ILLINOIS POLLUTION CONTROL BOARD
September 8, 1988
IN THE MATTER OF:
)
RCRA UPDATE, USEPA REGULATIONS
)
R88-16
(1-1—88 THROUGH 7-31-88)
)
PROPOSAL
FOR PUBLIC COMMENT
PROPOSED ORDER
OF THE BOARD
(by J. Anderson):
Pursuant to Section 22.4(a)
of the Environmental Protection Act
(Act),
the Board
is proposing to amend the RCRA hazardous waste regulations.
Section
22.4 of the Act governs adoption of regulations establishing the
RCRA program in
Illinois.
Section
22.4(a) provides
for quick adoption of
regulations which
are
“identical
in
substancet’
to federal
regulations;
Section 22.4(a)
provides that Title
VII
of the Act and
Section
5
of the
Administrative Procedure Act
shall
not apply.
Because this rulemaking
is not
subject
to Section
5
of the Administrative Procedure Act,
it
is
not subject
to
first
notice
or
to
second notice
review by the Joint Coinnittee
on
Administrative Rules
(JCAR).
The
federal RCRA regulations are
found
at
40 CFR
260 through
270,
and 280.
This rulemaking updates
Illinois’
RCRA rules
to
correspond with
federal
amendments during the period January
1 through July
31,
1988.
This proposed Order
is
supported by
a proposed Opinion
adopted this same
day.
I,
Dorothy M.
Gunn,
Clerk of the
Illinois Pollution C~atiolBoard, hereby
certi1~yt~i~the
above proposed Order was adopted
on the
~-‘~
day
of
~
,
1 988, by
a
vote
of
~7
—
.
Dorothy
M.
GuiTh,
Clerk
Illinois Pollution Control
Board
92—339
—2—
TITLE
35:
ENVIRONMENTAL PROTECTION
SUBTITLE G:
WASTE
DISPOSAL
CHAPTER
I:
POLLUTION CONTROL BOARD
SUBCHAPTER
b:
PERMITS
PART
703
RCRA PERMIT PROGRAM
SUBPART A:
GENERAL PROVISIONS
Section
703.100
Scope
and Relation to Other
Parts
703.101
Purpose
703.110
References
SUBPART
B:
PROHIBITIONS
Section
703.120
Prohibitions
in General
703.121
RCRA Permits
703.122
Specific Inclusions
in Permit Program
703.123
Specific Exclusions from Permit Program
703.124
Discharges
of Hazardous Waste
703.125
Reapplications
703.126
Initial Applications
703.127
Federal
Permits
(Repealed)
SUBPART C:
AUTHORIZATION
BY RULE AND INTERiM STATUS
Section
703.140
Purpose and
Scope
703.141
Permits
by Rule
703.150
Application by
Existing HWM Facilities and Interim Status
Qual ifications
703.151
Application
by New HWM Facilities
703.152
Amended Part A Application
703.153
Qualifying
for
Interim Status
703.154
Prohibitions During
Interim Status
703.155
Changes
During
Interim Status
703.156
Interim Status Standards
703.157
Grounds for Termination of Interim Status
703.158
Permits
for Less Than an Entire Facility
703.159
Closure
by Removal
703.160
Procedures for Closure Determination
SUBPART
D:
APPLICATIONS
Section
703.180
Applications
in General
703.181
Contents of Part A
703.182
Contents of Part B
703.183
General
Information
703.184
Facility Location
Information
703.185
Groundwater Protection Information
703.186
Exposure Information
703.187
Solid Waste Management
Units
703.188
Other
Information
703.200
Specific
Information
92—34(1
—3—
703.201
Containers
703.202
Tank Systems
703.203
Surface Impoundments
703.204
Waste Piles
703.205
Incinerators
703.206
Land Treatment
703.207
Landfills
SUBPART
E:
SHORT TERM AND PHASED PERMITS
Section
703.221
Emergency Permits
703.222
Incinerator Conditions Prior to Trial
Burn
703.223
Incinerator Conditions During Trial
Burn
703.224
Incinerator Conditions After Trial
Burn
703.225
Trial
Burns for Existing Incinerators
703.230
Land Treatment Demonstration
703.231
Research, Development
and Demonstration Permits
SUBPART F:
PERMIT CONDITIONS
Section
703.241
Establishing Permit Conditions
703.242
Noncompliance Pursuant to Emergency Permit
703.243
Monitoring
703.244
Notice of Planned Changes
703.245
Release
or Discharge Reports
703.246
Reporting Requirements
AUTHORITY:
Implementing Section 22.4 and authorized by Section
27 of the
Environmental Protection Act
(Ill. Rev. Stat.
1987, ch.
111
1/2,
pars.
1022.4
and
1027).
SOURCE:
Adopted
in R82—19,
53 PCB 131,
at
7
Ill.
Reg.
14289, effective
October
12,
1983; amended
in R83-24 at
8
Ill. Req.
206, effective December
27,
1983;
amended
in R84—9
at
9 Ill. Req. 11899, effective July 24,
1985;
amended
in R85-22
at
10
Ill. Reg.
1110,
effective January
2, 1987;
amended
in R85—23
at
10 Ill. Req. 13284, effective July 28,
1986;
amended.in
R86.—1
at 10.111.
Reg. 14093, effective August
12, 1986; amended
in R86-19
at
10
Ill.
Req.
20702, effective December
2,
1986; amended
in R86-28 at
11
Ill.
Reg. 6121,
effective March
24,
1987; amended
in R86-46
at
11
Ill.
Req.
13543,
effective
August
4,
1987;
amended
in R87-5 at
11
Ill.
Req. 19383, effective November
12,
1987;
amended
in R87—26
at
12
Ill. Reg.
2584,
effective January
15,
1988;
amended
in R87—39
at
12
Ill.
Req.
13069, effective July 29,
1988;
amended
in R88-16
at
12
Ill.
Reg.
,
effective
SUBPART
B:
PROHIBITIONS
Section 703.123
Specific Exclusions from Permit Program
The following persons
are among those who
are not
required
to obtain
a RCRA
permit:
a)
Generators who accumulate hazardous waste on—site
for less
than the
time periods provided
in
35
Ill.
Adm. Code 722.134;
92—341
-4-
b)
Farmers who dispose
of
hazardous waste
pesticides from their own use
as
provided
in
35
Ill. Adm. Code 722.—~~—17O;
c)
Persons who own or operate
facilities
solely for
the treatment,
storage or disposal
of hazardous waste excluded from regulations
under this Part by
35
Ill.
Adm. Code 721.104
or
721.105
(small
generator exemption);
d)
Owners
or operators of totally enclosed treatment facilities
as
defined
in
35
Iii. Adm. Code 720.110;
f)
Owners
and operators of elementary neutralization units
or wastewater
treatment
units
as defined
in
35
Ill.
Adm. Code 720.110;
g)
Transporters storing manifested shipments of hazardous waste
in
containers meeting the requirements of 35
111.
Adm. Code 722.130
at
a
transfer facility for
a period
of ten days or
less;
h)
Persons adding absorbent material
to waste
in
a container
(as defined
in
35 Ill. Adm. Code 720.110)
and persons
adding waste
to
absorbent
material
in
a container,
provided that these actions occur
at the
time waste
is
first
placed
in
the container;
and 35
Ill.
Adm. Code
724.117(b),
724.271 and 724.272
are complied with.
(Board Note:
See 40 CFR 270.1(c)(2),
as
amended at
53 Fed. Req.
27165, July 19,
1988.)
(Source:
Amended
at
12
Ill.
Req.
,
effective
92—342
—5—
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 Delisting
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
Acti vities
Appendix
A Overview of 40 CFR, Subtitle
C Regulations
AUTHORITY:
Implementing Section
22.4 and
authorized
by Section
27 of the
Environmental
Protection Act (Ill. Rev.
Stat.
1987,
ch.
111 1/2, pars.~1022.4
and
1027).
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. Adm. Code 700.106;
amended
in R82—19
at
7
Ill.
Req.
14015,
effective Oct.
12,
1983; amended
in
R84—9,
53 PCB 131
at
9
Ill. Reg. 11819, effective July 24,
1985;
amended
in
R85-22
at
10 Ill.
Req.
968, effective January
2,
1986;
amended
in R86—1
at
10
Ill. Req. 13998, effective August
12,
1986; amended
in R86-19
at
10
Ill.
Req.
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.
Req.
13435, effective
August
4,
1987;
amended
in R87-5
at
11
Ill. Req.
19280,
effective November
12,
1987;
amended
in R87—26 at
12
111. Req.
2450,
effective January
15,
1988;
amended
in R87-39
at
12
Ill. Req.
12999,
effective July 29, 1988;
amended
in R88-16
at
12
Ill.
Reg.
,
effective
SUBPART
B:
DEFINITIONS
92-~343
-6-
Section
720.110
Definitions
When
used
in
35 111. Adm. Code 720 throuqh 725 and 728 only,
the following
terms have the meanings given below:
“Aboveground
tank” means
a device meeting the definition
of
“tank”
that
is
situated
in such
a way that the entire surface area of
the
tank
is completely above the plane
of the adjacent surrounding
surface and
the entire surface area of
the tank (including the tank
bottom)
is
able to
be visually inspected.
“Act”
or
“RCRA” means the Solid Waste Disposal Act,
as amended
by the
Resource Conservation
and Recovery Act
of
1976,
as amended
(42 U.S.C.
6901
et seq.)
“Active life”
of
a facility means the period from the
initial
receipt
of hazardous waste
at the facility until
the Agency receives
certification
of
final
closure.
“Active
portion”
means
that
portion
of
a
facility
where
treatment,
storage
or
disposal
operations
are
being
or
have
been
conducted
after
May 19,
1980 and which
is
not a closed
portion.
(See also “closed
portion” and “inactive portion”.)
“Administrator”
means the Administrator
of the U.S. Environmental
Protection Agency
or
his designee.
“Agency” means
the Illinois Environmental Protection Agency.
“Ancillary equipment” means any device including,
but not limited to,
such devices
as piping,
fittings, flanges, valves
and
pumps,
that
is
used to distribute, meter
or control
the
flow of hazardous waste
from
its
point
of generation
to storage
or treatment tank(s), between
hazardous waste
storage and treatment
tanks
to
a point
of disposal
onsite,
or
to
a point
of
shipment
for disposaLoff—si.~te.
“Aquifer” means
a geologic formation, group of formations
or part of
a formation capable
of yielding
a
significant amount
of groundwater
to wells
or
springs.
“Authorized representative” means the person
responsible
for the
overall operation
of
a
facility or
an operational
unit
(i.e.,
part of
a
facility), e.g.,
the plant manager, superintendent or person
of
equivalent responsibility.
“Board” means
the Illinois Pollution Control
Board.
“Boiler” means
an enclosed device
using controlled
flame combustion
and having the following characteristics:
The unit must have physical
provisions
for recovering and
exporting
thermal
energy
in the
form of
steam, heated
fluids
or
heated
gases; and
the unit’s combustion chamber and primary
92—344
—7—
energy
recovery
section(s) must be of integral
design.
To
be of
integral
design, the
combustion chamber and the primary energy
recovery section(s)
(such
as waterwalls and superheaters) must
be
physically formed
into one manufactured or
assembled unit.
A
unit
in which the combustion chamber and
the primary energy
recovery section(s)
are joined only by ducts
or connections
carrying flue gas
is
not
integrally designed;
however, secondary
energy recovery equipment
(such
as economizers
or air
preheaters)
need
not be physically formed
into the same unit as
the combustion chamber
and
the primary energy recovery
section.
The following units
are not precluded from being
boilers solely because they are not of integral
design:
process
heaters
(units that transfer energy directly
to
a process
stream),
and fluidized bed combustion units;
and
While
in operation,
the unit must maintain
a thermal
energy
recovery efficiency
of at
least
60 percent, calculated
in terms
of
the recovered energy compared with the thermal
value
of the
fuel
;
and
The
unit must export
and
utilize at
least
75 percent of the
recovered energy,
calculated
on
an annual
basis.
In
this
calculation,
no credit
shall
be given
for recovered heat used
internally
in the same unit.
(Examples
of
internal
use are the
preheating of fuel
or combustion
air,
and the driving of
induced
or forced draft
fans or feedwater pumps);
or
The unit
is one which the Board
has determined,
on
a case-by-
case basis, to be a boiler, after considering the standards in
Section 720.132.
“Certification” means
a
statement of professional
opinion based upon
knowledge and belief.
“Closed Portion” means that portion
of a facility which an owner
or
operator
has
closed
in
accordance with the approved f~acilityclosure
plan and
all
applicable closure requirements.
(See also “active
portion”
and “inactive portion”.)
“Component” means
either the tank or ancillary equipment of
a tank
system.
“Confined aquifer” means
an aquifer bounded above and below by
impermeable beds or
by beds of distinctly lower permeability than
that
of the aquifer itself;
an aquifer containing confined
groundwater.
“Container”
means
any portable device
in which
a material
is
stored,
transported,
treated, disposed of or
otherwise handled.
“Contingency plan” means
a document setting out
an
organized,
planned
and coordinated
course of action
to
be followed
in
case of
a
fire,
explosion or
release
of
hazardous waste
or hazardous waste
constituents which
could threaten
human
health
or
the environment.
92—345
-8-
“Corrosion expert” means
a
person who,
by reason
of knowledge of the
physical
sciences and
the
principles
of engineering and mathematics,
acquired by
a professional
education and related
practical
experience,
is qualified to
engage
in
the practice of corrosion
control
on buried
or
submerged metal
piping systems
and metal
tanks.
Such a person must be certified as being qualified by the
National Association
of Corrosion Engineers (NACE)
or
be
a registered
professional
engineer who has certification or
licensing that
includes education
and experience
in corrosion control
on buried
or
submerged metal
piping
systems
and metal
tanks.
“Designated
facility” means
a
hazardous waste
treatment,
storage or
disposal facility which
has received an EPA permit
(or
a facility
with interim status)
in accordance with the requirements
of
40 CFR
270 and
124 or
a permit from
a
state authorized
in accordance with 40
CFR
271, or
that
is regulated under 40 CFR 261.6(c)(2) or
40 CFR
266.Subpart
F
or
35
Ill.
Adm. Code 721.106(c)(2) or
726.Subpart
F and
that
has
been
designated
on
the
manifest
by
the
generator
pursuant
to
35
III.
Adm.
Code
722.120.
“Dike” means
an embankment
or ridge
of either natural
or manmade
materials used to prevent the movement
of
liquids, sludges, solids
or
other materials.
“Director” means the Director of the
Illinois Environmental
Protection Agency.
“Discharge”
or
“hazardous waste discharge” means the
accidental
or
intentional spilling, leaking, pumping, pouring, emitting, emptying
or dumping of hazardous waste
into or
on any land or water.
“Disposal” means
the discharge, deposit,
injection, dumping,
spilling, leaking
or placing of any
solid waste or
hazardous waste
into or
on
any land
or water
so that such solid waste
or hazardous
waste
or any constituent thereof may enter
the- environment or~be
emitted
into the
air or discharged
into any waters, including
groundwaters.
“Disposal facility” means
a facility
or part of
a
facility at which
hazardous waste
is intentionally placed
into or
on
any land or water
and
at which waste will
remain after closure.
“Elementary neutralization unit” means
a device which:
Is
used for neutralizing wastes which are hazardous wastes only
because they exhibit the corrosivity characteristic defined
in
35
111.
Adm. Code 721.122
or are listed
in
35
Ill.
Adm. Code
721.Subpart 0
only
for this reason;
and
Meets
the definition
of tank, container, transport vehicle
or
vessel
in Section
720.110.
“EPA” means United States Environmental
Protection Agency.
92—346
-9-
“EPA hazardous waste
number” means
the number
assigned by EPA to each
hazardous waste
listed
in
35
Ill. Adm. Code 721.Subpart D and
to each
characteristic identified
in
35
Ill. Adm. Code 721.Subpart
C.
“EPA identification number” means the number assigned by
USEPA
pursuant to 35
Ill. Adm. Code 722 through 725 to each generator,
transporter
and treatment,
storage or disposal
facility.
“EPA region” means the states
and
territories found
in any one of the
following ten regions:
Region
I:
Maine, Vermont, New Hampshire, Massachusetts,
Connecticut and Rhode
Island
Region
II:
New York,
New Jersey, Commonwealth of Puerto Rico
and the U.S. Virgin Islands
Region
III:
Pennsylvania, Delaware, Maryland, West Virginia,
Virginia and the District of Columbia
Region
IV:
Kentucky, Tennessee, North Carolina, Mississippi,
Alabama, Georgia, South Carolina and Florida
Region
V:
Minnesota, Wisconsin,
Illinois, Michigan,
Indiana
and
Ohio
Region
VI:
New Mexico, Oklahoma, Arkansas, Louisiana
and Texas
Region
VII:
Nebraska, Kansas, Missouri
and Iowa
Region
VIII:
Montana, Wyoming, North Dakota, South Dakota, Utah
and Colorado
Region
IX:
California, Nevada, Arizona, Hawaii,
Guam,
American
Samoa and Commonwealth of the Northern Mariana I~slands
Region
X:
Washington, Oregon,
Idaho and Alaska
“Equivalent method” means
any testing
or
analytical method approved
by the Board
pursuant to Section 720.120.
“Existing hazardous waste management
(HWM)
facility”
or
“existing
facility” means
a facility which was
in operation or
for which
construction commenced on
or before November 19,
1980.
A facility
had commenced construction
if the owner
or operator had obtained the
federal,
state
and
local
approvals or permits necessary to begin
physical
construction
and either
A continuous on—site,
physical
construction program had
begun
or
the
owner or operator had entered
into contractual obligations
-—
which could not be cancelled or modified without
substantial
loss
—-
for physical
construction
of the facility to be
92—347
-10-
completed within
a
reasonable time.
“Existing portion” means
that land surface area of an existing waste
management unit,
included
in
the original
Part A permit
application,
on which wastes have been placed prior
to the
issuance
of
a permit.
“Existing tank system”
or “existing component” means
a tank system
or
component that
is
used for the storage or treatment
of hazardous
waste and that
is
in operation,
or for which
installation has
commenced on
or prior
to July 14,
1986.
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
physical
construction
of the
site or
installation of
the tank system
and
if either
A continuous
on—site physical construction
or installation
program has begun;
or
The owner
or operator has
entered into contractual obligations
——
which cannot
be canceled
or
modified
without
substantial
loss
-—
for
physical
construction
of
the
site
or
installation
of
the
tank system to
be completed within
a
reasonable time.
“Facility” means
all
contiguous
land and structures,
other
appurtenances and improvements
on the
land used for treating,
storing
or disposing of hazardous waste.
A facility may consist
of several
treatment,
storage
or disposal
operational
units
(e.g.,
one or more
landfills,
surface
impoundments
or combinations
of them).
“Final
closure”
means
the
closure
of
all
hazardous
waste
management
units
at
the
facility
in
accordance
with
all
applicable
closure
requirements
so that hazardous waste management activities under
35
Ill. Adm. Code
724 and
725 are
no
longer conducted
at the facility
unless
subject
to the provisions of
35
Ill.
Adm. Code 722.134.
“Federal
agency” means any department,
agency orotheT
instrumental ity of the federal
government,
any independent agency
or
establishment of the federal
government
including any government
corporation and
the Government Printing Office.
“Federal, state and local
approvals or
permits necessary to begin
physical
construction” means permits
and approvals required under
federal,
state
or
local
hazardous waste control
statutes, regulations
or ordinances.
“Food-chain crops” means tobacco, crops
grown for human
consumption
and crops
grown for
feed
for animals whose products are consumed by
humans.
“Freeboard” means the vertical distance between the top of
a tank or
surface impoundment dike and
the surface
of the waste contained
therein.
“Free liquids” means liquids which readily separate from the
solid
92—348
—11—
portion
of
a
waste
under
ambient
temperature
and
pressure.
“Generator”
means
any
person,
by
site,
whose
act
or
process
produce
hazardous
waste
identified
or
listed
in
35
Ill.
Adrn.
Code
721
or
whose
act
first
causes
a
hazardous
waste
to
become
subject
to
regulation.
“Groundwater” means water below the
land surface
in
a zone of
saturation.
“Hazardous waste” means
a hazardous waste
as defined
in
35
Ill.
Adm.
Code 721.103.
“Hazardous waste constituent” means
a constituent which caused the
hazardous waste
to
be
listed
in
35
Ill.
Adm.
Code
721.Subpart
D,
or
a
constituent listed
in
of
35
Ill. Adm. Code 721.124.
“Hazardous waste management unit”
is
a contiguous
area of
land
on
or
in which hazardous waste
is
placed,
or the largest
area in which
there
is
significant likelihood
of mixing
hazardous waste
constituents
in
the
same area.
Examples of hazardous waste
management units
include
a surface
impoundment,
a waste pile,
a land
treatment
area,
a landfill
cell,
an
incinerator,
a tank and
its
associated piping and underlying
containment system
and
a container
storage area.
A container alone does
not constitute
a unit;
the
unit
includes
containers
and
the
land
or
pad
upon
which
they
are
placed.
“Inactive portion” means
that portion
of
a
facility which
is not
operated after November
19,
1980.
(See also “active portion” and
“closed
portion”.)
“Incinerator” means any
enclosed device
using controlled flame
combustion which
is neither
a “boiler”
nor an
“industrial
furnace”.
“Incompatible waste” means
a
hazardous waste which
is-j suitable
for:
Placement
in a particular device or
facility because
it may
cause corrosion or decay of containment materials (e.g.,
container
inner liners
or tank walls);
or
Commingling with another waste
or material
under uncontrolled
conditions because the commingling might produce heat
or
pressure, fire or explosion, violent
reaction, toxic dusts,
mists,
fumes
or gases
or flammable fumes
or gases.
(See 35
Ill. Adm. Code 725.Appendix
E for examples.)
