ILLINOIS POLLUTION CONTROL BOARD

March 4, 1999

IN THE MATTER OF:

PERMITTING PROCEDURES FOR THE

LAKE MICHIGAN BASIN: 35 ILL. ADM.

CODE 301, 302 AND 309.141

)

)

)

)

)

R99-8

(Rulemaking - Water)

Proposed Rule. First Notice.

OPINION AND ORDER OF THE BOARD (by G.T. Girard, C.A. Manning and N.J. Melas):

On July 28, 1998, the Illinois Environmental Protection Agency (Agency) filed a

rulemaking proposal which amends the Board’s water regulations concerning permitting

procedures for the Lake Michigan Basin. The proposed rules amend portions of the Board’s rules

dealing with the issuance of National Pollutant Discharge Elimination Permits (NPDES) and are

necessary to implement the federal Great Lakes Initiative (GLI) which was previously adopted by

the Board. See, In the Matter of: Conforming Amendments for the Great Lakes Initiative: 35 Ill.

Adm. Code 302.101; 302.105; 302.Subpart E; 303.443 and 304.222, (December 18, 1997) R97-

25. The proposal was filed pursuant to Section 27 of the Environmental Protection Act (Act)

(415 ILCS 5/27 (1996)) and was accompanied by a statement of reasons (Reasons). The Board

accepted this proposal on August 6, 1998.

Two hearings have been held in this matter before Hearing Officer Marie Tipsord. The

first hearing was held on October 5, 1998, in Chicago, Illinois (Tr.1). At that hearing, the Agency

submitted testimony in support of the proposal. A second hearing was held on December 8,

1998, in Springfield, Illinois (Tr.2). The Agency presented additional testimony and testimony

was offered by Mr. William Seith on behalf of the Illinois Attorney General’s Office (Attorney

General). A deadline of January 14, 1999, was set for posthearing comments to be submitted and

as of today’s order, the Board has received only one public comment.

Today, the Board sends this proposal to first notice. Based on the Agency’s proposal and

the hearings, the Board finds that proceeding to first notice is warranted. In addition, the Board

will proceed to first notice with specific sections of 35 Ill. Adm. Code 302 and we amend the

caption at this time to include that Part. As discussed below, the amendments to Part 302 are

limited in nature. In the sections that follow, the Board will briefly discuss procedural history,

then the proposed rule and finally explain the economic justification and technical feasibility of the

proposal.

PROCEDURAL HISTORY

Prior to filing this proposal with the Board, the Agency promulgated regulations at 35 Ill.

Adm. Code 352 to implement procedures necessary for the issuance of NPDES permits in the

Lake Michigan Basin. Reasons at 3. The Part 352 regulations were intended by the Agency to

---

2

implement the Board’s GLI regulations promulgated in R97-25. During the Agency’s Part 352

rulemaking the Attorney General questioned the authority of the Agency to proceed with certain

portions of that rulemaking. The Joint Committee on Administrative Rules of the Illinois

Legislature recommended that the Agency and the Attorney General “work together to more

clearly determine the relative jurisdiction of the” Agency.

Id

. The Agency submitted this

proposal (R99-8) to the Board in response.

Id

. The Agency stated that the proposal was

submitted to determine whether the Agency’s regulations adopted at 35 Ill. Adm. Code 352 are

consistent with the Board’s regulations and, if they are not consistent, to determine which

regulations should be amended.

Id

. The Agency also submitted these amendments to “determine

the limits” of the Agency’s and the Board’s “rulemaking authority.”

Id

.

On December 17, 1998, the Board denied a motion to dismiss R99-8 filed by the Illinois

Environmental Regulatory Group (IERG) and supported by the Chemical Industry Council (PC

1). In that order, the Board found that the Board does not need to decide the Agency’s authority

for rulemaking in this proceeding. Section 13 of the Environmental Protection Act (415 ILCS

5/13 (1996)) clearly grants the Board the authority to adopt rules. The Agency’s rulemaking

proposal contains proposed amendments to the Board’s water rules that will clarify

implementation of the federally required Great Lakes Initiative. The Board further found that the

Board can adopt or not adopt the proposed rules on the merits based on the Board’s own

authority to adopt the rules proposed by the Agency.

In denying IERG’s motion to dismiss the Board considered testimony from the December

8, 1998 hearing. At that hearing, Seith of the Attorney General’s Office testified that the Board

need not “deal with” the issue of the Agency’s authority to promulgate regulations because “this

Board clearly does have the authority to promulgate these regulations.” Tr.2 at 28. Based on the

Attorney General’s experience with enforcement actions in similar cases, Seith stated that the

Board should adopt the proposed rules to ensure enforceability of the GLI program and the

limitations written into permits for individual dischargers. Tr. 2 at 31-33. The Board also

considered the decision by the Illinois Supreme Court which discussed the rulemaking roles of the

Board and the Agency in the context of water regulations (Granite City Division of National Steel

Company v. Illinois Pollution Control Board, 155 Ill.2d 149, 613 N.E.2d 719 (April 15, 1993)).

PROPOSAL

The Agency proposes to amend the Board’s rules by updating the citation to the Code of

Federal regulations at section 301.105, adding specialized definitions that are contained in the

Agency’s rule at Section 352.104 and adding implementation procedures under Section

309.141(h). The amendments to the incorporations by reference under Section 301.105(c) update

the citation to 40 C.F.R. 136 to reflect the 1996 edition of the federal rules, which contain the

approved test methods, and add a new incorporation by reference to a test procedure specified in

40 C.F.R. 132.

The definitions proposed today at 35 Ill. Adm. Code 301 are, for the most part, derived

from the federal GLI regulations at 40 C.F.R. 132.2. These include definitions of the terms

“bioaccumulative chemicals of concern,” “method detection level,” “minimum level,”

“quantification level,” “total maximum daily load,” “wasteload allocation” and “wet weather point

---

3

source.” In addition, the order includes definitions proposed by the Agency of certain terms used

in the implementation procedures.

The procedures for the implementation of the federal GLI are set forth under a new

subsection at 35 Ill. Adm. Code 309.141(h). These procedures are intended to be used by the

Agency when issuing NPDES permits to Lake Michigan Basin Dischargers. Section

309.141(h)(1) provides that the Total Maximum Daily Load (TMDL) or the Waste Load

Allocations (WLA) will be set through either the Lake Michigan Lakewide Management Plan

(LaMP) or the remedial action plan (RAP) for an Area of Concern. Reasons at 5. This provision

is consistent with the federal GLI procedure concerning TMDL and WLA at 40 C.F.R. 132

Appendix F, Procedure 3. If neither LaMP or RAP has been completed the effluent limits shall be

established pursuant to the remaining sections of Section 309.141.

Id

. If calculation of a TMDL

or a WLA is incomplete but completion of a TMDL is expected to supersede limits established

through other provisions, the limits shall be set as interim and the permit shall include a reopener

clause, which would be triggered by the completion of TMDL or WLA.

Id

.

Section 309.141(h)(2) specifies an acceptable risk level of one in 100,000 for establishing

Tier I criteria and Tier II values for combination of substances exhibiting carcinogenic or other

nonthreshold toxic mechanism. This risk level which is termed an “additive risk” level in the

proposed rules is based upon the assumption that the cumulative risk to human health from a

combination of individual carcinogens in a mixture is additive. In this regard, the federal GLI

guidance notes that since there is very little information concerning the interactive effects of

pollutants in a mixture, it is reasonable to consider that the risk to human health from such

substances is additive. 60 FR 15377. The proposed additive risk level of 1 in 100,000, which is

recommended by the federal GLI guidelines, was adopted by the Board in in R97-25. (In the

Matter of: Conforming Amendments for the Great Lakes Initiative: 35 Ill. Adm. Code 302.101;

302.105; 302.Subpart E; 303.443 and 304.222, (December 18, 1997) R97-25) as an acceptable

risk for such substances. 35 Ill. Adm. Code 302.590. In addition, Sections 309.141(h)(2)(A) and

(h)(2)(B) set forth specific requirements for the consideration of additive effects of two classes of

substances known as the chlorinated dibenzo-p-dioxins (CDD) and chlorinated dibenzofurans

(CDF). Reasons at 5. These procedures are derived from the federal GLI at 40 C.F.R. 132

Appendix F, Procedure 4. In both CDD and CDF, the arrangement of the atoms in the molecule

can vary, creating different levels of toxic effects from the molecule, which is termed as a

congener.

Id

. The proposed procedure assigns specific conversion factors to the congeners that

allows a permit writer to calculate the additive effect on a consistent basis.

Section 309.141(h)(3) sets forth the conversion factors to be used in translating between

water quality standards, criteria or values for metals expressed in either the dissolved form or as

total amount recoverable. Reasons at 6. In this regard, the Agency notes that while many

modern water quality standards are expressed in the dissolved form,

1

historical water quality and

effluent data has been reported as total amount recoverable. Reasons at 6. The proposed

conversion factors, which are based on the Agency’s review of scientific literature, allows for the

1

The standards are expressed in dissolved form since that form was used in developing the

toxicological information as being more available for absorption by aquatic life.

---

4

consistent translation of total recoverable metal to dissolved form. Further, the proposed

provision also allows for the use of alternate site-specific conversion factor.

Section 309.141(h)(4) together with the procedures specified in 35 Ill. Adm. Code

352.Subpart D provide guidance to the Agency in choosing which pollutants require water quality

based effluent limits (WQBEL) and, if required, at what level in NPDES permits. Reasons at 6.

Subsection (h)(4)(A) specifies the first step in the process which involves the estimation of

projected effluent quality (PEQ) of a parameter in the discharge of a facility, taking into account

the chronic or acute exposure periods of the standard, criteria or value.

Id

. The proposed

provision requires the PEQ to be based on representative facility specific data that reflect the

upper bound of a 95 percent confidence level for the 95th percentile value. Subsection (h)(4)(B)

provides a method of calculating the PEQ when less than ten facility specific data points are

available. The PEQ or the alternate PEQ must be compared with water quality standard, criteria,

or value to determine whether to impose no limit, consider dilution and mixing, or require

additional monitoring. Subsection (h)(4)(C) requires the Agency to use monthly average effluent

data to evaluate the need for WQBELs to meet chronic standards and daily effluent data to

evaluate the need for effluent limits to meet acute standards. Reasons at 6-7. Subsection

(h)(4)(D) allows alternative scientifically defensible statistical methods to calculate PEQ. Reasons

at 7.

If PEQ for a parameter is greater than the water quality standard, criteria or value for that

parameter, the next step involves the consideration of dilution and mixing in accordance with

Section 309.141(h)(5), which allows for such consideration based on the degree of treatment.

Mixing zone and dilution may be considered only if the discharger is providing treatment

consistent with the best degree of treatment under 35 Ill. Adm. Code 304.102(a). Reasons at 7.

The next step in the process involves the comparison of PEQ of a parameter with the

projected effluent limitation (PEL) for that parameter to determine the need for specifying a

WQBEL in the NPDES permit. Section 309.141(h)(6) sets forth a simple mass balance formula

for calculating PEL giving consideration to the water quality standard, relative flowrates of

effluent and receiving water, dilution allowance and the background concentration of the

parameter. Reasons at 7.

Section 309.141(h)(7) sets forth the conditions under which a WQBEL or certain

monitoring requirements must be included in the NPDES permit based upon a comparison of PEQ

and PEL. Reasons at 7.

The Board is also proposing amendments to 35 Ill. Adm. Code 302. The amendments are

proposed because at the close of the rulemaking in R97-25 (In the Matter of: Conforming

Amendments for the Great Lakes Initiative: 35 Ill. Adm. Code 302.101; 302.105; 302.Subpart E;

303.443 and 304.222, (December 18, 1997) R97-25), JCAR submitted a list of typographical

errors which occurred in the text of Part 302. The Board proposes only typographical corrections

and nonsubstantive amendments to Part 302.

ECONOMIC REASONABLENESS AND TECHNICAL FEASIBILITY

---

5

The Agency indicated that the procedures outlined in these amendments are necessary to

implement the federal Great Lakes Initiative in Illinois. Tr.2 at 19. The implementation costs of

the GLI were found to be reasonable in R97-25 (In the Matter of: Conforming Amendments for

the Great Lakes Initiative: 35 Ill. Adm. Code 302.101; 302.105; 302.Subpart E; 303.443 and

304.222, (December 18, 1997) R97-25). The Agency reiterates its position from R97-25 (In the

Matter of: Conforming Amendments for the Great Lakes Initiative: 35 Ill. Adm. Code 302.101;

302.105; 302.Subpart E; 303.443 and 304.222, (December 18, 1997) R97-25) by stating:

It is the opinion of the Illinois Environmental Protection Agency that these

proposed procedures are not so significantly different than the existing procedures

to protect the Lake Michigan Basin as to cause significant cost increase. If such

unreasonable cost increases are demonstrated, the Great Lakes Initiative provides

for consideration of adjustments on a case by case basis to avoid hardship.

