PART 742 TIERED APPROACH TO CORRECTIVE ACTION OBJECTIVES : Sections Listing

TITLE 35: ENVIRONMENTAL PROTECTION
SUBTITLE G: WASTE DISPOSAL
CHAPTER I: POLLUTION CONTROL BOARD
SUBCHAPTER f: RISK BASED CLEANUP OBJECTIVES
PART 742 TIERED APPROACH TO CORRECTIVE ACTION OBJECTIVES


SUBPART A: INTRODUCTION

SUBPART B: GENERAL

SUBPART C: EXPOSURE ROUTE EVALUATIONS

SUBPART D: DETERMINING AREA BACKGROUND

SUBPART E: TIER 1 EVALUATION

SUBPART F: TIER 2 GENERAL EVALUATION

SUBPART G: TIER 2 SOIL AND SOIL GAS EVALUATION

SUBPART H: TIER 2 GROUNDWATER EVALUATION

SUBPART I: TIER 3 EVALUATION

SUBPART J: INSTITUTIONAL CONTROLS

SUBPART K: ENGINEERED BARRIERS

SUBPART L: BUILDING CONTROL TECHNOLOGIES

AUTHORITY: Implementing Sections 22.4, 22.12, Title XVI, and Title XVII and authorized by Sections 27 and 58.5 of the Environmental Protection Act [415 ILCS 5/22.4, 22.12, 27, and 58.5 and Title XVI and Title XVII].

SOURCE: Adopted in R97-12(A) at 21 Ill. Reg. 7942, effective July 1, 1997; amended in R97-12(B) at 21 Ill. Reg. 16391, effective December 8, 1997; amended in R97-12(C) at 22 Ill. Reg. 10847, effective June 8, 1998; amended in R00-19(A) at 25 Ill. Reg. 651, effective January 6, 2001; amended in R00-19(B) at 25 Ill. Reg. 10374, effective August 15, 2001; amended in R00-19(C) at 26 Ill. Reg. 2683, effective February 5, 2002; amended in R06-10 at 31 Ill. Reg. 4063, effective February 23, 2007; amended in R11-09 at 37 Ill. Reg. 7506, effective July 15, 2013.

SUBPART A: INTRODUCTION

SUBPART B: GENERAL

SUBPART C: EXPOSURE ROUTE EVALUATIONS

SUBPART D: DETERMINING AREA BACKGROUND

SUBPART E: TIER 1 EVALUATION

SUBPART F: TIER 2 GENERAL EVALUATION

SUBPART G: TIER 2 SOIL AND SOIL GAS EVALUATION

SUBPART H: TIER 2 GROUNDWATER EVALUATION

SUBPART I: TIER 3 EVALUATION

SUBPART J: INSTITUTIONAL CONTROLS

SUBPART K: ENGINEERED BARRIERS

SUBPART L: BUILDING CONTROL TECHNOLOGIES

 

Section 742.APPENDIX C   Tier 2 Illustrations and Tables

 

Section 742.TABLE A   SSL Equations

 

 

Equations for Soil Ingestion Exposure Route

Remediation Objectives for Noncarcinogenic Contaminants (mg/kg)

S1

Remediation Objectives for Carcinogenic Contaminants − Residential (mg/kg)

S2

Remediation Objectives for Carcinogenic Contaminants − Industrial/Commercial, Construction Worker (mg/kg)

S3

 

Equations for Inhalation Exposure Route (Organic Contaminants and Mercury

Remediation Objectives for Noncarcinogenic Contaminants − Residential, Industrial/Commercial (mg/kg)

S4

Remediation Objectives for Noncarcinogenic Contaminants − Construction Worker (mg/kg)

S5

Remediation Objectives for Carcinogenic Contaminants − Residential, Industrial/ Commercial (mg/kg)

S6

Remediation Objectives for Carcinogenic Contaminants − Construction Worker (mg/kg)

S7

Equation for Derivation of the Volatilization Factor − Residential, Industrial/ Commercial, VF (m3/kg)

S8

Equation for Derivation of the Volatilization Factor − Construction Worker, VF' (m3/kg)

VF' =

S9

Equation for Derivation of Apparent Diffusivity, DA (cm2/s)

S10

 

Equations for Inhalation Exposure Route (Fugitive Dusts)

Remediation Objectives for Noncarcinogenic Contaminants − Residential, Industrial/Commercial (mg/kg)

S11

Remediation Objectives for Noncarcinogenic Contaminants − Construction Worker (mg/kg)

S12

Remediation Objectives for Carcinogenic Contaminants − Residential, Industrial/ Commercial (mg/kg)

S13

Remediation Objectives for Carcinogenic Contaminants − Construction Worker (mg/kg)

S14

Equation for Derivation of Particulate Emission Factor, PEF (m3/kg)

S15

 

Equation for Derivation of Particulate Emission Factor, PEF' − Construction Worker (m3/kg)

 

NOTE: PEF must be the industrial/commercial value

S16

 


 

 

Equations for the Soil Component of the Groundwater Ingestion Exposure Route

Remediation Objective

(mg/kg)

 

NOTE:  This equation can only be used to model contaminant migration not in the water bearing unit.

S17

Target Soil Leachate Concentration, Cw (mg/L)

Cw = DF • GWobj

S18

Soil-Water Partition Coefficient, Kd (cm3/g)

Kd = Koc foc

S19

Water-Filled Soil Porosity,

θw (Lwater/Lsoil)

S20

Air-Filled Soil Porosity,

θa (Lair/Lsoil)

θa = η - θw

S21

Dilution Factor, DF (unitless)

S22

Groundwater Remediation Objection for Carcinogenic Contaminants, GWobj (mg/L)

S23

 

Total Soil Porosity, η (Lpore/Lsoil)

S24

 

Equation for Estimation of Mixing Zone Depth, d (m)

 

S25

 

Mass-Limit Equations for Inhalation Exposure Route and Soil Component of the Groundwater Ingestion Exposure Route

Mass-Limit Volatilization Factor for the Inhalation Exposure Route − Residential, Industrial/Commercial VF (m3/kg)

 

NOTE: This equation may be used when vertical thickness of contamination is known or can be estimated reliably.

S26

Mass-Limit Volatilization Factor for the Inhalation Exposure Route − Construction Worker, VT' − (m3/kg)

S27

Mass-Limit Remediation Objective for Soil Component of the Groundwater Ingestion Exposure Route (mg/kg)

 

NOTE:  This equation may be used when vertical thickness is known or can be estimated reliably.

S28

Equation for Derivation of the Soil Saturation Limit, Csat

S29

Equation for the soil gas component of the Outdoor Inhalation Exposure Route

 

S30

 

(Source:  Amended at 37 Ill. Reg. 7506, effective May 15, 2013)

 

Section 742.APPENDIX C   Tier 2 Illustrations and Tables

 

Section 742.TABLE B   SSL Parameters

 

Symbol

Parameter

Units

Source

Parameter Value(s)

AT

Averaging Time for Noncarcinogens in Ingestion Equation

yr

 

Residential = 6

Industrial/Commercial = 25

Construction Worker = 0.115

AT

Averaging Time for Noncarcinogens in Inhalation Equation

yr

 

Residential = 30

Industrial/Commercial = 25

Construction Worker = 0.115

ATc

Averaging Time for Carcinogens

yr

SSL

70

BW

Body Weight

kg

 

Residential = 15, noncarcinogens

70, carcinogens

Industrial/Commercial = 70

Construction Worker = 70

Csat

Soil Saturation Concentration

mg/kg

Appendix A, Table A or Equation S29 in Appendix C, Table A

Chemical-Specific or Calculated Value

Cw

Target Soil Leachate Concentration

mg/L

Equation S18 in Appendix C, Table A

Groundwater Standard, Health Advisory concentration, or Calculated Value

d

Mixing Zone Depth

m

SSL or Equation S25 in Appendix C, Table A

2 m or Calculated Value

da

Aquifer Thickness

m

Field Measurement

Site-Specific

ds

Depth of Source

 

(Vertical thickness of contamination)

m

Field Measurement or Estimation

Site-Specific


Symbol

Parameter

Units

Source

Parameter Value(s)

DA

Apparent Diffusivity

cm2/s

Equation S10 in Appendix C, Table A

Calculated Value

Di

Diffusivity in Air

cm2/s

Appendix C, Table E

Chemical-Specific

Dw

Diffusivity in Water

cm2/s

Appendix C, Table E

Chemical-Specific

DF

Dilution Factor

unitless

Equation S22 in Appendix C, Table A

20 or Calculated Value

ED

Exposure Duration for Ingestion of Carcinogens

yr

 

Industrial/Commercial = 25

Construction Worker = 1

ED

Exposure Duration for Inhalation of Carcinogens

yr

 

Residential = 30

Industrial/Commercial = 25

Construction Worker = 1

ED

Exposure Duration for Ingestion of Noncarcinogens

yr

 

Residential = 6

Industrial/Commercial = 25

Construction Worker = 1

ED

Exposure Duration for Inhalation of Noncarcinogens

yr

 

Residential = 30

Industrial/Commercial = 25

Construction Worker = 1

ED

Exposure Duration for the Direct Ingestion of Groundwater

yr

 

Residential = 30

Industrial/Commercial = 25

Construction Worker = 1

EDM-L

Exposure Duration for Migration to Groundwater Mass-Limit Equation S28

yr

SSL

70

EF

Exposure Frequency

d/yr

 

Residential = 350

Industrial/Commercial = 250

Construction Worker = 30

F(x)

Function dependent on Um/Ut

unitless

SSL

0.194

foc

Organic Carbon Content of Soil

g/g

SSL or Field Measurement (See Appendix C, Table F)

Surface Soil = 0.006

Subsurface soil = 0.002, or Site-Specific

GWobj

Groundwater Remediation Remediation Objective

mg/L

Appendix B, Table E, 35 IAC 620.Subpart F, or Equation S23 in Appendix C, Table A

Chemical-Specific or Calculated

H'

Henry's Law Constant

unitless

Appendix C, Table E

Chemical-Specific

i

Hydraulic Gradient

m/m

Field Measurement (See Appendix C, Table F)

Site-Specific

I

Infiltration Rate

m/yr

SSL

0.3

IM-L

Infiltration Rate for Migration to Groundwater Mass-Limit Equation S28

m/yr

SSL

0.18

IFsoil-adj (residential)

Age Adjusted Soil Ingestion Factor for Carcinogens

(mg-yr)/ (kg-d)

SSL

114

IRsoil

Soil Ingestion Rate

mg/d

 

Residential = 200

Industrial/Commercial = 50

Construction Worker = 480

IRW

Daily Water Ingestion Rate

L/d

 

Residential = 2

Industrial/Commercial = 1

K

Aquifer Hydraulic Conductivity

m/yr

Field Measurement (See Appendix C, Table F)

Site-Specific

Kd (Non-ionizing organics)

Soil-Water Partition Coefficient

cm3/g or L/kg

Equation S19 in Appendix C, Table A

Calculated Value

Kd (Ionizing organics)

Soil-Water Partition Coefficient

cm3/g or L/kg

Equation S19 in Appendix C, Table A

Chemical and pH-Specific (see Appendix C, Table I)

Kd (In-organics)

Soil-Water Partition Coefficient

cm3/g or L/kg

Appendix C, Table J

Chemical and pH-Specific

Koc

Organic Carbon Partition Coefficient

cm3/g or L/kg

Appendix C, Table E or Appendix C, Table I

Chemical-Specific

Ks

Saturated Hydraulic Conductivity

m/yr

Appendix C, Table K

Appendix C, Illustration C

Site-Specific

L

Source Length Parallel to Groundwater Flow

m

Field Measurement

Site-Specific

PEF

Particulate Emission Factor

m3/kg

SSL or Equation S15 in Appendix C, Table A

Residential = 1.32 • 109 or Site-Specific

Industrial/Commercial = 1.24 • 109 or Site-Specific

PEF′

Particulate Emission Factor adjusted for Agitation (construction worker)

m3/kg

Equation S16 in Appendix C, Table A using PEF (industrial/commercial)

1.24 • 108 or Site-Specific

Q/C (used in VF equations)

Inverse of the mean concentration at the center of a square source

(g/m2-s)/ (kg/m3)

Appendix C, Table H

Residential = 68.81

Industrial/Commercial = 85.81

Construction Worker = 85.81

Q/C (used in PEF equations)

Inverse of the mean concentration at the center of a square source

(g/m2-s)/ (kg/m3)

SSL or Appendix C, Table H

Residential = 90.80

Industrial/Commercial = 85.81

Construction Worker = 85.81

RfC

Inhalation Reference Concentration

mg/m3

Illinois EPA:  http://www.epa.state.il.us/land/taco/toxicity-values.xls

Toxicological-Specific (Note: for Construction Workers use subchronic reference concentrations)

RfDo

Oral Reference Dose

mg/(kg-d)

Illinois EPA:  http://www.epa.state.il.us/land/taco/toxicity-values.xls

Toxicological-Specific (Note: for Construction Workers use subchronic reference doses)

ROsoil

Soil remediation objective

mg/kg

Equation S30 in Appendix C, Table A

Calculated value

ROsoil gas

Soil gas remediation objective

mg/m3

Equation S30 in Appendix C, Table A

Calculated value

S

Solubility in Water

mg/L

Appendix C, Table E

Chemical-Specific

SFo

Oral Slope Factor

(mg/kg-d)-1

Illinois EPA:  http://www.epa.state.il.us/land/taco/toxicity-values.xls

Toxicological-Specific

T

Exposure Interval

s

 

Residential = 9.5 • 108

Industrial/Commercial = 7.9 • 108

Construction Worker = 3.6 • 106

TM-L

Exposure Interval for Mass-Limit Volatilization Factor Equation S26

yr

SSL

30

THQ

Target Hazard Quotient

unitless

SSL

1

TR

Target Cancer Risk

unitless

 

