TITLE 35: ENVIRONMENTAL PROTECTION
SUBTITLE C: WATER POLLUTION
CHAPTER I: POLLUTION CONTROL BOARD
PART 302 WATER QUALITY STANDARDS
SECTION 302.407 CHEMICAL CONSTITUENTS


 

Section 302.407  Chemical Constituents

 

a)         The acute standard (AS) for the chemical constituents listed in subsection (e) must not be exceeded at any time except as provided in subsection (d).

 

b)         The chronic standard (CS) for the chemical constituents listed in subsection (e) must not be exceeded by the arithmetic average of at least four consecutive samples collected over any period of four days, except as provided in subsection (d).  The samples used to demonstrate attainment or lack of attainment with a CS must be collected in a manner that assures an average representative of the sampling period.  For the chemical constituents that have water quality-based standards dependent upon hardness, the chronic water quality standard will be calculated according to subsection (e) using the hardness of the water body at the time the sample was collected. To calculate the attainment status of chronic standards, the concentration of the chemical constituent in each sample is divided by the calculated water quality standard for the sample to determine a quotient.  The water quality standard is attained if the mean of the sample quotients is less than or equal to one for the duration of the averaging period.

 

c)         The human health standard (HHS) for the chemical constituents listed in subsection (f) must not be exceeded, on a 12-month rolling average based on at least eight samples, collected in a manner representative of the sampling period, except as provided in subsection (d).

 

d)         In waters where mixing is allowed under Section 302.102, the following apply:

 

1)         The AS must not be exceeded in any waters except for those waters for which a zone of initial dilution (ZID) applies under Section 302.102.

 

2)         The CS must not be exceeded outside of waters in which mixing is allowed under Section 302.102.

 

3)         The HHS must not be exceeded outside of waters in which mixing is allowed under Section 302.102.

 

e)         Numeric Water Quality Standards for the Protection of Aquatic Organisms

 


Constituent

AS

(µg/L)

CS

(µg/L)

Arsenic

(trivalent, dissolved)

340 X 1.0*=340

150 X 1.0*=150

 

Benzene

4200

860

Cadmium

(dissolved)

eA+B ln(H) X {1.138672-[(ln(H))(0.041838)]}*, where A=-2.918 and B=1.128

eA+B ln(H) X {1.101672-[(ln(H))(0.041838)]}*, where A= -3.490 and B=0.7852

Chromium (hexavalent, total)

16

11

Chromium (trivalent, dissolved)

eA+B ln(H) X 0.316*,

where A=3.7256 and

B=0.8190

eA+B ln(H) X 0.860*,

where A=0.6848 and B=0.8190

Copper

(dissolved)

eA+B ln(H) X 0.960*,

where A=-1.645 and

B=0.9422

eA+B ln(H) X 0.960*,

where A=-1.646 and

B=0.8545

Cyanide**

22

10

Ethylbenzene

150

14

Fluoride (total)

eA+B ln(H),

where A=6.7319

and B=0.5394

eA+B ln(H), but must not exceed 4.0 mg/L,

where A=6.0445 and B=0.5394

Lead

(dissolved)

eA+B ln(H) X {1.46203-[(ln(H))(0.145712)]}*,

where A=-1.301 and B=1.273

eA+B ln(H) X {1.46203-[(ln(H))(0.145712)]}*,

where A=-2.863 and

B=1.273

Manganese (dissolved)

eA+B ln(H) X 0.9812*,

where A=4.9187

and B=0.7467

eA+B ln(H) X 0.9812*,

where A=4.0635

and B=0.7467

Mercury (dissolved)

1.4 X 0.85*=1.2

0.77 X 0.85*=0.65

Nickel (dissolved)

eA+B ln(H) X 0.998*,

where A=0.5173 and

B=0.8460

eA+B ln(H) X 0.997*,

where A=-2.286 and

B=0.8460

Toluene

2000

600

TRC

19

11

Xylene(s)

