NR 256.13 History History: Cr. Register, June, 1989, No. 402, eff. 7-1-89.
NR 256.14 NR 256.14New source performance standards. Any new source subject to this subchapter, including noncontinuous direct dischargers, shall achieve the effluent limitations contained in s. NR 256.12. Grinding scrubber operations may not discharge process wastewater pollutants to waters of the state.
NR 256.14 History History: Cr. Register, June, 1989, No. 402, eff. 7-1-89.
NR 256.15 NR 256.15Pretreatment standards for existing sources. Except as provided in ss. NR 211.13 and 211.14, any existing source subject to this subchapter which introduces pollutants into a publicly owned treatment works shall comply with ch. NR 211 and achieve the following pretreatment standards for existing sources. Grinding scrubber operations may not discharge process wastewater pollutants to a POTW. - See PDF for table PDF - See PDF for table PDF - See PDF for table PDF - See PDF for table PDF - See PDF for table PDF - See PDF for table PDF - See PDF for table PDF
NR 256.15 History History: Cr. Register, June, 1989, No. 402, eff. 7-1-89.
NR 256.16 NR 256.16Pretreatment standards for new sources. Except as provided in s. NR 211.13, any new source subject to this subchapter which introduces pollutants into publicly owned treatment works shall comply with ch. NR 211 and achieve the pretreatment standards contained in s. NR 256.15. Grinding scrubber operations may not discharge process wastewater pollutants to a POTW.
NR 256.16 History History: Cr. Register, June, 1989, No. 402, eff. 7-1-89.
subch. II of ch. NR 256 Subchapter II — Copper Casting Subcategory
NR 256.20 NR 256.20Applicability; description of the copper casting subcategory.
NR 256.20(1) (1) This subchapter applies to discharges to waters of the state and to introductions of pollutants into publicly owned treatment works from copper casting operations. It applies to a production process if the molten metal contains, on average, greater than 50% by weight of copper or if copper comprises the greatest percentage of the metal, measured by weight.
NR 256.20(2) (2) This subchapter does not apply to the casting of ingots, pigs or other cast shapes following primary metal smelting, which is regulated by the nonferrous metals manufacturing point source category under 40 CFR Part 421. This subchapter does not apply to the casting of copper alloys containing either beryllium at 0.1% or greater by weight or precious metal at 30% or greater by weight.
NR 256.20(3) (3) Processing operations following the cooling of castings, except for grinding scrubber operations, may be regulated by the electroplating point source category under ch. NR 260 or metal finishing point source category under ch. NR 261.
NR 256.20 History History: Cr. Register, June, 1989, No. 402, eff. 7-1-89.
NR 256.22 NR 256.22Effluent limitations representing the degree of effluent reduction attainable by the application of the best practicable control technology currently available. Except as provided in 40 CFR 125.30 to 125.32, any existing point source subject to this subchapter, including noncontinuous direct dischargers, shall achieve the following BPT effluent limitations. Grinding scrubber operations may not discharge process wastewater pollutants to waters of the state. - See PDF for table PDF
NR 256.22 Note (1)   These concentrations shall be multiplied by the ratio of (4.8/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured.
(3)  
Within the range of 7.0 to 10.0 to all times. - See PDF for table PDF
NR 256.22 Note (1)   These concentrations shall be multiplied by the ratio of (145/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured.
(3)  
Within the range of 7.0 to 10.0 to all times. - See PDF for table PDF
NR 256.22 Note (1)   These concentrations shall be multiplied by the ratio of (0.086/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 SCF of air scrubbed) for a specific plant.
(2)   kg/62.3 million Sm3 (pounds per billion SCF) of air scrubbed.
(3)  
Within the range of 7.0 to 10.0 at all times. - See PDF for table PDF
NR 256.22 Note (1)   These concentrations shall be multiplied by the ratio of (1,320/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured.
(3)  
Within the range of 7.0 to 10.0 to all times. - See PDF for table PDF
NR 256.22 Note (1)   These concentrations shall be multiplied by the ratio of (0.282/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 SCF of air scrubbed) for a specific plant.
(2)   kg/62.3 million Sm3 (pounds per billion SCF) of air scrubbed.
(3)  
Within the range of 7.0 to 10.0 to all times. - See PDF for table PDF
NR 256.22 Note (1)   These concentrations shall be multiplied by the ratio of (61/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured.
(3)  
Within the range of 7.0 to 10.0 to all times.
NR 256.22 History History: Cr. Register, June, 1989, No. 402, eff. 7-1-89.
