NR 463.15(6)(a)1.1. The owner or operator shall install and operate a bag leak detection system for each exhaust stack of a fabric filter. NR 463.15(6)(a)2.2. Each triboelectric bag leak detection system shall be installed, calibrated, operated and maintained according to the Fabric Filter Bag Leak Detection Guidance, EPA, OAQPS, September 1997, incorporated by reference in s. NR 484.05 (10). Other bag leak detection systems shall be installed, operated, calibrated, and maintained in a manner consistent with the manufacturer’s written specifications and recommendations. NR 463.15(6)(a)3.3. The bag leak detection system shall be certified by the manufacturer to be capable of detecting PM emissions at concentrations of 10 milligrams per actual cubic meter (0.0044 grains per actual cubic foot) or less. NR 463.15(6)(a)4.4. The bag leak detection system sensor shall provide output of relative or absolute PM loadings. NR 463.15(6)(a)5.5. The bag leak detection system shall be equipped with a device to continuously record the output signal from the sensor. NR 463.15(6)(a)6.6. The bag leak detection system shall be equipped with an alarm system that shall sound automatically when an increase in relative PM emissions over a preset level is detected. The alarm shall be located where it is easily heard by plant operating personnel. NR 463.15(6)(a)7.7. For positive pressure fabric filter systems, a bag leak detection system shall be installed in each baghouse compartment or cell. For negative pressure or induced air fabric filters, the bag leak detector shall be installed downstream of the fabric filter. NR 463.15(6)(a)8.8. Where multiple detectors are required, the system’s instrumentation and alarm may be shared among detectors. NR 463.15(6)(a)9.9. The baseline output shall be established by adjusting the range and the averaging period of the device and establishing the alarm set points and the alarm delay time. NR 463.15(6)(a)10.10. Following initial adjustment of the system, the owner or operator may not adjust the sensitivity or range, averaging period, alarm set points, or alarm delay time except as detailed in the OM&M plan. In no case may the sensitivity be increased by more than 100% or decreased more than 50% over a 365-day period unless the adjustment follows a complete fabric filter inspection which demonstrates that the fabric filter is in good operating condition. NR 463.15(6)(b)(b) The requirements of this paragraph apply to the owner or operator of a new or existing affected source or an existing emission unit using a continuous opacity monitoring system. NR 463.15(6)(b)1.1. The owner or operator shall install, calibrate, maintain and operate a continuous opacity monitoring system to measure and record the opacity of emissions exiting each exhaust stack. NR 463.15(6)(b)2.2. Each continuous opacity monitoring system shall meet the design and installation requirements of Performance Specification 1 in Appendix B to 40 CFR part 60, incorporated by reference in s. NR 484.04 (21). NR 463.15(6)(c)(c) The requirements of this paragraph apply to the owner or operator of a new or existing aluminum scrap shredder who conducts visible emission observations. The owner or operator shall do both of the following: NR 463.15(6)(c)1.1. Perform a visible emissions test for each aluminum scrap shredder using a certified observer at least once a day according to the requirements of Method 9 in Appendix A to 40 CFR part 60, incorporated by reference in s. NR 484.04 (13). Each Method 9 test shall consist of 5 6-minute observations in a 30-minute period. NR 463.15(7)(7) Afterburner. The requirements of this subsection apply to the owner or operator of an affected source using an afterburner to comply with the requirements of this subchapter. NR 463.15(7)(a)(a) The owner or operator shall install, calibrate, maintain, and operate a device to continuously monitor and record the operating temperature of the afterburner consistent with the requirements for continuous monitoring systems in s. NR 460.07 (3). NR 463.15(7)(b)(b) The temperature monitoring device shall meet each of the following performance and equipment specifications: NR 463.15(7)(b)1.1. The temperature monitoring device shall be installed at the exit of the combustion zone of each afterburner. NR 463.15(7)(b)2.2. The monitoring system shall record the temperature in 15-minute block averages and determine and record the average temperature for each 3-hour block period. NR 463.15(7)(b)3.3. The recorder response range shall include zero and 1.5 times the average temperature established according to the requirements in s. NR 463.163 (13). NR 463.15(7)(b)4.4. The reference method shall be a National Institute of Standards and Technology calibrated reference thermocouple-potentiometer system or alternate reference, subject to approval by the department. NR 463.15(7)(c)(c) The owner or operator shall conduct