy of the transfer efficiency claims.
-
See PDF for table
Where more than one application method is used within a single surface coating operation, the owner or operator shall determine the composition and volume of each coating applied by each method through a means acceptable to the department and compute the weighted average transfer efficiency by the following equation: -
See PDF for diagram
where:
n is the number of coatings (or input streams) used
m is the number of application methods used
4) Calculate the volume-weighted average mass of VOCs consumed per unit volume of coating solids applied (G) during the calendar month for each affected facility by the following equation: -
See PDF for diagram
NR 440.57(4)(b)1.b.
b. Calculate the volume-weighted average of VOC emissions to the atmosphere (N) during the calendar month for each affected facility by the following equation:
N = G
NR 440.57(4)(b)1.c.
c. Where the volume-weighted average mass of VOCs discharged to the atmosphere per unit volume of coating solids applied (N) is equal to or less than 0.90 kilogram per liter, the affected facility is in compliance.
NR 440.57(4)(b)1.d.
d. If each individual coating used by an affected facility has a VOC content, as received, which when divided by the lowest transfer efficiency at which the coating is applied, results in a value equal to or less than 0.90 kilogram per liter, the affected facility is in compliance, provided no VOCs are added to the coating during distribution or application.
NR 440.57(4)(b)2.
2. An owner or operator shall use the following procedures for any affected facility that uses a capture system and a control device that destroys VOCs (e.g., incinerator) to comply with the emission limit specified under
sub. (3).
NR 440.57(4)(b)2.a.
a. Determine the overall reduction efficiency (R) for the capture system and control device. For the initial performance test the overall reduction efficiency (R) shall be determined as prescribed in this subparagraph. In subsequent months, the owner or operator may use the most recently determined overall reduction efficiency (R) for the performance test, providing control device and capture system operating conditions have not changed. The procedure in this subparagraph shall be repeated when directed by the department or when the owner or operator elects to operate the control device or capture system at conditions different from the initial performance test.
1) Determine the fraction (F) of total VOCs emitted by an affected facility that enters the control device using the following equation: -
See PDF for diagram
where:
n is the number of gas streams entering the control device
p is the number of gas streams emitted directly to the atmosphere
2) Determine the destruction efficiency of the control device (E) using values of the volumetric flow rate of each of the gas streams and the VOC content (as carbon) of each of the gas streams in and out of the device by the following equation: -
See PDF for diagram
where:
n is the number of gas streams entering the control device
m is the number of gas streams leaving the control device and entering the atmosphere
3) Determine overall reduction efficiency (R) using the following equation:
R = EF
NR 440.57(4)(b)2.b.
b. Calculate the volume-weighted average of the total mass of VOCs per unit volume of applied coating solids (G) during each calendar month for each affected facility using the equations in
subd. 1. a. 1), 2), 3) if applicable, and 4).
NR 440.57(4)(b)2.c.
c. Calculate the volume-weighted average of VOC emissions to the atmosphere (N) during each calendar month by the following equation:
N = G (1- R)
NR 440.57(4)(b)2.d.
d. If the volume-weighted average mass of VOCs emitted to the atmosphere for each calendar month (N) is equal to or less than 0.90 kilogram per liter of applied coating solids, the affected facility is in compliance.
NR 440.57(4)(b)3.
3. An owner or operator shall use the following procedure for any affected facility that uses a control device for VOC recovery (e.g., carbon adsorber) to comply with the applicable emission limits specified under
sub. (3).
NR 440.57(4)(b)3.a.
a. Calculate the total mass of VOCs consumed -
See PDF for diagram and the volume-weighted average of the total mass of VOCs per unit volume of applied coating solids (G) during each calendar month for each affected facility using the equations in
subd. 1. a. 1), 2), 3) if applicable, and 4).
NR 440.57(4)(b)3.c.
c. Calculate overall reduction efficiency of the control device (R) for each calendar month for each affected facility using the following equation: -
See PDF for diagram
NR 440.57(4)(b)3.d.
d. Calculate the volume-weighted average mass of VOCs emitted to the atmosphere (N) for each calendar month for each affected facility using equation in
subd. 2. c.
NR 440.57(4)(b)3.e.
e. If the volume-weighted average mass of VOCs emitted to the atmosphere for each calendar month (N) is equal to or less than 0.90 kilogram per liter of applied coatings solids, the affected facility is in compliance. Each monthly calculation is considered a performance test.
NR 440.57(5)(a)(a) The owner or operator of an affected facility that uses a capture system and an incinerator to comply with the emission limits specified under
sub. (3) shall install, calibrate, maintain and operate temperature measurement devices as prescribed below:
NR 440.57(5)(a)1.
1. Where thermal incineration is used, a temperature measurement device shall be installed in the firebox. Where catalytic incineration is used, a temperature measurement device shall be installed in the gas stream immediately before and after the catalyst bed.
NR 440.57(5)(a)2.
2. Each temperature measurement device shall be installed, calibrated and maintained according to the manufacturer's specifications. The device shall have an accuracy of the greater of
" 0.75% of the temperature being measured expressed in degrees Celsius or
" 2.5
°C.
NR 440.57(5)(a)3.
3. Each temperature measurement device shall be equipped with a recording device so that a permanent continuous record is produced.