ILLINOIS POLLUTION CONTROL BOARD
October 20,
1994
IN THE MATTER OF:
)
R94—17
RCRA UPDATE, USEPA REGULATIONS
)
(Identical in Substance Rules)
(1—1—94 THROUGH 6—30—94)
)
Adopted Rule.
Final Order.
ORDER OF THE BOARD
(by E. Dunham):
Pursuant to Section 22.4(a)
of the Environmental Protection
Act
(Act), the Board adopts amendments to the RCRA hazardous
waste
(RCRA) regulations.
Section 22.4(a) provides for quick adoption of regulations
that are “identical
in substance” to federal regulations adopted
by U.S. EPA to implement Sections 3001 through 3005 of the
Resource Conservation and Recovery Act of 1976
(RCRA,
42 U.S.C.
§S 6921—6925)
and that Title VII of the Act and Section
5 of the
Administrative Procedure Act
(APA)
shall not apply.
Because this
rulemaking is not subject to Section 5 of the APA,
it is not
subject to first notice or to second notice review by the Joint
Committee on Administrative Rules
(JCAR).
The federal
RCRA
Subtitle C regulations are found at 40 CFR 260 through 268,
270
through 271,
and, more recently,
279.
This order is supported by an opinion adopted on the same
day.
The Board will file the adopted amendments 30 days after
the date of
this order.
The complete text of the adopted rules
follows.
IT IS SO ORDERED.
I, Dorothy N. Gunn, Clerk of the Illinois Pollution Control
Board, do hereby certify that the ab ye or er was adopted by the
Board on the
c~°~
day of
____________,
1994, by a vote
of
~—O.
~
M~.
£~
Dorothy N.
çifinn, Clef~k
Illinois Pocflution Control Board
2
TITLE 35:
ENVIRONMENTAL
PROTECTION
SUBTITLE
G:
WASTE
DISPOSAL
CRAPPER
I:
POLLUTION
CONTROL BOARD
SUBCHAPTER
b:
PERMITS
PART
704
UIC PERMIT
PROGRAM
SUBPART A:
GENERAL PROVISIONS
Section
704.101
Content
704.102
Scope of the Permit or Rule Requirement
704.103
Identification of Aquifers
704.104
Exempted Aquifers
704.105
Specific Inclusions
arid Exclusions
704.106
Classification of Injection Wells
704.107
Definitions
SUBPART B:
PROHIBITIONS
Section
704.121
Prohibition of Unauthorized Injection
704.122
Prohibition of Movement of Fluid into USDW
704.123
Identification of USDW and Exempted Aquifers
704.124
Prohibition of Class
IV Wells
SUBPART C:
AUTHORIZATION OF UNDERGROUND INJECTION BY RULE
Section
704.141
Existing Class
I and III Wells
704.142
Existing Class IV Wells, not into USDW (Renumbered)
704.143
Expiration of Authorization
704.144
Requirements
704.145
Existing Class IV Wells
704.146
Class V Wells
704.147
Requiring a
Permit
704.148
Inventory Requirements
704.149
Requiring other Information
704.150
Requirements for Class
I and III Wells authorized by Rule
704.151
RCRA
Interim Status for Class
I Wells
SUBPART D:
APPLICATION FOR
PERMIT
Section
704.161
Application
for
Permit; Authorization by Permit
704.162
Area Permits
704.163
Emergency Permits
704.164
Signatories to Permit Applications
SUBPART B:
PERMIT CONDITIONS
Section
704.181
Additional Conditions
704. 182
Establishing UIC Permit Conditions
704.183
Construction Requirements
704.184
Corrective Action
704.185
Operation Requirements
704.186
Hazardous Waste Requirements
704.187
Monitoring and Reporting
704. 188
Plugging and Abandonment
704.189
Financial Responsibility
704.190
Mechanical Integrity
704.191
Additional Conditions
704.192
Waiver of Requirements by Agency
704.193
Corrective Action
3
SUBPART
F:
REQUIREMENTS FOR WELLS INJECTING HAZARDOUS WASTE
Section
704.201
Applicability
704.202
Authorization
704.203
Requirements
SUBPART
G:
FINANCIAL
RESPONSIBILITY FOR CLASS
I
HAZARDOUS
WASTE
INJECTION
WELLS
Section
704.210
Applicability
704.211
Definitions
704.212
Cost Estimate for Plugging and Abandonment
704.213
Financial Assurance for Plugging and
Abandonment
704.214
Trust Fund
704.215
Surety Bond Guaranteeing Payment
704.216
Surety Bond Guaranteeing Performance
704.217
Letter of Credit
704.218
Plugging
and
Abandonment
Insurance
704.219
Financial Test and Corporate Guarantee
704.220
Multiple Financial Mechanisms
704.221
Financial Mechanism for Multiple Facilities
704.222
Release of
the Owner or
Operator
704.230
Incapacity
704.240
Wording of the Instruments
SUBPART H:
ISSUED PERMITS
Section
704.260
Transfer
704.261
Modification
704.262
Causes for Modification
704.263
Well
Siting
704.264
Minor Modifications
AUTHORITY:
Implementing Sections
13 and 22.4 and authorized by Section
27 of
the Environmental Protection Act
(Ill.
Roy.
Stat.
1987,
oh.
ill 1/2,
parc.
1013,
1022.4 and 1027)1415 ILCS 5/13.
22.4,
and
271.
SOURCE:
Adopted in R81—32, at 47 PCB 95,
at
6 Ill.
Reg.
12479, effective as
rioted in
35 Ill.
Adm. Code 700.106;
amended
in R82-19, at
7 Iii. Reg.
14402,
effective as noted in 35 Ill.
Adni.
Code 700.106; amended in R83-39,
at
55 PCB
319,
at
7 Ill. Reg.
17338,
effective December 19,
1983; amended in R85—23 at
10
Ill.
Reg.
13290, effective July 29,
1986; amended in R87—29 at
12
Iii.
Reg.
6687, effective March 28,
1988;
amended in
R88—2
at
12 Ill. Reg.
13700,
effective August
16,
1988;
amended in R88—17 at 13 Ill.
Reg.
478, effective
December 30,
1988;
amended in R89—2 at Ill. Reg.
3116, effective February 20,
1990; amended in R94—17 at
Ill. Req.
,
effective
SUBPART G:
FINANCIAL RESPONSIBILITY FOR CLASS
I
HAZARDOUS WASTE INJECTION WELLS
Section 704.240
Wording of the Instruments
The Board incorporates by reference 40 CFR 144.70
(198S22j. as amended at
59
Fed. Req.
29959 (June
10.
1994~.
This incorporation includes no future
amendments or editions.
The
Agency will promulgate standarized forms based on
40 CFR 144.70 with such changes in wording as are necessary under Illinois
law.
Any owner or operator required to establish financial assurance under
this Subpart shall do so only upon the standarized forms promulgated by the
Agency.
The Agency may reject any financial assurance document whichthat
is
not submitted on such standardized forms.
4
~BoardOARD
Ne~eO~:
SeeDerived
from
40
CFR
144.70
(1992),
as
amended
at
59
Fed. Req.
29959
(June
10,
1994).-)-
(Source:
Amended at
Ill.
Req.
_________,
effective
TITLE 35:
ENVIRONMENTAL PROTECTION
SUBTITLE G:
WASTE DISPOSAL
CHAPTER
I:
POLLUTION CONTROL BOARD
SUBCHAPTER
C:
HAZARDOUS WASTE OPERATING REQUIREMENTS
PART
720
HAZARDOUS WASTE MANAGEMENT SYSTEM:
GENERAL
SUBPART
A:
GENERAL PROVISIONS
Section
720.101
Purpose,
Scope and Applicability
720.102
Availability of Information; Confidentiality of Information
720.103
Use of Number and Gender
SUBPART
B:
DEFINITIONS
Section
720.110
Definitions
720.111
References
SUBPART C:
RULEMAKING PETITIONS
AND
OTHER PROCEDURES
Section
720
•
120
Rulemaking
720.121
Alternative Equivalent Testing
Methods
720.122
Waste
Deliating
720.130
Procedures for Solid Waste Determinations
720.131
Solid
Waste
Determinations
720.132
Boiler
Determinations
720.133
Procedures
for
Determinations
720.140
Additional
regulation of certain hazardous waste Recycling
Activities
on
a
case-by—case
Basis
720.141
Procedures
for
case—by—case
regulation
of
hazardous
waste
Recycling Activities
72O.Appondix A
Overview of 40 CFR, Subtitle C Regulations
AUTHORITY:
Implementing Section 22.4 and authorized by Section 27 of the
Environmental Protection Act
(Ill. Rov~Stat.
1991,
oh.
111½,
parc.- 1022.4 and
1027
(415 ILCS 5/22.4 and 271+.
SOURCE:
Adopted in R81—22,
43 PCB 427, at
5 Ill. Req.
9781, effective as
noted in
35 Ill. Adm. Code 700.106; amended and codified in R81-22,
45 PCB
317,
at 6 Ill. Req. 4828,
effective as noted in 35 Ill.
Adxn. Code 700.106;
amended in R82—19 at
7 Iii. Reg.
14015, effective October
12,
1983; amended in
R84—9,
53 PCB 131 at 9 Ill. Req.
11819, effective July 24,
1985;
amended in
R85—22 at 10 Xli.
Req. 968, effective January 2,
1986; amended in
R86—1 at 10
Ill. Reg.
13998, effective August 12,
1986;
amended
in R86—19 at
10 Ill. Reg.
20630,
effective December 2,
1986; amended in R86—28 at 11 Ill. Req.
6017,
effective March 24,
1987;
amended in R86—46 at
11 Ill.
Reg.
13435, effective
August 4,
1987; amended in R87—5 at
11 Ill. Req. 19280,
effective November
12,
1987; amended in R87—26 at
12
Ill.
Reg. 2450, effective January 15,
1988;
amended in R87—39 at
12
Ill. Reg.
12999, effective July 29,
1988; amended in
R88—l6 at
13 Ill. Reg.
362, effective December 27,
1988;
amended in R89—1 at
13
Ill.
Rag.
18278, effective November 13,
1989;
amended
in R89—2 at 14
Ill.
Reg.
3075, effective February 20,
1990;
amended in R89—9
at
14 Ill. Req.
6225,
effective April 16,
1990;
amended in R90—10 at 14
Ill. Req.
16450, effective
5
September 25,
1990; amended in R90-17
at
15
Ill.
Reg. 7934, effective May
9,
1991; amended in R90—11 at
15 Ill. Reg.
9323,
effective June 17,
1991; amended
in R91—1 at
15
Ill.
Req.
14446, effective September
30,
1991;
amended in
R9l—
13 at 16 Ill. Reg.
9489,
effective June 9,
1992; amended in
R92—1
at
16 Iii.
Req.
17636,
effective November 6,
1992;
amended in R92-10 at
17 Iii.
Reg.
5625, effective March 26,
1993; amended in R93—4 at
17 Ill.
Req.
20545,
effective November 22,
1993;
amended
in R93—16 at
18
Ill.
Req.
6720,
effective
April 26,
1994; amended in R94-7
at
18 ILl. Req. 12160, effective July 29,
1994;
amended
in R94—17 at
Ill.
Req.
,
effective
SUBPART B:
DEFINITIONS
Section 720.111
References
a)
The following publications are incorporated by reference:
ANSI.
Available from the American National Standards
Institute,
1430 Broadway,
New York,
New
York
10018, +2123—
~354—33O0:
ANSI
831.3 and B31.4.
See
ASME/ANSI
831.3
and B31.4
ACI.
Available from the American Concrete Institute,
Box
19150, Redford Station, Detroit, Michigan
48219:
ACI 318-83:
“Building Code Requirements for
Reinforced Concrete”,
adopted September,
1983.
API.
Available from the American Petroleum Institute,
1220
L Street, N.W., Washington, D.C.
20005, .f2O2-)—~682—8OOO:
“Guide for Inspection of Refinery Equipment,
Chapter
XIII,
Atmospheric and Low Pressure Storage Tanks,”
4th
Edition,
1981, reaffirmed December,
1987.
“Cathodic Protection of Underground Petroleum Storage
Tanks and Piping Systems,”
API Recommended Practice
1632,
Second Edition, December,
1987.
“Installation of Underground Petroleum Storage
Systems,” API Recommended Practice 1615, Fourth
Edition,
November,
1987.
APTI.
Available from the Air and Waste Management
Association, Box 2861,
Pittsburgh, PA
15230,
+412-)---232—
3444:
APTI Course 415:
Control of Gaseous Emissions, U.S.
EPA Publication EPA—450/2—8l—005,
December,
1981.
ASME.
Available from the
American Society of
Mechanical.
Engineers,
345
East
47th
Street,
New
York,
NY
10017,
+212+
~705—7722:
“Chemical Plant and Petroleum Refinery Piping”,
ASME/
ANSI B31.3—1987,
as supplemented by B31..3a—1988 and
B31.3b-1988.
Also available from ANSI.
“Liquid Transportation Systems for Hydrocarbons,
Liquid Petroleum Gas,
Anhydrous Ammonia,
and
6
Alcohols”, ASME/ANSI B31.4-1986,
as supplemented by
B31.4a—1987,
Also available from ANSI.
ASTM.
Available
from American Society for Testing and
Materials,
1916 Race Street,
Philadelphia, PA 19103, +215+—.~
299—5400:
ASTM C94-90, Standard Specification for Ready-Mixed
Concrete,
approved March 30,
1990.
ASTK D88-87,
Standard Test Method for Saybolt
Viscosity, April
24,
1981,
reapproved January,
1987.
ASTM D93—85, Standard Test Methods for Flash Point by
Pensky—Martens Closed Tester,
approved October 25,
1985.
ASTM D1946—90,
Standard Practice for Analysis of
Reformed Gas by Gas Chromatography, Approved March 30,
1990.
ASTM D2161-87,
Standard Practice for Conversion of
Kinematic Viscosity to Saybolt Universal or to Saybolt
Furol
Viscosity,
March
27,
1987.
ASTM D2267-88,
Standard Test Method for Aromatica
in
Light Naphthas and Aviation Gasolines by Gas
Chromatography, approved November 17,
1988.
ASTM D2382—88,
Standard Test Method for Heat of
Combustion of Hydrocarbon Fuels by
Bomb
Calorimeter
(High Precision Method), approved October 31,
1988.
AST4 D2879-86,
Standard Test
Method for Vapor
Pressure-Temperature Relationship and Initial
Decomposition Temperature of Liquids by Isoteniscope,
approved
October
31,
1986.
ASTM D3828-87,
Standard Test Methods for Flash Point
of Liquids by Setaflash Closed Tester,
approved
December 14,
1988.
ASTM E168—88, Standard Practices for General
Techniques of Infrared Quantitative Analysis,
approved
May 27,
1988.
ASTM E169—87, Standard Practices for General
Techniques of Ultraviolet—Visible Quantitative
Analysis,
approved
February
1,
1987.
ASTM E260—85, Standard Practice for Packed Column Gas
Chromatography,
approved June 28,
1985.
ASTM E926-88 C, Standard Test Methods for Preparing
Refuse-Derived Fuel
(RDP) Samples for Analysis of
Metals, Bomb—Acid Digestion Method, approved March 25,
1988.
ASTM Method G21—70
(l984a)
—-
Standard Practice for
Determining Resistance of Synthetic Polymer Materials
to Fungi
7
ASTM Method G22—76
(l984b)
—-
Standard Practice for
Determining Resistance of Plastics to Bacteria.
GPO.
Available from the Superintendent of Documents, U.S.
Government Printing Office,
Washington,
D.C.
20402,
+202-
783—3238-)-:
Standard Industrial Classification Manual
(1972), and
1977 Supplement, republished in 1983
“Test Methods for Evaluating Solid Waste, Physical!
Chemical Methods,” U.S. EPA
Publication number SW-846
(Third
Edition, Scpt~Q~ember~
1986),
as amended by
Update~I and IIA
(July 1~-92) (Document Number 955—
001—00000—1)
(contact U.S. EPA, Office of Solid Waste,
or MICE.
as
indicated below,
for Update hA).
MICE.
Available from Methods Information Communication
Service,
at 703—821—4789:
“Test Methods for Evaluating Solid Waste.
Phvai.cal/
Chemical Methods,” U.S. EPA Publication number SW—846
(Third Edition,
November,
1986), Update hA
(Document
Number 955—001—00000—1)
(contact GPO,
as indicated
above,
for SW—846 and Update
I’j.
NACE.
Available from the National Association of Corrosion
Engineers,
1400 South Creek Dr., Houston, TX
77084, +713+—~
492—0535:
“Control of External Corrosion on Metallic Buried,
Partially Buried,
or Submerged Liquid Storage
Systems”,
NACE Recommended Practice RP0285—85,
approved March,
1985.
NFPA.
Available from the National Fire Protection
Association, Batterymarch Park,
Boston, MA
02269,
-(-617-)--z
770-3000
or
+800-)--344—3555:
“Flammable and Combustible Liquids Code” NFPA 30,
issued July 17,
1987.
Also available from ANSI.
NTIS.
Available from the U.S. Department of Commerce,
National Technical Information Service,
5285 Port Royal
Road,
Springfield, VA
22161,
-?7O3+—z487—4600:
“Generic Quality Assurance Project Plan for Land
Disposal Restrictions Program”, EPA/530—SW—87—011,
March
15,
1987.
(Document number PB 88—170766.)
“Guidance on Air Quality Models”, Revised 1986.
(Document number PB86-245—248 (Guideline)
and PB88—
150—958
(Supplement).
“Methods for Chemical Analysis of Water and Wastes”,
Third Edition,
March,
1983.
(Document number PS 84-
128677).
“Methods Manual for Compliance with BIF
Regulations”,
December,
1990.
(Document number PB91—120-006).
“Petitions to Delist Hazardous Wastes
——
A Guidance
8
Manual”, EPA/530—SW—85-003,
April, 1985.
(Document
Number PB 85—194488).
“Procedures Manual for Ground Water Monitoring
at
Solid Waste Disposal Facilities”, EPA—530/SW—611,
1977.
(Document
number
PB
84—174820).
“Screening
Procedures
for
Estimating
the
Air
Quality
Impact of Stationary Sources”,
October, 1992,
Publication Number EPA—450/R—92—019.
STI.
Available from the Steel Tank Institute,
728 Anthony
Trail, Northbrook,
IL
60062,
(312)- 708—498—1980:
“Standard for Dual Wall Underground
Steel Storage
Tanks”
(1986).
U.S.
EPA.
Available from United States Environmental
Protection Agency, Office of Drinking Water,
State Programs
Division, WH 550 E, Washington,
D.C.
20460:
“Technical Assistance Document:
Corrosion,
Its
Detection and Control in Injection Wells”, EPA 570/9-
87—002,
August,
1987.
U.S.
EPA.
Available from U.S. EPA, Office of Solid Waste
(Mail Code 5304),
401 N Street SW,
Washington,
D.C.
20460:
“Test Methods for Evaluating Solid Waste,
Physical!
Chemical Methods,” U.S. EPA Publication number SW—846
(Third Edition.
November,
1986), Update hA
(Document
Number 955—001—00000--i)
(contact GPO,
as indicated
above, for SW—846 and
Update IL.
U.S.
EPA.
Available from U.S. EPA, Number F-90-WPWF-FFFFF,
Room M2427,
401 M Street SW, Washington,
D.C.
20460, +202+
z475—9327:
“Test Method 8290:
Procedures for the Detection and
Measurement of PCDDG and PCDFe”, EPA/530—SW—91—019
(January,
1991)
U.S.
EPA.
Available from Receptor Analysis Branch, U.S. EPA
(MD—14), Research Triangle Park,
NC
27711:
“Screening Procedures
for Estimating the Air Quality
Impact of Stationary Sources,
Revised”,
October,
1992,
Publication Number EPA—450/R—92’-019.
b)
Code of Federal Regulations.
Available from the Superintendent of
Documents,
U.S. Government Printing Office, Washington,
D.C.
20401, +2O2-)—~783—3238:
10 CFR 20, Appendix
B (1992)
40 CFR 51.100(u)
(1992)
40 CFR 51, Subpart W,
as added at
58 Fed, Reg.
38822
(July
20,
1993)
40
CPA
60
(1993)
9
40 CPA 61, Subpart V
(1993)
40 CPA 136 (1993)
40 CPA 142
(1993)
40 CFR 220
(1992)
40 CPA 260.20
(1992)
40 CPA 264
(1992)
40 CPA 268.Appendix IX
(1992)
40 CFR 302.4,
302.5 and 302.6 (1992)
40 CPA 761
(1993)
C)
Federal Statutes
Section 3004 of the Resource Conservation and Recovery Act
(42
U.S.C.
6901 et seq.), as amended through December 31,
1987.
d)
This Section incorporates no later edi.tions or amendments.
(Source:
Amended at
_____
Ill. Reg.
_________,
effective
TITLE 35:
ENVIRONMENTAL
PROTECTION
SUBTITLE G:
WASTE DISPOSAL
CHAPTER
I:
POLLUTION
CONTROL
BOARD
SUBCHAPTER
c:
HAZARDOUS
WASTE
OPERATING
REQUIREMENTS
PART
721
IDENTIFICATION
AND
LISTING
OP
HAZARDOUS
WASTE
SUBPART
A:
GENERAL
PROVISIONS
Section
721.101
Purpose and Scope
721.102
Definition of Solid Waste
721.103
Definition of Hazardous Waste
721.104
Exclusions
721.105
Special Requirements for Hazardous Waste Generated by Small
Quantity Generators
721.106
Requirements for Recyclable Materials
721.107
Residues of Hazardous Waste in Empty Containers
721.108
PCB Wastes Regulated under TSCA
SUBPART
B:
CRITERIA
FOR
IDENTIFYING
THE
CHARACTERISTICS
OP
HAZARDOUS
WASTE
AND
FOR LISTING
HAZARDOUS
WASTES
Section
721.110
Criteria for Identifying the Characteristics of Hazardous Waste
721.111
Criteria for Listing Hazardous Waste
SUBPART C:
CHARACTERISTICS OF
HAZARDOUS
WASTE
Section
721.120
General
721.121
Characteristic of Ignitability
721.122
Characteristic of Corrosivity
721.123
Characteristic of Reactivity
721.124
Toxicity
Characteristic
10
SUBPART U:
LISTS OF HAZARDOUS WASTE
Section
721.130
General
721.131
Hazardous Wastes From Nonspecific Sources
721.132
Hazardous Waste from Specific Sources
721.133
Discarded Commercial Chemical Products, Off—Specification Species,
Container Residues4~and Spill Residues Thereof
721.135
Wood Preserving Wastes
721.Appendix A
Representative Sampling Methods
721.Appendix B
Method
1311 Toxicity Characteristic Leaching Procedure
(TCLP)
72l.Appendix C
Chemical Analysis Test Methods
Table
A
Analytical
Characteristics
of
Organic
Chemicals
(Repealed)
Table
B
Analytical Characteristics of Inorganic Species (Repealed)
Table C
Sample Preparation/Sample Introduction Techniques (Repealed)
721Appendix G
Basis
for Listing Hazardous Wastes
721.Appendix H
Hazardous Constituents
721.Appendix I
Wastes Excluded under Section 720.120 and 720.122
Table A
Wastes Excluded from Non—Specific Sources
Table B
Wastes Excluded from Specific Sources
Table C
Wastes Excluded Prom Commercial Chemical Products,
Off—
Specification Species, Container Residues, and Soil Residues
Thereof
Table U
Wastes Excluded
by Adjusted Standard
721.Appendix
.1
Method of Analysis for Chlorinated Dibenzo-p-Dioxins and
Dibenzofurans (Repealed)
721.Appendix
Z
Table to Section 721.102
AUTHORITY:
Implementing Section 22.4 and authorized by Section 27 of the
Environmental Protection Act (Ill.
Rev.
Stat.
1991,
oh. 11i~,parc.
1022.4 and
1027
(415 ILCS 5/22.4 and 27+.
SOURCE:
Adopted in R81—22,
43 PCB 427,
at 5 Ill. Req.
9781, effective as
noted in 35 Ill.
Adm.
Code 700.106; amended and codified in R81—22, 45 PCB
317,
at
6 Ill.
Reg. 4828,
effective as noted
in
35
Ill.
Adm.
Code 700.106;
amended in R82—18, 51 PCB 31,
at
7
Ill. Req.
2518,
effective February 22,
1983; amended in R82—19, 53 PCB 131,
at
7 Ill.
Req.
13999,
effective October
12,
1983; amended in R84—34,
61 PCB 247,
at B Ill. Req. 24562, effective
December 11,
1984;
amended in R84—9,
at
9 Ill.
Req.
11834, effective July 24,
1985; amended in R85—22 at 10 Ill. Req.
998,
effective January
2,
1986;
amended in R85—2
at 10
Ill. Reg.
8112,
effective May
2,
1986;
amended in R86—1
at 10 Ill. Req.
14002, effective August
12, 1986;
amended in R86—19 at 10 Ill.
Reg.
20647, effective December 2,
1986; amended in R86—28 at
11
Ill. Aeg.
6035, effective March 24,
1987; amended in R86—46 at 11 Ill. Reg.
13466,
effective August
4,
1987; amended in R87—32 at
11 Ill.
Req.
16698, effective
September
30,
1987;
amended
in
R87-5
at
ii.
Ill.
Reg.
19303,
effective
November
12,
1987;
amended in R87—26 at
12 Ill, Reg.
2456, effective January
15,
1988;
amended in R87-30 at
12 Ill. Reg.
12070,
effective July 12,
1988; amended in
R87—39 at
12
Ill. Reg.
13006, effective July 29,
1988; amended in R88—16 at
13
Ill.
Req.
382,
effective
December
27,
1988;
amended
in
R89—1
at
13
Ill.
Req.
18300, effective November 13,
1989; amended in R90—2 at 14 Ill. Req. 14401,
effective August 22,
1990;
amended in R90—1O at
14 Ill. Reg.
16472, effective
September
25,
1990;
amended
in
R90—17
at
15
Ill.
Reg.
7950,
effective
Nay
9,
1991; amended in R90—11 at
15
Ill. Req.
9332,
effective June 17, 1991; amended
in R91—1 at 15 Iii. Req. 14473, effective September 30, 1991; amended in R91—
12
at 16
Ill. Req.
2155, effective January 27,
1992; amended in R91—26 at 16
Ill.
Reg.
2600, effective February 3, 1992; amended in R91—13 at
16 Ill. Reg.
9519, effective June 9, 1992;
amended in R92—1 at 16 Iii. Reg.
17666,
effective November 6,
1992;
amended in R92—10 at
17
Ill. Req.
5650, effective
March 26,
1993;
amended in R93—4 at
17
Ill.
Req.
20568, effective November 22,
1993;
amended
in
R93—16
at
18
Ill.
Reg.
6741, effective April 26, 1994;
11
:nded in R94-7 at 18 Ill.
Req.
12175,
effective July 29.
1994; amended in
R94—17 at
Ill. Rep.
,
effective
SUBPART A:
GENERAL PROVISIONS
Section 721.104
Exclusions
a)
Materials whichthat are not solid wastes.
The following materials
are not
solid wastes
for the purpose of this Part:
1)
Sewage:
A)
Domestic sewage;
and
8)
Any mixture of domestic sewage and other waste that
passes through a sewer system to publicly—owned
treatment works
for treatment.
“Domestic sewage”
means untreated sanitary wastes that pass through a
sewer system.
2)
Industrial wastewater discharges that are point source
discharges with NPDES permits issued by the Agency pursuant
to Section 12(f)
of
the Environmental Protection Act and 35
Ill.
Adxn.
Code 309.
BOARD
NOTE:
This exclusion applies
only to the actual point
source discharge.
It does not exclude industrial
wastewatere while they are being collected, stored~or
treated before discharge, nor does it exclude sludges that
are generated by industrial wastewater treatment.
3)
Irrigation return flows.
4)
Source,
special nuclear2 or by—product material as defined
by the Atomic Energy Act of 1954,
as amended
(42 U.S.C. 2011
et seq.)
5)
Materials subjected to in-situ mining techniques wh4~ehthat
are not removed from the ground as part of the extraction
process.
6)
Pulping liquors
(i.e., black liquor)
that are reclaimed in a
pulping liquor recovery furnace and then reused in the
pulping process, unless accumulated speculatively as
defined
in Section 721.1Ol(c)-t-~.
7)
Spent sulfuric acid used to produce virgin sulfuric acid,
unless it
is accumulated speculatively as defined in Section
721.101(c).
8)
Secondary materials that are reclaimed and returned to the
original process or processes in which they were generated
where they are reused in the production process, provided:
A)
Only tank storage
is involved,
and the entire process
through completion of reclamation
is closed
by
being
entirely connected with pipes or other comparable
enclosed means of conveyance;
B)
Reclamation does not involve controlled flame
combustion (such as occurs in boilers,
industrial
12
furnaces or incinerators);
C)
The secondary materials are never accumulated in such
tanks for over twelve months without being reclaimed;
and
U)
The reclaimed material
is not used to produce
a fuel,
or used to produce products that are used in a manner
constituting disposal.
9)
Wood preserving wastes.
A)
Spent wood preserving solutions that have been used
and are reclaimed and reused for their original
intended purpose; and
B)
Wastewaters from the wood preserving process that have
been reclaimed
arid are reused to treat wood.
10)
Hazardous waste number 1(060,
1(087,
1(141,
1(142,
1(143,
1(144,
1(145,
K147, and
1(148, and any wastes from the coke by-
products processes whichthat are hazardous only because they
exhibit the toxicity characteristic specified in Section
721.124, when,
subsequent to generation, these materials are
recycled to coke ovens,
to the tar recovery process as a
feedatock to produce coal tar~or are mixed with coal tar
prior to the tar’s sale or refining.
This exclusion is
conditioned on there being no land disposal of the wastes
from the point they are generated to the point they are
recycled to coke ovens
or tar recovery or the tar refining
processes,
or
mixed
with
coal.
11)
Nonwastewater splash condenser dross residue from the
treatment of
1(06.
in high temperature metals recovery units,
provided it
is shipped in drums
(if shipped) and not land
disposed before recovery.
b)
Solid wastes whichthat are not hazardous wastes.
The following
solid wastes are not hazardous wastes:
1)
Household waste,
including household waste that has been
collected, transported,
stored, treated, disposed,
recovered
(e.g., refuse—derived fuel)4, or reused.
“Household waste”
means any waste material
(including garbage, trash~,and
sanitary wastes in septic tanks)
derived from households
(including single and multiple residences,
hotels4, and
motels, bunkhouses,
ranger stations,
crew quarters,
campgrounds, picnic grounds4, and day—use recreation areas).
A resource recovery facility managing municipal solid waste
shall not be deemed to be treating,
storing, disposing
of4,
or otherwise managing hazardous wastes for the purposes of
regulation under this Part,
if such facility:
A)
Receives and burns only:
i)
Household waste
(from single and multiple
dwellings,
hotels, motels4, and other residential
sources)
and
ii)
Solid waste from commercial or industrial
sources that does not contain hazardous waste;
and
13
B)
Such facility does not accept hazardous waste and the
owner or operator of such facility has established
contractual requirements or other appropriate
notification or inspection procedures to assure that
hazardous wastes are
not received at or burned in such
facility.
BOARD
NOTE:
The U.S.
Supreme Court determined,
in
City of Chicago v. Envronmental Defense Fund,
Inc.,
no.
92—1639
(May 2, 1994~.that this exclusion and
RCRA
section 3001(il
(42 U.S.C.
S 6921(ifl
do not
exclude the ash from facilities covered by this
subsection from regulation as a hazardous waste.
At
59 Fed. Req.
29372
(June
7,
1994~,U.S. EPA aranted
facilities managing ash from such facilities that
is
determined
a hazardous waste under 721.Subpart C until
December
7,
1994 to file a Part A permit application
pursuant to 35
Ill.
Adm.
Code 703.181.
2)
Solid wastes generated by any of the following and whiohthat
are returned to the soil as fertilizers:
A)
The growing and harvesting of agricultural crops.
8)
The raising of animals, including animal manures.
3)
Mining overburden returned to the mine site.
4)
Ply ash waste, bottom ash waste,
slag waste4, and flue gas
emission control waste generated primarily from the
combustion of
coal4, or other fossil fuels, except as
provided
in 35 Ill,
Adm.
Code 726.212 for facilities that
burn or process hazardous waste.
5)
Drilling fluids, produced waters, and other wastes
associated with the exploration, development,
or production
of crude oil, natural gas4, or geothermal energy.
6)
Chromium wastes:
A)
Wastes ~.~ihichthat
fail the test for the toxicity
characteristic (Sections
721.124 and 721.Appendix
B)
because chromium is present or which are are listed in
Subpart U of this Part due to the presence of
chromium, whichthat do not
fail the test for the
toxicity characteristic for any other constituent or
which are not listed due to the presence of any other
constituent, and uhiohthat do not fail the test for
any other characteristic,
if it
is shown by a waste
generator or by waste generators that:
i)
The chromium
in the waste is exclusively
(or
nearly exclusively) trivalent chromium;
and
ii)
The waste
is generated from an industrial
process whichthat uses trivalent chromium
exclusively
(or nearly exclusively)
and the
process does not generate hexavalent chromium;
and
iii)
The waste
is typically and frequently managed in
non—oxidizing environments.
14
B)
Specific wastes whiohthat meet the standard in
subsections
(b)(6)(A)(i),
(b)(6~(A)(ii)4,and
(b~(6~(A~(iii),-
above,- (so long as they do not fail
the test for
the toxicity characteristic for any other
constituent and do not exhibit any other
characteristic)
are:
i)
Chrome (blue) trimmings generated by the
following subcategories of the leather tanning
and finishing industry;
hair pulp/chrome
tan/retan/wet finish; hair save/chrome
tan/retari/wet finish; retan/wet finish;
no
beanthouse; through—the—blue;
and shearling.
ii)
Chrome (blue) shavings generated by the
following subcategories of the leather tanning
and finishing industry; hair pulp/chrome
tan/retan/wet finish; hair
save/chrome
tan/retan/wet finish; retan/wet finish;
no
beambouse;
through—the—blue;
and shearling.