Reasons at 8.

As to the technical feasibility of the proposal, Mr. Toby Frevert and Mr. Tom McSwiggin

testified on behalf of the Agency, that the procedures are technically feasible. See Tr.2 at 14-19.

Specifically, Frevert stated that the procedures are “generally feasible” and constitute “a default

procedure that we [the Agency] would essentially put the world on notice we [the Agency] intend

to operate by, unless somebody can propose or substantiate some other procedure.” Tr.2 at 15.

Frevert testified that the procedures proposed by the Agency are reasonable to establish

permit limits that are adequate to protect water quality, yet do not have extreme conservatism that

they become impracticable for an operator. Tr.2 at 14-15. He noted that the Agency used the

statistical procedures recommended by the USEPA that demonstrate compliance based on upper

bound 95 percent confidence of the 95th percentile of the effluent concentration. Tr.2 at 15.

Frevert maintained that the procedures are flexible enough to be technically feasible across the

Board.

Id

. He also noted that the proposed procedures are consistent with the federal GLI

implementation procedures. Tr.2 at 18-19.

DISCUSSION

These amendments propose changes to the Board’s water regulations which implement

the federal Great Lakes Initiative in the Lake Michigan Basin of Illinois. Although, the Agency

indicated it was proposing these amendments to “determine the limits” of the Agency’s and the

Board’s “rulemaking authority,” the Board need not comment on the Agency’s authority to adopt

rules. Rather, the Board notes that the proposed amendments clarify the Agency’s authority to

carry out procedures which are necessary to implement the federal GLI and for therefore, the

Board believes that proceeding to first notice is appropriate.

The Board, in deciding whether to proceed with any amendment to its rules, must

determine economic reasonableness and technical feasibility. In this proceeding the only evidence

in the record indicates that proposed amendments are economically reasonable and technically

feasible. Therefore, the Board finds the proposal is economically reasonable and technically

feasible and the Board will proceed to first notice.

---

6

Finally, the Board is convinced that the inclusion of these amendments in the regulations

implementing the Great Lakes Initiative will clarify issues and assist in the administration of the

program in Illinois. Therefore the Board will proceed to first notice under the Administrative

Procedure Act. 5 ILCS 100/1-1

et seq

.

CONCLUSION

The Board finds that the proposal filed by the Agency warrants proceeding to first notice

under the Illinois Administrative Procedure Act. 5 ILCS 100/1-1

et seq

. Further, the Board finds

that the proposal is economically reasonable and technically feasible.

ORDER

TITLE 35: ENVIRONMENTAL PROTECTION

SUBTITLE C: WATER POLLUTION

CHAPTER I: POLLUTION CONTROL BOARD

PART 301

INTRODUCTION

Section

301.101

Authority

301.102

Policy

301.103

Repeals

301.104

Analytical Testing

301.105

References to Other Sections

301.106

Incorporations by Reference

301.107

Severability

301.108

Adjusted Standards

301.200

Definitions

301.205

Act

301.210

Administrator

301.215

Agency

301.220

Aquatic Life

301.221

Area of Concern

301.225

Artificial Cooling Lake

301.230

Basin

301.231

Bioaccumulative Chemicals of Concern

301.235

Board

301.240

CWA

301.245

Calumet River System

---

7

301.250

Chicago River System

301.255

Combined Sewer

301.260

Combined Sewer Service Area

301.265

Construction

301.270

Dilution Ratio

301.275

Effluent

301.280

Hearing Board

301.285

Industrial Wastes

301.290

Institute

301.295

Interstate Waters

301.300

Intrastate Waters

301.301

Lake Michigan Lakewide Management Plan

301.305

Land Runoff

301.310

Marine Toilet

301.311

Method Detection Level

301.312

Minimum Level

301.315

Modification

301.320

New Source

301.325

NPDES

301.330

Other Wastes

301.331

Outlier

301.335

Person

301.340

Pollutant

301.341

Pollutant Minimization Program

301.345

Population Equivalent

301.346

Preliminary Effluent Limitation

301.350

Pretreatment Works

301.355

Primary Contact

301.356

Projected Effluent Quality

301.360

Public and Food Processing Water Supply

301.365

Publicly Owned Treatment Works

301.370

Publicly Regulated Treatment Works

301.371

Quantification Level

301.372

Reasonable Potential Analysis

301.373

Same Body of Water

301.375

Sanitary Sewer

301.380

Secondary Contact

301.385

Sewage

301.390

Sewer

301.395

Sludge

301.400

Standard of Performance

301.405

STORET

301.410

Storm Sewer

301.411

Total Maximum Daily Load

301.415

Treatment Works

---

8

301.420

Underground Waters

301.421

Wasteload Allocation

301.425

Wastewater

301.430

Wastewater Source

301.435

Watercraft

301.440

Waters

301.441

Water Quality Based Effluent Limitation

301.442

Wet Weather Point Source

301.443

Whole Effluent Toxicity

APPENDIX

References to Previous Rules

AUTHORITY: Implementing Section 13 and authorized by Section 27 of the Environmental

Protection Act (Ill. Rev. Stat. 1987, ch. 111 1/2, pars. 1013 and 1027).

SOURCE: Filed with the Secretary of State January 1, 1978; amended at 3 Ill. Reg. 25, p. 190,

effective June 21, 1979; amended at 5 Ill. Reg. 6384, effective May 28, 1981; codified at 6 Ill.

Reg. 7818; amended in R88-1 at 13 Ill. Reg. 5984, effective April 18, 1989; amended in R88-

21(A) at 14 Ill. Reg. 2879, effective February 13, 1990 amended in R99-8 at 23 Ill. Reg.

_________, effective _____________________.

Note: Capitalization denotes statutory language.

Section 301.106 Incorporations by Reference

a)

Abbreviations. The following abbreviated names are used for materials

incorporated by reference:

"ASTM" means American Society for Testing and Materials

 

"GPO" means Superintendent of Documents, U.S. Government Printing Office

"NTIS" means National Technical Information Service

"Standard Methods" means "Standard Methods for the Examination of Water and

Wastewater", available from the American Public Health Association

"USEPA" means United States Environmental Protection Agency

b)

The Board incorporates the following publications by reference:

 

American Public Health Association et al., 1015 Fifteenth Street, N.W.,

Washington, D.C. 20005

---

9

Standard Methods for the Examination of Water and Wastewater, 16th

Edition, 1985

ASTM. American Society for Testing and Materials, 1976 Race Street,

Philadelphia, PA 19013 (215) 299-5400

ASTM Standard E 724-80 "Standard Practice for Conducting Static Acute

Toxicity Tests with Larvae of Four Species of Bivalve Molluscs", approved

1980.

ASTM Standard E 729-80 "Standard Practice for Conducting Static Acute

Toxicity Tests with Fishes, Macroinvertebrates, and Amphibians",

approved 1980.

ASTM Standard E 857-81 "Standard Practice for Conducting Subacute

Dietary Toxicity Tests with Avian Species", approved 1981.

ASTM Standard E 1023-84 "Standard Guide for Assessing the Hazard of a

Material to Aquatic Organisms and Their Uses", approved 1984.

ASTM Standard E 1103-86 "Method for Determining Subchronic Dermal

Toxicity", approved 1986.

ASTM Standard E 1147-87 "Standard Test Method for Partition

Coefficient (n-Octanol/Water) Estimation by Liquid Chromatography",

approved February 27, 1987

ASTM Standard E 1192-88 "Standard Guide for Conducting Acute

Toxicity Tests on Aqueous Effluents with Fishes, Macroinvertebrates and

Amphibians", approved 1988.

ASTM Standard E 1193-87 "Standard Guide for Conducting Renewal

Life-Cycle Toxicity Tests with Daphnia Magna", approved 1987.

ASTM Standard E 1241-88 "Standard Guide for Conducting Early Life-

Stage Toxicity Tests with Fishes", approved 1988.

ASTM Standard E 1242-88 "Standard Practice for Using Octanol-Water

Partition Coefficients to Estimate Median Lethal Concentrations for Fish

due to Narcosis", approved 1988.

ASTM Standard E 4429-84 "Standard Practice for Conducting Static

Acute Toxicity Tests on Wastewaters with Daphnia", approved 1984.

---

10

NTIS. National Technical Information Service, 5285 Port Royal Road,

Springfield, VA 22161 (703) 487-4600

SIDES: STORET Input Data Editing System, January, 1973, Document

Number PB-227 052/8

Water Quality Data Base Management Systems, February, 1984,

Document Number AD-P004 768/8

USEPA. United States Environmental Protection Agency, Office of Health and

Environmental Assessment, Washington, D.C. 20460

 

Mutagenicity and Carcinogenicity Assessment for 1,3-Butadiene,

September, 1985, Document Number EPA/600/8-85/004A

 

c)

The Board incorporates the following federal regulations by reference. Available

from the Superintendent of Documents, U.S. Government Printing Office,

Washington D.C. 20402. (202)783-3238:

Procedure 5.b.2 of Appendix F of 40 CFR 132 (1995)

40 CFR 136 (19961988)

40 CFR 141 (1988)

40 CFR 302.4 (1988)

d)

This Section incorporates no future editions or amendments.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 301.221 Area of Concern

Area of Concern or AOC is an area specially designated for remediation efforts.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 301.231 Bioaccumulative Chemicals of Concern

Bioaccumulative Chemicals of Concern or BCC means a chemical or class of chemicals meeting

the definition at 35 Ill. Adm. Code 302.501.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 301.301 Lake Michigan Lakewide Management Plan

Lake Michigan Lakewide Management Plan or LaMP is a plan to manage the Illinois portion of

Lake Michigan as approved by USEPA.

---

11

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 301.311 Method Detection Level

Method Detection Level is the minimum concentration of an analyte (substance) that can be

measured and reported with a 99 percent confidence that the analyte concentration is greater than

zero as determined by the procedure set forth in Appendix B of 40 CFR 136.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 301.312 Minimum Level

Minimum Level or ML is the concentration at which the entire analytical system must give a

recognizable signal and acceptable calibration point. The ML is the concentration in a sample that

is equivalent to the concentration of the lowest calibration standard analyzed by a specific

analytical procedure approved in 40 CFR 136, assuming that all the method-specified sample

weights, volumes and processing steps have been followed.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 301.331 Outlier

Outlier is a test value that is not statistically valid under tests approved in 40 CFR 136.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 301.341 Pollutant Minimization Program

Pollutant Minimization Program means a plan to achieve or maintain the goal of reducing

contaminant discharges to below water quality based effluent limits.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 301.346 Preliminary Effluent Limitation

Preliminary Effluent Limitation or PEL is an estimate of an allowable discharge taking into

consideration mixing or dilution.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 301.356 Projected Effluent Quality

Projected Effluent Quality or PEQ is the amount of a contaminant estimated to be discharged by a

facility or activity taking into account statistical analysis of the discharge or activity.

---

12

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 301.371 Quantification Level

Quantification Level is a measurement of the concentration of a contaminant obtained by using a

specified laboratory procedure approved in 40 CFR 136 and calibrated at a specified

concentration above the method detection level. It is considered the lowest concentration at which

a particular contaminant can be quantitatively measured using a specified laboratory procedure for

monitoring of the contaminant.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 301.372 Reasonable Potential Analysis

Reasonable Potential Analysis or Reasonable Potential to Exceed means the procedure to predict

whether an existing or future discharge would cause or contribute to a violation of water quality

standards, criteria or values.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 301.373 Same Body of Water

Same Body of Water means that, for purposes of evaluating intake toxic substances consistent

with 35 Ill. Adm. Code 352.425, the Agency will consider intake toxic substances to be from the

same body of water if the Agency finds that the intake toxic substance would have reached the

vicinity of the outfall point in the receiving water within a reasonable period had it not been

removed by the permittee and there is a direct hydrological connection between the intake and the

discharge points. Notwithstanding the provisions of this definition, an intake toxic substance shall

be considered to be from the same body of water if the permittee's intake point is located on Lake

Michigan and the outfall point is located on a tributary of Lake Michigan. In this situation, the

background concentration of the toxic substance in the receiving water shall be similar to or

greater than that in the intake water and the difference, if any, between the water quality

characteristics of the intake and receiving water shall not result in an adverse impact on the

receiving water.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 301.411 Total Maximum Daily Load

Total Maximum Daily Load or TMDL is the sum of the individual wasteload allocations for point

sources and load allocations for nonpoint sources and natural background, as more fully defined

at 40 CFR 130.2(i). A TMDL sets and allocates the maximum amount of a pollutant that may be

introduced into a water body and still assure attainment and maintenance of water quality

standards.