Residential = 10-6 at the point of human exposure

Industrial/Commercial = 10-6 at the point of human exposure

Construction Worker = 10-6 at the point of human exposure

Um

Mean Annual Windspeed

m/s

SSL

4.69

URF

Inhalation Unit Risk Factor

(μg/m3)-1

Illinois EPA:  http://www.epa.state.il.us/land/taco/toxicity-values.xls

Toxicological-Specific

Ut

Equivalent Threshold Value of Windspeed at 7 m

m/s

SSL

11.32

V

Fraction of Vegetative Cover

unitless

SSL or Field Measurement

0.5 of Site-Specific

VF

Volatilization Factor

m3/kg

Equation S8 in Appendix C, Table A

Calculated Value

VF′

Volatilization Factor adjusted for Agitation

m3/kg

Equation S9 in Appendix C, Table A

Calculated Value

VFM-L

Mass-Limit Volatilization Factor

m3/kg

Equation S26 in Appendix C, Table A

Calculated Value

VF′M-L

Mass-Limit Volatilization Factor adjusted for Agitation

m3/kg

Equation S27 in Appendix C, Table A

Calculated Value

η

Total Soil Porosity

Lpore/Lsoil

SSL or Equation S24 in Appendix C, Table A

0.43, or

 

Gravel = 0.25

Sand = 0.32

Silt = 0.40

Clay = 0.36, or

 

Calculated Value

θa

Air-Filled Soil Porosity

Lair/Lsoil

SSL or Equation S21 in Appendix C, Table A

Surface Soil (top 1 meter) = 0.28 Subsurface Soil (below 1 meter) = 0.13, or

 

Gravel = 0.05

Sand = 0.14

Silt = 0.24

Clay = 0.19, or

 

Calculated Value

θw

Water-Filled Soil Porosity

Lwater/Lsoil

SSL or Equation S20 in Appendix C, Table A

Surface Soil (top 1 meter) = 0.15

Subsurface Soil (below 1 meter) = 0.30, or

 

Gravel = 0.20

Sand = 0.18

Silt = 0.16

Clay = 0.17, or

 

Calculated Value

ρb

Dry Soil Bulk Density

kg/L or g/cm3

SSL or Field Measurement (See Appendix C, Table F)

1.5, or

 

Gravel = 2.0

Sand = 1.8

Silt = 1.6

Clay = 1.7, or

 

Site-Specific

ρs

Soil Particle Density

g/cm3

SSL or Field Measurement (See Appendix C, Table F)

2.65, or

Site-Specific

ρw

Water Density

g/cm3

SSL

1

1/(2b+3)

Exponential in Equation S20

unitless

Appendix C, Table K

Appendix C, Illustration C

Site-Specific

 

 

(Source:  Amended at 37 Ill. Reg. 7506, effective May 15, 2013)


Section 742.APPENDIX C   Tier 2 Illustrations and Tables

 

Section 742.TABLE C   RBCA Equations

 

Equations for the combined exposures routes of soil ingestion inhalation of vapors and particulates, and dermal contact with soil

Remediation Objectives for Carcinogenic Contaminants (mg/kg)

R1

Remediation Objectives for Non-carcinogenic Contaminants (mg/kg)

R2

Volatilization Factor for Surficial Soils, VFss (kg/m3)

 

Whichever is less between R3 and R4

R3

R4

Volatilization Factor for Surfici al Soils Regarding Particulates, VFp (kg/m3)

R5

Effective Diffusion Coefficient in Soil Based on Vapor-Phase Concentration Dseff (cm2/s)

R6

 


 

Equations for the ambient vapor inhalation (outdoor) route from subsurface soils

Remediation Objectives for Carcinogenic Contaminants (mg/kg)

R7

Remediation Objectives for Non-carcinogenic Contaminants (mg/kg)

R8

Carcinogenic Risk-Based Screening Level for Air, RBSLair (μg/m3)

R9

Noncarcino-genic Risk-Based Screening Level for Air, RBSLair (μg/m3)

R10

Volatilization Factor - Subsurface Soil to Ambient Air, VFsamb (mg/m3)/(mg/kgsoil)

R11


 

Equations for the Soil Component of the Ground-water Ingestion Exposure Route

Remediation Objective (mg/kg)

R12

NOTE:  This equation can only be used to model contaminant migration not in the water bearing unit.

Groundwater at the source, GWsource (mg/L)

R13

 

Leaching Factor, LFsw  (mg/Lwater)/

(mg/kgsoil)

R14

 

Steady-State Attenuation Along the Centerline of a Dissolved Plume,

C(x)/Csource

R15

NOTE: 

1.   This equation does not predict the contaminant flow within bedrock and may not accurately predict downgradient concentrations in the presence of a confining layer.

2.   If the value of the First Order Degradation Constant (λ) is not readily available, then set λ = 0.

 

Longitudinal Dispersivity, ax (cm)

R16

Transverse Dispersivity, ay (cm)

R17

Vertical Dispersivity, az (cm)

R18

Specific Discharge, U (cm/d)

R19

Soil-Water Sorption Coefficient, ks

R20

Volumetric Air Content in Vadose Zone Soils, qas (cm3air/cm3soil)

R21

Volumetric Water Content in Vadose Zone Soils, qws (cm3water/cm3 soil)

R22

Total Soil Porosity, qT (cm3/cm3soil)

R23

Groundwater Darcy Velocity, Ugw (cm/yr)

R24

Equations for the Groundwater Ingestion Exposure Route

Remediation Objective for Carcinogenic Contaminants (mg/L)

R25

 

Dissolved Hydrocarbon Concentration along Centerline, C(x) (mg/L water)

R26

NOTE: 

1.   This equation does not predict the containment flow within bedrock and may not accurately predict downgradient concentrations in the presence of a confining layer.

2.   If the value of the First Order Degradation Constant (λ) is not readily available, then set λ = 0.

 

(Source:  Amended at 31 Ill. Reg. 4063, effective February 23, 2007)


Section 742.APPENDIX C   Tier 2 Illustrations and Tables

 

Section 742.TABLE D   RBCA Parameters

 

Symbol

Parameter

Units

Source

Parameter Value(s)

ATc

Averaging Time for Carcinogens

yr

RBCA

70

ATn

Averaging Time for Noncarcinogens

yr

RBCA

Residential = 30

Industrial/Commercial = 25

Construction Worker = 0.115

BW

Adult Body Weight

kg

RBCA

70

Csource

The greatest potential concentration of the contaminant of concern in the groundwater at the source of the contamination, based on the concentrations of contaminants in groundwater due to the release and the projected concentration of the contaminant migrating from the soil to the groundwater.

mg/L

Field Measurement

Site-Specific

C(x)

Concentration of Contaminant in Groundwater at Distance X form the source

mg/L

Equation R26 in Appendix C, Table C

Calculated Value

C(x)/Csource

Steady-State Attenuation Along the Centerline of a Dissolved Plume

unitless

Equation R15 in Appendix C, Table C

Calculated Value

d

Lower Depth of Surficial Soil Zone

cm

Field Measurement

100 or Site-Specific (not to exceed 100)

Dair

Diffusion Coefficient in Air

cm2/s

Appendix C, Table E

Chemical-Specific

Dwater

Diffusion Coefficient in Water

cm2/s

Appendix C, Table E

Chemical-Specific


 

Symbol

Parameter

Units

Source

Parameter Value(s)

Dseff

Effective Diffusion Coefficient in Soil Based on Vapor-Phase Concentration

cm2/s

Equation R6 in Appendix C, Table C

Calculated Value

ED

Exposure Duration

yr

RBCA

Residential = 30

Industrial/Commercial = 25

Construction Worker = 1

EF

Exposure Frequency

d/yr

RBCA

Residential = 350

Industrial/Commercial = 250

Construction Worker = 30

erf

Error Function

unitless

Appendix C, Table G

Mathematical Function

foc

Organic Carbon Content of Soil

g/g

RBCA or Field Measurement (See Appendix C, Table F)

Surface Soil = 0.006

Subsurface Soil = 0.002 or

Site-Specific

GWcomp

Groundwater Objective at the Compliance Point

mg/L

Appendix B, Table E, 35 IAC 620.Subpart F, or Equation R25 in Appendix C, Table C

Site-Specific

GWsource

Groundwater Concentration at the Source

mg/L

Equation R13 in Appendix C, Table C

Calculated Value

H'

Henry's Law Constant

cm3water/cm3air

Appendix C, Table E

Chemical-Specific

i

Hydraulic Gradient

cm/cm (unitless)

Field Measurement (See Appendix C, Table F)

Site-Specific

I

Infiltration Rate

cm/yr

RBCA

30

IRair

Daily Outdoor Inhalation Rate

m3/d

RBCA

20

IRsoil

Soil Ingestion Rate

mg/d

RBCA

Residential = 100

Industrial/Commercial = 50

Construction Worker = 480

IRw

Daily Water Ingestion Rate

L/d

RBCA

Residential = 2

Industrial/Commercial = 1

K

Aquifer Hydraulic Conductivity

cm/d for Equations R15, R19 and R26 cm/yr for Equation R24

Field Measurement (See Appendix C, Table F)

Site-Specific

Koc

Organic Carbon Partition Coefficient

cm3/g or L/kg

Appendix C, Table E or Appendix C, Table I

Chemical-Specific


 

Symbol

Parameter

Units

Source

Parameter Value(s)

ks (non-ionizing organics)

Soil Water Sorption Coefficient

cm3water/gsoil

Equation R20 in Appendix C, Table C

Calculated Value

ks (ionizing organics)

Soil Water Sorption Coefficient

cm3water/gsoil

Equation R20 in Appendix C, Table C

Chemical and pH-Specific (See Appendix C, Table I)

ks (inorganics)

Soil Water Sorption Coefficient

cm3water/gsoil

Appendix C, Table J

Chemical and pH-Specific

Ls

Depth to Subsurface Soil Sources

cm

RBCA

100

LFsw

Leaching Factor

(mg/Lwater)/ (mg/kgsoil)

Equation R14 in Appendix C, Table C

Calculated Value

M

Soil to Skin Adherence Factor

mg/cm2

RBCA

0.5

Pe

Particulate Emission Rate

g/cm2-s

RBCA

6.9 • 10-14

RAFd

Dermal Relative Absorption Factor

unitless

RBCA

0.5

RAFd (PNAs)

Dermal Relative Absorption Factor

unitless

RBCA

0.05

RAFd (inorganics)

Dermal Relative Absorption Factor

unitless

RBCA

0

RAFo

Oral Relative Absorption Factor

unitless

RBCA

1.0

RBSLair

Carcinogenic Risk-Based Screening Level for Air

μg/m3

Equation R9 in Appendix C, Table C

Chemical-, Media-, and Exposure Route-Specific

RBSLair

Noncarcinogenic Risk-Based Screening Level for Air

μg/m3

Equations R10 in Appendix C, Table C

Chemical-, Media-, and Exposure Route-Specific

RfDi

Inhalation Reference Dose

mg/kg-d

IEPA (IRIS/HEASTa)

Toxicological-Specific

RfDo

Oral Reference Dose

mg/(kg-d)

IEPA (IRIS/HEASTa)

Toxicological-Specific (Note: for Construction Worker use subchronic reference doses)

SA

Skin Surface Area

cm2/d

RBCA

3,160


 

Symbol

Parameter

Units

Source

Parameter Value(s)

Sd

Source Width Perpendicular to Groundwater Flow Direction in Vertical Plane

cm

Field Measurement

For Migration to Groundwater Route: Use 200 or Site-Specific

 

For Groundwater remediation objective: Use Site-Specific

Sw

Source Width Perpendicular to Groundwater Flow Direction in Horizontal Plane

cm

Field Measurement

Site-Specific

SFi

Inhalation Cancer Slope Factor

(mg/kg-d)-1

IEPA (IRIS/HEASTa)

Toxicological-Specific

SFo

Oral Slope Factor

(mg/kg-d)-1

IEPA (IRIS/HEASTa)

Toxicological-Specific

THQ

Target Hazard Quotient

unitless

RBCA

1

TR

Target Cancer Risk

unitless

RBCA

Residential = 10-6 at the point of human exposure

Industrial/Commercial = 10-6 at the point of human exposure

Construction Worker = 10-6 at the point of human exposure

U

Specific Discharge

cm/d

Equation R19 in Appendix C, Table C

Calculated Value

Uair

Average Wind Speed Above Ground Surface in Ambient Mixing zone

cm/s

RBCA

225

Μgw

Groundwater Darcy Velocity

cm/yr

Equation R24 in Appendix C, Table C

Calculated Value

VFp

Volatilization Factor for Surficial Soils Regarding Particulates

kg/m3

Equation R5 in Appendix C, Table C

Calculated Value

VFsamb

Volatilization Factor (Subsurface Soils to Ambient Air)

(mg/m3air)/(mg/kgsoil) or kg/m3

Equation R11 in Appendix C, Table C

Calculated Value


 

Symbol

Parameter

Units

Source

Parameter Value(s)

VFss

Volatilization Factor for Surficial Soils

kg/m3

Use Equations R3 and R4 in Appendix C, Table C

Calculated Value from Equation R3 or R4 (whichever is less)

W

Width of Source Area Parallel to Direction to Wind or Groundwater Movement

cm

Field Measurement

Site-Specific

w

Average Soil Moisture Content

gwater/gsoil

RBCA or Field Measurement (See Appendix C, Table F)

0.1, or

Surface Soil (top 1 meter) = 0.1

Subsurface Soil (below 1 meter) = 0.2, or

Site-Specific

X

Distance along the Centerline of the Groundwater Plume Emanating from a Source. The x direction is the direction of groundwater flow

cm

Field Measurement

Site-Specific

αx

Longitudinal Dispersivity

cm

Equation R16 in Appendix C, Table C

Calculated Value

αy

Transverse Dispersivity

cm

Equation R17 in Appendix C, Table C

Calculated Value

αz

Vertical Dispersivity

cm

Equation R18 in Appendix C, Table C

Calculated Value

δair

Ambient Air Mixing Zone Heights

cm

RBCA

200

δgw

Groundwater Mixing Zone Thickness

cm

RBCA

200

θas

Volumetric Air Content in Vadose Zone Soils

cm3air/cm3soil

RBCA or Equation R21 in Appendix C, Table C

Surface Soil (top 1 meter) = 0.28

Subsurface Soil (below 1 meter) = 0.13, o r

 

Gravel = 0.05

Sand = 0.14

Silt = 0.16

Clay = 0.17, or

 

Calculate Value


 

Symbol

Parameter

Units

Source

Parameter Value(s)

θws

Volumetric Water Content in Vadose Zone Soils

cm3water/cm3soil

RBCA or Equation R22 in Appendix C, Table C

Surface Soil (top 1 meter) = 0.15

Subsurface Soil (below 1 meter) = 0.30, or

 

Gravel = 0.20

Sand = 0.18

Silt = 0.16

Clay = 0.17, or

 

Calculated Value

θT

Total Soil Porosity

cm3/cm3soil

RBCA or Equation R23 in Appendix C, Table C

0.43, or

 

Gravel = 0.25

Sand = 0.32

Silt = 0.40

Clay = 0.36, or

 

Calculated Value

λ

First Order Degradation Constant

d-1

Appendix C, Table E

Chemical-Specific

π

pi

 

 

3.1416

ρs

Soil Bulk Density

g/cm3

RBCA or Field Measurement (See Appendix C, Table F)

1.5, or

 

Gravel = 2.0

Sand = 1.8

Silt = 1.6

Clay = 1.7, or

 

Site-Specific

ρw

Water Density

g/cm3

RBCA

1

τ

Averaging Time for Vapor Flux

s

RBCA

9.46 • 108

 

(Source:  Amended at 31 Ill. Reg. 4063, effective February 23, 2007)

 

Section 742.APPENDIX C   Tier 2 Illustrations and Tables

 

Section 742.TABLE E   Default Physical and Chemical Parameterse

 

 

CAS No.