Lii)
Buffing
dust generated by the following
subcategories of the leather tanning and
finishing industry:
hair pulp/chrome
tan/retan/wet finish; hair save/chrome
tan/retan/wet finish; retan/wet finish;
no
beamhouse;
through—the-blue.
iv)
Sewer screenings generated by the following
subcategories of the leather tanning and
finishing industry:
hair pulp/chrome
tan/retan/wet finish; hair save/chrome
tan/retan/wet finish; retan/wet finish; no
beaxnhouse;
through—the—blue;
and shearling.
v)
Wastewater treatment sludges generated by the
following subcategories of the leather tanning
and finishing industry:
hair pulp/chrome
tan/retan/wet finish; hair save/chrome
tan/retan/wet finish;
retan/wet finish;
no
beanthouse;
through-the-blue; and shearling.
vi)
Wastewater treatment sludges generated by the
following
subcategories
of
the
leather
tanning
and finishing industry:
hair pulp/chrome
tan/retan/wet finish;
hair save/chrome
tan/retan/wet finish;
and
through—the—blue.
vii)
Waste scrap leather from the leather tanning
industry,
the shoe manufacturing industry,
and
other leather product manufacturing industries.
viii) Wastewater treatment sludges from the production
of titanium dioxide pigment using chromium—
bearing ores by the chloride process.
7)
Solid waste from the extraction,
beneficiation4, and
processing of ores and minerals (including coal, phosphate
rock4, and overburden from the mining of uranium ore), except
as provided by 35 Ill.
Adm.
Code 726.212 for facilities that
burn or process hazardous waste.
For purposes of this
subsection,
beneficiation of ores and minerals
is restricted
15
to the following activities:
crushing,
grinding, washing,
dissolution, crystallization,
filtration, sorting, sizing,
drying,
siritering, pelletizing, briquetting, calcining to
remove water or carbon dioxide, roasting, autoclaving or
chlorination in preparation for leaching (except where the
roasting or autoclaving or chlorination.)-t arid leaching
sequence produces a final or intermediate product that does
not undergo further beneficiation or processing), gravity
concentration, magnetic separation,
electrostatic
separation,
floatation,
ion exchange,
solvent extraction,
electrowinning, precipitation, amalgamation, and heap,
dump,
vat tank4, and in situ leaching.
For the purposes of this
subsection,
solid waste from the processing of ores and
minerals includes only the following wastes:
A)
Slag from primary copper processing;
B)
Slag from primary lead processing;
C)
Red and brown muds from bauxite refining;
D)
Phosphogypsum from phosphoric acid production;
E)
Slag from elemental phosphorus production;
F)
Gasifier ash from coal gasification;
G)
Process wastewater from coal gasification;
H)
Calcium sulfate wastewater treatment plant sludge from
primary copper processing;
I)
Slag tailings from primary copper processing;
Fluorogypsum from hydrofluoric acid production;
K)
Process wastewater from hydrofluoric acid production;
L)
Air pollution control dust7~or sludge
from iron blast
furnaces;
N)
Iron blast furnace slag;
N)
Treated residue from roasting~and leaching of chrome
ore;
0)
Process wastewater from primary magnesium processing
by the anhydrous process;
P)
Process wastewater from phosphoric acid production;
Q)
Basic oxygen furnace and open hearth furnace air
pollution control dust~Lor sludge from carbon steel
production;
H)
Basic oxygen furnace and open hearth furnace slag from
carbon steel production;
S)
Chloride processing waste solids from titanium
tetrachloride production; and,
T)
Slag
from
primary
zinc
smelting.
16
8)
Cement kiln dust waste, except as provided by 35 Ill. Mm.
Code 726.212 for facilities that burn or process hazardous
waste.
9)
Solid waste whichthat consists of discarded arsenical—
treated wood or wood products which fails the test for the
toxicity characteristic for hazardous waste codes D004
through D017 and whiohthat is not a hazardous waste for any
other reason if the waste
is generated by persons who
utilize the arsenical—treated wood and wood products for
these materials’
intended end use.
10)
Petroleum-contaminated media and debris that fail the test
for the toxicity characteristic of Section 721.124
(hazardous waste codes 0018 through D043 only)
and are
subject to corrective action regulations under
35 Ill. Mm.
Code 731.
11)
Injected groundwater that is hazardous only because it
exhibits the toxicity characteristic (U.S. EPA hazardous
waste codes D018 through D024 only)
in Section 721.124 that
is reinjected through an underground injection well pursuant
to free phase hydrocarbon recovery operations undertaken at
petroleum refineries, petroleum marketing terminals
petroleum bulk plants, petroleum pipelines4, and petroleum
spill sites until January 25,
1993.
This extension applies
to recovery operations in existence, or for which contracts
have been issued, on or before March 25,
1991.
For
groundwater returned through infiltration galleries from
such at petroleum refineries, marketing terminals4, and bulk
plants, until October 2,
1991.
New operations involving
injection wells
(beginning after March
25,
1991)
will
qualify for this compliance date extension (until January
25,
1993) only if:
A)
Operations are performed pursuant to a
“free product
removal report” pursuant to 35 Iii. Mm. Code 731.164;
and
B)
A copy of the “free product removal report” has been
submitted to:
Characteristics Section
(08-333)
U.S. EPA
401 M Street, SW
Washington,
D.C. 20460
12)
Used chlorofluorocarbon refrigerants from totally enclosed
heat transfer equipment,
including mobile air conditioning
systems, mobile refrigeration, and commercial and industrial
air conditioning and refrigeration systems,
whi-chthat
use
chlorofluorocarbons
as
the
heat
transfer
fluid
in
a
refrigeration cycle,
provided the refrigerant is reclaimed
for further use.
13)
Non—terne plated used oil filters whiohthat are not mixed
with wastes listed in Subpart D of this Part, if these oil
filters have been gravity hot—drained using one of the
following methods:
A)
Puncturing the filter anti-drain back valve or the
filter
dome
end
and
hot-draining;
17
B)
Hot-draining and crushing;
C)
Dismantling
and
hot-draining;
or,
D)
Any other equivalent hot-draining method whichthat
will remove used oil.
14)
Used oil re-refining distillation bottoms that are used as
feedstock to manufacture asphalt products.
C)
Hazardous wastes whiahthat are exempted
from certain regulations.
A hazardous waste whichthat is generated in a product or raw
material storage tank,
a product or raw material transport vehicle
or vessel,
a product or raw material pipeline, or in a
manufacturing process unit4, or an associated non—waste—treatment
manufacturing unit,
is not subject to regulation under 35 Ill.
Adm.
Code 702,
703,
7054, and 722 through 725 and 728 or to the
notification requirements of Section 3010 of RCHA until it exits
the unit in which
it was generated, unless the unit is a surface
impoundment,
or unless the hazardous waste remains in the unit
more than 90 days after the unit ceases to be operated for
manufacturing, or for storage or transportation of product or raw
materials.
d)
Samples
1)
Except
as
provided
in
subsection
(d)(2)
below,
a
sample
of
solid waste or a sample of water,
soil4, or
air,- whichthat is
collected for the sole purpose of testing to determine its
characteristics or composition,- is not subject to any
requirements of this Part or
35 Ill. Mm. Code 702, 703,
7054,
and
722
through 728.
The sample qualifies when:
A)
The sample is being transported to a laboratory for
the
purpose
of
testing;
or
B)
The sample is being transported back to the sample
collector after testing;
or
C)
The sample is being stored by the sample collector
before transport to a laboratory for testing; or
D)
The sample is being stared in a laboratory before
testing; or
E)
The sample is being stored in a laboratory for testing
but before it is returned to the sample collector; or
F)
The sample
is being stored temporarily
in the
laboratory after testing for a specific purpose (for
example, until conclusion of
a court case or
enforcement action where further testing of the sample
may be necessary).
2)
In order to qualify for the exemption in aubsection~
(d)(1)(A)
and (d)(1)(B) above,
a sample collector shipping
samples to a laboratory and a laboratory returning samples
to a sample collector mu~tshall:
A)
Comply with U.S. Department of Transportation
(DOT),
U.S.
Postal Service
(USPS)4, or any other applicable
shipping requirements; or
18
B)
Comply with the following requirements if the sample
collector determines that DOT,
USFS4, or other shipping
requirements do not apply to the shipment of the
sample:
i)
Assure that the following information
accompanies the sample:
The sample collector’s
name, mailing address4, and telephone number;
the
laboratory’s
name,
mailing address4, and
telephone number; the quantity of the sample;
the date of the shipment; and
a description of
the sample.
ii)
Package the sample so that it does not leak,
spill4, or vaporize from its packaging.
3)
This exemption does not apply if the laboratory determines
that the waste is hazardous but the laboratory is no longer
meeting any of the conditions stated in subsection d)(1)
above.
e)
Treatability study samples.
1)
Except
as
is provided in subsection
(e)(2) below,
persons
who generate or collect samples for the purpose of
conducting treatability studies,
as defined in 35 Ill. Adm.
Code 720.110,
are not subject to any requirement of
35
Ill.
Adm.
Code 721 through 723 or to the notification
requirements of Section 3010 of the Resource Conservation
and Recovery Act.
Nor are such samples included in the
quantity determinations of Section 721.105 and 35 Ill. Adm.
Code 722.134(d) when:
A)
The sample is being collected and prepared for
transportation by the generator or sample collector;
or,
B)
The sample is being accumulated or stored by the
generator or sample collector prior to transportation
to a laboratory or testing facility; or
C)
The sample
is being transported to the laboratory or
testing facility for the purpose of conducting a
treatability study.
2)
The exemption in subsection (e)(1) above is applicable to
samples of hazardous waste being collected and shipped for
the purpose of conducting treatability studies provided
that:
A)
The generator or sample collector uses (in
“treatability studies”) no more than 10,.QOO kg of
a~ymediacontaminated with non—acute hazardous waste,
1000 kg of non—acute hazardous waste other than
contaminated media,
1 kg of acute hazardous waste4, or
250Q kg of coilo, uatcr or dobriomedia contaminated
with acute hazardous waste for each process being
evaluated for each generated wastestream;
and
B)
The mass of each shipment does not exceed 1O4,Q00
kgj.
the 10,000 ka cruantity may be all media contaminated
with e#.—non—acute hazardous waste, or may include 2500
19
kg of media contaminated with acute hazardous waste,
1000
kg
of
hazardous
waste,
and
1
kg
of
acute
hazardous waste or
250-
kg-of
coilo,
wator
-or
dobria
oontaminatod
with
ziouto
hazardouc
waoto
and
C)
The
sample
must
be
packaged
so
that
it does not
leak,
spill4, or vaporize from its packaging during shipment
and the requirements of subsections
(e)(2)(C)(i) or
(eI(2I(C~(ii), below,
are met.
I)
The transportation of each sample shipment
complies with U.S. Department of Transportation
(DOT), U.S. Postal Service
(USFS)4, or any other
applicable shipping requirements; or
ii)
It the DOT,
USFS4, or other shipping requirements
do not apply to the shipment of the sample, the
following information must accompany the sample:
The name, mailing address4, and telephone number
of the originator of the sample; the name,
address4, and telephone number of the facility
that will perform the treatability study; the
quantity of the sample;
the date of the
shipment;
and,
a description of the sample,
including its U.S. EPA hazardous waste number.
U)
The sample is shipped to
a laboratory or testing
facility whichthat
is exempt under subsection
(f)
below, or has an appropriate
RCRA
permit or interim
status.
B)
The generator or sample collector maintains the
following records for a period ending
3 years after
completion of the treatability study:
i)
Copies of the shipping documents;
ii)
A copy of the contract with the facility
conducting the treatability study;
iii)
Documentation showing:
The amount of waste
shipped under this exemption; the name, address4,
and U.S. EPA identification number of the
laboratory or testing facility that received the
waste; the date the shipment was made;
and,
whether or not unused samples and residues were
returned
to
the
generator.
F)
The generator reports the information required in
subsection (e)(2)(E)(iii)
above in its report under 35
Ill. Adm.
Code 722.141.
3)
The Agency may grant requests on a case—by-case basis for up
to an additional two years for treatability studie~
involving bioremediation.
The Agency may grant requests, on
a case—by—case basis, for quantity limits in excess of those
specified in subsection
(e)(2)(A)
and (e~(2~(B)above and
(fI(4~ below,
for up to an additional 5000 kg of media
contaminated with non—acute hazardous waste,
500 kg of e~y
non—acute hazardous waste,
2500 ka of media contaminated
with acute hazardous waste,
and 1 kg of acute hazardous
20
~j
In response to requests for authorization to ship,
store, and conduct further treatability atudyiea in
advance of commencing treatability studies.
Factors
to be considered in reviewing such requests include
the nature of the technology,
the type of process
(e.g., batch versus continuous),
the size of the unit
undergoing testing
Inarticularly in relation to scale—
u~considerations), the time or quantity of material
required to reach steady—state operating conditions,
or test design considerations, such as mass balance
calculations.
~j
In response to requests for authorization to ship,
store,
and conduct treatability studies on additional
quantities after initiation or completion of initial
treatability studiesevaluation when:
There has been
an equipment or mechanical failure during the conduct
of the treatability study; there is need to verify the
results of
a previously~conductedtreatability study;
there is a need to study and analyze alternative
techniques within a previously~evaluatedtreatment
process;
or,- there is
a need to do further evaluation
of an ongoing treatability study to determine final
specifications for treatment..—
çj~.
The additional quantities allowed and timefraines
allowed
in subsections
(eI(3’~(A1 and (eI(3)(B)
above
are subject to all the provisions in subsections
(e)(1) and
(e)(2)(B)
through
(e)(2)(F)’,- above.
The
generator or sample collector muctshall apply to the
Agency and provide in writing the following
information:
A~)
The reason why the generator or sample collector
requires additional time or quantity of sample
for the treatability study evaluation and the
additional time or quantity needed;
au)
Documentation accounting for all samples of
hazardous waste from the wastestream w~e~that
have been sent for or undergone treatability
studies, including the date each previous sample
from the waste stream was shipped, the quantity
of each previous shipment,
the laboratory or
testing facility to which it was shipped, what
treatability study processes were conducted on
each sample shipped, and the available results
of each treatability study;
Gjjj)
A description of the technical modifications or
change in specifications whichthat will be
evaluated and the expected results;
~ii)
If such further study is being required due to
equipment or mechanical failure, the a.pplicant
muatshall
include information regarding the
reason for the failure or breakdown and also
include what procedures or equipment
improvements have been made to protect: against
further breakdowns;
and,-
21
av)
Such other information as the Agency determines
is necessary.
4)
Final Agency determinations pursuant to this subsection may
be appealed to the Board.
f)
Samples undergoing treatability studies at laboratories or testing
facilities.
Samples undergoing treatability studies and the
laboratory or testing facility conducting such treatability
studies
(to the extent such facilities are not otherwise subject
to RCRA requirements)
are not subject to any requirement of this
Part, or of 35 Ill. Mm. Code 702,
703,
705,
722 through 726, and
728, or to the notification requirements of Section 3010 of the
Resource Conservation and Recovery Act, provided that the
requirements of subsections
(f)(1) through (f)(11),
below, are
met.
A mobile treatment unit may qualify as a testing facility
subject to subsections
(f)(1)
through
(f)(11),
below.
Where
a
group of mobile treatment units are located at the same site, the
limitations specified in subsections (f)(1) through (f)(1l),
below,
apply to the entire group of mobile treatment units
collectively as if the group were one mobile treatment unit.
1)
No less than 45 days before conducting treatability studies,
the facility notifies the Agency in writing that
it intends
to conduct treatability studies under this subsection.
2)
The laboratory or testing facility conducting the
treatability study has a U.S. EPA identification number.
3)
No more than a total of ~-S-10,000kg of “as received” media
contaminated with non—acute hazardous waste,
2500 kg of
media contaminated with acute hazardous waste, or 250 kg of
other “as received”
hazardous waste is subjected to
initiation of treatment in all treatability studies in any
single day.
“As received” waste refers to the waste as
received in the shipment from the generator or sample
collector.
4)
The quantity of “as received” hazardous waste stored at the
facility for the purpose of evaluation in treatability
studies does not exceed 104,QO0
kg, the total of which can
include 10,000 kg of media contaminated with non-acute
hazardous waste.
2500 kg of agile, wator or dcbriamedia
contaminated with acute hazardous waste,
1000 kg of non—
acute hazardous wastes other than contaminated media,
e*artd
1 kg of acute hazardous waste.
This quantity limitation
does not include.-
Treatabiiity otuay r~eo~auco;
rind.
B)
Ttreatment materials (including nonhazardous solid
waste)
added to
“as received” hazardous waste.
5)
No more than 90 days have elapsed since the treatability
study for the sample was completed,
or no more than one year
(two years for treatability studies involving
bioremediation)
has elapsed since the generator or sample
collector shipped the sample to the laboratory or testing
facility, whichever date first occurs.
tip to 500 kg of
treated
material
from
a
particular
waste
stream
from
treatability studies may be archived for future evaluation
up
to
five
years
from
the
date
of
initial
receint.
22
Quantities of materials archived are counted against the
total storage limit for the facility.
6)
The treatability study does not involve the placement of
hazardous waste on the land or open burning of hazardous
waste.
7)
The facility maintains records for
3 years following
completion of each study that show compliance with the
treatment rate limits and the storage time and quantity
limits.
The
following
specific
information
must
be, included
for each treatability study conducted:
A)
The name,
address4, and U.S. EPA identification number
of the generator or sample collector of each waste
sample;
B)
The date the shipment was received;
C)
The quantity of waste accepted;
U)
The quantity of “as received” waste in storage each
day;
B)
The date the treatment study was initiated and the
amount of “as received” waste introduced to treatment
each day;
F)
The date the treatability study was concluded;
G)
The
date
any
unused
sample
or
residues
generated
from
the treatability study were returned to the generator
or sample collector or,
if sent to a designated
facility, the name of the facility and the U.S. EPA
identification number.
8)
The facility keeps, on—site,
a copy of the treatability
study contract and all shipping papers associated with the
transport
of
treatability
study
samples
to
and
from
the
facility
for
a
period
ending
3
years
from
the
completion
date of each treatability study.
9)
The facility prepares and submits a report to the Agency by
March 15 of each year that estimates the number of studies
and the
amount
of waste expected to be used in treatability
studies during the current year, and includes the following
information for the previous calendar year:
A)
The
name,
address4,
and
U.S.
EPA
identification
number
of the facility conducting the treatability studies;
B)
The types
(by process) of treatability studies
conducted;
C)
The names and addresses of persons for whom studies
have been conducted (including their U.S. EPA
identification
numbers);
D)
The total quantity of waste in storage each day;
B)
The quantity and types of waste subjected to
treatability studies;
23
F)
When each treatability study was conducted;
and
G)
The final disposition of residues and unused sample
from each treatability study.~
10)
The facility determines whether any unused sample or
residues generated by the treatability study are hazardous
waste under Section 721.103 and,
if
so,
are subject to
35
Ill. Adm. Code 702,
7034, and 721 through 728, unless the
residues and unused samples are returned to the sample
originator under the subsection
(e) exemption above.
Il)
The facility notifies the Agency by letter when the facility
is no longer planning to conduct any treatability studies at
the site.
(Source:
Amended at
Ill. Reg.
_________,
effective
Section 721.133
Discarded Commercial Chemical Products, Off—Specification
Species, Container Residues4, and Spill Residues Thereof
The following materials or items are hazardous wastes if and when they are
discarded or intended to be discarded as described in Section
721.102(a) (2) (A),
when they are mixed with waste oil or used oil or other
material and applied to the land for dust suppression or road treatment,
when
they are otherwise applied to the land in lieu of their original intended use
or when they are contained in products that are applied to land in lieu of
their original intended use,
or when,
in lieu of their original intended use,
they are produced for use as (or as
a component of)
a fuel, distributed for
use as
a fuel,
or burned as
a fuel.
a)
Any commercial chemical product, or manufacturing chemical
intermediate having the generic name listed in subsections
(e)
or
(f) below.
b)
Any off—specification commercial chemical product or manufacturing
chemical intermediate which,
if
it met specifications, would have
the generic name listed in subsections
(e) or
(f)
below.
C)
Any residue remaining in
a container or inner liner removed from a
container that has held any commercial chemical product or
manufacturing chemical intermediate having the generic name listed
in subsection
(e) or
(f)
below, unless the container is empty as
defined in Section 721.107(b) (3).
BOARD NOTE:
Unless the residue is being beneficially used or
reused, or legitimately recycled or reclaimed,
or being
accumulated,
stored,
transported4, or treated prior to such use,
reuse,
recycling4, or reclamation, the Board considers the residue
to be intended for discard, and thus
a hazardous waste.
An
example of a legitimate reuse of the residue would be where the
residue remains in the container and the container is used to hold
the same commercial chemical product or manufacturing chemical
intermediate it previously held.
An example of the discard of the
residue would be where the drum is sent to a drum reconditioner
w~ethat
reconditions the drum but discards the residue.
d)
Any residue or contaminated
soil,
water4, or other debris resulting
from the cleanup of
a spill, into or on any land or water of any
commercial chemical product or manufacturing chemical intermediate
having the generic name listed in subsection
(e) or (f)below,
or
24
any residue or contaminated soil,
water4, or other debris resulting
from the cleanup of
a spill, into or on any land or water, of any
off—specification chemical product or manufacturing chemical
intermediate which,
if
it met specifications, would have the
generic name listed in subsection
(e) or
(f)
below.
BOARD
NOTE:
The phrase “commercial chemical product or
manufacturing chemical intermediate having the generic name listed
in
...“
refers to a chemical substance whichthat
is manufactured
or formulated for
commercial
or
manufacturing
use
which
consists
of the commercially pure grade of the chemical,
any technical
grades of the chemical that are produced or marketed, and all
formulations in which the chemical is the sole active ingredient.
It does not refer to a material,
such as
a manufacturing process
waste,
that contains any of the substances listed in subsections
(e) or
(f)
below.
Where a manufacturing process waste is deemed
to be
a hazardous waste because it contains
a substance listed in
subsections
(e) or
(f)
below,
such waste will be listed in either
Sections 721.131 or 721.132 or will be identified as
a hazardous
waste by the characteristics set forth in Subpart
C.
e)
The
commercial
chemical
products,
manufacturing
chemical
intermediates4, or off—specification commercial chemical products
or
manufacturing
chemical
intermediates
referred
to
in
subsections
(a) through
(d)
above, are identified as acute hazardous waste
(H)
and are subject to the small quantity exclusion defined in Section
721.105(e).
These wastes and their corresponding EPA Hazardous
Waste Numbers are:
BOARD
NOTE:
For the convenience of the regulated community the
primary hazardous properties of these materials have been
indicated by the letters
T (Toxicity),
and R (Reactivity). A~
~bsence of
a letter indicates that the compound only is listed for
acute toxicity.
Chemical
Hazardous
Abstracts
Waste No.
No.
Substance
P023
107—20—0
Acetaldehyde, chloro—
P002
591-08—2
Acetamide,
N—(axninothioxomethyl)
P057
640—19—7
Acetamide,
2-fluoro—
P058
62—74—8
Acetic acid,
fluoro—,
sodium salt
P002
591—08—2
1—Acetyl—2—thiourea
P003
107—02—8
Acrolein
P070
116—06—3
Aldicarb
P004
309—00—2
Aldrin
P005
107—18—6
Allyl alcohol
P006
20859—73—8
Aluminum phosphide
(R,T)
P007
2763—96—4
5— (Aminomethyl)—3—iaoxazolol
P008
504—24—5
4—Aminopyridine
P009
131—74—8
Ammonium picrate
(R)
P119
7803-55—6
.Ammonium
vanadate
P099
506—61—6
Argentate(l—),
bis(cyano—C)—,
potassium
P010
7778—39—4
Arsenic
acid
HAsO4
P012
1327—53-3
Arsenic
oxide
As203
P011
1303—28—2
Arsenic oxide As2O5
POll
1303—28—2
Arsenic pentoxide
P012
1327-53—3
Arsenic trioxide
P038
692—42—2
Arsine, diethyl—
P036
696—28—6
Arsonous dichioride,
phenyl—
P054
151—56—4
Aziridine
25
P067
75—55—8
Aziridine,
2—methyl
P013
542—62—1
Barium cyanide
P024
106—47-8
Benzenamine, 4—chioro—
P077
100—01-6
Beazenamine, 4-nitro—
P028
100-44-7
Benzene,
(chioromethyl)—
P042
51—43-4
1, 2—Benzenediol, 4—(1—hydroxy—2—
(methylamino)ethyl)—,
(R)—
P046
122-09-8
Benzeneethanamine, alpha,alpha-di—
methyl-
P014
108—98-5
Benzenethiol
P001
P81-81-2
2H—1—Benzopyran—2—one,
4-hydroxy-3-(3-
oxo—1—phenylbutyl)—, and salts, when
present at concentrations greater than
0.3
P028
100—44-7
Benzyl chloride
P015
7440—41—7
Beryllium powder
P017
598—31—2
Bromoacetone
P018
357—57—3
Brucine
P045
39196—18-6
2—Butanone, 3,3-dimethyl-1- (methyl—
thio)
-,
O-(methylaniino )carbonyl)
oxime
P021
592—01—8
Calcium cyanide
P021
592—01-8
Calcium cyanide Ca(CN)2
P022
75—15—0
Carbon disulfide
P095
75—44—5
Carbonic dichioride
P023
107—20-0
Chloroacetaldehyde
P024
106—47—8
p—Chloroaniline
P026
5344—82-i.
l—(o—Chlorophenyl)thiourea
P027
542—76—7
3—Chloropropionitrile
P029
544—92-3
Copper cyanide
P029
544—92—3
Copper cyanide CuCN
P030
Cyanides
(soluble cyanide salts),
not
otherwise specified
P031
460-19-5
Cyanogen
P033
506-77—4
Cyanogen chloride
P033
506-77-4
Cyanogen chloride CNC1
P034
131-89—5
2—Cyclohexyl—4,6—dinitrophenol
P016
542-88—1
Dichioromethyl ether
P036
696—28—6
Dichlorophenylarsine
P037
60—57—1
Dieldrin
P038
692—42—2
Diethylarsine
P041
311—45-S
Diethyl—p-nitrophenyl phosphate
P040
297—97—2
0,0—Diethyl 0—pyrazinyl
phosphorothioate
P043
55—91-4
Diisopropylfluorophosphate
(DFP)
P004
309-00—2
1,4,5,8-Dimethanonaphthalene,
1,2,3,4,10, 10—hexachloro—1,4,4a,5,8,Ba—
hexahydro—,
(lalpha,4alpha, 4abeta, Salpha,
8alpha,8abeta)
—
P060
465—73-6
1, 4,5,8—Di—methanonaphthalene,
1,2,3,4, 10, 10—hexachloro—1, 4, 4a, 5, 8, 8a—
hexahydro—,
(lalpha, 4alpha,
4abeta,
Sbeta,
8beta,8abeta)—
P037
60—57—1
2,7:3,
,3—b)oxirene,
3, 4, 5,6,9
,
9—hexachloro—
la, 2,2a,3, 6, 6a, 7, 7a—octahydro—,
(laalpha, 2beta,2aalpha, 3beta,
6beta, 6aalpha, 7beta,7aalpha)—
26
P051
P72—20—8
2,7:3,6-Dimethanonaphth(2,3—boxirene,
3,4,5,6,9,9—hexachloro—
la, 2, 2a,3,6, 6a, 7, 7a—octahydro—,
(laalpha, 2beta,2abeta,3alpha,
6alpha, 6abeta, 7beta,7aalpha)
—,
and
metabolites
P044
60—51—5
Dimethoate
P046
122-09-8
alpha,alpha—Dimethylphenethylamine
P047
534—52—1
4,6-Dinitro—o—creaol and salts
P048
51—28—5
2,4—Dinitrophenol
P020
88—85—7
Dinoseb
P085
152—16—9
Diphosphoramide,
octamethyl—
P111
107—49—3
Diphosphoric acid, tetraethyl ester
P039
298—04—4
Disulfoton
P049
541-53—7
Dithiobiuret
P050
115—29—7
Endosulfan
P088
145—73—3
Endothall
P051
72—20—8
Endrin
P051
72—20-8
Endrin, and metabolites
P042
51—43-4
Epinephrine
P031
460—19—5
Ethanedinitrile
P066
16752—77—5
Ethanimidothioic acid, N—((methyl—
amino)carbonyl)oxy—,
methyl
ester
P101
107-12—0
Ethyl cyanide
P054
151—56—4
Ethylenimine
P097
52—85—7
Famphur
P056
7782—41—4
Fluorine
P057
640-19-7
Fluoroacetamide
P058
62—74—8
Fluoroacetic acid, sodium salt
P065
628—86—4
Fulminic acid,
mercury
(2+)
salt
(R,T)
P059
76—44—8
Heptachlor.
P062
757-58—4
Hexaethyl tetraphosphate
P116
79—19—6
Hydrazinecarbothioamide
P068
60—34—4
Hydrazine,
methyl-
P063
74—90—8
Hydrocyanic acid
P063
74-90—8
Hydrogen cyanide
P096
7803—51—2
Hydrogen phosphide
P060
465—73—6
Isodrin
P007
2763—96—4
3(2H)—Isoxazolone,
5—(aminomethyl)—
P092
62—38—4
Mercury,
(acetato-O)phenyl—
P065
628—86—4
Mercury fulminate
(R,T)
P082
62—75—9
Methanamine, N—methyl—N—nitroso-
P064
624—83—9
Methane,
isocyanato—
P016
542—88—1
Methane, oxybis(chloro-
P112
509—14—B
Methane, tetranitro—
(R)
P118
75—70—7
Methanethiol, trichloro—
P050
115—29-7
6, 9-Methano—2, 4, 3-benzodioxathiepen,
6,7,8,9,10,10—hexachloro—1,S,5a,6,9,9a—
hexahydro—,
3-oxide
P059
76—44—8
4,7—Methano—1H—indene, 1,4,5,6,7,8,8—
heptachloro—3a, 4,7,7a-tetrahydro—
P066
16752—77—5
Methomyl
P068
60—34—4
Methyl hydrazine
P064
624—83—9
Methyl isocyanate
P069
75—86—5
2—Methyllactonitrile
P073.
298—00—0
Methyl parathion
P072
86—88—4
alpha—Naphthylthiourea
P073
13463—39—3
Nickel carbony.
P073
13463—39—3
Nickel
carbonyl
Ni(C0)4,
(T—4)—
P074
557—19—7
Nickel
cyanide
P074
557—19—7
Nickel cyanide Ni(CN)2
P075
54—11—5
Nicotine,
and salts
27
P076
10102—43—9
Nitric oxide
P077
100-01—6
p-Nitroaniline
P078
10102—44—0
Nitrogen dioxide
P076
10102—43—9
Nitrogen oxide NO
P078
10102—44—0
Nitrogen oxide NO2
P081
55—63—0
Nitroglycerine
(R)
P082
62—75—9
N—Nitrosodimethylamine
P084
4549-40-0
N-Nitrosomethy.vinylamine
P085
152-16—9
Octaxnethy.pyrophosphoramide
P087
20816—12—0
Osmium
oxide
0804f
(T—4)—
P087
20816—12—0
Osmium
tetroxide
P088
145—73—3
7—Oxabicyclo(2 .2.
1heptane—2,
3—di—
carboxylic
acid
P089
56—38—2
Parathion
P034
131—89—5
Phenol,
2—cyclohexyl—4,6—dinitro—
P048
51—28—5
Phenol,
2,4—dinitro—
P047
P534-52—i
Phenol,
2—methyl—4,6—dinitro—,
and
salts
P020
88—85—7
Phenol,
2—(1—methylpropyl)--4, 6—dinitro—
P009
131—74—8
Phenol,
2,4,6—trinitro—,
axnmonium
salt
(R)
P092
62—38—4
Phenylmercury
acetate
P093
103—85—5
Phenyithiourea
P094
298—02—2
Phorate
P095
75-44-5
Phosgene
P096
7803—51—2
Phosphine
P04.