an inspection of each afterburner at least once a year and record the results. At a minimum, an inspection and resulting steps shall include all of the following: NR 463.15(7)(c)1.1. Inspection of all burners, pilot assemblies, and pilot sensing devices for proper operation and clean pilot sensor. NR 463.15(7)(c)3.3. Inspection of internal structures, such as baffles, to ensure structural integrity. NR 463.15(7)(c)7.7. Inspection of combustion chamber refractory lining and cleaning and replacement of lining as necessary. NR 463.15(7)(c)9.9. Documentation, for the burn cycle that follows the inspection, that the afterburner is operating properly and any necessary adjustments have been made. NR 463.15(7)(c)10.10. Verification that the equipment is maintained in good operating condition. NR 463.15(7)(c)11.11. Following an equipment inspection, completion of all necessary repairs in accordance with the requirements of the OM&M plan. NR 463.15(8)(8) Fabric filter inlet temperature. The requirements of this subsection apply to the owner or operator of a scrap dryer, delacquering kiln or decoating kiln or a group 1 furnace using a lime-injected fabric filter to comply with the requirements of this subchapter. NR 463.15(8)(a)(a) The owner or operator shall install, calibrate, maintain and operate a device to continuously monitor and record the temperature of the fabric filter inlet gases consistent with the requirements for continuous monitoring systems in s. NR 460.07 (3). NR 463.15(8)(b)(b) The temperature monitoring device shall meet each of the following performance and equipment specifications: NR 463.15(8)(b)1.1. The monitoring system shall record the temperature in 15-minute block averages and calculate and record the average temperature for each 3-hour block period. NR 463.15(8)(b)2.2. The recorder response range shall include zero and 1.5 times the average temperature established according to the requirements in s. NR 463.163 (14). NR 463.15(8)(b)3.3. The reference method shall be a National Institute of Standards and Technology calibrated reference thermocouple-potentiometer system or alternate reference, subject to approval by the department. NR 463.15(9)(9) Lime injection. The requirements of this subsection apply to the owner or operator of an affected source or emission unit using a lime-injected fabric filter to comply with the requirements of this subchapter. NR 463.15(9)(a)(a) The owner or operator of a continuous lime injection system shall verify that lime is always free-flowing by one of the following methods: NR 463.15(9)(a)1.1. Inspecting each feed hopper or silo at least once each 8-hour period and recording the results of each inspection. If lime is found not to be free-flowing during any of the 8-hour periods, the owner or operator shall increase the frequency of inspections to at least once every 4-hour period for the next 3 days. The owner or operator may return to inspections at least once every 8-hour period if corrective action results in no further blockages of lime during the 3-day period. NR 463.15(9)(a)2.2. Subject to the approval of the department, installing, operating and maintaining a load cell, carrier gas or lime flow indicator, carrier gas pressure drop measurement system or other system to confirm that lime is free-flowing. If lime is found not to be free-flowing, the owner or operator shall promptly initiate and complete corrective action. NR 463.15(9)(a)3.3. Subject to the approval of the department, installing, operating and maintaining a device to monitor the concentration of HCl at the outlet of the fabric filter. If an increase in the concentration of HCl indicates that the lime is not free-flowing, the owner or operator shall promptly initiate and complete corrective action. NR 463.15(9)(b)(b) The owner or operator of a continuous lime injection system shall record the lime feeder setting once each day of operation. NR 463.15(9)(c)(c) An owner or operator who intermittently adds lime to a lime coated fabric filter shall obtain approval from the department for a lime addition monitoring procedure. The department may not approve a monitoring procedure unless data and information are submitted establishing that the procedure is adequate to ensure that relevant emission standards will be met on a continuous basis. NR 463.15(10)(10) Total reactive flux injection rate. The requirements of this subsection apply to the owner or operator of a group 1 furnace or in-line fluxer. The owner or operator shall meet pars. (a) to (d) or apply for approval of an alternate method under par. (e): NR 463.15(10)(a)(a) Install, calibrate, operate and maintain a device to continuously measure and record the weight of gaseous or liquid reactive flux injected to each affected source or emission unit. NR 463.15(10)(a)1.1. The monitoring system shall record the weight for each 15-minute block period, during which reactive