He is the total monthly organic HAP emitted, kg
Rv is the organic volatile matter collection and recovery efficiency, percent
p is the number of different coating materials applied in a month
Chi is the organic HAP content of coating material, i, as-purchased, expressed as a mass fraction, kg/kg
Mi is the mass of as-purchased coating material, i, applied in a month, kg
q is the number of different materials added to the coating material
Chij is the organic HAP content of material, j, added to as-purchased coating material, i, expressed as a mass fraction, kg/kg
Mij is the mass of material, j, added to as-purchased coating material, i, in a month, kg
Mvret is the mass of volatile matter retained in the coated web after curing or drying, or otherwise not emitted to the atmosphere, kg. The value of this term will be zero in all cases except where you choose to take into account the volatile matter retained in the coated web or otherwise not emitted to the atmosphere for the compliance demonstration procedures in this section.
NR 466.25(9)(a)8.8. Calculate the organic HAP emission rate based on coating solids applied using Equation 9: where:
L is the mass of organic HAP emitted per mass of coating solids applied, kg/kg
He is the total monthly organic HAP emitted, kg
p is the number of different coating materials applied in a month
Csi is the coating solids content of coating material, i, expressed as a mass fraction, kg/kg
Mi is the mass of as-purchased coating material, i, applied in a month, kg
q is the number of different materials added to the coating material
Csij is the coating solids content of material, j, added to as-purchased coating material, i, expressed as a mass-fraction, kg/kg
Mij is the mass of material, j, added to as-purchased coating material, i, in a month, kg
NR 466.25(9)(a)9.9. Calculate the organic HAP emission rate based on coating material applied using Equation 10: where:
S is the mass organic HAP emitted per mass of material applied, kg/kg
He is the total monthly organic HAP emitted, kg
p is the number of different coating materials applied in a month
Mi is the mass of as-purchased coating material, i, applied in a month, kg
q is the number of different materials added to the coating material
Mij is the mass of material, j, added to as-purchased coating material, i, in a month, kg
NR 466.25(9)(a)10.a.a. The volatile organic matter collection and recovery efficiency is 95% or greater at an existing affected source and 98% or greater at a new affected source. NR 466.25(9)(a)10.b.b. The organic HAP emission rate based on coating solids applied is no more than 0.20 kg of organic HAP per kg of coating solids applied at an existing affected source and no more than 0.08 kg of organic HAP per kg of coating solids applied at a new affected source. NR 466.25(9)(a)10.c.c. The organic HAP emission rate based on coating material applied is no more than 0.04 kg of organic HAP per kg of coating material applied at an existing affected source and no more than 0.016 kg of organic HAP per kg of coating material applied at a new affected source. NR 466.25(9)(a)10.d.d. The organic HAP emitted during the month is less than the calculated allowable organic HAP as determined using sub. (12). NR 466.25(9)(b)(b) Continuous emission monitoring of capture system and control device performance. Demonstrate initial compliance through a performance test on capture efficiency and continuing compliance through continuous emission monitors and continuous monitoring of capture system operating parameters following the procedures in subds. 1. to 7. Use the applicable equations specified in subds. 8. to 10. to convert the monitoring and other data into units of the selected compliance option in subs. (5) to (8). Compliance shall be determined in accordance with subd. 11. NR 466.25(9)(b)1.1. Continuously monitor the gas stream entering and exiting the control device to determine the total organic volatile matter mass flow rate such that the efficiency of the control device can be calculated for each month using Equation 2 in s. NR 466.24 (3) (e) 1. i. NR 466.25(9)(b)2.2. Whenever a web coating line is operated, continuously monitor the operating parameters established in accordance with s. NR 466.24 (2) (f) to ensure capture efficiency. NR 466.25(9)(b)4.4. Calculate the overall organic HAP control efficiency achieved for each month using Equation 11: where:
R is the overall organic HAP control efficiency, percent
E is the organic volatile matter control efficiency of the control device, percent
CE is the organic volatile matter capture efficiency of the capture system, percent