---

13

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 301.421 Wasteload Allocation

Waste Load Allocation or WLA is the portion of receiving water's loading capacity that is

allocated to one of its existing or future point sources of pollution, as more fully defined at 40

CFR 130.2(h). In the absence of a TMDL approved by USEPA pursuant to 40 CFR 130.7 or an

assessment and remediation plan developed and approved in accordance with procedure 3.A of

Appendix F of 40 CFR 132, a WLA is the allocation for an individual point source that ensures

that the level of water quality to be achieved by the point source is derived from and complies

with all applicable water quality standards.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 301.441 Water Quality Based Effluent Limitation

Water Quality Based Effluent Limitation or WQBEL is a limit imposed in a permit so that the

applicable water quality standard, criteria or value is not exceeded outside of a designated mixing

zone.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 301.442 Wet Weather Point Source

Wet Weather Point Source means any discernible, confined and discrete conveyance from which

pollutants are, or may be, discharged as the result of a wet weather event. Discharges from wet

weather point sources shall include only: discharges of storm water from a municipal separate

storm sewer as defined at 40 CFR 122.26(b)(8); storm water discharge associated with industrial

activity as defined at 40 CFR 122.26(b)(14); discharges of storm water and sanitary wastewaters

(domestic, commercial, and industrial) from a combined sewer overflow; or any other stormwater

discharge for which a permit is required under Section 402(p) of the Clean Water Act. A storm

water discharge associated with industrial activity which is mixed with process wastewater shall

not be considered a wet weather point source.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 301.443 Whole Effluent Toxicity

Whole Effluent Toxicity or WET means a test procedure that determines the effect of an effluent

on aquatic life.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

TITLE 35: ENVIRONMENTAL PROTECTION

---

14

SUBTITLE C: WATER POLLUTION

CHAPTER I: POLLUTION CONTROL BOARD

PART 302

WATER QUALITY STANDARDS

SUBPART A: GENERAL WATER QUALITY PROVISIONS

Section

302.100

Definitions

302.101

Scope and Applicability

302.102

Allowed Mixing, Mixing Zones and ZIDS

302.103

Stream Flows

302.104

Main River Temperatures

302.105

Nondegradation

SUBPART B: GENERAL USE WATER QUALITY STANDARDS

Section

302.201

Scope and Applicability

302.202

Purpose

302.203

Offensive Conditions

302.204

pH

302.205

Phosphorus

302.206

Dissolved Oxygen

302.207

Radioactivity

302.208

Numeric Standards for Chemical Constituents

302.209

Fecal Coliform

302.210

Other Toxic Substances

302.211

Temperature

302.212

Ammonia Nitrogen and Un-ionized Ammonia

302.213

Effluent Modified Waters (Ammonia)

SUBPART C: PUBLIC AND FOOD PROCESSING WATER SUPPLY STANDARDS

Section

302.301

Scope and Applicability

302.302

Algicide Permits

302.303

Finished Water Standards

302.304

Chemical Constituents

302.305

Other Contaminants

302.306

Fecal Coliform

---

15

SUBPART D: SECONDARY CONTACT AND INDIGENOUS AQUATIC LIFE

STANDARDS

Section

302.401

Scope and Applicability

302.402

Purpose

302.403

Unnatural Sludge

302.404

pH

302.405

Dissolved Oxygen

302.406

Fecal Coliform (Repealed)

302.407

Chemical Constituents

302.408

Temperature

302.409

Cyanide

302.410

Substances Toxic to Aquatic Life

SUBPART E: LAKE MICHIGAN BASIN WATER QUALITY STANDARDS

Section

302.501

Scope, Applicability, and Definitions

302.502

Dissolved Oxygen

302.503

pH

302.504

Chemical Constituents

302.505

Fecal Coliform

302.506

Temperature

302.507

Thermal Standards for

 

Existing Sources on January 1, 1971

302.508

Thermal Standards for

 

Sources Under Construction But Not in Operation on

January 1, 1971

302.509

Other Sources

302.510

Incorporations by Reference

302.515

Offensive Conditions

302.520

Regulation and Designation of Bioaccumulative Chemicals of Concern

(BCCs)

302.521

Supplemental Antidegradation Provisions for BCCs

302.525

Radioactivity

302.530

Supplemental Mixing Provisions for Bioaccumulative Chemicals of Concern

(BCCs)

302.535

Ammonia Nitrogen

302.540

Other Toxic Substances

302.545

Data Requirements

302.550

Analytical Testing

302.553

Determining the Lake Michigan Aquatic Toxicity Criteria or Values - General

Procedures

302.555

Determining the Tier I Lake Michigan Basin Acute Aquatic Life Toxicity

Criterion (LMAATC): Independent of Water Chemistry

---

16

302.560

Determining the Tier I Lake Michigan Basin Acute Aquatic Life Toxicity

Criterion (LMAATC): Dependent on Water Chemistry

302.563

Determining the Tier II Lake Michigan Basin Acute Aquatic Life Toxicity

Value (LMAATV)

302.565

Determining the Lake Michigan Basin Chronic Aquatic Life Toxicity Criterion

(LMCATC) or the Lake Michigan Basin Chronic Aquatic Life Toxicity Value

(LMCATV)

302.570

Procedures for Deriving Bioaccumulation Factors for the Lake Michigan

Basin

302.575

Procedures for Deriving Tier I Water Quality Criteria in the Lake Michigan

Basin to Protect Wildlife

302.580

Procedures for Deriving Water Quality Criteria and Values in the Lake

Michigan Basin to Protect Human Health - General

302.585

Procedures for Determining the Lake Michigan Basin Human Health

Threshold Criterion (LMHHTC) and the Lake Michigan Basin Human Health

Threshold Value (LMHHTV)

302.590

Procedures for Determining the Lake Michigan Basin Human Health

Nonthreshold Criterion (LMHHNC) or the Lake Michigan Basin Human

Health Nonthreshold Value (LMHHNV)

302.595

Listing of Bioaccumulative Chemicals of Concern, Derived Criteria and

Values

SUBPART F: PROCEDURES FOR DETERMINING WATER QUALITY CRITERIA

Section

302.601

Scope and Applicability

302.603

Definitions

302.604

Mathematical Abbreviations

302.606

Data Requirements

302.612

Determining the Acute Aquatic Toxicity Criterion for an Individual Substance

- General Procedures

302.615

Determining the Acute Aquatic Toxicity Criterion - Toxicity Independent of

Water Chemistry

302.618

Determining the Acute Aquatic Toxicity Criterion - Toxicity Dependent on

Water Chemistry

302.621

Determining the Acute Aquatic Toxicity Criterion - Procedures for

Combinations of Substances

302.627

Determining the Chronic Aquatic Toxicity Criterion for an Individual

Substance - General Procedures

302.630

Determining the Chronic Aquatic Toxicity Criterion - Procedure for

Combination of Substances

302.633

The Wild and Domestic Animal Protection Criterion

302.642

The Human Threshold Criterion

302.645

Determining the Acceptable Daily Intake

---

17

302.648

Determining the Human Threshold Criterion

302.651

The Human Nonthreshold Criterion

302.654

Determining the Risk Associated Intake

302.657

Determining the Human Nonthreshold Criterion

302.658

Stream Flow for Application of Human Nonthreshold Criterion

302.660

Bioconcentration Factor

302.663

Determination of Bioconcentration Factor

302.666

Utilizing the Bioconcentration Factor

302.669

Listing of Derived Criteria

APPENDIX A

References to Previous Rules

APPENDIX B

Sources of Codified Sections

AUTHORITY: Implementing Section 13 and authorized by Sections 11(b) and 27 of the

Environmental Protection Act [415 ILCS 5/13, 11(b), and 27]

SOURCE: Filed with the Secretary of State January 1, 1978; amended at 2 Ill. Reg. 44, p. 151,

effective November 2, 1978; amended at 3 Ill. Reg. 20, p. 95, effective May 17, 1979; amended at

3 Ill. Reg. 25, p. 190, effective June 21, 1979; codified at 6 Ill. Reg. 7818; amended at 6 Ill. Reg.

11161, effective September 7, 1982; amended at 6 Ill. Reg. 13750, effective October 26, 1982;

amended at 8 Ill. Reg. 1629, effective January 18, 1984; peremptory amendments at 10 Ill. Reg.

461, effective December 23, 1985; amended at R87-27 at 12 Ill. Reg. 9911, effective May 27,

1988; amended at R85-29 at 12 Ill. Reg. 12082, effective July 11, 1988; amended in R88-1 at 13

Ill. Reg. 5998, effective April 18, 1989; amended in R88-21(A) at 14 Ill. Reg. 2899, effective

February 13, 1990; amended in R88-21(B) at 14 Ill. Reg. 11974, effective July 9, 1990; amended

in R94-1(A) at 20 Ill. Reg. 7682, effective May 24, 1996; amended in R94-1(B) at 21 Ill. Reg.

370, effective December 23, 1996; expedited correction at 21 Ill. Reg. 6273, effective December

23, 1996; amended in R97-25 at 21 Ill. Reg. 1356, effective December 24, 1997; amended in

R99-8 at 23 Ill. Reg. _________, effective ______________________.

BOARD NOTE: This Part implements the Environmental Protection Act, as of July 1, 1994.

SUBPART A: GENERAL WATER QUALITY PROVISIONS

Section 302.101 Scope and Applicability

a)

This Part contains schedules of water quality standards which are applicable

throughout the State as designated in 35 Ill. Adm. Code 303. Site specific water

quality standards are found with the water use designations in 35 Ill. Adm. Code

303.

---

18

b)

Subpart B contains general use water quality standards which must be met in

waters of the State for which there is no specific designation (35 Ill. Adm. Code

303.201).

c)

Subpart C contains the public and food processing water supply standards. These

are cumulative with Subpart B and must be met by all designated waters at the

point at which water is drawn for treatment and distribution as a potable supply or

for food processing (35 Ill. Adm. Code 303.202).

d)

Subpart D contains the secondary contact and indigenous aquatic life standards.

These standards must be met only by certain waters designated in 35 Ill. Adm.

Code 303.204 and 303.441.

e)

Subpart E contains the Lake Michigan Basin water quality standards. These must

be met in the waters of the Lake Michigan Basin as designated in 35 Ill. Adm.

Code 303.443.

f)

Subpart F contains the procedures for determining each of the criteria designated

in Section 302.210.

g)

Unless the contrary is clearly indicated, all references to "Parts" or "Sections" are

to Ill. Adm. Code, Title 35: Environmental Protection. For example, "Part 309" is

35 Ill. Adm. Code 309, and "Section 309.101" is 35 Ill. Adm. Code 309.101.

 

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

SUBPART E: LAKE MICHIGAN BASIN WATER QUALITY STANDARDS

Section 302.501 Scope, Applicability, and Definitions

a)

Subpart E contains the Lake Michigan Basin water quality standards. These must

be met in the waters of the Lake Michigan Basin as designated in 35 Ill. Adm.

Code 303.443.

b)

In addition to the definitions provided at 35 Ill. Adm. Code 301.200 through

301.444, and in place of conflicting definitions at Section 302.100, the following

terms have the meanings specified for the Lake Michigan Basin:

“Acceptable daily exposure” or “ADE” means an estimate of the maximum daily

dose of a substance which is not expected to result in adverse noncancer effects to

the general human population, including sensitive subgroups.

“Acceptable endpoints”, for the purpose of wildlife criteria derivation, means

acceptable subchronic and chronic endpoints thatwhich affect reproductive or

developmental success, organismal viability or growth, or any other endpoint

---

19

thatwhich is, or is directly related to, parameters that influence population

dynamics.

“Acute to chronic ratio” or “ACR” is the standard measure of the acute toxicity of

a material divided by an appropriate measure of the chronic toxicity of the same

material under comparable conditions.

“Acute toxicity” means adverse effects that result from an exposure period

thatwhich is a small portion of the life span of the organism.

“Adverse effect” means any deleterious effect to organisms due to exposure to a

substance. This includes effects thatwhich are or may become debilitating, harmful

or toxic to the normal functions of the organism, but does not include non-harmful

effects such as tissue discoloration alone or the induction of enzymes involved in

the metabolism of the substance.

“Baseline BAF” for organic chemicals, means a BAF that is based on the

concentration of freely dissolved chemical in the ambient water and takes into

account the partitioning of the chemical within the organism; for inorganic

chemicals, a BAF is based on the wet weight of the tissue.

“Baseline BCF” for organic chemicals, means a BCF that is based on the

concentration of freely dissolved chemical in the ambient water and takes into

account the partitioning of the chemical within the organism; for inorganic

chemicals, a BAF is based on the wet weight of the tissue.