“Industrial
furnace” means
any of the following enclosed devices that
are
integral
components
of manufacturing processes and
that use
controlled
flame devices
to accomplish recovery of materials or
energy:
(.ement kilns
92—349
—12-
Lime
kilns
Aggregate
kilns
Phosphate kilns
Coke ovens
Blast furnaces
Smelting, melting
and refining furnaces (including
pyrometallurgical
devices such as cupolas, reverberator
furnaces, sintering machines, roasters and foundry furnaces)
Titanium dioxide chloride process oxidation reactors
Methane reforming furnaces
Pulping liquor recovery furnaces
Combustion devices
used
in
the recovery of
sulfur values
from
spent
sulfuric
acid
Any
other
such
device
as
the
Agency
determines
to
be
an
“Industrial
Furnace”
on
the
basis
of
one
or
more
of
the
following
factors:.
The
design
and
use
of
the
device
primarily
to accomplish
recovery of material
products;
The use of the device
to burn or reduce
raw materials to
make
a
material
product;
The
use
of
the
device
to
burn
or
reduce
secondary
materials
as
effective
substitutes
for
raw
materials,~in
processes
using
raw
materials
as
principal
feedstocks;
The
use
of
the
device
to
burn
or
reduce
secondary
materials
as
ingredients
in
an
industrial
process
to
make
a
material
product;
The
use
of
the
device
in
common industrial
practice to
produce
a
material
product;
and
Other
relevant
factors.
“Individual
generation site” means the contiguous site
at
or
on which
one
or more hazardous wastes are generated.
An
individual
generation
site,
such as
a
large manufacturing plant, may have one
or more
sources
of hazardous waste but
is considered
a single
or
individual
generation
site
if the
site or property
is contiguous.
“Inground tank” means
a device meeting the definition of “tank”
9
2—350
—13-
whereby
a portion
of the
tank wall
is
situated to any degree within
the
ground, thereby preventing
visual
inspection
of that external
surface area of
the tank that
is
in
the ground.
“In operation” refers
to
a facility which
is treating, storing or
disposing of hazardous waste.
“Injection well” means
a well into which fluids are being injected.
(See also “underground
injection”.)
“Inner
liner” means
a continuous
layer
of material
placed inside
a
tank or container which protects
the construction materials of the
tank or container from the contained waste
or reagents used to treat
the waste.
“Installation
inspector” means
a person who, by reason
of knowledge
of the
physical sciences and the principles
of engineering,
acquired
by
a professional education and
related practical
experience,
is
qualified
to supervise the installation
of tank systems.
“International
shipment” means the transportation
of hazardous waste
into or out of
the jurisdiction
of
the United States.
“Land treatment facility” means
a facility or
part of
a
facility at
which hazardous waste
is
applied
onto
or
incorporated
into the soil
surface; such facilities
are disposal facilities
if the waste will
remain
after closure.
“Landfill” means
a disposal
facility or part of
a facility where
hazardous waste
is placed
in
or
on
land and which
is
not
a land
treatment facility,
a
surface impoundment or
an injection well.
“Landfill
cell” means
a discrete volume of a hazardous waste
landfill
which uses
a liner
to
provide isolation of wastes from adjacent
cells
or wastes.
Examples of
landfill
cells
are trenches and pits.
“Leachate” means
any liquid, including any suspended -components
in
the liquid,
that has percolated through or drained from haza~dous
waste.
“Liner” means
a continuous
layer of natural
or manmade materials
beneath
or
on
the
sides
of
a
surface
impoundment,
landfill
or
landfill
cell,
which restricts the downward or lateral
escape
of
hazardous waste,
hazardous waste constituents
or
leachate.
“Leak—detection system” means
a system capable
of detecting the
failure
of either the primary or
secondary containment
structure or
the presence of
a release of hazardous waste
or accumulated
liquid
in
the secondary containment structure.
Such
a
system must employ
operational
controls
(e.g., daily visual
inspections
for
releases
into
the
secondary
containment
system
of
aboveground
tanks)
or
consist
of
an
interstitial
monitoring
device
designed
to
detect
continuously
and
automatically
the
failure
of
the
primary
or
secondary containment
structure or the presence of
a release
of
92—3 51
-14-
hazardous
waste
into
the
secondary
containment
structure.
“Management”
or
“hazardous waste management” means
the systematic
control
of
the
collection,
source
separation,
storage,
transportation, processing, treatment, recovery and disposal of
hazardous waste.
“Manifest” means the shipping document originated and
signed by the
generator which contains the information required
by
35
Ill.
Adm.
Code 722.Subpart
B.
“Manifest document number” means the USEPA twelve digit
identification
number
assigned
to
the
generator
plus
a
unique
five
digit document number assigned to the manifest
by the generator
for
recording and reporting purposes.
“Mining overburden returned
to the mine site” means any material
overlying
an economic mineral
deposit which
is
removed
to
gain access
to
that
deposit
and
is
then
used
for
reclamation
of
a
surface
mine.
“Movement” means that hazardous waste transported
to
a facility
in
an
individual
vehicle.
“New hazardous waste management facility” or
“new facility” means
a
facility
which
began operation,
or
for which construction
commenced,
after November 19,
1980.
(See also “Existing hazardous waste
management
facility”.)
“New
tank
system”
or
“new
tank
component”
means
a
tank
system
or
component
that
will
be
used
for
the
storage
or
treatment
of hazardous
waste
and
for which
installation commenced after July 14,
1986;
except,
however,
for
purposes
of
35
Ill.
Adm.
Code
724.293(g)(2)
and
725.293(g)(2),
a
new tank system
is one
for which construction
commences after July 14,
1986.
(See also “existing tank system.”)
“Onground
tank”
means
a
device
meeting
the
definition
of
“tank”
that
is
situated
in
such
a
way
that
the
bottom
of
the
tank.
is
on
the
same
level
as the adjacent surrounding surfaces
so that the exterr~al tank
bottom
cannot
be
visually
inspected.
“On—site”
means
the
same
or
geographically
contiguous
property
which
may
be
divided
-by
public
or
private
right—of-way, provided
the
entrance
and
exit
between
the
properties
is
at
a
crossroads
intersection
and access
is
by crossing as opposed
to going along the
right—of-way.
Noncontiguous
properties
owned
by
the
same
person
but
connected
by
a
right-of—way
which
he
controls
and
to
which
the
public
does not have access
is
also considered on—site property.
“Open burning” means the combustion
of
any
material
without
the
following
characteristics:
Control
of
combustion
air
to
maintain
adequate
temperature
for
efficient
combustion;
92— 352
—15—
Containment
of
the
combustion
reaction
in
an
enclosed
device
to
provide sufficient
residence time and mixing
for complete
combustion;
and
Control
of
emission
of
the
gaseous combustion
products.
(See also “incineration”
and
“thermal
treatment”.)
“Operator” means the person
responsible
for the overall
operation of
a facility.
“Owner” means the person who owns
a facility or
part of
a
facility.
“Partial
closure”
means
the
closure
of
a
hazardous
waste
management
unit
in
accordance with the applicable closure requirements
of
35
Ill.
Adm. Code 724 or 725
at
a
facility
which
contains
other
active
hazardous
waste
management
units.
For
example,
partial
closure
may
include
the
closure
of
a
tank
(including
its
associated
piping
and
underlying
containment
systems),
landfill
cell,
surface
impoundment,
waste
pile
or
other
hazardous waste management
unit, while other
units
of
the
same
facility
continue
to
operate.
“Person” means
an
individual, trust,
firm, joint
stock company,
federal
agency, corporation
(including
a
government corporation),
partnership,
association,
state, municipality, commission,
political
subdivision
of
a state
or any interstate
body.
“Personnel”
or “facility personnel” means
all
persons who work
at
or
oversee the operations of a hazardous waste
facility and whose
actions
or failure
to
act may
result
in noncompliance with the
requirements
of
35 Ill. Adm. Code 724 or
725.
“Pile”
means
any
noncontainerized
accumulation
of
solid,
non—flowing
hazardous waste that
is used for treatment or storage.
“Point
source” means
any
discernible,
confined
and
discrete
conveyance including,
but not
limited to, any pipe,
ditch, channel,
tunnel, conduit, well,
discrete fissure, container,
rolling stock,
concentrated
animal
feeding
operation
or
vessel
or
other
floating
craft from which pollutants are
or may be discharged.
This term does
not include return
flows from irrigated agriculture.
“Publicly owned treatment works” or
“P01W” means any device
or
system
used
in
the treatment (including recycling
and reclamation) of
municipal
sewage or
industrial
wastes of
a liquid
nature which
is
owned
by
a
“state”
or
“municipality”
(as defined
by Section
502(4) of
the Clean Water Act
(33 U.S.C.
1362(4)).
This definition
includes
sewers, pipes
or other conveyances only if they convey wastewater
to
a POTW providing treatment.
“Regional
Administrator”
means
the
Regional
Administrator
for
the
EPA
Region
in
which
the
facility
is
located
or
his
designee.
“Representative sample” means
a sample of
a universe
or whole
(e.g.,
92—353
—16-
waste
pile,
lagoon, groundwater)
which can be expected
to exhibit the
average properties
of the universe or whole.
“Runoff” means any rainwater,
leachate or
other liquid
that drains
over
land from any part of
a
facility.
“Runon” means any
rainwater,
leachate or other liquid
that drains
over
land onto any part of
a facility.
“Saturated
zone” or
“zone of saturation” means that part of
the
earth’s crust
in which
all
voids are filled with water.
“SIC Code” means Standard Industrial Code as defined
in Standard
Industrial
Classification Manual, incorporated
by
reference
in
Section 720.111.
“Sludge” means
any
solid,
semi—solid
or liquid waste
generated from a
municipal,
commercial
or
industrial wastewater treatment plant, water
supply treatment plant
or air pollution control
facility exclusive of
the treated effluent from
a wastewater
treatment plant.
“Small
Quantity Generator” means
a
generator which generates less
than 1000 kg of
hazardous waste
in
a calendar month.
“Solid waste” means
a solid waste
as defined
in
35 Ill. Adm. Code
721. 102.
“Sump” means any pit
or- reservoir that meets
the definition of tank
and those troughs
or trenches connected
to
it that serve
to collect
hazardous waste
for transport to hazardous waste
storage, treatment
or disposal
facilities.
“State” means any of the several
states, the District of Columbia,
the Comonwealth of Puerto Rico,
the Virgin Islands,
Guam, American
Samoa and the Commonwealth
of the Northern Mariana Islands.
“Storage” means
the holding of hazardous waste for a temporar~y
period,
at the end of which the hazardous waste
is
treated, disposed
of or
stored elsewhere.
“Surface impoundment”
or “impoundment” means
a facility
or part of
a
facility which
is
a
natural
topographic depression, manmade
excavation
or diked area formed primarily of
earthen materials
(although
it
may be lined
with manmade materials)
which
is designed
to hold
an
accumulation
of
liquid wastes or wastes containing free
liquids and which
is not an
injection well.
Examples
of
surface
impoundments
are holding, storage,
settling and aeration pits,
ponds
and lagoons.
“Tank”
means
a stationary device, designed
to contain
an accumulation
of hazardous waste which
is
constructed primarily of nonearthen
materials
(e.g., wood,
concrete, steel,
plastic) which provide
structural
support.
92—354
—17—
“Tank
system”
means
a
hazardous
waste
storage
or
treatment
tank
and
its associated ancillary equipment and containment
system.
“Thermal
treatment” means the treatment of hazardous
waste
in
a
device which uses elevated temperatures
as the primary means
to
change the chemical, physical
or biological
character or composition
of the hazardous waste.
Examples of thermal
treatment processes are
incineration, molten
salt,
pyrolysis, calcination, wet air oxidation
and microwave discharge.
(See also “incinerator” and
“open
burning”.)
“Totally enclosed treatment facility” means
a facility for the
treatment of hazardous waste which
is directly connected
to
an
industrial
production process and which
is constructed
and operated
in
a manner which prevents the
release of any
hazardous waste
or any
constituent thereof
into the environment during treatment.
An
example
is
a pipe
in which waste acid
is
neutralized.
“Transfer facility” means any transportation related facility
including loading docks,
parking
areas,
storage areas
and
other
similar areas where
shipments of hazardous waste
are
held during the
normal
course
of transportation.
“Transport
vehicle” means
a motor
vehicle
or
rail
car used for the
transportation of cargo
by any mode.
Each cargo—carrying body
(trailer, railroad freight car, etc.)
is
a
separate transport
vehicle.
“Transportation” means the movement
of hazardous waste
by air,
rail,
highway
or water.
“Transporter” means
a person engaged
in the off-site transportation
of hazardous waste
by air,
rail,
highway
or water.
“Treatability study” means:
A study
in which
a hazardous waste
is subjected
to
a treatment
process
to determine:
Whether the waste
is amenable to
the treatment process.
What pretreatment
(if any) is
required.
The optimal
process conditons needed
to achieve
the desired
treatment.
The efficiency of
a treatment process
for
a specific waste
or wastes.
Or,
The characteristics
and volumes
of
residuals from
a
particular treatment process.
Also included
in this definition
for the purpose
of
35
Ill. Adm.
Code 721.104(e) and
(f) exemptions are
liner
compatibility,
92—355
-18-
corrosion
and other
material compatibility studues and
toxicological
and health effects
studies.
A
“treatability
study”
is not
a means to commercially treat
or dispose of
hazardous waste.
“Treatment” means
any method, technique or
process, including
neutralization, designed
to change the physical, chemical
or
biological
character
or composition of
any hazardous waste
so
as
to
neutralize such waste,
or
so
as
to recover energy
or material
resources from the waste
or
so
as
to render
such waste non—hazardous
or less hazardous;
safer
to
transport,
store
or dispose of;
or
amenable for recovery, amenable for storage or
reduced
in
volume.
“Treatment zone” means
a
soil
area of the unsaturated
zone of
a
land
treatment unit within which hazardous constituents
are degraded,
transformed
or imobilized.
“Underground
injection” means
the subsurface emplacement
of fluids
through
a
bored,
drilled
or driven well;
or
through
a dug well,
where
the depth
of the dug well
is
greater than the
largest
surface
dimension.
(See also “injection well”.)
“Underground tank” means
a device meeting the definition of “tank”
whose entire
surface area
is totally
below the surface
of
and
covered
by the
ground.
“Unfit-for—use tank system” means
a tank system that has been
determined
through
an
integrity assessment
or other
inspection
to
be
no
longer capable of storing or treating hazardous waste without
posing
a threat
of
release of hazardous waste to the environment.
“Uppermost aquifer” means the geologic formation nearest the natural
ground surface
that
is
an aquifer, as well
as
lower
aquifers that
are
hydraulically interconnected with this aquifer within
the facility’s
property boundary.
“Unsaturated zone”
or
“zone
of aeration” means
the z6ne between the
land surface
and
the water table.
“United States” means the
50 States, the District of Columbia, the
Comonwealth of Puerto Rico,
the U.S. Virgin Islands, Guam,
American
Samoa and the Commonwealth of the Northern Mariana
Islands.
“Vessel” includes
every description of watercraft,
used or capable of
being used as
a means of transportation
on the water.
“Wastewater treatment unit” means
a device which:
Is
part
of
a wastewater
treatment facility which
is
subject
to
regulation under
either Section
402 or Section 307(b)
of the
Clean Water Act
(33 U.S.C.
1342
or
1317(b));
and
receives
and
treats
or stores
an
influent wastewater which
is
a
hazardous
waste
as
defined
in
35
111. Adm. Code 721.103 or
generates and
accumulates
a wastewater
treatment sludge which
is
a hazardous
2—356
-19-
waste
as
defined
in
35
Ill.
Adrn. Code 721.103
or treats
or
stores
a wastewater treatment sludge which
is
a hazardous waste
as defined
in
35
Ill.
Adm. Code 721.103;
and
Meets the definition
of tank
in
35
Ill.
Adm. Code 720.110.
“Water (bulk
shipment)” means the bulk transportation of
hazardous
waste which
is
loaded
or carried
on board
a vessel
without containers
or
labels.
“Well” means
any shaft
or pit dug or bored
into the earth, generally
of
a cylindrical
form,
and often walled with bricks
or tubing to
prevent the earth from caving
in.
“Well
injection”
(See “underground
injection”).
“Zone
of engineering control” means
an area under the control
of the
owner
or operator that,
upon detection of
a
hazardous waste
release,
can
be readily cleaned
up prior
to the release
of hazardous waste
or
hazardous constituents
to groundwater
or surface water.
(Source:
Amended at
12
Ill.
Req.
,
effective
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,
(212)
354—3300:
“Petroleum Refinery Piping,” ANSI B31.3
—-
1976, with
addendum B31.3(d)
--
1980.
“Liquid Petroleum Transportation Piping Systems,” ANSI
831.4
——
1974, with addendum B31.4(b)
—-
1981.
API.
Available from the American PetroleuniInstltute,
1220
L
Street,
N.W., Washington, D.C.
20005,
(202)
682-8000:
“Guide
for Inspection of Refinery Equipment, Chapter XIII,
Atmospheric
and Low Pressure Storage Tanks,”
4th Edition,
1981.
“Cathodic Protection
of Underground Petroleum Storage Tanks
and Piping Systems,” API Publication
1632,
1983.
“Installation of Underground Petroleum Storage Systems,”
API Publication
1615 (November 1979).
ASTM.
Available from American Society
for Testing
and
Materials,
1916 Race Street, Philadelphia, PA 19103,
(215)
299—
5400:
“ASTM Standard lest Methods for Flash Point
of Liquids by
92—357
-20-
Setaflash Closed Tester,”
ASTM Standard D-3828-—8~—87.
“ASIM Standard Test Methods
for Flash Point
Pensky-Martens
Closed Tester,”
ASTM Standard 0-93-79 or 0—93-80.
GPO.
Available from the Superintendent
of Documents, U.S.
Government Printing Office, Washington, D.C.
20401,
(202)
783—
3238:
Standard Industrial Classification Manual
(1972),
and
1977
Supplement,
republished
in
1983
NACE.
Available from the National Association
of Corrosion
Engineers,
1400 South Creek Dr., Houston, TX
77084,
(713) 492—
0535:
“Recomended Practice
(RP—O2-85) Control
of External
Corrosion
on Metallic Buried, Partially Buried,
or
Submerged Liquid Storage Systems.”
NFPA.
Available from the National Fire Protection Association,
Batterymarch
Park,
Boston,
MA
02269,
(617)
770—3000 or
(800)
344-3555:
“Flammable and Combustible Liquids Code”
(1977
or
1981).
NTIS.
Available from the National Technical
Information
Service, 5285
Port. Royal Road,
Springfield, VA
22161,
(703)
487-4600:
“Generic Quality Assurance Project Plan for
Land Disposal
Restrictions Program”, EPA/530—SW-87—O11, March
15,
1987.
(Document number
PB 88-170766.
“Methods for Chemical Analysis
of Water and Wastes”, Third
Edition, March,
1983.
(Document number PB 84-128677)
“Procedures Manual
for Ground Water Monitoring
at Solid
Waste Disposal Facilities”, EPA—53O/SW—611,
1977.
(Document
number
PB
84-174820)
“Test Methods
for Evaluating Solid Waste,
Physical/Chemical
Methods,” EPA Publication number SW—846 (Second Edition,
1982 as
amended
by Update
I
(April,
1984)
and Update
II
(April,
1985))
(Document number PB 87-120291)
STI.
Available from the Steel Tank Institute, 728 Anthony
Trail,
Northbrook,
IL
60062,
(312) 498-1980:
“Standard for Dual
Wall Underground Steel
Storage Tanks”
(1986).
b)
Code of Federal Regulations.
Available from the Superintendent of
Documents, U.S. Government Printing Office, Washington, D.C.
20401,
92—358
—21—
(202)
783-3238:
40 CFR 220 (1987)
40 CFR 264
(1987)
40 CFR 761
(1987)
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 editions or
amendments.
(Source:
Amended
at
12 Ill. Req.
12999, effective July 29,
1988)
92—359
-22-
Section
721. 101
721.102
721.103
721. 104
721.105
721. 106
721.107
Section
721.110
721.111
Section
721. 120
721. 121
721.122
721.123
721. 124
Section
721. 130
721. 131
721. 132
721. 133
Appendix A
Appendix B
Appendix C
Table
A
Table
B
Table C
Appendix
G
Appendix
H
Appendix
I
Table A
Table
B
Table
C
TITLE
35:
ENVIRONMENTAL PROTECTION
SUBTITLE
G:
WASTE DISPOSAL
CHAPTER
1:
POLLUTION CONTROL BOARD
SUBCHAPTER
c:
HAZARDOUS WASTE OPERATING REQUIREMENTS
PART 721
IDENTIFICATION
AND
LISTING
OF
HAZARDOUS WASTE
SUBPART
A:
GENERAL PROVISIONS
Purpose of Scope
Definition
of Solid Waste
Definition of Hazardous Waste
Exclusions
Special Requirements For Hazardous Waste Generated by Small
Quantity Generators
Requirements
for Recyclable Materials
Residues of Hazardous Waste
In Empty Containers
SUPBART
B:
CRITERIA
FOR IDENTIFYING THE CHARACTERISTICS
OF HAZARDOUS WASTE
AND
FOR
LISTING
HAZARDOUS
WASTES
Criteria
for Identifying the Characteristics of Hazardous Waste
Criteria for Listing Hazardous Waste
SUBPART
C:
CHARACTERISTICS
OF HAZARDOUS WASTE
General
Characteristics
of Ignitability
Characteristics
of Corrosivity
Characteristics
of Reactivity
Characteristics of EP Toxicity
SUBPART 0:
LISTS OF HAZARDOUS WASTE
General
Hazardous Wastes From Nonspecific Sources
Hazardous Waste from Specific Sources
Discarded Commercial
Chemical Products, Off—Specification
Species, Container Residues
and Spill
Residues Thereof
Representative Sampling Methods
EP Toxicity Test Procedures
Chemical Analysis Test Methods
Analytical
Characteristics of Organic Chemicals (Repealed)
Analytical
Characteristics of Inorganic Species (Repealed)
Sample Preparation/Sample
Introduction Techniques
(Repealed)
Basis
for
Listing Hazardous Wastes
Hazardous Constituents
Wastes Excluded under Section 720.120 and 720.122
Wastes Excluded from Non-Specific Sources
Wastes Excluded from Specific Sources
Wastes Excluded from Commercial Chemical
Products, Off—
Specification Species, Container Residues,
and Soil Residues
92—360
-23-
Thereof
Appendix
J
Method
of Analysis
for Chlorinated Dibenzo-p-Dioxins and
Dibenzofurans
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.
1987, ch.