Chemical

Solubility in Water (S) (mg/L)

Diffusivity in Air (Di) (cm2/s)

Diffusivity in Water (Dw) (cm2/s)

Dimensionless Henry's Law Constant (H') (25°C)

Dimensionless Henry's Law Constant (H') (13°C)

 

For the indoor inhalation exposure route

Organic Carbon Partition Coefficient (Koc) (L/kg)

First Order Degradation Constant (l)(d-1)

Vapor Pressure (mm/Hg)

Neutral Organics

 

 

 

 

 

 

 

 

 

83-32-9

Acenaphthene

3.60E+00

4.76E-02

7.69E-06

6.60E-03

-------b

6.30E+03

3.40E-03

2.50E-03

67-64-1

Acetone

1.00E+06

1.24E-01

1.14E-05

1.60E-03

9.73E-04

7.80E-01

4.95E-02

2.30E+02

15972-60-8

Alachlor

2.40E+02

2.13E-02

5.28E-06

3.40E-06

-------b

3.20E+03

No Data

2.20E-05

116-06-3

Aldicarb

6.03E+03

3.18E-02

7.24E-06

5.90E-08

-------b

1.29E+01

1.09E-03

3.47E-05

309-00-2

Aldrin

1.70E-02

1.96E-02

4.86E-06

7.00E-03

-------b

2.50E+05

5.90E-04

6.00E-06

120-12-7

Anthracene

4.30E-02

3.85E-02

7.74E-06

2.70E-03

-------b

2.50E+04

7.50E-04

2.70E-06

1912-24-9

Atrazine

7.00E+01

2.59E-02

6.67E-06

9.68E-08

-------b

3.63E+02

No Data

2.70E-07

71-43-2

Benzene

1.80E+03

8.80E-02

1.02E-05

2.30E-01

1.34E-01

5.00E+01

9.00E-04

9.50E+01


56-55-3

Benzo(a)anthracene

9.40E-03

5.10E-02

9.00E-06

1.39E-04

-------b

4.00E+05

5.10E-04

1.10E-07

205-99-2

Benzo(b)fluoranthene

1.50E-03

2.23E-02

5.56E-06

4.55E-03

-------b

1.05E+06

5.70E-04

5.00E-07

207-08-9

Benzo(k)fluoranthene

8.00E-04

2.23E-02

5.56E-06

3.40E-05

-------b

1.00E+06

1.60E-04

2.00E-09

65-85-0

Benzoic Acid

3.40E+03

7.02E-02

7.97E-06

1.56E-06

-------b

1.21E+00d

No Data

7.00E-04

50-32-8

Benzo(a)pyrene

1.60E-03

4.30E-02

9.49E-06

4.50E-05

-------b

7.90E+05

6.50E-04

5.50E-09

111-44-4

Bis(2-chloroethyl) ether

1.72E+04

4.13E-02

7.53E-06

7.40E-04

2.94E-04

1.26E+01

1.90E-03

1.55E+00

117-81-7

Bis(2-ethylhexyl)phthalate

3.40E-01

3.51E-02

3.66E-06

4.10E-06

-------b

1.00E+05

1.80E-03

6.80E-08

75-27-4

Bromodichloromethane

6.70E+03

5.61E-02

1.06E-05

6.60E-02

3.71E-02

5.00E+01

No Data

5.00E+01

75-25-2

Bromoform

3.10E+03

1.49E-02

1.03E-05

2.19E-02

1.06E-02

9.12E+01

1.90E-03

5.51E+00

71-36-3

Butanol

7.40E+04

8.00E-02

9.30E-06

3.61E-04

1.55E-04

6.00E+00

1.28E-02

7.00E+00

78-93-3

2-Butanone (MEK)

2.20E+05

8.08E-02

9.8E-06

2.30E-03

1.32E-03

2.00E+00

4.95E-02

9.50E+01

85-68-7

Butyl Benzyl Phthalate

2.70E+00

1.99E-02

4.89E-06

5.30E-05

-------b

6.30E+04

3.85E-03

8.30E-06

86-74-8

Carbazole

1.20E+00

4.17E-02

7.45E-06

3.60E-06

-------b

4.00E+03

No Data

7.00E-04


1563-66-2

Carbofuran

3.20E+02

2.37E-02

5.95E-06

1.27E-07

-------b

1.91E+02

No Data

4.85E-06

75-15-0

Carbon Disulfide

1.20E+03

1.04E-01

1.00E-05

1.23E+00

8.06E-01

6.30E+01

No Data

3.60E+02

56-23-5

Carbon Tetrachloride

7.90E+02

7.80E-02

8.80E-06

1.23E+00

7.48E-01

2.00E+02

1.90E-03

1.20E+02

57-74-9

Chlordane

5.60E-02

1.79E-02

4.37E-06

2.00E-03

-------b

2.50E+05

2.50E-04

9.80E-06

106-47-8

p-Chloroaniline

5.30E+03

6.99E-02

1.01E-05

4.76E-05

-------b

6.31E+01

No Data

1.23E-02

108-90-7

Chlorobenzene

4.70E+02

7.30E-02

8.70E-06

1.50E-01

7.93E-02

2.00E+02

2.30E-03

1.20E+01

124-48-1

Chlorodibromomethane

2.60E+03

3.66E-02

1.05E-05

3.20E-02

2.07E-02

6.92E+01

3.85E-03

4.90E+00

67-66-3

Chloroform

7.90E+03

1.04E-01

1.00E-05

1.50E-01

9.18E-02

5.00E+01

3.90E-04

2.00E+02

95-57-8

2-Chlorophenol

2.20E+04

6.61E-02

9.46E-06

1.60E-02

7.28E-03

5.93E+01d

No Data

2.34E+00

218-01-9

Chrysene

6.30E-03

2.44E-02

6.21E-06

3.90E-03

-------b

4.00E+05

3.50E-04

6.20E-09

94-75-7

2,4-D

6.77E+02

5.88E-02

6.49E-06

4.18E-07

-------b

5.75E+02

3.85E-03

6.00E-07

72-54-8

4,4'-DDD

9.00E-02

2.27E-02

5.79E-06

1.60E-04

-------b

7.90E+05

6.20E-05

6.70E-07


72-55-9

4,4'-DDE

1.20E-01

2.38E-02

5.87E-06

8.60E-04

-------b

4.00E+05

6.20E-05

6.00E-06

50-29-3

4,4'-DDT

2.50E-02

1.99E-02

4.95E-06

3.30E-04

-------b

2.00E+06

6.20E-05

1.60E-07

75-99-0

Dalapon

9.00E+05

6.08E-02

9.45E-06

2.64E-06

NA

4.80E+00

5.78E-03

1.90E-01

53-70-3

Dibenzo(a,h)anthracene

2.50E-03

2.11E-02

5.24E-06

6.10E-07

-------b

2.50E+06

3.70E-04

1.00E-10

96-12-8

1,2-Dibromo-3-chloropropane

1.20E+03

2.68E-02

7.02E-06

6.20E-03c

NA

7.90E+01

1.93E-03

5.80E-01

106-93-4

1,2-Dibromoethane

4.00E+03

4.37E-02

8.44E-06

3.00E-02

1.54E-02

5.00E+01

5.78E-03

1.30E+01

84-74-2

Di-n-butyl Phthalate

1.10E+01

4.38E-02

7.86E-06

7.40E-05

-------a

4.00E+04

3.01E-02

7.30E-05

1918-00-9

Dicamba

4.50E+03

2.37E-02

5.95E-06

2.18E-09

-------a

2.95E+00

No Data

3.38E-05

95-50-1

1,2-Dichlorobenzene

1.56E+02

6.90E-02

7.90E-06

7.79E-02

3.56E-02

5.75E+02

1.90E-03

1.36E+00

106-46-7

1,4-Dichlorobenzene

7.90E+01

6.90E-02

7.90E-06

9.80E-02

4.69E-02

7.90E+02

1.90E-03

1.00E+00

91-94-1

3,3-Dichlorobenzidine

3.10E+00

2.59E-02

6.74E-06

1.60E-07

-------a

2.82E+03

1.90E-03

3.71E-08

75-71-8

Dichlorodifluoromethane

2.80E+02

7.60E-02

1.08E-05

1.41E+01

8.14E+00

6.17E+01

1.92E-03

4.85E+03


75-34-3

1,1-Dichloroethane

5.10E+03

7.42E-02

1.05E-05

2.30E-01

1.42E-01

3.20E+01

1.90E-03

2.30E+02

107-06-2

1,2-Dichloroethane

8.50E+03

1.04E-02

9.90E-06

4.00E-02

2.29E-02

2.00E+01

1.90E-03

7.90E+01

75-35-4

1,1-Dichloroethylene

2.30E+03

9.00E-02

1.04E-05

1.10E+00

7.10E-01

5.00E+01

5.30E-03

6.00E+02

156-59-2

cis-1,2-Dichloroethylene

3.50E+03

8.86E-02

1.13E-05

1.70E-01

1.00E-01

4.00E+01

2.40E-04

2.00E+02

156-60-5

trans-1,2-Dichloroethylene

6.30E+03

7.03E-02

1.19E-05

3.90E-01

2.43E-01

5.00E+01

2.40E-04

3.30E+02

120-83-2

2,4-Dichlorophenol

4.50E+03

4.89E-02

8.77E-06

1.30E-04

-------a

7.32E+02d

2.70E-04

6.70E-02

78-87-5

1,2-Dichloropropane

2.80E+03

7.82E-02

8.73E-06

1.10E-01

6.52E-02

5.00E+01

2.70E-04

5.20E+01

542-75-6

1,3-Dichloropropylene (cis + trans)

2.80E+03

6.26E-02

1.00E-05

7.40E-01

3.98E-01

2.00E+01

6.10E-02

3.40E+01

60-57-1

Dieldrin

2.00E-01

1.92E-02

4.74E-06

6.2E-04

-------a

2.50E+04

3.20E-04

5.9E-06

84-66-2

Diethyl Phthalate

1.10E+03

2.49E-02

6.35E-06

1.80E-05

-------a

3.20E+02

6.19E-03

1.60E-03

105-67-9

2,4-Dimethylphenol

7.90E+03

6.43E-02

8.69E-06

8.20E-05

-------a

2.00E+02

4.95E-02

9.80E-02

75-71-8

1,3-Dinitrobenzene

8.60E+02

4.55E-02

8.46E-06

2.30E-07

-------a

3.20E+01

1.92E-03

9.00E-04

51-28-5

2,4-Dinitrophenol

2.79E+03

2.73E-02

9.06E-06

1.82E-05

-------a

3.24E+01

1.32E-03

5.10E-03


121-14-2

2,4-Dinitrotoluene

2.70E+02

2.03E-01

7.06E-06

3.80E-06

-------a

8.90E+01

1.92E-03

1.47E-04

606-20-2

2,6-Dinitrotoluene

1.82E+02

3.70E-02

7.76E-06

3.06E-05

-------a

4.90E+01

1.92E-03

5.67E-04

88-85-7

Dinoseb

5.20E+01

2.45E-02

6.25E-06

1.87E-05

-------a

9.17E+01d

2.82E-03

7.50E-05

117-84-0

Di-n-octyl Phthalate

2.00E-02

1.73E-02

4.17E-06

2.74E-03

-------a

1.30E+05

1.90E-03

2.60E-06

123-91-1

p-Dioxane

1.00E+06

2.29E-01

1.02E-05

1.97E-04

1.07E-04

7.20E-01

1.92E-03

3.81E+01

115-29-7

Endosulfan

5.10E-01

1.85E-02

4.55E-06

4.51E-04

-------a

5.00E+03

7.63E-02

1.00E-05

145-73-3

Endothall

2.10E+04

2.91E-02

8.07E-06

1.58E-14

-------a

7.59E+01

No Data

1.57E-10

72-20-8

Endrin

2.50E-01

1.92E-02

4.74E-6

3.08E-04

-------a

3.20E+04

3.20E-04

3.00E-06

100-41-4

Ethylbenzene

1.70E+02

7.50E-02

7.80E-06

3.24E-01

1.64E-01

3.20E+02

3.00E-03

9.60E+00

206-44-0

Fluoranthene

2.06E-01

2.51E-02

6.35E-06

6.60E-04

-------a

7.40E+04

1.90E-04

1.23E-08

86-73-7

Fluorene

2.00E+00

4.40E-02

7.88E-06

2.62E-03

-------a

1.30E+04

6.91E-04

6.30E-04

76-44-8

Heptachlor

1.80E-01

2.23E-02

5.69E-06

6.07E-02

1.73E-02

3.00E+03

1.30E-01

4.00E-04

1024-57-3

Heptachlor epoxide

2.00E-01

2.19E-02

5.57E-06

3.90E-04

-------a

2.00E+05

6.30E-04

1.90E-05


118-74-1

Hexachlorobenzene

6.20E-03

5.42E-02

5.91E-06

5.33E-02

1.35E-02

2.00E+04

1.70E-04

1.80E-05

319-84-6

Alpha-HCH (alpha-BHC)

2.00E+00

2.04E-02

5.04E-06

4.51E-04

-------a

5.00E+03

2.50E-03

4.50E-05

58-89-9

Gamma-HCH (Lindane)

7.30E+00

2.75E-02

7.34E-06

5.74E-04

-------a

3.00E+03

2.90E-03

4.10E-04

2691-41-0

High Melting Explosive, Octogen (HMX)