“Bioaccumulative chemical of concern” or “BCC” is any chemical that has the

potential to cause adverse effects and that, upon entering the surface waters, by

itself or as its toxic transformation product, accumulates in aquatic organisms by a

human health bioaccumulation factor greater than 1,000, after considering

metabolism and other physiochemical properties that might enhance or inhibit

bioaccumulation, in accordance with the methodology in Section 302.570. In

addition, the half life of the chemical in the water column, sediment or biota must

be greater than eight weeks. BCCs include, but are not limited to, the following

substances:

Chlordane

4,4’-DDD; p,p’-DDD; 4,4’-TDE;

p,p’-TDE

4,4’-DDE; p,p’-DDE

4,4’-DDT; p,p’-DDT

Dieldrin

Hexachlorobenzene

Hexachlorobutadiene; Hexachloro-1,3-butadiene

Hexachlorocyclohexanes; BHCs

alpha- Hexachlorocyclohexane; alpha-BHC

---

20

beta- Hexachlorocyclohexane; beta-BHC

delta- Hexachlorocyclohexane; delta-BHC

Lindane; gamma- Hexachlorocyclohexane; gamma-BHC

Mercury

Mirex

Octachlorostyrene

PCBs; polychlorinated biphenyls

Pentachlorobenzene

Photomirex

2,3,7,8-TCDD; Dioxin

1,2,3,4-Tetrachlorobenzene

1,2,4,5-Tetrachlorobenzene

Toxaphene

“Bioaccumulation” is the net accumulation of a substance by an organism as a

result of uptake from all environmental sources.

“Bioaccumulation factor” or “BAF” is the ratio (in L/kg) of a substance's

concentration in the tissue of an aquatic organism to its concentration in the

ambient water, in situations where both the organism and its food are exposed and

the ratio does not change substantially over time.

“Bioconcentration” means the net accumulation of a substance by an aquatic

organism as a result of uptake directly from the ambient water through gill

membranes or other external body surfaces.

“Bioconcentration Factor” or “BCF” is the ratio (in L/kg) of a substance’s

concentration in the tissue of an aquatic organism to its concentration in the

ambient water, in situations where the organism is exposed through the water only

and the ratio does not change substantially over time.

“Biota-sediment accumulation factor” or “BSAF” means the ratio (in kg of organic

carbon/kg of lipid) of a substance’s lipid-normalized concentration in the tissue of

an aquatic organism to its organic carbon-normalized concentration in surface

sediment, in situations where the ratio does not change substantially over time,

both the organism and its food are exposed, and the surface sediment is

representative of average surface sediment in the vicinity of the organism.

“Carcinogen” means a substance thatwhich causes an increased incidence of benign

or malignant neoplasms, or substantially decreases the time to develop neoplasms,

in animals or humans. The classification of carcinogens is determined by the

procedures in Section II.A of aAppendix C to 40 CFR 132 (1996) incorporated by

reference in Section 302.510.

“Chronic effect” means an adverse effect that is measured by assessing an

---

21

acceptable endpoint, and results from continual exposure over several generations,

or at least over a significant part of the test species' projected life span or life stage.

“Chronic toxicity” means adverse effects that result from an exposure period

thatwhich is a large portion of the life span of the organism.

“Dissolved organic carbon” or “DOC” means organic carbon

thatwhich passes

through a 1

μ

m pore size filter.

“Dissolved metal” means the concentration of a metal that will pass through a 0.45

μ

m pore size filter.

“Food chain” means the energy stored by plants is passed along through the

ecosystem through trophic levels in a series of steps of eating and being eaten, also

known as a food web.

“Food chain multiplier” or “FCM” means the ratio of a BAF to an appropriate

BCF.

“Linearized multi-stage model” means a mathematical model for cancer risk

assessment. This model fits linear dose-response curves to low doses. It is

consistent with a no-threshold model of carcinogenesis.

“Lowest observed adverse effect level” or “LOAEL” means the lowest tested dose

or concentration of a substance thatwhich results in an observed adverse effect in

exposed test organisms when all higher doses or concentrations result in the same

or more severe effects.

“No observed adverse effect level” or “NOAEL” means the highest tested dose or

concentration of a substance which results in no observed adverse effect in

exposed test organisms where higher doses or concentrations result in an adverse

effect.

“Octanol water partition coefficient” or “Kow” is the ratio of the concentration of

a substance in the n-octanol phase to its concentration in the aqueous phase in an

equilibrated two-phase octanol water system. For log Kow, the log of the octanol

water partition coefficient is a base 10 logarithm.

“Open Waters of Lake Michigan” means all of the waters within Lake Michigan in

Illinois jurisdiction lakeward from a line drawn across the mouth of tributaries to

Lake Michigan, but not including waters enclosed by constructed breakwaters.

“Particulate organic carbon” or “POC” means organic carbon

thatwhich is retained

by a 1

μ

m pore size filter.

---

22

“Relative source contribution” or “RSC” means the percent of total exposure

which can be attributed to surface water through water intake and fish

consumption.

“Resident or indigenous species” means species thatwhich currently live a

substantial portion of their life cycle, or reproduce, in a given body of water, or

thatwhich are native species whose historical range includes a given body of water.

“Risk associated dose” or “RAD” means a dose of a known or presumed

carcinogenic substance in mg/kg/day which, over a lifetime of exposure, is

estimated to be associated with a plausible upper bound incremental cancer risk

equal to one in 100,000.

“Slope factor” or “q

1

*” is the incremental rate of cancer development calculated

through use of a linearized multistage model or other appropriate model. It is

expressed in mg/kg/day of exposure to the chemical in question.

"Standard Methods" means "Standard Methods for the Examination of Water and

Wastewater", available from the American Public Health Association.

“Subchronic effect” means an adverse effect, measured by assessing an acceptable

endpoint, resulting from continual exposure for a period of time less than that

deemed necessary for a chronic test.

“Target species” is a species to be protected by the criterion.

“Target species value” is the criterion value for the target species.

“Test species” is a species that has test data available to derive a criterion.

“Test dose” or “TD” is a LOAEL or NOAEL for the test species.

“Tier I criteria” are numeric values derived by use of the Tier I methodologies that

either have been adopted as numeric criteria into a water quality standard or are

used to implement narrative water quality criteria.

“Tier II values” are numeric values derived by use of the Tier II methodologies

that are used to implement narrative water quality criteria. They are applied as

criteria, have the same effect, and subject to the same appeal rights as criteria.

“Trophic level” means a functional classification of taxa within a community that is

based on feeding relationships. For example, aquatic green plants and herbivores

comprise the first and second trophic levels in a food chain.

“Toxic unit acute” or “

TU

a

” is the reciprocal of the effluent concentration that

---

23

causes 50 percent of the test organisms to die by the end of the acute exposure

period, which is 48 hours for invertebrates and 96 hours for vertebrates.

“Toxic unit chronic” or “

TU

c

” is the reciprocal of the effluent concentration that

causes no observable effect on the test organisms by the end of the chronic

exposure period, which is at least seven days for Ceriodaphnia

,

fathead minnow

and rainbow trout.

“Uncertainty factor” or “UF” is one of several numeric factors used in deriving

criteria from experimental data to account for the quality or quantity of the

available data.

"USEPA" means United States Environmental Protection Agency.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 302.502 Dissolved Oxygen

Dissolved oxygen (STORET number 00300) must not be less than 90% of saturation, except due

to natural causes, in the Open Waters of Lake Michigan as defined at Section 302.501. The other

waters of the Lake Michigan Basinbasin must not be less than 6.0 mg/L during at least 16 hours

of any 24 hour period, nor less than 5.0 mg/L at any time.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 302.503 pH

pH (STORET number 00400) must be within the range of 7.0 to 9.0, except for natural causes, in

the Open Waters of Lake Michigan as defined at Section 302.501. Other waters of the Basinbasin

must be within the range of 6.5 to 9.0, except for natural causes.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 302.504 Chemical Constituents

The following concentrations of chemical constituents must not be exceeded, except as provided

in Sections 302.102 and 302.530:

a)

The following standards must be met in all waters of the Lake Michigan Basin.

Acute aquatic life standards (AS) must not be exceeded at any time except for

those waters for which the Agency has approved a zone of initial dilution (ZID)

pursuant to Sections 302.102 and 302.530. Chronic aquatic life standards (CS)

and human health standards (HHS) must not be exceeded outside of waters in

which mixing is allowed pursuant to Section 302.102 and 302.530 by the

arithmetic average of at least four consecutive samples collected over a period of

---

24

at least four days. The samples used to demonstrate compliance with the CS or

HHS must be collected in a manner which assures an average representation of the

sampling period.

Constituent

STORET

Number

Unit

AS

CS

HHS

Arsenic

(Trivalent, dissolved)

22680

μ

g/L

340

148

NA

Cadmium (dissolved)

01025

μ

g/L

exp[A

+Bln(H)]

A=-3.6867

B = 1.128

exp[A

+Bln(H)]

A = -2.715

B = 0.7852

NA

Chromium

(Hexavalent, total)

01032

μ

g/L

16

11

NA

Chromium

(Trivalent, dissolved)

80357

μ

g/L

exp[A

+Bln(H)]

A = 3.7256

B =0.819

exp[A

+Bln(H)]

A = 0.6848

B = 0.819

NA

Copper

(dissolved)

01040

μ

g/L

exp[A

+Bln(H)]

A = -1.700

B = 0.9422

exp[A

+Bln(H)]

A = -1.702

B = 0.8545

NA

Cyanide

(Weak acid dissociable)

00718

μ

g/L

22

5.2

NA

Lead

(dissolved)

01049

μ

g/L

exp[A

+Bln(H)]

A = -1.055

B = 1.273

exp[A

+Bln(H)]

A = -4.003

B = 1.273

NA

Nickel

(dissolved)

01065

μ

g/L

exp[A

+Bln(H)]

A = 2.255

B = 0.846

exp[A

+Bln(H)]

A = 0.0584

B = 0.846

NA

Selenium

01145

μ

g/L

NA

5.0

NA

---

25

Constituent

STORET

Number

Unit

AS

CS

HHS

(dissolved)

TRC

50060

μ

g/L

19

11

NA

Zinc

(dissolved)

01090

μ

g/L

exp[A

+Bln(H)]

A = 0.884

B = 0.8473

exp[A

+Bln(H)]

A = 0.884

B = 0.8473

NA

Benzene

34030

μ

g/L

NA

NA

310

Chlorobenzene

34301

mg/L

NA

NA

3.2

2,4-Dimethylphenol

34606

mg/L

NA

NA

8.7

2,4-Dinitrophenol

03756

mg/L

NA

NA

2.8

Endrin

39390

μ

g/L

0.086

0.036

NA

Hexachloroethane

34396

μ

g/L

NA

NA

6.7

Methylene chloride

34423

mg/L

NA

NA

2.6

Parathion

39540

μ

g/L

0.065

0.013

NA

Pentachlorophenol

03761

μ

g/L

exp B ([pH]

+A)

A = -4.869

B = 1.005

exp B ([pH]

+A)

A = -5.134

B = 1.005

NA

Toluene

78131

mg/L

NA

NA

51.0

Trichloroethylene

39180

μ

g/L

NA

NA

370

Where:

NA = Not Applied

---

26

Exp[x] = base of natural logarithms

raised to the x-power

ln(H) = natural logarithm of Hardness

(STORET 00900)

b)

The following water quality standards must not be exceeded at any time in any

waters of the Lake Michigan Basin, unless a different standard is specified under

subsection (c) of this Section.

Constituent

STORET

Number

Unit

Water Quality Standard

Barium (total)

01007

mg/L

5.0

Boron (total)

01022

mg/L

1.0

Chloride (total)

00940

mg/L

500

Fluoride

00951

mg/L

1.4

Iron (dissolved)

01046

mg/L

1.0

Manganese (total)

01055

mg/L

1.0

Phenols

32730

mg/L

0.1

Sulfate

00945

mg/L

500

Total Dissolved Solids

70300

mg/L

1000

c)

In addition to the standards specified in subsections (a) and (b) of this Section, the

following standards must not be exceeded at any time in the Open Waters of Lake

Michigan as defined in Section 302.501.

Constituent

STORET

Number

Unit

Water Quality Standard

Arsenic (total)

01002

μ

g/L

50.0

Barium (total)

01007

mg/L

1.0

Chloride

00940

mg/L

12.0

---

27

Constituent

STORET

Number

Unit

Water Quality Standard

Iron (dissolved)

01046

mg/L

0.30

Lead (total)

01051

μ

g/L

50.0

Manganese (total)

01055

mg/L

0.15

Nitrate-Nitrogen

00620

mg/L

10.0

Phosphorus

00665

μ

g/L

7.0

Selenium (total)

01147

μ

g/L

10.0

Sulfate

00945

mg/L

24.0

Total Dissolved Solids

70300

mg/L

180.0

Oil (hexane solubles or

equivalent)

00550,

00556 or

00560

mg/L

0.10

Phenols

32730

μ

g/L

1.0

d)

In addition to the standards specified in subsections (a), (b) and (c) of this Section,

the following human health standards (HHS) must not be exceeded in the Open

Waterswaters of Lake Michigan as defined in Section 302.501 by the arithmetic

average of at least four consecutive samples collected over a period of at least four

days. The samples used to demonstrate compliance with the HHS must be

collected in a manner which assures an average representation of the sampling

period.