311—45—5
Phosphoric
acid,
diethyl
4—nitrophenyl
ester
P039
298—04-4
Phosphorodithioic
acid,
0,0—diethyl
S—
2— (ethylthio
)
ethyl
ester
P094
298—02-2
Phosphorodithioic acid,
0,0—diethyl S-
((ethylthio)methyl)
ester
P044
60-51—5
Phosphorodithioic
acid,
0,0—dimethyl
S—
2— (methylamino
)
—2—oxoethyl
ester
P043
55—91—4
Phosphorofluoridic acid,
bis(1—methyl—
ethyl) ester
P089
56—38—2
Phosphorothioic acid,
O,0-diethyl O-(4—
nitrophenyl) ester
P040
297—97—2
Phosphorothioic
acid,
0,0-diethyl
0—
pyrazinyl
ester
P097
52-85—7
Phosphorothioic acid,
O—4-(dimethyl-
amino)sulfonyl)phenylj
0,0—dirnethyl
ester
P071
298—00—0
Phosphorothioic acid, O,O—dimethyl 0—
(4-nitrophenyl) ester
P110
78-00—2
Plumbane, tetraethyl—
P098
151—50—8
Potassium cyanide
P098
151—50—8
Potassium cyanide KCN
P099
506—61—6
Potassium
silver
cyanide
P070
116—06-3
Propanal, 2—methyl—2—(methylthio)—,
0—
((methylamino)carbonyl)oxime
P101
107—12—0
Propanenitrile
P027
542—76-7
Propanenitrile,
3—chloro-
P069
75-86-5
Propanenitrile,
2—hydroxy-2-methyl—
P081
55—63—0
1,2,3—Propanetriol, trinitrate—
(A)
P017
598—31—2
2—Propanone,
l-bromo—
P102
107—19—7
Propargyl alcohol
P003
107-02—8
2—Propenal
P005
107—18—6
2—Propen—1—ol
P067
75—55—8
1,2—Propylenimine
P102
107—19—7
2—Propyn—1—o1
P008
504—24—5
4—Pyridinamine
28
P075
P54—11—5
Pyridine,
3—(1—rnethyl—2—pyrrolidinyl)—,
(S)— and salts
P114
12039—52—0
Selenious
acid,
dithallium
(1+)
salt
P103
630-10—4
Selenourea
P104
506—64—9
Silver cyanide
P104
506—64—9
Silver cyanide AgCN
P105
26628—22—8
Sodium azide
P106
143—33—9
Sodium cyanide
P106
143-33—9
Sodium cyanide NaCM
P108
P57-24—9
Strychnidin-lO—one,
and salts
P018
357-57—3
Strychnidin—lO—one,
2,3—dimethoxy—
P108
P57-24—9
Strychnine and salts
P115
7446—18—6
Sulfuric acid,
dithalliuxn
(1+)
salt
P109
3689—24-5
Tetraethyldithiopyrophosphate
P110
78—00—2
Tetraethyl lead
P111
107-49—3
Tetraethylpyrophosphate
P112
509—14—8
Tetranitromethane
(A)
P062
757—58—4
Tetraphosphoric acid, hexaethyl ester
P113
1314—32—5
Thallic oxide
P113
1314—32—5
Thallium oxide Tl20,
P114
12039—52—0
Thallium
(I)
selenite
P115
7446—18—6
Thallium
(I) sulfate
P109
3689—24—5
Thiodiphosphoric acid, tetraethyl ester
P045
39196—18—4
Thiofanox
P049
541—53—7
Thioimidodicarbonic diamide
(H2N)C(S)2NH
P014
108—98—5
Thiophenol
P116
79—19—6
Thiosemicarbazide
P026
5344-82—1
Thiourea,
(2-chlorophenyl)-
P072
86-88—4
Thiourea,
1—naphthalenyl-
P093
103—85—5
Thiourea, phenyl—
P123
8001-35—2
Toxaphene
P118
75-70-7
Trichloromethanethiol
P119
7803—55—6
Vanadie acid, ammonium salt
P120
1314—62—1
Vanadium oxide
V205
P120
1314—62—1
Vanadium pentoxide
P084
4549-40—0
Vinylamine, N—methyl-M—nitroso—
P001
P81—81-2
Warfarin,
and salts,
when present at
concentrations greater than 0.3.
P121
557—21—1
Zinc cyanide
P121
557—21—1
Zinc cyanide Zn(CN)2
P122
1314—84—7
Zinc phosphide
Zn3?,, when present at
concentrations
greater
than
10
(R,T)
f)
The commercial chemical products, manufacturing chemical
intermediates4, or off—specification commercial chemical products
referred to
in subsections
(a) through
(d)
above,
are identified
as toxic wastes
(T) unless otherwise designated and are subject to
the small quantity exclusion defined in Section 721.105(a)
and
(g).
These wastes and their corresponding EPA Hazardous Waste
Numbers
are:
BOARD NOTE:
For the convenience of the regulated community,
the
primary hazardous properties of these materials have been
indicated by the letters T
(Toxicity),
R (Reactivity),
I
(Ignitability)4, and C (Corrosivity).
AThe_absence of
a letter
indicates that the compound is only listed for toxicity.
29
Chemical
Hazardous
Abstracts
Waste No.
No.
Substance
U001
75—07—0
Acetaldehyde
(I)
U034
75—87—6
Acetaldehyde, trichloro—
U187
62—44-2
Acetamide,
N—(4—ethoxyphenyl)-
U005
53—96—3
Acetamide, N—9H—fluoren—2—yl—
U240
P 94—75—7
Acetic acid,
(2,4—dichlorophenoxy)—,
salts and esters
U112
141—78—6
Acetic acid,
ethyl ester
(I)
U144
301—04—2
Acetic acid,
lead
(2+)
salt
U214
563—68—8
Acetic acid,
thallium
(1+)
salt
See F027
93—76—5
Acetic acid,
(2,4,5—trichlorophenoxy)—
U002
67—64—1
Acetone
(I)
tJOO3
75—05—8
Acetonitrile
(I,T)
U004
98-86-2
Acetophenone
U005
53—96—3
2—Acetylaminofluorene
U006
75—36—5
Acetyl chloride (C,R,T)
U007
79—06—1
Acrylamide
U008
79—10—7
Acrylic acid
(I)
U009
107—13—1
Acrylonitrile
U011
61—82—5
Amitrole
U012
62—53—3
Aniline
(I,T)
U136
75—60—S
Arsinic acid, dimethyl—
U014
492-80—8
Auraxnine
U015
115—02—6
Azaserine
U010
50—07—7
Azirino(2’,3’:3,4pyrrolo(1,2—aindole—
4,7—dione,
6—amino—8—
(aminocarbonyl)—
oxymethyl
—1,
la, 2,8, 8a, 8b—hexahydro—
8a—methoxy-5—methyl—,
1a—S—
(laalpha, Sbeta,Saalpha, 8balpha)
1—
Ul57
56—49—5
Benzj aceanthrylene,
1, 2—dihydro—3—
methyl—
U016
225—51—4
Benz(c)acridine
13017
98—87—3
Benzal chloride
Ul92
23950—58—5
Benzainide,
3,5—dichloro—N—(l,1—di—
methyl-2-propynyl)
—
13018
56—55—3
Benzaanthracene
13094
57—97—6
Benz(a)anthracene,
7, l2—dimethyl—
U012
62—53—3
Benzenamine
(I,T)
13014
492—80—8
Benzenamine,
4,4’-carbonimidoylbisN,N—
dimethyl—
13049
3165-93—3
Benzenamine,
4—chloro—2-methyl—,
hydrochloride
U093
60—11—7
Benzenamine, N,N-dimethyl-4—(phenyl—
azo)—
t1328
95—53—4
Benzenaxnine,
2—methyl—
U353
106—49-0
Benzenaznine,
4-methyl—
13158
101—14-4
Benzenamine, 4,4’—methylenebis2-
chloro—
13222
636—21—5
Benzenainine,
2-methyl-,
hydrochloride
U181
99-55—8
Senzenamine, 2—methyl—5—nitro—
U019
71-43—2
Benzene
(I,T)
U038
510—15—6
Benzeneacetic acid,
4—chloro—alpha—(4—
chlorophenyl) -alpha—hydroxy-, ethyl
ester
13030
101-55-3
Benzene, 1—bromo-4—phenoxy—
17035
305—03-3
Benzenebutanoic acid,
4—(bis(2—chloro—
ethyl) amino—
17037
108—90-7
Benzene, chloro—
17221
25376—45—8
Benzenediamine,
ar—methyl—
30
0028
117—81—7
1,2—Benzanedicarboxylic acid,
bis(2—
ethylhexyl) ester
13069
84—74—2
l,2—Benzenedicarboxylic acid, dibutyl
ester
17088
84—66—2
1,2-’Benzenedicarboxylic acid,
diethyl
ester
U102
131—11—3
1,2—Benzenedicarboxylic acid, dimethyl
ester
U107
117—84—0
1,2—Benzenedicarboxylic acid,
dioctyl
ester
U070
95—50—1
Benzene, 1,2—dichloro—
U071
541—73—1
Benzene, 1,3—dichloro—
13072
106—46—7
Benzene, 1,4—dichioro—
13060
72—54-8
Benzene,
1,1’—(2,2—dichloroethylidene)—
bis
4—chioro—
U017
98—87—3
Benzene,
(dichioromethyl)—
0223
26471—62—5
Benzene,
l,3—diisocyanatornethyl— (R,T)
U239
1330—20—7
Benzene, dimethyl— (I,T)
17201
108—46—3
1,3—Benzenediol
13127
118—74—1
Benzene, hexachloro—
17056
110-82—7
Benzene, hexahydro—
(I)
13220
108—88—3
Benzene, methyl-
13105
121—14—2
Benzene, 1—methyl—2,4—dinitro—
13106
606-20—2
Benzene, 2-methyl—1,3-dinitro—
13055
98—82—8
Benzene,
(1—methylethyl)—
(I)
17169
98—95—3
Benzene,
nitro—
13183
608-93—5
Benzene, pentachloro—
U185
82-68-8
Benzene, pentachioronitro—
0020
98—09—9
Benzenesulfonic acid chloride
(C,R)
0020
98—09—9
Benzenesulfonyl chloride
(C,R)
17207
95—94—3
Benzene, 1,2,4,5—tetrachloro—
U06.
50—29—3
Benzene, 1,1’—(2,2,2—trichloroethyl—
idene)bis
4—chloro—
13247
72—43—5
Benzene,
1,1’—(2,2,2—trichloroethyl—
idene)bis
4—methoxy-
U023
98-07—7
Benzene,
(trichloromethyl)—
17234
99—35—4
Benzene, 1,3,5—trinitro—
13021
92—87—5
Benzidene
13202
P 81-07—2
1,2—Benzisothiazol—3(2H)—one, 1,1—di-
oxide,
and salts
13203
94—59—7
1,3—Benzodioxole,
S—(2—propenyl)-
13141
120—58—1
1, 3—Benzodioxole, 5—(l—propenyl)—
17090
94—58—6
1,3—Benzodioxole,
5—propyl—
U064
189—55—9
Benzorst)pentaphene
0248
P 81—81—2
2H—1—Benzopyran-2—one, 4—hydroxy—3—(3—
oxo—1-phenylbutyl)—,
and salts, when
present
at
concentrations
of
0.3
or
less
U022
50—32—8
~enzo(a3pyrene
U197
106—51—4
p—Benzoquinone
0023
98—07—7
Benzotrichloride (C,R,T)
13085
1464-53—5
2,2’—Bioxirane
13021
92—87—5
(1,1‘—Biphenyl—4,4
‘—diamine
U073
91—94—1
•(1,1’—Biphenyl—4,4’—diamine,
3,3’—di—
chloro—
U09l
119—90—4
(1,1’—Biphenyl)—4,4’—diamine,
3,3’—di—
methoxy—
13095
119—93—7
1,1’—Biphenyl—4,4’—diamine,
3,3’—di—
methyl—
U225
75-25—2
Bromoform
U030
101-55—3
4—Bromophenyl phenyl ether
U128
87—68—3
1,3—Butadiene,
1,l,2,3,4,4—hexachloro—
31
17172
924—16—3
1—Butanamine, N-butyl—N—nitroso—
U031
71—36—3
l—Butanol
(I)
U159
78—93—3
2—Butanone
(I,T)
11160
1338—23-4
2—Butanone, peroxide
(R,T)
U053
4170—30—3
2—Butenal
U074
764-41—0
2—Butene,
1,4-dichloro—
(I,T)
0143
303—34—4
2—Butenoic acid, 2—methyl—,
7—(2,3—di—
hydroxy-2—
(
1-methoxyethyl)-3-methyl-i-
oxobutoxymethyl) —2,3,5,7a—tetrahydro-
1H—pyrrolizin—1—yl ester,
iS—
(lalpha(Z),
7(2S*,3R*),
7aalphaj)—
13031
71—36—3
n—Butyl alcohol
(I)
13136
75—60—S
Cacodylic acid
13032
13765—19—0
Calcium chromate
U238
51-79—6
Carbamic acid, ethyl ester
17178
615—53—2
Carbamic acid, methylnitroso—,
ethyl
ester
0097
79—44—7
Carbamic chloride, dimethyl—
13114
P 111—54—6
Carbamodithioic acid,
1,2—ethanediyl-
bis—,
salts and esters
0062
2303—16-4
Carbamothioic acid, bis(1—methyl—
ethyl)-,
5— (2
,
3-dichloro—2-propenyl)
ester
17215
6533—73—9
Carbonic acid, dithallium (1+)
salt
17033
353—50—4
Carbonic difluoride
13156
79-22—1
Carbonochioridic acid, methyl ester
(I,T)
0033
353—50-4
Carbon oxyfluoride
(R,T)
0211
56—23—5
Carbon tetrachloride
13034
75—87—6
Chloral
U035
305—03—3
Chlorambucil
0036
57-74—9
Chlordaneaipha and
gamma
isomers
17026
494—03—1
Chiornaphazin
U037
108—90—7
Chlorobenzene
0038
510—15—6
Chlorobenzilate
13039
59-50—7
p—Chloro-m—cresol
0042
110—75—8
2—Chloroethyl vinyl ether
0044
67—66—3
Chloroform
13046
107—30-2
Chloromethyl methyl ether
13047
91—58—7
beta—Chloronaphthalene
0048
95—57—8
o—Chlorophenol
13049
3165—93—3
4—Chloro—o-toluidine, hydrochloride
13032
13765—19—0
Chromic acid H2CrO4, calcium salt
U050
218—01—9
Chrysene
13052.
Creosote
U052
1319—77—3
Cresol
(Cresylic acid)
13053
4170—30-3
Crotonaldehyde
U055
98—82—8
Cumeme
(I)
0246
506—68—3
Cyanogen bromide CNBr
U197
106—51—4
2, 5—Cyclohexadiene-l,4—dione
0056
110—82—7
Cyclohexane
(I)
13129
58—89—9
Cyclohexane, 1,2,3,4,5,6—hexachioro—,
(lalpha,2alpha, 3beta, 4alpha,
Salpha, 6beta)
-
0057
108—94—1
Cyclohexanone
(I)
17130
77—47—4
1,3—Cyclopentadiene,
1,2,3,4,5,5—hexa—
chloro—
13058
50—18-0
Cyclophosphamide
11240
P 94—75—7
2,4—D, salts
and esters
0059
20830—81—3
Daunornycin
17060
72—54--8
DDD
13061
50—29—3
DDT
32
Dial late
Dibenza,
h)anthracene
Dibenzoa,
i)pyrene
1, 2—Dibromo—3—chloropropane
Dibutyl phthalate
o—Dichlorobenzene
m—Dichlorobenzene
p—Dichlorobenzene
3,3 ‘—Dichlorobenzidine
1,4—Dichloro-2—butene
(I,T)
Dichlorodifluoromethane
1,1—Dichloroethylene
1,2—Dichioroethylene
Dichloroethyl ether
Dichloroisopropyl ether
Dichloromethoxy ethane
2, 4-Dichiorophenol
2, 6-Dichlorophenol
1, 3-.Dichloropropene
1,2:3,4—Diepoxybutane
(I,T)
1,4-Diethyleneoxide
Diethylhexyl phthalate
N,N’—Diethylhydrazine
0,0-Diethyl S-methyl dithiophoaphate
Diethy.
phthalate
Diethylstilbeetroi.
Dihydrosafrole
3,3’-Dimethoxybenzidine
Dimethylamine
(I)
p—Ditnethylaminoazobenzene
7, 12—Dimethylbenz(a anthracene
3,3’
—Dimethylbenzidine
alpha,
alpha—Dimethyl—
benzylhydroperoxide
(A)
Diniethylcarbamoyl chloride
1,1—Dimethylhydrazine
1,2-Dimethyihydrazine
2, 4—Dimethyiphenol
Dimethyl phthalate
Dirnethyl sulfate
2,4-Dinitrotoluene
2,6-Dinitrotoluene
Di—n—octyl phthalate
1, 4—Dioxane
1,2-Diphenylhydrazine
Dipropylamine
(I)
Di—n-propylnitrosaxnine
Epichlorohydrin
Ethanal
(I)
Ethanamine,
N-ethyl-N-nitroso-
1, 2—Ethanediamine,
N,N—dimethyl-M’ —2-
pyridinyl—N’
—
(2—thienylmethyl)
—
Ethane,
1, 2—dibromo—
Ethane,
1, 1—dichloro-
Ethane,
1, 2—dichloro—
Ethane,
hexachloro—
Ethane,
1,l’—(methylenebis(oxir) bis(2—
chloro—
Ethane, 1,1’—oxybis—
(I)
Ethane,
1,1’-oxybis(2—chloro—
Ethane, pentachloro—
Ethane, 1,1, 1,2—tetrachloro—
U062
11063
11064
13066
11069
0070
13071
0072
U073
0074
11075
U078
0079
0025
13027
11024
13081
0082
(1084
U085
17108
13028
U086
13087
13088
13089
17090
13091
13092
0093
13094
0095
0096
U097
0098
17099
15101
13102
13103
0105
11106
13107
15108
0109
Ui10
11111
17041
17001
U174
2303—16—4
53—70—3
189—55—9
96—12—8
84—74—2
95—50—1
541—73—1
106—46—7
91—94—1
764—41—0
75—71—8
75—35—4
156—60—5
111—44—4
108—60—1
111—91—1
120—83—2
87—65—0
542—75—6
1464—53—5
123—91—1
117—81—7
1615—80-1
3288—58—2
84—66-2
56—53—1
94—58—6
119—90—4
124—40—3
60—11—7
57—97—6
119—93—7
80—15—9
79—44—7
57—14—7
540—73—8
105—67—9
131—11—3
77—78—1
121—14—2
606—20—2
117—84—0
123—91—1
122—66—7
142—84—7
621—64—7
106—89—8
75—07—0
5 5—18—5
17155
91—80—5
0067
13076
15077
U13 1
11024
13117
0025
0184
0208
106—93—4
75—34—3
107—06—2
67—72—i
111—91—1
60—29—7
111—44—4
76—01—7
630—20—6
33
11209
79—34—5
Ethane,
1,l,2,2—tetrachloro—
U218
62—55—S
Ethanethioamide
U226
71—55—6
Ethane,
l,l,1—trichloro—
U227
79—00—S
Ethane,
1,1,2—trichloro—
13359
110—80—5
Ethanol, 2—ethoxy-
U173
1116—54—7
Ethanol,
2,2 ‘—(nitrosoimino)bis—
11004
98-86—2
Ethanone,
l—phenyl—
U043
75—01—4
Ethene, chloro—
U042
110—75-8
Ethene,
(2-chloroethoxy)—
17078
75—35—4
Ethene,
1,1—dichloro—
13079
156—60—5
Ethene, 1,2—dichloro—,
(B)—
U210
127—18—4
Ethene,
tetrachloro—
11228
79-01—6
Ethene, trichloro-
(1112
141—78—6
Ethyl acetate
(I)
0113
140—88—5
Ethyl acrylate
(I)
U238
51—79-6
Ethyl carbamate
(urethane)
U117
60—29—7
Ethyl ether
U114
P 111—54—6
Ethylenebiadithiocarbamic
acid,
salts
and esters
13067
106—93—4
Ethylene dibromide
13077
107-06—2
Ethylene dichloride
U359
110—80—S
Ethylene glycol monoethyl ether
13115
75-21—8
Ethylene oxide
(I,T)
U1l6
96—45—7
Ethylenethiourea
11076
75-34—3
Ethylidene dichloride
13118
97—63—2
Ethyl methacrylate
Ul19
62-50-0
Ethyl methanesulfonate
17120
206—44—0
Fluoranthene
13122
50—00-0
Formaldehyde
(1123
64—18—6
Formic acid
(C,T)
0124
110—00—9
Furan
(I)
U125
98—01—i
2—Furancarboxaldehyde
(I)
13147
108—31—6
2,5—Furandione
13213
109—99—9
Furan, tetrahydro—
(I)
11125
98—01—1
Furfural
(I)
U124
110—00—9
Furfuran
(I)
15206
18883—66-4
Glucopyranose,
2—deoxy—2—(3—methyl—3—
nitrosoureido
)
—,
U206
18883—66—4
D-Glucose,
2—deoxy—2--(
(methylnitroso—
amino)
-carbonyl
amino
—
U126
765—34—4
Glycidylaldehyde
15163
70—25—7
Guanidine,
N-methyl-N’ —nitro-N—nitroso-
U127
118-74—1
Hexachlorobenzene
17128
87—68—3
Hexachiorobutadiene
13130
77—47—4
Hexachlorocyclopentacliene
0131
67—72—1
Hexachloroethane
U132
7 0-30—4
Hexachlorophene
0243
1888—71—7
Hexachioropropene
15133
302—01—2
Hydrazine (R,T)
13086
1615—80—1
Hydrazine,
1,2—diethyl—
11098
57—14—7
Hydrazine,
1,1—dimethyl—
0099
540—73—8
Hydrazine,
1,2-dimethyl—
11109
122—66—7
Hydrazine,
1,~2—dipheny1—
15134
7664—39—3
Hydrofluoric acid (C,T)
15134
7664—39—3
Hydrogen fluoride
(C,T)
13135
7783—06—4
Hydrogen sulfide
U135
7783—06—4
Hydrogen sulfide H2S
U096
80—15-9
Hydroperoxide, 1—methyl—i-phenylethyl-
(A)
0116
96—45—7
2—Imidazolidinethione
0137
193—39—5
Indeno1,
2, 3—cdpyrene
U190
85—44—9
1,3—Isobenzofurandione
34
0140
78—83—1
Isobutyl alcohol
(I,T)
15141
120—58—1
Isosafrole
0142
143—50—0
Xepone
15143
303—34—4
Lasiocarpene
0144
301—04—2
Lead acetate
13146
1335—32—6
Lead, bis(acetato—O)tetrahydroxytri—
15145
7446—27—7
Lead phosphate
(1146
133 5—32—6
Lead subacetate
0129
58—89—9
Lindane
0163
70—25—7
MNNG
U147
108—31—6
Maleic anhydride
11148
123—33—1
Maleic hydrazide
0149
109—77—3
Malononitrile
15150
148—82—3
Melphalan
0151
7439—97-6
Mercury
0152
126—98—7
Methacrylonitrile
(I,T)
U092
124—40—3
Methanamirie, N—methyl—
(I)
U029
74—83-9
Methane, bromo—
U045
74—87—3
Methane, chloro—
(I,T)
U046
107—30-2
Methane, chloromethoxy—
0068
74-95—3
Methane, dibromo—
13080
75-09—2
Methane, dichloro—
0075
75—71—8
Methane, dichlorodifluoro—
17138
74-88—4
Methane,
iodo—
U119
62-50—0
Methanesulfonic acid, ethyl ester
0211
56-23—5
Methane, tetrachloro—
U153
74—93—1
Methanethiol
(I,T)
U225
75—25—2
Methane, tribromo—
13044
67-66—3
Methane, trichloro—
U12l
75-69—4
Methane, trichiorofluoro—
(1036
57—74—9
4,7—Methano—1R—indene,
1,2,4,5,6,7,8,8—
octachloro—2, 3, 3a,4,7,7a—hexahydro—
U154
67—56—1
Methanol
(I)
13155
91—80-5
Methapyrilene
U142
143—50—0
1,3,4—Metheno—2H—cyclobuta(cdpentalen—
2—one,
1, la, 3,3a,4, 5,5,Sa, 5b,6—
decachlorooctahydro—
13247
72-43-5
Methoxychlor
U154
67—56—1
Methyl alcohol
(I)
13029
74—83—9
Methyl bromide
U186
504—60—9
1—Methylbutadiene
(I)
13045
74—87—3
Methyl chloride (I,T)
Ul56
79—22—1
Methyl chiorocarbonate
(I,T)
~J226
71—55—6
Methylchloroform
0157
56—49—5
3-Methylcholanthrene
13158
101—14—4
4,4’—Methylenebie(2—chloroaniline)
U068
74—95—3
Methylene bromide
13080
75—09—2
Methylene chloride
13159
78—93-3
Methyl ethyl ketone (HEX)
(I,T)
U160
1338—23-4
Methyl ethyl ketone peroxide
(R,T)
17138
74—88-4
Methyl iodide
Ul61
108—10—i
Methyl isobutyl ketone
(I)
13162
80—62-6
Methyl methacrylate
(I,T)
11161
108—10—i
4—Methyl—2—pentartone
(I)
U164
56—04—2
Methylthiouracil
UOlO
50—07-7
Mitomycin C
0059
20830-81—3
5,12—Naphthacenedione, 8—acetyl—10—((3—
amino—2
,
3,6—trideoxy) -alpha-L-lyxo—
hexapyranosyl
)
oxyl 3—7,8,9,10-tetra—
hydro-6,
8, 11—trihydroxy—1-methoxy-,
(BS—cis)—
13167
134—32—7
1—Naphthalenamine
35
13168
91—59—8
2—Naphthalenamine
0026
494—03—1
Naphthaleneamine, N,N’—bis(2—chloro—
ethyl)—
11165
91—20—3
Naphthalene
13047
91—58—7
Naphthalene, 2—chloro—
11166
130—15—4
1,4-Naphthalenedione
17236
72—57—i
2,7—Naphthalenediaulfonic acid,
3,3’—
(3,3’—dimethyl—(1,1’—biphenyl—4,4’—
diyl)bis(azo)bis5—antino—4-hydroxy)—,
tetrasodium salt
13166
130—15—4
1,4—Naphthoquinone
13167
134—32—7
alpha—Naphthylainine
13168
91—59-8
beta-Naphthylamine
15217
10102—45—1
Nitric acid, thallium
(1+)
salt
(1169
98—95—3
Nitrobenzene
(I,T)
U170
100—02—7
p—Nitrophenol
15171
79—46—9
2—Nitropropane
(I,T)
13172
924—16—3
N—Nitrosodi—n—butylamine
11173
1116—54—7
N—Nitrosodiethanolamine
0174
55—18—5
N—Nitrosodiethylamine
U176
759-73-9
N—Nitroso—N-ethylurea
U177
684-93—5
N—Nitroso—N-methylurea
13178
615—53—2
N—Nitroso—N—methylurethsne
15179
100-75—4
N—Nitrosopiperidine
13180
930-55—2
N—Nitrosopyrrol.idine
0181
99—55-8
S—Nitro—o-toluidine
U193
1120—71-4
1,2—Oxathiolane, 2,2—dioxide
U058
50-18-0
2H—1, 3, 2—Oxazaphosphorin—2-arnine, N,N-
bis(2-chloroethyl)tetrahydro-,
2-oxide
11115
75—21—8
Oxirane
(I,T)
0126
765—34—4
Oxiranecarboxyaldehyde
0041
106-89—8
Oxirane,
(chloromethyl)—
0182
123—63—7
Paraldehyde
U183
608—93—5
Pentachlorobenzene
11184
76—01—7
Pentachloroethar~e
0185
82—68—8
Pentachloronitrobenzene
(PCNB)
See F027
87—86—5
Pentachlorophenol
13161
108—10—1
Pentanol,
4—methyl—
13186
504—60—9
1,3—Pentadiene
(I)
0187
62-44—2
Phenacetin
U188
108—95—2
Phenol
U048
95—57-8
Phenol, 2—chloro—
U039
59—50—7
Phenol, 4—chloro—3—methyl—
13081
120—83—2
Phenol,
2,4—dichioro—
15082
87—65—0
Phenol, 2,6—dichloro—
11089
56-53—1
Phenol, 4,4’—(1,2-diethyl—l,2—ethenedi-
yl)bis—,
(E)—
13101
105—67—9
Phenol,
2,4—dimethyl—
13052
1319—77—3
Phenol, methyl—
11132
70—30—4
Phenol,
2,2’—methylenebis3,
4,6—tn—
chioro—
15170
100—02—7
Phenol, 4—nitro—
See F027
87-86—5
Phenol, pentachloro-
See F027
58—90—2
Phenol, 2,3,4,6—tetrachloro-~
See F027
95—95—4
Phenol,
2,4,5—tnichloro-
See F027
88—06—2
Phenol, 2,4,6—trichloro—
U150
148-82—3
L—Phenylalanine, 4—bis(2-chloroethyl)-
amino-
(1145
7446—27—7
Phosphoric acid,
lead
(2+)
salt
(2:3)
0087
3288—58—2
Phosphorodithioic acid, O,0—diethyl S—
methyl ester
0189
1314—80—3
Phosphorus sulfide
(A)
36
U190
85—44-9
Phthalic anhydride
0191
109—06—8
2—Picoline
0179
100—75—4
Piperidine,
l—nitroso—
U192
23950—58—5
Pronamide
17194
107—10—8
1—Propanamine
(I,T)
13111
621-64-7
1-Propanamine, N—nitroso-N-propyl-
U110
142—84—7
1—Propanamine, N—propyl—
(I)
11066
96-12-8
Propane,
1,2-dibromo—3-chloro—
U083
78—87—S
Propane, 1,2—dichloro-
U149
109—77—3
Propanedinitrile
15171
79-46—9
Propane, 2—nitro—
(I,T)
13027
108—60-1
Propane,
2,2 ‘—oxybis2-chloro—
See P027
93—72—1
Propanoic acid, 2—(2,4,5—trichloro—
phenoxy)
-
17193
1120—71—4
1,3—Propane sultone
U235
126-72-7
1-Propanol, 2,3—dibromo—, phosphate
(3:1)
U140
78—83—1
1-Propanol, 2—methyl—
(I,T)
U002
67—64—1
2—Propanone
(I)
13007
79-06—1
2—Properiamide
U084
542—75—6
1—Propene, 1,.3—dichloro—
17243
1888—71—7
1—Propene,
1,1,2, 3,3,3—hexachloro—
U009
107—13—i
2—Propenenitrile
U152
126—98—7
2-Propenenitrile,
2—methyl—
(1,1’)
U008
79—10—7
2—Propenoic acid
(I)
Uli3
140—88—5
2—Propenoic acid,
ethyl ester
(I)
13118
97—63—2
2—Propenoic acid,
2—methyl—,
ethyl
ester
0162
80—62—6
2—Propenoic acid,
2—methyl—, methyl
ester
(I,T)
See P027
93—72—i
Propionic acid, 2—(2,4,5—trichloro—
phenoxy)—
0194
107—10—8
n—Propylamine
(I,T)
0083
78-87—5
Propylene dichioride
11148
123—33—1
3, 6—Pyridazinedione,
1, 2—dihydro—
U196
110—86—1
Pyridine
13191
109—06—8
Pyridine, 2—methyl—
U237
66—75—1
2,4—(1H,3H)—Pyrimidinedione,
5—(bis(2—
chloroethyl
)
amino
-
0164
58—04—2
4(1H)-Pyrimidinone,
2, 3-dihydro-6-
methyl -2—thioxo—
0180
930—55—2
Pyrrolidine, 1—nitroso—
13200
50—55—5
Reserpine
13201
108-46—3
Resorcinol
(1202
P 81—07—2
Saccharin and salts
13203
94—59—7
Safrole
0204
7783—00—8
Selenious acid
11204
7783—00—8
Selenium dioxide
U205
7488—56—4
Selenium sulfide
13205
7488—56—4
Selenium sulfide SeS2
(R,T)
13015
115—02—6
L—Serine, diazoacetate
(ester)
See F027
93—72—1
Silvex
(2,4,5—TP)
U206
18883—66—4
Streptozotocin
U103
77—78—1
Sulfuric acid,
dimethyl ester
U189
1314—80—3
Sulfur phosphide
(A)
See P027
93—76—5
2,4,5—T
0207
95—94—3
1,2,4, 5—Tetrachlorobenzene
13208
630—20—6
1,1,1,2—Tetrachioroethane
0209
79—34—5
1,1,2,2—Tetrachloroethane
13210
127—18—4
Tetrachloroethylene
See F027
58—90—2
2,3,4,6—Tetrachlorophenol
0213
109—99—9
Tetrahydrofuran
(I)
37
13214
563—68—8
Thallium
(I) acetate
13215
6533—73-9
Thallium
(I) carbonate
13216
7791—12—0
Thallium
(I) chloride
U216
7791—12—0
Thallium chloride TIC1
U2i7
10102—45—1
Thallium
(I) nitrate
U218
62—55-S
Thioacetamide
13153
74—93-1
Thiomethanol (I,T)
U244
137-26-8
Thioperoxydicarbonic diamide
(H2N)C(S)
)2S2, tetramethyl—
U219
62—56-6
Thiourea
11244
137—26—8
Thiram
11220
108—88—3
Toluene
0221
25376—45-8
Toluenediamine
U223
26471—62—5
Toluene diisocyanate
(R,T)
0328
95—53-4
o—Toluidine
13353
106—49—0
p—Toluidine
U222
636—21-S
o-Toluidine hydrochloride
u011
61—82—S
1H—1, 2,4—Triazol—3—amine
0227
79—00—5
1, 1,2-Trichloroethane
U228
79—01-6
Trichioroethylene
0121
75—69—4
Trichloromonofluoromethane
See F027
95—95—4
2,4,5—Trichlorophenol
See P027
88-06—2
2,4,6—Trichlorophenol
U234
99—35—4
1,3,5—Trinitrobenzene
(R,T)
(1182
123—63—7
1, 3,5—Trioxane,
2,4,6—trimethyl—
0235
126—72-7
Tris(2,3—dibromopropyl) phosphate
U236
72-57-1
Trypan blue
15237
66—75—1
Uracil mustard
13176
759—73—9
Urea, N—ethyl—N—nitroso-
0177
684—93-5
Urea, N-methyl—N—nitroso—
0043
75—01-4
Vinyl chloride
0248
P 81—81-2
Warfarin,
and salts, when present at
concentrations of 0.3
or less
0239
1330—20—7
Xylene
(I)
13200
50—55—5
Yohimban—16—carboxylic acid,
11,17—di—
methoxy-18—
(3,4, 5—trimethozybenzoyl)
—
oxy—,
methyl ester,
(3beta, l6beta, i7alpha, l8beta,20aipha)
—
0249
1314—84—7
Zinc phosphide
Zn3P2,
when present at
concentrations of
10
or less
(Source:
Amended at
_____
Ill.
Reg.
_________,
effective
_________
Section 721.Appendix H
Hazardous Constituents
Common Name
Chemical Abstracts Name
Chemical
Hazard-
Abstracts
ous
Number
Waste
Number
Acetonitrile
Same
75—05—8
13003
Acetophenone
Ethanone,
1—phenyl—
98—86—2
0004
2-Acetylaminofluorene
Acetamide, N-9H—fluoren—2—
53—96—3
11005
yl-
Acetyl
chloride
Same
75—36—5
0006
l-Acetyl—2—thiourea
Acetamide,
N—
591—08—2
P002
(aminothioxomethyl
)
—
Acrolein
2—Propenal
3.07—02—8
P003
Acrylainide
2—Propenamide
79—06—1
U007
Acrylonitrile
2-Propenenitrile
107—13—1
U009
Aflatoxina
Same
1402—68—2
38
Allyl alcohol
Allyl chloride
Aluminum phosphide
4—Aminobiphenyl
5—(Aminomethyl
)
—3—isoxazolol
4—Arninopyridine
Arnitrole
Arnmonium vanadate
Aniline
Antimony
Antimony compounds, N.0.S.