NR 256.23 NR 256.23Effluent limitations representing the degree of effluent reduction attainable by the application of the best available technology economically achievable. Except as provided in 40 CFR 125.30 to 125.32, any existing point source subject to this subchapter, including noncontinuous direct dischargers, shall achieve the following BAT effluent limitations. Grinding scrubber operations may not discharge process wastewater pollutants to waters of the state. - See PDF for table PDF
NR 256.23 Note (1)   These concentrations shall be multiplied by the ratio of (4.8/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured. - See PDF for table PDF
NR 256.23 Note (1)   These concentrations shall be multiplied by the ratio of (145/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured. - See PDF for table PDF
NR 256.23 Note (1)   These concentrations shall be multiplied by the ratio of (0.086/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 SCF of air scrubbed) for a specific plant.
(2)   kg/62.3 million Sm3 (pounds per billion SCF) of air scrubbed. - See PDF for table PDF
NR 256.23 Note (1)   These concentrations shall be multiplied by the ratio of (1,320/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured. - See PDF for table PDF
NR 256.23 Note (1)   These concentrations shall be multiplied by the ratio of (0.282/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 SCF of air scrubbed) for a specific plant.
(2)   kg/62.3 million Sm3 (pounds per billion SCF) of air scrubbed. - See PDF for table PDF
NR 256.23 Note (1)   These concentrations shall be multiplied by the ratio of (61/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured.
NR 256.23 History History: Cr. Register, June 1989, No. 402, eff. 7-1-89.
NR 256.24 NR 256.24New source performance standards. Any new source subject to this subchapter, including noncontinuous direct dischargers, shall achieve the following standards. Grinding scrubber operations may not discharge process wastewater pollutants to waters of the state. - See PDF for table PDF
NR 256.24 Note (1)   These concentrations shall be multiplied by the ratio of (4.8/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured.
(3)  
Within the range of 7.0 to 10.0 to all times. - See PDF for table PDF
NR 256.24 Note (1)   These concentrations shall be multiplied by the ratio of (145/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured.
(3)  
Within the range of 7.0 to 10.0 to all times. - See PDF for table PDF
NR 256.24 Note (1)   These concentrations shall be multiplied by the ratio of (0.086/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 SCF of air scrubbed) for a specific plant.
(2)   kg/62.3 million Sm3 (pounds per billion SCF) of air scrubbed.
(3)  
Within the range of 7.0 to 10.0 to all times. - See PDF for table PDF
NR 256.24 Note (1)   These concentrations shall be multiplied by the ratio of (1,320/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured.
(3)  
Within the range of 7.0 to 10.0 to all times. - See PDF for table PDF
NR 256.24 Note (1)   These concentrations shall be multiplied by the ratio of (0.282/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 SCF of air scrubbed) for a specific plant.
(2)   kg/62.3 million Sm3 (pounds per billion SCF) of air scrubbed.
(3)  
Within the range of 7.0 to 10.0 to all times. - See PDF for table PDF
NR 256.24 Note (1)   These concentrations shall be multiplied by the ratio of (61/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured.
(3)  
Within the range of 7.0 to 10.0 to all times.
NR 256.24 History History: Cr. Register, June, 1989, No. 402, eff. 7-1-89.
NR 256.25 NR 256.25Pretreatment standards for existing sources. Except as provided in ss. NR 211.13 and 211.14, any existing source subject to this subchapter which introduces pollutants into a publicly owned treatment works shall comply with ch. NR 211 and achieve the following pretreatment standards for existing sources. Grinding scrubber operations may not discharge process wastewater pollutants to a POTW. - See PDF for table PDF - See PDF for table PDF - See PDF for table PDF - See PDF for table PDF - See PDF for table PDF - See PDF for table PDF
NR 256.25 History History: Cr. Register, June, 1989, No. 402, eff. 7-1-89.
NR 256.26 NR 256.26Pretreatment standards for new sources. Except as provided in s. NR 211.13, any new source subject to this subchapter which introduces pollutants into publicly owned treatment works shall comply with ch. NR 211 and achieve the pretreatment standards contained in s. NR 256.25. Grinding scrubber operations may not discharge process wastewater pollutants to a POTW.
NR 256.26 History History: Cr. Register, June, 1989, No. 402, eff. 7-1-89.
subch. III of ch. NR 256 Subchapter III — Ferrous Casting Subcategory
NR 256.30 NR 256.30Applicability; description of the ferrous casting subcategory.
NR 256.30(1) (1) This subchapter applies to discharges to waters of the state and to introduction of pollutants into publicly owned treatment works from ferrous casting operations. It applies to a production process if the molten metal contains, on average, greater than 50% by weight of ferrous metal or if ferrous metal comprises the greatest percentage of the metal, measured by weight.