Constituent

STORET

Number

Unit

Water Quality Standard

Benzene

34030

μ

g/L

12.0

Chlorobenzene

34301

μ

g/L

470.0

2,4-Dimethylphenol

34606

μ

g/L

450.0

---

28

Constituent

STORET

Number

Unit

Water Quality Standard

2,4-Dinitrophenol

03757

μ

g/L

55.0

Hexachloroethane

(total)

34396

μ

g/L

5.30

Lindane

39782

μ

g/L

0.47

Methylene chloride

34423

μ

g/L

47.0

Toluene

78131

mg/L

5.60

Trichloroethylene

39180

μ

g/L

29.0

e)

For the following bioaccumulative chemicals of concern (BCCs), acute aquatic life

standards (AS) must not be exceeded at any time in any waters of the Lake

Michigan Basin and chronic aquatic life standards (CS), human health standards

(HHS), and wildlife standards (WS) must not be exceeded in any waters of the

Lake Michigan Basin by the arithmetic average of at least four consecutive samples

collected over a period of at least four days subject to the limitations of Sections

302.520 and 302.530. The samples used to demonstrate compliance with the HHS

and WS must be collected in a manner that assures an average representation of

the sampling period.

Constituent

STORET

Number

Unit

AS

CS

HHS

WS

Mercury (total)

71900

ng/L

1,700

910

3.1

1.3

Chlordane

39350

ng/L

NA

NA

0.25

NA

DDT and metabolites

39370

pg/L

NA

NA

150

11.0

Dieldrin

39380

ng/L

240

56

0.0065

NA

Hexachlorobenzene

39700

ng/L

NA

NA

0.45

NA

Lindane

39782

μ

g/L

0.95

NA

0.5

NA

PCBs (class)

79819

pg/L

NA

NA

26

120

---

29

Constituent

STORET

Number

Unit

AS

CS

HHS

WS

2,3,7,8-TCDD

03556

fg/L

NA

NA

8.6

3.1

Toxaphene

39400

pg/L

NA

NA

68

NA

Where:

mg/L = milligrams per liter (10

-3

grams per liter)

μ

g/L = micrograms per liter (10

-6

grams per liter)

ng/L = nanograms per liter (10

-9

grams per liter)

pg/L = picograms per liter (10

-12

grams per liter)

fg/L = femtograms per liter (10

-15

grams per liter)

NA = Not Applied

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 302.507 Thermal Standards for Existing Sources on January 1, 1971

All sources of heated effluents in existence as of January 1, 1971, shall meet the following

restrictions outside of a mixing zone which shall be no greater than a circle with a radius of 305 m

(1000 feet) or an equal fixed area of simple form.

a)

There shall be no abnormal temperature changes that may affect aquatic life.

b)

The normal daily and seasonal temperature fluctuations that existed before the

addition of heat shall be maintained.

c)

The maximum temperature rise at any time above natural temperatures shall not

exceed 1.7

o

C (3

o

F). In addition, the water temperature shall not exceed the

maximum limits indicated in the following table:

o

C

o

F

o

C

 

o

F

JAN.

7

45

JUL.

27

80

FEB.

7

45

AUG.

27

80

MAR.

7

45

SEPT.

27

80

APR.

13

55

OCT.

18

65

MAY

16

60

NOV.

16

60

JUN.

21

70

DEC.

10

50

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

---

30

Section 302.521 Supplemental Antidegradation Provisions for BCCs

a)

Notwithstanding the provisions of Section 302.105, waters within the Lake

Michigan Basin must not be lowered in quality due to new or increased loading of

substances defined as bioaccumulative chemicals of concern (BCCs) in Section

302.501 from any source or activity subject to the NPDES permitting, Section 401

water quality certification provisions of the Clean Water Act (P.L. 92-100, as

amended), or joint permits from the Agency and the Illinois Department of Natural

Resources under Section 39(n) of the Act [415 ILCS 5/39(n)] until and unless it

can be affirmatively demonstrated that such change is necessary to accommodate

important economic or social development.

1)

Where ambient concentrations of a BCC are equal to or exceed an

applicable water quality criterion, no increase in loading of that BCC is

allowed.

2)

Where ambient concentrations of a BCC are below the applicable water

quality criterion, a demonstration to justify increased loading of that BCC

must include the following:

A)

Pollution Prevention Alternatives Analysis. Identify any cost-

effective reasonably available pollution prevention alternatives and

techniques that would eliminate or significantly reduce the extent of

increased loading of the BCC.

B)

Alternative or Enhanced Treatment Analysis. Identify alternative or

enhanced treatment techniques that are cost effective and

reasonably available to the entity that would eliminate or

significantly reduce the extent of increased loading of the BCC.

C)

Important Social or Economic Development Analysis. Identify the

social or economic development and the benefits that would be

forgone if the increased loading of the BCC is not allowed.

3)

In no case shall increased loading of BCCs result in exceedence of

applicable water quality criteria or concentrations exceeding the level of

water quality necessary to protect existing uses.

4)

Changes in loadings of any BCC within the existing capacity and processes

of an existing NPDES authorized discharge, certified activity pursuant to

Section 401 of the Clean Water Act, or joint permits from the Agency and

the Illinois Department of Natural Resources under Section 39(n) of the

Act are not subject to the antidegradation review of subsection (a) of this

Section. These changes include but are not limited to:

---

31

A)

normal operational variability, including, but not limited to,

intermittent increased discharges due to wet weather conditions;

B)

changes in intake water pollutants;

C)

increasing the production hours of the facility; or

D)

increasing the rate of production.

5)

Any determination to allow increased loading of a BCC pursuant to a

demonstration of important economic or social development need shall

satisfy the public participation requirements of 40 CFR 25 prior to final

issuance of the NPDES permit, Section 401 water quality certification, or

joint permits from the Agency and the Illinois Department of Natural

Resources under Section 39(n) of the Act.

b)

The following actions are not subject to the provisions of subsection (a) of this

Section, unless the Agency determines the circumstances of an individual situation

warrant application of those provisions to adequately protect water quality:

1)

Short-term, temporary (i.e., weeks or months) lowering of water quality;

2)

Bypasses that are not prohibited at 40 CFR 122.41 (m); or

3)

Response actions pursuant to the Comprehensive Environmental Response,

Compensation and Liability Act (CERCLA), as amended, or similar federal

or State authority, undertaken to alleviate a release into the environment of

hazardous substances, pollutants or contaminants thatwhich may pose

danger to public health or welfare.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 302.530 Supplemental Mixing Provisions for Bioaccumulative Chemicals of Concern

(BCCs)

The General Provisions of Section 302.102 (Allowed Mixing, Mixing Zones and ZIDs) apply

within the Lake Michigan Basin except as otherwise provided herein for substances defined as

BCCs in Section 302.501:

a)

No mixing shall be allowed for BCCs for new discharges commencing on or after

December 24, 1997.

b)

Discharges of BCCs existing as of December 24, 1997 are eligible for mixing

allowance consistent with Section 302.102 until March 23, 2007. After March 23,

---

32

2007 mixing for BCCs will not be allowed except as provided in subsections (c)

and (d) of this Section.

c)

Mixing allowance for a source in existence on December 24, 1997 may continue

beyond March 23, 2007 where it can be demonstrated on a case by case basis that

continuation of mixing allowance is necessary to achieve water conservation

measures that result in overall reduction of BCC mass loading to the Lake

Michigan Basin.

d)

Mixing allowance for a source in existence on December 24, 1997 shall only

continue if necessitated by technical and economic factors. Any mixing allowance

continued beyond March 23, 2007 based on technical and economic factors shall

be limited to not more than one NPDES permit term, and shall reflect the

maximum achievable BCC loading reduction within the identified technical and

economic considerations necessitating the exception. Such continued mixing

allowance shall not be renewed beyond that permit term unless a new

determination of technical and economic necessity is made.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 302.535 Ammonia Nitrogen

The Open Waters of Lake Michigan as defined in Section 302.501 must not exceed 0.02 mg/L

total ammonia (as N: STORET Number 00610). The remaining waters of the Lake Michigan

Basinbasin shall be subject to the following:

a)

Total ammonia nitrogen (as N: STORET Number 00610) must in no case exceed

15 mg/L.

 

b)

Un-ionized ammonia nitrogen (as N: STORET Number 00612) must not exceed

the acute and chronic standards given below subject to the provisions of Sections

302.208(a) and (b) of this Part:

1)

From April through October, the Acute Standard (AS) shall be 0.33 mg/L

and the chronic standard (CS) shall be 0.057 mg/L.

 

2)

From November through March, the AS shall be 0.14 mg/L and the CS

shall be 0.025 mg/L.

 

c)

For purposes of this Section, the concentration of un-ionized ammonia nitrogen as

N and total ammonia as N shall be computed according to the following equations:

U=

N

[0.94412(1 + 10

x

) + 0.0559]

---

33

and N = U[0.94412(1 + 10

x

) + 0.0559]

Where: X = 0.09018 + 2729.92

-pH

(T + 273.16)

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.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 302.540 Other Toxic Substances

Waters of the Lake Michigan Basin must be free from any substance or any combination of

substances in concentrations toxic or harmful to human health, or to animal, plant or aquatic life.

The numeric standards protective of particular uses specified for individual chemical substances in

Section 302.504 are not subject to recalculation by this Section, however, where no standard is

applied for a category, a numeric value may be calculated herein.

a)

Any substance shall be deemed toxic or harmful to aquatic life if present in

concentrations that exceed the following:

1)

A Tier I Lake Michigan Basin Acute Aquatic Life Toxicity Criterion

(LMAATC) or Tier II Lake Michigan Basin Acute Aquatic Life Toxicity

Value (LMAATV) derived pursuant to procedures set forth in Sections

302.555, 302.560 or 302.563 at any time; or

2)

A Tier I Lake Michigan Basin Chronic Aquatic Life Toxicity Criterion

(LMCATC) or Tier II Lake Michigan Basin Chronic Aquatic Life Toxicity

Value (LMCATV) derived pursuant to procedures set forth in Section

302.565 as an average of four samples collected on four different days.

b)

Any combination of substances, including effluents, shall be deemed toxic to

aquatic life if present in concentrations that exceed either subsection (b)(1) or (2)

of this Section:

1)

No sample of water from the Lake Michigan Basin collected outside of a

designated zone of initial dilution shall exceed 0.3 TU

a

as determined for

the most sensitive species tested using acute toxicity testing methods.

2)

No sample of water from the Lake Michigan Basin collected outside a

designated mixing zone shall exceed 1.0 TU

c

as determined for the most

sensitive species tested using chronic toxicity testing methods.

---

34

3)

To demonstrate compliance with subsections (1) and (2) of this subsection

(b), at least two resident or indigenous species will be tested. The rainbow

trout will be used to represent fishes for the Open Waters of Lake

Michigan and the fathead minnow will represent fishes for the other waters

of the Lake Michigan Basin. Ceriodaphnia will represent invertebrates for

all waters of the Lake Michigan Basin. Other common species shall be

used if listed in Table I A of 40 CFR 136, incorporated by reference at

Section 302.510, and approved by the Agency.

c)

Any substance shall be deemed toxic or harmful to wildlife if present in

concentrations that exceed a Tier I Lake Michigan Basin Wildlife Criterion

(LMWLC) derived pursuant to procedures set forth in Section 302.575 as an

arithmetic average of four samples collected over four different days.

d)

For any substance that is a threat to human health through drinking water exposure

only, the resulting criterion or value shall be applicable to only the Open Waters of

Lake Michigan. For any substance that is determined to be a BCC, the resulting

criterion shall apply in the entire Lake Michigan Basin. These substances shall be

deemed toxic or harmful to human health if present in concentrations that exceed

either of the following:

1)

A Tier I Lake Michigan Basin Human Health Threshold Criterion

(LMHHTC) or Tier II Lake Michigan Basin Human Health Threshold

Value (LMHHTV) based on disease or functional impairment due to a

physiological mechanism for which there is a threshold dose below which

no damage occurs as derived pursuant to procedures set forth in Section

302.585 as an arithmetic average of four samples collected over four

different days; or

2)

A Tier I Lake Michigan Basin Human Health Nonthreshold Criterion

(LMHHNC) or Tier II Lake Michigan Basin Human Health Nonthreshold

Value (LMHHNV) based on disease or functional impairment due to a

physiological mechanism for which any dose may cause some risk of

damage as derived pursuant to procedures set forth in Section 302.590 as

an arithmetic average of four samples collected over four different days.

e)

The derived criteria and values apply at all points outside of any waters in which

mixing is allowed pursuant to Section 302.102 or Section 302.530.

f)

The procedures of this Subpart E set forth minimum data requirements,

appropriate test protocols and data assessment methods for establishing criteria or

values pursuant to subsections (b), (c), and (d) of this Section. No other

procedures may be used to establish such criteria or values unless approved by the

Board in a rulemaking or adjusted standards proceeding pursuant to Title VII of

the Act. The validity and applicability of these procedures may not be challenged

---

35

in any proceeding brought pursuant to Title VIII or X of the Act, although the

validity and correctness of application of the numeric criteria or values derived

pursuant to this Subpart may be challenged in such proceedings pursuant to

subsection (g) of this Section.

g)

Challenges to application of criteria and values.