(not otherwise specified)
Aramite
Arsenic
Arsenic
compounds,
N.0.S.
Arsenic acid
Arsenic pentoxide
Arsenic trioxide
Auramine
Azaserine
Barium
Barium compounds,
N.0.S.
Barium cyanide
Benz(cacridine
Benz(aanthracene
Benzal
chloride
Benmene
Benzerzearsonic acid
Benzidine
Benzo (b
fluoranthene
Benzo
j
)
fluoranthene
Benzo
(
k) fluoranthene
Benzo(apyrene
p—Benzoquinone
Benzotrichloride
Benzyl chloride
Beryllium powder
Beryllium compounds, N.0S.
Bromoacet one
Bromoform
Propanal, 2-methyl—2—
(methylthio)—,
0—
(methylamino) carbonyl
*
oxime
1,4,5, 8-Dimethanonaph—
thalene, 1,2,3,4,10,10—
hexachloro—1,4, 4a,5,8, 8a—
hexahydro—, j1—alpha, 4—
alpha, 4a—beta, S-alpha, 8—
alpha, 8a-beta)—
2-Propen—1-ol
1—Propene, 3—chioro—
Same
1,1 ‘—Biphenyl—4—amine
3(2H)—Isoxazolone,
5-
(aminomethyl)
-
4-Pyridinamine
1H—1, 2, 4—Triazol—3—amine
Vanadic acid,
ammonium
salt
Benzenamine
Same
Sulfurous acid,
2—
chloroethyl—,
2—(4—(l, 1—
dimethylethyl
)phenoxy3—1-
methylethyl ester
Arsenic
Arsenic acid Ha3As044
Arsenic oxide As2.20S~
Arsenic oxide As2.20~
Benzenamine, 4,4’—carbon—
imidoylbis
(N,
N—dimethyl—
L—Serine, diazoacetate
(ester)
Same
Same
Same
Same
Benzene,
(dichioromethyl)
—
Same
Arsonic acid,
phenyl—
1,l’—Biphenyl—4,
4’—
diaxnine
Benz(eacephenanthrylene
Same
Same
Seine
2,S—Cyclohexadiene—1, 4—
dione
Benzene,
(trichloromethyl)—
Benzene,
(chioromethyl
)
—
Same
2—Propanone,
1—bromo—
Methane, tribromo—
107—18—6
107—18—6
20859—73—
8
92—67—1
2763—96—4
62—53—3
0012
7440—36—0
140—57—8
115—02—6
13015
7440—39—3
542—62—1
225—51—4
56—SS—3
98—87—3
71—43—2
98—OS—S
92—87—S
205—99—2
205—82—3
207—08—9
50—32—8
106—51—4
98—07—7
(1023
598—31—2
P017
75—25—2
U225
Aldicarb
Aldrin
116—06—3
P070
309—00—2
P004
P005
P006
P007
P008
U011
U119
504—24—5
61—82—5
7803—55—6
7440—38—2
7778—39—4
1303—28—2
1327—53—3
492—80—8
POlO
Poll
P02.2
13014
P013
U016
0018
13017
13018
U02 1
0022
13197
100—44—7
7440—41—7
P028
P015
39
4—Bromophenyl phenyl ether
Benzene,
1-bromo-4--
101-55—3
13030
phenoxy-
Brucine
Strychnidin—10—one,
2,3—
357—57—3
P018
dimethoxy-
Butyl benzyl plzthalate
1,2—Benzenedicarboxylic
85—68—7
acid,
butyl phenylmethyl
ester
Cacodylic acid
Arsenic acid,
dimethyl—
75—60—5
Ul36
Cadmium
Seine
7440-43-9
Cadmium compounds,
N.0.S.
Calcium chromate
Chronic acid H2CrO4,
13765—19—
U032
calcium salt
0
Calcium cyanide
Calcium cyanide Ca(CN)2
592—01—8
P021
Carbon disulfide
Same
75—15—0
P022
Carbon oxyf.uoride
Carbonic difuoride
353—50-4
11033
Carbon tetrachloride
Methane, tetrachloro—
56—23—5
0211
Chloral
Acetaldehyde, trichloro—
75—87—6
13034
Chlorambucil
Benzenebutanoic acid,
305—03—3
U035
4(bis—(2—chloroethyl)—
amino—
Chlordane
4,7-Methano—1H—indene,
57-74-9
0036
1,2, 4, 5, 6, 7,8, 8—octa—
chloro—2
,
3,3a,4,7, la—hexa—
hydro-
Chlordane, alpha and gamma
13036
isomers
Chlorinated benzenes,
N.O.S.
Chlorinated ethane, N.O.S.
Chlorinated fluorocarbons,
N.0.S.
Chlorinated naphthalene,
N.o.S.
Chlorinated phenol, N.O.S.
Chlornaphazine
Naphthalenaxnine,
N,N’-
494—03-1
U026
bis (2—chloroethyl
)
—
Chioroacetaldehyde
Acetaldehyde,
chloro—
107—20-0
P023
Chloroalkyl ethers, N.0.S.
p-Chloroaniline
Benzenaxnine,
4—chloro-
106-47—8
P024
Chiorobennene
Benzene, chloro-
108—90—7
13037
Chlorobenzi.ate
Benzeneacetic acid,
4—
510—15—6
U038
chloro—alpha— (4-
chlorophenyl
)
—alpha—
hydroxy—,
ethyl ester
p-Chloro—m-cresol
Phenol, 4—chloro—3—methyl-
59—50—7
U039
2—Chloroethyl vinyl ether
Ethene,
(2—ch.oroethoxy)—
110—75—8
15042
Chloroform
Methane, trichioro—
67-66—3
11044
Chloromethyl methyl ether
Methane, chloromethoxy—
107—30—2
U046
beta—Chloronaphthalene
Naphthalene, 2-chioro-
91—58-7
11047
o—Chlorophenol
Phenol, 2—chloro—
95—57-8
U048
1-(o—Chlorophenyl)thiourea
Thiourea,
(2—chloro—
5344—82—1
P026
phenyl)-
Chloroprene
l,3—Butadiene,
2-chioro—
126—99—8
3—Chioropropionitrile
Propanenitrile,
3—chloro-
542—76—7
P027
Chromium
Same
7440—47—3
Chromium compounds,
N.O.S.
Chrysene
Same
218—01—9
(3050
Citrus red No.
2
2—Naphthalenol,
1—(2,5—
6358—53—8
dmmethoxyphenyl) azo
3—
Coal tar creosote
Same
8007—45—2
Copper cyanide
Copper cyanide CuCN
544-92-3
P029
Creosote
Same
(1051
Cresols
(Cresylic
acid)
Phenol,
methyl—
1319—77—3
U052
40
Crotonaldehyde
Cyanides (soluble salts and
complexes), N.0.S.
Cyanogen
Cyanogen bromide
Cyanogen chloride
Cycasin
2—Cyclohexyl—4,6—dinitrophenol
Cyclophosphamide
2,4—D
2,4—D, salts and esters
Dibenz (a, h )acridine
Dibenz(a,
j
3
acridine
Dibenz( a,h)anthracene
7H—Dibenzo
f
c, g
3
carbazole
Dibenzo( a,epyrene
Diberizoa, hpyrene
Dibenzo(a, ipyrene
2.,2—Dibromo—3—chloropropane
Dibutyl phthalate
o—Dichlorobenzene
m—Dichlorobenzene
p—Dich1orobenzene
Dichlorobenzene,
N.O.S.
3,3’-Dichlorobenzidine
1,4-Dichloro—2—butene
Dichlorodifluoromethane
Dichloroethylene,
N.0. S.
1, 1-Dichloroethylene
1,2—Dichloroethylene
Ethanedinitrile
Cyanogen bromide
(CN)Br
Cyanogen chloride (CN)Cl
Beta—D—glucopyranoside,
(methyl-ONN-azoxy)methyl-
Phenol,
2—cyciohexyl—4,
6—
dinitro—
2H-i,3,2-Oxazaphosphorin—
2—amine, N,N—bis (2—chioro-
ethyl
)
tetrahydro—, 2—oxide
Acetic acid,
(2,4—
dichlorophenoxy)
—
Acetic acid,
(2,4—
dichlorophenoxy)
—,
salts
and esters
5,
12-Naphthacenedione,
8-
acetyl—10—
(3—amino—2, 3,6—
trideoxy—alpha—L-lyxo-
hexopyranosyl
)oxy—
7,8, 9,10—tetrahydro—
6,8,11—trihydroxy—l-meth-
oxy—, 8S—cis)—
Benzene,
1,1’—(2,2—
dichloroethylidene)bis4-
chioro—
Benzene,
1,1 ‘—(dichloro—
ethenylidene)bis(4-chloro-
Benzene, i,1’—(2,2,2—tri—
chloroethylidene)bis(4-
chioro—
Carbaxnothioic acid,
bis(1—
methylethyl)—,
S—(2
,
3—
dichloro—2-propenyl)
ester
Same
Seine
Same
Same
Naphtho(l,2,3,4—def—
chrysene
Dibenzo (b, def
3
chrysene
Benzo
rst
pentaphene
Propane, 1,2-dibromo—3—
chloro—
1,2—Benzenedicarboxylic
acid,
dibutyl ester
Benzene,
1, 2—dichloro—
Benzene,
1,3—dichloro—
Benzene,
1, 4-dichioro-
Benzene, dichloro—
(1,1’—Biphenyl)—4,4’—
diamine,
3,3‘-dichloro-
2—Butene,
1, 4—dichloro-
Methane, dichlorodifluoro-
Dichloroethylene
Ethene,
1, 1-dichioro—
Ethene,
1, 2-dichloro—,
(E)—
4170—30—3
U053
P030
460—19—5
506—68—3
506—77—4
14901-08—
7
131—89—S
50—18-0
94—75—7
13240
U240
20830—81—
13059
3
72—55—9
50—29—3
13061
2303—16—4
13062
226—36—8
224—42—0
53—70—3
194—59—2
192—65—4
189—64—0
189—55—9
96—12—B
84—74—2
(1069
95—50—1
541—73—1
106—46—7
25321—22—
6
91—94—i
764—41—0
75—71—8
25323—30—
2
75—35—4
156—60—S
2-Butertal
P031
U246
P033
P034
U058
Daunornycin
DDD
DDE
DDT
Diallate
72—54—8
13060
13063
U064
UO66
0070
13071
U072
0073
13074
11075
13078
13079
4.
Dichloroethyl ether
Dichioroisopropyl ether
Dichloromethoxyethane
Dichloromethyl ether
2,4—Dichlorophenol
2,6—Dichiorophenol
Dichiorophenylarsine
Dichloropropane,
N.0.S.
Dichloropropanol,
N.0.S.
Dichioropropene, N.0.S.
1,3—Dichloropropene
Dieldrin
1,2:3, 4—Diepoxybutane
Diethylarsine
1,4-Diethyleneoxide
Diethyihexyl phthalate
N, N’ —Diethyihydrazine
0,0-Diethyl-S-methyl dithio—
phosphate
Diethyl-p-nitrophenyl
phosphate
Diethyl phthalate
0,0—Diethyl 0-pyrazinyl
phosphorothioate
Diethylstilbestrol
Dihydrosafrole
Diisopropylfluorophoephate
(DFP)
D
imethoate
3,3 ‘—Dimethoxybenzidine
p—Dimethylaminoazobenzene
7,12-Dimethylbena(a anthracene
3,3 ‘-Dimethylbenzidine
Dimethylcarbanloyl chloride
1, 1—Diiuethylhydrazine
1, 2-Dimethylhydrazine
Ethane, 1,1’-oxybis(2—
chloro—
Propane,
2,2’-oxybis2-
chioro—
Ethane,
1,1’
-
(methylene—
bis(oxy)bis2—chloro-
Methane, oxybis(chloro-
Phenol,
2, 4-dichloro-
Phenol,
2,6—dichloro—
Arsonous dichioride,
phenyl-
Propane,
dichloro—
Propanol, dichioro-
1—Propene,
dichioro-
1—Propene,
1, 3—dichloro—
2,7:3, 6—Dimethanonaphth2,
3—boxirene,3,4,5,6,9,9—
hexachloro—1a,2,2a, 3,6,
6a, 7, 7a-octahydro-,
(laalpha,2beta, 2aalpha,
3beta,
6beta,
6aalpha,
7beta,
7aalpha)
-
2,2’—Biozirane
Arsine, diethyl—
1,4—Dioxane
1,2—Benzenedicarboxy1~c
acid,
bis(2—ethylhexyl)
ester
Hydrazine,
1,2—diethyl—
Phosphorodithioic acid,
0,0—diethyl S—methyl ester
Phosphoric acid, diethyl
4-nitropheny.
ester
1,2—Benzenedicarboxylic
acid,
diethy.
ester
Phosphorothioic acid, 0,0-
diethyl
O-pyrazinyl
ester
Phenol,
4,4’—(1,2—diethyl—
1,2—ethenediyl)bis—,
(B)—
1, 3-Benzodioxole, 5—
propyl-
Phosphorofluoridic acid,
big
(
1-methylethyl) ester
Phoaphorodithioic acid,
0,0-dimethyl 5-
(
2-(methyl—
amino)—2-oxoethylj ester
(l,1’—Biphenyl)—4,4’—
diaxnine,
3,3’—dimethoxy—
Benzenamine,
N,N-dimethyl—
4— (phenylazo)
—
Benzaanthracene,
7,12—
dimethyl—
(l,1’—Biphenyl3—4,4’—
diamine,
3,3’-dimethyl-
Carbamic chloride,
dimethyl—
Hydrazine,
1,1—dimethyl—
Hydrazine,
1,2—dimethyl-
26638—19—
7
26545—73—
3
26952—23—
8
542—75—6
U084
60—57—1
P037
1615—80—1
13086
3288—58—2
13087
311—45—5
P041
84—66—2
0088
297—97—2
P040
56—53—1
15089
94-58—6
11090
55—91—4
P043
60-51—5
P044
119—90—4
U091
119—93—7
11095
79—44—7
U097
57—14—7
0098
540—73—8
13099
111—44—4
108—60—i
11025
U02 7
111—91—1
0024
542—88—1
120—83—2
87—65—0
696—28—6
P016
U081
0082
P036
1464—53—5
692—42—2
123—91—1
117—81—7
U08 5
P038
Ul08
13028
60—11—7
57—97—6
U093
13094
42
alpha,alpha-Dimethylphen-
Benzeneethanamine,
alpha,
122—09-8
P046
ethylamine
alpha-dimethyl—
2,4-Dimethylphenol
Phenol,
2,4-dimethyl—
105—67—9
0101
Dimethylphthalate
1,2-Benzenedicarboxylic
131—11—3
11102
acid,
dimethyl ester
Dimethyl
sulfate
Sulfuric acid, dimethyl
77—78—1
U103
ester
Dinitrobenzene,
N.0.S.
Benzene,
dinitro—
25154—54—
5
4,6—Dinitro—o—cresol
Phenol,
2—methyl—4,6—
534—52—1
P047
dinitro—
4,6—Dinitro—o—cresol salts
P047
2,4-Dinitrophenol
Phenol,
2,4—dinitro-
51-28—5
P048
2,4—Dinitrotoluene
Benzene,
l—methyl-2,4—
121—14—2
13105
dinitro-
2,6-Dinitrotoluerie
Benzene, 2—methyl-1,3-
606—20—2
0106
dinitro—
Dinoseb
Phenol,
2—(i—
88—85—7
P020
methylpropyl)-4,6—dinitro—
Di—ri-octyl phthalate
1,2—Benzenedicarboxylic
117—84—0
0107
acid,
dioctyl ester
Diphenylamine
Benzenamine, N-phertyl-
122-39-4
1,2—Diphenylhydrazine
Hydrazine,
1,2-diphenyl-
122—66—7
U109
Di—n—propylnitrosamine
1—Propanamine, N—nitroso—
621—64—7
17111
N—propyl-
IJisulfoton
Phospharodithioic acid,
298—04—4
P039
0,0-diethyl S—(2—(ethyl-
thio)ethyl
ester
Dithiobiuret
Thioimidodicarbonic
541—53—7
P049
diamide ((H~2N)C(S))~NH
Endosulfan
6, 9—Methano—2,4,3—benzo—
115—29—7
P050
dioxathiepen,6, 7,8,9,10,
1O—hexachloro—l, 5, Sa, 6,9,
9a-hexahydro-, 3-oxide,
Endothal
7—
145—73—3
P088
Oxabicyclo(2.2
•
1 heptane—
2, 3—dicarboxylic acid
Endrin
2,7:3, 6—Dimethanonaphth—
72—20—8
P051
(2,3—boxirene,
3,4,5,6,9,
9—hexachioro-la, 2, 2a, 3,6,
6a, 7, 7a—octahydro—,
(1a
alpha, 2beta, 2abeta,3alpha,
Galpha,
Gabeta, 7beta,
7aalpha)—,
Eadrin metabolites
P051
Epichlorohydrin
Oxirane, (chloromethyl)—
106-89—8
(1041
Epinephrine
l,2—Benzenediol, 4-(1—
51—43-4
P042
hydroxy—2-(methylamino
)
-
ethyl—,
(R)—
Ethyl carbamate
(urethane)
Carbamic acid,
ethyl ester
51—79—6
U238
Ethyl cyanide
Propanenitrile
107—12-0
P101
Ethylenebisdithiocarbamic acid
Carbamodithioic acid,
1,2—
111—54—6
11114
ethanediy.bis—
Ethylenebisdithiocarbamic
11114
acid,
salts and esters
Ethylene dibromide
Ethane, i,2-dibromo—
106—93—4
13067
Ethylene dichloride
Ethane,
1,2-dichloro—
107—06-2
13077
Ethylene glycol monoethyl
Ethanol,
2—ethoxy-
110-80-5
13359
ether
Ethyleneimine
Aziridine
151—56-4
POS4
Ethylene oxide
Oxirane
75—21—8
13115
Ethylenethiourea
2—Imidazolidinethione
96—45—7
U1l6
43
Ethylidine
dichloride
Ethyl methacrylate
Ethyl methanesulfonate
Famphur
Pluoranthene
Fluorine
Fluoroacetamide
Pluoroacetic acid,
sodium salt
Formaldehyde
Formic acid
Glycidylaldehyde
Halomethanee,
N.O.S.
Heptachlor
Heptachlor epoxide
Heptachlor epoxide
(alpha,
beta4
and gamma isomers)
Heptachlorodibenzofurans
Heptachlorodibenzo—p-dioxins
Hexachlorobenzene
Hexachlorobutadiene
Hexachlorocyclo-pentadiene
Hexachlorodibenzo-p-dioxins
Hexachlorodibenzofurans
Hexachloroethane
Hexachlorophene
Hexachloropropeae
Hexaethyltetraphosphate
Bydrazine
Hydrogen cyanide
Hydrogen fluoride
Hydrogen sulfide
Indeno1,2
,
3-cdpyrene
Isobutyl alcohol
Isodrin
Ethane,
1, 1-dichioro—
2—Propenoic acid,
2—
methyl-,
ethyl
ester
Methaneaulfonic acid,
ethyl ester
Phosphorothioc acid,
0—4-
(dimethylamino) sulfonyl—
phenyl
0,0-dimethyl
ester
Same
Same
Acetamide,
2—fluoro—
Acetic acid,
fluoro—,
sodium
salt
Same
Seine
Oxiranecarboxaldehyde
4,7—Methano—1H—indene,1,4,
5,6,7,8,8-heptachloro—3a,
4,7,7a—tetrahydro—
2, 5—Methano-2H-indeno
1,
2bjoxirene,
2,3,4,5,6, 7,7—
heptachloro—1a, ib, 5, 5a, 6,
6a-hexahydro—,
(laalpha, lb
beta,2alpha, 5alpha, Sabeta,
6beta,6aalpha)
—
Ethane,
hexachioro—
Phenol, 2,2 ‘—methylene—
bis3,
4,6—trichioro—
1—Propene, 1,1,2,3,3,3—
hexachloro—
Tetraphosphoric acid,
hexaethyl ester
Same
Hydrocyanic
acid
Hydrofluoric acid
Hydrogen sulfide H2S
Same
i—Propanol, 2—methyl—
1,4:5,8—Dimethanonaph—
thalene, 1,2,3,4,10, 10—
hexachloro—1, 4, 4a, 5,8, 8a—
hexahydro—,
(lalpha,
4alpha, 4abeta,Sbeta, Bbeta,
8abeta)—,
1,3—Benzodioxole,
5—(1—
propenyl)
—
1,3,4-Hetheno—2H—cyclo—
butafcdpentalen—2—one,
1, Ia, 3, 3a, 4, 5,5, Sa, Sb,6—
decachlorooctahydro—,
75—34—3
97—63—2
62—50—0
52—85—7
P097
12.8—74—1
Ul27
87—68—3
11128
77—47—4
13130
67—72—1
U131
70—30—4
11132
1888—71.-7
0243
757—58—4
P062
13076
U118
13119
206—44—0
7782—41—4
640—19—7
62—74—8
50—00—0
64—18—16
765—34—4
U120
P056
P057
P058
0122
(3123
U126
76—44—8
P059
1024—57—3
Benzene, hexachloro—
1, 3—Butadiene,
1,1,2,3,4,
4—hexachloro—
1,3-Cyclopentadiene,
1,2,3,4,5,5—hexachioro—
302—01—2
74—90—8
7664—39—3
7783—06—4
193—39—5
78—83—1
465—73—6
Isosafrole
Kepone
U133
P063
13134
11135
0137
0140
P060
120—58-1
0141
143—50”0
U142
44
Lasiocarpine
2-Butenoic acid,
2-methyl—
303—34—1
U143
7-(2,3—dihydroxy-2—(1-
methoxyethyl) -3—methyl—i—
oxobutoxymethyl—2
,3,5,
7a-tetrahydro-1H-pyrrol—
izin—l—yl ester,
(1S—(1—
alpha(Z),7(2S*,3R*),
laalpha
3—
Lead
Same
7439—92—1
Lead and compounds, N.0.S.
Lead acetate
Acetic acid,
lead
(2+)
301—04—2
(1144
salt
Lead phosphate
Phosphoric acid, lead
(2+)
7446—27-7
13145
salt
(2:3)
Lead eubacetate
Lead, bis(acetato-0)tetra—
1335—32—6
13146
hydroxytri-
Lindane
Cyclohexane,
1,2,3,4,5,6—
58—89—9
U129
hexachloro—,
ialpha,
2alpha, 3beta,4alpha,
Salpha,6beta)—
Maleic anhydride
2,5—Purandione
108—31-6
13147
Maleic hydrazide
3,6—Pyridazinedione,
1,2—
123—33—1
13148
dihydro-
Malononitrile
Propanedinitrile
109—77-3
Ul49
Melphalan
L—Phenylalanine,
4-(bis(2—
148—82—3
0150
chloroethyl)amino
-
Mercury
Same
7439—97-6
UlSl
Mercury
compounds,
N.0.S.
Mercury fulminate
~‘ulminicacid, mercury
628—86—4
P065
(2+)
salt
Methacrylonitrile
2—Propenenitrile,
2—
126—98—7
Ul52
methyl—
Methapyrilene
1,2—Ethanediamine, N,N—
91—80-5
Ul55
dimethyl—N’—2-pyridinyl—
N’
-
(2-thienylmethyl
)
-
Metholniyl
Ethanimidothioic acid, N—
16752—77—
P066
(((methyl—
5
amino)carbonyloxy—,
methyl ester
I.lethoxychlor
Benzene,
1,l’—(2,2,2—
72—43—5
11247
trichloroethylidene)bis 4—
methaxy—
Methyl bromide
Methane, bromo-
74-83—9
13029
Methyl chloride
Methane,
chloro—
74—87—3
13045
Methylchlorocarbonate
Carbonochloridic acid,
79-22—1
11156
methyl ester
Methyl chloroform
Ethane, 1,1,l—trichloro—
71—55-6
11226
3—Methyloholanthrene
Benzjaceanthrylene,
1,2—
56—49—S
11157
dihydro—3—methyl—
4,4’—Methylenebis(2—chloro—
Beazenarnine,
4,4’—
2.01—14—4
U158
aniline)
methylenebis (2-chloro—
Methylene bromide
Methane, dibromo-
74-95—3
13068
Methylene chloride
Methane, dichloro—
75—09—2
0080
Methyl ethyl ketone
(MEK)
2-Butanone
78—93—3
0159
Methyl ethyl ketone peroxide
2-Butanone, peroxide
1338—23-4
(1160
Methyl hydrazine
Bydrazine,
methyl—
60—34—4
P068
Methyl iodide
Methane,
iodo—
74—88—4
11138
Methyl isocyanate
Methane,
isocyanato—
624—83—9
P064
2-I4ethyllactonitrile
Propanenitrile, 2-hydroxy-
75—86—5
P069
2-methyl—
Methyl rnethacrylate
2-Propenoic acid,
2—
80—62-6
0162
methyl—, methyl ester
45
Methyl methanesulfonate
Methanesulfonic acid,
66—27-3
methyl ester
Methyl parathion
Phosphorothioic acid,
0,0—
298—00-0
P071
dimethyl 0- (4—nitrophenyl)
ester
Methylthiouracil
4—(1R)—Pyrimidinone,
2,3—
56—04—2
11164
dihydro—6—methyl—2-thioxo-
Mitomycin C
Azirino(2’,
3’:3,
50—07—7
U0i0
4 pyrrolo(
1,
2—a indole—4,
7—dione, 6-amino-8—
(~aminocarbonyl)oxy)-
znethyl—i, la,2,8,8a,8b—
hexahydro-8a-methoxy—5
—
methyl—,
la—S—
(laalpha,
Sbeta,8aalpha, 8balpha)
3—,
MNNG
Guanidine, N-methyl—N’-
70-25—7
11163
nitro—N—nitroso—
Mustard gas
Ethane, i,1’-thiobis2-
505—60—2
132.65
chioro—
Naphthalene
Same
91—20—3
0165
1,4-Naphthoquinone
1,4-Naphthalenedione
130—15-4
0166
alpha-Naphthylaniine
1-Naphthaleaainine
134—32-7
U167
beta—Naphthylamine
2-Naphthalenaxnine
91-59—8
13168
alpha—Naphthylthiourea
Thiourea,
1—naphthalenyl—
86—88—4
P072
Nickel
Same
7440-02—0
Nickel compounds,
N.0.S.
Nickel carbonyl
Nickel carbonyl Ni(C0)4,
13463—39—
P073
(T—4)—
3
Nickel cyanide
Nickel cyanide Ni(CN)2
557—19—7
P074
Nicotine
Pyridine,
3—(1—methyl—2—
54—11—5
P075
pyrrolidinyl)—,
(S)—
Nicotine salts
P075
Nitric oxide
Nitrogen oxide NO
10102—43—
P076
9
p-Nitroaniline
Benzenamine,
4—nitro-
100-01—6
P077
Nitrobenzene
Benzene, nitro-
98—95—3
P078
Nitrogen dioxide
Nitrogen oxide NO2
10102—44—
P078
0
Nitrogen mustard
Ethanamine,
2-chloro-N—(2-
51—75-2
chloroethyl)—N—methyl—
Nitrogen mustard, hydro-
chloride salt
Nitrogen mustard N-oxide
Ethanamine,
2-chloro—N--(2—
126-85—2
chloroethyl)-N-methyl-,
N-
oxide
Nitrogen mustard,
N-oxide,
hydrochloride salt
Nitroglycerin
1,2,3—Propanetriol,
55—63—0
P081
trinitrate
p—Nitrophenol
Phenol, 4—nitro—
100—02—7
11170
2—Nitropropane
Propane, 2—nitro—
79—46—9
0171
Nitrosarninea,
N.O.S.
35576—91—
1
N—Nitrosodi—n-buty.arnine
1—Butanamine, N-butyl-N—
924—16—3
Ul72
nitroso—
N—Nitrosodiethanolaxnine
Ethanol, 2,2’—(nitroso—
1116—54—7
0173
ixnino)bis—
N—Nitrosodiethylamine
Ethanainine, N—ethyl-N—
55—18—5
Ui74
nitroso—
N—Nitrosodimethylamine
Nethanamine, N—methyl-N-
62-75—9
P082
nitroso—
N-Mitroao-N—ethylurea
Urea, N—ethyl-N-nitroao-
759—73—9
13176
46
N-Nitrosomethylethylamine
Ethanarnine, N-methyl-N-
10595—95—
nitroso—
6
N—Nitroso—N-methylurea
Urea,
N—methyl—N-nitroso—
684—93—S
U177
N—Nitroso—N-methylurethane
Carbamic acid,
615—53—2
15178
methylnitroso-, ethyl
ester
N-Nitroaomethylvinylamine
Vinylamine, N—methyl-N-
4549—40-0
P084
nitroso-
N—Nitrosomorpholine
Morpholine,
4-nitroso—
59—89—2
N—Nitroaonornicotine
Pyridine,
3-
(
1—nitroso-2—
3.6543—55—
pyrrolidinyl)—,
(5)—
8
N—Nitrosopiperidine
Piperidine, 1-nitroso—
100—75—4
0179
N—Mitrosopyrrolidine
Pyrrolidine, 1—nitroso-
930-55-2
(1180
N—Nitrososarcosine
Glycine, N—methyl—N-
13256—22-
nitroso—
9
5—Nitro-o-toluidine
Benzenamine,
2-methyl—5—
99—55—8
U181
nitro-
Octamethylpyrophosphoramide
Diphosphoramide,
152 -16—9
P08S
octamethyl—
Osmium tetroxide
Osmium oxide 0s04,
(T-4)
20816—12-
P087
0
Paraldehyde
1,3,5—Trioxane, 2,4,6—tn—
123-63—7
U1B2
methyl—
Parathion
Phosphorothioic acid, 0,0-
56—38-2
P089
diethyl 0-(4-nitrophenyl)
ester
Pentachlorobenzene
Benzene, pentachloro—
608—93—S
U183
Pentachlorodibenzo-p-dioxins
Pentachlorodibenzofurans
Pentachloroethane
Ethane, pentachloro-
76—01—7
U184
Pentachloronitrobenzene (PCNB)
Benzene, pentachioronitro—
82—68—8
13185
Pentachiorophenol
Phenol, pentachloro—
87—86—S
See
P027
Phertacetin
Acetainide, N—(4—
62—44—2
15187
ethoxyphenyl
)
—
Phenol
Same
108—95—2
11188
Phenylenediamine
Benzenediamine
25265—76—
3
Phenylxnercury acetate
Mercury,
(acetato-
62—38—4
P092
O
)
phenyl—
Phenylthiourea
Thiourea, phenyl—
103—85—5
P093
Phoagene
Carbonic dichloride
75—44—5
P095
Phosphine
Same
7803—51—2
P096
Phorate
Phosphorodithioic acid,
298—02—2
P094
O,O-diethyl S—
((ethylthio)methyl) ester
Phthalic acid esters,
N..O.S.
Phthalic anhydride
1,3—Isobenzofurandione
85—44—9
Ul90
2—Picoline
Pyridine, 2-methyl—
109—06—8
U191
Polychlorinated biphenyls,
N.O.S.
Potassium cyanide
Same
151—50—8
P098
Potassium silver cyanide
Argentate(1—), bis(cyano—
506—61—6
P099
C)—,
potassium)
Potassium i,entachlorophenate
Peritachlorophenol,
7778736
None
i~otassiumsalt
Pronamide
Benzamide,
3,5—dichloro—M—
23950—58—
112.92
(1,l—dimethyl-2-propynyl)
-
S
1,3—Propane aultone
1,2—Oxathiolane, 2,2—
1120—71—4
13193
dioxide
n-Propylamine
1—Propanarnine
107—10—8
13194
Propargy.
alcohol
2—Propyn-1—ol
107—19—7
P102
47
Propylene dichloride
1,2-Propylenimine
Propylthiouracil
Pyridme
Reserpine
Resorc inol
Saccharin
Saccharin salts
Safrole
Selenium
Selenium compounds,
Selenium dioxide
Selenium sulfide
Selenourea
Silver
Silver compounds,
N.O.S.
Silver cyanide
Silvex
(2,4,5—TP)
Sodium cyanide
Sodium
ientachloronhenate
Streptozotocin
Strychnine
Strychnine salts
TCDD
1,2,4,5—Tetrachlorobenzene
Tetrachlorodibenzo—p-dioxins
Tetrachlorodibenzofurans
Tetrachioroethane, N.O. S.
1,1,1,2—Tetrachioroethane
1,1,2,2—Tetrachloroethane
Tetrachloroethylene
2,3,4, 6—Tetrachlorophenol
2,3,4, 6—Tetrachiorophenol,
potassium salt
2,3,4, 6—Tetrachlorophenol,
sodium salt
Tetraethyldithiopyrophosphate
Tetraethyl lead
Tetraethylpyrophosphate
Tetranitromethane
Thallium
Thallium compounds
Propane,
1, 2-dichioro-
Aziridine, 2—methyl—
4
(
1H)—Pyrimidinone,
2,3—
dihydro-6-propy 1.-2—thioxo-
Same
Yohimban—l6—carboxylic
acid,
11, i7—dimethoxy—l8—
((3,4,5-trimethoxy—
benzoyl
)oxy 3-,
methyl
ester,
(3beta,l6beta,
l7alpha,l8beta, 2oalpha)—,
1,3—Benzenediol
1,2—Benzisothiazol—3 (2H)
-
one, 1,1—dioxide
1,3—Benzodioxole,
5—(2—
propenyl)—
Same
Se.enioua
acid
Selenium sulfide SeS2
Same
Same
Silver cyanide AgCN
Propanoic acid,
2—(2,4,5—
trichlorophenoxy)
—
Sodium cyanide NaCN
Pentachiorophenol,
sodium
salt
D—Glucose,
2—deoxy—2—
~methylnitrosoamino)ca—
rbonyljamino—
Strychnidin—lO-one
Dibenzo(b,el,4dioxin,
2,3,7, 8—tetrachloro—
Benzene, 1,2,4,5—
tetrachloro—
Ethane, tetrachloro—,
NO.5.