5.00E+00

2.69E-02

7.15E-06

8.67E-10

3.55E-08

1.40E+00

No Data

3.30E-14

77-47-4

Hexachlorocyclo-

pentadiene

1.80E+00

2.79E-02

7.21E-06

1.11E+00

4.22E-01

1.20E+04

1.20E-02

5.96E-02

67-72-1

Hexachloroethane

5.00E+01

2.50E-03

6.80E-06

1.59E-01

7.26E-02

1.50E+03

1.92E-03

2.10E-01

193-39-5

Indeno(1,2,3-c,d)pyrene

2.20E-05

2.25E-02

5.66E-06

6.56E-05

-------a

3.10E+06

4.70E-04

1.00E-10

78-59-1

Isophorone

1.20E+04

6.23E-02

6.76E-06

2.72E-04

1.12E-04

2.50E+01

1.24E-02

4.38E-01

98-82-8

Isopropylbenzene (Cumene)

6.10E+01

6.50E-02

7.10E-06

4.92E+01

2.10E+01

1.02E+03

4.33E-02

4.50E+00

93-65-2

Mecoprop (MCPP)

8.95E+02

2.40E-02

6.05E-06

7.70E-09

-------a

1.84E+01d

3.85E-03

2.44E-05

7439-97-6

Mercury

6.00E-02

7.14E-02

3.01E-05

4.51E-01

1.59E-01

8.70E+03

No Data

2.00E-03

72-43-5

Methoxychlor

4.50E-02

1.84E-02

4.46E-06

6.56E-04

-------a

5.00E+04

1.90E-03

6.00E-07

74-83-9

Methyl Bromide

1.50E+04

7.28E-02

1.21E-05

2.56E-01

1.79E-01

1.00E+01

1.82E-02

1.62E+03

1634-04-4

Methyl tertiary-butyl ether

5.10E+04

8.59E-02

1.10E-05

2.42E-02

1.50E-02

1.00E+01

No Data

2.50E+02

75-09-2

Methylene Chloride

1.30E+04

1.01E-01

1.17E-05

9.02E-02

5.70E-02

1.30E+01

1.20E-02

4.30E+02


93-65-2

2-Methylnaphthalene

2.50E+01

5.22E-02

7.75E-06

2.10E-02

6.95E-03

1.60E+03

No Data

6.80E-02

95-48-7

2-Methylphenol (o-cresol)

2.60E+04

7.40E-02

8.30E-06

4.92E-05

2.00E-05

4.20E+01

4.95E-02

2.99E-01

91-20-3

Naphthalene

3.10E+01

5.90E-02

7.50E-06

1.97E-02

8.29E-03

5.00E+02

2.70E-03

8.50E-02

98-95-3

Nitrobenzene

2.09E+03

7.60E-02

8.60E-06

9.84E-04

3.99E-04

4.00E+01

1.76E-03

2.40E-01

86-30-6

N-Nitrosodiphenylamine

3.50E+01

2.83E-02

7.19E-06

2.10E-04

-------a

1.00E+03

1.00E-02

6.70E-04

621-64-7

N-Nitrosodi-n-propylamine

9.89E+03

5.87E-02

8.17E-06

9.20E-05

5.48E-05

1.45E+01

1.90E-03

1.30E-01

87-86-5

Pentachlorophenol

2.00E+03

5.60E-02

6.10E-06

9.84E-07

-------a

2.77E+03d

4.50E-04

3.20E-05

108-95-2

Phenol

8.30E+04

8.20E-02

9.10E-06

1.64E-05

6.67E-06

2.00E+01

9.90E-02

2.80E-01

1918-02-1

Picloram

4.30E+02

2.26E-02

5.64E-06

2.19E-12

-------a

2.00E+00

No Data

7.21E-11

1336-36-3

Polychlorinated biphenyls (PCBs)

-------a

-------a

-------a

-------a

-------a

-------a

-------a

-------a

129-00-0

Pyrene

1.40E+00

2.77E-02

7.24E-06

4.51E-04

-------a

6.31E+04

1.80E-04

4.60E-06

121-82-4

Royal Demolition Explosive, Cyclonite (RDX)

5.97E+01

3.11E-02

8.49E-06

2.01E-11

-------a

7.20E+00

No Data

4.10E-09

122-34-9

Simazine

6.20E+00

2.48E-02

6.28E-06

3.80E-08

-------a

1.32E+02

No Data

2.21E-08

100-42-5

Styrene

3.10E+02

7.10E-02

8.00E-06

1.11E-01

5.48E-03

3.16E+02

3.30E-03

6.10E+00

93-72-1

2,4,5-TP (Silvex)

7.10E+01

2.30E-02

5.83E-06

3.71E-07

-------a

5.50E+03

No Data

9.97E-06


127-18-4

Tetrachloroethylene

2.00E+02

7.20E-02

8.20E-06

7.38E-01

4.00E-01

6.31E+02

9.60E-04

1.90E+01

108-88-3

Toluene

5.30E+02

8.70E-02

8.60E-06

2.71E-01

1.49E-01

1.58E+02

1.10E-02

2.80E+01

8001-35-2

Toxaphene

7.40E-01

2.16E-02

5.51E-06

2.46E-04

-------a

5.01E+04

No Data

9.80E-07

120-82-1

1,2,4-Trichlorobenzene

3.50E+01

3.00E-02

8.23E-06

5.74E-02

2.38E-02

1.58E+03

1.90E-03

4.30E-01

71-55-6

1,1,1-Trichloroethane

1.30E+03

7.80E-02

8.80E-06

6.97E-01

4.21E-01

1.26E+02

1.30E-03

1.20E+02

79-00-5

1,1,2-Trichloroethane

4.40E+03

7.80E-02

8.80E-06

3.73E-02

1.98E-02

5.01E+01

9.50E-04

2.30E+01

79-01-6

Trichloroethylene

1.50E+03

7.90E-02

9.10E-06

4.10E-01

2.41E-01

1.00E+02

4.20E-04

7.30E+01

75-69-4

Trichlorofluoromethane

1.10E+03

8.70E-02

9.70E-06

3.98E+00

2.69E+00

1.30E+02

9.63E-04

8.00E+02

95-95-4

2,4,5-Trichlorophenol

1.20E+03

2.91E-02

7.03E-06

1.78E-04

-------a

2.68E+03d

3.80E-04

2.40E-02

88-06-2

2,4,6-Trichlorophenol

8.00E+02

2.61E-02

6.36E-06

3.53E-04

-------a

8.78E+02 d

3.80E-04

2.00E-02

108-05-4

Vinyl Acetate

2.00E+04

8.50E-02

9.20E-06

2.09E-02

1.18E-02

4.57E+00

No Data

9.00E+01

99-35-4

1,3,5-Trinitrobenzene

2.80E+02

2.41E-02

6.08E-06

3.30E-10

-------a

1.60E+01

No Data

6.40E-06

118-96-7

2,4,6-Trinitrotoluene (TNT)

1.24E+02

2.94E-02

7.90E-06

4.87E-09

-------a

3.72E+01

1.92E-03

2.02E-06

57-01-4

Vinyl Chloride

8.80E+03

1.06E-01

1.23E-06

1.11E+00

8.14E-01

1.58E+01

2.40E-04

3.00E+03

108-38-3

m-Xylene

1.60E+02

7.00E-02

7.80E-06

2.99E-01

1.52E-01

3.98E+02

1.90E-03

8.50E+00


95-47-6

o-Xylene

1.80E+02

8.70E-02

1.00E-05

2.13E-01

1.07E-01

3.16E+02

1.90E-03

6.60E+00

106-42-3

p-Xylene

1.60E+02

7.69E-02

8.44E-06

3.16E-01

1.59E-01

3.16E+02

1.90E-03

8.90E+00

1330-20-7

Xylenes (total)

1.10E+02

7.35E-02

9.23E-06

2.71E-01

NA

3.98E+02

1.90E-03

8.00E+00

 

Chemical Abstracts Service (CAS) registry number. This number in the format xxx-xx-x, is unique for each chemical and allows efficient searching on computerized data bases.

 

a    Soil remediation objectives are determined pursuant to 40 CFR 761, as incorporated by reference at Section 742.210(b) (the USEPA "PCB Spill Cleanup Policy"), for most sites; persons remediating sites should consult with BOL if calculation of Tier 2 or 3 remediation objectives is desired.  PCBs are a mixture of different congeners.  The appropriate values to use for the physical/chemical parameters depend on congeners present at the site.

 

b   Dimensionless Henry's Law Constant at 13°C is not calculated because the chemical is not volatile and does not require evaluation under the indoor inhalation exposure route.

 

c    Dimensionless Henry's Law Constant = 20°C

 

d   These chemicals are ionizing and its Koc value will change with pH. The Koc values listed in this table is the effective Koc at pH of 6.8.  If the site-specific pH is values other than 6.8, the Koc value listed Appendix C, Table I should be used.

 

e    The values in this table were taken from the following sources (in order of preference):  SCDMS online database (http://www.epa.gov/superfund/sites/npl/hrsres/tools/scdm.htm); CHEMFATE online database (http://www.srcinc.com/what-we-do/databaseforms.aspx?id=381); PhysProp online database (http://www.srcinc.com/what-we-do/databaseforms.aspx?id-386); Water (http://www.epa.gov/ttn/chief/software/water/) for diffusivity values; and Handbook of Environmental Degradation Rates by P.H. Howard (1991) for first order degradation constant values.

ILLINOIS REGISTER

POLLUTION CONTROL BOARD

NOTICE OF PROPOSED AMENDMENTS
 


(Source:  Amended at 37 Ill. Reg. 7506, effective May 15, 2013)

 

Section 742.APPENDIX C   Tier 2 Illustrations and Tables

 

Section 742.TABLE F   Methods for Determining Physical Soil Parameters

 

Methods for Determining Physical Soil Parameters

Parameter

Sampling Locationa

Method

rb (soil bulk density)

Surface

ASTM-D 1556-90

Sand Cone Methodb

ASTM-D 2167-94

Rubber Balloon Methodb

ASTM-D 2922-91

Nuclear Methodb

Subsurface

ASTM-D 2937-94

Drive Cylinder Methodb

rs (soil particle density)

Surface or Subsurface

ASTM-D 854-92

Specific Gravity of Soilb

w (moisture content)

Surface or Subsurface

ASTM-D 4959-89 (Reapproved 1994)

Standardb

ASTM-D D 4643-93

Microwave Ovenb

ASTM-D D2216-92

Laboratory Determinationb

ASTM-D D3017-88 (Reapproved 1993)

Nuclear Methodb

Equivalent USEPA Method (e.g., sample preparation procedures described in methods 3541 or 3550)

foc (fraction organic carbon content)

Surface or Subsurface

ASTM-D 2974-00

Moisture, Ash, and Organic Matter appropriately adjusted to estimate the fraction of organic carbon as stated in Nelson and Sommers (1982)b

h or θT (total soil porosity)

Surface or Subsurface (calculated)

Equation S24 in Appendix C, Table A for SSL Model, or Equation R23 in Appendix C, Table C for RBCA Model, or Equation J&E16 in Appendix C, Table L for J&E Model

θa or θas (air-filled soil porosity)

Surface or Subsurface (calculated)

Equation S21 in Appendix C, Table A for SSL Model, or Equation R21 in Appendix C, Table C for RBCA Model, or Equation J&E18 in Appendix C, Table L for J&E Model

θw or θws (water-filled soil porosity)

Surface or Subsurface (calculated)

Equation S20 in Appendix C, Table A for SSL Model, or Equation R22 in Appendix C, Table C for RBCA Model, or Equation J&E17 in Appendix C, Table L for J&E Model

K (hydraulic conductivity)

Surface or Subsurface

ASTM-D 5084-90

Flexible Wall Permeameterb

Pump Test

Slug Test

i (hydraulic gradient)

Surface or Subsurface

Field Measurement

 

a.   This is the location where the sample is collected

 

b   As incorporated by reference in Section 742.120.

 

(Source:  Amended at 37 Ill. Reg. 7506, effective May 15, 2013)


Section 742.APPENDIX C   Tier 2 Illustrations and Tables

 

Section 742.TABLE G   Error Function (erf)

 

 

 

b

erf (b)

 

b

erf (b)

0

0

 

1.1

0.880205

0.05

0.056372

 

1.2

0.910314

0.1

0.112463

 

1.3

0.934008

0.15

0.167996

 

1.4

0.952285

0.2

0.222703

 

1.5

0.966105

0.25

0.276326

 

1.6

0.976348

0.3

0.328627

 

1.7

0.983790

0.35

0.379382

 

1.8

0.989091

0.4

0.428392

 

1.9

0.992790

0.45

0.475482

 

2.0

0.995322

0.5

0.520500

 

2.1

0.997021

0.55

0.563323

 

2.2

0.998137

0.6

0.603856

 

2.3

0.998857

0.65

0.642029

 

2.4

0.999311

0.7

0.677801

 

2.5

0.999593

0.75

0.711156

 

2.6

0.999764

0.8

0.742101

 

2.7

0.999866

0.85

0.770668

 

2.8

0.999925

0.9

0.796908

 

2.9

0.999959

0.95

0.820891

 

3.0

0.999978

1.0

0.842701

 

 

 

 

(Source:  Amended at 31 Ill. Reg. 4063, effective February 23, 2007)


Section 742.APPENDIX C   Tier 2 Illustrations and Tables

 

Section 742.TABLE H   Q/C Values by Source Area

 

Source

(Acres)

Area Q/C Value

(g/m2-s per kg/m3)

0.5

97.78

1

85.81

2

76.08

5

65.75

10

59.16

30

50.60

 

(Source:  Amended at 31 Ill. Reg. 4063, effective February 23, 2007)


Section 742.APPENDIX C   Tier 2 Illustrations and Tables

 

Section 742.TABLE I   Koc Values for Ionizing Organics as a Function of pH (cm3/g or L/kg or cm3water/gsoil)

 

pH

Benzoic Acid

2-Chloro- phenol

2,4-Dichloro-phenol

Pentachloro-phenol

2,4,5-Trichloro-phenol

2,4,6-Trichloro-phenol

Dinoseb

2,4,5-TP

(Silvex)