111 1/2,
pars.
1022.4
and
1027).
SOURCE:
Adopted
in R81—22, 43 PCB 427, at
5 111.
Reg.
9781,
effective
as
noted
in
35 Iii. Adm. Code 700.106; amended
and codified
in R81—22,
45 PCB
317,
at
6
Ill. Req. 4828, effective
as noted
in
35
Iii..
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
8
Ill.
Req. 24562, effective
December
11,
1984;
amended
in R84—9,
at
9 Ill.
Reg. 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.
Req. 8112,
effective May 2,
1986;
amended
in R86-1
at
10
Ill.
Reg.
14002,
effective August
12,
1986;
amended
in R86—19
at
10
Ill.
Req. 20647, effective December
2,
1986; amended
in R86-28 at
11
Ill.
Req.
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
11
Ill.
Req. 19303, effective
November
12,
1987;
amended
in R87—26
at
12
Ill.
Req.
2456,
effective January
15,
1988;
amended
in R87—3O
at
12
Ill. Reg. 12070, effective July 12,
1988;
amended
in R87—39
at
12
Ill.
Req.
13006, effective July 29,
1988;
amended
in
R88—16
at
12
Ill. Req.
effective
SUBPART A:
GENERAL PROVISIONS
Section 721.104
Exclusions
a)
Materials which are not solid wastes.
The following materials are
not solid wastes for the purpose of this Part:
1)
Sewage:
A)
Domestic sewage;
and
B)
Any mixture of domestic sewage and other waste that passes
through
a sewer
system
to publ
icly-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.
Adm. Code
309.
(Board Note:
This exclusion applies only to the actual
point
source
discharge.
It
does
not
exclude
industrial wastewaters
while they are being collected, stored
or treated before
discharge,
nor does
it exclude sludges that
are generated by
industrial wastewater treatment.)
92—36 1
-24-
3)
Irrigation return flows.
4)
Source,
special
nuclear
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 which 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
721.101(c);
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
furnaces or
incinerators);
C)
The secondary materials are never accumulated
in
such tanks
for over twelve months without being
reclaimed; and
0)
The reclaimed material
is not used to
produce
a fuel
,
or
used to produce products that
are used in
a manner
constituting disposal.
b)
Solid
wastes which 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
)
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,
hotels and motels, bunkhouses,
ranger
stations, crew quarters, campgrounds,
picnic grounds and day—use
recreation
areas).
A resource recovery facility managing
municipal
solid waste
shall
not be deemed
to
be treating,
storing, disposing of or otherwise managing hazardous wastes for
the
purposes of
regulation under this Part,
if such facility:
A)
Receives
and burns only:
92—362
-25—
i)
Household waste (from
single
and multiple dwellings,
hotels, motels and other
residential
sources) and
ii)
Solid waste from commercial
or
industrial
sources
that
does not contain hazardous waste;
and
B)
Such facility does not accept hazardous waste
and the owner
or operator of such facility has established
contractural
requirements
or other appropriate
notification
or
inspection procedures
to assure
that hazardous wastes
are
not received at
or burned
in
such facility.
2)
Solid wastes generated by any of the following and which are
returned to
the soil
as
fertilizers:
A)
The growing and harvesting of agricultural
crops.
B)
The
raising of animals,
including animal
manures.
3)
Mining overburden returned to the mine site.
4)
Fly ash waste, bottom ash waste, slag waste,
and flue gas
emission
control waste generated primarily from the combustion
of coal
or other
fossil
fuels.
5)
Drilling fluids, produced waters,
and other wastes associated
with the exploration, development,
or production
of crude oil,
natural
gas
or geothermal
energy.
6)
Chromium wastes:
A)
Wastes which
fail
the test for the characteristic of
EP
toxicity (Section 721.124 and Appendix
B)
because chromium
is present
or
are listed
in Subpart
D due to the presence
of chromium, which do not
fail
the test
for the
characteristic of EP toxicity for
any otherr constituent
or
are not listed due to the presence of any
other
constituent,
and which 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
which 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.
B)
Specific wastes which meet the standard
in
subsections
92—363
—26-
(b)(6)(A)(i),
(ii)
and
(iii)
(so
long
as
they do not fail
the
test for the characteristic of EP toxicity,
and do
not
fail
the
test for
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/retan/wet finish;
retan/wet finish;
no
beamhouse;
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
beamhouse;
through—the-blue;
and shearling.
iii) 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
beamhouse;
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 beamhouse;
through-the-blue; and
shearl ing.
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-bl ue.
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, beneficiation
and processing of
ores
and minerals
(including coal),
including phosphate
rock and
overburden
from the mining of uranium ore.
8)
Cement
kiln dust waste.
92—364
—27—
9)
Solid waste which consists of discarded wood or wood products
which fails
the test for the characteristic
of
EP toxicity
and
which
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.
c)
Hazardous wastes which are exempted from certain regulations.
A
hazardous waste which
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
unit or
an associated non—waste-treatment manufacturing unit,
is not
subject
to regulation under
35
111. Adm. Code 702,
703,
705 and 722
through 725 and 728 or
to the notification
requirements of Section
3010 of RCRA 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),
a sample
of solid waste
or
a
sample of water,
soil
or
air, which
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. Adm. Code 702,
703, 705 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
stored
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 subsection
(d)(1)(A)
and
(B),
a
sample collector shipping samples
to
a laboratory
and
a
laboratory returning samples
to
a sample
collector must:
A)
Comply with U.S. Department
of Transportation
(DOT),
U.S.
92—365
-28-
Postal
Service
(USPS)
or
any other applicable shipping
requirements; or
B)
Comply with the following requirements
if
the
sample
collector determines
that DOT, USPS 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 address
and telephone number;
the laboratory’s
name, mailing
address
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,
spill
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).
~j
Treatability study samples.
fl
Except
as
is
provided
in subsection
(e)(2),
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:
~j
The
sample
is being
collected and prepared
for
transportation by the generator or sample collector;
or,
~j
The sample
is
being accumulated
or
stored by the generator
or sample collector prior
to transportation to
a laboratory
or testing facility;
or
ci
The sample
is being transported
to the laboratory
or
testing facility for the purpose
of conducting
a
treatability
study.
j~
The exemption
in
subsection
(e)(1)
is applicable
to samples
of
hazardous waste
being collected and
shipped for the purpose of
conducing treatability studies
provided that:
~j
The generator or sample
collector uses
(in “treatability
studies”) no more than 1000 kg of any non—acute hazardous
waste,
1
kg
of acute
hazardous waste or 250
kg of soils,
water
or debris contaminated with acute hazardous
waste
for
each process being evaluated
for each generated
wastestream;
and
92—366
-29-
~j
The mass of
each shipment does not
exceed
1000 kg
of non-
acute
hazardous
waste,
1
kg of
acute
hazardous
waste
or
250
kg of soils, water
or debris
contaminated with acute
hazardous waste;
and
~j
The sample must be
packaged
so that
it does not leak,
spill
or vaporize from its packaging during
shipment and the
~~quirements
of subsections
(i) or
(ii) are met.
fl
The transportation of each sample
shipment complies
with U.S. Department
of Transportation
(DOT), U.S.
Postal Service
(USPS)
or any other applicable shipping
requirements;
or
jJJ
If the DOT, USPS or other
shipping requirements
do
not
apply
to the shipment
of the sample, the following
information must accompany the sample:
The name,
mailing
address
and telephone number
of the originator
of the sample;
the
name,
address
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, includin~
its USEPA hazardous waste number.
P1
The
sample
is
shipped
to
a laboratory or testing facility
which
is
exempt
under
subsection
(f) or
has
an appropriate
RCRA permit
or interim status.
U.
The generaiur or sample collector maintains the following
records
for
a
period ending
3 years
after completion of the
treatability study:
jJ
Copies of
the shipping documents
,jJJ
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,
address
and
USEPA
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.
fj
The generator reports the information required
in
subsection
(e)(2)(E)(iii) in
its
report under
35
Ill. Adm.
Code 722.141.
~j
The A9ency may grant
requests,
on
a case—by-case basis,
for
quantity limits
in
excess
of those specified
in
subsection
(e)(2)(A), for up
to
an
additional
500 kg of any non—acute
hazardous waste,
1
kg
of acute hazardous waste and 250 kg of
soils, water
or debris contaminated with acute hazardous waste,
to conduct
further treatability study evaluation
when:
There
92—367
-30-
has been
an equipment
or mechanical
failure during
the conduct
of the treatability study;
there
is
need to
verify the results
of
a
previously conducted treatability study;
there
is
a
need
to
study
and analyze alternative techniques within
a previously
evaluated treatment process;
or,
there
is
a need
to
do further
evaluation
of
an ongoing treatability study
to determine final
specifications
for treatment.
The additional
quantities allowed
are subject
to
all
the provisions
in
subsections
(e)(1)
and
(e)(2)(B)
through
(F).
The
generator
or
sampfe
collector
must
~pply
to the Agency
and provide
in writing the following
i nformatfon:
f~I
The reason why the
generator
or
sample
collector
requires
additional
quantity of sample
for the treatability Study
evaluation
and the additional
quantity needed
B)
Documentation accounting for
all
samples
of
hazardous waste
from
the
wastestream
which
have
been
sent
for
or
undergone
treatability studies, including the date each previous
sample was
shipped, the quantity of each previous shipment,
the laboratory
or
testing
faciTity
to
which
it was
shipped,
what treatability study processes were conducted on each
sample shipped,
and the available
results
of each
treatability study
~çj
A description
of the technical
modifications
or change
in
specifications which will
be evaluated and the expected
results
P1
If
such further
study
is being
required due to equipment or
mechanicaT
failure, the applicant must include information
regarding the
reason for the failure
or breakdown and also
include what procedures or equipment have been made to
protect
against
further breakdowns;
and,
Li.
Such other
information as the Agency determines
is
necessary.
f~j
Final Agency determinations pursuant
to this subsection may be
appealed
to
the
Board.
~j
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
re uirements) are not subject to any requirement
of this Part,
or of
5
11. Adm. 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)
are met.
A mobile treatment unit
may
qualify
as
a
testing
facility
subject
to
subsections
(f)(1)
through
(f)(11).
Where
a
group
of
mobile
treatment
units
are
located
at the
same site,
the limitations specified
in
subsections
(f)(1)
through
(f)(11)
apply
to
the
entire
group
of
mobile
treatment
units
92-368
-31-
collectively
as
if the group were one mobile
treatment unit.
fl
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.
~j
The laboratory
or testing facility conducting the treatability
study has a USEPA identification number.
3)
No more than
a total
of 250 kg of “as received” hazardous waste
is subjected to
initiation
of 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
1000 kg,
the total
of which can include 500
kg
of
soils,
water
or
debris
contaminated with acute hazardous
waste
or
1
kg
of acute hazardous waste.
This quantity
limitation does
not include:
A)
Treatability study residues;
and,
~J
Treatment materials (including nonhazardous solid waste)
added
to
“as received”
hazardous waste.
~j
No more than
90 days have elapsed since the treatability study
for the
sample was completed,
or
no more than one year has
elapsed since the generator
or
sample collector shipped the
sample
to the laboratory
or testing facility, whichever date
first
occurs.
~j
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
mus
be
included
for
each
treatability
study
conducted:
~,j
The
name,
address
and USEPA identification umber
of the
generator or sample collector
of each waste sample
~j
The date the shipment was received
~çj
The quantity of waste accepted
P1
The quantity of “as received” waste
in storage each day
~
The
date
the treatment
study was initiated
and the
amount
of
“as received” waste
introduced
to treatment each day
~J
The date the treatability study was concluded
92—3 69
-
-Jz
-
~j
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 USEPA identification number.
~
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
an from the facility for
a
period ending
3 years from the completion date of each
treatability study.
21
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:
f~j
The name,
address and USEPA identification number
of the
facility conducting the treatability studies
~j
The types
(by process) of treatability studies conducted
~ç~j
The names
and addresses of persons
for whom studies
have
been conducted
(including their USEPA identification
numbers)
P1
The total
quantity of
waste
in
storage each day
U.
The quantity and types
of waste subjected
to treatability
studies
fJ
When each treatability study was conducted
ç~j
The final
disposition
of residues
and unused
sample from
each treatability study
~Qj
The facility determines whether any unused sample
or
resides
generated by the treatability study are hazardous waste under
Section 721.103 and,
if
so,
are subject
to
35
Ill.
Adm. Code
702,
703 and 721 through 728, unless the residues and unused
samples
are returned to the sample
originator under the
subsection
(e) exemption.
B.!
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
12
Ill. Req.
,
effective
)
Section 721.105
Special
Requirements for Hazardous Waste
Generated by Small
Quantity Generators
a)
A generator
is
a conditionally exempt
small
quantity generator in
a
92—370
—33—
calendar month
if
it generates no more than
100 kilograms
of
hazardous waste
in that month.
35
Ill. Adm. Code
700 explains the
relation of this to the
100 kg/mo exception of
35 Ill.
Adm. Code 809.
b)
Except for those wastes
identified
in
subsections
(e),
(f),(q) and
(j),
a conditionally exempt
small
quantity generator’s
hazardous
wastes are not
subject
to
regulation
under
35
Ill.
Adm. Code 702,
703, 705 and
722 through 726 and 728,
and the notification
requirements
of Section 3010 of the Resource Conservation
and
Recovery Act, provided the generator complies with
the requirements
of subsections
(f),
(g) and
(j).
c)
Hazardous waste
that is
not
subject
to
regulation
or that
is
subject
only to
35
Ill. Adm Code 722.111,
722.112, 722.140(c) and 722.141
is
not
included
in the quantity determinations of this Part and 35
Ill.
Adm. Code
722 through 726 and
728,
and
is.not subject
to any
requirements
of
those Parts.
Hazardous waste that
is subject
to
the
requirements
of Section 721.106(b) and
(c)
and 35
Ill. Adm. Code
726.Subparts
C,
0 and
F
is
included
in
the quantity determinations of
this Part
and
is
subject
to the requirements of this Part
and 35
Ill.
Adm. Code
722 through 726 and
728.
d)
In determining
the quantity of
hazardous waste
it
generates,
a
generator
need not
include:
1)
Hazardous waste when
it
is removed from on—site storage;
or
2)
Hazardous waste produced by on-site treatment
(including
reclamation) of
its hazardous waste
so
long as the hazardous
waste
that
is
treated was counted
once;
or,
3)
Spent materials that
are generated,
reclaimed
and subsequently
reused on—site,
so long as such
spent materials have been
counted once.
e)
If
a generator generates
acute hazardous waste
in
a calendar month
in
quantities greater
than set forth below,
all
quantities of that acute
hazardous waste
are subject
to
full
regulation under
35 Ill. Adm.
Code 702,
703, 705 and 722 through 726
and
728,
and
the notification
requirements of Section
3010 of the Resource Conservation
and
Recovery Act:
1)
A total
of one kilogram of acute
hazardous wastes
listed
in
Sections 721.131, 721.132
or
721.133(e);
or
2)
A total
of 100 kilograms of any residue
or contaminated soil,
waste
or other debris resulting from the clean—up of
a
spill,
into or
on
any land or water, of any acute hazardous wastes
listed
in Sections 721.131, 721.132
or 721.133(e).
(BOARD NOTE:
“Full
regulation” means
those regulations
applicable
to generators of greater than 1000
kg of non—acute
hazardous waste
in
a calendar month.
92—37 1
-34-
f)
In order for acute hazardous wastes generated by
a generator of acute
hazardous wastes
in quantities equal
to or
less than-those set
forth
in subsection
(e)(1)
or
(e)(2)
to
be excluded from full regulation
under this Section, the generator must comply with the following
requi rements:
1)
35 Ill. Adm. Code 722.111.
2)
The generator may accumulate acute
hazardous waste
on—site.
If
4t—the generator accumulates
at
any time acute hazardous wastes
in quantities
greater than
set forth
in subsections
(e)(1)
or
(e)(2),
all
of
those accumulated wastes
are subject
to
regulation under
35
Ill.
Adni. Code
702,
703,
705 and
722 through
726 and 728, and
the applicable notification requirements
of
Section 3010 of the Resource Conservation and Recovery Act.
The
time period
of
35
Ill.
Adm. Code 722.134—4~—(a),for
accumulation of wastes on-site, begins when the accumulated
wastes exceed the applicable exclusion limit.
3)
A conditionally exempt small
quantity generator may either treat
or dispose of
its acute hazardous waste
in
an on—site facility,
or ensure delivery
to
an off—site storage, treatment or disposal
facility, either
of which,
if
located
in the United States,
is:
A)
Permitted under
35 Ill. Adm. Code 703;
B)
In interim status under 35
Ill. Adm. Code 703 and
725;
C)
Authorized
to manage hazardous waste by
a State with
a
hazardous waste management
program approved
by USEPA;
D)
Permitted, licensed or
registered by
a State to manage
municipal
or
industrial
solid waste;
or
E)
A facility which:
i)
Beneficially uses or
reuses
or legitimately recycles
or
reclaims its
waste;
or
ii)
Treats its waste prior to beneficial
use or
reuse, or
legitimate recycling or reclamation.
g)
In order
for hazardous waste generated by a conditionally exempt
small
quantity generator in quantities
of
less than
100 kilograms of
hazardous waste during
a calendar month to be excluded from full
regulation under this Section,
the generator must comply with the
following requirements:
1)
35
Ill.
Adin.
Code 722.111;
2)
The conditionally exempt small quantity generator may accumulate
hazardous waste on-site.
If
it accumulates
at
any time more
than
a total
of 1000 kilograms of the generator’s
hazardous
waste,
all
of those accumulated wastes
are subject
to
regulation
92—37 2
-35—
under the
special provisions
of
35 Ill. Adm. Code
722 applicable
to generators of between 100 kg
and 1000 kg of hazardous waste
in
a
calendar month
as well
as the requirements of 35
Ill.
Adm.
Code 702, 703, 705 and 723 through 726 and 728, and the
applicable notification
requirements of Section 3010 of the
Resource Conservation and Recovery Act.
The time period of 35
Ill. Adm. Code 722.134(d) for accumulation of wastes on-site
begins
for
a
small
quantity generator when the accumulated
wastes exceed
1000 kilograms;
3)
A conditionally exempt
small
quantity generator may either treat
or dispose of
its hazardous waste
in
an on-site facility, or
ensure delivery to
an
off-site storage, treatment or disposal
facility, either
of which,
if located
in the United States,
is:
A)
Permitted under
35
Ill.
Adm. Code 702 and 703;
B)
In interim status
under
35
Ill.
Adm. Code
703 and
725;
C)
Authorized
to manage hazardous waste
by
a State with
a
hazardous waste management program approved by USEPA under
40 CFR
271
(1986);
0)
Permitted, licensed or
registered by
a State to manage
municipal
or
industrial
solid waste;
or
E)
A
facility which:
1)
Beneficially uses or re-uses,
or legitimately recycles
or reclaims
the small
quantity generator’s waste;
or
ii)
Treats
its waste prior to beneficial
use or
re—use,
or
legitimate recycling or reclamation.
h)
Hazardous waste subject
to the
reduced requirements of this Section
may
be mixed with non—hazardous waste and remain subject
to these
reduced requirements
even though the resultant mixture exceeds the
quantity
limitations identified
in this Section, unless the mixture
meets
any of the characteristics of hazardous wastes
identified
in
Subpart
C.
i)
If
a small
quantity generator mixes
a solid waste with
a hazardous
waste that exceeds
a quantity exclusion level
of this Section, the
mixture
is
subject to full
regulation.
j)
If
a conditionally exempt
small
quantity generator’s hazardous wastes
are mixed with used oil, the mixture
is
subject
to
35 Ill. Adm. Code
726.Subpart
E,
if
it
is destined
to
be burned for energy
recovery.
Any material produced from such a mixture
by
processing, blending or
other treatment is also so
regulated
if
it
is
destined to
be burned
for energy recovery.
(Source:
Amended
at
12 Ill. Req.
,
effective
)
92—373
-3b—
SUBPART D:
LISTS
OF HAZARDOUS WASTE
Section
721.133
Discarded Commercial Chemical
Products, Off—
Specification Species, Container Residues 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 comercial
chemical product,
or manufacturing chemical
intermediate having the generic name listed
in subsections
(e) or
(f).
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).
c)
Any residue remaining
in
a container or inner
liner
removed from
a
container that has held
any comercial chemical
product
or
manufacturing chemical
intermediate
having
the generic name listed
in
subsection
(e), 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, transported
or treated prior
to such use,
reuse, recycling 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 who reconditions the drum but
discards the residue.)
d)
Any residue
or contaminated soil,
water
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),
or
any
residue or contaminated
soil, water
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).
(BOARD NOTE:
The phrase
“commercial
chemical product
or
manufacturing chemical
intermediate
having the generic
name listed
in
92—374
-37-
...“
refers to
a chemical
substance which
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).
Where
a
manufacturing process waste
is deemed
to
be
a hazardous waste
because
it contains
a
substance listed
in subsections
(e) or
(f),
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
intermediates or off—specification commercial
chemical products
or
manufacturing chemical
intermediates referred to
in subsections
(a)
through
(d),
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).
Absence of
a letter
indicates that the compound only
is listed for acute toxicity.)
Haz-
ardous Chemical
Waste
Abstracts
No.
1’Lo.
Substance
P023
107-20-0 Acetaldehyde, chloro-
P002
591-08-2 Acetamide, N—(aminothioxomethyl
)—
P057
640-19—7 Acetamide,
2-fluoro—
P058
62-74-8 Acetic acid,
fluoro-, sodium salt
-PQ6?