NR 256.30(2) (2) Ancillary scrubber operations, such as fan washes and backwashes, are covered by the mass limitations of the associated discrete wet scrubbing device. Water discharges from aftercooling devices are not regulated as a process wastewater in this subcategory.
NR 256.30(3) (3) Processing operations following the cooling of castings, except for grinding scrubber operations, may be regulated by the electroplating point source category under ch. NR 260, or metal finishing point source category under ch. NR 261.
NR 256.30 History History: Cr. Register, June, 1989, No. 402, eff. 7-1-89.
NR 256.31 NR 256.31Specialized definitions. The following definitions are applicable to terms used in this chapter:
NR 256.31(1) (1) “Cast iron” means an iron containing carbon in excess of the solubility in the austentite that exists in the alloy at the eutectic temperature, or any iron-carbon alloy that contains 1.2% or more carbon by weight.
NR 256.31(2) (2) “Discrete wet scrubbing device” means a distinct, stand-alone device that removes particulates and fumes from a contaminated gas stream by bringing the gas stream into contact with a scrubber liquor, usually water, and from which there is a wastewater discharge, including but not limited to spray towers and chambers, fixed and variable venturi scrubbers, wet caps, packed bed scrubbers, quenchers and orifice scrubbers. It does not include aftercoolers, ancillary scrubber operations such as fan washes and backwashes, or semi-wet scrubbing devices.
NR 256.31(3) (3) “Ductile iron” means a cast iron treated while molten with a master alloy that contains an element such as magnesium or cerium to induce the formation of free graphite as nodules or spherules, which imparts a measurable degree of ductility to the cast metal.
NR 256.31(4) (4) “Gray iron” means a cast iron that gives a gray fracture due to the presence of flake graphite.
NR 256.31(5) (5) “Malleable iron” which means a cast iron made by a prolonged anneal of white cast iron in which either decarburization or graphitization, or both, eliminate some or all of the cementite, and where graphite is present in the form of temper carbon.
NR 256.31(6) (6) “Multiple ferrous melting furnace scrubber configuration” means a configuration where 2 or more discrete wet scrubbing devices are used in series in a single melting furnace exhaust gas stream.
NR 256.31(7) (7) “Primary metal cast” means the metal that is poured in the greatest quantity at an individual plant.
NR 256.31(8) (8) “Semi-wet scrubbing device” means a device to which water is added and totally evaporates prior to dry air pollution control.
NR 256.31(9) (9) “Steel” means and iron-base alloy containing manganese, carbon at less than 1.2% by weight, and often other alloying elements.
NR 256.31 History History: Cr. Register, June, 1989, No. 402, eff. 7-1-89
NR 256.32 NR 256.32Effluent limitations representing the degree of effluent reduction attainable by the application of the best practicable control technology currently available. Except as provided in 40 CFR 125.30 to 125.32, any existing point source subject to this subchapter, including noncontinuous direct dischargers, shall achieve the following BPT effluent limitations. Grinding scrubber operations may not discharge process wastewater pollutants to waters of the state. - See PDF for table PDF
NR 256.32 Note (1)   These concentrations shall be multiplied by the ratio of (5.33/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured.
(3)  
Within the range of 7.0 to 10.0 to all times. - See PDF for table PDF
NR 256.32 Note (1)   These concentrations shall be multiplied by the ratio of (5.7/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured.
(3)  
Within the range of 7.0 to 10.0 to all times. - See PDF for table PDF - See PDF for table PDF
NR 256.32 Note (1)   These concentrations shall be multiplied by the ratio of (1,320/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured.
(3)  
Within the range of 7.0 to 10.0 at all times. - See PDF for table PDF
NR 256.32 Note (1) In a multiple ferrous melting furnace scrubber configuration, each discrete wet scrubbing device with an associated wastewater discharge shall be given the mass allowance specified. The allowance will be identical for each device and based on the airflow of the exhaust gas stream that passes through the multiple scrubber configuration.
NR 256.32 Note (2) These concentrations shall be multiplied by the ratio of (0.42/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 SCF of air scrubbed) for a specific plant.
NR 256.32 Note (3) kg/62.3 million Sm3 (pounds per billion SCF) of air scrubbed.
NR 256.32 Note (4) Within the range of 7.0 to 10.0 at all times. - See PDF for table PDF - See PDF for table PDF - See PDF for table PDF
NR 256.32 History History: Cr. Register, June, 1989, No. 402, eff. 7-1-89.
NR 256.33 NR 256.33Effluent limitations representing the degree of effluent reduction attainable by the application of the best available technology economically achievable.