Ethane, 1,1,1,2—
tetrachioro—
Ethane,
1,1,2,2—
tetrachloro—
Ethene, tetrachloro—
Phenol,
2,3,4,6—
tetrachloro—
Same
Same
Thiodiphosphoric acid,
tetraethy.
ester
Plumbane, tetraethyl-
Diphosphoric
acid,
tetraethyl ester
Methane, tetranitro—
Same
0083
P067
108—46—3
11201
81—07—2
15202
11202
94—59—7
0203
7782—49—2
7783—00—8
7488—56—4
630—10—4
7440—22—4
57—24—9
P108
P108
1746—01—6
95—94—3
11207
25322—20—
7
630—20—6
U208
79—34—5
13209
127—18—4
U210
58—90—2
See
P027
53535276
None
25567559
None
3689—24—5
P109
78—00—2
P110
107—49—3
P111
509—14—8
P112
7440—28—0
78—87—5
75—55—8
51—52—S
110—86—1
50—55—S
U196
0200
N.O.S.
0204
13205
P103
P104
See
F02 7
P106
None
U206
506—64—9
93—72—1
143—33—9
131522
18883—66—
4
48
Thallic oxide
Thallium
(I)
acetate
Thallium
(I)
carbonate
Thallium
(I)
chloride
Thallium
(I)
nitrate
Thallium selenite
Thallium
(I)
sulfate
Thioacetarnide
Thiofanox
Thiomethanol
Thiophenol
Thiosemicarbazide
Thiourea
Thirain
Toiuene
Toluenediamine
Toluene—2
,
4-diamine
Toluene—2
,
6—diamine
Toluene—3, 4—diamine
Toluene diisocyanate
o—Toluidine
o-Toluidine hydrochloride
p-Toluidine
Toxaphene
1,2,4—Trichlorobenzene
1,1,2—Trichioroethane
Trichloroethylene
Trichloromethanethiol
Trichloromonofluoromethane
2,4,5—Trichiorophenol
2,4,6-Trichlorophenol
2,4,5—T
Trichioropropane,
N ~0.S.
1,2,3-Tnichloropropane
0,0,O—Triethylphosphorothioate
1,3,5—Trinitrobenzene
Tris (l—aziridinyi ) phosphine
sulfide
Tria (2,3—dibromopropyl)
phosphate
Thallium oxide Tl203
Acetic
acid,
thallium
(1+)
salt
Carbonic acid, dithallium
(1+)
salt
Thallium chloride T1C1
Nitric acid, thallium
(1+)
salt
Selenious acid, dithallium
(1+)
salt
Sulfuric acid, dithallium
(1+)
salt
Ethanethioamide
2—Butanone,
3, 3-dimethyl—
1— (methylthio)
—,
0—
(methylamino) carbonyl)
-
oxime
Methanethiol
Benzenethiol
Hydraziriecarbothioamide
Same
Thioperoxydicarbonic
diamide
((H2N)C(S) 12S2,
tetramethyl-
Benzene, methyl—
Benzenediamine, ar—methyl—
1,3’-Benzenediaxnine,
4—
methyl-
1,3—Benzenediamirie,
2—
methyl-
1,2—Benzenediarnine,
4—
methyl-
Benzene,
1,3—diisocyanato—
methyl—
Benzenamine, 2—methyl—
Benzeneamine, 2—methyl—,
hydrochloride
Benzenaxnine, 4—methyl-
Same
Benzene,
1,2,4—trichioro—
Ethane,
1, l,2—trichloro—
Ethene,
trichloro—
Methanethiol, trichioro—
Methane, trichlorof2.uoro—
Phenol, 2,4,5—trichloro—
Phenol, 2,4,6—trichloro—
Acetic
acid,
(2,4,5—
trichlorophenoxy)
—
Propane,
1,2,3—trichloro—
Phosphorothioic acid,
O,O,O-triethy.
ester
Benzene,
1,3,5—trinitro—
Azinidine,
1,1’,1”—phos—
phinothioyl
idynetris—
l—Propanol,
2,3—dibromo—,
phosphate (3:1)
6533—73—9
U2l5
7791—12—0
10102—45—
1
12039—52—
0
7446—18—6
62—55—S
39196—18—
4
108—88—3
25376—45—
8
95—80—7
823—40—5
496—72—0
26471—62—
5
9S—53—4
636—21—5
106—49—0
8001—35—2
120—82—1
79—00—S
U227
79—01—6
11228
75—70—7
P118
75—69—4
11121
95—95—4
See
P027
88—06—2
See
P027
93—76—5
See
P027
25735—29—
9
96—18—4
126—68—1
99—35—4
15234
52—24—4
126—72—7
(3235
1314—32—S
563—68—8
P113
11214
74—93—1
108—98—S
79—19—6
62—56—6
137—26—8
U216
0217
P114
P2.15
11218
P045
13153
P014
P116
P219
0244
U220
13221
U223
11328
13222
17353
P123
49
Vanadium pentoxide
Vinyl chloride
Wartarm
Warfarin salts,
when present
at concentrations less than
0.3.
Warfarin salts, when present
at concentrations greater than
0.3.
Zinc cyanide
Zinc phosphide
Zinc phosphide
(Source:
Amended at
2, 7—Naphthalenedisulfonic
acid, 3,3’—((3,3’—
dimethyl
1,1’—biphenyl
-
4,4’—diyl)bis(azobis5—
axnino-4-hydroxy-,
tetrasodium salt
2,4—(lH,3H)—
Pyrimidinedione,
5-(bis(2-
chloroethyl) amino)-
Vanadium oxide
V205
Ethene,
chloro—
2H-1-Benzopyran—2—one,
4—
hydroxy-3- (3-oxo-1-phenyl-
butyl)-, when present at
concentrations less than
0.3.
2H—2.-Benzopyran—2—one,
4—
hydroxy-3— ( 3-oxo—1--phenyl—
butyl)-, when present at
concentrations greater
than 0.3.
Zinc cyanide Zn(CN)2
Zinc phosphide P2Zn:, when
present at concentrations
greater than 10.
Zinc phosphide P2Zn3, when
present at concentrations
of 10
or less.
Ill. Reg.
_________,
effective
TITLE 35:
ENVIRONMENTAL PROTECTION
SUBTITLE 3:
WASTE DISPOSAL
CHAPTER
I:
POLLUTION CONTROL
BOARD
SUBCHAPTER
C:
HAZARDOUS WASTE OPERATING REQUIREMENTS
PART 724
STANDARDS FOR OWNERS
AND
OPERATORS OF
HAZARDOUS
WASTE
TREATMENT, ST0RAGE~
AND
DISPOSAL FACILITIES
SUBPART A:
GENERAL PROVISIONS
Purpose, Scope and Applicability
Relationship to Interim Status Standards
Trypan
blue
Uracil mustard
72—57—1
13236
66—75—1
U237
Warfarm
1314—62—1
75—01—4
81—81—2
P120
11043
U248
81—81—2
P001
U248
Pool
P121
P122
557—21—1
132.4—84—7
1314—84—7
U249
Section
724.101
724.103
Section
724. 110
724.111
724.112
724.113
724.114
724. 115
724. 116
SUBPART B:
GENERAL FACILITY STANDARDS
Applicability
Identification Number
Required Notices
General Waste Analysis
Security
General Inspection Requirements
Personnel Training
50
724.2.17
General Requirements for Ignitable, Reactive or Incompatible
Wastes
724.118
Location Standards
724.119
Construction Quality Assurance Program
SUBPART C:
PREPAREDNESS
AND
PREVENTION
Section
724.130
Applicability
724.131
Design and Operation of Facility
724.132
Required Equipment
724.133
Testing and Maintenance of Equipment
724.134
Access to Communications or Alarm System
724.135
Required Aisle Space
724.137
Arrangements with Local Authorities
SUBPART D:
CONTINGENCY
PLAN AND EMERGENCY PROCEDURES
Section
724.150
Applicability
724.151
Purpose and Implementation of Contingency Plan
724.152
Content of Contingency Plan
724..153
Copies of Contingency Plan
724.154
Amendment of Contingency Plan
724.155
Emergency Coordinator
724.156
Emergency Procedures
SUBPART E:
MANIFEST SYSTEM, RECORDKEEPING
AND REPORTING
Section
724. 170
Applicability
724.171
Use of Manifest System
724.172
Manifest Discrepancies
724.173
Operating Record
724.174
Availability, Retention and Disposition of Records
724.175
Annual Report
724.176
Unmanifeated Waste Report
724.177
Additional Reports
SUBPART F:
RELEASES PROM SOLID WASTE MANAGEMENT UNITS
Section
724.190
Applicability
724.191
Required Programs
724.192
Groundwater Protection Standard
724.193
Hazardous Constituents
724.194
Concentration Limits
724.195
Point of Compliance
724.196
Compliance Period
724.2.97
General Groundwater Monitoring Requirements
724.198
Detection Monitoring Program
724.199
Compliance
Monitoring
Program
724.200
Corrective Action Program
724.201
Corrective Action for Solid Waste Management Units
SUBPART C:
CLOSURE AND POST-CLOSURE
Section
724.210
Applicability
724.211
Closure Performance Standard
724.22.2
Closure Plan; Amendment of Plan
724.213
Closure; Time Allowed For Closure
724.22.4
Disposal or Decontamination of Equipment,
Structures and Soils
724.215
Certification of Closure
724.216
Survey Plat
724.217
Post-closure Care and Use of Property
724.218
Post-closure Plan; Amendment of Plan
51
724.219
Post—closure Notices
724.220
Certification of Completion of Post—closure Care
SUBPART H:
FINANCIAL REQUIREMENTS
Section
724.240
Applicability
724.241
Definitions of Terms As Used In This Subpart
724.242
Cost Estimate for Closure
724.243
Financial Assurance for Closure
724.244
Cost Estimate for Post—closure Care
724.245
Financial
Assurance
for
Post—closure
Care
724.246
Use of a Mechanism for Financial Assurance of Both Closure and
Post—closure Care
724.247
Liability Requirements
724.248
Incapacity
of
Owners
or
Operators,
Guarantors
or
Financial
Institutions
724.251
Wording of the Instruments
SUBPART
I:
USE
AND MANAGEMENT
OF CONTAINERS
Section
724.270
Applicability
724.271
Condition of Containers
724.272
Compatibility of Waste With Container
724.273
Management
of
Containers
724.274
Inspections
724.275
Containment
724.276
Special Requirements for Ignitable or Reactive Waste
724.277
Special Requirements for Incompatible Wastes
724.278
Closure
SUBPART J:
TANK
SYSTEMS
Section
724.290
Applicability
724.291
Assessment of Existing Tank System’s Integrity
724.292
Design and Installation of New Tank Systems or Components
724.293
Containment and Detection of ReleaBes
724.294
General Operating Requirements
724.295
Inspections
724.296
Response to Leaks or Spills and Disposition of Leaking or unfit—
for—use
Tank
Systems
724.297
Closure and Post—Closure Care
724.298
Special Requirements for Ignitable or Reactive Waste
724.299
Special Requirements for Incompatible Wastes
724.300
Special Requirements for Hazardous Wastes P020,
P021,
P022,
P023,
F026 and F027
SUBPART
K:
SURFACE IMPOUNDMENTS
Section
724.320
Applicability
724.321
Design and Operating Requirements
724.322
Action Leakage Rate
724.323
Response Actions
724.326
Monitoring and Inspection
724.327
Emergency Repairs; Contingency Plans
724.328
Closure and Post-closure Care
724.329
Special Requirements for Ignitable or Reactive Waste
724.330
Special Requirements for Incompatible Wastes
724.331
Special Requirements for Hazardous Wastes F020,
F021, F022,
P023,
F026 and F027
SUBPART L:
WASTE PILES
Section
52
724.350
Applicability
724.351
Design and Operating Requirements
724.352
Action Leakage Rate
724.353
Response Action Plan
724.354
Monitoring and Inspection
724.356
Special Requirements for Ignitable or Reactive Waste
724.357
Special Requirements for Incompatible Wastes
724.358
Closure and Post-closure Care
724.359
Special Requirements for Hazardous Wastes P020,
P021, P022,
F023,
F026 and P027
SUBPART M:
LAND TREATMENT
Section
724.370
Applicability
724.371
Treatment
Program
724.372
Treatment Demonstration
724.373
Design and Operating Requirements
724.376
Food—chain Crops
724.378
Unsaturated Zone Monitoring
724.379
Recordkeeping
724.380
Closure and Post-closure Care
724.381
Special Requirements for Ignitable or Reactive Waste
724.382
Special Requirements for Incompatible Wastes
724.383
Special Requirements for Hazardous Wastes F020,
F021, P022,
P023,
P026 and P027
SUBPART N:
LANDFILLS
Section
724.400
Applicability
724.401
Design and Operating Requirements
724.402
Action Leakage Rate
724.403
Monitoring and Inspection
724.404
Response Actions
724.409
Surveying
and
Recordkeeping
724.410
Closure and Post—closure Care
724.412
Special
Requirements
for
Ignitable
or
Reactive
Waste
724.413
Special Requirements for Incompatible Wastes
724.414
Special Requirements for Bulk and Containerized Liquids
724.415
Special Requirements for Containers
724.416
Disposal of Small Containers of Hazardous Waste in Overpacked
Drums
(Lab Packs)
724.417
Special Requirements for Hazardous Wastes P020,
F021,
F022, F023,
P026 and F027
SUBPART 0:
INCINERATORS
Section
724.440
Applicability
724.441
Waste Analysis
724,442
Principal Organic Hazardous Constituents
(POHCS)
724.443
Performance Standards
724.444
Hazardous Waste Incinerator Permits
724.445
Operating Requirements
724.447
Monitoring
and
Inspections
724.451
Closure
SUBPART S:
CORRECTIVE
ACTION FOR SOLID WASTE MANAGEMENT UNITS
Section
724.652
Corrective Action Management Units
724.653
Temporary Units
SUBPART W:
DRIP PADS
Section
53
Applicability
Assessment of existing drip pad integrity
Design and installation of new drip pads
Design and operating requirements
Inspections
Closure
SUBPART X:
MISCELLANEOUS UNITS
Applicability
Environmental Performance Standards
Monitoring, Analysis,
Inspection, Response, Reporting and
Corrective Action
Post—closure Care
SUBPART AR:
AIR EMISSION
STANDARDS
FOR PROCESS VENTS
Control Devices
SUBPART BB:
AIR EMISSION STANDARDS FOR EQUIPMENT LEAKS
Applicability
Definitions
Standards:
Standards:
Standards:
Standards:
Standards:
Standards:
Standards:
Connectors
Standards:
Delay of Repair
Standards:
Closed—vent Systems and Control Devices
Alternative Percentage Standard for Valves
Skip Period Alternative for Valves
Test Methods and Procedures
Recordkeeping Requirements
Reporting Requirements
Applicability
Design and operating standards
Closure and post—closure care
Recordkeeping Instructions
EPA Report Form and Instructions
(Repealed)
Cochran’s Approximation to the Behrens—Fisher
Test
Examples of Potentially Incompatible Waste
Groundwater Monitoring List
AUTHORITY:
Implementing Section 22.4 and authorized by Section 27 of the
Environmental Protection Act
(Ill.
Rcv.
Ctat.
1901,
ch.
111½,
pars.
1022.4- and
1027-
(415 ILCS 5/22.4 and
27)-).
Applicability
Definitions
Standards:
Process Vents
Standards:
Closed-vent Systems and
Test methods and procedures
Recordkeeping requirements
Reporting Requirements
724.670
724. 671
724. 672
724, 673
724. 674
724. 675
Section
724.700
724.701
724. 702
724. 703
Section
724.930
724.931
724.932
724. 933
724.934
724.935
724.936
Section
724.950
724. 951
724. 952
724. 953
724. 954
724. 955
724.9 56
724.9 57
724.958
724.959
724. 960
724. 961
724. 962
724. 963
724. 964
724.965
Section
724.1100
724.3.101
724.1102
Pumps in Light Liquid Service
Compressors
Pressure Relief Devices in Gas/Vapor Service
Sampling Connecting Systems
Open—ended Valves or Lines
Valves in Gas/Vapor or Light
Liquid
Service
Pumps, Valves, Pressure Relief Devices and Other
SUBPART DD:
CONTAINMENT BUILDINGS
724.Appendix A
724.Appendix B
724.Appendix
13
724.Appendix B
724.Appendix
I
Student’s T-
54
SOURCE:
Adopted in R82—19,
53 PCB
131,
at 7 Ill. Reg.
2.4059, effective
October
12,
1983; amended in R84—9 at 9 Ill.
Reg.
11964, effective July 24,
1985; amended in R85—22 at 10111. Reg.
1136,
effective January 2,
2.986;
amended in R86—l at 10
Ill. Reg.
14119, effective August
12,
1986;
amended in
R86—28 at
11 Ill. Reg. 6138,
effective March 24,
1987; amended in R86—28 at
11
Ill. Reg.
8684, effective April 21,
1987;
amended in R86—46 at 11 Ill.
Reg.
13577, effective August 4,
1987;
amended in R87—5 at
11 Ill. Reg.
19397,
effective November
12,
1987; amended in R87—39 at
12
Iii. Reg.
13135,
effective July 29,
1988; amended in R88—16 at
13 Ill. Reg. 458, effective
December 28,
1988;
amended in R89—1 at
13 Ill. Reg.
18527, effective November
13, 1989;
amended in R90—2 at 14 Ill.
Reg.
14511, effective August 22,
1990;
amended in R90—1O at 14 Ill. Reg.
16658, effective September 25,
1990; amended
in R90—11 at 15
Ill.
Reg.
9654, effective June 17,
1991; amended in R91-1 at
15
Ill.
Req.
14572, effective October
1,
1991;
amended in R91—13 at 16 Ill.
Req. 9833,
effective June
9,
1992;
amended in R92—1 at 16 Ill. Req.
17666,
effective November
6,
1992;
amended in R92—lO at
17 Ill. Reg.
5806, effective
March 26,
1993; amended in R93—4 at
17
Ill.
Req.
20830, effective November 22,
1993; amended in R93—16 at 18
Ill. Reg.
6973, effective April 26,
1994;
amended in R94—7 at 18 Ill. Reg.
12487, effective July 29,
1994; amended in
R94—17 at
Ill. Req.
,
effective
SUBPART 0:
CONTINGENCY PLAN
AND EMERGENCY PROCEDURES
Section 724.152
Content of Contingency Plan
a)
The contingency plan must describe the actions facility personnel
must take to comply with Section~724.151 and Scotion- 724.156
in
response to fires, explosions~or any unplanned sudden or
non—sudden release of hazardous waste or hazardous waste
constituents to air, soil~or surface water at the facility.
b)
If the owner or operator has already prepared
a Spill Preventionr
Control and Countermeasures
(SPCC) Plan in accordance with 40 CFR
Part 112
or
15103.QQ, or some other emergency or contingency plan,
the owner or operator need only amend that plan to incorporate
hazardous waste management provisions that are sufficient to
comply with the requirements of this Part.
C)
The plan must describe arrangements agreed to by local police
departments, fire departments, hospitals, contractors~and state
and local emergency response teams to coordinate emergency
services pursuant to Section 724.137.
d)
The plan must list names, addresses~and phone
numbers
(office and
home) of all persons qualified to act as emergency coordinator
(see Section
724.155), and this list must be kept up to date.
Where more than one person is listed, one must be named
as primary
emergency coordinator and others must be listed in the order in
which they will assume responsibility as alternates.
For new
facilities, this information must be supplied to the Agency at the
time
of certification, rather than at the time of
permit
application.
e)
The plan must
include a list of all emergency equipment at the
facility such
as fire extinguishing systems, spill control
equipment,
communications and alarm systems
(internal and
external)
and decontamination equipment,
where this equipment
is
required.
This list must be kept up to date.
In addition, the
plan must include the location and a physical description of each
item on the list,
and
a brief outline of its capabilities.
55
f)
The plan must include an evacuation plan for facility personnel
where there
is
a possibility that evacuation could be necessary.
This plan must describe signal(s) to be used to begin evacuation,
evacuation routes and alternate evacuation routes
(in cases where
the primary routes could be blocked by releases of hazardous waste
or fires).
(Source:
Amended at
_____
Ill. Req.
________,
effective
Section 724.156
Emergency Procedures
a)
Whenever there is an imminent or actual emergency situation,
the
emergency coordinator
(or the designee when the emergency
coordinator is on call) muctshall immediately:
1)
Activate internal facility alarms or communication systems,
where
applicable, to notify all facility personnel;
and
2)
Notify appropriate state or local agencies with designated
response roles if their help
is needed.
b)
Whenever there is a release,
fire4, or explosion,
the emergency
coordinator muatshall immediately identify the character, exact
source,
amount4, and areal extent of any released materials.
The
emergency coordinator may do this by observation or review of
facility records or manifests,
and, if necessary, by chemical
analysis.
C)
Concurrently,
the emergency coordinator muatahall assess possible
hazards to human health or the environment that may result from
the release,
fire4, or explosion.
This assessment must consider
both direct and indirect effects of the release,
fire.,, or
explosion (e.g., the effects of any toxic,
irritating,, or
asphyxiating gases that are generated, or the effects of any
hazardous surface water run—off from water or chemical agents used
to control
fire and heat—induced explosions).
d)
If the emergency coordinator determines that the facility has had
a release,
fire,, or explosion whichthat could threaten human
health, or the environment, outside the facility, the emergency
coordinator muct-shall report the findings as
follows:
1)
If the assessment indicates that evacuation of local
areas
may be advisable,
the emergency coordinator muctshal~
immediately notify appropriate local authorities.
The
emergency coordinator must be available to help appropriate
officials decide whether local areas should be evacuated;
and
2)
The emergency coordinator muctshall immediately notify
either the government official designated as the on—scene
coordinator for that geographical area7~(in the applicable
regional contingency plan under 40 CFR Part
-l5-lO~,QQ).,,or the
National Response Center
(using their 24—hour toll free
number 800f~424—8802). The report must include:
A)
Maine and telephone number of reporter;
B)
Name and address of facility;
C)
Time
and type of incident
(e.g., release,
fire);
56
13)
Name and quantity of material(s)
involved, to the
extent known;
E)
The extent of injuries,
if any; and
F)
The possible hazards to human health,
or the
environment, outside the facility.
e)
During an emergency,
the emergency coordinator muatshall take all
reasonable measures necessary to ensure that
fires, explosions,,
and releases do not occur,
recur, or spread to other hazardous
waste at the facility.
These measures must include, where
applicable, stopping processes and operations,
collecting and
containing release waste, and removing or isolating containers.
f)
If the facility stops operations
in response to
a fire, explosion
or release, the emergency coordinator mustshall monitor for leaks,
pressure buildup,
gas generation,,, or ruptures in valves, pipes, or
other equipment, wherever this
is appropriate.
g)
Immediately after an emergency, the emergency coordinator
muatshall provide for treating, storing, or disposing of recovered
waste,
contaminated soil or surface water,
or any other material
that results from
a release, fire, or explosion at the facility.
BOARD NOTE:
Unless the owner or operator can demonstrate,
in
accordance with 35
Ill.
Adxn.
Code 721.103(c) or
(d), that the
recovered material is not a hazardous waste, the owner or operator
becomes
a generator of hazardous waste and muatshall manage it in
accordance with all applicable requirements of 35 Ill.
Adm.
Code
722, 723, and 724.
h)
The emergency coordinator muotahall ensure that, in the affected
area(s) of the facility:
1)
No waste that may be incompatible with the released material
is treated,
stored,,, or disposed of until cleanup procedures
are completed;
and
2)
All emergency equipment listed in the contingency plan
is
cleaned and fit for its intended use before operations are
resumed.
i)
The owner or operator muotshall notify the Agency, and appropriate
state and local authorities, that the facility is in compliance
with paragraph
(h) before operations are resumed in the affected
area(s) of the facility.
j)
The owner or operator muctshall note in the operating record the
time, date, and details of any incident that requires implementing
the contingency plan.
Within 15 days after the incident,
the
owner or operator muotehali. submit a written report on the
incident to the Agency.
The report must include:
1)
Name,
address, and telephone number of the owner or
operator;
2)
Name, address, and telephone number of the facility;
3)
Date, time, and type of incident
(e.g.,
fire,
explosion);
4)
Maine and quantity of material(s)
involved;
57
5)
The extent of injuries,
if any;
6)
An assessment of actual or potential hazards to human health
or the environment,
where this is applicable; and
7)
Estimated quantity and disposition of recovered material
that resulted from the incident.
(Source:
Amended at
_____
Ill. Reg.
________,
effective
____________________________
)
SUBPART H:
FINANCIAL REQUIREMENTS
Section 724.251
Wording of the Instruments
The Board incorporates by reference 40 CFR 264.151 (198.8~),as amended at
52.
Fed.
Reg. 4-2~3229960, DcptcmberJune lGQ, 199~.
This Section incorporates no
later amendments or editions.
The Agency willehall promulgate standardized
forms based on 40 CFR 264.151 with such changes in wording as are necessary
under Illinois law.
Any owner or operator required to establish financial
assurance under this Subpart shall do so only upon the standardized forms
promulgated by the Agency.
The Agency shall reject any financial assurance
document
wh-ic-hthat
is not submitted on such standardized forms.
(Source:
Amended at
_____
Ill. Reg.
,
effective
Section 724.Appendix A
Recordkeeping Instructions
seeThe
Board hereby incorporates by reference 40 CFR 264, Appendix
I ~1992I,
as amended at
59 Fed. Req.
13891
(Mar.
24, 1994~. This incorporation includes
no
later amendments or editions.
(Source:
Amended at
_____
Ill. Reg.
________,
effective
_________
TITLE 35:
ENVIRONMENTAL PROTECTION
SUBTITLE C:
WASTE DISPOSAL
CHAPTER
I:
POLLUTION CONTROL
BOARD
SUBCHAPTER
c:
HAZARDOUS
WASTE OPERATING REQUIREMENTS
PART
725
INTERIM STATUS
STANDARDS
FOR
OWNERS AND
OPERATORS OF
HAZARDOUS
WASTE
TREATMENT, STORAGE, AND
DISPOSAL FACILITIES
SUBPART
A:
GENERAL
PROVISIONS
Section
725.101
Purpose, Scope and Applicability
725.104
Imminent Hazard Action
SUBPART
8:
GENERAL FACILITY
STANDARDS
Section
725.2.10
Applicability
725.2.11
USEPA Identification Number
725.112
Required Notices
725.2.13
General Waste Analysis
725.114
Security
725.115
General Inspection Requirements
725.116
Personnel Training
725.117
General Requirements for Ignitable, Reactive or Incompatible
Wastes
58
725.118
Location Standards
725.119
Construction Quality Assurance Program
SUBPART C:
PREPAREDNESS
AND PREVENTION
Section
725.130
Applicability
725.131
Maintenance and Operation of Facility
725.132
Required Equipment
725.133
Testing and Maintenance of Equipment
725.134
Access to Communications or Alarm System
725.135
Required Aisle Space
725.137
Arrangements with Local Authorities
SUBPART
D:
CONTINGENCY PLAN AND EMERGENCY PROCEDURES
Section
725
•
150
Applicability
725.151
Purpose
and Implementation of Contingency Plan
725.152
Content
of
Contingency
Plan
725.153
Copies of Contingency Plan
725.154
Amendment of Contingency Plan
725.155
Emergency Coordinator
725.156
Emergency Procedures
SUBPART E:
MANIFEST
SYSTEM,
RECORDKEEPIMG AND REPORTING
Section
725.170
Applicability
725.171
Use of Manifest System
725.172
Manifest Discrepancies
725.173
Operating Record
725.174
Availability, Retention and Disposition of Records
725.175
Annual Report
725.176
Unmanifested Waste Report
725.177
Additional Reports
SUBPART F:
GROUNDWATER MONITORING
Section
725. 190
Applicability
725.191
Groundwater Monitoring System
725.192
Sampling and Analysis
725.193
Preparation, Evaluation and Response
725.194
Recordkeeping and Reporting
SUBPART G:
CLOSURE
AND
POST-CLOSURE
Section
725.210
Applicability
725.211
Closure Performance Standard
725.212
Closure Plan;
Amendment
of Plan
725.213
Closure; Time Allowed for Closure
725.214
Disposal or Decontamination of Equipment,
Structures and Soils
725.215
Certification of Closure
725.216
Survey Plat
725.217
Post—closure Care and Use of Property
725.218
Post—closure Plan;
Amendment
of Plan
725.219
Post—Closure Notices
725.220
Certification of Completion of Post-Closure Care
SUBPART
H:
FINANCIAL
REQUIREMENTS
Section
725.240
Applicability
725.242.
Definitions of Terms as Used in thia Subpart
725.242
Cost Estimate for Closure
725.243
Financial Assurance for Closure
59
725.244
Cost Estimate for Post-closure Care
725.245
Financial Assurance for Post—closure Monitoring and Maintenance
725.246
Use of a Mechanism for Financial Assurance of Both Closure and
Post—closure Care
725.247
Liability Requirements
725.248
Incapacity of
Owners
or Operators, Guarantors or Financial
Institutions
725.251
Promulgation of
Forms
(Repealed)
SUBPART
I:
USE
AND MANAGEMENT
OF CONTAINERS
Section
725.270
Applicability
725.271
Condition of Containers
725.272
Compatibility of Waste with Container
725.273-
Management of Containers
725.274
Inspections
725.276
Special Requirements for Ignitable or Reactive Waste
725.277
Special Requirements
for Incompatible Wastes
SUBPART
J:
TANK
SYSTEMS
Section
725.290
Applicability
725.291
Assessment of Existing Tank System’s Integrity
725.292
Design and Installation of New Tank Systems or Components
725.293
Containment and Detection of Releases
725.294
General Operating Requirements
725.295
Inspections
725.296
Response to leaks or spills and disposition of Tank Systems
725.297
Closure and Post-Closure Care
725.298
Special Requirements for Ignitable or Reactive Waste
725.299
Special Requirements for Incompatible Wastes
725.300
Waste Analysis and Trial TestB
725.301
Generators of 100 to 1000 kg/mo.
SUBPART K:
SURFACE IMPOUNDMENTS
Section
725.320
Applicability
725.321
Design and Operating Requirements
725.322
Action Leakage Rate
725.323
Response Actions
725.324
Containment System
725.325
Waste Analysis and Trial Tests
725.326
Monitoring and Inspections
725.328
Closure and Post-Closure Care
725.329
Special Requirements for Ignitable or Reactive Waste
725.330
Special Requirements
for Incompatible Wastes
SUBPART L:
WASTE PILES
Section
725.350
Applicability
725.352.
Protection from Wind
725.352
Waste Analysis
725
•
353
Containment
725.354
Design and Operating Requirements
725.355
Action Leakage Rates
725.356
Special Requirements for Ignitable or Reactive Waste
725.357
Special Requirements for Incompatible Wastes
725.358
Closure and Post—Closure Care
725.359
Response Actions
725.360
Monitoring and Inspection
SUBPART N:
LAND
TREATMENT
60
Section
725.370
Applicability
725.372
General Operating Requirements
725.373
Waste Analysis
725.376
Food Chain Crops
725.378
Unsaturated Zone (Zone of Aeration)
Monitoring
725.379
Recordkeeping
725.380
Closure and Post—closure
725.381
Special Requirements for Ignitable or Reactive Waste
725.382
Special Requirements for Incompatible Wastes
SUBPART
N:
LANDFILLS
Section
725.400
Applicability
725.401
Design Requirements
725.402
Action Leakage Rate
725.403
Response Actions
725.404
Monitoring and Inspection
725.409
Surveying and Recordkeeping
725.410
Closure and Post-Closure
725.412
Special Requirements for Ignitable or Reactive Waste
725.413
Special Requirements for Incompatible Wastes
725.414
Special Requirements for Liquid Wastes
725.415
Special Requirements for Containers
725.416
Disposal of Small Containers of Hazardous Waste in Overpacked
Drums
(Lab Packs)
SUBPART 0:
INCINERATORS
Section
725. 440
Applicability
725.441
Waste Analysis
725.445
General Operating Requirements
725.447
Monitoring and Inspection
725.451
Closure
725.452
Interim Status Incinerators Burning Particular Hazardous Wastes
SUBPART P:
THERMAL TREATMENT
Section
725.470
Other Thermal Treatment
725.473
General Operating Requirements
725.475
Waste Analysis
725.477
Monitoring and Inspections
725.481
Closure
725.482
Open Burning; Waste Explosives
725.483
Interim Status Thermal Treatment Devices Burning Particular
Hazardous Waste
SUBPART
Q:
CHEMICAL, PHYSICAL AND
BIOLOGICAL TREATMENT
Section
725.500
Applicability
725.501
General Operating Requirements
725.502
Waste Analysis and Trial Tests
725.503
Inspections
725.504
Closure
725.505
Special Requirements for Ignitable or Reactive Waste
725.506
Special Requirements for Incompatible Wastes
SUBPART R:
UNDERGROUND INJECTION
Section
725.530
Applicability
SUBPART W:
DRIP
PADS
61
Section
725
•
540
Applicability
725.541
Assessment of existing drip pad integrity
725.542
Design and installation of new drip pads
725.543
Design and operating requirements
725. 544
Inspections
725.545
Closure
SUBPART AR:
AIR EMISSION
STANDARDS
FOR PROCESS VENTS
Section
725. 930
Applicability
725.931
Definitions
725.932
Standards:
Process Vents
725.933
Standards:
Closed-vent Systems and Control Devices
725.934
Test methods and procedures
725.935
Recordkeeping Requirements
SUBPART
BB:
AIR EMISSION
STANDARDS
FOR EQUIPMENT LEAKS
Section
725. 950
Applicability
725.951
Definitions
725.952
Standards:
Pumps
in Light Liquid Service
725.953
Standards:
Compressors
725.954
Standards:
Pressure Relief Devices in Gas/Vapor Service
725.955
Standards:
Sampling Connecting Systems
725.956
Standards:
Open-ended Valves or Lines
725.957
Standards:
Valves in Gas/Vapor or Light Liquid Service
725.958
Standards:
Pumps, Valves, Pressure Relief Devices, Flanges and
Other Connectors
725.959
Standards:
Delay of Repair
725.960
Standards:
Closed-vent Systems and Control Devices
725.961
Percent Leakage Alternative for Valves
725.962
Skip Period Alternative for Valves
725.963
Test Methods and Procedures
725.964
Recordkeeping Requirements
SUBPART DD:
CONTAINMENT BUILDINGS
Section
725.1100
Applicability
725.12.01
Design and operating standards
725.1102
Closure and post—closure care
725.Appendix A
Recordkeeping Instructions
725.Appendix B
EPA Report Form and Instructions (Repealed)
725.Appendix C
EPA Interim Primary Drinking Water Standards
725.Appendix D
Teats for Significance
725.Appendix E
Examples of Potentially Incompatible Waste
AUTHORITY:
Implementing Section 22.4 and authorized by Section 27 of the
Environmental Protection Act
(Ill.- Roy.