Aeeti~e4i.eae4.dT ~
~et~y~
estee-
~
&R4
sa~-tsTw~,eRppe5eAt
at eeAeeRtPat4eRs §PeateP thaR
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-(Aminoniethyl )-3—isoxazolol
P008
504-24-5
4—Aminopyridine
P009
131—74—8 Aninonium picrate
(R)
P119
7803-55—6
Ammonium
vanadate
P099
506—61-6 Argentate(1—), bis(cyano—C)-, potassium
POlO
7778—39—4 Arsenic acid H3AsO~
P012
1327—53—3 Arsenic—
4~~—
oxide As203
POll
1303-28-2 Arsenic—
4V+—
oxide As2O~5
92—375
-38-
POll
1303-28-2 Arsenic pentoxide
P012
1327-53—3 Arsenic trioxide
P038
692—42—2 Arsine, diethyl—
P036
696-28-6
Arsonous
dichloride,
phenyl-
P054
151—56—4
Aziridine
P067
75—55—8
_______
____________
P013
542—62—1
P024
106—47-8
P077
100-01 -6
P028
100-44-7
P042
51-43-4
P046
122—09-8
P014
108-98-5
BenzenethioT
POOl
P
81—81-2 2H-l-Benzopyran—2-one, 4-hydroxy—3-(3—oxo-1-
phenylbutyl)-, and
salts, when present
at
concentrations greater than 0.3
100—44—7 Benzyl chloride
7440-41-7 Beryllium —4~st-
~42-g8-~~
etheF—
598-31-2 Bromoacetone
357—57-3 Brucine
____
39196-18-4 2-Butarione, 3,3-dimethyl-1-(methylthio)-, 0-
methylamino)carbonyl
oxime
_____
592—01—8 Calcium cyanide
592—01—8 Calcium cyanide Ca(CN)2
GaR~heRe~
eetaeh~e~e-
GaF~aRI4~eSe1~eAse4e
aei.d—
GaFbSR
s~i444~e-
75-15—0 Carbon disulfide
75—44—5 —Ga~e~y~
eh~-e~4.4e—Carbonic
~h1~eP4Re
eyaR~e—
___________
Chloroacetaldehyde
___________
p—Chloroani line
___________
1-(o—Chlorophenyl )thiourea
___________
3—Chloropropionitri le
___________
Copper cyanide—s—
_____
___________
Copper
cyanide CuCN
Cyanides
(soluble cyanide salts),
not —e~.sewhepe—
otherwise specified
460—19—5 Cyanogen
506-77-4 Cyanogen chloride
506—77—4 Cyanogen chloride CNC1
____
131-89-5 2-Cyclohexyl -4,6-dinitrophenol
542-88—1 Dichloromethyl
ether
696—28-6 Dichiorophenylarsine
60—57—1 Dieldrin
692-42-2 Diethylarsine
Q~Q—9~ethy~
~
phesphe~e—
~th4eate-
___________
Diethyl—p-nitrophenyl
phosphate
O,O-Diethyl 0-pyrazinyl phosphorothioate
____________
—~34se~Pe~yI~
f~e~ephes~hate
—Diisopropylfluorophosphate
(DFP)
Aziridine.
2-methyl
Barium
cyanide
Benzenamine, 4—chloro—
Benzenamine,
4—nitro—
Benzene,
(chloromethyl
)-
1,2—Benzenediol, 4—1—hydroxy—2-(methylamino)ethyl—,
(R
)-
Benzeneethanamine,
alpha, alpha—dimethyl—
P028
P015
P017
P018
P045
P021
P021
P~2~
p~9;
~Q22
P022
P095
pQ~
P023
P024
P026
P027
P029
P029
P030
P031
P033
P033
P034
P016
P036
P037
P038
pg~g
P041
P040
P043
107-20-0
106-47-8
5344-82—1
542 76—7
544-92-3
544-92-3
dichloride
311-45—5
297—97—2
55 -91-4
92—37 6
-39-
P101
107-12-0
P054
151—56-4
P097
52-85-7
P056
7782-41-4
P057
640—19—7
P058
62-74—8
P065
628-86-4
P059
76-44-8
Pg~
P9~
P969
P994
P004
309-00-2 1,4,5,8-Dimethanonaphthalene,
1,2,3,4,10,10—
hexachloro—1,4,4a,5,8,8a—hexahydro—,
(lalpha, 4alpha,
4abeta,
Salpha, 8alpha, 8abeta)—
P060
465—73—6 1,4,5,8—Dimethanonaphthalene, 1,2,3,4,10,10—
hexachloro-l,4,4a,5,8,8a-hexahydro—,
(lalpha, 4alpha,
4abeta, Sbeta,
8beta, 8abeta)—
P037
60—57—1 2,7:3,6—Dimethanonaphth2,3—bjoxirane,
3,4,5,6,9,9—
hexachloro—la,2,2a,3,6,6a,7,7a—octahydro—,
(laalpha,
2beta, 2aalpha, 3beta, 6beta,
6aalpha,
7beta,
7aal pha)—
P051 P
72-20-8 2,7:3,6—Dimethanonaphth2,3—boxirane,
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
PO4S
~
9—
ffiet~ya~i~Re~
eaP~eRyl~
ex4me
p9~
0~9-D4~e~hy~
0-p-Ai~tPepheAy~phes~he~ethieate
P982
et~y~R+tFesaR~+Re—
P046
122-09-8
alpha,
alpha-Dimethylphenethylamine
P047
P
534—52-1 4,6—Dinitro—o—cresol
and
salts
P9~4
4~6-DFe—e-eye~e~e~y4pheAe1-
P048
51-28—5 2,4-Dinitrophenol
P020
88-85—7
Dinoseb
P085
152-16—9 Diphosphoramide, octamethyl—
Pill
107-49-3 Diphosphoric acid, tetraethyl
ester
P039
298-04-4 Disulfoton
P049
541—53—7 —274——Dithiobiuret
P109
~
ae4d~tet~aethy~
esteP—
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
P946
~thaAa~H+ReT
1~1—d~ethy1.—2—~heRy1—
P984
EtheAa~~4~ne~
N—~ethy1—N—a~t~ese—-
P031
460-19-5 Ethanedinitrile
P066 16752—77—5 ____________________________
Ethanimidothioic acid,
N—
(methylamino)carbonyl
Joxy—,
methyl
ester
Ethyl
cyanide
Ethylenimine
Famphur
Fluorine
Fluoroacetarnide
Fluoroacetic acid,
sodium
salt
Fulminic
acid, mercury (—~—2+)salt
(R,T)
Heptachlor
1T2T~T4T19T
~
T4T4aTST6~T8T8a—
ee~ahy~Pe-eROTeA~e—1~4~v8—4ifflethaReRaphthalene
T
27~74710~19—Ne~aeh le
pa
—67 —e~e~y
—
~474;~~6 ~~8~8
a
—
eetahy~Pe-eR4e7exe—17 ~
8-4~ethaAeRa~htha1eAe
~
174~S78—e~e7
en~e-~iet~aAenaphtha1eAe
I727~747I97197—Nexaeh1e~e—I7474a7S7878a—hexahy~~e—
92—377
-40-
I74~-~78-eA~87
e~o—I~et~aReRa~htha1eAe
P969
He*aeh1e~ehe~ahy~~e-e*e7
e*e—d4~ethaaenaphtha1eRe—
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
P964
IseeyaR4~eaei~7ffiethy4. estep—
P060
465-73-6
Isodrin
P007
2763—96—4 3(2H)—Isoxazolone, 5—(aminomethyl
)-
P092
62—38-4
Mercury, -~heny1-7acetate—
(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-4—chloro—
P112
509-14—8 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—1,5,5a,6,9,9a-hexahydro—, 3-oxide
P059
76-44—8 4,7—Methano—1H—indene, i,4,5,6,7,8,8—heptachloro-
3a ,4, 7, 7a—tetrahydro—
P066 16752-77—5 Methomyl
P96~
2—Methy1aP~di~Re—
P068
60—34—4 Methyl
hydrazine
P064
624—83—9 Methyl
isocyanate
P069
75-86~32-Methyllactonitrile
P071
298—00—0 Methyl
parathion
P072
86-88—4 alpha-Naphthylthiourea
P073 13463—39—3 Nickel
carbonyl
P074
557-19-7 Nickel
cyanide
P074
557-19—7
Nickel
—44~4
—cyanide Ni(CN)2
P073 13463—39—3 Nickel
-tetPaeaPbeRyl— carbonyl Ni(C0)4,
(T—4)—
P075
P
54—11—5 Nicotine, and salts
P076 10102—43-9 Nitric oxide
P077
100—01-6 p—Nitroaniline
P078 10102-44-0 Nitrogen dioxide
P076 10102-43—9 Nitrogen
—f444
-oxide NO
P078 10102-44—0 Nitrogen
—41V4
-oxide
P081
55—63—0 Nitroglycerine
(R)
P082
62-75-9 N-Nitrosodimethylamine
P084
4549-40-0 N—Nitrosomethylvinylamine
P9~9
~—NepbepAeRe-273-44~ethaAe17
I747S~67~7~—hexaeh1epe7
eyel4e s~4~te-
P085
152-16—9 Octamethylpyrophosphoramide
P087 20816-12-0 Osmium oxide Os04,
(T-4)-
P087 20816-12—0 Osmium tetroxide
P088
145—73-3 7—Oxabicyclo2.2.1heptane—2,3—dicarboxylic
acid
P089
56-38—2 Parathion
P034
131—89-5 Phenol
,
2-cyciohexyl—4,6—dinitro—
P048
51-28—5 Phenol,
2,4-dinitro—
P047
P 534-52—1 —P~eRe172747—~iR4tPe—6—Rethy1——Phenol,2—methyl-4,6-
dinitro—,
and
salts
P020
88-85-7 Phenol, ~
2-(1—
92—378
—41—
methyipropyl )—4,6-dinitro-
P009
131-74—8 Phenol, 2,4,6—trinitro—, amonium salt
(R)
P96
PheRyl ~4e~4ePeaPs~Re—
P092
62-38-4 —PheAy1~ePe~P4e—Phenylmercuryacetate
P093
103-85—5 —N—-Phenylthiourea
P094
298-02-2 Phorate
P095
75—44—5 Phosgene
P096
7803-51-2 Phosphine
P041
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, O,O-diethyl
5-
(ethylthio)methyl
ester
P044
60-51—5 Phosphorodithioic acid, 0,0-dimethyl
S—2-
(methylamino)—2-oxoethyl ester
P043
55-91-4 —Phes~he~efI&a~4e—Phosphorofluoridic
acid,
bis(i—
methylethyl )ester
P994
P~ese~eth4~e~e
ae~d797Q-~4~et~y1
S—4ethy1th~e~et~y1
estep-
P089
56—38-2 Phosphorothioic
acid,
0,0-diethyl
O-(—p——4—
nitrophenyl
)
ester
P040
297-97—2 Phosphorothioic
acid,
0,0—diethyl 0—pyrazinyl
ester
P097
52—85-7
Phosphorothioic
acid,
—Q79-di~ethy10-Ep—
~
(dimethylamino)sulfonyl
)phenyl
O,O-dimethyl
ester
P071
298-00-0 Phosphorothioic
acid, 0,0-dimethyl
O—(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—
(methyl amino )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-
(R)
P017
598-31—2 2-Propanone,
1—bromo—
P102
107-19—7 Propargyl
alcohol
P003
107-02—8 2—Propenal
P005
107—18—6 2—Propen—l—ol
P067
75—55-8
1,2-Propylenimine
P102
107—19—7 2—Propyn—l—ol
P008
504-24-5 4—Pyridinamine
P075
P
54—11-5 Pyridine, —~4——3—(1—methyl-2—pyrrolidinyl)—, (5)—
and salts
PIll
I9~—49— Py~ephesphe~4~e
ae~7tet~aethy1este~—
P103
630—10—4
Selenourea
P104
506—64—9
Silver
cyanide
P104
506-64-9 Silver cyanide AqCN
P105 26628-22-8 Sodium azide
P106
143-33—9 Sodium cyanide
P106
143—33-9 Sodium cyanide NaCN
P107
1314—96—1 Strontium sulfide
92—379
-42--
1314—62—1
1314-62—i
4549-40-0
P
81-81-2
f)
The commercial
chemical
products, manufacturing chemical
intermediates or off-specification comercial
chemica’l products
referred to
in subsections
(a) through (d),
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) and C
(Carrosivity).
Absence of
a
letter indicates that the compound
is
only listed
for toxicity.)
Haz-
ardous
Waste
No.
Chemical
Abstracts
No.
P107
1314—96—1 Strontium sulfide SrS
P108
P
57—24—9
Strychnidin-lO-one,
and
salts
P018
357-57-3 Strychnidin-lO-one, 2,3-dimethoxy-
P108
P
57—24—9
Strychnine
and
salts
P115
7446—18-6 Sulfuric
acid,
—tha11i~4~—dithallium (1+)
salt
P109
3689—24—5 Tetraethyldithiopyrophosphate
P110
78—00—2 Tetraethyl
lead
P111
107—49—3 Tetraethylpyrophosphate
P112
509—14-8 Tetranitromethane
(R)
P062
757—58—4 Tetraphosphoric
acid,
hexaethyl ester
P113
1314—32—5 Thallic
oxide
P113
1314—32-5 Thallium —~l4—oxide T12O3
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):NH
P014
108-98-5 Thiophenol
P116
79-19-6
P026
5344-82—1
P072
86-88-4
P093
103—85—5
P123
8001-35—2
P118
75—70—7
P119
7803-55-6
P129
P120
___________
_____
P120
___________
_____________________
P084
__________
__________________________________
Pool
Thiosemicarbazide
Thiourea,
(2—chlorophenyl
)—
Thiourea, 1-naphthalenyl-
Thiourea,
phenyl—
Taxaphene
Trichl oromethanethi ol
Vanadic
acid,
aniuionium salt
VaRadi~~
peRte)~+4e—
Vanadium —~V~
-oxide V2O5
Vanadium pentoxide
Vinylamine, N—methyl-N—nitroso—
Warfarin,
and
salts, when present
at concentrations
greater than 0.3.
Zinc cyanide Zn(CN)2
Zinc phosphide Zn~P2,when present
at concentrations
greater than
10
~R,T)
P121
557—21—1
P122
1314-84-7
Substance
U001
75—07—0 Acetaldehyde
(I)
92—380
—43-
75-87-6 Acetaldehyde, trichioro-
62-44-2 Acetamide,
N-(4-ethoxyphenyl
)-
53-96—3 Acetamide, N-9H-fluoren-2-yl
-
____
P
94—75—7 Acetic acid,
(2,4-dichlorophenoxy)—, salts and esters
141—78—6
Acetic
acid,
ethyl
ester
(I)
301-04-2 Acetic
acid,
lead
(2+) salt
563—68—8 Acetic
acid, thallium
(—1—14-) salt
____
93—76—5 Acetic acid,
(2,4,5—trichlorophenoxy)—
67—64—i Acetone
(I)
75-05—8 Acetonitrile
(I,T)
~
aA~salts7
wheR pPeseAt at eeReeRtpat+eRs
O~ QT~
e~less—
UOO4
98-86-2
Acetophenone
UOO5
53—96-3
2—Acetyl ami nofl uorene
UOO6
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
AIaR4Re7 ~-~p- ~
pheayl.-7 6—
U~28
2—A~Ae-l-~et~yl~eAEeAe
4—A~i-Re-l-~ethyl.~eA~eAe-
U011
__________
Amitrole
U012
__________
Aniline (I,T)
U136
—_______
Arsinic acid, dimethyl—
U014
___________
Auramine
U015
____________
U010
61—82-5
62-53—3
_____
75-60—5 ____________________________
492-80-8
115—02-6 Azaserine
50—07—7
—A
F4R942!7V
43py~~ele4I;2-aA~ele—47~—th-eAe7
6-.
~
hexahy~e-8a-~ethe*y
—~—~ethyl-~
—Azirino2’,3’:3,4pyrrolo1,2-aindole—4,7—dione,
6—
amino—8-(aminocarbonyl)oxymethyl—1,la,2,8,8a,8b—
hexahydro—8a-methoxy-5—methyl-,
la—S-(laalpha,
8beta, 8aalpha, 8balpha)-
U157
56—49-5 Benzjaceanthrylene,
1,2-dihydro—3—methyl-
U016
225-51-4 Benz(c)acridine
~9I6
~74—geR~ae~~4-Re—
U017
98-87-3
Benzal
chloride
Ui92 23950—58—5 Benzamide, 3,5-dichloro—N—(1,1-dimethyl—2—propynyl)—
UO18
56-55—3
Benzaanthracene
W918
S
I72-BeR~aRt~Paeeae—
U094
57—97-6 —72—BeR~aRthPaeeAe7—Benzaanthracene,
7,12-
dimethyl
—
U012
62-53—3 Benzenamine
(I,T)
UO14
492-80-8 Benzenamine, 4,4’—carbonimidoylbis—~—N,N—dimethyl—
U049
3165-93-3 Benzenamine, 4-chloro—2—methyl—, hydrochloride
U093
60-11-7 Benzenamine, -W7N~—d~ethyl—4-pheayla~e—-
N,N-
dimethyl —4-(phenylazo)—
U328
95—53-4 Benzenamine, 2-methyl—
U353
106-49-0 Benzenamine,
4-methyl—
Ul58
101-14-4 Benzenamine,
4,4’-methylenebis—4-2-chloro—
U222
636-21-5 Benzenamine, 2-methyl—,
hydrochloride
U181
99—55—8 Benzenamine,
2-methyl-5-nitro—
UO19
71-43—2
Benzene
(I,T)
U034
U187
U005
U240
U112
U144
U214
See
FO27
U002
U003
Y248
92—38
1
—44-
U 030
U035
U037
U190
U221
U028
U038
510—15-6 Benzeneacetic
acid,
4-chloro-alpha—(4-chlorophenyl)—
alpha-hydroxy-,
ethyl
ester
101-55—3 Benzene, 1-bromo-4—phenoxy—
____
305-03—3 Benzenebutanoic
acid, 4—bis(2-chloroethyl
)amino-
108-90—7 Benzene, chloro-
~
ae44
aRhyO~e—
____
25376-45—8 Benzenediamine,
ar—methyl
-
117—81—7 l,2—Benzenedicarboxylic
acid, —i~s42—ethyl—)~exylfl—
bis(2-ethylhexyl
)
ester
U069
84—74—2 1,2-Benzenedicarboxylic acid, dibutyl ester
UO88
84-66-2 1,2-Benzenedicarboxylic
acid,
diethyl ester
U1O2
131-11—3 1,2—Benzenedicarboxylic
acid,
dimethyl
ester
U1O7
117-84—0 1,2-Benzenedicarboxylic
acid,
di—R—octyl
ester
UO7O
95—50-1 Benzene, 1,2—dichloro-
U071
541—73—1 Benzene, 1,3—dichloro—
U072
106—46-7 Benzene, 1,4—dichloro—
UO6D
72—54—8 Benzene,
1,1’-(2,2—dichloroethylidene)bis4—chloro-
U017
98-87—3 Benzene, (dichioromethyl)—
U223 26471-62-5 Benzene, 1,3-diisocyanatomethyl—
(R,T)
U239
1330-20—7 Benzene, dimethyl-
(I,T)
U201
108-46—3 1,3-Benzenediol
U127
118—74—1 Benzene, hexachloro—
U056
110—82-7 Benzene, hexahydro—
(I)
W188
BeR~eAe7hyd~e~y-—
U220
108-88-3 Benzene, methyl-
U105
121-14—2 Benzene, 1—methyl——I——2,4—dinitro-
U106
606—20-2 Benzene,
—l—~et~yl—276—~4-R44Fa——2-methyl-1,3-dinitro-
U055
98-82-8 Benzene,
(1—methylethyl)—
(I)
U169
98-95-3 Benzene, nitro—
U183
608-93-5 Benzene, pentachloro-
U185
82-68-8 Benzene, pentachloronitro—
U020
98—09-9 Benzenesulfonic
acid chloride
(C,R)
U020
98-09-9 Benzenesulfonyl chloride
(C,R)
U207
95—94-3 Benzene, 1,2,4,5—tetrachioro—
U061
50—29—3 Benzene, 1,1’—(2,2,2-trichloroethyliderie)bis4—
chioro-
U247
72—43-5 Benzene, 1,1’—(2,2,2-trichloroethylidene)bis4—
methoxy-
U023
98—07—7 Benzene,
(trichloromethylj-
U234
99—35-4 Benzene, 1,3,5—trinitro—
U021
92—87-5 Benzidene
U202
P
81—07—2 1,2-Benzisothiazol-3(2H)—one,
1,1—dioxide,
and salts
U203
94-59—7 —BeA~ene7I72—~ethyTeAe~e*y—4—ally4-——1,3—
Benzodioxole,
5-(2—propenyl
)—
U141
120-58—1 —BeR~eAe7l32—~ethyleRe~4sxy-4—pPepeRy-——1,3—
Benzodioxole, 5—(1-propenyl
)—
UO9O
94-58-6 -BeR~eRe7172-ffiethyleRe~e~y—4-pPepyl--1,3-
Benzodioxole, 5-propyl—
U9~
Ben~eRe7~I-~et~ylethy~4—
~
Y169
geA~e~e7
R+tPe-
(.I~~4
Y18
~eA~eRe7peAtae~lePa—
U486
SeA~eRe7peRta&4ePeA~tFe-
U929
Ben~eAes~l~e~4e
ae~.dehle~*de~GP~
Y929
SeA2eAes~UeRylehle~i~e
(.G7R).