1)

A permittee may challenge the validity and correctness of application of a

criterion or value derived by the Agency pursuant to this Section only at

the time such criterion or value is first applied in its NPDES permit

pursuant to 35 Ill. Adm. Code 309.152 or in an action pursuant to Title

VIII of the Act for violation of the toxicity water quality standard. Failure

of a person to challenge the validity of a criterion or value at the time of its

first application to that person’s facility shall constitute a waiver of such

challenge in any subsequent proceeding involving application of the

criterion or value to that person.

2)

Consistent with subsection (g)(1) of this Section, if a criterion or value is

included as, or is used to derive, a condition of an NPDES discharge

permit, a permittee may challenge the criterion or value in a permit appeal

pursuant to 35 Ill. Adm. Code 309.181. In any such action, the Agency

shall include in the record all information upon which it has relied in

developing and applying the criterion or value, and whether such

information was developed by the Agency or submitted by the petitioner.

THE BURDEN OF PROOF SHALL BE ON THE PETITIONER pursuant

to Section 40(a)(1) of the Act.

3)

Consistent with subsection (g)(1) of this Section, in an action where

alleged violation of the toxicity water quality standard is based on alleged

excursion of a criterion or value, the person bringing such action shall have

the burdens of going forward with proof and persuasion regarding the

general validity and correctness of application of the criterion or value.

h)

Subsections (a) through (e) of this Section do not apply to USEPA registered

pesticides approved for aquatic application and applied pursuant to the following

conditions:

1)

Application shall be made in strict accordance with label directions;

2)

Applicator shall be properly certified under the provisions of the Federal

Insecticide, Fungicide, and Rodenticide Act (7 U.S.C. 135 et seq. (1972));

3)

Applications of aquatic pesticides must be in accordance with the laws,

regulations and guidelines of all State and federal agencies authorized by

law to regulate, use or supervise pesticide applications;

---

36

4)

No aquatic pesticide shall be applied to waters affecting public or food

processing water supplies unless a permit to apply the pesticide has been

obtained from the Agency. All permits shall be issued so as not to cause a

violation of the Act or of any of the Board's rules or regulations. To aid

applicators in determining their responsibilities under this subsection (h), a

list of waters affecting public water supplies will be published and

maintained by the Agency's Division of Public Water Supplies.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 302.545 Data Requirements

The Agency shall review, for validity, applicability and completeness the data used in calculating

criteria or values. To the extent available, and to the extent not otherwise specified, testing

procedures, selection of test species and other aspects of data acquisition must be according to

methods published by USEPA or nationally recognized standards of organizations, including but

not limited to, those methods found in Standard Methods, incorporated by reference in Section

302.510, or recommended in 40 CFR 132 and incorporated by reference in Section 302.510.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 302.555 Determining the Tier I Lake Michigan Basin Acute Aquatic Life Toxicity

Criterion (LMAATC): Independent of Water Chemistry

If the acute toxicity of the chemical has not been shown to be related to a water quality

characteristic, including, but not limited to, hardness, pH, or temperature, the Tier I LMAATC is

calculated using the procedures below.

a)

For each species for which more than one acute value is available, the Species

Mean Acute Value (SMAV) is calculated as the geometric mean of the acute

values from all tests.

b)

For each genus for which one or more SMAVs are available, the Genus Mean

Acute Value (GMAV) is calculated as the geometric mean of the SMAVs available

for the genus.

c)

The GMAVs are ordered from high to low in numerical order.

d)

Ranks (R) are assigned to the GMAVs from "1" for the lowest to "N" for the

highest. If two or more GMAVs are identical, successive ranks are arbitrarily

assigned.

e)

The cumulative probability, P, is calculated for each GMAV as R/(N+1).

f)

The GMAVs to be used in the calculations of subsection (g) of this Section must

be those with cumulative probabilities closest to 0.05. If there are fewer than 59

---

37

GMAVs in the total data set, the values utilized must be the lowest four obtained

through the ranking procedures of subsections (c) and (d) of this Section.

g)

Using the GMAVs identified pursuant to subsection (f) of this Section and the Ps

calculated pursuant to subsection (e) of this Section, the Final Acute Value (FAV)

and the LMAATC are calculated as:

FAV = exp(A) and

LMAATC = FAV/2

Where:

A = L + 0.2236 S

L = [

ä

(lnGMAV) - S(

ä

(P

0.5

))]/4

S = [[

ä

((lnGMAV)

2

) - ((

ä

(lnGMAV))

2

)/4]/[

ä

(P) - ((

ä

(P

0.5

))

2

)/4]]

0.5

h)

If a resident or indigenous species, whose presence is necessary to sustain

commercial or recreational activities, will not be protected by the calculated FAV,

then the SMAV for that species is used as the FAV.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 302.560 Determining the Tier I Lake Michigan Basin Acute Aquatic Life Toxicity

Criterion (LMAATC): Dependent on Water Chemistry

If data are available to show that a relationship exists between a water quality characteristic

(WQC) and acute toxicity to two or more species, a Tier I LMAATC must be calculated using

procedures in this Section. Although the relationship between hardness and acute toxicity is

typically non-linear, it can be linearized by a logarithmic transformation (i.e., for any variable, K,

f(K) = logarithm of K) of the variables and plotting the logarithm of hardness against the

logarithm of acute toxicity. Similarly, relationships between acute toxicity and other water quality

characteristics, such as pH or temperature, may require a transformation, including no

transformation (i.e., for any variable, K, f(K) = K) for one or both variables to obtain least squares

linear regression of the transformed acute toxicity values on the transformed values of the water

quality characteristic. An LMAATC is calculated using the following procedures.

a)

For each species for which acute toxicity values are available at two or more

different values of the water quality characteristic, a linear least squares regression

of the transformed acute toxicity (TAT) values on the transformed water quality

characteristic (TWQC) values is performed to obtain the slope of the line

describing the relationship.

b)

Each of the slopes determined pursuant to subsection (a) of this Section is

evaluated as to whether it is statistically valid, taking into account the range and

number of tested values of the water quality characteristic and the degree of

agreement within and between species. If slopes are not available for at least one

fish and one invertebrate species, or if the available slopes are too dissimilar or if

too few data are available to define the relationship between acute toxicity and the

---

38

water quality characteristic, then the LMAATC must be calculated using the

procedures in Section 302.555.

c)

Normalize the TAT values for each species by subtracting W, the arithmetic mean

of the TAT values of a species, from each of the TAT values used in the

determination of the mean, such that the arithmetic mean of the normalized TAT

values for each species individually or for any combination of species is zero (0.0).

d)

Normalize the TWQC values for each species using X, the arithmetic mean of the

TWQC values of a species, in the same manner as in subsection (c) of this Section.

e)

Group all the normalized data by treating them as if they were from a single

species and perform a least squares linear regression of all the normalized TAT

values on the corresponding normalized TWQC values to obtain the pooled acute

slope, V.

f)

For each species, the graphical intercept representing the species TAT intercept,

f(Y), at a specific selected value, Z, of the WQC is calculated using the equation:

f(Y) = W - V(X - g(Z))

Where:

f() is the transformation used to convert acute toxicity values to TAT values

Y is the species acute toxicity intercept or species acute intercept

W is the arithmetic mean of the TAT values as specified in subsection (c) of this

Section

V is the pooled acute slope as specified in subsection (e) of this Section

X is the arithmetic mean of the TWQC values as specified in subsection (c) of this

Section

g() is the transformation used to convert the WQC values to TWQC values

Z is a selected value of the WQC

g)

For each species, determine the species acute intercept, Y, by carrying out an

inverse transformation of the species TAT value, f(Y). For example, in the case of

a logarithmic transformation, Y = antilogarithm of (f(Y));: or in the case where no

transformation is used, Y = f(Y).

h)

The Final Acute Intercept (FAI) is derived by using the species acute intercepts,

obtained from subsection (f) of this Section, in accordance with the procedures

described in Section 302.555 (b) through (g), with the word "value" replaced by

the word "intercept". Note that in this procedure geometric means and natural

logarithms are always used.

i)

The Aquatic Acute Intercept (AAI) is obtained by dividing the FAI by two.

---

39

If, for a commercially or recreationally important species, the geometric mean of

the acute values at Z is lower than the FAV at Z, then the geometric mean of that

species must be used as the FAV.

j)

The LMAATC at any value of the WQC, denoted by WQCx, is calculated using

the terms defined in subsection (f) of this Section and the equation:

LMAATC = exp[V(g(WQCx) - g(Z)) + f(AAI)]

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 302.563 Determining the Tier II Lake Michigan Basin Acute Aquatic Life Toxicity Value

(LMAATV)

If all eight minimum data requirements for calculating aan FAV using Tier I procedures are not

met, a Tier II LMAATV must be calculated for a substance as follows:

a)

The lowest GMAV in the database is divided by the Secondary Acute Factor

(SAF) corresponding to the number of satisfied minimum data requirements listed

in the Tier I methodology (Section 302.553). In order to calculate a Tier II

LMAATV, the data base must contain, at a minimum, a GMAV for one of the

following three genera in the family Daphnidae -- Ceriodaphnia sp., Daphnia sp.,

or Simocephalus sp. The Secondary Acute Factors are:

Number of Minimum data requirements satisfied (required taxa)

Secondary Acute Factor

1

43.8

2

26.0

3

16.0

4

14.0

5

12.2

6

10.4

7

8.6

b)

If dependent on a water quality characteristic, the Tier II LMAATV must be

calculated according to Section 302.560.

---

40

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 302.565 Determining the Lake Michigan Basin Chronic Aquatic Life Toxicity Criterion

(LMCATC) or the Lake Michigan Basin Chronic Aquatic Life Toxicity Value (LMCATV)

a)

Determining Tier I LMCATC

1)

When chronic toxicity data are available for at least eight resident or

indigenous species from eight different North American genera of

freshwater organisms as specified in Section 302.553, a Tier I LMCATC is

derived in the same manner as the FAV in Section 302.555 or 302.560 by

substituting LMCATC for FAV or FAI, chronic for acute, SMCV (Species

Mean Chronic Value) for SMAV, and GMCV (Genus Mean Chronic

Value) for GMAV.

2)

If data are not available to meet the requirements of subsection (a) of this

Section, a Tier I LMCATC is calculated by dividing the FAV by the

geometric mean of the acute-chronic ratios (ACRs) obtained from at least

one species of aquatic animal from at least three different families provided

that of the three species:

A)

At least one is a fish;

B)

At least one is an invertebrate; and

C)

At least one species is an acutely sensitive freshwater species if the

other two are saltwater species.

3)

The acute-chronic ratio (ACR) for a species equals the acute toxicity

concentration from data considered under Section 302.555 or 302.560,

divided by the chronic toxicity concentration.

4)

If a resident or indigenous species whose presence is necessary to sustain

commercial or recreational activities will not be protected by the calculated

LMCATC, then the SMCV for that species is used as the CATC.

b)

Determining the Tier II LMCATV

1)

If all eight minimum data requirements for calculating a FCV using Tier I

procedures are not met, or if there are not enough data for all three ACRs,

a Tier II Lake Michigan Chronic Aquatic Life Toxicity Value shall be

calculated using a secondary acute chronic ratio (SACR) determined as

follows:

A)

If fewer than three valid experimentally determined ACRs are

available:

i)

Use sufficient ACRs of 18 so that the total number of ACRs

equals three; and

ii)

Calculate the Secondary Acute-Chronic Ratio as the

geometric mean of the three ACRs; or

---

41

B)

If no experimentally determined ACRs are available, the SACR is

18.

2)

Calculate the Tier II LMCATV using one of the following equations:

A)

Tier II LMCATV = FAV / SACR

B)

Tier II LMCATV = SAV / FACR

C)

Tier II LMCATV = SAV / SACR

Where:

the SAV equals 2 times the value of the Tier II LMAATV

calculated in Section 302.563

3)

If, for a commercially or recreationally important species, the SMCV is

lower than the calculated Tier II LMCATV, then the SMCV must be used

as the Tier II LMCATV.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

Section 302.580 Procedures for Deriving Water Quality Criteria and Values in the Lake

Michigan Basin to Protect Human Health-General

a)

The Lake Michigan Basin human health criteria or values for a substance are those

concentrations at which humans are protected from adverse effects resulting from

incidental exposure to, or ingestion of, the waters of Lake Michigan and from

ingestion of aquatic organisms taken from the waters of Lake Michigan. A Lake

Michigan Human Health Threshold Criterion (LMHHTC) or Lake Michigan

Human Health Threshold Value (LMHHTV) will be calculated for all substances

according to Section 302.585, if data is available. Water quality criteria or values

for substances which are, or may be, carcinogenic to humans will also be

calculated according to procedures for the Lake Michigan Human Health

Nonthreshold Criterion (LMHHNC) or the Lake Michigan Human Health

Nonthreshold Value (LMHHNV) in Section 302.590.

b)

Minimum data requirements for BAFs for Lake Michigan Basin human health

criteria:

1)

Tier I.