Stat.
1991,
oh. 111~,parc.
1022.4 and
1027
(415
ILCS 5/22.4 and 273)-.
SOURCE:
Adopted in R81—22, 43 PCB 427,
at
5
11.1. Reg.
9781, effective as
noted in 35 Ill.
Adm.
Code 700.106; amended and codified in R81-22,
45 PCB
317,
at
6 Ill.
Reg.
4828, effective as noted in 35 Iii.
Adm.
Code 700.106;
amended in R82—2.8,
Si. PCS
831,
at 7 Ill. Reg.
2618, effective February 22,
1983;
amended in R82—19,
53 PCB 131,
at
7
Il..
Reg.
14034, effective October
12,
1983; amended in R84—9,
at 9 Ill. Reg.
11869, effective July 24,
1985;
amended
in R85—22 at 10
Ill. Reg.
1085, effective January
2,
1986;
amended in
R86—1 at
10 Ill. Reg.
14069, effective August 12,
1986;
amended in R86—28
at
11
Ill.
Reg.
6044, effective March 24,
1987;
amended in R86—46 at 11 Ill. Reg.
62
13489, effective August 4,
1987; amended in R87—5 at 11 Ill.
Reg.
19338,
effective November 10,
1987;
amended in R87-26 at 12
Iii.
Reg.
2485,
effective
January 15,
1988; amended in R87—39 at
12
Ill. Reg.
13027, effective July 29,
1988; amended in R88—16 at
13 Ill. Reg. 437, effective
December
28, 1988;
amended
in R89—1 at 13
Ill.
Reg.
18354, effective November 13,
1989;
amended
in R90—2
at
14 Ill. Reg.
14447, effective August 22,
1990;
amended in R90—10
at
14
Ill. Reg.
16498, effective September 25,
1990; amended in R90—11 at 15
Ill. Reg.
9398, effective June 17,
1991; amended in R91-l at 15
Ill. Reg.
14534, effective October
1,
1991; amended in R91—l3 at
2.6 Ill.
Reg.
9578,
effective June
9,
1992; amended in R92—2. at
16 Ill. Reg.
17672,
effective
November
6,
1992; amended in R92—lO at
17
Ill. Reg.
5682., effective March 26,
1993; amended in R93—4 at
2.7
Ill. Reg.
20620, effective November 22,
1993;
amended
in R93—16 at
18 Ill. Reg.
6771,
effective April 26,
1994;
amended in
R94-7 at 18 Ill. Reg.
122.90, effective July 29,
1994; amended in R94—17 at
Ill. Rep.
,
effective
SUBPART D:
CONTINGENCY PLAN
AND
EMERGENCY PROCEDURES
Section 725.152
Content of Contingency Plan
a)
The contingency plan must describe the actions facility personnel
must take to comply with Sections 725.151 and 725.156 in response
to fires, explosions,~or any unplanned sudden or non—sudden
release of hazardous waste or hazardous waste constituents to air,
soi1~or surface water at the facility.
b)
If the owner or operator has already prepared a Spill PreventionT
Control and Countermeasures
(SPCC) Plan in accordance with 40 CFR
Part 112
or 1510300, or some other emergency or contingency plan,
he~j~
need~only amend that plan to incorporate hazardous waste
management provisions that are sufficient to comply with the
requirements of this Part.
c)
The plan must describe arrangements agreed to by local police
department,
fire departments, hospitals, contractors~~
and state
and local emergency response teams to coordinate emergency
services,
pursuant to Section 725.137.
d)
The plan must list names, addresses~and phone numbers
(office and
home) of all persons qualified to act as emergency coordinator
(see Section 725.2.55)~.and this list must be kept up to date.
Where more than one person is listed one must be named as primary
emergency coordinator and others must be listed in the order in
which they will assume responsibility as alternates.
e)
The plan must include a list of all emergency equipment at the
facility
(such as fire extinguishing systems, spill control
equipment,
communications and alarm systems
(internal
and
externa1)~and decontamination equipment) where this
equipment
is
required.
This list must be kept up to date.
In addition, the
plan must include the location and a physical description of each
item on the list and a brief outline of its capabilities.
f)
The plan must include an evacuation plan for facility personnel
where there is
a possibility that evacuation could be necessary.
This plan must describe signal(s)
to be used to begin evacuation,
evacuation routes and alternate evacuation routes
(in cases where
the primary routes could be blocked by releases of hazardous waste
or fires).
(Source:
Amended at
Ill. Reg.
_________,
effective
63
Section 725.156
Emergency Procedures
a)
Whenever there is an imminent or actual emergency situation,
the
emergency coordinator
(or his designee when the emergency
coordinator is on call) muctshall immediately:
1)
Activate internal facility alarms or communication systems,
where applicable, to notify all facility personnel;
and
2)
Notify appropriate state or local agencies with designated
response roles if their help is needed.
b)
Whenever there
is
a release,
fired. or explosion, the emergency
coordinator muotshall immediately identify the character,
exact
source, amount~and a real extent of any released materials.
He
or she may do this by observation or review of facility records or
manifests and,
if necessary, by chemical analysis.
c)
Concurrently,
the emergency coordinator muctahal.
assess possible
hazards to human health or the environment that may result from
the release, fire~or explosion.
This assessment must consider
both direct and indirect effects of the release,
fire,., or
explosion
(e.g., the effects of any toxic,
irritating~or
asphyxiating gases that are
generated,,, or the effects of any
hazardous surface water runoffs from water or chemical agents used
to control fire and heat—induced explosionB).
d)
If the emergency coordinator determines that the facility has had
a release,
fire,, or explosion whiohthat could threaten
human
health or the environment outside the facility,
he or she
mt~wtshallreport his findings as follows:
1)
If his assessment indicates that evacuation of local areas
may be advisable, he or she muotehall immediately notify
appropriate local authorities.
He or she must be available
to help appropriate officials decide whether local areas
should be evacuated;
and
2)
He or she mu~tshallimmediately notify either the government
official designated as the on—scene coordinator for that
geographical area (in the applicable regional contingency
plan under 40 CFR Part 1-5101Q2),, or the National Response
Center
(using their 24—hour toll free number 8OO~~424—8802).
The report must include:
A)
Name
and telephone number of reporter;
B)
Name and address of facility;
C)
Time and type of incident
(e.g.,
release,
fire);
D)
Name
and quantity of material(s)
involved,
to the
extent known;
E)
The extent of injuries,
if any; and
F)
The possible hazards to human health or the
environment outside the facility.
e)
During an emergency the emergency coordinator muotshall take all
64
reasonable measures necessary to ensure that fires, explosions,,
and releases do not occur, recur, or spread to other hazardous
waste at the facility.
These measures must include, where
applicable, stopping processes and operations,
collecting and
containing released waste, and removing or isolating containers.
f)
If the facility stops operations in response to a fire, explosion
or release, the emergency coordinator muotshall monitor for leaks,
pressure buildup, gas generation, or ruptures in valves, pipes, or
other equipment, wherever this
is appropriate.
g)
Immediately after an emergency,
the emergency coordinator
muotshall provide for treating, storing, or disposing of recovered
waste,
contaminated soil, or surface water, or any other material
that results from
a release,
fire, or explosion at the facility.
Comment:
Unless the owner or operator can demonstrate,
in
accordance with Section 721.103(c) or
(d) that the recovered
material is
not a hazardous waste, the owner or operator becomes a
generator of hazardous waste and muotahall manage
it in accordance
with all applicable requirements of Parts 722,
723,, and 725.
h)
The emergency coordinator muctshall ensure that, in the affected
area(s) of the facility:
1)
No waste that may be incompatible with the released material
is treated,
stored, or disposed of until cleanup procedures
are completed;
and
2)
All emergency equipment listed in the contingency plan is
cleaned and fit for its
intended use before operations are
resumed.
i)
The owner or operator muotshall notify the Director and other
appropriate state and local authorities that the facility
is in
compliance with paragraph
(h)
of this section before operations
are resumed in the affected area(s)
of
the
facility.
j)
The owner or operator muotehall note in the operating record the
time, date, and details of any incident that requires
implementing
the contingency plan.
Within 15 days after the incident, ~iej~,
muotahall submit
a written report on the incident to the Director.
The report must include:
1)
Name, address, and telephone number of the owner or
operator;
2)
Name,
address, and telephone number of the facility;
3)
Date, time, and type of incident
(e.g.,
fire,
explosion);
4)
Name and quantity of material(s)
involved;
5)
The extent of injuries,
if any;
6)
An assessment of actual or potential hazards to human health
or the environment, where this
is applicable; and
7)
Estimated quantity and disposition of recovered material
that resulted from the incident.
(Source:
Amended at
Ill.
Reg.
________,
effective
65
Section 725.Appendix A
Recordkeeping Instruction~
SeeThe
Board hereby incorporates by reference 40 CFR 265, Appendix
I to 40 CFR
Part 265(1992~.as amended at 59 Fed.
Req. 13892
(Mar.
24
1994~.
This
incorporation includes no
later amendments or editions.
(Source:
Amended at
Ill. Reg.
,
effective
_________
TITLE
35:
ENVIRONMENTAL
PROTECTION
SUBTITLE C:
WASTE
DISPOSAL
CHAPTER I:
POLLUTION CONTROL
BOARD
SUBCHAPTER
c:
HAZARDOUS
WASTE
OPERATING
REQUIREMENTS
PART 728
LAND
DISPOSAL RESTRICTIONS
SUBPART
A:
GENERAL
Section
728.101
Purpose,
Scope and Applicability
728.102
Definitions
728.103
Dilution Prohibited as a Substitute for Treatment
728.104
Treatment Surface Impoundment Exemption
728.105
Procedures for case—by—case Extensions to an Effective Date
728.106
Petitions to Allow Land Disposal of a Waste Prohibited under
Subpart C
728.107
WaBte Analysis and Recordkeeping
728.108
Landfill and Surface Impoundment Disposal Restrictions (Repealed)
728.109
Special Rules for Characteristic Wastes
SUBPART B:
SCHEDULE FOR LAND DISPOSAL PROHIBITION
AND
ESTABLISHMENT
OF TREATMENT
STANDARDS
Section
728.2.10
First Third
728.12.1
Second Third
728.112
Third Third
728.113
Newly Listed Wastes
728.114
Surface Impoundment exemptions
SUBPART
C:
PROHIBITION ON
LAND
DISPOSAL
Section
728.130
Waste Specific Prohibitions
——
Solvent Wastes
728.131
Waste Specific Prohibitions
-—
Dioxin—Containing Wastes
728.132
Waste Specific Prohibitions
——
California List Wastes
728.133
Waste Specific Prohibitions
-—
First Third Wastes
728.134
Waste Specific Prohibitions
——
Second Third Wastes
728.135
Waste Specific Prohibitions
-—
Third Third Wastes
728.136
Waste Specific Prohibitions
—*
Newly Listed Wastes
728.137
Waste Specific Prohibitions
——
Ignitable and Corrosive
Characteristic Wastes Whose Treatment Standards Were Vacated
728.139
Statutory Prohibitions
SUBPART D:
TREATMENT
STANDARDS
Section
728.140
Applicability of Treatment Standards
728.141
Treatment Standards Expressed as Concentrations in Waste Extract
728.142
Treatment Standards Expressed as Specified Technologies
728.143
Treatment Standards expressed as Waste Concentrations
728.144
Adjustment of Treatment Standard
66
Treatment Standards
for Hazardous Debris
Alternative Treatment Standards Based on
HTMR
SUBPART E:
PROHIBITIONS ON STORAGE
Section
728.150
Prohibitions on Storage of Restricted Wastes
728.Appendix A
728.Appendix B
728.Appendix C
728.Appendix D
728.Appendix E
728.Appenclix F
728.Appendix 0
728.Appendix H
728.Appendix
I
728.Table A
728.Table B
728.Table C
728..Table D
728.Table E
728.Table F
728.Table 0
728.Table H
Toxicity Characteristic Leaching Procedure
(TCLP)
Treatment Standards
(As concentrations
in the Treatment
Residual Extract)
List of Halogenated Organic Compounds
Organometallic Lab Packs
Organic Lab Packs
Technologies to Achieve Deactivation of Characteristics
Federal Effective Dates
National Capacity LDR Variances for UIC Wastes
EP Toxicity Test Method and Structural
Integrity Test
Constituent Concentrations in Waste Extract
(CCWE)
Constituent Concentrations in Wastes
(CCW)
Technology Codes and Description of Technology—Based
Standards
Technology—Based
Standards
by
RCRA
Waste
Code
Standards for Radioactive Mixed Waste
Alternative Treatment Standards for Hazardous Debris
Alternative Treatment Standards Based on
HMTR
Wastes Excluded from CCW Treatment Standards
AUTHORITY:
Implementing Section 22.4 and authorized by Section 27 of the
Environmental Protection Act
(Ill. Rev. Stat.
1991,
ch.
111½,
pars.
1022.4 and
1027
(415 ILCS 5/22.4 and 5/27).
SOURCE:
Adopted in R87—5 at
11
Ill. Reg.
19354, effective November 12,
1987;
amended in R87—39 at
12 Ill. Reg.
13046, effective July 29,
1988; amended in
R89—1 at
13 Ill. Reg.
18403, effective November 13,
1989; amended in R89—9 at
14
Ill. Reg.
6232, effective April
16,
1990;
amended in R90—2 at
14 Ill. Reg.
14470,
effective August 22,
1990; amended in R90—10 at 14 Ill. Reg.
16508,
effective September 25,
1990; amended in R90—11 at
15 Ill. Reg. 9462,
effective June 17,
1991; amended in R92—2.0 at
2.7 Ill. Reg.
5727, effective
March 26, 1993;
amended in R93—4 at
17
Ill.
Reg.
20692, effective November 22,
1993;
amended in R93—2.6 at 18 Ill. Reg.
6799,
effective April 26,
1994;
amended in R94—7 at
18 Ill. Reg.
12203, effective July 29,
1994;
amended
in
R94—17 at
Ill. Req.
,
effective
SUBPART D:
TREATMENT STANDARDS
Section 728.142
Treatment Standards Expressed as Specified Technologies
a)
The following wastes in subsections
(ay(1)
and J~(2) below and
Sections 728.Table D and 728.Table B must be treated using the
technology or technologies specified in subsections (a)(1) and
JA.l(2)
below and Section 728.Table
C.
1)
Liquid hazardous wastes containing PCBs at concentrations
greater than or equal to 50 ppm but less than 500 ppm must
be incinerated in accordance with the technical requirements
a#~ 40 CFR 761.70,
incorporated by reference in 35 Ill.
Adm.
Code 720.111, or burned in high efficiency boilers
in
accordance with the technical requirements of 40 CFR 761.60.
Liquid hazardous wastes containing PCBs at concentrations
greater than or equal to 500 ppm must be incinerated in
728.145
728. 146
67
accordance with the technical requirements of 40 CFR 761.70.
Thermal treatment in accordance with this Section must be in
compliance with applicable regulations in 35
Ill.
Adm.
Code
724, 725, and 726.
2)
Nonliquid hazardous wastes containing halogenated organic
compounds (HOCs) in total conc~ntrationagreater than or
equal
to 1000 mg/kg and liquid HOC—containing wastes that
are prohibited under Section 728.132(e)(1) must be
incinerated in accordance with the requirements
of
35
Ill.
Adm.
Code 724.Subpart 0 or 35 Ill.
Adm.
Code 725.Subpart 0.
These treatment standards do not apply where the waste is
subject to a Cubpart C-of this Part treatment standard
codified in Subpart C of this Part for a specific HOC (such
as
a hazardous waste chlorinated solvent for which a
treatment standard
is established under Section 728.141(a)).
3)
A mixture consisting of wastewater,
the discharge of which
is subject to regulation under 35 Ill.
Adm.
Code 309 or 310,
and de minimis losses of materials from manufacturing
operations in which these materials are used as raw
materials or are produced as products in the manufacturing
process,
and that meets the criteria of the DOOl ignitable
liquids
containing greater than 10
total organic
constituents
(TOC)
subcategory,
is subject to the DEACT
treatment standard described in Table C.
For purposes of
this subsection,
“de minimis losses”
include:
A)
Those from normal material handling operations (e.g.,
spills from the unloading or transfer of materials
from bins or other containers, ~.leaks
from pipes,
valves, or other devices used to transfer materials);
B)
Minor leaks from process equipment,
storage tanks,
or
containers;
C)
Leaks from well—maintained pump packings and seals;
D)
Sample purgings; and
E)
Relief device discharges.
b)
Any person may submit an application to the Agency demonstrating
that an alternative treatment method can achieve a level of
performance equivalent to that achievable by methods specified in
subsections
(a)
above and
(c) and
(d) below for wastes or
specififed in Section 728.Table F for hazardous debris.
The
applicant shall submit information demonstrating that the
applicant’s treatment method
is in compliance with federal and
state
requirements,
including
this
Part,
35
Ill.
Adm.
Code 709,
724,
725, 726, and 729 and Sections 22.6 and 39(h)
of the
Environmental Protection Act
(Ill.
Roy.
Stat.
1987,
oh. 1l1~,
parc.
1022.6
and 1039(h)
(415 ILCS 5/22.6 and S’/’39(h))-~, and
that
j~is protective of human health or the environment.
On the basis
of
such information and any other available information, the
Agency shall approve the use of the alternative treatment method
if the Agency finds that the alternative treatment method provides
a measure of performance equivalent to that achieved by methods
specified in subsections
(a)
above and
(c) and
(d) below and in
Section 728.Table
F,
for hazardous debris.
Any approval must be
stated in writing and may contain such provisions and conditions
as the Agency determines to be appropriate.
The person to whom
68
such approval
is issued shall comply with all limitations
contained in such determination.
c)
As an alternative to the otherwise applicable treatment
standards
of Subpart D of this Part,
lab packs are eligible for land
disposal provided the following requirements are met:
1)
The
lab
packs comply with the applicable provisions of 35
Ill.
Adm.
Code 724.416 and 725.416;
BOARD
NOTE:
35 Ill.
Adm.
Code 729.301 and 729.312 include
additional restrictions on the use of lab packs.
2)
All hazardous wastes contained in such lab packs are
specified in Section 728.Appendix D or Section 728.Appendix
3)
The lab packs are incinerated in accordance with the
requirements of 35 Ill.
Mm.
Code 724.Subpart 0 or 35 Ill.
Acim.
Code 725.Subpart 0; and
4)
Any incinerator residues from lab packs containing D004,
D005,
D006, P007,
D008, DOlO, and DOll are treated in
compliance with the applicable treatment standards specified
for such wastes in Subpart P.
d)
Radioactive hazardous mixed wastes with treatment standards
specified in Section 728.Table B are not subject to any treatment
standards specified in Section 728.141, Cection 728.143, or
Gcctipn
728.Table
D.
Radioactive
hazardous
mixed
wastes
not
subject to treatment standards in Section 728 .Table E remain
subject to all applicable treatment standards specified in
Section~728.141,
Cection 728.143, and Ccction 728.Table P.
Hazardous debris containing radioactive waste is not subject to
the treatment standards specified in Section 728.Table F but is
subject to the treatment standards specified in Section 728.145.
(Source:
Amended at
Ill. Reg.
_________,
effective
Section 728.Table D
Technology-Based Standards by
RCRA
Waste Code
Technology
Technology
Code,
Code, Non—
Waste
Waste—
waste—
Waste
Descriptions
or
Codes
See Also
CAS No.
waters
waters
Treatment Subcategory
DOOl
Tables A
NA
DEACT, and
DEACT,
and
All descriptions based
& B
meet P039;
meet P039;
on 35 Ill.
Adm.
Code
or PSUBS;
or FSUBS;
721.121, except for the
RORGS; or
RORGS; or
Section 721.121(a) (1)
INCIN
INCIN
High TOC subcategory,
managed in non-CWA/non—
CWA-equivalent/ non-Class
I SDWA systems
69
DOOl
NA
NA
DEACT
DEACT
All descriptions based
on 35 Ill.
Adxn.
Code
721.121, except for the
Section 261.121(a)(1)
High TOC subcategory,
managed in CWA,
CWA-
equivalent,
or Class
I
SDWA systems
POOl
NA
NA
NA
FSUBS;
Al.
descriptions based
RORGS; or
on 35 Ill.
Adm.
Code
INCIN
721.121(a) (1)—High TOC
Ignitable Liquids Sub—
category——Greater than
or equal to 10
total
organic carbon
P002
Tables A
NA
DEACT and
DEACT and
Acid,
alkaline, and
& B
meet P039
meet F039
other subcategory based
on 35 Ill.
Adm.
Code
721.122 managed in non-
CWA/non-CWA-equ
ivalent/
non-Class
I SDWA systems
D002
NA
NA
DEACT
DEACT
Acid,
alkaline, and
other subcategory based
on
35 Ill.
Adm.
Code
721.122 managed in CWA,
CWA-equivalent, or Class
I SDWA systems
P003
NA
NA
DEACT
(but
DEACT (but
Reactive sulfides based
not
in-
not in—
on 35 Ill.
Adm.
Code
cluding
cluding
721.123(a) (5)
dilution
dilution
as a sub—
as
a sub-
stitute
stitute
for ade—
for ade-
quate
quate
treatment)
treatment)
P003
NA
NA
DEACT
DEACT
Explosives based on 35
Ill.
Adm.
Code
721.2.23
(a)(6), j~J.(7),and
Ia.)~(8)
P003
NA
NA
NA
DEACT
Water reactives based on
35
Ill.
Adm.
Code
72l.123(a)(2),
.Lal(3),,
and ~j.(4)
D003
NA
NA
DEACT
DEACT
Other reactives based on
35 Ill.
Adm.
Code
721.123(a) (1)
P006
NA
7440-43—9
NA
RTHERM
Cadmium—containing bat-
teries
70
D008
NA
7439—92—1
NA
RLEAD
Lead acid batteries
(Note:
This standard
only applies to lead
acid batteries that are
identified as RCRA
hazardous wastes and
that are not excluded
elsewhere from
regulation under the
land disposal re-
strictions of this Part
or exempted under other
regulations (see 35 Ill.
Adm.
Code 726.180).)
P009
Tables A
7439—97—6
NA
IMERC; or
Mercury:
(High Mercury
& B
RMERC
Subcategory--greater
than or equal to 260
mg/kg total Mercury-—
contains mercury and or-
ganics
(and are not
incinerator residues))
P009
Tables A
7439—97—6
NA
RMERC
Mercury:
(High Mercury
& B
Subcategory--greater
than or
equal
to 260
mg/kg total Mercury-—
inorganics
(including
incinerator residues
anc
residues from RI4ERC))
P012
Table B
72-20—8
BIODG;
or
NA
Eadrin
INCIN
P013
Table B
58-89—9
CARBN;
or
NA
Lindane
INCIN
P014
Table B
72-43—S
WETOX;
or
NA
Nethoxychlor
INCIN
P015
Table B
8001—35—1
BIODG; or
NA
Toxaphene
INCIN
P016
Table B
94—75—7
CHOXD;
NA
2,4—P
BIODG;
or
INCIN
D017
Table B
93-72—1
CHOXD;
or
NA
2,4,5—TP
INCIN
F005
Tables A
79-46—9
(WETOX or
INCIN
2—Nitropropane
& B
CHOXD)
fb
CARBN;
or
INCIN
P005
Tables A
110—80—5
BIODG;
or
INCIN
2—Ethoxyethanol
& B
INCIN
F024
Tables A
NA
INCIN
INCIN
71
K025
NA
NA
LLEXT fb
INCIN
Distillation bottoms
SSTRIP fb
from the production of
CARBN;
or
nitrobenzene by the
INCIN
nitration of benzene
1(026
NA
NA
INCIN
INCIN
Stripping still tails
from the production of
methyl ethyl pyridines
1(027
NA
NA
CARBN; or
FSUBS;
or
Centrifuge and
INCIN
INCIN
distillation residues
from toluene di—
isocyanate production
1(039
NA
NA
CARBN; or
FSUBS; or
Filter cake from the
INCIN
INCIN
filtration of diethyl-
phoaphorodithioc acid in
the production of phor—
ate
1(044
NA
NA
DEACT
DEACT
Wastewater treatment
sludges from the manu-
facturing and processing
of explosives
1(045
NA
NA
DEACT
DEACT
Spent carbon from the
treatment of wastewater
containing
explosives
1(047
NA
NA
DEACT
DEACT
Pink/red water from TNT
operations
1(069
Tables A
NA
NA
RLEAD
Emission control dust/
&
B
sludge from secondary
lead smelting:
Non-
Calcium Sulfate Sub-
category
1(106
Tables
A
NA
NA
RNERC
Wastewater treatment
&
B
sludge from the mercury
cell process in chlorine
production:
(High
Mercury Subcategory-
greater than or
equal
to
260 mg/kg total mercury)
1(107
NA
NA
INCIN; or
INCIN.
Column bottoms from
CHOXD fb,
product separation from
CARBN; or
the production of 1,1—
BIODG Lb
dimethylhydrazine (UDMR)
CARBN
from carboxylic acid
hydrazides
1(108
NA
NA
INCIN;
or
INCIN.
Condensed column
CH0XD fb,
overheads from product
CARBN; or
separation and condensed
BIOPG Lb
reactor vent gases from
CARBN
the production of
1,1—
dimethylhydrazine
(UDMH)
from carboxylic acid
hydrazides
72
1(109
NA
NA
INCIN; or
INCIN.
Spent filter cartridges
CHOXD
fb,
from product
CARBN;
or
purification from the
BIODG fb
production of 1,1—
CARBN
dimethylhydrazine (UDMH)
from carboxylic acid
hydrazides
K110
NA
NA
INCIN;
or
INCIN.
Condensed
column
CHOXD fb,
overheads from
CARBN; or
intermediate separation
BIODG Lb
from the production of
CARBN
1,
1-dimethylhydrazine
(UDMH) from carboxylic
acid hydrazides
1(112
NA
NA
INCIN;
or
INCIN.
Reaction by-product
CHOXD fb,
water from the drying
CARBN; or
column
in the production
BIODG fb
of toluenediamine via
CARBN
hydrogenation of
dinitrotoluene
1(113
NA
NA
CARBN; or
FSUBS;
or
Condensed liquid light
INCIN
INCIN
ends from the
purification of
toluenediamine
in the
production of
toluenediaxnine via
hydrogenation of di-
nitrotoluene
1(114
NA
NA
CARBN; or
FSUBS; or
Vicinals from the
INCIN
INCIN
purification of tol-
uenediamine in the
production of toluenedi-
amine via hydrogenation
of dinitrotoluene
1(115
NA
NA
CARBN; or
FSUBS; or
Heavy ends from the
INCIN
INCIN
purification
of
toluenediamine
in the
production of tol-
uenediamine via
hydrogenation of di-
nitrotoluene
1(2.16
NA
NA
CARBN;
or
FSUBS;
or
Organic condensate from
INCIN
INCIN
the solvent recovery
column in the production
of toluene diisocyanate
via phosgenation of
toluenediamine
K123
NA
NA
INCIN;
or
INCIN.
Process wastewater
CHOXD
Lb
(including supernates,
(BIODG
or
filtrates,
and
CARBN)
washwaters)
from the
production of
ethylenebis-
dithiocarbamic acid and
its salts
73
1(124
NA
NA
INCIN; or
INCIN.
Reactor vent scrubber
CHOXD fb
water from the
(BIODG or
production of
CARBN)
ethylenebisdi-
thiocarbamic acid and
its salts
1(125
NA
NA
INCIN; or
INCIN.
Filtration,
evaporation,
CHOXD Lb
and centrifugation
(BIODG or
solids from the
CARBN)
production of
ethylenebisdi—
thiocarbamic acid and
its salts
1(126
NA
NA
INCIN; or
INCIN.