92—382
-45—
~eR~eRe7172747&-tetpaehle~e—
BeR~eRe74tp*ehle~e~ethy~4—~G7R74
geR~eAe7
I737~—tpi-A~tpe—
~R7~
l72—~enseth~a~e14R—3—eAe7
17I—44.xe4-~e
~
_____
189—55—9 Benzorstpentaphene
_____
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
50-32—8 Benzoapyrene
374—BeA~epyPeRe—
106—51—4 -3——p~Benzoquinone
98—07—7 Benzotrichloride
(C,R,T)
I72—BeR~pheRaRt~FeAe—
__________
2,2’-Bioxirane —4I~1~—
___________
1’ -Biphenyl —4,4’
-diamine
___________
..I7l!B4.p~eRyl~..1,1’Biphenyl.4,4’diamine,
3,3’
—
dichloro—
__________
~
dimethoxy-
__________
—~I71~—B4p~eAyl~—1,1’—Biphenyl—4,4’—diamine,
dimethyl
—
s42-e~le~eet~e*y~
~e~haRe—
~~s42—ehle~ei.sap~epyl-)
ethe~—
~
~4s~l~~e-
s42—ethylhe~yl~
p~thalate—
RPe~4ReeyaRe—
___________
Bromoform
__________
1,3—Butadiene, 1,1,2,3,4,4—hexachioro—
__________
1-Butanamine, N—butyl-N—nitroso—
B~*taRe+eae447 4—~B~s~2—ehlePeethyl3a1HiRe~eR~eRe——
__________
1—Butanol
(I)
___________
2—Butanone
(I,T)
___________
2—Butanone, peroxide
(R,T)
____________
2-Butenal
__________
2-Butene, 1,4—dichloro—
(1,1)
______________
2—Butenoic acid,
2-methyl—,
7—2,3—dihydroxy—2—(1—
methoxyethyl )—3-methyl—l—oxobutoxymeth~’l—2,3,5,7a—
tetrahydro—lH—pyrrolizin—1—yl
ester,
1S—ialpha(Z),
7(2S*,3R*),
7aalpha—
UO31
71—36—3 n—Butyl
alcohol
(I)
U136
75—60—5 Cacodylic acid
U032 13765—19-0 Calcium chromate
U238
51—79—6 Carbamic acid, ethyl
ester
U178
615—53-2 Carbamic acid, methylnitroso—,
ethyl
ester
Gap~a~4e7
N—ethyl-N-A4.tPese—
Gap~a~i4e7
N-~ethyl—~-R+tPese-
Y29
Gap~a~~e7
th4-e—-
U097
79-44—7 —aF~aReyl-—Carbamicchloride, dimethyl-
U114
P
111-54—6 Carbamodithioic
acid,
1,2—ethanediylbis-,
salts
and
esters
UO62
2303-16—4 Carbamothioic
acid, bis(1—methylethyl)-, S-(2,3-
Y29~
U023
W234
~92I
~292
UI 29
U064
U248
U022
U922
Ui97
U023
Y9S9
U085
UO21
UO7 3
1464—53—5
92-87-5
91-94- 1
3,3’
—
3,3’—
U091
119—90-4
U095
119—93—7
U924
Y92~
U244
U928
U246
U225
75-25-2
U030
101-55—3 4-Bromophenyl
phenyl
ether
U128
87-68-3
U172
924—16-3
U03~
U031
71—36-3
Ui59
78-93—3
U16O
1338-23—4
U053
4170-30-3
UO74
764-41 -0
U143
303—34-4
92—383
—46-
U215
U033
Ui56
U033
U211
U03
U034
U035
U036
U026
UO37
U038
U039
U941
U042
U044
U046
U047
U048
U049
U032
U050
U051
U052
U062
U053
U055
U246
U197
U056
U129
U057
Ui 30
U058
U240
U 059
U060
U061
U142
U062
UI33
Y221
U063
U063
Y964
U064
U066
U069
U962
U 070
U07 1
110-75—8
67-66-3
107-30-2
91-58-7
95-57-8
3165—93—3
13765—19—0
218—01-9
1319—77—3
4170-30-3
98-82-8
506-68-3
106—51-4
110-82—7
58-89-9
189—55-9
96—12-8
84— 74-2
dichloro-2-propenyl
)
ester
6533—73—9 Carbonic
acid, dithalliurn (—~—l+)salt
353-50—4
Carbonic
difluoride
79—22—1 Carbonochloridic acid, methyl
ester (I,T)
353—50—4 Carbon oxyfluoride
(R,T)
56-23—5 Carbon tetrachioride
caP~eAylfl~e~~e
~
75—87—6 Chioral
305—03-3 Chlorambucil
57-74-9 Chlordane—7 teehnieal—alpha
and gamma
isomers
494-03-1
Chlornaphazin-e—
108—90-7 Chlorobenzene
510—15-6 Chlorobenzilate
59-50-7
—4—-p~Chloro—m-cresol
l—GhlePe—273—epexypFepaRe—
2-Chloroethyl
vinyl
ether
Chloroform
Chloromethyl
methyl
ether
—~eta-G~l-ePeRapt~aleRe—
beta-Chloronaphthalene
o—Chl orophenol
4—Chloro-o—toluidine,
hydrochloride
Chromic acid H2CrO4, calcium salt
Chrysene
Creosote
Cresols
(Cresylic
acid)
G~esy44eae44—
___________
Crotonaldehyde
__________
Cumeme
(I)
___________
Cyanogen bromide CNBr
___________
—174——2,5—Cyclohexadiene—1,4-dione
__________
Cyclohexane
(I)
___________
Cyclohexane,
I ,2,3,4,5,6—hexachloro—,
(ialpha,2alpha,3beta,4alpha,5alpha,6beta)—
108—94—1 Cyclohexanone
(I)
77—47—4
1,3-Cyclopentadiene,
I,2,3,4,5,5—hexachloro—
50-18-0
Cyclophosphamide
P
94—75—7 2,4-D,
salts and esters
20830—81-3
Daunomycin
72-54-8 DOD
50-29-3 DDT
2303-16-4
53-70-3
9eeaehle~eeetahyd~e-I
7374—~etheAe—2H—eyele~Hta~e7~-
pentaleR—2—eRe—
Diallate
9+a~+Re
~
g+a~+RatelbeRe—
Dibenza
,hanthracene
l72~78—94~eREapyPeRe—
—9eAa~a7+~pyPeRe—
Dibenzoa,ipyrene
I ,2-Dibromo-3-chloropropane
Dibutyl
phthalate
S—4273—~4e~le~eallyl~
4sep~apylteea~a~ate—
95-50-1
o-Dichlorobenzene
541-73-1 m-Dichlorobenzene
92—384
—47-
U 067
U076
UO77
UO72
106-46-7
p-Dichlorobenzene
U073
91-94-1 3,3’-Dichlorobenzidine
U074
764-41—0 1,4-Oichloro-2-butene
(I,T)
U075
75—71-8 Dichlorodifluoromethane
U192
379~ehleFe47I.d~ethyl2..pPepyHyl~
~eR~a~*~e
U969
ehlePe~4pheAyld4ehleFeethaAe
YOGI
~ehlePe~pheRyltFi~ehlePeethane—
UO78
75—35—4 i,1—Dichloroethylene
U079
156-60-5 1,2-Dichloroethylene
U025
111—44-4 Dichloroethyl ether
U027
108—60-1 Dichloroisopropyl
ether
U024
111—91-1 Dichloromethoxy ethane
U081
120—83—2 2,4—Dichlorophenol
U082
87-65-0 2,6—Dichlorophenol
U249
274-QiehlePep~ieRexyaee~e
aei~d7salts aAd estePs
U983
I72—~4ehlePepPepaAe—
U084
542-75-6 1,3-Dichloropropene
U085
1464—53—5 1,2:3,4—Diepoxybutane
(I,T)
U108
123-91-1 -I74—~et~yleRe
d~exi.de—1,4—Diethyleneoxide
U028
117—81-7 Diethylhexyl
phthalate
U086
1615-80-1 N,N’-Diethylhydrazine
UO87
3288-58-2 -039—
~
S—
methyl dithiophosphate
U088
84-66-2 Diethyl
phthalate
UO89
56-53—1 Diethylstilbestrol
Y148
l72-Pi~yd~e—76-py~ad
~4Re44eRe-
U090
94-58-6 Dihydrosafrole
U091
119-90-4 3,3’-Dimethoxybenzidine
UO92
124-40—3 Dimethylamine
(I)
UO93
60-11-7 p~Dimethylaminoazobenzene
U094
57-97-6 7,12—Dimethylbenzaanthracene
UO95
119-93-7 3,3’—Dimethylbenzidine
U096
80—15-9
alpha,
al pha-Dimethyl benzyl hydroperoxide
(R)
U097
79-44-7 Dimethylcarbamoyl
chloride
U098
57-14-7 1,1—Dimethylhydrazine
U099
540—73-8
1 ,2-Dimethyl hydrazine
UlOi
105-67-9 2,4-Dimethylphenol
U1O2
131—11-3 Dimethyl
phthalate
U103
77-78—1 Dimethyl
sulfate
U105
121-14—2 2,4—Dinitrotoluene
U1O6
606-20—2
2,6—Dinitrotoluene
U107
117—84-0 Di-n—octyl
phthalate
U108
123—91-1 1,4-Dioxane
Ul09
122—66—7 1,2—Diphenylhydrazine
UllO
142—84—7 Dipropylamine
(I)
Uill
621-64-7
-9i~—N—pPepylAi-tFesea~Re—
Di—n—propyl nitrosamine
UO41
106—89—8
Epichlorohydrin
UOOl
75—07-0 Ethanal
(I)
U174
55—18—5 Ethanamine, N—ethyl-N—nitroso—
U155
91-80-5 1,2—Ethanediamine, N,N-dimethyl-N’-2—pyridinyl—N’-(2-
thienylmethyl
)-
106-93—4 Ethane,
1,2—dibromo-
75—34—3
Ethane,
1,1—dichloro—
107—06—2 Ethane,
1,2-dichloro—
92—385
-48-
Y3~9
U228
U112
Ui13
U238
U117
U98
U 114
U067
U077
U359
U115
U116
U076
U118
U1l9
U139
U120
U 122
U123
U 124
U125
U 147
U21 3
U125
U 124
U206
Y114
I32-Ethaneylsea~~a~ed4~thi-e4e
aei.d—
Ul31
67—72—1 Ethane, —17171727272——hexachloro—
U024
111—91—1
Ethane, 1,1’-methylenebis(oxy)bis—ç—2—chloro—
U24~
EthaAe7 I7l7l—tP4.e~lsPa—272—s~p—ffiethe*ypheRel~—
U993
Et)RaReA+tF~-le(47T~—
U117
60-29—7
Ethane,
i,l’—oxybis—
(I)
UO25
111—44—4 Ethane, 1,1’—oxybis-~-—2—chloro-
U184
76—01—7 Ethane, pentachloro-
U208
630-20-6 Ethane, 1,l,1,2-tetrachloro-
U2O9
79—34—5 Ethane, 1,1,2,2—tetrachloro-
U218
62—55-5 Ethanethioamide
U226
71—55—6 Ethane,
1,I,1—trichloro—
U227
79—00-5 Ethane,
1,1,2—trichloro—
U359
110—80—5 Ethanol, 2-ethoxy—
Ul73
1116—54-7 Ethanol,
2,2’—(nitrosoimino)bis—
UOO4
98-86-2 Ethanone, 1—phenyl—
U043
75—01—4
Ethene,
chioro—
U042
110-75-8 Ethene, —2—e~le~eethexy-—(2-chloroethoxy)-
U078
75—35—4 Ethene, 1,1—dichloro—
U079
156-60—5 Ethene, —tFaAs——1,2—dichloro—,
(E)—
U210
127—18-4 Ethene, —1717272-—tetrachloro—
EthaAel7 22L_~Apese4mi~Ae~b*s-.
Y994
Et~aReRe7I.-p~eRyl-
EthaRayl ehle~i~e4G7R~~
2
—&
tha*yetha
R8
I
—
_____
79—01-6 Ethene,
trichioro—
141-78—6 Ethyl
acetate
(I)
140—88—5 Ethyl
acrylate
(I)
51—79-6
Ethyl
carbamate
(urethane)
_____
60—29—7 Ethyl
ether
Ethyl 474~—~ie)~lePebeR~late—
P 111-54-6 Ethylenebis(dithiocarbamic
acid,
salts
and esters
106—93—4 Ethylene dibromide
107—06-2 Ethylene dichloride
110—80—5 Ethylene glycol
monoethyl ether
75—21—8 Ethylene oxide
(I,T)
96-45-7 Ethylene thiourea
Ethyl ether ~I~-
75—34-3 Ethylidene dichloride
97-63-2
—Ethyl~ethae~ylate—Ethyl
methacryl ate
62—50—0 Ethyl
methanesulfonate
~
~e~tpa~—
Fl uoranthene
206-44-0
50-00-0 Formaldehyde
64—18—6 Formic
acid
(C,T)
110—00—9 Furan
(I)
98-01-1 2—Furancarboxaldehyde
(I)
108—31—6 2,5-Furandione
109—99—9 Furan, tetrahydro—
(I)
98-01—1 Furfural
(I)
110—00-9 Furfuran
(I)
18883-66-4
—9—Gl ucopyranose,
2-deoxy-2-(3-methyl -3—
nitrosoureido)-,
0-
U206 18883-66—4 D-Glucose, 2-deoxy-2-(methylnitrosoamino)-
92—386
-49-
carbonylamino-
U126
765-34-4 Glycidylaldehyde
U163
70-25-7 Guanidine, —N—A~-tPese-N—methyl—N~—A44Pe—N—methyl—N’—
nitro-N—nitroso—
118-74—1 Hexachlorabenzenè
87-68-3
U 127
____________
U128
___________
Hexachlorobutadiene
U129
NexaehlePeeyelehexaAe ~ami~a
i~SeReP~—
U13O
77-47—4 Hexachlorocyclopentadiene
Ui31
67-72-1 Hexachloroethane
Ui32
70—30-4 Hexachlorophene
U243
1888—71-7 Hexachloropropene
U133
302-01-2 Hydrazine
(R,T)
U086
1615—80-1 Hydrazine,
1,2-diethyl—
U098
57-14—7 Hydrazine, 1,1—dimethyl-
U099
540-73-8 Hydrazine,
1,2-dimethyl-
U109
122-66-7
Hydrazine, 1,2-diphenyl-
U134
7664-39—3 Hydrofluoric acid
(C,T)
U134
7664-39—3 Hydrogen fluoride
(C,T)
U135
7783-06-4 Hydrogen sulfide
U135
7783-06-4 Hydrogen
sulfide H2S
U096
80-15-9 Hydroperoxide, 1-methyl-1-phenylethyl-
(R)
U136
HydPexydi~et~iylaPs4~Re
ex+~e—
U1i6
96-45-7 2-Imidazolidinethione
U137
193-39-5 -IAdeAe~I7273—e~pyPeAe—Indeno1,2,3-cdpyrene
U139
9004-66-4 Iron dextran
U19O
85-44—9 1,3-Isobenzofurandione
Ui40
78—83—1
Isobutyl
alcohol
(I,T)
U141
120—58-1
Isosafrole
U142
143-50—0 Kepone
U143
303-34—4 Lasiocarpene
Ui44
301-04—2 Lead acetate
Ul46
1335-32—6 Lead,
bis(acetato-O)tetrahydroxytri—
U145
7446-27—7 Lead phosphate
U146
1335-32-6 Lead subacetate
U129
58-89—9 Lindane
Ul63
70-25-7 MNNG
Ui47
108—31—6 Maleic
anhydride
U148
123—33—1 Maleic hydrazide
Ul49
109—77-3 Malononitrile
U150
148-82-3 Melphalan
U151
7439-97-6 Mercury
U152
126—98—7 Methacrylonitrile
(I,T)
U092
124-40—3 Methanamine,
N—methyl—
(I)
U029
74-83-9 Methane, bromo—
U045
74—87—3 Methane, chloro— (I,T)
U046
107-30-2 Methane, chloromethoxy-
U068
74-95—3 Methane, dibromo—
U080
75-09-2 Methane, dichloro-
U075
75-71-8 Methane, dichlorodifluoro-
U138
74-88-4 Methane, iodo-
U119
62—50-0 Methanesulfonic
acid,
ethyl
ester
U211
56-23—5 Methane, tetrachloro—
U121
MethaRe7 ~
U153
74—93-1 Methanethiol
(I,T)
~2—387
-50-
U225
75-25-2 Methane, tribrorno-
UO44
67-66—3 Methane, trichloro—
U121
75—69-4 Methane, trichlorofluoro-
14123
MethaHei~eaei~
~~—
U036
57-74—9 -477—MethaAa~RdaA I72747~76777878—eetaehle~a-
3a747377a—tet~ahyd~e—-4,7—Methano—1H—indene,
I ,2,4,5,6,7,8,8—octachloro-2,3,3a,4,7,7a-hexahydro—
U154
67—56-1 Methanol
(I)
U155
91-80—5 Methapyrilene
U142
143-50-0 1,3,4—Metheno-2H—cyclobutacdpentalen-2—one,
1,la,3,3a,4,5,5,5a,5b,6—decachlorooctahydro—
U247
72-43-5 Methoxychlor
Ui54
67—56—1 Methyl
alcohol
(I)
U029
74-83-9 Methyl
bromide
U186
504-60—9 i—Methylbutadiene
(I)
U045
74-87-3
Methyl
chloride (I,T)
U156
79-22-1 Methyl
chlorocarbonate
(I,T)
U226
71-55—6 Methylchloroform
U157
56-49-5 3—Methylcholanthrene
U158
101—14-4 4,4’-Methylenebis(2-chloroaniline)
14132
~
U068
74-95-3 Methylene bromide
U080
75-09-2 Methylene chloride
14122
MethyleAe axi~de-
U159
78—93-3 Methyl
ethyl
ketone
CMEK)
(I,T)
U160
1338-23-4 Methyl
ethyl
ketone peroxide
(R,T)
U138
74-88-4 Methyl
iodide
U161
108-10-1 Methyl
isobutyl ketone
(I)
U162
80-62-6 Methyl methacrylate (1,1)
U163
~
U161
108—10-1 4—Methyl—2—pentanone
(I)
U164
56-04-2
Methylthiouracil
14247
Methe~yehla~-
UOlO
50-07-7
Mitomycin
C
UOS9 20830—81—3 5,12—Naphthacenedione, 8—acetyl—10—(3—amino—2,3,6—
trideoxy)-alpha-L-lyxo—hexapyranosyloxyl-7,8,9,1O—
tetrahydro-6,8,11—trihydroxy—1—methoxy-, (8Scis)—
U167
134—32—7
1—Naphthalenamine
U168
91—59-8 2—Naphthalenamine
U026
494-03—1 Naphthaleneamine,
N,N’—bis(2—chloroethyl
)—
U165
91—20—3 Naphthalene
UO47
91—58-7 Naphthalene,
2-chloro-
U166
130-15—4 1,4—Naphthalenedione
U236
72—57-1 2,7—Naphthalenedisulfonic acid,
3,3’—(3,3’—dimethyl—
—(~-1,1’—biphenyl—~——4,4’—diyl)———bis(azo)bis—(.—5—
amino-4—hydroxy—~——, tetrasodium salt
U166
130—15—4 —l74—Naphthaq~i~RaAe-1,4—Naphthoquinone
14167
I—NaphthyIa~Re
14168
2—Nap t~yIa~4Re—
U167
134-32—7 alpha—Naphthylamine
U168
91-59-8 beta-Naphthylamine
14926
2—Napht~hyIa~Re7r47N~—s42—ehlePeRethyl~——
U2l7 10102-45—1 Nitric
acid,
thallium
(1+)
salt
U169
98—95-3 Nitrobenzene
(I,T)
92—388
—51—
U170
100—02-7 p-Nitrophenol
U171
79—46—9
2-Nitropropane
(I,T)
U172
924-16-3 N—Nitrosodi-n-butylamine
U173
1116—54-7 N—Nitrosodiethanolamine
U174
55-18-5 N-Nitrosodiethylamine
14111
N—N4t~ese—W—p~apyla~4ae-
U176
759-73-9 N—Nitroso-N-ethylurea
U177
684—93-5 N-Nitroso-N-methylurea
U178
615-53-2 N—Nitroso-N-methylurethane
U179
100-75—4 N—Nitrosopiperidine
Ul80
930-55-2 N-Nitrosopyrrolidine
Ul81
99-55—8 5—Nitro—o-toluidine
U193
1120-71-4 1,2—Oxathiolane, 2,2-dioxide
UO58
50—18—0 —2N—l7372—9*a~aphesphePi~Ae2—~~s42—ehlepe—
ethyl3aRe~tetPahydFe—7e*i~de 2——2H—1,3,2—
Oxazaphosphorin-2-amine, N,N—bis(2-
chloroethyl )tetrahydro-, 2-oxide
U115
75-21—8 Oxirane
(I,T)
U126
765—34-4 Oxiranecarboxyaldehyde
UD41
106-89—8 —9xapa~e72-4e~la~a~ethyl3—-
Oxirane,
(chioromethyl)—
U182
123-63-7 Paraldehyde
U183
608-93-5 Pentachlorobenzene
Ul84
76-01-7 Pentachioroethane
U185
82—68-8 Pentachlaronitrobenzene
(PCNB)
See
F027
87—86-5 Pentachlorophenol
Ui61
108—10—1 Pentanol, 4-methyl—
U186
504—60—9 —I73—pepta~4-eRe
443—
1,3—Pentadiene
(I)
U187
62-44-2 Phenacetin
Ul88
108-95-2 Phenol
UO48
95-57-8
Phenol
,
2—chloro—
U039
59-50-7
Phenol,
4-chloro-3-methyl-
U081
120-83-2
Phenol,
2,4-dichloro-
U082
87-65—0
Phenol
,
2,6-dichloro—
U089
56-53—1
Phenol, 4,4’-(l,2-diethyl-I,2—ethenediyl )bis—,
(E)—
UlOl
105—67-9 Phenol,
2,4-diniethyl—
U052
1319-77—3 Phenol, methyl—
U132
70-30—4 Phenol, 2,2’-methylenebis3,4,6—trichloro—
U170
100-02-7 Phenol, 4-nitro—
See
FO27
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—trichloro—
See
F027
88-06—2 Phenol, 2,4,6—trichioro—
U150
148-82-3 L-Phenylalanine, 4—bis(2—chloroethyl
)amino-
1719—4172-pheRyleRe3pyPeAe—
U145
7446—27-7 Phosphoric
acid,
lead
(2+) salt
(2:3)
UO87
3288-58-2 Phosphorodithioic acid, 0,0—diethyl
-—~
S—methyl——S-
methyl
ester
U189
1314-80-3 —Phasphe~a~s—
Phosphorus sulfide
(R)
Ul90
85-44—9 Phthalic anhydride
92—389
-52—
2—Picoline
Piperidine, 1—nitroso—
109-06—8
100—75—4 __________________________
23950-58-5 Pronamide
107—10—8 1—Propanamine
(I,T)
621—64-7 1—Propanamine, N—nitroso-N-~ropyl—
142-84—7 1—Propanamine, ~N-propyl-
(I)
96-12-8 Propane, I,2—dibromo—3—chloro—
78—87—5 Propane, 1,2—dichloro—
109-77—3 Propanedinitrile
79—46—9
Propane,
2-nitro—
(I,T)
108—60-1 Propane, 2,2’—oxybis2—chloro—
U191
____________
U179
___________
_________________________
U192
____________
U194
____________
U 111
UllO
___________
U066
____________
U083
____________
__________________________
U 149
____________
Ul71
___________
U027
____________
See
F027
93-72-1 Propanoic acid,
2-(2,4,5—trichlorophenoxy)—
U193
1120—71—4 1,3—Propane sultone
U235
126-72—7 1—Propanol, 2,3-dibromo-, phosphate
(3:1)
14126
l—PPepaAel7 273—epe~y——
U140
78-83-1
1—Propanol, 2-methyl-
(I,i)
UOO2
67-64—1 2—Propanone
(I)
U007
79-06-012—Propenamide
U084
542-75—6 l-Propene, 1,3-dichloro-
U243
1888-71—7 1-Propene,
1,l,2,3,3,3—hexachloro—
UOO9
107—13-1 2—Propenenitrile
U152
126-98-7 2—Propenenitrile, 2—methyl-
(I,T)
U008
79-10-7 2—Propenoic acid
(I)
U1i3
140-88-5 2—Propenoic
acid,
ethyl
ester
(I)
U1i8
97-63—2 2—Propenoic
acid, 2-methyl—,
ethyl
ester
U162
80-62—6 2—Propenoic
acid,
2-methyl—, methyl
ester
(1,1)
See
F027
93-72—1 Propionic acid,
2-(2,4,5-trichlorophenoxy)-
U194
107—10-8 n-Propylamine (I,T)
U083
78—87—5 Propylene dichloride
U148
123—33—1 3,6-Pyridazinedione,
1,2—dihydro-
U196
110—86—1 Pyridine
Py~4~4ne7
2—&42-~ethylaRa3—2—theRylaI~4Re~—
14179
PyF4~Ae7hexahyd~e—N—a~t~ese——
U191
109-06—8 —PFy4~~Ae7—Pyridine,2—methyl—
U237
66—75—1 2,4—(1H,3H )—Pyrimidinedione, 5-bis(2-
chloroethyl)amino-
U164
58-04—2
—4——4(1H)-Pyrimidinone,
2,3—dihydro—6—methyl—2-
thi oxo—
U18O
930-55—2 —Py~~ele7
tetPahy4ee—N—A4tPese—- Pyrrolidine,
1—
nitroso-
50—55—5 Reserpine
108—46-3 Resorcinol
p
81—07-2 Saccharin
and salts
94-59—7
Safrole
7783—00—8 Selenious acid
7783-00—8 Selenium dioxide
____
7488—56-4 Selenium sulfide
7488-56—4 Selenium sulfide SeS2
(R,T)
115—02—6 L—Serine, diazoacetate
(ester)
U200
____________
U201
____________
U202
____________
U203
___________
U204
___________
U204
____________
U205
___________________
U205
____________
_____
U015
___________
See
F027
93—72—1 Silvex
(2,4,5—TP)
14989
474~—St44~eRe~*el7
alpha7 alpha~—~4ethyl-—
92—390
—53-
U206 18883—66-4
Y3~
See
F 027
U207
U 208
U209
U210
See
F027
U213
U214
U2l5
U216
U216
U21 7
U218
U153
U 244
77-78-1
1314—80-3
79-01—6
75-69-4
F027
88-06-2
See p923
U234
____________
U182
____________
U235
____________
U236
____________
14233
U237
66—75-1
U176
759—73-9
U177
684—93—5
U043
75-01-4
U248
p
81-81-2
Streptozotocin
S~lc~~
hyd~4.~e-
Sulfuric
acid, dimethyl
ester
Sulfur phosphide
(R)
s~lc~~
seleRide 4R~-~—
Thiram
Toluene
Toluenediamine
Toluene- diisocyanate (R,T)
o—Tol uidine
p—Tol uidine
o-Toluidine hydrochloride
1H-1,2,4—Triazol—3—amine
l~I
—~
p
4ehIaFeet~a~e
—
1,1 ,2-Trichloroethane
~pi.e~1-epeethe~e-
Trichloroethylene
Tn chloromonofl uoromethane
U103
U189
1429~
93—76-5
2,4,5—T
95-94-3 1,2,4,5—Tetrachlorobenzene
630—20-6 1,1,1,2—Tetrachloroethane
79-34-5 1,1,2,2—Tetrachloroethane
127—18-4 Tetrachioroethylene
diamide (H9N)C(S),S~,,
58—90-2 2,3,4,6—Tetrachlorophenol
109-99-9 Tetrahydrofuran
(I)
563-68-8 Thallium
(I) acetate
6533—73—9 Thallium
(1) carbonate
7791—12-0 Thallium
(I) chloride
____
7791-12—0 Thallium chloride TlCl
10102-45-1 Thallium
(1) nitrate
62-55—5 Thioacetamide
74-93-1 Thiomethanol
(I,T)
_____
137—26—8 Thioperoxydicarbonic
tetramethyl
-
U219
62-56-6 Thiourea
U244
137—26-8
U220
108-88-3
U221 25376—45—8
U223 26471—62-5
U328
95-53-4
U353
106-49—0
U222
636-21—5
U011
61—82—5
14226
U227
79—00-5
14228
U228
____________
U121
___________
See
FO27
____________
See
95—95-4 2,4,5—Trichlorophenol
99-35-4
123—63—7
126—72-7
72—57—1
2,4,6—Trichlorophenol
27475—1P*ehleFepheRexyaeet4e aei~—
—sy~—1,3,5-Trinitrobenzene(R,T)
1,3,5—Trioxane, -2747~—t~i~ethyl.——2,4,6-trimethyl-
Tris(2,3-dibromopropyl) phosphate
Trypan
bl ue
14pae~37
s42—ehlePeffiethyl3a~Ae——
Uracil
mustard
Urea, N—ethyl -N—nitroso—
Urea, ~—methyl—N—nitroso—
Vinyl
chloride
Warfarin,
and
salts, when present
at concentrations
of 0.3
or less
U239
1330—20-7 Xylene
(I
92—39 1
-54-
14249
fl~ephesp~~e7
wheA
present
at
eeReeAtPatfens
e~19
e~less—
U200
50-55-5
~
ae447
lI71—~-~ethexy-8—
~
esteP—
Yohimban—16—carboxylic
acid,
il,17—dimethoxy—18—
(3,4,5—trimethoxybenzoyl)oxy—,
methyl
ester,
(3beta
,
i6beta
,
i7alpha ,i8beta ,2Oal pha)
—
U249
1314-84—7 Zinc phosphide Zn3Pp, when present at concentrations
of
10
or less
(Source:
Amended
at
12
Ill. Reg.