NR 466.25(9)(b)5.5. If demonstrating compliance on the basis of organic HAP emission rate based on coating solids applied, organic HAP emission rate based on coating materials applied or emission of less than the calculated allowable organic HAP, determine the mass of each coating material applied on the web coating line or group of web coating lines controlled by a common control device during the month. NR 466.25(9)(b)6.6. If demonstrating compliance on the basis of organic HAP emission rate based on coating solids applied, organic HAP emission rate based on coating material applied or emission of less than the calculated allowable organic HAP, determine the organic HAP content of each coating material as-applied during the month following the procedure in s. NR 466.24 (3) (c). NR 466.25(9)(b)7.7. If demonstrating compliance on the basis of organic HAP emission rate based on coating solids applied or emission of less than the calculated allowable organic HAP, determine the coating solids content of each coating material as-applied during the month following the procedure in s. NR 466.24 (3) (d). NR 466.25(9)(b)8.8. Calculate the organic HAP emitted during the month for each month using Equation 12: where:
He is the total monthly organic HAP emitted, kg
R is the overall organic HAP control efficiency, percent
p is the number of different coating materials applied in a month
Cahi is the monthly average, as-applied, organic HAP content of coating material, i, expressed as a mass fraction, kg/kg
Mi is the mass of as-purchased coating material, i, applied in a month, kg
Mvret is the mass of volatile matter retained in the coated web after curing or drying or otherwise not emitted to the atmosphere, kg. The value of this term will be zero in all cases except where you choose to take into account the volatile matter retained in the coated web or otherwise not emitted to the atmosphere for the compliance demonstration procedures in this section.
NR 466.25(9)(b)9.9. Calculate the organic HAP emission rate based on coating solids applied using Equation 9 in par. (a) 8. NR 466.25(9)(b)10.10. Calculate the organic HAP emission rate based on coating material applied using Equation 10 in par. (a) 9. NR 466.25(9)(b)11.11. You are in compliance with the emission standards in s. NR 466.23 (1) (b) for each month if you operate the capture system such that the average capture system operating parameter is greater than or less than, as appropriate, the operating parameter value established in accordance with s. NR 466.24 (2) (f), and you satisfy one of the following: NR 466.25(9)(b)11.a.a. The organic volatile matter collection and recovery efficiency is 95% or greater at an existing affected source and 98% or greater at a new affected source. NR 466.25(9)(b)11.b.b. The organic HAP emission rate based on coating solids applied is no more than 0.20 kg of organic HAP per kg of coating solids applied at an existing affected source and no more than 0.08 kg of organic HAP per kg of coating solids applied at a new affected source. NR 466.25(9)(b)11.c.c. The organic HAP emission rate based on coating material applied is no more than 0.04 kg of organic HAP per kg of coating material applied at an existing affected source and no more than 0.016 kg of organic HAP per kg of coating material applied at a new affected source. NR 466.25(9)(b)11.d.d. The organic HAP emitted during the month is less than the calculated allowable organic HAP as determined using sub. (12). NR 466.25(10)(10) Capture and control system compliance demonstration procedures using a cpms. If you use an add-on control device, you shall demonstrate initial compliance for each capture system and each control device through performance tests and demonstrate continuing compliance through continuous monitoring of capture system and control device operating parameters as specified in pars. (a) to (c). Compliance shall be determined in accordance with par. (d). NR 466.25(10)(d)(d) You are in compliance with the emission standards in s. NR 466.23 (1) (b) if the control device is operated such that the average operating parameter value is greater than or less than, as appropriate, the operating parameter value established in accordance with s. NR 466.24 (3) (e) for each 3-hour period, and the capture system operating parameter is operated at an average value greater than or less than, as appropriate, the operating parameter value established in accordance with s. NR 466.24 (2) (f), and you satisfy one of the following: NR 466.25(10)(d)1.1. The overall organic HAP control efficiency is 95% or greater at an existing affected source and 98% or greater at a new affected source. NR 