4.5

1.07E+01

3.98E+02

1.59E+02

1.34E+04

2.37E+03

1.06E+03

3.00E+04

1.28E+04

4.6

9.16E+00

3.98E+02

1.59E+02

1.24E+04

2.37E+03

1.05E+03

2.71E+04

1.13E+04

4.7

7.79E+00

3.98E+02

1.59E+02

1.13E+04

2.37E+03

1.05E+03

2.41E+04

1.01E+04

4.8

6.58E+00

3.98E+02

1.59E+02

1.02E+04

2.37E+03

1.05E+03

2.12E+04

9.16E+03

4.9

5.54E+00

3.98E+02

1.59E+02

9.05E+03

2.37E+03

1.04E+03

1.85E+04

8.40E+03

5.0

4.62E+00

3.98E+02

1.59E+02

7.96E+03

2.36E+03

1.03E+03

1.59E+04

7.76E+03

5.1

3.86E+00

3.98E+02

1.59E+02

6.93E+03

2.36E+03

1.02E+03

1.36E+04

7.30E+03

5.2

3.23E+00

3.98E+02

1.59E+02

5.97E+03

2.35E+03

1.01E+03

1.15E+04

6.91E+03

5.3

2.70E+00

3.98E+02

1.59E+02

5.10E+03

2.34E+03

9.99E+02

9.66E+03

6.60E+03

5.4

2.27E+00

3.98E+02

1.58E+02

4.32E+03

2.33E+03

9.82E+02

8.10E+03

6.36E+03

5.5

1.92E+00

3.97E+02

1.58E+02

3.65E+03

2.32E+03

9.62E+02

6.77E+03

6.16E+03

5.6

1.63E+00

3.97E+02

1.58E+02

3.07E+03

2.31E+03

9.38E+02

5.65E+03

6.00E+03

5.7

1.40E+00

3.97E+02

1.58E+02

2.58E+03

2.29E+03

9.10E+02

4.73E+03

5.88E+03

5.8

1.22E+00

3.97E+02

1.58E+02

2.18E+03

2.27E+03

8.77E+02

3.97E+03

5.78E+03

5.9

1.07E+00

3.97E+02

1.57E+02

1.84E+03

2.24E+03

8.39E+02

3.35E+03

5.70E+03


 

pH

Benzoic Acid

2-Chloro- phenol

2,4-Dichloro-phenol

Pentachloro-phenol

2,4,5-Trichloro-phenol

2,4,6-Trichloro-phenol

Dinoseb

2,4,5-TP

(Silvex)

6.0

9.50E-01

3.96E+02

1.57E+02

1.56E+03

2.21E+03

7.96E+02

2.84E+03

5.64E+03

6.1

8.54E-01

3.96E+02

1.57E+02

1.33E+03

2.17E+03

7.48E+02

2.43E+03

5.59E+03

6.2

7.78E-01

3.96E+02

1.56E+02

1.15E+03

2.12E+03

6.97E+02

2.10E+03

5.55E+03

6.3

7.19E-01

3.95E+02

1.55E+02

9.98E+02

2.06E+03

6.44E+02

1.83E+03

5.52E+03

6.4

6.69E-01

3.94E+02

1.54E+02

8.77E+02

1.99E+03

5.89E+02

1.62E+03

5.50E+03

6.5

6.31E-01

3.93E+02

1.53E+02

7.81E+02

1.91E+03

5.33E+02

1.45E+03

5.48E+03

6.6

6.00E-01

3.92E+02

1.52E+02

7.03E+02

1.82E+03

4.80E+02

1.32E+03

5.46E+03

6.7

5.74E-01

3.90E+02

1.50E+02

6.40E+02

1.71E+03

4.29E+02

1.21E+03

5.45E+03

6.8

5.55E-01

3.88E+02

1.47E+02

5.92E+02

1.60E+03

3.81E+02

1.12E+03

5.44E+03

6.9

5.39E-01

3.86E+02

1.45E+02

5.52E+02

1.47E+03

3.38E+02

1.05E+03

5.43E+03

7.0

5.28E-01

3.83E+02

1.41E+02

5.21E+02

1.34E+03

3.00E+02

9.96E+02

5.43E+03

7.1

5.18E-01

3.79E+02

1.38E+02

4.96E+02

1.21E+03

2.67E+02

9.52E+02

5.42E+03

7.2

5.10E-01

3.75E+02

1.33E+02

4.76E+02

1.07E+03

2.39E+02

9.18E+02

5.42E+03

7.3

5.04E-01

3.69E+02

1.28E+02

4.61E+02

9.43E+02

2.15E+02

8.90E+02

5.42E+03

7.4

4.99E-01

3.62E+02

1.21E+02

4.47E+02

8.19E+02

1.95E+02

8.68E+02

5.41E+03

7.5

4.95E-01

3.54E+02

1.14E+02

4.37E+02

7.03E+02

1.78E+02

8.50E+02

5.41E+03

7.6

4.92E-01

3.44E+02

1.07E+02

4.29E+02

5.99E+02

1.64E+02

8.36E+02

5.41E+03

 


 

pH

Benzoic Acid

2-Chloro- phenol

2,4-Dichloro-phenol

Pentachloro-phenol

2,4,5-Trichloro-phenol

2,4,6-Trichloro-phenol

Dinoseb

2,4,5-TP (Silvex)

7.7

4.86E-01

3.33E+02

9.84E+01

4.23E+02

5.07E+02

1.53E+02

8.25E+02

5.41E+03

7.8

4.86E-01

3.19E+02

8.97E+01

4.18E+02

4.26E+02

1.44E+02

8.17E+02

5.41E+03

7.9

4.85-01

3.04E+02

8.07E+01

4.14E+02

3.57E+02

1.37E+02

8.10E+02

5.41E+03

8.0

4.85E-01

2.86E+02

7.17E+01

4.10E+02

2.98E+02

1.31E+02

8.04E+02

5.41E+03

8.1

4.84E-01

2.67E+02

6.30E+01

4.09E+02

2.49E+02

1.26E+02

8.00E+02

5.40E+03

8.2

4.84E-01

2.46E+02

5.47E+01

4.07E+02

2.08E+02

1.22E+02

7.97E+02

5.40E+03

8.3

4.83E-01

2.24E+02

4.40E+01

4.05E+02

1.75E+02

1.19E+02

7.93E+02

5.40E+03

8.4

4.83E-01

2.02E+02

4.00E+01

4.04E+02

1.48E+02

1.17E+02

7.91E+02

5.40E+03

8.5

4.82E-01

1.80E+02

3.38E+01

4.03E+02

1.25E+02

1.15E+02

7.89E+02

5.40E+03

8.6

4.82E-01

1.58E+02

2.84E+01

4.02E+02

1.08E+02

1.13E+02

7.88E+02

5.40E+03

8.7

4.82E-01

1.37E+02

2.38E+01

4.02E+02

9.31E+02

1.12E+02

7.87E+02

5.40E+03

8.8

4.81E-01

1.18E+02

1.99E+01

4.01E+02

8.16E+02

1.11E+02

7.86E+02

5.40E+03

8.9

4.81E-01

1.00E+02

1.66E+01

4.01E+02

7.23E+01

1.10E+02

7.85E+02

5.40E+03

9.0

4.80E-01

8.47E+01

1.39E+01

4.00E+02

6.48E+01

1.09E+02

7.85E+02

5.40E+03

 

(Source:  Amended at 31 Ill. Reg. 4063, effective February 23, 2007)


Section 742.APPENDIX C   Tier 2 Illustrations and Tables

 

Section 742.TABLE J   Values to be Substituted for kd or ks when Evaluating Inorganics as a Function of pH (cm3/g or L/kg or cm3water/gsoil)

 

pH

As

Ba

Be

Cd

Cr (+3)

Cr (+6)

Hg

Ni

Ag

Se

Tl

Zi

Pb

4.9

2.5E+01

1.1E+01

2.3E+01

1.5E+01

1.2E+03

3.1E+01

4.0E-02

1.6E+01

1.0E-01

1.8E+01

4.4E+01

1.6E+01

1.5E+01

5.0

2.5E+01

1.2E+01

2.6E+01

1.7E+01

1.9E+03

3.1E+01

6.0E-02

1.8E+01

1.3E-01

1.7E+01

4.5E+01

1.8E+01

1.5E+01

5.1

2.5E+01

1.4E+01

2.8E+01

1.9E+01

3.0E+03

3.0E+01

9.0E-02

2.0E+01

1.6E-01

1.6E+01

4.6E+01

1.9E+01

1.5E+01

5.2

2.6E+01

1.5E+01

3.1E+01

2.1E+01

4.9E+03

2.9E+01

1.4E-01

2.2E+01

2.1E-01

1.5E+01

4.7E+01

2.1E+01

1.5E+01

5.3

2.6E+01

1.7E+01

3.5E+01

2.3E+01

8.1E+03

2.8E+01

2.0E-01

2.4E+01

2.6E-01

1.4E+01

4.8E+01

2.3E+01

1.5E+01

5.4

2.6E+01

1.9E+01

3.8E+01

2.5E+01

1.3E+04

2.7E+01

3.0E-01

2.6E+01

3.3E-01

1.3E+01

5.0E+01

2.5E+01

1.5E+01

5.5

2.6E+01

2.1E+01

4.2E+01

2.7E+01

2.1E+04

2.7E+01

4.6E-01

2.8E+01

4.2E-01

1.2E+01

5.1E+01

2.6E+01

1.5E+01

5.6

2.6E+01

2.2E+01

4.7E+01

2.9E+01

3.5E+04

2.6E+01

6.9E-01

3.0E+01

5.3E-01

1.1E+01

5.2E+01

2.8E+01

1.5E+01

5.7

2.7E+01

2.4E+01

5.3E+01

3.1E+01

5.5E+04

2.5E+01

1.0E-00

3.2E+01

6.7E-01

1.1E+01

5.4E+01

3.0E+01

1.5E+01

5.8

2.7E+01

2.6E+01

6.0E+01

3.3E+01

8.7E+04

2.5E+01

1.6E-00

3.4E+01

8.4E-01

9.8E+00

5.5E+01

3.2E+01

1.5E+01

5.9

2.7E+01

2.8E+01

6.9E+01

3.5E+01

1.3E+05

2.4E+01

2.3E-00

3.6E+01

1.1E+00

9.2E+00

5.6E+01

3.4E+01

1.5E+01

6.0

2.7E+01

3.0E+01

8.2E+01

3.7E+01

2.0E+05

2.3E+01

3.5E-00

3.8E+01

1.3E+00

8.6E+00

5.8E+01

3.6E+01

1.5E+01

6.1

2.7E+01

3.1E+01

9.9E+01

4.0E+01

3.0E+05

2.3E+01

5.1E-00

4.0E+01

1.7E+00

8.0E+00

5.9E+01

3.9E+01

1.5E+01

6.2

2.8E+01

3.3E+01

1.2E+02

4.2E+01

4.2E+05

2.2E+01

7.5E-00

4.2E+01

2.1E+00

7.5E+00

6.1E+01

4.2E+01

1.5E+01

6.3

2.8E+01

3.5E+01

1.6E+02

4.4E+01

5.8E+05

2.2E+01

1.1E+01

4.5E+01

2.7E+00

7.0E+00

6.2E+01

4.4E+01

1.5E+01

6.4

2.8E+01

3.6E+01

2.1E+02

4.8E+01

7.7E+05

2.1E+01

1.6E+01

4.7E+01

3.4E+00

6.5E+00

6.4E+01

4.7E+01

7.1E+02

6.5

2.8E+01

3.7E+01

2.8E+02

5.2E+01

9.9E+05

2.0E+01

2.2E+01

5.0E+01

4.2E+00

6.1E+00

6.6E+01

5.1E+01

7.1E+02

6.6

2.8E+01

3.9E+01

3.9E+02

5.7E+01

1.2E+06

2.0E+01

3.0E+01

5.4E+01

5.3E+00

5.7E+00

6.7E+01

5.4E+01

7.1E+02

 


 

pH

As

Ba

Be

Cd

Cr (+3)

Cr (+6)