,
effective
)
92—392
Appendix
H
Hazardous Constituents
Comon
Name
Chemical Abstracts Name
Chemical
Hazardous
Abstracts
Waste
Number
Number
Acrolein
Acry~amide
Acryion itrile
Aflatoxins
Aid icarb
Aidrin
Allyl
alcohol
Aluminum phosphide
4-Aminobiphenyl
~a
2; 8; 8o; 8b—
hex
ydro-8—f
roxymethy++—80—
metP~oxy—5—methy+earbamate
4r4noE2~
3~3;
43pyrro+oEI~
~+n~o+e—4;~
d4or~e;(e!ter3
4m*tomye*n
e~
5—(Aminomethyl)-3—isoxazolol
4—Am I nopyrid Ine
Amitrole
Amonium vanadate
Anilme
Antimony end
eom~o
nd, ~I;9~S;(not
otherw4~eapee4f*ed+
Antimony compounds,
N.O.S.
(not
otherwise specified)
Aramite
—fethenen+tr++e~—Same
—(—Ethanone,
1-phenyl-—3—
(werfer4n—
—f—2-Propenai
—3—
—(—2-Propenamide-3—
—f—2—Propenenitrile—+—
Same
Propanal, 2-methyl-2-(methyithio)—,
O—(methyiamino)carbonyl
loxime
fF; 2; 3; 4; 8;
H—
xaeh+oro—1~
4;
4a;
5; 8; 8e—~exehydro—endo;exe—1~
4~5 8—d+me
enonap)~the+ene3—I,
4,
5, 8—Dimethanonaphthalene,
1, 2,
3,
4,
10, 10—hexachloro—1.
4,
4a.
5. 8,
8a—hexahydro—,
1—alpha,
4-alpha,
4a—
beta,
5—alpha,
8—alpha,
8a—beta)-
(2—Propen-I-ol
3
Same
—(—1,1
‘—Biphenyl —4—amine—3—
(ar+r4noE2~-;3~3; 4~yrro+oD;
2a35ndo+e—4; ~—d+one 6—emo8
Ef+em4noeerbony~3oxy3met~y+~-~
~
2;
9;
8e;
8b—hexehydro—8a—methoxy—5-
rnethy~-3-
f3(2H)—Isoxazolone, 5-(aminomethyl)-3
—(—4-Py ridinamine
—3—
—4—1H—1,2,4—Triazol —3—amine—3—
Vanadic
acid, amonium salt
—4—Benzenamine—3-
Same
107-02—8
79-06-1
107—13—1
1402-68—2
116—06—3
309—00-2
P004
107—18-6
P005
20859—73-8
P006
92—67-1
Acetonitrile
Acetophenone
—3—+a+pPta—eeetony+benzy+
3—4—
hydroxyeottmer+n end ~e+ta
2-Acetylaminofluorene
Acetyl
chloride
1—Acetyl—2-thiourea
75—05—8
U003
98-86-2
U004
—(—Acetamide, N—f9H—fluoren-2-yl+—+—
—(Ethenoy+ eh+er+de3— Same
—(—Acetamide, N—(aminothioxomethyl
)
-—
53—96-3
75—36—S
591 —08-2
U00 5
U006
P002
P003
U007
U009
P070
2763—96-4
504—24-5
61-82-5
7803—55-6
62-53—3
7440-36-0
Pool
P008
uoll
U119
U012
—(—Sulfurous
acid, 2—chioroethyl—,
2—
140-57—8
E4—(1,1-dimethylethyl)phenoxy—1—
methyiethyi ester—+—
92—393
—56—
Arsenic end eompo~nd!PI;9;S;
Arsenic compounds,
PL0.S.
Arsenic acid
Arsenic pentoxide
Arsenic trioxide
Auramine
Azaserine
Barium end eompo~nd~
N~-&;&:
Barium compounds,
N.0.S.
Barium cyanide
Benzcacridine
Benz
a
)
anthracene
Benzai chloride
Benzene
—Benzene; 2—em*no—F—methy3
Benrene; 4-em4no-~-methy~
Benzenearsonic acid
—Benzene; d4eh3oromethy~—
Ben~eneth4o4
BenzIdme
Benzo(b3bf
1 uoranthene
Benzo(~3jfiuoranthene
Benz
0
(e3
a
3
pyrene
p—Benzoquinone
Benzotrichioride
Benzyl chloride
Beryllium end eornpo~nda;Pf;~S—
Beryllium compounds. N.0.S.
—B4!+2—eh+or~ethoxy3methene-
B*a(2—eh+oroethy+3
ether
;N—8*s(2—eeroethy—2—nepthy+em+ne
B*a(2—ehforo+sopropy~3ether
B*~(eh+oromethy~3ether
81s(2—ethy+hexy+3
phthe+ate
Bromoacetone
Bromoform
—Bromomethene
4-Bromophenyl
phenyl
ether
Bru cme
Arsenic
—4orthoar,en+e ae+d+— Arsenic acid
H3As01
—(eraenIe
(V
oxide3— Arsenic oxide
As205
—(arsenic
(FF1~3oxide3- Arsenic oxide
As 203
—f—Benzenamine,
4, 4’-
carbonimidoylbisP4,
N—dimethyl—;
monohydroeh+or4de~
—(—1-Serine, diazoacetate
(ester)—3—
Same
Same
f3;4Benzeerfd+ne3— Same
f2Benzanthraeene3-
Same
Benzene,
(dichiorornethyl)—
—feye+ohexetriene3— 5ame
fo—to+~4d4ne3
(p—to~4d*ne3—
—(—Arsonic
acid, phenyl——3—
fBen~a~
eh+orfdeI
fthiopheno~3—
—(—1,1 ‘—Biphenyll-4,4’ -diamine—3—
f23Ben~of3iterenthene3-
Benzeiacephenanthrylene
D;8Benzof3lToranthene3- Same
(3;4Benzopyrene3
Same
—ft;4eye+ohexadienedioneI— 2,5—
Cyciohexadiene-1,4—dione
fBen~ene;trich3oromethy+—3 Beazene,
(trichloromethyl
)-
-
—f—Benzene.
(chloromethyl)——+—
Same
(Ethene;
F4L_
Emethy+eneb+sfoxy33b+sf2—eh3oro—~3
(Ethene;
~1’—oxyb+sE2—thioro—~3
(eh~ornaphet4ne3
(Propane; 2;2~—oxybisE2—eh+oro3—3
(Methane;
exyb+s~eh+oro~—
D;2—Ben~ened4earboxy++eacid; b+s(2—
ethy+hexy33
ester3
—(—2-Propanone,
1—bromo-—3—
Methane, tribromo-
fmethy+
bromide3—
—f—Benzene,
1—bromo—4-phenoxy——3—
fStrychnidin-10-one, 2,3-dimethoxy—3
115—02—6
U015
7440-39-3
92—87-5
U021
205—99—2
205—82—3
50-32-8
106—51-4
98-07-7
U023
100-44-7
P028
7440—41-7
P015
598-31 -2
P017
75—25-2
U225
101—55-3
U030
357—57-3
P018
7440—38—2
7778-39-4
P010
1303—28—2
P011
1327—53-3
P012
492-80-B
U014
P013
P016
U018
Uol 7
U018
542 -62—1
225—51-4
56—55—3
98-87-3
71-43—2
98-05-5
U 022
U197
92—394
—57—
—2—B~tenoneperoxide
fmethy+ ethj4 )~etone;peroxide+—
Butyl
benzyl
phthalate
f1,2-Benzenedicarboxylic acid,
butyl
85—68—7
phenyimethyl ester3
2—see—8~ty+—46—din4tropheno~fB1*9P3
(pheno+; 2;4dinitro6f~
i~ethy~propy~
~—3
Cacodylic acid
Arsenic acid,
dirnethyl—
75—60—5
U136
Cadmium—end
eompo~nds;
h:9;Sr
Same
7440-43-9
Cadmium compounds,
N.0.S.
Calcium chrornate
fChromic
acid H2CrO4, calcium salt3
13765190
U032
Calcium cyanide
Calcium cyanide Ca(CN)2
592-01—8
P021
Carbon disuifide
f~erbonbis~+fide3Same
75—15-1
P022
Carbon oxyfluoride
f5arbony+ f~eoride3Carbonicdifuoride
353—50—4
U033
Carbon tetrachloride
Methane, tetrachloro—
56235
U211
Chloral
—(—Acetaldehyde, trichloro——3-
75-87—6
U034
Chlorambucil
—fBütanoie oeid; 4-Ebis(2—
305-03-3
U035
eMoroethy~3emino3benrene—~—
Benzenebutanoic
acid,
4—bis(2—
chioroethyl )aminol—
Chiordane fa~phaand gamma
isomers+
(4;
~—Methanoinden
~
2;
4;
5;
6;
7;
57749
U036
8;
8—oetaeMoro—3
4;
7;
7a
tetrahydro—3
4e~phaand
gamma
+somers3
4,
7—Methano—1H—indene,
1,
2,
4,
5,
6,
7,
8, 8—octachloro—2,
3,
3a,
4,
7, la—hexahydro—
Chiordane, alpha
and
ganina isomers
LJ036
Chlorinated benzenes,
N.0.S.
Chlorinated ethane,
N.0.S.
Chlorinated fluorocarbons,
N.0.S.
Chlorinated naphthalene, N.0.S.
Chlorinated phenol, N.0.S.
Chlornaphazine
Naphthalenamine,
N, N’—bis(2—
494-03-1
U026
chloroethyl
)—
Chioroacetaldehyde
—(—Acetaldehyde, chloro——+—
107-20—0
Chioroalkyl ethers, N.O.S.
p—Chioroaniline
(Benreneamine; 4—eMoro—3
106-47-8
P024
Benzenamine,
4-chioro-
Chlorobenzene
—(—Benzene, chloro——3—
108-90—7
U037
Chlorobenzilate
(Beazeneacetic acid,
4—chloro—alpha—
510—15-6
U038
(4—chlorophenyl )-al pha—hydroxy—,
ethyl ester3
—2—&h+oro—I~3—b~tadiene
f6h~oroprene3—
p—Chloro—m-cresol
—(—Phenol,
4—chloro—3—methyl
-—3—
59—50-7
tJ039
—F—&h+oro—2;3—epoxypropane
fBxirene;
2-feh3oromethyH-3—
2—Chloroethyl vinyl
ether
—(—Ethene,
(2—chioroethoxy)——3—
110-758
U042
Chloroform
—f—Methane, trichioro-—3—
67-66—3
U044
92—395
—58-
—Eh+oromethene
Chioromethyl methyl ether
—2—&h~oronaphtha+ene
beta—Chloronaphthalene
—2-Eh+oropheno~
0-CM orophenol
1—(o—Chlorophenyl)thiourea
—3—Eh~eropropene
Chloroprene
3—Chloropropionitrile
Chromium— end eompo~nds;Pfr9;S~
Chromium compounds,
N.0.S.
Chrysene
Citrus
red
No.
2
Coal tar—s— creosote
Copper cyanide
Creosote
Cresois (Cresylic acid)
Crotonaldehyde
Cyanides
(soluble
salts
and
complexes), N.0.S.
Cyanogen
Cyanogen bromide
Cyanogen chloride
Cycas in
2—Cyclohexyl-4,6—dinitrophenol
Cyclo phosphamide
Methy+ eh~oride3—
—(—Methane. chioromethoxy——3—
_________
(Nephthe+ene; bete—eh3oro—3—
Naphthalene, 2-chloro-
________
(Pheno’r; o-eh+oro—I-
Phenol,
2—chioro-
—(—Thiourea,
(2-chlorophenyl)——3—
_________
3A++y3
eMorideI—
1,3—Butadiene, 2—chloro—
—(—Propanenitrile, 3-chloro——3—
_________
Same
f;2—ben~phenanthrene3— same
_________
(2—Nephtho~
1~—ff2 5—
__________
dimethoxypheny+Iazo3—32—Naphthalenol,
1-(2,
5—dimethoxyphenyl)azoj—
Same
Copper cyanide CuCN
_________
—(Greosote;
wood3-
Same
—f—Phenol, methyi——3—
_________
—f—2—Butenal
—3—
__________
—f—Ethanedinitrile—3—
_________
(Bromine eyenide3 Cyanogen
bromide
_________
(CN)Br
(EMorine eyanide3 Cyanogen chloride
_________
(CN)Cl
(Beta-0—glucopyranoside, (methyl—OHM—
___________
azoxy)methyl-3
(Phenol, 2—cyclohexyl—4,6—dinitro—3
_________
—f2h4
3; 2-Oxazaphosphorine;
________
Ebisf2—eMoroethy~3emino3—tetrahydro—
; 2—oxide—)— 2H-1,
3,
2—
Oxazaphosphorin-2-amine,
N,
N—bis(2—
chloroethyl)tetrahydro—, 2-oxide
Acetic
acid,
(2,4—dichlorophenoxy)—
________
Acetic acid,
2,4—dichlorophenoxy)—,
salts
and
esters
+5, 12—Naphthacenedione,
(89—eis3—8—
__________
acetyl—10—(3—amino—2,
3,
6—
trideoxy3-alpha-L—lyxo—
hexopyranosyl)oxy—7,
8,
9,
10-
tetrahydro—6,
8,
11—trihydroxy—1—
methoxy-3,
SS-cis)—
—+diehIorod4pheny+dieh~oroethane3(ethane;
~-~—
dieMoro—2;2—bisfp—eh+oropheny+3—-)-
Benzene.
1,1’—(2,2—dichloroethyl idene)bis4—chloro—
107-30-2
U046
91—58-7
U047
95-57-8
U048
5344-82-1
P026
126-99-8
542-76-7
P027
7440-47-3
218-01—9
U050
6358-53-8
8007-45-2
544—92-3
P029
U051
1319—77—3
U052
4170-30—3
U053
P030
460-19-5
P031
506-68-3
U246
506-77-4
P033
14901 —08—7
131 —89-5
P034
50-18-0
U058
94-75—7
U240
U240
20830—81—
U059
3
72-54-8
U060
2,4—0
2,4—0, salts
and
esters
Daunomycin
ODD
92—396
-59-
Dibenza,hacridine
Dibenzta,jacridine
Dibenza
,hanthracene
7H-Dibenzoc,g)carbazole
Dibenzoa
,epyrene
Dibenzoa,hpyrene
Dibenzoa,ilpyrene
I ,2—Dibromo—3—chloropropane
F;2Bibromoethane
4Ethy3ene dibromide3
Bibromomethane (Methy+ene bromide3—
B+—n—bety+ phthe~ateDibutylphthalate
o-Dichlorobenzene
m—Dichlorobenzene
p-Dichlorobenzene
Dichlorobenzene, N.0.S.