920

360

Zinc (dissolved)

eA+B ln(H) X 0.978*,

where A=0.9035 and

B=0.8473

eA+B ln(H) X 0.986*,

where A=-0.4456 and

B=0.8473

 

where: 

 

µg/L

=

microgram per liter

H

=

Hardness concentration of receiving water in mg/L as CaCO3

ex

=

base of natural logarithms raised to the x-power

ln(H)

=

natural logarithm of hardness in mg/L as CaCO3

*

=

conversion factor multiplier for dissolved metals

**

=

standard to be evaluated using either of the following USEPA approved methods, incorporated by reference at 35 Ill. Adm. Code 301.106:  Method OIA-1677, DW: Available Cyanide by Flow Injection, Ligand Exchange, and Amperometry, January 2004, Document Number EPA-821-R-04-001; or Cyanide Amenable to Chlorination, Standard Methods 4500-CN-G (40 CFR 136.3)

 

f)         Numeric Water Quality Standard for the Protection of Human Health

 

Constituent

HHS (µg/L)

Benzene

310

Mercury (total)

0.012

Phenols

860,000

 

where:

 

µg/L

=

microgram per liter

 

g)         Numeric Water Quality Standards for Other Chemical Constituents

 

            Concentrations of the following chemical constituents must not be exceeded except in waters for which mixing is allowed under Section 302.102.

 

Constituent

Unit

Standard

Chloride

mg/L

500

Iron (dissolved)

mg/L

1.0

Selenium (total)

mg/L

1.0

Silver (dissolved)

µg/L

eA+B ln(H) X 0.85*, where A=-6.52 and B=1.72

Sulfate (where H is ≥ 100 but ≤ 500 and C is ≥ 25 but ≤ 500)

mg/L

[1276.7+5.508(H)-1.457(C)] X 0.65

Sulfate (where H is ≥ 100 but ≤ 500 and C is ≥ 5 but < 25)

mg/L

[-57.478 + 5.79(H) + 54.163(C)] X 0.65

Sulfate (where H > 500 and C ≥ 5)

mg/L

2,000

 

where:

 

mg/L

=

milligram per liter

µg/L

=

microgram per liter

H

=

hardness concentration of receiving water in mg/L as CaCO3

C

=

chloride concentration of receiving water in mg/L

ex

=

base of natural logarithms raised to the x-power

ln(H)

=

natural logarithm of hardness in milligrams per liter

*

=

conversion factor multiplier for dissolved metals

 

h)         Concentrations of other chemical constituents in the South Fork of the South Branch of the Chicago River (Bubbly Creek) must not exceed the following standards:

 

CONSTITUENT

 

CONCENTRATION (mg/L)

Ammonia Un-ionized (as N*)

0.1

Arsenic (total)

1.0

Barium (total)

5.0

Cadmium (total)

0.15

Chromium (total hexavalent)

0.3

Chromium (total trivalent)

1.0

Copper (total)

1.0

Cyanide (total)

0.10

Fluoride (total)

15.0

Iron (total)

2.0

Iron (dissolved)

0.5

Lead (total)

0.1

Manganese (total)

1.0

Mercury (total)

0.0005

Nickel (total)

1.0

Oil, fats and grease

15.0**

Phenols

0.3

Selenium (total)

1.0

Silver

1.1

Zinc (total)

1.0

Total Dissolved Solids

1500

 

*   For purposes of this Section, the concentration of un-ionized ammonia must be computed according to the following equation:

 

 

where:

 

X

=

U

=

Concentration of un-ionized ammonia as N in mg/L

N

=

Concentration of ammonia nitrogen as N in mg/L

T

=

Temperature in degrees Celsius

 

**        Oil must be analytically separated into polar and non-polar components if the total concentration exceeds 15 mg/L.  In no case may either of the components exceed 15 mg/L (i.e., 15 mg/L polar materials and 15 mg/L non-polar materials).

 

(Source:  Amended at 47 Ill. Reg. 4437, effective March 23, 2023)