Wis. Admin. Code Department of Natural Resources NR 235.91

Current through November 25, 2024
Section NR 235.91 - Toxic pollutant effluent limitations and standards for direct discharge point sources that do not use end-of-pipe biological treatment
(1) Any point source subject to this subchapter must achieve discharges not exceeding the quantity determined by multiplying the process wastewater flow times the concentrations in the following table.
(2) For chromium, copper, lead, nickel, zinc and total cyanide:
(a) The discharge quantity shall be determined by multiplying the concentrations listed in the following table for these pollutants times the flow from the metal-bearing waste streams for the metals and times the flow from the cyanide bearing waste streams for total cyanide.
(b) The metal-bearing waste streams and cyanide-bearing waste streams are defined as:
1. Those waste streams listed in Appendix A.
2. Any additional OCPSF process wastewater streams identified by the permitting authority on a case-by-case basis as metal or cyanide bearing based upon a determination that such streams contain significant amounts of the pollutants identified above.
(c) Any streams designated under par. (b) 2. shall be treated independently of other metal or cyanide bearing waste streams unless the permitting authority determines that the combination of such streams, prior to treatment, with the Appendix A waste streams will result in substantial reduction of these pollutants. This determination shall be based upon a review of relevant engineering, production and sampling information.

Sources Not Using End of Pipe Biological Treatment

BAT Effluent Limitations and NSPS1

Maximum for any 1 day

Maximum for monthly average

Pollutant or pollutant property

µg/l

µg/l

Acenaphthene

47

19

Acenaphthylene

47

19

Acrylonitrile

232

94

Anthracene

47

19

Benzene

134

57

Benzo(a)anthracene

47

19

3,4-Benzofluoranthene

48

20

Benzo(k)fluoranthene

47

19

Benzo(a)pyrene

48

20

Bis(2-ethylhexyl)phthalate

258

95

Carbon tetrachloride

380

142

Chlorobenzene

380

142

Chloroethane

295

110

Chloroform

325

111

Chrysene

47

19

Di-n-butyl phthalate

43

20

1,2-Dichlorobenzene

794

196

1,3-Dichlorobenzene

380

142

1,4-Dichlorobenzene

380

142

1,1-Dichloroethane

59

22

1,2-Dichloroethane

574

180

1,1-Dichloroethylene

60

22

1,2-trans-Dichloroethylene

66

25

1,2-Dichloropropane

794

196

1,3-Dichloropropylene

794

196

Diethyl phthalate

113

46

2,4-Dimethylphenol

47

19

Dimethyl phthalate

47

19

4,6-Dinitro-o-cresol

277

78

2,4-Dinitrophenol

4,291

1,207

Ethylbenzene

380

142

Fluoranthene

54

22

Fluorene

47

19

Hexachlorobenzene

794

196

Hexachlorobutadiene

380

142

Hexachloroethane

794

196

Methyl chloride

295

110

Methylene chloride

170

36

Naphthalene

47

19

Nitrobenzene

6,402

2,237

2-Nitrophenol

231

65

4-Nitrophenol

576

162

Phenanthrene

47

19

Phenol

47

19

Pyrene

48

20

Tetrachloroethylene

164

52

Toluene

74

28

Total Chromium

2,770

1,110

Total Copper

3,380

1,450

Total Cyanide

1,200

420

Total Lead

690

320

Total Nickel

3,980

1,690

Total Zinc2

2,610

1,050

1,2,4-Trichlorobenzene

794

196

1,1,1-Trichloroethane

59

22

1,1,2-Trichloroethane

127

32

Trichloroethylene

69

26

Vinyl chloride

172

97

1All units are micrograms per liter.

2Total Zinc for rayon fiber manufacture that uses the viscose process and acrylic fibers manufacture that uses the zinc chloride/solvent process is 6,796 mg/l maximum for any one day and 3,325 mg/l maximum for monthly average.

Wis. Admin. Code Department of Natural Resources NR 235.91

Cr. Register, March, 1997, No. 495, eff. 4-1-97.