3,3’—Dichlorobenzidine
1, 1-Dichioroethylene
—BIeh+oromethene
2,4—0 ichiorophenol
2, 6-0 ichlorophenol
2;4Eich~orophenoxyaeet+eacid
fethy+ene;
F; F—dieh3oro—2; 2—bis(4—
eMoropheny+—3
Benzene,
1,
1’—
(dichloroethenyl idene)bis4—chloro-
4dieh3orodipheny~trieMoroethane3
(ethane; F; F; Ftrich+oro2; 2—
bis(p—eh~oropheny++—38enzene, 1,
1’-
(2,
2, 2—trichloroethylidene)bis4—
chioro—
(5(2; 3-dieh~oroe+~y++di+sopropy+—
thiocarbemate3Carbamothioic
acid,
bis(1—methylethyl)—, S—(2,
3—
dlchloro—2-propenyl)
ester
F;S;&9ibenzoeridine3
Same
(2;7;8Bibenracrid+ne3
Same
fF;2;5;SBibenranthraeene3
Same
f3;4;56Biben~eorbazo~e3
Sa~ie
—ft2;4;5—Bibenzpyrene3—
Naphthc1 ,2,3,4—deflchrysene
(F;25;G5ibenrpyreneI
Dibenzorb,def)chrysene
fF;2;7;8—Bibenrpyrene3
Ben z oCrst
3
pentaph
ene
—(—Propane, 1,2—dibromo—3—chloro——1—
f1,2-Benzenedicarboxylic acid,
dibutyl
ester3
—f—Benzene, 1,2-dichloro——3—
—(—Benzene, 1,3-dichloro——3—
—f—Benzene, 1,4—dichloro——3—
—(—Benzene, dichioro—
—;
(Cl,
1’-Biphenyl—4,
4’-diaminp,
3,
3’—dichloro—3
—(—2-Butene, 1,4-dichioro——3—
—(—Methane, dichlorodifluoro——3—
226—36-8
224—42-0
53—70-3
194 —59-2
192-65-4
189—64-0
189—55—9
U064
96-12-8
U065
84-74-2
U069
95—50—i
541—73—1
106-46-7
25321 —22-6
91—94-1
U073
764—41 -0
U074
75—71-8
U075
25323—3D—
2
75-35—4
U078
120-83-2
U081
87—65-0
U082
DDE
DOT
Diailate
72—55-9
50—29—3
U061
2303-16-4
U062
U063
U 070
U071
U072
1,4—Dichloro—2—butene
Dichlorodifluoromethane
F;FBieMoroethane (Ethy*idfne dieh3oride3
F29*eh3oroethane fEthy+ene dich*oride3
trans—F;2—BieMorethene
(F; 2—Bich~orethy~ene-
B+eh~oroethy+ene;N;&;S~
—(Ethene, dichloro—, N.O.S.)-
Dichloroethylene
—(—Ethene,
1,1—dichloro——3—
(methy+ene eh~or4de+—
—f—Phenol,
2,4—dichloro——3—
—(—Phenol,
2,6—dichloro——+—
f2;4~B3;~a*ts and esters (acetic
acid; 2;4d4eh~orophenoxy;sa~tsand
esters3—
92—397
—60-
Dichlorophenylarsine
Dichioropropane,
N.0.S.
F;2Bich3oropropene
Dichloropropanol, N.0.S.
Dichloropropene,
N.0.S.
l,3—Dichloropropene
Dieldrin
1,2: 3,4-Diepoxybutane
Diethylarsine
1,4—Diethyleneoxide
Diethylhexyl phthalate
N,N’—Diethylhydrazine
&GBiethy~
S—methy’
ester of
phosphorodithioie acid—0,O-Diethyl
S—
methyl dithiophosphate
8&Biethy~+phcsphor4eacid; &p
nitropheny+ ester-Diethyi-p-
nitrophenyl
phosphate
Diethylphthalate
0,0-Diethyl O--2—-pyrazinyl
phosphorothioate
Diethyl sti lbestrol
Oihydrosafrole
3;49+hydroxy-a+pha—
fmethy+am+no3methy~benzy+ a~eoho4
Diisopropylfluorophosphate
(DFP)
Dimethoate
—(Pheny+ dich+oroersinel— Arsonous
dichloride, phenyl—
—f—Propane, dlchloro- —;M;9;S;3—
(propy+ene dieh3oride3-
—(—Propanol, dichloro—
—;
—(—1-Propene, dichloro-
—;
—(—1—Propene,
l,3—dichloro——3—
-fF; 2; 3;
4;
F9; FB—hexaeh3oro—6; 7—
epoxy-F;
4;
4a;
5; 6; 7; 8; 8e—
oetehydro—endo; exo—F 4~5;8
dimethanonaphtha3ene3— 2,
7:3,
6—
DimethanonaphthC2,
3—bloxirane,
3,
4,
5,
6,
9,
9—hexachioro—la,
2,
2a,
3,
6~6a,
7, 7a—octahydro—,
Cia alpha,
2
beta, 2a alpha,
3 beta,
6 beta,
6a
alpha,
7
beta, 7a alpha)—
—f—2,2’—Bioxirane—3—
—(—Arsine,
diethyl——3—
1, 4-0 ioxane
1,2—Benzenedicarboxylic
acid,
bis(2-
ethylhexyl)
ester
—(—Hydrazine, 1,2-dIethyl——3—
—f—Phosphorodithioic
acid,
0,0—
diethyl
S—methyl ester—-
—(Phosphoric acid; diethy+ p—
n+tropheny3 ester~—Phosphoric acid,
diethyl
4—nitrophenyl
ester
—(—1,2—Benzenedicarboxylic acid,
diethyl
ester——
—(—Phosphorothioic acid,
0,0—diethyl
O—pyraz inyl ester—h
f4;4~sti3benedio+;
a’rpha;a3phe—
diethy+;
bisfdihydrogen
phosphate;
(E—3—
Phenol, 4,4’—(1,2—diethyl—1,2—
ethenediyl)bis—,
(E)—
—(Bentene; F;2methy+enedioxy4
propy+—3— 1,3-Benzodioxole,
5-propyl—
~2Ben~ened4o+;
4EF—hydroxy—2—
fmethy +amino+ethyi
3—3
—f—Phosphorofluoridic acid, bis(1—
methylethyl) ester—3—
—(—Phosphorodithioic
acid,
0,0—
dimethyl S-E2—(methyiamino)—2—
oxoethyl)
ester—)—
—(—tl,1 ‘—Biphenyl—4,4’—diamine,
3,3’—dimethoxy——3—
26638-19—7
26545—73-3
26952-23-8
542-75-6
U084
60—57—1
P037
1615—80—1
U086
3288-58-2
U087
696—28-6
P036
1464-53-s
692-42-2
123—91-1
117—81 —7
U085
P038
U108
U 028
311-45-5
P041
84-66—2
U088
297—97-2
P040
56-53-i
U089
94-58-6
U090
55-91-4
P043
60-51 -5
P044
119—90-4
U091
3,3’ -Dimethoxybenzidine
92—398
—61
-
p—Dimethylaminoaz obenz ene
7,
i2—Dimethyibenzalanthracene
3,3’-Dimethylbenzidine
Dimethylcarbamoyl chloride
1,1 —Dimethylhydrazfne
1 ,2—Dimethylhydrazme
3;39imethy~—~-fmethy3thioh2-beta—
none; SEfmethy+emino3carbony+3 oxime
alpha,alpha—Dimethyl phenethylamine
2,4—Dimethylphenol
Dimethylphthalate
Dimethyl
sulfate
Dinitrobenzene,
N.O.S.
4,6—Dir,itro-o-cresol
4,6—Dinitro-o-cresol
and
salts
2,4—Dinitrophenol
2,4—Dinitrotoluene
2, 6—0initrotoluene
Dinoseb
Di—n-octyl
phthalate
F
;4B
ioxane
Dipheny lamme
i,2—Diphenylhydrazine
Di—n—propylnitrosamine
Disulfoton
—2;4——Oithiobiuret
—(—Benzenamine,
N,N—dimethyl—4-
(phenylazo)-—)—
+F;2BenzCaanthracene,
7,12—
dimethyl-3
4CI,l’—Biphenyi)-4,4’—diamine,
3,3’—
dimethyl-)
—f&erbemaoy~eMoride; dimethy+—3—
Carbamic chloride, dimethyl—
—f—Hydrazine, 1,1—dimethyl—-3—
—f—Hydrazine, 1,2-dimethyl——)-
fthiofanox3—
(Ethanamine; FFdimethy+2pheny+)
Benzeneethanamine, alpha,
alpha—
dimethyl—
—(—Phenol,
2,4—dimethyl——)—
(i,2-Benzenedicarboxylic acid,
dimethyl
ester)
—f—Sulfuric
acid,
dimethyi
ester—)—
—(—Benzene,
dinitro——;
M;&;&;3—
Phenol
,
2—methyl—4,6—dinitro—
(Pheno3;
2;4—d+nitro6methy~
and
se~ts)
—(—Phenol,
2,4—dinitro——)—
—(—Benzene,
l—methyl—2,4—dinitro——3—
—(Ben~ene;Fmethy+2;&dinitroh
Benzene, 2—methyl—1,3—dinitro—
Phenol, 2—(1—methylpropyl)—4,6—
din itro-
fi,2-Benzenedicarboxylic acid,
dioctyl ester)
fF;4—Biethy+ene oxide)—
—(—Benzenamine, N—phenyl——3—
—f—Hydrazine, i,2—diphenyl——3—
fM—nitroso—di—n—propy+amine) 1—
Propanamine, N—nitroso—N-propyl—
—+9; &—diethy+ S—E2—fethy+thio)ethy*3
phosphorodithioete— Phosphorodithioic
acid,
0,
0—diethyl S—C2-
(ethylthio)ethyl) ester
(Thiolmidodicarbonic diamide)
C
(H2N )C (5)
3
2NH
105—67—9
UlOl
131-11—3
U102
77—78-i
U103
25154—54—5
534-52—i
P047
P047
60-11-7
U093
57-97-6
U094
119-93-7
U095
79-44-7
U097
57-14-7
U098
540—73-8
U097
122-09-8
P046
51 —28—5
121 —14—2
606—20—2
P048
Ui05
Ii 106
88-85-7
P020
117-84-0
U107
122 -39-4
122 —66—7
621—64—7
U109
Ulil
298-04-4
P039
541—53—7
P049
92—39
9
-62-
Endrin metabol ites
Epich lorohydrin
Epinephrine
Ethyl
carbamate (urethane)
Ethyl
cyanide
Ethylenebisdithiocarbamic
and esters
Ethylenebisdithiocarbamic acid,
and
esters
Ethylene dibromide
Ethylene dlchloride
Ethylene
glycol monoethyl
ether
Ethyl eneimine
Ethylene
oxide
Ethylenethiourea
Ethyl idine dichloride
Ethyl methacrylate
Ethyl
methanesulfonate
Famphur
Flu oranthene
Fluorine
2—Fl uoroacetamide
Fluoroacetic acid,
sodium salt
—f5—norbornene;
2;
3—d4methano~F;
4;
5; 6; 7; 7—hexach4oro-; eye~ie
sa+fite)— 6, 9—Methano—2,
4,
3—
benzodioxathiepen,
6,
7,
8,
9,
10,
10—hexachloro—1,
5,
5a,
6,
9, 9a—
hexahydro—, 3-oxide,
7—OxabicycloE2.2.1)heptane—2,
3—
dicarboxylic acid
—fF; 2; 3;
4;
F8; FB—hexeeh3oro—6; 7
epoxy—F;
4;
4a;
5; 6; 7; 8; 8a—octe-
hydro—endo; enda—F;
4~5;
8—dimethano—
naphtha~ene;
end metabo~itesh2,
7:3, 6—Dimethanonaphth2,
3—
boxirane,
3,
4,
5,
6,
9, 9—
hexachloro—la, 2,
2a,
3,
6,
6a,
7,
7a—octahydro-,
(la alpha,
2
beta,
2a
beta,
3 alpha,
6 alpha,
6a beta,
7
beta, 7a alpha)—,
Oxirane, chloromethyl)—
1,2—Benzened iol
•
4—El -hydroxy—2-
(methylamino)ethyl—,
CR)—
—f—Carbamlc
acid,
ethyl
ester—)—
—(—Propanenitrile—3—
(F2Ethanediy~b4!earbamod4th4oie
acid;
sa’ts
end esters)
Carbamodithioic
acid,
1,2—
ethanedlylbis-
ester)
(Methanesulfonic acid,
ethyl
ester)
Phosphorothioc acid, O—C4—
C(dimethylamino)sulfonyl)phenylj 0,0
dimethyl
ester
—(Ben~oE~~3f4eorene3—
Same
Same
—(—Acetamide, 2—fluoro——)—
(Acetic acid,
fluoro—, sodium salt)
P051
106-89-8
U041
51—43—4
P042
62—50-0
Ui19
52 -85—7
P097
E
ndosu
1 fan
Endothal
Endrin— end metabo3ites—
115—29—7
P050
145-73-3
P088
72 —20—8
P051
acid;
sa’ts
salts
51—79-6
107-12—0
111-54-6
106—93—4
107—06—2
110—80—5
-
151 —56—4
75—21-8
96-45-7
75—34—3
97—63-2
U238
P101
Ul14
Ui14
U067
U077
U359
P054
Ui’S
U1i6
U075
U1i8
Ethane, 1,2—dibromo—
Ethane, i,2-dichloro—
—(—Ethanol, 2-ethoxy——3—
—(—Aziridine—3—
—(—Oxirane—)—
—(—2—Imidazol idinethione—3-
Ethane, 1,1—dichioro—
(2—Propenoic
acid,
2—methyl-, ethyl
206—44—0
7782—41-4
640—i
9-7
62-74-8
Ul20
P056
P057
P058
92—400
-63—
Formaldehyde
Formic
acid
Glycidylaldehyde
Halomethane, N.O.S.
Heptachlor
Heptachlor epoxide (a+pha; beta and
gamma
isomers)
Heptachlor epoxide (alpha, beta and
ganina
isomers)
Hexachlorobenzene
Hexachiorobutadjerie
—Hexeeh3oreeye~ohexanefef) isomers)
Hexachlorocyclopentad lene
Hexachlorodibenzo-p—d lox ins
Hexachlorodibenzofurans
Hexachloroethane
F2;3;4;F9;F9—IiexaeMore-F;4;4a
5;8;Be-hexehydro-F;4r5;8—ende;endo-
dimethanonaphthe~ene
Hexach 1 orophene
Hexachloropropene
Hexaethyl tetraphosphate
Hydrazine
Hydrogen cyanide
Hydrogen fluoride
Hydrogen sulfide
I+ydroxyd4methy~ersineoxide
Indeno(El,2,3—cd3
pyrene
—Fodomethane
Iron dextran
-Fsoeyenie
acid; metPty~ester
Isobutyl
alcohol
—fmethy+ene oxidef— Same
(methanoic
aeid3Same
—(F—propane+; 2;3epoxyh
Oxiranecarboxaldehyde
+4, 7—Methano—1H—indene,
1,
4,
5,
6,
7,
8,
8—heptachloro-3a,
4,
7, 78—
tetrahydro—)
(4;
7—methano—F+—indene;
F;
4;
5;
6;
7; 8; 8—heptach3oro—2; 3-epoxy-3a;
4;
7; 7—tetrehydro—; e+pha;
beta and
gamma
isomers)
2,
5—Methano—2H—
indenoEl, 2bloxirene,
2,
3,
4,
5,
6,
7,
7—heptachloro—la,
lb,
5,
Sa,
6,
6a—hexahydro—,
Cia
alpha, lb beta,
2
alpha,
5 alpha,
5a beta,
6 beta,
6a
alpha)
—
+Benzene, hexachloro—3
(1,3—Butadiene,
1,1,2,3,4,4-
hexachioro—)
Hindane end isomers)—
f&ye)opentadiene; hexech~oro-+1,3—
Cyclopentadiene, 1,2,3,4,5,5—
hexachloro—
—(—Ethane, hexachloro——3—
fhexacMorohexahydro-endo;endo-
d+methanonephthe~ene)—
f22~methy+enebis(3;4;6trieMoro
phen&+33
Phenol, 2,2’—
methylenebis3,4,6—trichloro—
+1—Propene,
1,1,2,3,3,3—hexachloro—3
(Tetraphosphoric
acid,
hexaethyl
ester)
—(diamineI— Same
Hydrocyanic acid —(Hydrogen cyanide)-
Hydrofluoric acid (Hydrogen f~eride3
Hydrogen sulfide H2S
(&eeody+ic acid)
—(F;FB—(F;2-Pheny+ene3pyrene3- Same
(Methy’ iodide)-
—fFerrie dextran)— Same
+Methy~*soeyanete+-
—f—i—Propanol, 2—methyl——)-
1888-71—7
U243
757—58-4
P062
50—00-0
Ul22
64-18-16
U123
765-34-4
U126
76-44-8
P059
102 4—57—3
118—74—1
U127
87-68-3
Ul28
77-47—4
U130
67-72-1
U131
70-30-4
U132
302 —01—2
74-90-8
7664-39—3
7783-06—4
Ul33
P063
U134
U135
193-39-S
U137
9004-66—4 U139
78—83-1
Ul40
92—40?
—64-
IsodrIn
Isosafrole
Kepone
Lasiocarpine
Lead and eompo~nds;~9~S:
Lead and compounds,
N.0.5,
Lead acetate
Lead phosphate
Lead subacetate
Lindane
Maleic anhydride
Maleic hydrazide
Malononjtri le
Mel phal an
Mercury
Mercury compounds,
N.0.S.
Mercury fulminate
Mereery and eompot~nds;M0-5;
Methacrylonitrile
—Metheneth4o~
Methapyrilene
1, 4:5, 8—Dimethanonaphthalene,
1, 2,
3, 4,
10, 1O—hexachloro—1,
4, 4a,
5,
8, 8a—hexahydro—,
(1 alpha.
4 alpha,
4a beta,
5 beta,
8
beta,
8a beta)—,
+Ben~ene;F2methy+ened4oxy4a~fy+
)
1,3-Benzodioxole,
5—(1—propenyl)—
f8ececMorooctehydro—F3;4—metheno—
2)+—ey&+obetefed3pente+en—2—one) 1,
3,
4—Metheno—2H—cyclobutacdlpentalen—2
—
one,
1,
la,
3,
3a,
4,
5,
5,
5a,
Sb,
6—decachlorooctahydro—,
(2—Butenoic acid,
2—methyl—,
7—f2,
3—d-ihydroxy—2—C1—methoxyethyl )—3—
methyl-1—oxobutoxyI)methyll-2,
3,
5,
7a—tetrahydro-1H—pyrrolizin—l—yl
ester),
1S—E1—alpha(Z),
7(2S*, 3R~),
7a alpha—
Same
—(—Acetic
acid,
lead (2+) salt—)—
(Phosphoric
acid, lead
(2+) salt)
(2:3)
(Lead, bis(acetato—O)tetrahydroxytri—
3
Cyclohexane,
1,2,3,4,5,6—hexachloro—,
1 alpha,
2
alpha,
3 beta,
4 alpha,
S
alpha, 6 beta)—
—(—2, S—Furandione—3—
(F;2-d*hydro3;Gpyrida~
inediene)
—
3,6—Pyridazinedione,
1,2—dihydro—
—f—Propanedinitrile—3—
(~+enine;3-fp—b4s(2—eh~oreethy+3—
emino3pheny+—; E—3 L—Phenylalanine,
4—Ebis(2—chloroethyl )amino—
Same
(Fulminic acid, mercury
(2+) salt)
+2—Propenenitrile, 2—methyl-)
+~hiomethono+3—
(Pyridine; 2—f(2—dimethy+aminof—
ethy+3—2—theny3am*ne—) 1,2-
Ethanediamine, N,N—dimethyl—N’—2—
pyridinyl—N ‘—(2—thienylmethyl
)—
465-73—6
P060
120—58—1
U141
143—50—0
Ui42
303-34-1
u143
7439—92-1
301—04-2
U144
7446—27-7
Ul45
1335-32-6 U146
58—89—9
U129
108—31—6
U147
123-33—1
U148
109—77—3
Ul49
148—82—3
U150
7439—97-6
U151
628—86—4
P065
126—98—7
U1S2
91—80—S
U155
92—402
—65—
Metholmyl
(Acetimidie
acid;
M—E(methy~earb—
16752-77—S
P066
amoy~)oxy3thio—; methy~ester)
Ethanimidothioic acid,
N—
EC(methylarnino)carbonyloxy—,
methyl
ester
Methoxychlor
—(Ethane; F;FF—trich4oro—2;2~—bisfp— 72—43-S
U247
methoxypheny3—)—
Benzene, 1,1’—
(2,2,2—trichloroethyl idene)bis4—
methoxy
-
—?—Methy~a~iridine
fF;2—Propy3eniminef
3—Methy+eho~anthrene(BentE~3aeeanthry~ene;F;2—d+hydro—3—methy+—3—
Methyl bromide
Methane,
brorno-
74—83-9
U029
Methyl chloride
Methane, chioro-
74873
U045
Methyichlorocarbonate
fCarbaonochloridic acid, methyl
79—22-i
U156
ester)
Methyl chloroform
Ethane, i,i,1—trichloro—
71—55—6
U226
3—Methylcholanthrene
Benztjaceanthrylene,
1,2—dlhydro-3—
56—49—5
U157
methyl
-
4,4’-Methylenebis(2-chloroanillne)
(4;4~—Methy~enebis(2—eh~orobenzen—
101—14-4
U158
amine))
Benzenamine,
4,4’—
methylenebis2-chloro—
Methylene
bromide
Methane,
dibromo—
74953
U068
Methylene chloride
Methane, dlchloro—
75—09-2
U080
Methyl
ethyl
ketone
(MEK)
—(—2—Butanone—)—
78—93-3
U159
Methyl
ethyl
ketone peroxide
2—Butanone, peroxide
1338—23—4
U160
Methyl hydrazine
—(—Hydrazine, methyl——)—
60—34-4
P068
Methyl
iodide
Methane,
iodo—
74—88—4
U138
Methyl
isocyanate
Methane, isocyanato—
624—83—9
P064
2—Methyllactonitrile
(Propanenitrile, 2—hydroxy—2—methyl—+
75—86—5
P069
Methyl methacrylate
(2-Propenoic acid,
2-methyl—, methyl
80—62-6
U162
ester)
Methyl
methanesulfonate
(Methanesulfonic
acid,
methyl
ester)
66—27—3
—2—MethyF—2—(methy~thiofprop4ona+dehyde—&—(methy~earbonyh
oxime
(Propanal;
2—methyF-?—
fmethy+th+of—; 9—f(methy+emino3earbony+3oxime+
~+_Methy+_NL_nitro_P~_n4trosogeanidine
(geenidine;
~+_nitroso_P+_methy+_ML_nitro_)_
Methyl
parathion
+98—dimethy+ 9—(4—nitropheny3f phos—
298—00—0
P071
phorathioate3 Phosphorothioic
acid,
0,0—dimethyl
0—(4—nitrophenyl)
ester
Methylthlouracil
f4—F+—4-(1H)-Pyrimldinone,
2,3—
56—04-2
U164
dihydro—6-methyl -2—th loxo—)
Mitomycin C
Azirino2’,
3’:3,
4pyrroloCl,
2-
50—07-7
U010
aindole—4,
7—dione, 6—amino—8—
EC(amlnocarbonyl)oxymethyl—i,
La,
2,
8,
8a, 8b-hexahydro—8a—methoxy—5-
methyl—,
la—S-Cia
alpha,
8
beta, 8a
alpha,
8b alpha)—,
MNNG
Guanidine,
N-methyl-N’—nitro—N—
70—25—7
11163
nitroso—
92—403
—66—
Mustard gas
Naphtha lene
l,4—Naphthoqulnone
F—Nephthy4emine (alpha—Naphthylamine)
2-Naphthy4emine (beta—Naphthylamine3
F—al_pha—Naphthy 1—2—th lourea
Nickel
and compoends; N;8;S~
Nickel
compounds,
N.0.S.