fluxing occurs, over the same operating cycle or time period used in the performance test. NR 463.15(10)(a)2.2. The weight measurement device shall be accurate to ± 1% of the weight of the reactive component of the flux being measured. The owner or operator may apply to the department for permission to use a weight measurement device of alternative accuracy in cases where the reactive flux flow rates are so low as to make the use of a weight measurement device of ±1% impracticable. A device of alternative accuracy may not be approved unless the owner or operator provides assurance through data and information that the affected source will meet the relevant emission standards. NR 463.15(10)(a)3.3. The owner or operator shall verify the calibration of the weight measurement device in accordance with the schedule specified by the manufacturer, or if no calibration schedule is specified, at least once every 6 months. NR 463.15(10)(b)(b) Calculate and record the gaseous or liquid reactive flux injection rate (kg/Mg or lb/ton) for each operating cycle or time period used in the performance test using the procedure in s. NR 463.163 (15). NR 463.15(10)(c)(c) Record, for each 15-minute block period during each operating cycle or time period used in the performance test during which reactive fluxing occurs, the time, weight and type of flux for each addition of the following: NR 463.15(10)(d)(d) Calculate and record the total reactive flux injection rate for each operating cycle or time period used in the performance test using the procedure in s. NR 463.163 (15). NR 463.15(10)(e)(e) At their discretion, apply to the department for approval of an alternative method for monitoring and recording the total reactive flux addition rate based on monitoring the weight or quantity of reactive flux per ton of feed or charge for each operating cycle or time period used in the performance test. An alternative monitoring method may not be approved unless the owner or operator provides assurance through data and information that the affected source will meet the relevant emission standards on a continuous basis. NR 463.15(11)(11) Thermal chip dryer. The requirements of this subsection apply to the owner or operator of a thermal chip dryer with emissions controlled by an afterburner. The owner or operator shall do both of the following: NR 463.15(11)(a)(a) Record the type of materials charged to the unit for each operating cycle or time period used in the performance test. NR 463.15(12)(12) Dross-only furnace. The requirements of this subsection apply to the owner or operator of a dross-only furnace. The owner or operator shall do both of the following: NR 463.15(12)(a)(a) Record the materials charged to each unit for each operating cycle or time period used in the performance test. NR 463.15(13)(13) In-line fluxers using no reactive flux. The owner or operator of an in-line fluxer that uses no reactive flux materials shall submit a certification of compliance with the operational standard for no reactive flux materials in s. NR 463.14 (12) for each 6-month reporting period. Each certification shall contain the information in s. NR 463.18 (2) (b) 6. NR 463.15(14)(14) Sidewell group 1 furnace with add-on air pollution control devices. The requirements of this subsection apply to the owner or operator of a sidewell group 1 furnace using add-on air pollution control devices. The owner or operator shall do both of the following: NR 463.15(14)(a)(a) Record in an operating log for each charge of a sidewell furnace that the level of molten metal was above the top of the passage between the sidewell and hearth during reactive flux injection, unless the furnace hearth was also equipped with an add-on control device. NR 463.15(15)(15) Group 1 furnace without add-on air pollution control devices. NR 463.15(15)(a)(a) The requirements of this paragraph apply to the owner or operator of a group 1 furnace that is not equipped with an add-on air pollution control device. NR 463.15(15)(a)1.1. The owner or operator shall develop, in consultation with the department, a written site-specific monitoring plan. The site-specific monitoring plan shall be submitted to the department as part of the OM&M plan. The site-specific monitoring plan shall contain sufficient procedures to ensure continuing compliance with all applicable emission limits and shall demonstrate, based on documented test results, the relationship between emissions of PM, HCl and D&F and the proposed monitoring parameters for each pollutant. Test data shall establish the highest level of PM, HCl and D&F that will be emitted from the furnace. This emission level may be determined by conducting performance tests and monitoring operating parameters while charging the furnace with feed or charge materials containing the highest anticipated levels of oils and coatings and fluxing at the highest anticipated rate. If the department