A)

For all organic chemicals, either a field-measured BAF or a BAF

derived using the BSAF methodology is required unless the

chemical has a BAF less than 125, then a BAF derived by any

methodology is required; and

---

42

B)

For all inorganic chemicals, including organometals such as

mercury, either a field-measured BAF or a laboratory-measured

BCF is required.

2)

Tier II. Any bioaccumulation factor method in Section 302.570(a) may be

used to derive a Tier II criterion.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

TITLE 35 ENVIRONMENTAL PROTECTION

SUBTITLE C: WATER POLLUTION

CHAPTER I: POLLUTION CONTROL BOARD

PART 309

PERMITS

SUBPART A: NPDES PERMITS

Section

309.101

Preamble

309.102

NPDES Permit Required

309.103

Application - General

309.104

Renewal

309.105

Authority to Deny NPDES Permits

309.106

Access to Facilities and Further Information

309.107

Distribution of Applications

309.108

Tentative Determination and Draft Permit

309.109

Public Notice

309.110

Contents of Public Notice of Application

309.111

Combined Notices

309.112

Agency Action After Comment Period

309.113

Fact Sheets

309.114

Notice to Other Governmental Agencies

309.115

Public Hearings on NPDES Permit Applications

309.116

Notice of Agency Hearing

309.117

Agency Hearing

309.118

Agency Hearing File

309.119

Agency Action After Hearing

309.141

Terms and Conditions of NPDES Permits

309.142

Water Quality Standards and Waste Load Allocation

---

43

309.143

Effluent Limitations

309.144

Federal New Source Standards of Performance

309.145

Duration of Permits

309.146

Authority to Establish Recording, Reporting, Monitoring and Sampling

Requirements

309.147

Authority to Apply Entry and Inspection Requirements

309.148

Schedules of Compliance

309.149

Authority to Require Notice of Introduction of Pollutants into Publicly

Owned Treatment Works

309.150

Authority to Ensure Compliance by Industrial Users with Sections 204(b),

307 and 308 of the Clean Water Act

309.151

Maintenance and Equipment

309.152

Toxic Pollutants

309.153

Deep Well Disposal of Pollutants (Repealed)

309.154

Authorization to Construct

309.155

Sewage Sludge Disposal

309.156

Total Dissolved Solids Reporting and Monitoring

309.181

Appeal of Final Agency Action on a Permit Application

309.182

Authority to Modify, Suspend or Revoke Permits

309.183

Revision of Schedule of Compliance

309.184

Permit Modification Pursuant to Variance

309.185

Public Access to Information

309.191

Effective Date

SUBPART B: OTHER PERMITS

Section

309.201

Preamble

309.202

Construction Permits

309.203

Operating Permits; New or Modified Sources

309.204

Operating Permits; Existing Sources

309.205

Joint Construction and Operating Permits

309.206

Experimental Permits

309.207

Former Permits (Repealed)

309.208

Permits for Sites Receiving Sludge for Land Application

309.221

Applications - Contents

309.222

Applications - Signatures and Authorizations

309.223

Applications - Registered or Certified Mail

309.224

Applications - Time to Apply

309.225

Applications - Filing and Final Action by Agency

309.241

Standards for Issuance

309.242

Duration of Permits Issued Under Subpart B

309.243

Conditions

309.244

Appeals from Conditions in Permits

309.261

Permit No Defense

309.262

Design, Operation and Maintenance Criteria

---

44

309.263

Modification of Permits

309.264

Permit Revocation

309.265

Approval of Federal Permits

309.266

Procedures

309.281

Effective Date

309.282

Severability

Appendix A

References to Previous Rules

AUTHORITY: Implementing Sections 13 and 13.3 and authorized by Section 27 of the

Environmental Protection Act (415 ILCS 5/13, 13.3 and 27).

SOURCE: Adopted in R71-14, at 4 PCB 3, March 7, 1972; amended in R73-11, 12, at 14 PCB

661, December 5, 1974, at 16 PCB 511, April 24, 1975, and at 28 PCB 509, December 20, 1977;

amended in R73-11, 12, at 29 PCB 477, at 2 Ill. Reg. 16, p. 20, effective April 20, 1978;

amended in R79-13, at 39 PCB 263, at 4 Ill. Reg. 34, p. 159, effective August 7, 1980; amended

in R77-12B, at 41 PCB 369, at 5 Ill. Reg. 6384, effective May 28, 1981; amended in R76-21, at

44 PCB 203, at 6 Ill. Reg. 563, effective December 24, 1981; codified at 6 Ill. Reg. 7818;

amended in R82-5, 10, at 54 PCB 411, at 8 Ill. Reg. 1612, effective January 18, 1984; amended in

R86-44 at 12 Ill. Reg. 2495 effective January 13, 1988; amended in R88-1 at 13 Ill. Reg. 5993,

effective April 18, 1989; amended in R88-21(A) at 14 Ill. Reg. 2892, effective February 13, 1990;

amended in R91-5 at 16 Ill. Reg. 7339, effective April 27, 1992; amended in R95-22 at 20 Ill.

Reg. 5526, effective April 1, 1996; amended in R99-8 at 23 Ill. Reg. _________, effective

______________________.

SUBPART A: NPDES PERMITS

Section 309.141

Terms and Conditions of NPDES Permits

In establishing the terms and conditions of each issued NPDES Permit, the Agency shall apply and

ensure compliance with all of the following, whenever applicable:

a)

Effluent limitations under SectionsSection 301 and 302 of the CWA;

b)

Standards of performance for new sources under Section 306 of the CWA;

c)

Effluent standards, effluent prohibitions, and pretreatment standards under Section

307 of the CWA;

d)

Any more stringent limitation, including those:

---

45

1)

necessary to meet water quality standards, treatment standards, or

schedules of compliance, established pursuant to any Illinois statute or

regulation (under authority preserved by Section 510 of the CWA),

2)

necessary to meet any other federal law or regulation or

3)

required to implement any applicable water quality standards; such

limitations to include any legally applicable requirements necessary to

implement total maximum daily loads established pursuant to Section

303(d) of the CWA and incorporated in the continuing planning process

approved under Section 303(e) of the CWA and any regulations or

guidelines issued pursuant thereto;

e)

Any more stringent legally applicable requirements necessary to comply with a

plan approved pursuant to Section 208(b) of the CWA;

f)

Prior to promulgation by the Administrator of the U.S. Environmental Protection

Agency of applicable effluent standards and limitations pursuant to Sections 301,

302, 306 and 307 of the CWA, such conditions as the Agency determines are

necessary to carry out the provisions of the CWA

1

; and

g)

If the NPDES Permit is for the discharge of pollutants into navigable waters from

a vessel or other floating craft (except that no NPDES Permit shall be issued for

the discharge of pollutants from a vessel or other floating craft into Lake

Michigan) any applicable regulations promulgated by the Secretary of the

Department in which the Coast Guard is operating, establishing specifications for

safe transportation, handling, carriage, storage and stowage of pollutants.

1

Section 309.141(f) was declared invalid in Peabody Coal Co. v. PCB, 3 Ill. App. 3d 5 (5th

District, 1976) and declared valid in U.S. Steel v. PCB, 52 Ill. App. 3d 1 (2d District, 1977).

h) If the NPDES Permit is for the discharge of pollutants from other than wet

weather point sources into the Lake Michigan Basin as defined at 35 Ill. Adm.

Code 303.443;

1) Total Maximum Daily Loads (TMDLs) and Waste Load Allocation (WLA)

will be established through either the LaMP or a RAP for an Area of

Concern. If a LaMP or RAP has not been completed and adopted, effluent

limits shall be established consistent with the other provisions of this

Section, including but not limited to, Additivity, Intake Pollutants, Loading

Limits, Level of Detection/Level of Quantification and Compliance

Schedules. When calculation of TMDLs or a Waste Load Allocation is

incomplete and it is expected that limits established through other

provisions will be superseded upon completion of the TMDL or Waste

---

46

Load Allocation process, said limits shall be identified as interim and the

permit shall include a reopener clause triggered by completion of TMDL or

WLA determination. Any new limits brought about through exercise of the

reopener clause shall be eligible for delayed compliance dates and

compliance schedules consistent with Section 39(b) of the Act 415 ILCS

5/39(b) 1996, 35 Ill. Adm. Code 309.148, and 35 Ill. Adm. Code

352.Subpart H.

2)

35 Ill. Adm. Code 302.590 establishes an acceptable additive risk level of

one in 100,000 (10(-5)) for establishing Tier I criteria and Tier II values for

combinations of substances exhibiting a carcinogenic or other nonthreshold

toxic mechanism. For those discharges containing multiple nonthreshold

substances application of this additive standard shall be consistent with this

subsection.

A)

For discharges in the Lake Michigan basin containing one or more

2,3,7,8-substituted chlorinated dibenzo-

p

-dioxins or 2,3,7,8-

substituted dibenzofurans, the tetrachloro dibenzo-p-dioxin 2,3,7,8-

(TCDD) toxicity equivalence concentration (TEC

TCDD

) shall be

determined as outlined in subsection B.

B)

The values listed in this Table 1 shall be used to determine the

2,3,7,8-TCDD toxicity equivalence concentrations using the

following equation:

(TEC)

TCDD

= Sigma(C)

x

(TEF)

x

(BEF)

x

WHERE:

(TEC)

TCDD

= 2,3,7,8-TCDD toxicity equivalence concentration in

effluent

(C)

x

= Concentration of total chemical x in effluent

(TEF)

x

= TCDD toxicity equivalency factor for x

(BEF)

x

- TCDD bioaccumulation equivalency factor for x

TABLE 1

Congener

TEF

BEF

2,3,7,8-TCDD

1.0

1.0

1,2,3,7,8-PeCdd

0.5

0.9

1,2,3,4,7,8-HxCDD

0.1

0.3

1,2,3,6,7,8-HxCDD

0.1

0.1

1,2,3,7,8,9-HxCDD

0.1

0.1

1,2,3,4,6,7,8-HpCDD

0.01

0.0

OCDD

0.001

0.0

2,3,7,8-TCDF

0.1

0.8

---

47

1,2,3,7,8-PeCDF

0.05

0.2

2,3,4,7,8-PeCDF

0.5

1.6

1,2,3,4,7,8-HxCDF

0.1

0.0

1,2,3,6,7,8-HxCDF

0.1

0.2

2,3,4,6,7,8-HxCDF

0.1

0.7

1,2,3,7,8,9-HxCDF

0.1

0.6

1,2,3,4,6,7,8-HpCDF

0.01

0.0

1,2,3,4,7,8,9-HpCDF

0.01

0.4

OCDF

0.001

0.0

C)

Any combination of carcinogenic or otherwise nonthreshold toxic

substances shall be assessed on a case by case basis. The Agency

shall only consider such additivity for chemicals that exhibit the

same type of effect and the same mechanism of toxicity, based on

available scientific information that supports a reasonable

assumption of additive effects.

3) A)

The numeric standards for certain metal parameters in 35 Ill. Adm.

Code 302.504 are established as dissolved forms of the substance

since the dissolved form more closely relates to the toxicology

literature utilized in deriving the standard. However, most discharge

monitoring data used in deriving a PEQ will be from a total

recoverable analytical method and permit limits if and when

established will be set at total recoverable to accommodate the total

recoverable analytical method. The Agency will use a conversion

factor to determine the amount of total metal corresponding to

dissolved metal for each metal with a water quality standard set at

dissolved concentration. In the absence of facility specific data the

following default conversion factors will be used for both PEQ

derivation and establishing WQBELs. The conversion factor

represents the portion of the total recoverable metal presumed to be

in dissolved form. The conversion values given in the following

table are multiplied by the appropriate total recoverable metal

concentration to obtain a corresponding dissolved concentration

that then may be compared to the acute or chronic standard. A

dissolved metal concentration may be divided by the conversion

factor to obtain a corresponding total metal value which will

generally be the metal form regulated in NPDES permits.

Metal

Conversion Factor

Acute Standard Chronic Standard

Arsenic

1.000

1.000

Cadmium

0.850

0.850

Chromium (Trivalent)

0.316

0.860

Chromium (Hexavalent)

0.982

0.962

---

48

Copper

0.960

0.960

Mercury

0.850

0.850

Nickel

0.998

0.997

Selenium

0.922

0.922

Zinc

0.978

0.986

B)

A permittee may propose an alternate conversion factor for any

particular site specific application. The request must contain

sufficient site specific data, or other data that is representative of

the site, to identify a representative ratio of the dissolved fraction to

the total recoverable fraction of the metal in the receiving water

body at the edge of the mixing zone. If a site specific conversion

factor is approved, that factor will be used for PEQ derivation and

establishment of a WQBEL in lieu of its default counterpart in

subsection (A) above.