Baghouse dust and floor
CHOXD fb
sweepings in milling and
(BIODG or
packaging operations
CARBN)
from the production or
formulation of ethylene
bisdithiocarbaniic acid
and its salts
P001
NA
81—81—2
(WETOX or
FSUBS; or
Warfarin (0.3)
CHOXD)
fb
INCIN
CARBN; or
INCIN
P002
NA
591—08—2
(WETOX or
INCIN
1—Acetyl-2-thiourea
CHOXD)
lb
CARBN; or
INCIN
P003
NA
107-02—8
NA
FSUBS; or
Acrolein
INCIN
P005
NA
107—18—6
(WETOX or
FSUBS;
or
Allyl alcohol
CHOXD)
Lb
INCIN
CARBN;
or
INCIN
P006
NA
20859-73-8
CHOXD;
CHOXD;
Aluminum phoephide
CHRED;
or
CHRED;
or
INCIN
INCIN
P007
NA
2763—96-4
(WETOX
or
INCIN
5—Azninoethyl 3-
CHOXD)
Lb
isoxazolol
CARBN; or
INCIN
P008
NA
504-24-5
(WETOX or
INCIN
4—Arninopyridine
CHOXD)
Lb
CARBN;
or
INCIN
P009
NA
131-74—8
CHOXD;
FSUBS; CH—
Ammonium picrate
CHRED;
OXD;
CAREN;
CHRED;
or
BIODO; or
INCIN
INCIN
74
P014
NA
108-95-5
(WETOX or
INCIN
Thiophenol
(Benzene
CHOXD)
fb
thiol)
CARBN;
or
INCIN
P015
NA
7440-41—7
RMETL
or
RMETL;
or
Beryllium duotpowder
RTHRM
RTHRM
P016
NA
542-88-1
(WETOX or
INCIN
Bis(chloromethyl)ether
CHOXD)
lb
CAREN;
or
INCIN
P017
NA
598-31-2
(WETOX or
INCIN
Bromoacetone
CHOXD)
Lb
CAREN; or
INCIN
P018
NA
357-57-3
(WETOX or
INCIN
Brucine
CHOXD)
Lb
CARBN; or
INCIN
P022
Table B
75—15—0
NA
INCIN
Carbon disulfide
P023
NA
107-20-0
(WETOX or
INCIN
Chloroacetaldehyde
CHOXD)
Lb
CARBN; or
INCIN
P026
NA
5344-82—1
(WETOX or
INCIN
1—(o—Chlorophenyl)thio-
CHOXD)
fb
urea
CARBN; or
INCIN
P027
NA
542—76—7
(WETOX or
INCIN
3—Chloropropionitrile
CHOXD)
lb
CARBN;
or
INCIN
P028
NA
100-44—7
(WETOX or
INCIN
Benzyl chloride
CHOXD)
lb
CARBN;
or
INCIN
P031
NA
460-19-5
CHOXD;
CHOXD;
Cyanogen
WETOX; or
WETOX;
or
INCIN
INCIN
P033
NA
506-77—4
CHOXD;
CHOXD;
Cyanogen chloride
WETOX;
or
WETOX;
or
INCIN
INCIN
P034
NA
131—89—5
(WETOX or
INCIN
2—Cyclohexyl—4,6-di—
CHOXD)
lb
nitrophenol
CARBN;
or
INCIN
P040
NA
297—97—2
CARBN;
or
FSUBS;
or
0,0-Diethyl 0—pyrazinyl
INCIN
INCIN
phoaphorothioate
75
P041
NA
311-45-5
CARBN; or
FSUBS;
or
Diethyl—p-nitrophenyl
INCIN
INCIN
phosphate
P042
NA
51-43-4
(WETOX or
INCIN
Epinephrine
CHOXD)
lb
CARBN; or
INCIN
P043
NA
55-91-4
CARBN;
or
FSUBS; or
Diisopropylfluorophos-
INCIN
INCIN
phate
(DFP)
P044
NA
60-52.-S
CARBN; or
FSUBS; or
Dimethoate
INCIN
INCIN
P045
NA
39196-18—4
(WETOX or
INCIN
Thiofanox
CHOXD)
Lb
CARBN;
or
INCIN
P046
NA
122—09—8
(WETOX or
INCIN
alpha,alpha—Pimethyl-
CHOXP)
Lb
phenethylamine
CARBN;
or
INCIN
P047
NA
534—52—1
(WETOX
or
INCIN
4,6—Dinitro—o—cresol
CHOXD)
lb
salts
CAREN;
or
INCIN
P049
NA
541—53—7
(WETOX or
INCIN
2,4-Dithiobiuret
CHOXD)
lb
CARBN;
or
INCIN
P054
NA
2.51—56—4
(WETOX or
INCIN
Aziridine
CHOXD)
fb
CARBN;
or
INCIN
P056
Table
B
778241—4
NA
ADGAS
Lb
Fluorine
NEUTR
P057
NA
640—19-7
(WETOX or
INCIN
Fluoroacetamide
CHOXD)
fb
CARBN;
or
INCIN
P058
NA
62—74—8
(WETOX or
INCIN
Fluoroacetic acid,
CHOXD)
Lb
sodium salt
CARBN; or
INCIN
P062
NA
757-58-4
CARBN;
or
FSUBS or
Hexaethyltetraphosphate
INCIN
INCIN
P064
NA
624-83-9
(WETOX or
INCIN
Isocyanic acid,
ethyl
CHOXD)
Lb
ester
CARBN;
or
INCIN
76
P065
Tables A
628-86—4
NA
RMERC
Mercury fulminate:
& B
(High Mercury Sub-
category——greater than
or equal to 260 mg/kg
total Mercury-—either
incinerator residues or
residues from
R14ERC)
P065
Tables A
628-86—4
NA
II4ERC
Mercury fulminate:
(All
& B
nonwastewaters that are
not incinerator residues
or are not residues from
RNERC;
regardless of
Mercury Content)
P066
NA
16752-77-5
(WETOX or
INCIN
Methomyl
CHOXD)
Lb
CABEN;
or
INCIN
P067
NA
75-55-8
(WETOX or
INCIN
2—Nethylaziridine
CHOXD)
Lb
CAREN;
or
INCIN
P068
NA
60-34-4
CHOXD;
CM—
FSUBS; CM-
Methyl hydrazine
RED;
OXD;
CARBN;
CHRED;
OR
BIODG;
or
INCIN
INCIN
P069
NA
75—86-5
(WETOX or
INCIN
Methyllactonitrile
CHOXD) Lb
CARBN;
or
INCIN
P070
NA
116—06-3
(WETOX
or
INCIN
Aldicarb
CHOXD)
Lb
CAREN;
or
INCIN
P072
NA
86—88—4
(WETOX or
INCIN
1—Naphthyl-2—thiourea
CHOXD)
fb
CARBN;
or
INCIN
P075
NA
54—11—5
(WETOX or
INCIN
Nicotine and salts
CHOXD)
fb
CAREN;
or
INCIN
P076
NA
10102—43-9
ADGAS
ADGAS
Nitric oxide
P078
NA
2.0102—44-0
ADGAS
ADGAS
Nitrogen dioxide
P081
NA
55—63—0
CHOXD;
CM—
FSUBS;
CM—
Nitroglycerin
RED;
OXD;
CARBN;
CHRED;
or
BIODG;
or
INCIN
INCIN
P082
Table B
62-75—9
NA
INCIN
N—Nitrosodimethylamine
77
P084
NA
4549—40-0
(WETOX
or
INCIN
N—Nitrosomethylvinyl-
CHOXD)
fb
amine
CARBN;
or
INCIN
P085
NA
152—16—9
CARBN;
or
FSUBS; or
Octamethylpyrophosphor—
INCIN
INCIN
amide
P087
NA
20816-12—0
BMETL;
or
RMETL;
or
Osmium tetroxide
RTHEM
RTHRM
P088
NA
145—73—3
(WETOX
or
FSUBS; or
Endothall
CHOXD) Lb
INCIN
CAREN;
or
INCIN
P092
Tables A
62-38—4
NA
RMERC
Phenyl mercury acetate:
& B
(High Mercury Sub—
category——greater than
or equal to 260 mg/kg
total
Mercury—-either
incinerator residues or
residues from
RNERC)
P092
Tables A
62—38—4
NA
IMERC; or
Phenyl mercury acetate:
& B
RMERC
(All nonwastewaters that
are not incinerator
residues and are not
residues from
RMERC:
regardless of Mercury
Content)
P093
NA
103-85-5
(WETOX
or
INCIN
Phenylthiourea
CHOXD)
lb
CARBN;
or
INCIN
P095
NA
75—44-5
(WETOX
or
INCIN
Phosgene
CHOXD)
lb
CARBN;
or
INCIN
P096
NA
7803—51—2
CHOXD;
CM—
CHOXD; CM—
Phosphine
RED;
or
RED; or
INCIN
INCIN
P102
NA
107—19—7
(WETOX
or
FSUBS; or
Propargyl
alcohol
CHOXD)
fb
INCIN
CARBN;
or
INCIN
P105
NA
26628—22-8
CHOXD; CM—
FSUBS; CM—
Sodium azide
RED; CARBN
OX!);
BIODG;
or
CHRED;
or
INCIN
INCIN
P108
NA
57—24—9 A
(WETOX or
INCIN
Strychnine and salts
CHOXD)
Lb
CARBN;
or
INCIN
78
P109
NA
3689-24-5
CARBN; or
FSUBS; or
Tetraethyldithiopyro—
INCIN
INCIN
phosphate
P112
NA
509-14-8
CMOXD;
CM-
PSUBS; CM-
Tetranitromethane
RED;
OXD;
CARBN;
CHRED;
or
BIODG; or
INCIN
INCIN
P113
Table B
1314—32—5
NA
RTHRM;
or
Thallic oxide
STABL
P12.5
Table
B
7446-18—6
NA
RTHRN; or
Thallium
(I) sulfate
STABL
P116
NA
79-19—6
(WETOX or
INCIN
Thiosemicarbazide
CHOXD)
fb
CARBN;
or
INCIN
P118
NA
75-70—7
(WETOX or
INCIN
Trichioromethanethiol
CHOXD)
lb
CARBN; or
INCIN
P2.19
Table B
7803—55—6
NA
STABL
Ainmonium vanadate
P120
Table B
1314-62-1
NA
STABL
Vanadium pentoxide
P122
NA
1314-84-7
CHOX!); CM—
CHOXD; CM-
Zinc Phosphide (~10)
RED;
or
RED;
or
INCIN
INCIN
13001
NA
75-07-0
(WETOX or
INCIN
Acetaldehyde
CHOXD)
Lb
CARBN;
or
INCIN
13003
Table B
75-05—8
NA
INCIN
Acetonitrile
13006
NA
75—36—5
(WETOX or
INCIN
Acetyl chloride
CHOXD)
fb
CARBN;
or
INCIN
U007
NA
79-06—1
(WETOX
or
INCIN
Acrylamide
CHOXD)
Lb
CARBN; or
INCIN
U008
NA
79—10—7
(WETOX
or
FSUBS; or
Acrylic acid
CHOXD)
Lb
INCIN
CARBN;
or
INCIN
13010
NA
50-07-7
(WETOX or
INCIN
Mitomycin C
CHOXD)
fb
CARBN;
or
INCIN
79
U011
NA
61-82—5
(WETOX or
INCIN
Amitrole
CMOXD)
Lb
CARBN;
or
INCIN
13014
NA
492-80-8
(WETOX or
INCIN
Auramine
CHOXD) Lb
CARBN;
or
INCIN
13015
NA
115-02-6
(WETOX or
INCIN
Azaserine
CF!OXD)
fb
CARBN;
or
INCIN
U0l6
NA
225-51-4
(WETOX or
FSUBS; or
Benz(c)acridine
CMOXD)
lb
INCIN
CARBN;
or
INCIN
13017
NA
98-87—3
(WETOX or
INCIN
Benzal chloride
CMOXD)
Lb
CARBN;
or
INCIN
13020
NA
98—09—9
(WETOX or
INCIN
Benzenesulfonyl chloride
CHOXD)
Lb
CARBN;
or
INCIN
1t021
NA
92-87—5
(WETOX or
INCIN
Benzidine
CHOX!))
Lb
CARBN;
or
INCIN
U023
NA
98-07—7
CHOXD; CR—
FSUBS; CM-
Benzotrichloride
RED;
OXD;
CARBN;
CHRED;
or
BIODG;
or
INCIN
INCIN
13026
NA
494-03-1
(WETOX or
INCIN
Chlornaphazin
CHOXD) fb
CARBN; or
INCIN
U033
NA
353—50-4
(WETOX or
INCIN
Carbonyl fluoride
CHOX!))
Lb
CARBN;
or
INCIN
U034
NA
75—87—6
(WETOX or
INCIN
Trichloroacetaldehyde
CHOXD)
Lb
(Chloral)
CARBN;
or
INCIN
13035
NA
305-03—3
(WETOX or
INCIN
Chlorambucil
CHOXD)
lb
CARBN;
or
INCIN
13038
Table
B
510—15—6
NA
INCIN
Chlorobenzilate
80
U041
NA
106—89-8
(WETOX or
INCIN
1—Chloro—2,3—epoxy—
CHOXD)
fb
propane
(Epichloro—
CAftaN;
or
hydrin)
INCIN
U042
Table B
110—75-8
NA
INCIN
2-Chloroethyl vinyl
ether
13046
NA
107-30-2
(WETOX or
INCIN
Chloromethyl methyl
CHOXD)
Lb
ether
CARBN;
or
INCIN
U049
NA
3165—93—3
(WETOX or
INCIN
4-Chloro-o—toluidine
CHOX!))
Lb
hydrochloride
CARBN;
or
INCIN
U053
NA
4170—30—3
(WETOX or
FSUBS; or
Crotonaldehyde
CHOXD)
fb
INCIN
CARBN;
or
INCIN
U055
NA
98-82-8
(WETOX or
FSUBS; or
Cumene
CHOXD)
Lb
INCIN
CARBN; or
INCIN
13056
NA
110—82—7
(WETOX or
FSUBS;
or
Cyclohexane
CHOXD) Lb
INCIN
CARBN;
or
INCIN
U057
Table B
108—94-1
NA
FSUBS;
or
Cyclohexanone
INCIN
U058
NA
50-18—0
CARBN; or
FSUBS;
or
Cyclophosphamide
INCIN
INCIN
13059
NA
20830—81-3
(WETOX or
INCIN
Daunomycin
CHOXD)
Lb
CARBN; or
INCIN
13062
NA
2303—16—4
(WETOX or
INCIN
Diallate
CHOXD)
fb
CARBN; or
INCIN
U064
NA
189—55—9
(WETOX or
FSUBS; or
1,2,7,8—Dibenzopyrene
CHOXD)
Lb
INCIN
CARBN; or
INCIN
U073
NA
91-94—1
(WETOX or
INCIN
3,3’-Dichloroben~idine
CHOXD)
lb
CARBN; or
INCIN
81
U074
NA
1476—11—5
(WETOX or
INCIN
cis—1,4—Dichloro—2—bu—
CHOXD)
Lb
tene; trans—1,4-Di-
CARBN;
or
chloro-2-butene
INCIN
UO85
NA
1464-53—5
(WETOX or
FSUBS;
or
1,2:3,4—Diepoxybutane
CHOXD)
fb
INCIN
CARBN;
or
INCIN
13086
NA
2.62.5-80—1
CHOXD;
FSUBS;
N,N-Diethylhydrazine
CHRED;
CMOXD;
CARBN;
CHREP;
or
BIODG; or
INCIN
INCIN
13087
NA
3288-58-2
CARBN; or
FSUBS; or
0,0-Diethyl S—methyl-
INCIN
INCIN
dithiophosphate
13089
NA
56—53—1
(WETOX or
PSUBS; or
Diethyl stilbestrol
CHOXD) fb
INCIN
CARBN; or
INCIN
U090
NA
94—58—6
(WETOX or
FSUBS; or
Dihydrosafrole
CHOXD)
Lb
INCIN
CARBN;
or
INCIN
U091
NA
2.19—90-4
(WETOX or
INCIN
3,3’—Dimethoxybenzidine
CHOXD)
lb
CARBN; or
INCIN
U092
NA
124—40-3
(WETOX or
INCIN
Dimethylamine
CHOXD) lb
CARBN; or
INCIN
U093
Table B
621—90-9
NA
INCIN
p-Dimethylaminoazo-
benzene
13094
NA
57—97—6
(WETOX or
FSUBS; or
7,12—Dimethylbenz(a)—
CMOXD) Lb
INCIN
anthracene
CARBN;
or
INCIN
13095
NA
119-93-7
(WETOX or
INCIN
3,3’—Dimethylbenzidine
CHOXD)
lb
CARBN; or
INCIN
13096
NA
80—15—9
CHOXD;
FSUBS;
alpha,alpha—Dimethyl-
CHRED;
CHOXD;
benzyl hydroperoxide
CARBN;
CHRED;
or
BIODG;
or
INCIN
INCIN
U097
NA
79—44—7
(WETOX or
INCIN
Dimethylcarbamoyl chlor-
CHOXD)
Lb
ide
CARBN;
or
INCIN
82
U098
NA
57-14-7
CHOXD; CM-
FSUBS; CM-
1,1-Diniethylhydrazine
RED;
OXD;
CARBN;
CHRED; or
BIODG;
or
INCIN
INCIN
U099
NA
540—73—8
CHOXD; CM-
FSUBS;
CM—
1,2-Dimethylhydrazine
RED;
OX!);
CARBN;
CHRED;
or
BIODG; or
INCIN
INCIN
U103
NA
77-78-1
CHOXD; CM-
FSUBS; CH—
Dimethyl sulfate
RED;
OX!);
CARBN;
CHRED; or
BIODG; or
INCIN
INCIN
13109
NA
122—66—7
CHOXD; CM-
FSUBS; CM—
1,2-Diphenylhydrazine
RED;
OXD;
CARBN;
CHRED;
or
BIODG; or
INCIN
INCIN
U110
NA
142—84-7
(WETOX or
INCIN
Dipropylamine
CHOXD)
Lb
CARBN;
or
INCIN
13113
NA
140—88-5
(WETOX or
FSUBS; or
Ethyl acrylate
CHOXD)
Lb
INCIN
CARBN;
or
INCIN
13114
NA
12.1—54-6
(WETOX or
INCIN
Ethylenebisdithio—
CHOXB)
fb
carbamic acid
CARBN;
or
INCIN
13115
NA
75-21—8
(WETOX or
CHOXD;
or
Ethylene oxide
CHOXD)
Lb
INCIN
CARBN; or
INCIN
13116
NA
96-45-7
(WETOX or
INCIN
Ethylene thiourea
CHOXD)
Lb
CARBN; or
INCIN
U119
NA
62-50—0
(WETOX or
INCIN
Ethyl methanesulfonate
CHOXD)
Lb
CARBN;
or
INCIN
13122
NA
50-00—0
(WETOX or
FSUBS; or
Formaldehyde
CHOXD)
Lb
INCIN
CARBN; or
INCIN
83
U123
NA
64-18—6
(WETOX or
FSUBS; or
Formic acid
CHOXD)
Lb
INCIN
CARBN;
or
INCIN
U124
NA
110—00-9
(WETOX or
FSUBS; or
Furan
CHOXD)
lb
INCIN
CARBN;
or
INCIN
U125
NA
98-01-1
(WETOX or
FSUBS; or
Furfural
CHOXD)
Lb
INCIN
CARBN;
or
INCIN
13126
NA
765—34-4
(WETOX or
FSUBS; or
Glycidaldehyde
CMOXD)
Lb
INCIN
CARBN;
or
INCIN
U132
NA
70—30-4
(WETOX or
INCIN
Hexachloropherte
CHOXD)
lb
CARBN; or
INCIN
U133
NA
302-01—2
CHOXD;
FSUBS;
Hydrazine
CHRED;
CHOXD;
CARBN;
CHRED; or
BIODG;
or
INCIN
INCIN
U134
Table B
7664-39—3
NA
ADGAS
Lb
Hydrogen Fluoride
NEUTR; or
NEUTR
U135
NA
7783-06-4
CHOXD;
CM-
CMOXD;
CM—
Hydrogen Sulfide
RED; or
RED; or
INCIN
INCIN
13143
NA
303-34-4
(WETOX
or
INCIN
Lasiocarpine
CMOXP) Lb
CARBN;
or
INCIN
U147
NA
108-31-6
(WETOX
or
FSUBS; or
l4aleic anhydride
CHOXD)
Lb
INCIN
CARBN;
or
INCIN
13148
NA
123-33—1
(WETOX
or
INCIN
Maleic hydrazide
CHOXD)
Lb
CARBN;
or
INCIN
13149
NA
109—77-3
(WETOX
or
INCIN
l4alononitrile
CHOXD)
Lb
CARBN;
or
INCIN
84
13150
NA
148—82—3
(WETOX or
INCIN
Melphalan
CHOXD)
Lb
CARBN;
or
INCIN
U151
Tables A
7439-97—6
NA
RNERC
Mercury:
(High Mercury
& B
Subcategory——greater
than or equal to 260
mg/kg total Mercury)
13153
NA
74-93—1
(WETOX or
INCIN
Methanethiol
CHOXD) Lb
CARBN;
or
INCIN
U154
NA
67—56—1
(WETOX or
FSUBS; or
Methanol
CHOXD)
Lb
INCIN
CARBN;
or
INCIN
U156
NA
79—22—1
(WETOX or
INCIN
Methyl chlorocarbonate
CHOXD)
Lb
CARBN;
or
INCIN
U160
NA
1338-23-4
CHOXD;
FSUBS;
Methyl ethyl ketone per—
CHRED;
CHOXD;
oxide
CARBN;
CHRED;
or
BIODG; or
INCIN
INCIN
U163
NA
70—25—7
(WETOX or
INCIN
N—Methyl-N’—nitro-N—
CHOXD)
Lb
Nitrosoguanidine
CARBN;
or
INCIN
13164
NA
56—04—2
(WETOX or
INCIN
Methylthiouracil
CHOXD)
Lb
CABBN;
or
INCIN
U166
NA
130—15—4
(WETOX or
FSUBS;
or
1,4-Naphthoquinone
CHOXD)
lb
INCIN
CARBN;
or
INCIN
13167
NA
134-32—7
(WETOX or
INCIN
1—Naphthylamine
CMOXD)
lb
CARBN;
or
INCIN
U168
Table B
91—59—8
NA
INCIN
2—Naphthylamine
U171
NA
79—46—9
(WETOX
or
INCIN
2—Nitropropane
CHOXD)
Lb
CARBN; or
INCIN
U173
NA
1116-54—7
(WETOX or
INCIN
N—Nitroso—diethanolamine
CHOXD)
lb
CARBN;
or
INCIN
85
13176
NA
759-73—9
(WETOX
or
INCIN
N-Nitroso—N—ethylurea
CHOXD)
fb
CARBN;
or
INCIN
13177
NA
684-93—5
(WETOX or
INCIN
N-Nitroso—N—methylurea
CMOXD)
Lb
CARBN;
or
INCIN
13178
NA
615-53—2
(WETOX or
INCIN
N-Nitroso-N-methyl-
CMOXD)
lb
urethane
CARBN; or
INCIN
13182
NA
123-63—7
(WETOX or
FSUBS; or
Paraldehyde
CHOXD)
Lb
INCIN
CARBN;
or
INCIN
U184
NA
76—01—7
(WETOX or
INCIN
Pentachloroethane
CHOXD)
lb
CARBN; or
INCIN
U186
NA
504-60—9
(WETOX or
FSUBS; or
1,3—Pentadiene
CHOXD)
fb
INCIN
CARBN;
or
INCIN
132.89
NA
1314—80—3
CHOXD;
CM—
CHOXD;
CM-
Phosphorus sulfide
RED;
or
RED; or
INCIN
INCIN
13191
NA
109-06-8
(WETOX or
INCIN
2-Picoline
CMOXD)
Lb
CARBN; or
INCIN
0193
NA
1120-71—4
(WETOX or
INCIN
1,3-Propane sultone
CHOXD)
Lb
CARBN;
or
INCIN
13194
NA
107-10-8
(WETOX or
INCIN
n-Propylamine
CMOXD)
Lb
CARBN;
or
INCIN
0197
NA
106-51-4
(WETOX or
FSUBS;
or
p-Benzoquinone
CHOXD)
Lb
INCIN
CARBN;
or
INCIN
0200
NA
50-55—5
(WETOX or
INCIN
Reserpine
CHOXD)
Lb
CARBN;
or
INCIN
86
13201
NA
108—46-3
(WETOX or
FSUBS; or
Resorcinol
CHOXD)
Lb
INCIN
CARBN; or
INCIN
U202
NA
81-07—2 A
(WETOX or
INCIN
Saccharin and salts
CHOXD)
lb
CARBN; or
INCIN
U206
NA
18883—66-4
(WETOX or
INCIN
Streptozatocin
CHOXD)
lb
CARBN;
or
INCIN
13213
NA
109—99—9
(WETOX or
PSUBS;
or
Tetrahydrofuran
CHOXD)
fb
INCIN
CARBN;
or
INCIN
0214
Table B
563—68—8
NA
RTHRM;
or
Thallium
(I) acetate
STABL
13215
Table
B
6533—73—9
NA
RTMRM; or
Thallium
(I) carbonate
STABL
0216
Table
B
7791—12—0
NA
RTHRM; or
Thallium
(I) chloride
STABL
U217
Table B
102.02—45—1
NA
RTHRM; or
Thallium
(I) nitrate
STABL
0218
NA
62-55—5
(WETOX or
INCIN
Thioacetamide
CMOXD)
Lb
CARBN; or
INCIN
13219
NA
62—56—6
(WETOX or
INCIN
Thiourea
CHOXD)
Lb
CARBN; or
INCIN
0221
NA
25376—45—8
CARBN; or
FSUBS; or
Toluenediamine
INCIN
INCIN
15222
NA
636—21-5
(WETOX or
INCIN
o-Toluidine hydro—
CMOXD)
Lb
chloride
CARBN;
or
INCIN
0223
NA
26471-62—5
CARBN;
or
FSUBS;
or
Toluene diisocyanate
INCIN
INCIN
0234
NA
99—35—4
(WETOX or
INCIN
sym—Trinitrobenzene
CHOXP)
Lb
CARBN;
or
INCIN
U236
NA
72-57-1
(WETOX or
INCIN
Trypan Blue
CMOXD)
lb
CARBN;
or
INCIN
87
~3237
NA
66-75—1
(WETOX or
INCIN
Uracil mustard
CHOXD)
Lb
CARBN; or
INCIN
U238
NA
51-79—6
(WETOX or
INCIN
Ethyl carbamate
CHOX!))
lb
CARBN;
or
INCIN
U240
NA
94_75_7*
(WETOX or
INCIN
2,4—Dichlorophenoxy-
CHOXD)
lb
acetic acid (salts and
CARBN;
or
esters)
INCIM
13244
NA
137—26-8
(WETOX or
INCIN
Thiram
CHOXD)
lb
CARBN;
or
INCIN
U246
NA
506-68-3
CHOXD;
CHOXD;
Cyanogen bromide
WETOX;
or
WETOX;
or
INCIN
INCIN
U248
NA
81-81-2
(WETOX or
FSUBS; or
Warfarin (0.3
or less)
CHOXD)
lb
INCIN
CARBN; or
INCIN
13249
NA
1314—84—7
CHOXD; CM—
CHOXD; CM-
Zinc Phosphide
(10)
RED;
or
RED;
or
INCIN
INCIN
U328
NA
95—53-4
INCIN; or
INCIN; or
o—toluidine
CHOXD
fb,
Thermal
(BIODG or
Destructio
CARBN); or
n.
BIODG lb
CARBN
U353
NA
106-49—0
INCIN;
or
INCIN;
or
p—toluidine
CHOXD
lb,
Thermal
(BIODG or
Destructio
CAREN);
or
n.
BIODG Lb
CARBN
13359
NA
110-80—5
INCIN; or
INCIN; or
2—ethoxy-ethanol
CHOXD fb,
FSUBS.
(BIODG or
CARBN);
or
BIODG Lb
CARBN
A
CAS Number given for parent compound only.
B
This waste code exists in gaseous form and is not categorized as
wastewater or nonwastewater forms.
NA
Not Applicable.
BOARD
NOTE:
When a combination of these technologies
(i.e.,
a treatment
88
train)
is specified
as
a single treatment standard, the order of application
is specified in this Table by indicating the five letter technology code that
must be applied first, then the designation “fb”
(an abbreviation for “Fol-
lowed by”),
then the five letter technology code for the technology that must
be applied next,
and so on.
When more than one technology
(or treatment
train) are specified a alternative treatment
standards, the five letter
technology codes
(or the treatment trains) are separated by a semicolon
(;)
with the last technology preceded by the word “or”.
This indicates that any
one of these BDAT technologies or treatment trains can be used for compliance
with the standard.
See Section 728..Table C for a
listing of the technology
codes and technology—based treatment standards.
Derived from 40 CFR 268.42,
Table 2
(1992),
as amended at 57 Fed. Reg. 37273
(Aug.
18,
1992)
and 59
Fed.
Req.
32.552
(June 20,
1994).
(Source:
Amended at
Ill.
Reg.
_________,
effective
TITLE 35:
ENVIRONMENTAL PROTECTION
SUBTITLE C:
WASTE DISPOSAL
CHAPTER
I:
POLLUTION CONTROL BOARD
SUBCHAPTER c:
HAZARDOUS WASTE OPERATING
REQUIREMENTS
PART
739
STANDARDS
FOR THE
MANAGEMENT
OF USED OIL
SUBPART A:
DEFINITIONS
Section
739.100
Definitions
SUBPART B:
APPLICABILITY
Section
739.110
Applicability
739.111
Used oil specifications
739.112
Prohibitions
SUBPART C:
STANDARDS
FOR USED OIL GENERATORS
Section
739.120
Applicability
739.121
Hazardous waste mixing
739.122
Used oil storage
739.123
On-site burning in space heaters
739.124
Off—site shipments
SUBPART D:
STANDARDS
FOR USED OIL COLLECTION CENTERS
AND
AGGREGATION POINTS
Section
739.130
Do-it-yourselfer used oil collection centers
739.132.
Used oil collection centers
739.132
Used oil aggregate points owned by the generator
SUBPART E:
STANDARDS FOR USED OIL TRANSPORTER
AND TRANSFER
FACILITIES
Section
739.140
Applicability
739.141
Restrictions on transporters that are not also processors
739.142
Notification
739.143
Used oil transportation
739.144
Rebuttable presumption for used oil
739.145
Used oil storage at transfer facilities
739.146
Tracking
739.147
Management of residues
89
SUBPART
F:
STANDARDS
FOR USED OIL PROCESSORS
Section
739.150
Applicability
739.151
Notification
739.152
General facility standards
739.153
Rebuttable presumption for used oil
739.154
Used oil management
739.155
Analysis plan
739.156
Tracking
739.157
Operating record and reporting
739.158
Off—site shipments of used oil
739.159
Management of residues
SUBPART G:
STANDARDS
FOR USED OIL BURNERS THAT BURN
OFF-SPECIFICATION USED OIL FOR ENERGY RECOVERY
Section
739.160
Applicability
739.161
Restriction on burning
739.162
Notification
739.163
Rebuttable presumption for used oil
739.164
Used oil storage
739.165
Tracking
739.166
Notices
739.167
Management of residues
SUBPART H:
STANDARDS
FOR USED OIL FUEL
MARKETERS
Section
739.170
Applicability
739
•
171
Prohibitions
739.172
On—specification used oil Luel
739.173
Notification
739.174
Tracking
739.175
Notices
SUBPART
I:
STANDARDS FOR USE AS A DUST SUPPRESSANT DISPOSAL OF USED OIL
Section
739. 180
Applicability
739.181
Disposal
739.182
Use as a duet suppressant
AUTHORITY:
Implementing Section 22.4 and authorized by Section 27 of the
Environmental Protection Act
(Ill.
flcv. Ctat.
2.~2., ch.
111½, par3.
1022.4
and
1027
(415 ILCS 5/22.4 and 5/27+.
SOURCE:
Adopted in R93—4
at
17 Ill.
Reg. 20954, effective November 22,
1993;
amended in R93—16 at 18 Ill. Reg.
6931,
effective April 26,
1994;
amended
in
R94-17 at
Ill. Req.
,
effective
SUBPART A:
DEFINITIONS
Section 739.100
Definitions
Terms
that are defined in 35 Ill.
Adm.
Code 720.110,
721.101, and 731.112 have
the
same
meanings when used in this Part.
“Aboveground tank” means a tank used to store or process used oil
that
is not an underground storage tank as defined in 35 Ill.
Adm.
Code 280.12.
BOARD
NOTE:
This definition
is different from the definition for
“Aboveground tank” given in
35
Ill.
Adm.
Code 720.110.
Although
the meanings are similar, the main distinction
is that the
90
definition for this Part limits the tanks to those used to store
or process used oil, whereas the 720.110 definition contemplates
tanks whiohthat contain hazardous wastes.
The above definition is
limited to this Part only.
“Container” means any portable device in which a material is
stored,
transported,
treated, disposed of, or otherwise handled.
“Do—it—yourselfer used oil collection center” means any site or
facility that accepts or aggregates and stores used oil collected
only from household do—it—yourselfers.
“Existing tank” means a tank that is used for the storage or
processing of used oil and that is in operation, or for which
installation has
commenced
on or prior to the effective date of
the authorized used oil program for the State in which the tank is
located.
Installation will be considered to have commenced if the
owner
or operator has obtained all federal,
state, and local
approvals or permits necessary to begin installation of the tank
and
if either:
A continuous on—site installation program has begun,
or
The owner or operator has entered into contractual
obligations—which that cannot be canceled or modified
without substantial loss—_for installation of the tank to be
completed within
a reasonable time.
BOARD
NOTE:
This definition
is
similar to the definition
for “Existing tank system”
in 35
Ill.
Adm.
Code 720.110.
Although the meanings are similar, the definition given
above for “existing tank” in this Part limits the tanks to
those used to store or process used oil, whereas the
720.12.0
definition contemplates tanks systems whichthat contain
hazardous wastes.
The above definition
is limited to this
Part only.
“Household
‘do-it—yourselfer’ used oil” means oil that is derived
from households,
such as used oil generated by individuals who
generate used oil through the maintenance of their personal
vehicles.
BOARD
NOTE:
Household ‘do—it-yourselfer’
used oil is not subject
to the State’s special waste hauling
permit requirements
under
Part 809.
“Household
~do—it—yourselfer’ used oil generator” means an
individual who generates household
“do—it—yourselfer” used oil.
“New tank” means a tank that will be used to store or process used
oil and for which installation has commenced after the effective
date of the authorized used oil
program for the
State in which the
tank is located.
BOARD
NOTE:
This definition is
similar to the definition given
for “New tank
system”
given in 35 Ill.
Adm.
Code 720.110.
Although the meanings are similar, the definition given above for
“new tank” in this Part limits the tanks to those used to store or
process used oil, whereas the 720.110 definition contemplates new
tanks systems which contain hazardous wastes.
The above
definition is limited to this Part only.
“Petroleum refining facility” means an establishment primarily
engaged in producing gasoline,
kerosene. distillate fuel oils,
residual fuel oils,
and lubricants, throuah fractionation,
91
straight distillation of crude oil, redistillation of unfinished
petroleum derivatives,
cracking, or other processes
(i.e.,
facilities classified as SIC 2911).
“Processing” means chemical or physical operations designed to
produce from used oil,
or to make used oil more amenable for
production of,
fuel oils, lubricants,
or other used oil—derived
product.
Processing includes,
but
is not limited to:
blending
used oil with virgin petroleum products,
blending used oils to
meet the fuel specification,
filtration, simple distillation,
chemical or physical separation4, and re—refining.
“Re—refining distillation bottoms” means the heavy fraction
produced by vacuum distillation of filtered and dehydrated used
oil.
The composition of still bottoms varies with column
operation and feedstock.
“Tank” means any stationary device, designed to contain an
accumulation of used oil which is constructed primarily of non—
earthen materials,
(e.g., wood,
concrete,
steel, plastic) which
provides structural support.
“Used oil” means any oil that has been refined from crude oil, or
any synthetic oil, that has been used and as a result of such use
is contaminated by physical or chemical impurities.
“Used oil aggregation point” means any site or facility that
accepts,
aggregates,
or stores used oil collected only from other
used oil generation sites owned or operated by the owner or
operator of the aggregation point,
from which used oil
is
transported to the aggregation point in shipments of no more than
55 gallons.
Used oil aggregation points may also accept used oil
from household do—it—yourselfere.
“Used oil burner” means
a facility where used oil not meeting the
specification requirements in Section 739.111 is burned for energy
recovery in devices identified in Section 739.161(a).
“Used oil collection center” means any site or facility that is
registered by the Agency to manage used oil and accepts or
aggregates and stores used oil collected from used oil generators
regulated under Subpart C of this Part that bring used oil to the
collection center in shipments of no more than 55 gallons under
the provisions of Section 739.124.
Used oil collection centers
may also accept used oil from household do—it-yourselfers.
“Used oil fuel marketer” means any person that conducts either of
the following activities:
Directs
a shipment of off—specification used oil
from their
facility to a used oil burner; or
First claims that used oil that is to be burned for energy
recovery meets the used oil fuel specifications set
forth in
Section 739.111.
“Used oil generator” means any person,
by site, whose act
or
process produces used oil or whose act
first causes used oil to
become subject to regulation.
“Used oil processor” means a facility that processes used oil.
92
“Used oil transfer facility” means any transportation~related
facility including loading docks, parking areas,
storage areas,
and other areas where shipments of used oil are held for more than
24 hours during the normal oouroo of transportation and not longer
than 35 days during the normal course of transportation or nrior
to an activity performed pursuant to Section 739.120(b) (2).
Transfer facilities that store used oil for more than 35 days are
subject to regulation under Subpart F of this Part.
“Used oil transporter” means any person that transports used oil,
any person that collects used oil from more than one generator and
that transports the collected oil, and owners and operators of
used oil transfer facilities.
Used oil transporters may
consolidate or aggregate loads of used oil for purposes of
transportation but, with the following exception, may not process
used oil.
Transporters may conduct incidental processing
operations that occur in the normal course of used oil
transportation
(e.g., settling and water separation), but that are
not designed to produce (or make more
amenable
for production of)
used oil derived products or used oil
fuel.
(Source:
Amended at
Ill. Reg.
_________,
effective
SUBPART B:
APPLICABILITY
Section 739.110
Applicability
This Section identifies those materials which are subject to regulation as
used oil under this Part.