Hg

Ni

Ag

Se

Tl

Zi

Pb

6.7

2.9E+01

4.0E+01

5.5E+02

6.4E+01

1.5E+06

1.9E+01

4.0E+01

5.8E+01

6.6E+00

5.3E+00

6.9E+01

5.8E+01

7.1E+02

6.8

2.9E+01

4.1E+01

7.9E+02

7.5E+01

1.8E+06

1.9E+01

5.2E+01

6.5E+01

8.3E+00

5.0E+00

7.1E+01

6.2E+01

7.1E+02

6.9

2.9E+01

4.2E+01

1.1E+03

9.1E+01

2.1E+06

1.8E+01

6.6E+01

7.4E+01

1.0E+01

4.7E+00

7.3E+01

6.8E+01

7.1E+02

7.0

2.9E+01

4.2E+01

1.7E+03

1.1E+02

2.5E+06

1.8E+01

8.2E+01

8.8E+01

1.3E+01

4.3E+00

7.4E+01

7.5E+01

7.1E+02

7.1

2.9E+01

4.3E+01

2.5E+03

1.5E+02

2.8E+06

1.7E+01

9.9E+01

1.1E+02

1.6E+01

4.1E+00

7.6E+01

8.3E+01

7.1E+02

7.2

3.0E+01

4.4E+01

3.8E+03

2.0E+02

3.1E+06

1.7E+01

1.2E+02

1.4E+02

2.0E+01

3.8E+00

7.8E+01

9.5E+01

7.1E+02

7.3

3.0E+01

4.4E+01

5.7E+03

2.8E+02

3.4E+06

1.6E+01

1.3E+02

1.8E+02

2.5E+01

3.5E+00

8.0E+01

1.1E+02

7.1E+02

7.4

3.0E+01

4.5E+01

8.6E+03

4.0E+02

3.7E+06

1.6E+01

1.5E+02

2.5E+02

3.1E+01

3.3E+00

8.2E+01

1.3E+02

7.1E+02

7.5

3.0E+01

4.6E+01

1.3E+04

5.9E+02

3.9E+06

1.6E+01

1.6E+02

3.5E+02

3.9E+01

3.1E+00

8.5E+01

1.6E+02

7.1E+02

7.6

3.1E+01

4.6E+01

2.0E+04

8.7E+02

4.1E+06

1.5E+01

1.7E+02

4.9E+02

4.8E+01

2.9E+00

8.7E+01

1.9E+02

7.1E+02

7.7

3.1E+01

4.7E+01

3.0E+04

1.3E+03

4.2E+06

1.5E+01

1.8E+02

7.0E+02

5.9E+01

2.7E+00

8.9E+01

2.4E+02

7.1E+02

7.8

3.1E+01

4.9E+01

4.6E+04

1.9E+03

4.3E+06

1.4E+01

1.9E+02

9.9E+02

7.3E+01

2.5E+00

9.1E+01

3.1E+02

7.1E+02

7.9

3.1E+01

5.0E+01

6.9E+04

2.9E+03

4.3E+06

1.4E+01

1.9E+02

1.4E+03

8.9E+01

2.4E+00

9.4E+01

4.0E+02

7.1E+02

8.0

3.1E+01

5.2E+01

1.0E+05

4.3E+03

4.3E+06

1.4E+01

2.0E+02

1.9E+03

1.1E+02

2.2E+00

9.6E+01

5.3E+02

7.1E+02

8.1

3.2E+01

---a

---a

---a

---a

1.3E+01

---a

---a

---a

2.1E+00

1.0E+02

---a

7.1E+02

8.2

3.2E+01

---a

---a

---a

---a

1.3E+01

---a

---a

---a

1.9E+00

1.0E+02

---a

7.1E+02

8.3

3.2E+01

---a

---a

---a

---a

1.3E+01

---a

---a

---a

1.8E+00

1.0E+02

---a

7.1E+02

8.4

3.2E+01

---a

---a

---a

---a

1.2E+01

---a

---a

---a

1.7E+00

1.1E+02

---a

7.1E+02

8.5

3.2E+01

---a

---a

---a

---a

1.2E+01

---a

---a

---a

1.6E+00

1.1E+02

---a

7.1E+02

8.6

3.3E+01

---a

---a

---a

---a

1.2E+01

---a

---a

---a

1.5E+00

1.1E+02

---a

7.1E+02

8.7

3.3E+01

---a

---a

---a

---a

1.2E+01

---a

---a

---a

1.4E+00

1.2E+02

---a

7.1E+02

8.8

3.3E+01

---a

---a

---a

---a

1.1E+01

---a

---a

---a

1.3E+00

1.2E+02

---a

1.9E+03

8.9

3.3E+01

---a

---a

---a

---a

1.1E+01

---a

---a

---a

1.2E+00

1.2E+02

---a

1.9E+03

9.0

3.3E+01

---a

---a

---a

---a

1.0E+01

---a

---a

---a

1.1E+00

1.2E+02

---a

1.9E+03

 

a   No data available for this pH.

 

(Source:  Amended at 31 Ill. Reg. 4063, effective February 23, 2007)


Section 742.APPENDIX C   Tier 2 Illustrations and Tables

 

Section 742.TABLE K   Parameter Estimates for Calculating Water-Filled Soil Porosity (θw)

 

Soil Texturea

Saturated Hydraulic

Conductivity, Ks (m/yr)

1/(2b+3)b

Sand

1,830

0.090

Loamy Sand

540

0.085

Sandy Loam

230

0.080

Silt Loam

120

0.074

Loam

60

0.073

Sandy Clay Loam

40

0.058

Silt Clay Loam

13

0.054

Clay Loam

20

0.050

Sandy Clay

10

0.042

Silt Clay

8

0.042

Clay

5

0.039

 

a   The appropriate texture classification is determined by a particle size analysis by ASTM D2488-93 as incorporated by reference in Section 742.210 and the U.S. Department of Agriculture Soil Textural Triangle shown in Appendix C, Illustration C.

 

b   Where b is the soil-specific exponential parameter (unitless)

 

(Source:  Amended at 31 Ill. Reg. 4063, effective February 23, 2007)

 

Section 742.APPENDIX C   Tier 2 Tables

 

Section 742.TABLE L   J&E Equationsa

 

Indoor air remediation objectives (mg/m3)

 

For carcinogenic contaminants

 

J&E1

For noncarcinogenic contaminants

 

J&E2

To convert mg/m3 from parts per million volume

 

 

Note:  24.45 equals the molar volume of air in liters at normal temperature (25°C) and pressure (760 mmHg).

J&E3

Soil gas remediation objective (mg/m3)

 

 

J&E4

Soil Vapor Saturation Limit

(mg/m3-air)

 

J&E5

Groundwater remediation objectives

 

 

J&E6

Attenuation factor

 

Attenuation factor when the mode of contaminant transport is both diffusion and advection

 

Qsoil = 83.33 cm3/sec

 

J&E7

Attenuation factor when the mode of contaminant transport is diffusion only

 

Qsoil= 0 cm3/sec

 

J&E8

Total overall effective diffusion coefficient for vapor transport in porous media for multiple soil layers (cm2/s)

 

J&E9a

In Equation J&E9a, the following condition must be satisfied:

J&E9b

 

Source to building separation (cm)

 

J&E10

Effective diffusion coefficient for each soil layer (cm2/s)

 

J&E11

 

Surface area of enclosed space at or below grade (cm2)

 

For a building with a full concrete slab-on-grade

J&E12a

Surface area of enclosed space at or below grade (cm2)

For a building with a full concrete basement floor and walls

J&E12b

Building ventilation rate (cm3/s) 

 

 

J&E13

 

Area of total cracks (cm2)

 

 

J&E14

Effective diffusion coefficient through the cracks (cm2/s)

 

 

 

J&E15

Total porosity

 

J&E16

Water-filled soil porosity

 

J&E17

Air-filled soil porosity

 

J&E18

 

a  This table contains equations based on the assumption that the existing or potential building has a full concrete slab-on-grade or a full concrete basement floor and walls.  This table applies only when the existing or potential building has a full concrete slab-on-grade or a full concrete basement floor and walls.  Institutional controls under Subpart J are required to develop remediation objectives pursuant to this table.  This table does not apply when the existing or potential building has neither a full concrete slab-on-grade nor a full concrete basement floor and walls, such as a building with an earthen crawl space, an earthen floor, a stone foundation, a partial concrete floor, or a sump.  In such cases, site evaluators have the option of excluding the indoor inhalation exposure route under Section 742.312, meeting the building control technology requirements under Subpart L, or proposing an alternative approach under Tier 3.

 

(Source:  Added at 37 Ill. Reg. 7506, effective May 15, 2013)

 

Section 742.APPENDIX C   Tier 2 Tables

 

Section 742.TABLE M   J&E Parameters

 

     Symbol

Parameter

Units

Source

Tier 1 or Calculated Value

AB

Surface area of enclosed space at or below grade

cm2

Equation J&E 12a or 12b, Appendix C, Table L

Residential = 1 x 106

Industrial/Commercial = 4.0 x 106

Acrack

Area of total cracks

cm2

Equation J&E 14, Appendix C, Table L

Calculated Value

ATc

Averaging time for carcinogens

year

SSL, May 1996

70

ATnc

Averaging time for noncarcinogens

year

ATnc = ED

Residential = 30

Industrial/Commercial = 25

Cvsat

Soil vapor saturation limit

mg/m3-air

Equation J&E 5, Appendix C, Table L

Chemical-Specific or Calculated Value

Dcrackeff

Effective diffusion coefficient through the cracks

cm2/s

Equation J&E 15, Appendix C, Table L

Calculated Value

Di

Diffusivity in air

cm2/s

Appendix C, Table E

Chemical-Specific

Dieff

Effective diffusion coefficient for each soil layer

cm2/s

Equation J&E 11, Appendix C, Table L

Calculated Value

Dsource

Distance from ground surface to top of contamination

cm

Field Measurement

Soil Gas Contamination = 152.4

Groundwater Contamination = 304.8  Site-Specific

DTeff

Total overall effective diffusion coefficient

cm2/s

Equation J&E 9a, Appendix C, Table L

Calculated Value

Dw

Diffusivity in water

cm2/s

Appendix C, Table E

Chemical-Specific

ED

Exposure duration

year

Residential:  SSL, May 1996

Industrial/Commercial: SSL 2002

Residential = 30 Industrial/Commercial = 25

EF

Exposure frequency

 

day/year

Residential:  SSL, May 1996

Industrial/Commercial:  SSL 2002

Residential = 350 Industrial/ Commercial = 250

ER

Air exchange rate

exchanges per hour

Illinois EPA

Residential = 0.53 Industrial/ Commercial = 0.93

foc

Fraction organic carbon content

g/g

SSL, May 1996, or Field Measurement

Appendix C, Table F

0.002 or Site-Specific

HB

Height of building

cm

Illinois EPA

Slab-on-Grade Residential = 244 Industrial/ Commercial = 305 or Site-Specific in Tier 3 Basement Residential = 427 Industrial/ Commercial = 488 or Site-Specific in Tier 3

H'TS

Dimensionless Henry's law constant at the system (soil) temperature 13˚C

unitless

Appendix C, Table E

Chemical-Specific

LB

Length of building

cm

Illinois EPA

Residential = 1000 Industrial/Commercial = 2000 or Site-Specific in Tier 3

Lcrack

Slab thickness

cm

USEPA, Users Guide, 2004

10

LF

Distance from ground surface to bottom of slab

cm

USEPA, Users Guide, 2004

10 (slab on grade) 200 (basement)

Li

Thickness of soil layer i

cm

Field Measurement for Capillary Fringe, USEPA, 2004

Site-Specific

For Capillary Fringe, 37.5 cm

LT

Distance from bottom of slab to top of contamination

cm

Field Measurement or Equation J&E 10, Appendix C, Table L

142.4 or Site-Specific

MW

Molecular weight

g/mole

Illinois EPA

Chemical-Specific

n

Total number of layers of different types of soil vapors migrate through from source to building

(if source is groundwater, include a capillary fringe layer of 37.5 cm as one of the layers)

unitless

Field Measurement

Site-Specific

P

Vapor Pressure

atm

Appendix C, Table E

Chemical-Specific

Qbldg

Building ventilation rate

cm3/s

Equation J&E 13, Appendix C, Table L

Slab-on-Grade

Residential = 3.59 x 104

Industrial/ Commercial = 3.15 x 105

or Site-Specific in Tier 3

 

Basement

Residential = 6.28 x 104

Industrial/Commercial = 5.04 x 105

or Site-Specific in Tier 3

Qsoil

Volumetric flow rate of soil gas into the enclosed space

cm3/s

USEPA, Users Guide for Evaluating Subsurface Vapor Intrusion into Buildings, 2004

If LT is less than 5 feet (152 cm),

Qsoil equals 83.33.

 

If LT is 5 feet (152 cm) or greater, Qsoil equals zero.

 

An input value of zero requires an institutional control. See Section 742.505(b) and (c).

R

Ideal gas constant

atm-L/mol-K

USEPA, Users Guide, 2004

0.08206

RfC

Reference concentration

µg/m3

Illinois EPA:  http://www.epa.state.il.us/land/taco/toxicity-values.xls

Toxicological-Specific

ROgw

Groundwater remediation objective

mg/L

Appendix B, Table E, or Equation J&E 6, Appendix C, Table L

Chemical-Specific or Calculated Value

ROindoor-air

Indoor air remediation objective

mg/m3

Equations J&E 1 and 2, Appendix C, Table L

Calculated Value

ROsoilgas

Soil gas remediation objective

mg/m3

Equation J&E 4, Appendix C, Table L

Calculated Value

S

Solubility in water

mg/L

Appendix C, Table E

Chemical-Specific

T

Temperature

°K

USEPA, Users Guide, 2004

286 (converted from 13oC)

THQ

Target hazard quotient for a chemical

unitless

SSL, May 1996

1

TR

Target risk or the increased chance of developing cancer over a lifetime due to exposure to a chemical

unitless

SSL, May 1996

Residential = 10-6 at the point of human exposure

Industrial/Commercial = 10-6 at the point of human exposure

URF

Unit risk factor

(µg/m3)-1

Illinois EPA:  http://www.epa.state.il.us/land/taco/toxicity-values.xls

Toxicological- Specific

w

Floor-wall seam gap

cm

USEPA, Users Guide, 2004

0.1

W

Moisture content

g of water/g of soil

Field Measurement, Appendix C, Table F

Site-Specific

WB

Width of building

cm

Illinois EPA

Residential = 1000

Industrial/ Commercial = 2000

or Site-Specific in Tier 3

α

Attenuation factor

unitless

Equations J&E 7 or 8, Appendix C, Table L

Site-Specific

θa

Air-filled soil porosity

cm3/cm3

SSL, May 1996 or

Equation J&E 18, Appendix C, Table L

0.28 or Calculated Value

θa,crack

Air-filled porosity for soil in cracks

cm3/cm3

SSL, May 1996 or

Equation J&E 18, Appendix C, Table L

0.13

θa,i

Air-filled porosity of soil layer i

cm3/cm3

SSL, May 1996 or

Equation J&E 18, Appendix C, Table L

0.13 or Calculated Value

For capillary fringe, θa,i = 0.1 θT,i

θT,crack

Total porosity for soil in cracks

cm3/cm3

SSL, May 1996 or

Equation J&E 16, Appendix C, Table L

0.43

θT,i

Total porosity of soil layer i

cm3/cm3

SSL, May 1996 or

Equation J&E 16, Appendix C, Table L

0.43 or Calculated Value

θw

Water-filled soil porosity

cm3/cm3

SSL, May 1996 or

Equation J&E 17, Appendix C, Table L

0.15 or Calculated Value

θw,crack

Water-filled porosity for soil in cracks

cm3/cm3

SSL, May 1996 or

Equation J&E 17, Appendix C, Table L

0.15

θw,i

Water-filled porosity of soil layer i

cm3/cm3

SSL, May 1996 or

Equation J&E 17, Appendix C, Table L

For capillary fringe, US EPA, Users Guide 2004

0.15 or Calculated Value

For capillary fringe = 0.375 or 0.9 qT,i

θb

Dry soil bulk density

g/cm3

SSL, May 1996 or

Field Measurement, Appendix C, Table F

1.5 or Calculated Value

θs,i

Soil particle density

g/cm3

SSL, May 1996 or

Field Measurement, Appendix C, Table F

2.65 or Calculated Value

θw

Density of water

g/cm3

Illinois EPA

1

 

(Source:  Added at 37 Ill. Reg. 7506, effective May 15, 2013)



Section 742.APPENDIX D   Highway Authority Agreement

 

Highway Authority Agreement

 

This Agreement is entered into this

 

day of

 

, 200

 

pursuant

to 35 Ill. Adm. Code 742.1020 by and between the (1)

("Property Owner")

[or, in the case of a petroleum leaking underground storage tank, the owner/operator of the tank

("Owner/Operator")] and  (2)

Name of Entity in Control of the Right-of-Way

("Highway Authority"), collectively known as the "Parties."