4)

A)

The first step in determining if a reasonable potential to exceed the

water quality standard exists for any particular pollutant parameter

is the estimation of the maximum expected effluent concentration

for that substance. That estimation will be completed for both acute

and chronic exposure periods and is termed the PEQ. The PEQ

shall be derived from representative facility specific data to reflect a

95 percent confidence level for the 95th percentile value. These

data will be presumed to adhere to a lognormal distribution pattern

unless the actual effluent data demonstrates a different distribution

pattern. If facility specific data in excess of 10 data values is

available, a coefficient of variation that is the ratio of the standard

deviation to the arithmetic average shall be calculated by the

Agency. The PEQ is derived as the upper bound of a 95 percent

confidence bracket around the 95th percentile value through a

multiplier from the following table applied to the maximum value in

the data set that has its quality assured consistent with 35 Ill. Adm.

Code 352.410 as appropriate for acute and chronic data sets.

PEQ = (maximum data point)(statistical multiplier)

Coefficient of Variation

No.

Samples

0.1

0.2

0.3

0.4

0.5

0.6

0.7

0.8

0.9

1.0

1.1

1.2

1.3

1

1.4

1.9

2.6

3.6

4.7

6.2

8.0

10.1

12.6

15.5

18.7

22.3

26.4

2

1.3

1.6

2.0

2.5

3.1

3.8

4.6

5.4

6.4

7.4

8.5

9.7

10.9

3

1.2

1.5

1.8

2.1

2.5

3.0

3.5

4.0

4.6

5.2

5.8

6.5

7.2

---

49

4

1.2

1.4

1.7

1.9

2.2

2.6

2.9

3.3

3.7

4.2

4.6

5.0

5.5

5

1.2

1.4

1.6

1.8

2.1

2.3

2.6

2.9

3.2

3.6

3.9

4.2

4.5

6

1.1

1.3

1.5

1.7

1.9

2.1

2.4

2.6

2.9

3.1

3.4

3.7

3.9

7

1.1

1.3

1.4

1.6

1.8

2.0

2.2

2.4

2.6

2.8

3.1

3.3

3.5

8

1.1

1.3

1.4

1.6

1.7

1.9

2.1

2.3

2.4

2.6

2.8

3.0

3.2

9

1.1

1.2

1.4

1.5

1.7

1.8

2.0

2.1

2.3

2.4

2.6

2.8

2.9

10

1.1

1.2

1.3

1.5

1.6

1.7

1.9

2.0

2.2

2.3

2.4

2.6

2.7

11

1.1

1.2

1.3

1.4

1.6

1.7

1.8

1.9

2.1

2.2

2.3

2.4

2.5

12

1.1

1.2

1.3

1.4

1.5

1.6

1.7

1.9

2.0

2.1

2.2

2.3

2.4

13

1.1

1.2

1.3

1.4

1.5

1.6

1.7

1.8

1.9

2.0

2.1

2.2

2.3

14

1.1

1.2

1.3

1.4

1.4

1.5

1.6

1.7

1.8

1.9

2.0

2.1

2.2

15

1.1

1.2

1.2

1.3

1.4

1.5

1.6

1.7

1.8

1.8

1.9

2.0

2.1

16

1.1

1.1

1.2

1.3

1.4

1.5

1.6

1.6

1.7

1.8

1.9

1.9

2.0

17

1.1

1.1

1.2

1.3

1.4

1.4

1.5

1.6

1.7

1.7

1.8

1.9

1.9

18

1.1

1.1

1.2

1.3

1.3

1.4

1.5

1.6

1.6

1.7

1.7

1.8

1.9

19

1.1

1.1

1.2

1.3

1.3

1.4

1.5

1.5

1.6

1.6

1.7

1.8

1.8

20

1.1

1.1

1.2

1.2

1.3

1.4

1.4

1.5

1.5

1.6

1.6

1.7

1.7

30

1.0

1.1

1.1

1.1

1.2

1.2

1.2

1.3

1.3

1.3

1.3

1.4

1.4

40

1.0

1.0

1.1

1.1

1.1

1.1

1.1

1.1

1.2

1.2

1.2

1.2

1.2

50

1.0

1.0

1.0

1.0

1.0

1.0

1.0

1.1

1.1

1.1

1.1

1.1

1.1

60 or

greater

1.0

1.0

1.0

1.0

1.0

1.0

1.0

1.0

1.0

1.0

1.0

1.0

1.0

i)

If the PEQ is less than or equal to the water quality

standard, there is no reasonable potential and no limit will

be established in the permit.

ii)

If the PEQ is more than the water quality standard, the

Agency will proceed to consideration of dilution and mixing

pursuant to subsection 309.141(h)(5).

B)

If facility-specific data of 10 or less data values is available, an

alternative PEQ shall be derived using the table in subsection

309.141(h)(4)(A) assuming a coefficient of variation of 0.6, applied

to the maximum value in the data set that has its quality assured

consistent with 35 Ill. Adm. Code 352.410.

i)

If the PEQ is less than or equal to the water quality

standard, there is no reasonable potential and no limit will

be established in the permit.

ii)

If the PEQ exceeds the water quality standard, an

alternative PEQ will be calculated using the maximum value

in the data set and a multiplier of 1.4. If the alternative PEQ

also exceeds the water quality standard, the Agency will

---

50

proceed to consider dilution and mixing pursuant to

subsection 309.141(h)(5).

iii)

If the PEQ exceeds the water quality standard but the

alternative PEQ is less than or equal to the standard, the

Agency will either proceed to consider dilution and mixing

pursuant to subsection 309.141(h)(5), or will incorporate a

monitoring requirement and reopener clause to reassess the

potential to exceed within a specified time schedule, not to

exceed one year. In determining which of these options to

use in any individual application, the Agency shall consider

the operational and economic impacts on the permittee and

the effect, if any, deferral of a final decision would have on

an ultimate compliance schedule if a permit limit were

subsequently determined to be necessary.

C)

The Agency shall compare monthly average effluent data values,

when available, with chronic aquatic life, human health and wildlife

standards to evaluate the need for monthly average WQBELs. The

Agency shall use daily effluent data values to determine whether a

potential exists to exceed acute aquatic life water quality standards.

D

The Agency may apply other scientifically defensible statistical

methods for calculating PEQ for use in the reasonable potential

analysis as provided for in Procedure 5.b.2 of Appendix F to 40

CFR 132, incorporated by reference at 35 Ill. Adm. Code 301.106.

E)

Regardless of the statistical procedure used, if the PEQ for the

parameter is less than or equal to the water quality standard for that

parameter, the Agency shall deem the discharge not to have a

reasonable potential to exceed, and a water quality based effluent

limit (WQBEL) shall not be required unless otherwise required

under 35 Ill. Adm. Code 352.430.

5)

If the PEQ for a parameter is greater than the particular water quality

standard, criteria or value for that parameter, the Agency will assess the

level of treatment being provided by the discharger. If the discharger is

providing (or will be providing) a level of treatment consistent with the best

degree of treatment required by 35 Ill. Adm. Code 304.102(a), the PEQ

derived under subsection 309.141(h) (4) shall be compared to a preliminary

effluent limitation (PEL) determined by applying an appropriate mixing zone

or a default mixing zone to the discharge. Mixing opportunity and dilution

credit will be considered as follows:

---

51

A)

Discharges to tributaries of the Lake Michigan Basin shall

be considered to have no available dilution for either acute

or chronic exposures, and the PEL will be set equivalent to

the water quality standard unless dilution is documented

through a mixing zone study.

B)

Direct discharges to the Open Waters of Lake Michigan

shall have a default mixing allowance of 2:1 for acute

standards, criteria or values and 10:1 for chronic standards,

criteria or values if the discharge configuration indicates that

the effluent readily and rapidly mixes with the receiving

waters. If ready and rapid mixing is in doubt the Agency

shall deny any default dilution or mixing allowance and

require a mixing or dispersion study to determine the proper

dilution allowance. If the discharger applies for more than

the default dilution or mixing allowance, it must submit a

mixing or dispersion study to justify its request. Whenever a

mixing or dispersion study is available, it shall be used to

determine dilution or mixing allowance in lieu of the default

allowance.

6) (A) The Preliminary Effluent Limitation (“PEL”) is calculated in a

simple mass balance approach reflecting the dilution allowance established

in subsection 309.141(h)(5):

WQS = [(Qe)(PEL) + (Qd)(Cd)] / [Qe + Qd] or

PEL = [WQS(Qe + Qd) - (Qd)(Cd)] / Qe

where:

WQS = applicable water quality standard, criteria or value

Qe = effluent flowrate

Qd = allowable dilution flowrate

Cd = background pollutant concentration in dilution water

B) The representative background concentration of pollutants to

develop TMDLs and WLAs calculated in the absence of a TMDL

shall be established as follows:

i) "Background" represents all pollutant loadings, specifically

loadings that flow from upstream waters into the specified

watershed, water body, or water body segment for which a

TMDL or WLA in the absence of a TMDL is being

developed and enter the specified watershed, water body, or

---

52

water body segment through atmospheric deposition,

chemical reaction, or sediment release or resuspension.

(ii) When determining what available data are acceptable for

use in calculating background, the Agency shall use its best

professional judgment, including consideration of the

sampling location and the reliability of the data through

comparison, in part, to detection and quantification levels.

When data in more than 1 of the data sets or categories

described in subsection (iii) of this subsection (B) exists,

best professional judgment shall be used to select the data

that most accurately reflects or estimates background

concentrations. Pollutant degradation and transport

information may be considered when using pollutant loading

data to estimate a water column concentration.

(iii) The representative background concentration for a pollutant

in the specified watershed, water body, or water body

segment shall be established as the geometric mean of

acceptable water column data or water column

concentrations estimated through the use of acceptable or

projected pollutant loading data. When determining

the geometric mean of the data for a pollutant that includes

values both above and below the detection level, values less

than the detection level shall be assumed to be present at 1/2

of the detection level if the detection level is less than the

lowest water quality value for that pollutant. If all of the

acceptable data in a data set are below the detection level

for a pollutant, then all the data for the pollutant in that data

set shall be assumed to be zero. If the detection level of the

available data is greater than the lowest water quality value

for the pollutant, then the background concentration will be

determined by the Agency on a case-by-case basis

after considering all representative data, including

acceptable fish tissue data.

7)

A)

If the PEQ is less than or equal to the PEL, it will be concluded that

there is no reasonable potential to exceed. Under such

circumstances a permit limit for that contaminant will not be set

unless otherwise justified under one or more provisions of 35 Ill.

Adm. Code 352.430.

B)

If the PEQ is equal or greater than the PEL, and the PEQ was

calculated using a data set of more than 10 values, a water quality

based effluent limitation (WQBEL) will be included in the permit. If

---

53

the PEQ was calculated using a data set of less than or equal to 10

values, and the alternative PEQ calculated under subsection

309.141(h)(4)(B) also exceeds the PEL, a WQBEL will be included

in the permit.

C)

If the PEQ was calculated using a data set of less than or equal to

10 values, and the PEQ is greater than the PEL but the alternative

PEQ is less than the PEL, the Agency will either establish a

WQBEL in the permit or incorporate a monitoring requirement and

reopener clause to reassess potential to exceed within a specified

time schedule, not to exceed one year. In determining which of

these options to use in any individual application, the Agency shall

consider the operational and economic impacts on the permittee

and the effect, if any, deferral of a final decision would have on an

ultimate compliance schedule if a permit limit were subsequently

determined to be necessary.

D)

The WQBEL will be set at the PEL, unless the PEL is appropriately

modified to reflect credit for intake pollutants when the discharged

water originates in the same water body to which it is being

discharged. Consideration of intake credit will be limited to the

provisions of 35 Ill. Adm. Code 352.425.

E)

The reasonable potential analysis shall be completed separately for

acute and chronic aquatic life effects. When WQBELs are based on

acute impacts, the limit will be expressed as a daily maximum.

When the WQBEL is based on chronic effects, the limit will be

expressed as a monthly average. Human health and wildlife based

WQBELs will be expressed as monthly averages. If circumstances

warrant, the Agency shall consider alternatives to daily and monthly

limits.

(Source: Amended at 23 Ill. Reg. _________, effective ______________________.)

IT IS SO ORDERED.

I, Dorothy M. Gunn, Clerk of the Illinois Pollution Control Board, hereby certify that the

above opinion and order was adopted on the 4th day of March 1999 by a vote of 7-0.

Dorothy M. Gunn, Clerk

Illinois Pollution Control Board