This Section also identifies some materials that
are not subject to regulation as used oil under this Part,
and indicates
whether these materials may be subject to regulation as hazardous waste under
Parts 702,
703,
720 through 7264, and 728.
a)
Used oil.
U.S. EPA presumes that used oil
is to be recycled
unless
a used oil handler disposes of used oil, or sends used oil
for disposal.
Except as provided
in Section 739.111, the
regulations of this Part apply to used oil,
and to materials
identified in this Section as being subject to regulation as used
oil, whether or not the used oil or material exhibits any
characteristics of hazardous waste identified in 35 Ill.
Adm.
Code
721.Subpart C.
b)
Mixtures of used oil and hazardous waste.
1)
Listed hazardous waste.
A)
A mixture of used oil and hazardous waste that is
listed in
35
Ill.
Adm.
Code 721.Subpart D
iB
subject
to regulation as hazardous waste under
35 Ill.
Adm.
Code 703,
720 through
7264, and 728, rather than
as
used oil under this Part.
B)
Rebuttable presumption for used oil.
Used oil
containing more than 1,000 ppm total halogens
ia
presumed to be a hazardous waste because it has been
mixed with halogenated hazardous waste listed
in
35
Ill.
Adm.
Code 721.Subpart D.
Persons may rebut this
presumption by demonstrating that the used oil does
not contain hazardous waste
(for example, by using an
analytical method from SW—846, Edition III, to show
93
that the used oil does not contain significant
concentrations of halogenated hazardous constituents
listed in 35 Ill.
Adm.
Code 721.Appendix H).
U.S. EPA
Publication SW—846, Third Edition,
is available ~e*
the cost of ~110.0O from the Government Printing
Office,
Superintendent of Documents,
P.O.
Box 371954,
Pittsburgh,
PA 15250—7954,
(202) 783—3238
(document
number
955—001—00000—1).
i)
The rebuttable presumption does not
apply to
metalworking oils or fluids containing
chlorinated parafIins,
if they are processed,
through a tolling arrangement as described in
Section 739.124(c), to reclaim metalworking oils
or fluids.
The presumption does apply to
metalworking oils or fluids if such oils or
fluids are recycled in any other manner, or
disposed.
ii)
The rebuttable presumption does not apply to
used oils contaminated with chiorofluorocarbons
(CFC5) removed from refrigeration units where
the CFC5 are destined for reclamation.
The
rebuttable
presumption does apply to used oils
contaminated with CFCs that have been mixed with
used oil from sources other than refrigeration
units.
2)
Characteristic hazardous waste.
A mixture of used oil and
hazardous waste that exhibits
a hazardous waste
characteristic identified in
35
Ill.
Adm.
Code 721.Subpart C
and a mixture of used oil and hazardous waste that is listed
in Subpart D of this Part solely because it exhibits one or
more of the characteristics of hazardous waste identified in
35 Ill.
Adm.
Code 721.Subpart C is subject to:
A)
Except as provided in subsection
(b)(2)(C) of this
Section, regulation as hazardous waste under 35 Ill.
Adm.
Code 703,
720 through 7264, and 728 rather than as
used oil under this Part,
if the resultant mixture
exhibits any characteristics of hazardous waste
identified in 35 Ill.
Adm.
Code 721.Subpart C;
or
B)
Except as provided in subsection (b)(2)(C)
of this
Section, regulation as used oil under this Part,
if
the resultant mixture does not exhibit any
characteristics of hazardous waste identified under 35
Ill.
Adm.
Code 721.Subpart C.
C)
Regulation as used oil under this Part,
if the mixture
is of used oil and a waste which is hazardous
solely
because
it exhibits the characteristic of ignitability
and
is not liatcd in 35
Ill.
Z~.dm. Oodc 721.Cubpart D
(e.g., ignitable—only mineral spirits), provided that
the resultant mixture does not exhibit the
characteristic of ignitability under 35 Ill.
Adin.
Code
721. 121.
3)
Conditionally exempt small quantity generator hazardous
waste.
A mixture of used oil and conditionally exempt small
quantity generator hazardous waste regulated under 35 Ill.
Adm.
Code 721.105
is subject to regulation as used oil under
94
this Part.
c)
Materials containing or otherwise contaminated with used
oil.-1-
1)
Except as provided in subsection
(c)(2) of this Section,
a
material containing or otherwise contaminated with used oil
from which the used oil has been properly drained or removed
to the extent possible such that no visible signs of free—
flowing oil remain in or on the material:
A)
Is not used oil, and thus,
it is not subject to thiB
Part,
and
B)
If applicable,
is subject to the hazardous waste
regulations of 35 Ill.
Adm.
Code 703,
705,
720 through
726, and 728.
2)
A material containing or otherwise contaminated with used
oil that
is burned for energy recovery is subject to
regulation as used oil under this Part.
3)
Used oil drained or removed from materials containing or
otherwise contaminated with used oil is subject to
regulation as used oil under this Part.
d)
Mixtures of used oil with products.
1)
Except as provided in subsection
(d)(2) below, mixtures of
used oil and fuels or other fuel products are subject to
regulation as used oil under this Part.
2)
Mixtures of used oil and diesel fuel mixed on—site by the
generator of the used oil for use in the generator’s
own
vehicles are not subject to this Part once the used oil and
diesel fuel have been mixed.
Prior to mixing, the used oil
is subject to the requirements of Subpart C of this Part.
e)
Materials derived from used oil.
1)
Materials that are reclaimed from used oil that are used
beneficially and are not burned for energy recovery or used
in a manner constituting disposal
(e.g., re—refined
lubricants)
are:
A)
Not used oil and thus are not subject to this Part,
and
B)
Not solid wastes and are thus not subject to the
hazardous waste regulations of Parts 35 Ill.
Adm.
Code
703, 720 through 7262. and 728 as provided in 35
Ill.
Adm.
Code 721.103(c) (2) (A).
2)
Materials produced from used oil that are burned for energy
recovery
(e.g., used oil fuels)
are subject to regulation as
used oil under this Part.
3)
Except as provided in subsection (e)(4)
below, materials
derived from used oil that are disposed of or used in
a
manner constituting disposal are:
A)
Not used oil and thus are not subject to this Part,
and
95
B)
Are solid wastes and thus are subject to the hazardous
waste regulations of 35 Ill. Adm. Code 703,
720
through 7262. and 728
if the materials are listed or
identified as hazardous waste.
4)
Used oil re—refining distillation bottoms that are used as
feedstock to manufacture asphalt products are not subject to
this Part.
f)
Wastewater.
Wastewater, the discharge of which is subject to
regulation under either Section 402 or Section 307(b)
of the Clean
Water Act
(including wastewaters at facilities which have
eliminated the discharge of wastewater), contaminated with de
minimis quantities of used oil are not subject to the requirements
of this Part.
For purposes of this subsection,
“de minimis”
quantities of used oils are defined as small spills,
leaks, or
drippings from pumps, machinery,
pipes,
and other similar
equipment during normal operations or
small amounts of oil lost to
the wastewater treatment system during washing or draining
operations.
This exception will not apply if the used oil is
discarded as a result of abnormal manufacturing operations
resulting in substantial
leaks,
spills, or other releases, or to
used oil recovered from wastewaters.
g)
Used oil introduced into crude oil or natural gas pipelines or a
petroleum refining facility.—
fl
Used oil that
is placed dirostlymixed with crude oil or
natural ~as liauids
(e.g.,
in
p
production separator or
crude oil stock tank)
for insertion into a crude oil e*
natural gas pipeline
is subject to the man~igcxnontstandards
of this Part only prior to the point of introduction to
the
pipeline.
Once the used oil is introduced
to
th~pipeline,
the material
is exempt from the requirements of this Part._
The used oil
is sublect to the reauirements of this Part
prior to the mixing of used oil with crude oil or natural
gas
lici-uids.
~j
Mixtures of used oil
and crude oil or natural
gag liauids
containing less than
1
used oil that are being stored or
transported to
p
crude oil pipeline or petroleum refining
facility for insertion into the refining process at a point
prior to crude distillation or catalytic cracking are exempt
from the requirements of this Part.
~j
Used oil that
is inserted into the Petroleum refining
process before crude distillation or catalytic cracking
without prior mixing with crude oil is exempt from the
requirements of this Part, provided that the used oil
contains less than 1
of the crude oil feed to any petroleum
refining facility process unit at any given time.
Prior to
insertion into the petroleum refining process, the used oil
is sub-ject to the re~irementsof this Part.
il
Except as provided in subsection
(g)(5) below, used oil that
is introduced into
a petroleum refining facility process
after crude distillation or catalytic crackin~is exempt
from the requirements of this Part only if the used oil
meets the specification of Section 739.111.
Prior to
insertion into the ~etro1eum refining facility Process~the
used oil is sublect to the requirements of this Part.
96
j)
Used oil.that is incidentally captured by a hydrocarbon
recovery system or wastewater treatment system as part of
routine process operations at a petroleum refining facility
and inserted into the petroleum refining facility process
is
exempt from the requirements of this Part.
This exemption
does not extend to used oil that
is intentionally introduced
into
a hydrocarbon recovery system
(e.g.. by pouring
collected used oil into the wastewater treatment system).
~
Tank bottoms from stock tanks containing exempt mixtures of
used oil and crude oil or natural gas liquids are exempt
from the requirements of this Part.
h)
Used oil on vessels.
Used oil produced on vessels from normal
shipboard operations is not subject to this Part until it is
transported ashore.
i)
Used oil containing PCBs.
In addition to the requirements of this
Part,
a marketer or burner of used oil that markets used oil
containing any quantifiable level of PCBs
is subject to the
requirements of 40 CFR 761.20(e).
(Source:
Amended at
Ill. Reg.
_________,
effective
SUBPART
C:
STANDARDS
FOR USED OIL
GENERATORS
Section 739.120
Applicability
a)
General.
This subpart applies to all generators of used oil,
except:
1)
Household “do—it—yourselfer” used oil generators.
Household
“do—it—yourselfer” used oil generators are not subject to
regulation under this Part.
2)
Vessels.
Vessels at sea or at port are not subject to this
Subpart.
For purposes of this Subpart, used oil produced on
vessels from normal shipboard operations
is considered to be
generated at the time it is transported ashore.
The owner
or operator of the vessel and the person(s) removing or
accepting used oil from the vessel are co—generators of the
used oil and are both responsible for managing the waste in
compliance with this Subpart once the used oil is
transported ashore.
The co—generators may decide among them
which party will fulfill the requirements of this Subpart.
3)
Diesel fuel.
Mixtures of used oil and diesel fuel mixed by
the generator of the used oil for use in the generator’s
own
vehicles are not subject to this Part once the used oil and
diesel fuel have been mixed.
Prior to mixing, the used oil
fuel is subject to the requirements of this Subpart.
4)
Farmers.
Farmers who generate an average of 25 gallons per
month or less of used oil from vehicles or machinery used on
the
farm in a
calendar year are not subject to the
requirements of this Part.
b)
Other applicable provisions.
U~_gsedoil generators
whethat
conducts any of the following activities a*ej~subject to the
requirements of other applicable provisions of this Part as
indicated in subsections
(b)(1) through
(5)
below:
97
1)
G~eneratore
whethat transport~
used oil, except under the
self—transport provisions of Section 739.124
(a) and
(b),
rnustshall also comply with 739.Subpart E.
2)
G~eneratore
whethat
process~or re—refine~used oil4,
~j.
Except as provided in subsection
(b)(2)(B) below,
a
generator that processes or re—refines used oil
shall
must also comply with 739.Subpart
F.
~j
A generator that performs the following activities is
not a used oil processor,
provided that the used oil
is generated on—site and
is not being sent off—site to
a burner of on- or off—specification used oil fuel:
fl
Filtering,
cleaning,
or otherwise reconditioning
used oil before returning
it for reuse by the
generator
JJJ.
Separating used oil from wastewater generated
on—site to make the wastewater acceptable for
discharge or reuse pursuant to Section 402 or
307(b)
for the federal Clean Water Act
(33
U.S.C.
1317 or 1342), 40 CFR 403 through 499,
or
35
Ill.
Adrn.
Code 310 or 309, governing the
discharge of wastewaters;
iii)
Using oil mist collectors to remove small
droplets of used oil from in-plant air to make
~1ant air suitable for continued recirculation
~
Draining or otherwise removing used oil from
materials containing or otherwise contaminated
with used oil
in order to remove excessive oil
to the extent possible pursuant to Section
739.110(c);
or
~J_
Filtering,
seoarating, or otherwise
reconditioning used oil before burning it
in a
space heater pursuant to Section 739.123.
3)
G~generator
whethat
burn~off—specification used oil for
energy recovery,
except under the on—site space heater
provisions of Section 739.123, muotshall also comply with
739.Subpart G.
4)
G~enerator whethat direct~shipments of off—specification
used oil from their facility to
a used oil burner or first
claim~that used oil that is to be burned for energy
recovery meets the used oil fuel specifications set forth in
Section 739.111 mustshall also comply with 739.Subpart H.
5)
G~enerator
whethat
dispose,~of used oil, including the use
of used oil as
a dust suppressant, muotshall also comply
with 739.Subpart
I.
(Source:
Amended at
_____
Ill. Reg.
_________,
effective
SUBPART E:
STANDARDS
FOR USED OIL TRANSPORTER
AND
TRANSFER
FACILITIES
98
Section 739.141
Restrictions on transporters that are not also processors
a)
Used oil transporters may consolidate or aggregate loads of used
oil for purposes of transportation.
However, except
as provided
in subsection
(b) of this Section, used oil transporters may not
process used oil unless they also comply with the requirements for
processors in Subpart F of this Part.
b)
Transporters may conduct incidental processing operations that
occur in the normal course of used oil transportation (e.g.,
settling and water separation),
but that are not designed to
produce
(or make more amenable for production of) used oil derived
products unless they also comply with the processor requirements
in Subpart F of this Part.
~
Transporters of used oil that is
removed from oil—bearing
electrical transformers and turbines and which
is filtered by the
transporter or at p transfer facility prior to being returned to
its original use are not sublect to the processor and re—refiner
requirements in 739.Subpart F.
(Source:
Amended at
Ill. Reg.
_________,
effective
Section 739.144
Rebuttable presumption for used oil
a)
To ensure that used oil
is not a hazardous waste under the
rebuttable presumption of Section 739.1l0(b)(1)(ii), the used oil
transporter muatshall determine whether the total halogen content
of used oil being transporter or stored at a transfer facility is
above or below 1,000 ppm.
b)
The transporter muotshall make this determination by:
1)
Testing the used oil; or
2)
Applying knowledge of the halogen content of the used oil in
light of the materials or processes used.
c)
If the used oil contains greater than or equal to 1,000 ppm total
halogens,
it
is presumed to be a hazardous waste because
it has
been mixed with halogenated hazardous waste listed
in 35 Ill.
Adm.
Code 721.Subpart D.
The owner or operator may rebut the
presumption by demonstrating that the used oil does not contain
hazardous waste
(for example, by using an analytical method from
SW—846,
Edition III, to show that the used oil does not contain
significant concentrations of halogenated hazardous constituentB
listed in 35 Ill.
Adm.
Code 721.Appendix H).
U.S. EPA Publication
SW—846,
Third Edition,
is
available
-for
the coot of ~1l0.00 from
the Government Printing Office,
Superintendent of Documents,
P0
Box 371954,
Pittsburgh,
PA 15250—7954.
(202) 783—3238
(document
number 955—001—00000—1).
1)
The rebuttable presumption does not apply to metalworking
oils and fluids containing chlorinated paraffins,
if they
are processed,
through a tolling arrangement as described in
Section 739.124(c), to reclaim metalworking oils and fluids.
The presumption does apply to metalworking oils and fluids
if such oils and fluids are recycled in any other manner, or
disposed.
2)
The rebuttable presumption does not apply to used oils
99
contaminated with chlorofluorocarbons
(CFC5)
removed from
refrigeration units if the CFC are destined for reclamation.
The rebuttable presumption does apply to used oils
contaminated with CFCs that have been mixed with used oil
from sources other than refrigeration units.
d)
Record retention.
Records of analyses conducted or information
used to comply with subsections
(a),
(b),
and
(C)
of this Section
must be maintained by the transporter for at least
3 years.
(Source:
Amended at
Ill. Reg.
________,
effective
Section 739.146
Tracking
a)
Acceptance.
Used oil transporters
shall keep a record of each
used oil shipment accepted for transport.
Records for each
shipment must include:
1)
The name and address of the generator,
transporter, or
processor that provided the used oil for transport;
2)
The U.S. EPA identification number and Illinois special
waste identification number
(if
applicable)
of the
generator, transporter,
or processor that provided the used
oil for transport;
3)
The quantity of used oil accepted;
4)
The date of acceptance;
and
5)
The signature4,
~j.
Except
as
provided
in
subsection
(a)(SUB)
below,
the
signature, dated upon receipt of the used oil, of
a
representative of the generator, transporter,
or
processor or re—refiner that provided the used oil for
transport.
~gj~
An intermediate rail transporter
is not required to
sign the record of acceptance.
b)
Deliveries.
Used oil transporters shall keep
a record of each
shipment of used oil that
is delivered to another used oil
transporter,
or to a used oil burner, processor,
or disposal
facility.
Records of each delivery must include:
1)
The name and address of the receiving facility or
transporter;
2)
The U.S. EPA identification
number
and Illinois special
waste identification number of the receiving facility or
transporter;
3)
The quantity of used oil delivered;
4)
The date of delivery;
5)
The signature4,
~j
Except as provided in subsection
(b)(5)(B)
below, the
signature,
dated upon receipt of the used oil,
of a
100
representative of the receiving facility or
transporter.
flJ.
An intermediate rail transporter
is not required to
sian
the record of acceptance.
c)
Exports of used oil.
Used oil transporters shall maintain the
records described in subsections
(b)(1) through (b)(4) of this
Section for each shipment of used oil exported to any foreign
country.
d)
Record retention.
The records described in subsections
(a),
(b),
and
(c) of this Section must be maintained for at least three
years.
(Source:
Amended at
Ill. Reg.
_________,
effective
SUBPART
F:
STANDARDS
FOR USED OIL PROCESSORS
Section 739.152
General facility standards
a)
Preparedness and prevention.
Owners
and operators of used oil
processors and re—refiners facilities
shall. comply with the
following requirements:
1)
Maintenance and operation of facility.
Facilities must be
maintained and operated to minimize the possibility of a
fire,
explosion,
or any unplanned sudden or non—sudden
release of used oil to air,
soil, or surface water which
could threaten human health or the environment.
2)
Required equipment.
All facilities must be equipped with
the following,
unless none of the hazards posed by used oil
handled at the facility could require a particular kind of
equipment specified in subsections
(a)(2)(A) through
(a)(2)(D) of this Section:
A)
An internal communications or alarm system capable of
providing
immediate
emergency instruction (voice or
signal) to facility personnel;
B)
A device,
such as a telephone (immediately available
at the scene of operations) or a hand—held two—way
radio,
capable of
summoning
emergency assistance from
local police departments,
fire departments,
or State
or local emergency response teams;
C)
Portable fire extinguishers,
fire control equipment
(including special extinguishing equipment, such as
that using foam,
inert gas, or dry chemicals),
spill
control
equipment4,
and decontamination equipment;
and
D)
Water at adequate volume and pressure to supply water
hose streams, or foam producing equipment, or
automatic sprinklers, or water spray systems.
3)
Testing and maintenance of equipment.
All facility
communications or alarm systems, fire protection equipment,
spill control equipment, and decontamination equipment,
where required, must be tested and maintained
as necessary
to assure its proper operation in time of emergency.
101
4)
Access to communications or alarm system.
A)
Whenever used oil is being poured, mixed,
spread,
or
otherwise handled,
all personnel involved in the
operation must have
immediate
access to an internal
alarm or
emergency communication device, either
directly or through visual or voice contact with
another employee, unless such a device is not required
in subsection
(a)(2) of this Section.
B)
If there
is ever just one employee on the premises
while the facility is operating, the employee must
have
immediate access
to a device, such as
a telephone
(immediately
available at the scene of operation)
or a
hand—held two—way radio, capable of summoning external
emergency assistance, unless such a device is not
required in subsection
(a)(2) of this. Section.
5)
Required aisle space.
The owner or operator shall maintain
aisle space to allow the unobstructed movement of personnel,
fire protection equipment,
spill control equipment,
and
decontamination equipment to any area of facility operation
in an emergency, unless aisle space
is not needed for any of
these purposes.
6)
Arrangements with local authorities.
A)
The owner or operator shall attempt to make the
following arrangements, as appropriate for the
type of
used oil handled at the facility and the potential
need for the services of these organizations:
i)
Arrangements to familiarize police,
fire
departments, and emergency response teams with
the layout of the facility, properties of used
oil handled at the facility and associated
hazards, places where facility personnel would
normally be working, entrances to roads inside
the facility,
and possible evacuation routes;
ii)
Where more than one police and fire department
might respond to an emergency,
agreements
designating primary emergency authority to a
specific police and a specific fire department,
and agreements with any others to provide
support to the primary emergency authority;
iii)
Agreements with State emergency response teams,
emergency response contractors,
and equipment
suppliers; and
iv)
Arrangements to familiarize local hospitals with
the properties of used oil handled at the
facility and the types of injuries or illnesses
which could result from fires,
explosions, or
releases at the facility.
B)
Where State or local authorities decline to enter into
such arrangements, the owner or operator shall
document the refusal in the operating record.
b)
Contingency plan and emergency procedures.
Owners and operators
102
of used oil processors and re—refiners facilities
shall comply
with the following requirements:
1)
Purpose and implementation of contingency plan.
A)
Each owner or operator shall have a contingency plan
for the facility.
The contingency plan must be
designed to minimize hazards to human health or the
environment
from fires,
explosions,
or any unplanned
sudden or non—sudden release of used oil to air,
soil,
or surface water.
B)
The provisions of the plan must be carried out
immediately
whenever there is a fire, explosion, or
release o~ used oil which could threaten
human
health
or the environment.
2)
Content of contingency plan.
A)
The contingency plan must describe the actions
facility personnel muotshall take to comply with
subsections
(b)(1) and (b)(6)
of this Section in
response to fires, explosions,
or any unplanned sudden
or non—sudden release of used oil to air, soil,
or
surface water at the facility.
B)
If the owner or operator has already prepared a Spill
Prevention7- Control.,. and Countermeasures
(SPCC) Plan
in accordance with 40 CFR 112,
or 40 CFR 15lO~QQ,or
some other emergency or contingency plan, the owner or
operator need only amend that plan to incorporate used
oil management provisions that are sufficient to
comply with the requirements of this Part.
C)
The plan must describe arrangements agreed to by local
police departments,
fire departments, hospitals,
contractors, and State and local emergency response
teams to coordinate emergency services, pursuant to
subsection (a)(6) of this Section.
D)
The plan must list
names,
addresses, and phone numbers
(office and home)
of all persons qualified to act as
emergency coordinator (see subsection (b)(5) of this
Section),
and this list must be kept up to date.
Where more than one person is listed,
one must be
named
as primary emergency coordinator and others must
be listed
in the order in which they will assume
responsibility as alternates.
E)
The plan must include a list of all emergency
equipment at the facility
(such as fire extinguishing
systems,
spill control
equipment,
communications and
alarm systems
(internal and external),
and
decontamination equipment),
where this
equipment
is
required.
This list must be kept up to date.
In
addition,
the plan must include the location and a
physical description of each item on the list,
and a
brief outline of its capabilities.
F)
The plan must include an evacuation plan for facility
personnel where there is
a possibility that evacuation
could be necessary.
This plan must describe signal(s)
103
to be used to begin evacuation, evacuation routes,
and
alternate evacuation routes
(in cases where the
primary routes could be blocked by releases of used
oil or fires).
3)
Copies of contingency plan.
A copy of the contingency plan
and all revisions to the plan must be:
A)
Maintained at the facility;
and
B)
Submitted to all local police departments,
fire
departments, hospitals, and State and local emergency
response teams that may be called upon to provide
emergency services.
4)
Amendment
of contingency plan.
The contingency plan must be
reviewed,
and immediately amended,
if necessary,
whenever:
A)
Applicable regulations are revised;
B)
The plan fails in an emergency;
C)
The facility changes—in its design, construction,
operation, maintenance, or other circumstances—in a
way that materially increases the potential for fires,
explosions, or releases of used oil, or changes the
response necessary in an emergency;
D)
The list of emergency coordinators changes;
or
E)
The
list of emergency equipment changes.
5)
Emergency coordinator.
At all times,
there must be at least
one employee either on the facility premises or on call
(i.e., available to respond to an emergency by reachi.ng the
facility within a short period of time) with the
responsibility for coordinating all emergency response
measures.
This emergency coordinator shall be thoroughly
familiar
with all aspects of the facility’s contingency
plan, all operations and activities at the facility, the
location and characteristic of used oil handled, the
location of all records within the facility,
and facility
layout.
In addition,
this person must have the authority to
commit the resources
needed to carry out the contingency
plan.
BOARD
NOTE:
U.S. EPA cited the following as guidance:
The
emergency coordinator’s responsibilities are more fully
spelled out in subsection (b)(6) below.
Applicable
responsibilities for the emergency coordinator vary,
depending on factors such as type and variety of used oil
handled by the facility,
and type and complexity of the
facility.
6)
Emergency procedures.
A)
Whenever there is an imminent or actual emergency
situation, the emergency coordinator
(or the designee
when the emergency coordinator is on call)
shall
immediately:
i)
Activate internal facility alarms or
104
communication systems, where applicable, to
notify all facility personnel;
and
ii)
Notify appropriate State or local agencies with
designated response roles
if their help
is
needed.
B)
Whenever there is a release,
fire,
or explosion,
the
emergency coordinator shall immediately identify the
character, exact source,
amount,
and a real extent of
any released materials.
He or she may do this by
observation or review of facility records of manifests
and,
if necessary, by chemical analysts.
C)
Concurrently,
the emergency coordinator shall assess
possible hazards to human health or the environment
that may result from the release,
fire,
or explosion.
This assessment must consider both direct and indirect
effects of the release, fire,
or explosion
(e.g., the
effects of any toxic,
irritating,
or asphyxiating
gases that are generated, or the effects of any
hazardous surface water run—offs from water of
chemical agents used to control fire and heat—induced
explosions).
D)
If the emergency coordinator determines that the
facility has had a release,
fire,
or explosion which
could threaten human health, or the environment,
outside the facility,
he or she shall report hia
findings as follows:
i)
If his assessment indicated that evacuation of
local areas may be advisable,
he or she shall
immediately
notify appropriate local
authorities.
He or she shall
be available to
help appropriate officials decide whether local
areas should be evacuated;
and
ii)
He shall immediately notify either the
government official designated as the on—scene
coordinator for the geographical area
(in the
applicable regional contingency plan under 40
CFR 1510aQQ),
or the National Response Center
(using their 24—hour toll free number (800) 424—
8802).
The report must include:
Name
and
telephone number of reporter; Name and address
of facility; Time and type of incident
(e.g.,
release,
fire); Name and quantity of material(s)
involved, to the extent known;
The extent of
injuries,
if any;
and c~hepossible hazards to
human
health, or the environment,
outside the
facility.
E)
During an emergency, the emergency coordinator
Ethall
take all reasonable measures necessary to ensurE! that
fires,
explosions,
and releases do not occur,
recur,
or spread to other used oil or hazardous waste
at the
facility.
These measures must include, where
applicable,
stopping processes and operation,
collecting and containing released used oil,
and
removing or isolating containers.
105
F)
If the facility stops operation in response to a fire,
explosion, or release, the emergency coordinator shall
monitor for leaks, pressure buildup, gas generation,
or ruptures in valves, pipes,
or other equipment,
wherever this
is appropriate.
G)
Immediately after an emergency, the emergency
coordinator shall provide for recycling, storing,
or
disposing of recovered used oil, contaminated soil or
-
surface water,
or any other material that results from
a release,
fire,
or explosion at the facility.
H)
The emergency coordinator shall ensure that,
in the
affected area(s)
of the facility:
i)
No waste or used oil that may be incompatible
with the released material
is recycled,
treated,
stored, or disposed of until cleanup procedures
are completed; and
ii)
All emergency equipment
listed in the
contingency plan is cleaned and fit for its
intended use before operations are resumed.
iii)
The owner or operator shall notify the t4e
Agency,
and all other appropriate State and
local authorities that the facility is
in
compliance with subsections
(b)(6)(H)(i) and
(b)(6)(H)(ii) of this Section before operations
are resumed in the affected area(s) of the
facility.
I)
The owner or operator shall note in the operating
record the time,
date4, and details of any incident
that requires implementing the contingency plan.
Within 15 days after the incident, 4~ej~,shall submit a
written report on the incident to the Regional
Administrator.
The report must include:
i)
The name,
address, and telephone
number of
the
owner or operator;
ii)
The
name,
address, and telephone
number of
the
facility;
iii)
The date,
time, and type of incident
(e.g.,
fire, explosion);
iv)
The name and quantity of material(s)
involved;
v)
The extent of injuries,
if any;
vi)
An assessment of actual or potential hazards to
human health or the environment, where this is
applicable; and
vii)
The estimated quantity and disposition of
recovered material that resulted from the
incident,
(Source:
Amended at
Ill. Reg.
_________,
effective
106
Section 739.153
Rebuttable presumption for used oil
a)
To ensure that used oil is not
a hazardous waste under the
rebuttable presumption of Section 739.llO(b)(1)(ii),
the owner or
operator of a used oil processing facility muatshall determine
whether the total halogen content of used oil managed at the
facility is above or below 1,000 ppm.
b)
The
owner or operator
mu-s-tshall
make this determination by:
1)
Testing the used oil; or
2)
Applying knowledge of the halogen content of the used oil in
light of the materials or processes used.
c)
If the used oil contains greater than or equal to 1,000 ppm total
halogens,
it is presumed to be a hazardous waste because
it has
been mixed with halogenated hazardous waste listed in 35
Ill.
Adm.
Code 721.Subpart
D.
The owner or operator may rebut the
presumption by demonstrating that the used oil does not contain
hazardous waste
(for example,
by using an analytical method from
SW—846, Edition III, to show that the used oil does not contain
significant concentrations of halogenated hazardous constituents
listed in
35
Ill.
Adni.
Code 721.Appendix H).
U.S. EPA Publication
SW—846, Third Edition,
is available for the coot of ~110.0O from
the Government Printing Office, Superintendent of Documents,
P0
Box 371954, Pittsburgh, PA 15250—7954.
(202)
783—3238 (document
number 955—001—00000—1).
1)
The rebuttable presumption does not apply to metalworking
oils and fluids containing chlorinated paraffins,
if they
are processed, through
a tolling arrangement as described
in
Section 739.124(c), to reclaim metalworking oils and fluids.
The presumption does apply to metalworking oils and fluids
if such oils and fluids are recycled in any other manner, or
disposed.
2)
The rebuttable presumption does not apply to used oils
contaminated with chlorofluorocarbons (CFC5) removed from
refrigeration units if the CFC are destined for reclamation.
The rebuttable presumption does apply to used oils
contaminated with CFCs that have been mixed with used oil
from sources other than refrigeration units.
(Source:
Amended at
Ill. Reg.
________,
effective
SUBPART
G:
STANDARDS
FOR USED
OIL BURNERS THAT BURN
OFF—SPECIFICATION USED OIL FOR ENERGY
RECOVERY
Section 739.163
Rebuttable presumption for used oil
a)
To ensure that used oil managed at a used oil burner facility is
not hazardous waste under the rebuttable presumption of Section
739.110(b) (1) (ii), a used oil burner muctshall determine whether
the
total halogen content of used oil managed at the facility is
above or below 1,000 ppm.
b)
The used oil burner muctshall determine if the used oil contains
above or below 1,000 ppm total halogens by:
107
1)
Testing the used oil;
2)
Applying knowledge of the halogen content of the used oil in
light of the materials or processes used; or
3)
If the used oil has been received from a processor subject
to regulation under Subpart F of this Part, using
information provided by the processor.
c)
If the used oil contains greater than or equal to 1,000 ppm total
halogens,
it
is presumed to be a hazardous waste because it has
been mixed with halogenated hazardous waste listed in 35 Ill.
Adin.
Code 721.Subpart
D.
The owner or operator may rebut the
presumption by demonstrating that the used oil does not contain
hazardous waste
(for example,
by using an analytical method from
SW—846, Edition III, to show that the used oil does not contain
significant concentrations of halogenated hazardous constituents
listed in 35 Ill.
Adm.
Code 721.Appendix H).
U.S. EPA Publication
SW—846,
Third Edition,
is available for the
coot—of—$110.00
from
the Government Printing Office,
Superintendent of Documents, P0
Box 371954, Pittsburgh, PA 15250—7954.
202—783—3238
(document
number
955—001-00000—1).
1)
The rebuttable presumption does not apply to metalworking
oils or fluids containing chlorinated paraffins,
if they are
processed,
through a tolling arrangement as described in
Section 739.124(c), to reclaim metalworking oils or fluids.
The presumption does apply to metalworking oils or fluids
if
such oils and fluids are recycled in any other manner, or
disposed.
2)
The rebuttable presumption does not apply to used oils
contaminated with chiorofluorocarbons
(CFCs) removed from
refrigeration units where the CFCs are destined for
reclamation.
The rebuttable presumption does apply to used
oils contaminated with CFC8 that have been mixed with used
oil
from sources other than refrigeration units.
d)
Record retention.
Records of analyses conducted or information
used to comply with subsections
(a),
(b),
and
(c)
above must be
maintained by the burner for at least
3 years.
(Source:
Amended at
Ill. Reg.
_________,
effective
SUBPART H:
STANDARDS FOR USED OIL FUEL MARKETERS
Section 739.171
Prohibitions
A used oil fuel marketer may initiate a shipment of off—specification used oil
only to
a used oil burner that:
a)
Has a~U.S. EPA identification number and Illinois special waste
identification number; and
b)
Burns the used oil in an industrial furnace or boiler identified
in Section 739.161(a).
(Source:
Amended at
Ill.
Reg.
_________,
effective