466.25(10)(d)2.2. The organic HAP emission rate based on coating solids applied is no more than 0.20 kg of organic HAP per kg of coating solids applied at an existing affected source and no more than 0.08 kg of organic HAP per kg of coating solids applied at a new affected source. NR 466.25(10)(d)3.3. The organic HAP emission rate based on coating material applied is no more than 0.04 kg of organic HAP per kg of coating material applied at an existing affected source and no more than 0.016 kg of organic HAP per kg of coating material applied at a new affected source. NR 466.25(10)(d)4.4. The organic HAP emitted during the month is less than the calculated allowable organic HAP as determined using sub. (12). NR 466.25(11)(11) Oxidizer compliance demonstration procedures. If you use an oxidizer to control emissions, you shall show compliance by following the procedures in par. (a) and using the applicable equations specified in par. (b) to convert the monitoring and other data into units of the selected compliance option in subs. (5) to (8). Compliance shall be determined in accordance with par. (c). NR 466.25(11)(a)(a) Demonstrate initial compliance through performance tests of capture efficiency and control device efficiency and continuing compliance through continuous monitoring of capture system and control device operating parameters as specified in subds. 1. to 6.: NR 466.25(11)(a)3.3. Whenever a web coating line is operated, continuously monitor the operating parameters established in accordance with s. NR 466.24 (2) (e) and (f) to ensure capture and control efficiency. NR 466.25(11)(a)4.4. If demonstrating compliance on the basis of organic HAP emission rate based on coating solids applied, organic HAP emission rate based on coating materials applied or emission of less than the calculated allowable organic HAP, determine the mass of each coating material applied on the web coating line or group of web coating lines controlled by a common oxidizer during the month. NR 466.25(11)(a)5.5. If demonstrating compliance on the basis of organic HAP emission rate based on coating solids applied, organic HAP emission rate based on coating material applied or emission of less than the calculated allowable organic HAP, determine the organic HAP content of each coating material as-applied during the month following the procedure in s. NR 466.24 (3) (c). NR 466.25(11)(a)6.6. If demonstrating compliance on the basis of organic HAP emission rate based on coating solids applied or emission of less than the calculated allowable organic HAP, determine the coating solids content of each coating material applied during the month following the procedure in s. NR 466.24 (3) (d). NR 466.25(11)(b)(b) You shall convert the information obtained under sub. (16) (a) into the units of the selected compliance option using the calculation procedures specified in subds. 1. to 4. NR 466.25(11)(b)1.1. Calculate the overall organic HAP control efficiency achieved using Equation 11 of this section. NR 466.25(11)(b)2.2. Calculate the organic HAP emitted during the month using Equation 12 of this section. NR 466.25(11)(b)3.3. Calculate the organic HAP emission rate based on coating solids applied for each month using Equation 9 of this section. NR 466.25(11)(b)4.4. Calculate the organic HAP emission rate based on coating material applied using Equation 10 of this section. NR 466.25(11)(c)(c) You are in compliance with the emission standards in s. NR 466.23 (1) (b) if the oxidizer is operated such that the average operating parameter value is greater than the operating parameter value established in accordance with s. NR 466.24 (3) (e) for each 3-hour period, and the capture system operating parameter is operated at an average value greater than or less than, as appropriate, the operating parameter value established in accordance with s. NR 466.24 (2) (f), and you satisfy one of the following: NR 466.25(11)(c)1.1. The overall organic HAP control efficiency is 95% or greater at an existing affected source and 98% or greater at a new affected source. NR 466.25(11)(c)2.2. The organic HAP emission rate based on coating solids applied is no more than 0.20 kg of organic HAP per kg of coating solids applied at an existing affected source and no more than 0.08 kg of organic HAP per kg of coating solids applied at a new affected source. NR 466.25(11)(c)3.3. The organic HAP emission rate based on coating material applied is no more than 0.04 kg of organic HAP per kg of coating material applied at an existing affected source and no more than 0.016 kg of organic HAP per kg of coating material applied at a new affected source.