 

[Use this paragraph for sites with petroleum leaking underground storage tank(s)]

WHEREAS,

 

is the owner or operator of one or more leaking

underground storage tanks presently or formerly located at

common address or

 

description of Site location

("the Site");

 

[Use this paragraph for sites that do not have petroleum leaking underground storage

tanks] WHEREAS,

 

is the owner of the property

located at

common address or description of Site location

("the Site");

 

WHEREAS, as a result of one or more releases of contaminants [insert either "from the above referenced underground storage tanks" or "at the above referenced Site"] ("the Release(s)"), soil and/or groundwater contamination at the Site exceeds the Tier 1 residential remediation objectives of 35 Ill. Adm. Code 742;

 

WHEREAS, the soil and/or groundwater contamination exceeding Tier 1 residential remediation objectives extends or may extend into the Highway Authority's right-of-way;

 

WHEREAS, the Owner/Operator or Property Owner is conducting corrective action in response to the Release(s);

 

WHEREAS, the Parties desire to prevent groundwater beneath the Highway Authority's right-of-way that exceeds Tier 1 remediation objectives from use as a supply of potable or domestic water and to limit access to soil within the right-of-way that exceeds Tier 1 residential remediation objectives so that human health and the environment are protected during and after any access;

 

NOW, THEREFORE, the Parties agree as follows:

 

1.         The recitals set forth above are incorporated by reference as if fully set forth herein.

 

2.

[Use this paragraph if IEMA has issued an incident number]  The Illinois

 

Emergency Management Agency has assigned incident number(s)

 

to the

 

Release(s).

 

3.

Attached as Exhibit A is a scaled map(s) prepared by

[the Owner/Operator

 

or Property Owner]

that shows the Site and surrounding area and

 

 

delineates the current and estimated future extent of soil and groundwater contamination above the applicable Tier 1 residential remediation objectives as a result of the Release(s).  [Use the following sentence if either soil or groundwater is not contaminated above applicable Tier 1 residential remediation objectives:  [Soil] [Groundwater] is not contaminated above the applicable Tier 1 residential remediation objectives.]

 

 

4.

Attached as Exhibit B is a table(s) prepared by

[the Owner/Operator

 

 

or Property Owner]

that lists each contaminant of concern

 

that exceeds its Tier 1 residential remediation objective, its Tier 1 residential remediation objective and its concentrations within the zone where Tier 1 residential remediation objectives are exceeded.  The locations of the concentrations listed in Exhibit B are identified on the map(s) in Exhibit A.

 

5.

Attached as Exhibit C is a scaled map prepared by

[the Owner/Operator

 

 

or Property Owner]

showing the area of the Highway Authority's

 

right-of-way that is governed by this agreement ("Right-of-Way").  Because Exhibit C is not a surveyed plat, the Right-of-Way boundary may be an approximation of the actual Right-of-Way lines.

 

6.         [Use this paragraph if samples have not been collected within the Right-of-Way, sampling within the Right-of-Way is not practical, and contamination does not extend beyond the Right-of-Way.]  Because the collection of samples within the Right-of-Way is not practical, the Parties stipulate that, based on modeling, soil and groundwater contamination exceeding Tier 1 residential remediation objectives does not and will not extend beyond the boundaries of the Right-of-Way.

 

7.         The Highway Authority stipulates it has jurisdiction over the Right-of-Way that gives it sole control over the use of the groundwater and access to the soil located within or beneath the Right-of-Way.

 

8.         The Highway Authority agrees to prohibit within the Right-of-Way all potable and domestic uses of groundwater exceeding Tier 1 residential remediation objectives.

 

9.         The Highway Authority further agrees to limit access by itself and others to soil within the Right-of-Way exceeding Tier 1 residential remediation objectives.  Access shall be allowed only if human health (including worker safety) and the environment are protected during and after any access. The Highway Authority may construct, reconstruct, improve, repair, maintain and operate a highway upon the Right-of-Way, or allow others to do the same by permit.  In addition, the Highway Authority and others using or working in the Right-of-Way under permit have the right to remove soil or groundwater from the Right-of-Way and dispose of the same in accordance with applicable environmental laws and regulations.  The Highway Authority agrees to issue all permits for work in the Right-of-Way, and make all existing permits for work in the Right-of-Way, subject to the following or a substantially similar condition:

 

As a condition of this permit, the permittee shall request the office issuing this permit to identify sites in the Right-of-Way where a Highway Authority Agreement governs access to soil that exceeds the Tier 1 residential remediation objectives of 35 Ill. Adm. Code 742.  The permittee shall take all measures necessary to protect human health (including worker safety) and the environment during and after any access to such soil.

 

10.       This agreement shall be referenced in the Agency's no further remediation determination issued for the Release(s). 

 

11.       The Agency shall be notified of any transfer of jurisdiction over the Right-of-Way at least 30 days prior to the date the transfer takes effect.  This agreement shall be null and void upon the transfer unless the transferee agrees to be bound by this agreement as if the transferee were an original party to this agreement.  The transferee's agreement to be bound by the terms of this agreement shall be memorialized at the time of transfer in a writing ("Rider") that references this Highway Authority Agreement and is signed by the Highway Authority, or subsequent transferor, and the transferee. 

 

12.       This agreement shall become effective on the date the Agency issues a no further remediation determination for the Release(s).  It shall remain effective until the Right-of-Way is demonstrated to be suitable for unrestricted use and the Agency issues a new no further remediation determination to reflect there is no longer a need for this agreement, or until the agreement is otherwise terminated or voided.

 

13.       In addition to any other remedies that may be available, the Agency may bring suit to enforce the terms of this agreement or may, in its sole discretion, declare this agreement null and void if any of the Parties or any transferee violates any term of this agreement.  The Parties or transferee shall be notified in writing of any such declaration.

 

14.       This agreement shall be null and void if a court of competent jurisdiction strikes down any part or provision of the agreement.

 

15.       This agreement supersedes any prior written or oral agreements or understandings between the Parties on the subject matter addressed herein.  It may be altered, modified or amended only upon the written consent and agreement of the Parties.

 

16.       Any notices or other correspondence regarding this agreement shall be sent to the Parties at following addresses:

 

Manager, Division of Remediation Management

 

Property Owner or Owner/Operator

Bureau of Land

 

[Address]

Illinois Environmental Protection Agency

 

 

P.O. Box 19276

 

 

Springfield, IL  62974-9276

 

 

 

[Contact at Highway Authority]

 

 

 

[Address]

 

 

 

 

 

 

 

 

 

 

 

 

 

IN WITNESS WHEREOF, the Parties have caused this agreement to be signed by their duly authorized representatives.

 

 

[NAME OF LOCAL GOVERNMENT]

Date:

 

 

By:

 

 

Its:

 

 

 

 

 

Property Owner or Owner/Operator

Date:

 

 

By:

 

 

 

Title

 

(Source:  Added at 31 Ill. Reg. 4063, effective February 23, 2007)


Section 742.APPENDIX E   Highway Authority Agreement Memorandum of Agreement

 

Highway Authority Agreement Memorandum of Agreement

 

This Memorandum of Agreement is entered by and between the Illinois Environmental

Protection Agency ("Agency") and

Name of Local Government

("Highway Authority"), collectively known as the "Parties."

 

[Use this paragraph for sites with petroleum leaking underground storage tank(s)]  WHEREAS, the Highway Authority is the owner or operator of one or more leaking

underground storage tanks presently or formerly located at

common address or

 

description of Site location

("the Site");

 

[Use this paragraph for sites where the highway authority is also the property owner)] 

WHEREAS, the Highway Authority is the owner of the property located at

common

 

address or description of Site location

("the Site");

 

WHEREAS, as a result of one or more releases of contaminants [insert either "from the above referenced underground storage tanks" or "at the above referenced Site"] ("the Release(s)"), soil and/or groundwater contamination at the Site exceeds the Tier 1 residential remediation objectives of 35 Ill. Adm. Code 742;

 

WHEREAS, the soil and/or groundwater contamination exceeding Tier 1 residential remediation objectives extends or may extend into the Highway Authority's right-of-way adjacent to the Site;

 

WHEREAS, the Highway Authority is conducting corrective action in response to the Release(s);

 

WHEREAS, the Parties desire to prevent groundwater beneath the Highway Authority's right-of-way that exceeds Tier 1 residential remediation objectives from use as a supply of potable or domestic water and to limit access to soil within the right-of-way that exceeds Tier 1 residential remediation objectives so that human health and the environment are protected during and after any access;

 

NOW, THEREFORE, the Parties agree as follows:

 

1.         The recitals set forth above are incorporated by reference as if fully set forth herein.

 

2.         [Use this paragraph if IEMA has issued an incident number]  The Illinois Emergency Management Agency has assigned incident number(s) to the Release(s). 

 

3.         Attached as Exhibit A is a scaled map(s) prepared by the Highway Authority that shows the Site and surrounding area and delineates the current and estimated future extent of soil and groundwater contamination above the applicable Tier 1 residential remediation objectives as a result of the Release(s).  [Use the following sentence if either soil or groundwater is not contaminated above applicable Tier 1 residential remediation objectives:  [Soil] [Groundwater] is not contaminated above the applicable Tier 1 residential remediation objectives.]

 

4.         Attached as Exhibit B is a table(s) prepared by the Highway Authority that lists each contaminant of concern that exceeds its Tier 1 residential remediation objective, its Tier 1 residential remediation objective and its concentrations within the zone where Tier 1 residential remediation objectives are exceeded.  The locations of the concentrations listed in Exhibit B are identified on the map(s) in Exhibit A.

 

5.         Attached as Exhibit C is a scaled map prepared by the Highway Authority showing the area of the Highway Authority's right-of-way that is governed by this agreement ("Right-of-Way").  Because Exhibit C is not a surveyed plat, the Right-of-Way boundary may be an approximation of the actual Right-of-Way lines.

 

6.         [Use this paragraph if samples have not been collected within the Right-of-Way, sampling within the Right-of-Way is not practical, and contamination does not extend beyond the Right-of-Way].  Because the collection of samples within the Right-of-Way is not practical, the Parties stipulate that, based on modeling, soil and groundwater contamination exceeding Tier 1 residential remediation objectives does not and will not extend beyond the boundaries of the Right-of-Way.

 

7.         The Highway Authority stipulates it has jurisdiction over the Right-of-Way that gives it sole control over the use of the groundwater and access to the soil located within or beneath the Right-of-Way.

 

8.         The Highway Authority agrees to prohibit within the Right-of-Way all potable and domestic uses of groundwater exceeding Tier 1 residential remediation objectives.

 

9.         The Highway Authority further agrees to limit access by itself and others to soil within the Right-of-Way exceeding Tier 1 residential remediation objectives.  Access shall be allowed only if human health (including worker safety) and the environment are protected during and after any access. The Highway Authority may construct, reconstruct, improve, repair, maintain and operate a highway upon the Right-of-Way, or allow others to do the same by permit.  In addition, the Highway Authority and others using or working in the Right-of-Way under permit have the right to remove soil or groundwater from the Right-of-Way and dispose of the same in accordance with applicable environmental laws and regulations.  The Highway Authority agrees to issue all permits for work in the Right-of-Way, and make all existing permits for work in the Right-of-Way, subject to the following or a substantially similar condition:

 

As a condition of this permit the permittee shall request the office issuing this permit to identify sites in the Right-of-Way where a Highway Authority Memorandum of Agreement governs access to soil that exceeds the Tier 1 residential remediation objectives of 35 Ill. Adm. Code 742.  The permittee shall take all measures necessary to protect human health (including worker safety) and the environment during and after any access to such soil.

 

10.       This agreement shall be referenced in the Agency's no further remediation determination issued for the Release(s). 

 

11.       The Agency shall be notified of any transfer of jurisdiction over the Right-of-Way at least 30 days prior to the date the transfer takes effect.  This agreement shall be null and void upon the transfer unless the transferee agrees to be bound by this agreement as if the transferee were an original party to this agreement.  The transferee's agreement to be bound by the terms of this agreement shall be memorialized at the time of transfer in a writing ("Rider") that references this Highway Authority Memorandum of Agreement and is signed by the Highway Authority, or subsequent transferor, and the transferee. 

 

12.       This agreement shall become effective on the date the Agency issues a no further remediation determination for the Release(s).  It shall remain effective until the Right-of-Way is demonstrated to be suitable for unrestricted use and the Agency issues a new no further remediation determination to reflect there is no longer a need for this agreement, or until the agreement is otherwise terminated or voided.

 

13.       In addition to any other remedies that may be available, the Agency may bring suit to enforce the terms of this agreement or may, in its sole discretion, declare this agreement null and void if the Highway Authority or a transferee violates any term of this agreement.  The Highway Authority or transferee shall be notified in writing of any such declaration.

 

14.       This agreement shall be null and void if a court of competent jurisdiction strikes down any part or provision of the agreement.

 

15.       This agreement supersedes any prior written or oral agreements or understandings between the Parties on the subject matter addressed herein.  It may be altered, modified or amended only upon the written consent and agreement of the Parties.

 

16.       Any notices or other correspondence regarding this agreement shall be sent to the Parties at following addresses:

 

 

Manager, Division of Remediation Management

 

 

Bureau of Land

 

 

Illinois Environmental Protection Agency

 

 

P.O. Box 19276

 

 

Springfield, IL  62974-9276

 

 

 

[Contact at Highway Authority]

 

 

 

[Address]

 

 

 

 

 

 

 

 

 

 

 

 

IN WITNESS WHEREOF, the Parties have caused this agreement to be signed by their duly authorized representatives.

 

 

[NAME OF LOCAL GOVERNMENT]

Date:

 

 

By:

 

 

Its:

 

 

 

 

 

ILLINOIS ENVIRONMENTAL PROTECTION AGENCY

Date:

 

 

By:

 

 

 

Director

 

(Source:  Added at 31 Ill. Reg. 4063, effective February 23, 2007)

 

Section 742.APPENDIX F   Environmental Land Use Control

 

PREPARED BY:

 

Name:

 

 

 

Address:

 

 

 

 

 

 

 

RETURN TO:

 

Name:

 

 

 

Address:

 

 

 

 

 

 

THE ABOVE SPACE FOR RECORDER'S OFFICE

 

Model Environmental Land Use Control

 

THIS ENVIRONMENTAL LAND USE CONTROL ("ELUC"), is made this

 

day of

 

, 20

 

by

 

, ("Property Owner") of the real

property located at the common address

 

("Property").