determines that any revisions of the site-specific monitoring plan are necessary to meet the requirements of this subchapter, the owner or operator shall promptly make all necessary revisions and resubmit the revised plan to the department. NR 463.15(15)(a)2.2. The site-specific monitoring plan shall contain all of the following as applicable: NR 463.15(15)(a)2.a.a. Each site-specific monitoring plan shall document each work practice, equipment and design practice, pollution prevention practice or other measure used to meet the applicable emission standards. NR 463.15(15)(a)2.b.b. Each site-specific monitoring plan shall include provisions for unit labeling as required in sub. (3), feed or charge weight measurement, or production weight measurement, as required in sub. (5) and flux weight measurement as required in sub. (10). NR 463.15(15)(a)2.c.c. Each site-specific monitoring plan for a melting and holding furnace subject to the clean charge emission standard in s. NR 463.13 (9) (c) shall include requirements that the owner or operator record the type of feed or charge, such as ingot, thermally dried chips, dried scrap, or other, for each operating cycle or time period used in the performance test, and that the owner or operator submit a certification of compliance with the applicable operational standard for clean charge materials in s. NR 463.14 (14) (c) for each 6-month reporting period. Each certification shall contain the information in s. NR 463.18 (2) (b) 4. NR 463.15(15)(a)2.d.d. If a continuous emission monitoring system is included in a site-specific monitoring plan, the plan shall include provisions for the installation, operation and maintenance of the system to provide quality-assured measurements in accordance with all applicable requirements of the general provisions of ch. NR 460. NR 463.15(15)(a)2.e.e. If a continuous opacity monitoring system is included in a site-specific monitoring plan, the plan shall include provisions for the installation, operation and maintenance of the system to provide quality-assured measurements in accordance with all applicable requirements of this subchapter. NR 463.15(15)(a)2.f.f. If a site-specific monitoring plan includes a scrap inspection program for monitoring the scrap contaminant level of furnace feed or charge materials, the plan shall include provisions for the demonstration and implementation of the program in accordance with all applicable requirements in sub. (16). NR 463.15(15)(a)2.g.g. If a site-specific monitoring plan includes a calculation method for monitoring the scrap contaminant level of furnace feed or charge materials, the plan shall include provisions for the demonstration and implementation of the program in accordance with all applicable requirements in sub. (17). NR 463.15(15)(a)3.3. The owner or operator of an existing affected source shall submit the site-specific monitoring plan to the department for review at least 6 months prior to the compliance date. NR 463.15(15)(b)(b) The department shall review and approve or disapprove a proposed site-specific monitoring plan, or request changes to a plan, based on whether the plan contains sufficient provisions to ensure continuing compliance with applicable emission limits and demonstrates, based on documented test results, the relationship between emissions of PM, HCl and D&F and the proposed monitoring parameters for each pollutant. Test data shall establish the highest level of PM, HCl and D&F that will be emitted from the furnace. Subject to department approval of the OM&M plan, this may be determined by conducting performance tests and monitoring operating parameters while charging the furnace with feed or charge materials containing the highest anticipated levels of oils and coatings and fluxing at the highest anticipated rate. NR 463.15(16)(16) Scrap inspection program for group 1 furnace without add-on air pollution control devices. A scrap inspection program shall include all of the following: NR 463.15(16)(a)(a) A proven method for collecting representative samples and measuring the oil and coatings content of scrap samples. NR 463.15(16)(c)(c) An established correlation between visual inspection and physical measurement of oil and coatings content of scrap samples. NR 463.15(16)(d)(d) Periodic physical measurements of oil and coatings content of randomly-selected scrap samples and comparison with visual inspection results. NR 463.15(16)(e)(e) A system for assuring that only acceptable scrap is charged to an affected group 1 furnace. NR 463.15(16)(f)(f) Recordkeeping requirements to document conformance with plan requirements.
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Department of Natural Resources (NR)
Chs. NR 400-499; Environmental Protection – Air Pollution Control
administrativecode/NR 463.15(7)(c)6.
administrativecode/NR 463.15(7)(c)6.
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