NR 256.33(1)(1) Any plant, including noncontinuous direct dischargers, which casts primarily malleable iron where metal poured is equal to or less than 3,557 tons per year or casts primarily steel, shall achieve the copper, lead, zinc, and total phenols effluent limitations contained in s. NR 256.32. Grinding scrubber operations may not discharge process wastewater pollutants to waters of the state.
NR 256.33(2) (2) Except as provided in 40 CFR 125.30 to 125.32, any plant, including noncontinuous direct dischargers, which casts primarily malleable iron where metal poured is greater than 3,557 tons per year or casts primarily ductile or gray iron shall achieve the following BAT effluent limitations. Grinding scrubber operations may not discharge process wastewater pollutants to waters of the state. - See PDF for table PDF
NR 256.33 Note (1)   These concentrations shall be multiplied by the ratio of (5.33/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured. - See PDF for table PDF
NR 256.33 Note (1)   These concentrations shall be multiplied by the ratio of (5.7/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured. - See PDF for table PDF
NR 256.33 Note (1)   These concentrations shall be multiplied by the ratio of (0.09/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 SCF of air scrubbed) for a specific plant.
(2)   kg/62.3 million Sm3 (pounds per billion SCF) of air scrubbed. - See PDF for table PDF
NR 256.33 Note (1)   These concentrations shall be multiplied by the ratio of (1,320/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured.
- See PDF for table PDF - See PDF for table PDF
NR 256.33 Note (1)   These concentrations shall be multiplied by the ratio of (17.7/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured. - See PDF for table PDF
NR 256.33 Note (1)   These concentrations shall be multiplied by the ratio of (21.8/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured. - See PDF for table PDF
NR 256.33 Note (1)   These concentrations shall be multiplied by the ratio of (89.5/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of sand reclaimed) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of sand reclaimed.
NR 256.33 History History: Cr. Register, June, 1989, No. 402, eff. 7-1-89.
NR 256.34 NR 256.34New source performance standards.
NR 256.34(1)(1) Any new source, including noncontinuous direct dischargers, which casts primarily malleable iron where metal poured is equal to or less than 3,557 tons per year or casts primarily steel shall achieve the effluent standards contained in s. NR 256.32. Grinding scrubber operations may not discharge process wastewater pollutants to navigable waters.
NR 256.34(2) (2) Any new source, including noncontinuous direct dischargers, which casts primarily malleable iron where metal poured is greater than 3,557 tons per year or casts primarily ductile or gray iron shall achieve the following effluent standards. Grinding scrubber operations may not discharge process wastewater pollutants to waters of the state. - See PDF for table PDF
NR 256.34 Note (1)   These concentrations shall be multiplied by the ratio of (5.33/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured.
(3)  
Within the range of 7.0 to 10.0 to all times. - See PDF for table PDF
NR 256.34 Note - See PDF for table PDF
NR 256.34 Note (1)   These concentrations shall be multiplied by the ratio of (0.09/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 SCF of air scrubbed) for a specific plant.
(2)   kg/62.3 million Sm3 (pounds per billion SCF) of air scrubbed.
(3)
Within the range of 7.0 to 10.0 at all times. - See PDF for table PDF
NR 256.34 Note (1)   These concentrations shall be multiplied by the ratio of (1,320/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured.
(3)  
Within the range of 7.0 to 10.0 to all times. - See PDF for table PDF
NR 256.34 Note (1) In a multiple ferrous melting furnace scrubber configuration, each discrete wet scrubbing device with an associated wastewater discharge shall be given the mass allowance specified. The allowance will be identical for each device and based on the airflow of the exhaust gas stream that passes through the multiple scrubber configuration.
(2)  
These concentrations shall be multiplied by the ratio of (0.42/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 SCF of air scrubbed) for a specific plant.
(3)   kg/62.3 million Sm3 (pounds per billion SCF) of air scrubbed.
(4)
Within the range of 7.0 to 10.0 at all times. - See PDF for table PDF
NR 256.34 Note (1)   These concentrations shall be multiplied by the ratio of (17.7/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured.
(3)  
Within the range of 7.0 to 10.0 to all times. - See PDF for table PDF
NR 256.34 Note (1)   These concentrations shall be multiplied by the ratio of (21.8/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of metal poured) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of metal poured.
(3)  
Within the range of 7.0 to 10.0 to all times. - See PDF for table PDF
NR 256.34 Note (1)   These concentrations shall be multiplied by the ratio of (89.5/x) where x is the actual normalized process wastewater discharge flow (in gallons per 1,000 pounds of sand reclaimed) for a specific plant.
(2)   kg/1,000 kkg (pounds per million pounds) of sand reclaimed.
(3)  
Within the range of 7.0 to 10.0 to all times.
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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.