 

WHEREAS, 415 ILCS 5/58.17 and 35 Ill. Adm. Code 742 provide for the use of an ELUC as an institutional control in order to impose land use limitations or requirements related to environmental contamination so that persons conducting remediation can obtain a No Further Remediation determination from the Illinois Environmental Protection Agency ("IEPA").  The reason for an ELUC is to ensure protection of human health and the environment.  The limitations and requirements contained herein are necessary in order to protect against exposure to contaminated soil, groundwater, or soil gas that may be present on the property as a result of [VARIABLE] activities.  Under 35 Ill. Adm. Code 742, the use of risk-based, site-specific remediation objectives may require the use of an ELUC on real property, and the ELUC may apply to certain physical features (e.g., engineered barriers, indoor inhalation building control technologies, monitoring wells, caps, etc.).  

 

WHEREAS,

[the party performing remediation]

intends to

request risk-based, site specific soil, groundwater, or soil gas remediation objectives from IEPA under 35 Ill. Adm. Code 742 to obtain risk-based closure of the site, identified by Bureau of Land

 

[10-digit LPC or Identification number]

, utilizing an ELUC.

 

NOW, THEREFORE, the recitals set forth above are incorporated by reference as if fully set forth herein, and the Property Owner agrees as follows:

 

Date:

 

By:

 

 

 

 

Director

 

Section One.  Property Owner does hereby establish an ELUC on the real estate, situated

in the County of

 

, State of Illinois and further described in Exhibit A

attached hereto and incorporated herein by reference (the "Property").

 

Attached as Exhibit B are site maps that show the legal boundary of the Property, any physical features to which the ELUC applies, the horizontal and vertical extent of the contaminants of concern above the applicable remediation objectives for soil, groundwater, or soil gas and the nature, location of the source, and direction of movement of the contaminants of concern, as required under 35 Ill. Adm. Code 742.

 

Section Two.  Property Owner represents and warrants he/she is the current owner of the

Property and has the authority to record this ELUC on the chain of title for the Property with the

Office of the Recorder or Registrar of Titles in

 

County, Illinois.

 

Section Three.  The Property Owner hereby agrees, for himself/herself, and his/her heirs, grantees, successors, assigns, transferees and any other owner, occupant, lessee, possessor or user of the Property or the holder of any portion thereof or interest therein, that [INSERT RESTRICTION (e.g., the groundwater under the Property shall not be used as a potable supply of water, and any contaminated groundwater or soil that is removed, excavated, or disturbed from the Property described in Exhibit A herein must be handled in accordance with all applicable laws and regulations)].

 

Section Four.  This ELUC is binding on the Property Owner, his/her heirs, grantees, successors, assigns, transferees and any other owner, occupant, lessee, possessor or user of the Property or the holder of any portion thereof or interest therein.  This ELUC shall apply in perpetuity against the Property and shall not be released until the IEPA determines there is no longer a need for this ELUC as an institutional control; until the IEPA, upon written request, issues to the site that received the no further remediation determination a new no further remediation determination approving modification or removal of the limitation(s) or requirement(s); the new no further remediation determination is filed on the chain of title of the site subject to the no further remediation determination; and until a release or modification of the land use limitation or requirement is filed on the chain of title for the Property.

 

Section Five.  Information regarding the remediation performed on the Property may be obtained from the IEPA through a request under the Freedom of Information Act [5 ILCS 140] and rules promulgated thereunder by providing the IEPA with the 10-digit LPC or identification number listed above.

 

Section Six.  The effective date of this ELUC shall be the date that it is officially recorded in the chain of title for the Property to which the ELUC applies.

 

 

WITNESS the following signatures:

 

Property Owner(s)

 

By:

 

Its:

 

Date:

 

 

 

STATE OF ILLINOIS

)

 

 

 

) SS:

 

COUNTY OF

 

)

 

 

I,

 

the undersigned, a Notary Public for said County

and State, DO HEREBY CERTIFY, that

 

and

 

,

personally known to me to be the Property Owner(s) of

 

, and

personally known to me to be the same persons whose names are subscribed to the foregoing instrument, appeared before me this day in person and severally acknowledged that in said capacities they signed and delivered the said instrument as their free and voluntary act for the uses and purposes therein set forth.

 

Given under my hand and official seal, this

 

day of

 

, 20

 

.

 

 

 

Notary Public

 

 

 

 

STATE OF ILLINOIS

)

 

 

 

) SS:

 

COUNTY OF

 

)

 

 

I,

 

a notary public, do hereby certify that before me

this day in person appeared

 

, personally known to me to be the

Property Owner(s) of

 

, each severally acknowledged

that they signed and delivered the foregoing instrument as the Property Owner(s) herein set forth, and as their own free and voluntary act, for the uses and purposes herein set forth.

 

Given under my hand and official seal, this

 

day of

 

, 20

 

.

 

 

 

Notary Public


PIN NO. XX-XX-XXX-XXX-XXXX

 

(Parcel Index Number)

 

Exhibit A

 

The subject property is located in the City of

 

,

 

County, State of

Illinois, commonly known as

 

,

 

, Illinois

and more particularly described as:

LIST THE COMMON ADDRESS;

LEGAL DESCRIPTION; AND

REAL ESTATE TAX INDEX OR PARCEL #

(PURSUANT TO SECTION 742.1010(d)(2))

 


PIN NO. XX-XX-XXX-XXX-XXXX

 

Exhibit B

 

IN ACCORDANCE WITH SECTION 742.1010(d)(8)(A) through (D), PROVIDE ALL THE FOLLOWING ELEMENTS.  ATTACH SEPARATE SHEETS, LABELED AS EXHIBIT B, WHERE NECESSARY.

 

(A)       A scaled map showing the legal boundary of the property to which the ELUC applies.

 

(B)       Scaled maps showing the horizontal and vertical extent of contaminants of concern above the applicable remediation objectives for soil, groundwater, and soil gas to which the ELUC applies.

 

(C)       Scaled maps showing the physical features to which an ELUC applies (e.g., engineered barriers, indoor inhalation building control technologies, monitoring wells, caps, etc.).

 

(D)       Scaled maps showing the nature, location of the source, and direction of movement of the contaminants of concern.

 

(Source:  Amended at 37 Ill. Reg. 7506, effective May 15, 2013)


Section 742.APPENDIX G   Model Ordinance

 

ORDINANCE NUMBER

 

 

AN ORDINANCE PROHIBITING THE USE OF GROUNDWATER AS A POTABLE WATER SUPPLY BY THE INSTALLATION OR USE OF POTABLE WATER SUPPLY WELLS OR BY ANY OTHER METHOD

 

WHEREAS, certain properties in the City [Village] of

 

, Illinois

have been used over a period of time for commercial/industrial purposes; and

 

WHEREAS, because of said use, concentrations of certain chemical constituents in the groundwater beneath the City [Village] may exceed Class I groundwater quality standards for potable resource groundwater as set forth in 35 Illinois Administrative Code 620 or Tier 1 remediation objectives as set forth in 35 Illinois Administrative Code 742; and

 

WHEREAS, the City [Village] of

 

desires to limit potential threats to

human health from groundwater contamination while facilitating the redevelopment and productive use of  properties that are the source of said chemical constituents;

 

NOW, THEREFORE, BE IT ORDAINED BY THE CITY COUNCIL OF THE CITY

[VILLAGE] OF

 

, ILLINOIS:

 

Section One.  Use of groundwater as a potable water supply prohibited. 

 

[Except for such uses or methods in existence before the effective date of this ordinance,] The use or attempt to use as a potable water supply groundwater from

within the corporate limits of the City [Village] of

 

, as a

potable water supply, by the installation or drilling of wells or by any other method is hereby prohibited.  This prohibition [expressly includes] [does not

include] the City [Village] of

 

.

 

Section Two.  Penalties.

 

Any person violating the provisions of this ordinance shall be subject to a fine of

up to

 

for each violation.

 

Section Three.  Definitions.

 

"Person" is any individual, partnership, co-partnership, firm, company, limited liability company, corporation, association, joint stock company, trust, estate, political subdivision, or any other legal entity, or their legal representatives, agents or assigns.

 

"Potable water" is any water used for human or domestic consumption, including, but not limited to, water used for drinking, bathing, swimming, washing dishes, or preparing foods.

 

Section Four.  Memorandum of Understanding.

 

[This Section is only necessary if ordinance does not expressly prohibit installation of potable water supply wells by the city or village − could be separate resolution]

 

The Mayor of the City [Village] of

 

is hereby

authorized and directed to enter into a Memorandum of Understanding with the Illinois Environmental Protection Agency ("Illinois EPA") in which the City

[Village] of

 

assumes responsibility for tracking all

sites that have received no further remediation determinations from the Illinois EPA, notifying the Illinois EPA of changes to this ordinance, and taking certain precautions when siting public potable water supply wells.

 

Section Five.  Repealer.

 

All ordinances or parts of ordinances in conflict with this ordinance are hereby repealed insofar as they are in conflict with this ordinance.

 

Section Six.  Severability.

 

If any provision of this ordinance or its application to any person or under any circumstances is adjudged invalid, such adjudication shall not affect the validity of the ordinance as a whole or of any portion not adjudged invalid.

 

Section Seven.  Effective date.

 

This ordinance shall be in full force and effect from and after its passage, approval and publication as required by law.

 

 

ADOPTED:

 

 

APPROVED:

 

 

(Date)

 

 

(Date)

 

 

 

(City Clerk)

 

(Mayor)

Officially published this

 

day of

 

, 20

 

.

 

(Source:  Added at 31 Ill. Reg. 4063, effective February 23, 2007)


Section 742.APPENDIX H   Memorandum of Understanding

 

MEMORANDUM OF UNDERSTANDING BETWEEN

 

AND THE ILLINOIS ENVIRONMENTAL PROTECTION AGENCY REGARDING THE USE OF A LOCAL GROUNDWATER OR WATER WELL ORDINANCE AS AN ENVIRONMENTAL INSTITUTIONAL CONTROL

 

 

I.          PURPOSE AND INTENT

 

A.

This Memorandum of Understanding ("MOU") between

 

 

 

and the Illinois Environmental Protection Agency ("Illinois EPA") is entered into for the purpose of satisfying the requirements of 35 Ill. Adm. Code 742.1015 for the use of groundwater or water well ordinances as environmental institutional controls.  The Illinois EPA has reviewed the groundwater or water well ordinance of

 

 

(Attachment A) and determined that the ordinance prohibits

 

the use of groundwater for potable purposes and/or the installation and use of new potable water supply wells by private entities but does not expressly prohibit those activities by the unit of local government itself.  In such cases, 35 Ill. Adm. Code 742.1015(a) provides that the unit of local government may enter into an MOU with the Illinois EPA to allow the use of the ordinance as an institutional control.

 

B.        The intent of this Memorandum of Understanding is to specify the responsibilities that must be assumed by the unit of local government to satisfy the requirements for MOUs as set forth at 35 Ill. Adm. Code 742.1015(i).

 

 

II.        DECLARATIONS AND ASSUMPTION OF RESPONSIBILITY

 

In order to ensure the long-term integrity of the groundwater or water well ordinance as an environmental institutional control and that risk to human health and the environment from contamination left in place in reliance on the groundwater or water well ordinance is effectively

managed,

 

hereby assumes the following responsibilities

pursuant to 35 Ill. Adm. Code 742.1015(d)(2) and (i):

 

A.

 

will notify the Illinois EPA Bureau of Land of any

 

 

proposed ordinance changes or requests for variance at least 30 days prior to the date the local government is scheduled to take action on the proposed change or request (35 Ill. Adm. Code 742.1015(i)(4));

 

B.

 

will maintain a registry of all sites within its corporate

 

limits that have received "No Further Remediation" determinations in reliance on the ordinance from the Illinois EPA (35 Ill. Adm. Code 742.1015(i)(5));

 

C.

 

will review the registry of sites established under

 

paragraph II. B. prior to siting public potable water supply wells within the area covered by the ordinance (35 Ill. Adm. Code 742.1015(i)(6)(A));

 

D.

 

will determine whether the potential source of potable

 

water has been or may be affected by contamination left in place at the sites tracked and reviewed under paragraphs II. B. and C. (35 Ill. Adm. Code 742.1015(i)(6)(B)); and

 

E.

 

will take action as necessary to ensure that the potential

 

source of potable water is protected from contamination or treated before it is used as a potable water supply (35 Ill. Adm. Code 742.1015(i)(6)(C)).

 

NOTE:  Notification under paragraph II. A. above or other communications concerning this MOU should be directed to:

 

Manager, Division of Remediation Management

Bureau of Land

Illinois Environmental Protection Agency

P.O. Box 19276

Springfield, IL 62794-9276

 

 

III.       SUPPORTING DOCUMENTATION

 

The following documentation is required by 35 Ill. Adm. Code 742.1015(i) and is attached to this MOU:

 

A.        Attachment A: A copy of the groundwater or water well ordinance certified by the city clerk or other official as the current, controlling law (35 Ill. Adm. Code 742.1015(i)(3));

 

B.        Attachment B: Identification of the legal boundaries within which the ordinance is applicable (certification by city clerk or other official that the ordinance is applicable everywhere within the corporate limits; if ordinance is not applicable throughout the entire city or village, legal description and map of area showing sufficient detail to determine where ordinance is applicable) (35 Ill. Adm. Code 742.1015(i)(2));

 

C.        Attachment C: A statement of the authority of the unit of local government to enter into the MOU (council resolution, code of ordinances, inherent powers of mayor or other official signing MOU − attach copies) (35 Ill. Adm. Code 742.1015(i)(1)).

 

 

IN WITNESS WHEREOF, the lawful representatives of the parties have caused this MOU to be signed as follows:

 

 

 

FOR:

 

 

 

 

 

(Name of city or village)

 

 

 

BY:

 

 

DATE:

 

(Name and title of signatory)

 

 

 

FOR:

Illinois Environmental Protection Agency

 

 

 

 

 

 

BY:

 

DATE:

 

 

Manager, Division of Remediation Management

Bureau of Land

 

 

(Source:  Added at 31 Ill. Reg. 4063, effective February 23, 2007)