Nickel carbonyl
Nickel cyanide
Nicotine end
sa3ts
Nicotine
salts
Nitric oxide
p—Nitroanilme
Nitrobenzene
Nitrogen dioxide
Nitrogen mustard and hydroeMoride
se)t
Nitrogen mustard, hydrochloride salt
Nitrogen mustard N-oxide end
hydrocMor+de sa3t
Nitroglycerin
4p-N itrophenol
2—Nitropropane
4—Mitro~eino3ine—F—ox4de
Nitrosamines,
N.0.S.
N—Nltrosodi-n—butylamine
N—Nitrosodlethanolamlne
N—Nitrosodiethylamine
N—Mitrosodimethylamine
N—Nltroso-N—ethyl urea
N—Nitrosoniethylethylamine
N—Nitroso-N-methylurea
N—N itroso-N—methyiurethane
—fS~3f4de;bis(2—eMoroethy+3—3—
Ethane, i,i’—thiobis2—chloro—
Same
—f—l,4-Naphthalened lone—)—
l—Naphthal enamine
2—Naphthalenamine
—(—Thiourea, 1—naphthalenyl——)—
Same
(Nfeke~tetraearbony33 Nickel
carbonyl Ni(C0)4,
(T—4)-
(Nickel (FF3 cyanide) Ni(CN)2
(Pyridine,
+53—3—Cl -methyl-2—
pyrrolidmnyl)—,
CS)— and se~ts3
—(Nitrogen (FF3 oxide)- Nitrogen
oxide
NO
—(—Benzenamine,
4—nitro——3—
—(—Benzene, nitro——3—
—(Nitrogen
+FV3 oxide)- Nitrogen
oxide N0~
(EthanamIne, 2—chloro—N—(2—
cM oroethyl
)
-N—methyl—;
end
hydroeMoride sa~t3—
(Ethanamine, 2—chloro—N—(2—
chloroethyl)—N—methyl—. N—oxide; and
hydroch+oride sa~t3
—f—1,2,3—Propanetriol,
trinitrate—)—
—(—Phenol,
4—nitro——)—
—(—Propane, 2-nitro——)—
fe~4no3ine;4—n+tro—F—oxide—~
fi—Butanamine,
N—butyl—N—nitroso-3
(Ethanol, 2,2’—(nitrosoimino)bis—)
—(—Ethanamine,
N—ethyl-N—nitroso——3—
f~4methy+nitrosamine3Methanamine, N—
methyl-N—nitroso—
(earbamide; ?I—ethy+—N—nitrosc—3 Urea,
N—ethyl —N—nitroso—
—f—Ethanamine, N—methyl-N—nitroso——)—
f9arbam4de; ?+methy+Nnitroso3
Urea, N—methyl—N—nitroso-
(Carbamic
acid, rnethylnitroso—,
ethyl
ester)
13463—39—
P073
3
557-19—7
54-11 —5
P075
10102-43—9
P076
100-01-6
P077
98-95-3
P078
10102-44-0
P078
Si —75-2
126-85—2
35576—91 —1~
924—16—3
Ui72
1116—54—7
U173
55—18-5
11174
62—75-9
P082
759—73-9
U176
10595-95-6
684-93-5
11177
615—53-2
Ui78
505—60—2
91 -20-3
130—15—4
134—32—7
91-59-8
86-88-4
7440-02-0
11165
11166
11167
11168
P072
P074
P075
SS—63-0
100—02-7
79-46-9
P081
11170
U17i
92—404
-67-
N —N
itrosomethy lvInylamme
N—Nitrosomorphol me
N—Nitrosonornlcotine
N—Nltrosopiperidine
N—Nitrosopyrrol idine
N —Nitrososarcosine
5—Nitro-o—toluidine
Octamethyl pyrophosphoramide
Osmium tetroxide
7—Bxabieye4oE2;2;F3heptane—2;3—
diearboxy+ie acid
Paraldehyde
Parathion
Pentachlorobenzene
Pentachlorodibenzo-p—d iox ins
Pentachlorodibenzofurans
Pentach 1oroethane
Pentachloronitrobenzene
(PCNB)
Pentachlorophenol
Phenacetin
Phenol
Phenylenediamine
Phenylmercury acetate
N~—Pheny
1thiourea
Phosgene
Phosph i ne
Phorate
Phthalic
acid esters,
N.0.S.
Phthal ic
anhydride
2—Picolme
Polychlorinated biphenyls,
N.O.S.
Potassium cyanide
Potassium silver cyanide
(EthenVinylammne, N—methyl-N-nitroso—
—(—Morpholine, M!-nitroso-—)-
ft4ornieotine; M-nitroso—3 Pyridine,
3—(1—nitroso—2—pyrrolldinyl)—,
CS)—
fPyridine; hexahydro—; PI—nitroso—)
Piperidine,
1—nitroso-
(Pyrro~e; tetrahydro—;
P+—nitroso—3
Pyrrolidmne, 1—nitroso-
(Sareosine; Pi—nitroso—3 Giycine,
N—
methyl-N—ni troso-
—(—Benzenamine,
2—methyl—S-nitro——)—
—(—Diphosphoramide, octamethyl——)—
(Osmium (VHF) oxide) 0s0~~
(T-4)
fendotha’t)—
(1,3,5—Trioxane,
2,4,6—trimethyl—)
fPhosphorothioic acid,
O,O-diethyl
0-
(p4—nitrophenyl) ester)
—(—Benzene, pentachloro——3—
—f—Ethane,
pentachloro——)—
—f—Benzene, pentachioronitro——)—
—(—Phenol, pentachloro——3—
—(—Acetamide, N-(4—ethoxyphenyl)——3—
—fBenrene;
hydroxy—)
Same
—(—Benzenedlamine—)—
(Mercury,
(acetato—O)phenyl—3
(Thiourea, phenyl-3
fEarbony~eMoride3 Carbonic
dichloride
—(Hydrogen phosphide3— Same
Phosphorodlthioic acid,
0.0—diethyl
S—Cethylthio)methyl
ester
fphorete3
Phosphorothioie acid; &;9—d4methy~9—
fp—f(dimethy+amino3 se~fony~3pheny~3
ester
(Fampher)
fBenaene; F;?diearboxy+ie acid;
esters; M~9~S;3
fF2Benrenediearboxy~ieacid
anhydride) 1,3—Isobenzofurandlone
—(—Pyridmne,
2-methyl——)—
Same
(Argentate(1—),
dieyeno—bis(cyano-C)—
potassium)
4549-40-0
P084
59—89-2
16543—S5-8
100-75—4
U179
930—55-2
U180
13256-22—9
99-55-8
11181
152—16-9
P085
20816-12-0
P087
123—63—7
U182
56-38-2
P089
608-93-5
11183
76-01—7
82-68-8
87-86-5
62-44—2
108—95-2
25265-76—3
62-38-4
103-85-5
75—44—5
7803—51—2
P096
298-02 -2
-
P094
11184
11185
See F027
11187
11188
P092
P093
P095
85—44-9
U190
109—06—8
U191
151—50—8
P098
506-61-6
P099
92—405
-68-
1,3—Propane sultone
n—Propylamine
Propy3thioereei~
?—Propyn-F—oftPropargyl
alcohol—)-
Propylene dichloride
1,2—Propylenimine
Propyl thiouracIl
Pyrid me
Reserpine
Resorcinol
Saccharin end sMts
Saccharin salts
Safrole
Se~enioesacid
Selenium and eompoends;
8~S~
Selenium compounds, N.O.S.
Selenium dioxide
Selenium sulfide fSe~ferseIenide3
Selenourea
Silver end compoends; W~9~S;
Silver compounds,
N.0.S.
Silver cyanide
Silvex
(2,4,5—TP)
Sodium cyanide
Streptozotocin
Strontium sulfide
Strychnine and
sa’rts
Strychnine
salts
f9enzene;
F;2methy+ened4oxy4a+~+y+
94-59—7
3
l,3—Benzodioxole,
5—(2-propenyl)—
fSe3eniem dioxide—
Same
7782-49—2
Selenious acid
Selenium sulfide SeS2
—(&arbam4midose~enoieaeid3—Same
_________
Same
Silver cyanide AgCN
_________
Propanoic acid, 2-C2,4,5—
________
trichlorophenoxy)—
Sodium cyanide NaCN
_________
(B—6~eopyrenose;2-deoxy—2—(3—
__________
methy+—3—nitrosoereido)—3
0-Glucose,
2—deoxy-2-
(Emethylnitrosoamino) carbonylamino—
Strontium sulfide SrS
__________
(Strychnidin—10—one; and se+ts—3
Pronamide
f35Bieh~oroNfF;F-d4methy32
23950-58-
U192
propyny~3benaamide)Benzamide,
3,5—
5
dlchloro—N-(l,i-dimethyl-2-propynyl)-
—(—1,2—Oxathiolane,
2,2—dioxide—)—
1120—71—4
U193
—(—1-Propanamine—)—
107—10—8
11194
f2;3—Bihydro-6—prepy +—2—thioxo—4fF143-
pyrimidinone3
2-Propyn—1-ol
107-19—7
P102
Propane, l,2—dichloro—
78—87—5
11083
Aziridine, 2—methyl—
75—S58
P067
4(iH)—Pyrimidinone, 2,3-dihydro—6-
51—52—5
propyl-2-thioxo-
Same
110-86—1
11196
fYohimban—16—carboxylic
acid,
11,
17—
50—55—5
U200
dlmethoxy-18-(3,
4,
5—
trimethoxybenzoyl)oxy—,
methyl
ester,
(3 beta,
16 beta,
17 alpha,
18
beta,
20 alpha)—,
—f—i,3—Benzenediol—)—
108—46—3
11201
fF2Benroisothiazo~in3ome;
F;F
81—07-2
11202
dioxide;
end sa3ts3
1,2—
Benzisothiazol—3(2H)—one,
1,1—dioxide
________
11203
________________
__________
11204
_________________________
___________
11205
__________
P103
77 83-00-8
7446-34-6
630—10—4
7440-22-4
506—64-v
P104
93—72—i
See
F027
143—33-9
P106
18883-66—
11206
4
1314—96—1
P107
57—24—9
P108
P108
92—406
-69-
TCDD
1,2,4, 5—Tetrachlorobenzene
Tetrachlorod ibenzo—p-d ioxins
2;3;7~8Fet
raeh3orodiben~o—p—dioxin
ff9993
Tetrachlorodibenzofurans
Tetrachloroethane, N.0.S.
1,1,1 ,2—Tetrachl oroethane
l,l,2,2—Tetrachloroethane
Tetrachloroethyl
ene
—Tetraeh3oromethane
2, 3, 4, 6—Tetrach lorophenol
TetraethyId ith iopyrophosphate
Tetraethyl
lead
Tetraethyipyrophosphate
Tetranitromethane
Thallium and compoends; N;9;S~
Thallium compounds
Thallic oxide
Thallium
(I)
acetate
Thallium
(I)
carbonate
Dlbenzob,e(l,4Jdioxin,
2,3,7,8-
tetrachloro-
—f—Benzene, 1,2,4,5-tetrachloro——3—
(dibenzo—p—dioxin; 2;3;7;8—
tetreeh4oro—3
—(—Ethane,
tetrachloro—,
N.O.S.
—3—
—(—Ethane,
l,i,1,2—tetrachloro——)—
—(—Ethane,
1,1,2,2—tetrachloro——3—
fetrech3oroethene fPereh3oroethy3ene3
Ethene,
tetrachioro—
(Earbon tetraeh3oride)-
—(—Phenol,
2,3,4,6—tetrachloro——3—
E~8ithiopyrophosphorieacid;
tetra—
ethy3 ester) Thiodiphosphoric acid,
tetraethyl
ester
—(—Plumbane, tetraethyl-—3—
(Pyrophosphorie
acid;
tetraethy+
ester)
Diphosphoric
acid,
tetraethyi
ester
—f—Methane,
tetranitro——)—
Same
tThallium (FF23
oxide) 11203
(Acetic acid,
thallium (21+)
salt)
(Carbonic acid, dithallium
(21+)
salt)
Thallium chloride T1C1
(Nitric
acid,
thallium
(21+)
salt)
Selenious
acid, dithalllum (1÷)salt
(Sulfuric acid, dithallium CF1~)
salt)
—f—Ethanethioamide—3—
2—Butanone, 3,3—dimethyl—i—
(methylthio)—,
0—
((methylamino)carbonyllox ime
Methanethiol
Benzenethiol
—f—Hydrazinecarbothloamide—)—
—fEerbamide;
thio—)—
Same
(B +sfdimethy+thioeerbamoy+)
diseifide) Thioperoxydicarbonic
diamide (H2N)C(S)2S2,
tetramethyl—
—(—Benzene,
methyl——)—
1746-01-6
95—94-3
11205
25322 —20-7
630—20-6
11208
79—34—5
U209
127—18—4
11210
58—90—2
See F027
3689-24-5
P109
78—00—2
P110
107-49-3
P111
509—14—8
P112
7440-28—0
1314—32—5
P113
563-68-8
U214
6533-73—9
U215
7791-12-0
11216
10102—45—i
11217
12039-52—0
P114
10031—59—1
P115
62—S5-5
U218
39196-18-
P045
4
Thall ium
Thail ium
Thall ium
Thall ium
(I)
chloride
CI) nitrate
selen i te
(I)
sulfate
Thioacetamide
Thiofanox
Thiomethanol
Thiophenol
Thiosemicarbazide
Thiourea
Thiuram
Toluene
74-93-1
108—98-5
79-19-6
62—56—6
137—26—8
UI 53
P014
P116
P219
11244
108—88—3
U220
92—407
—70—
Toluenediamine—
;
P+;9:S~
2;kToluene-2,4-dlamine
2;&Toluene-2, 6—d iamine
3;4loluene3,4diamlne
Toluene diisocyanate
o—Toluidine
o—Toluidine hydrochloride
p—Toluidine
Toxaphene
—fribromomethane
1,2, 4-Trichlorobenzene
F;F
;
F—f
rich
3or oeth one
1, 1,2—Trichloroethane
Trichloroethylene
Trichloromethanethiol
Trichloromonofluoromethane
2,4,5-Trichlorophenol
2, 4, 6—1 richloro phenol
2;4;Sfrieh3orophenoxyeeetic
acid
+2,4,5-1
2;4;5~Frich3orophenoxypropionieacid
+2;4;5—fP+
fsi3vex)
Trichioropropane, N.0.S.
1,2,3—Trichloropropane
D,0,O—Triethyi
phosphorothloate
syml,3~5—Trinitrobenzene
Tris(l—aziridinyl)phosphine sulfide
Tris(2,3—dibromopropyl) phosphate
Trypan blue
(Bieminoto3eene
M;9~Sr-)
Benzenediamine,
ar—methyl—
l,3-Benzenedlamine, 4-methyl—
l,3—Benzenediamine, 2—methyl—
1,2—Benzenediamine, 4—methyl—
(Benzene, 1,3—diisocyanatomethyl—)
Benzenamine, 2-methyl—
—f—Benzeneamine, 2—methyl—,
hydrochloride—)—
Benzenamine, 4—methyl-
—(Bamphene; oeteeh3oro—)— Same
(Bromoform)
-
—(—Benzene,
l,2,4—trichloro——3—
(Methy+
ch3oroform)-
—f—Ethane,
1,1,2—trichioro——)—
(frieh3oroethy+ene)Ethene, trIchloro—
—f—Methanethiol, trichloro——)—
—(—Methane, trichlorofluoro——)—
—f—Phenol, 2,4,S—trichloro——3—
—(—Phenol,
2,4,6—trichloro——3—
3
(Acetic acid; 2;4;Strieh3oro
phenoxy—3 Acetic acid,
(2,4,5—
trichlorophenoxy)—
(Propionie acid; 2—(2;4;5—
triehforophenoxy—
—(Propane;
trich3oro—;
P+;8~S-)—
—f—Propane, 1,2,3—trichloro——3—
—+—Phosphorothloic acid,
0,0,0—
triethyl ester—)—
—(—Benzene, 1,3,5—trinitro——)—
—(Phosphine se3fide; tris(3—
aziridiny33—)— Aziridine,
1,1’,l—
phosphinothioyl idynetris-
—(—1—Propanol, 2,3—dibromo-
phosphate—)—
C3:l)
f2;7Nephthe+enedise3fonie
acid;
3;3L..E(3;3~dimethy3(F;F~—biphemy~)—
4;4~—diy+)bis(aro)3bis(5—amino—4—
hydroxy—; tetrasodiem soft)— 2,7—
Naphthalenedisulfonic acid,
3,3’—
((3,3’ -dimethyll,1
‘—biphenyl 1—4,4’—
diyl )bis Cazo)bis5—amino-4-hydroxy—,
tetrasodium salt
(N;P+~~ndeeamethy
3enebis32—
eh3oroben~y3emine);dihydroeh4oride)—
25376—45—8
11221
9S-80-7
823—40-5
496-72-0
584-84-9
95-S3-4
636—21—5
106—49-0
U353
8001—35-2
P123
120-82-1
25735-29—9
96-18-4
126—68-1
99—35—4
U234
52-24-4
11223
11328
11222
79-00-5
79-01 -6
75—70-7
75—69-4
95-95-4
88-06-2
93—76—S
U227
U228
P118
11121
See F027
See F027
See F027
—l~ndeeamethy3enediemine;?+N L_bis(2_
eh3oroben~y+amine);dihydroeh3oride
126—72—7
U235
72—57—i
U236
2056-25—9
92—408
—71—
—Vanadie
acid;
ammoni~msa+t
Vanadium pentoxide
Vinyl
chloride
Warfarin
Warfarin
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
(~raei+;5—Ebis(2—eh+oroethy+emino3—
+
2,4—(1H,3H)—Pyrlmidinedlone,
S—
tbis (2—chloroethyl
)amino—
+Amiaon4~mvenadate)—
—f—Vanadium
—fY)
—oxide—)—
—(—Ethene,
chloro——+—
2H-l-Benzopyran—2-one, 4-hydroxy-3-
(3—oxo—1—phenylbutyl)—. when present
at
concentrations
less
than
0.3.
2H—1 -Benzopyran—2—one,
4-hydroxy—3—
(3—oxo—1—phenylbutyl)—, when present
at concentrations greater than 0.3.
(Source:
Amended
at
12 Ill.
Reg.
effective
Uracil mustard
66—75—1
11237
1314—62—1
75-01—4
81-81-2
P120
11043
U 248
81-81-2
POOl
U248
Pool
Zinc cyanide Zn(CN)2
557—21—1
P121
Zinc phosphide P2Zn3, when present
at
1314—84—7
P122
concentrations greater
than 10.
Zinc phosphide P2Zn3, when present at
1314-84—7
11249
concentrations of 10
or
less.
92—409
—72—
TITLE
35:
ENVIRONMENTAL PROTECTION
SUBTITLE G:
WASTE DISPOSAL
CHAPTER
I:
POLLUTION CONTROL BOARD
SUBCHAPTER
C:
HAZARDOUS WASTE OPERATING REQUIREMENTS
PART
722
STANDARDS APPLICABLE
TO GENERATORS
OF HAZARDOUS WASTE
SUBPART A:
GENERAL
Section
722.110
Purpose,
Scope and Applicability
722.111
Hazardous Waste Determination
722.112
USEPA Identification Numbers
SUBPART
B:
THE MANIFEST
Section
722.120
General Requirements
722.121
Acquisition of Manifests
722.122
Number
of Copies
722.123
Use of the Manifest
SUBPART
C:
PRE-TRANSPORT REQUIREMENTS
Section
722.130
Packaging
722.131
Labeling
722.132
Marking
722.133
Placarding
722.134
Accumulation
Time
SUBPART D:
RECORDKEEPING AND REPORTING
Section
722.140
Recordkeeping
722.141
Annual
Reporting
722.142
Exception Reporting
722.143
Additional
Reporting
722.144
Special Requirements
for Generators of between
100. and
1000
kilograms
per month
SUBPART
E:
EXPORTS OF HAZARDOUS WASTE
Section
722.150
Applicability
722.151
Definitions
722.152
General Requirements
722.153
Notification of Intent
to Export
722.154
Special Manifest Requirements
722.155
Exception Report
722.156
Annual
Reports
722.157
Recordkeeping
SUBPART
F:
IMPORTS
OF HAZARDOUS WASTE
Section
722.160
Imports
of Hazardous Waste
SUBPART G:
FARMERS
92—410
-73—
Section
722.170
Farmers
Appendix A
Hazardous Waste Manifest
AUTHORITY:
Implementing Section
22.4 and authorized
by Section
27
of the
Environmental Protection Act
(Ill.
Rev. Stat.
1987, ch.
111
1/2,
pars.
1022.4
and
1027).
SOURCE:
Adopted
in R81—22,
43
PCB 427, at
5 Ill. Reg.
9781,
effective as
noted
in
35
Ill. Adm. Code 700.106;
amended and codified
in R81-22,
45 PCB
317,
at
6
III.
Reg. 4828, effective as noted
in
35
Ill. Adm. Code 700.106;
amended
in R82-18,
51
PCB 31,
at
7
Ill. Reg.
2518,
effective February 22,
1983;
amended
in R84-9
at
9
Ill. Reg. 11950, effective July 24,
1985;
amended
in R85-22
at
10
Ill.
Reg.
1131,
effective January
2,
1986; amended
in R86-1
at
10
Ill.
Reg. 14112, effective August
12,
1986; amended
in R86—19
at
10
111.
Reg.
20709, effective December
2,
1986;
amended
in R86-46
at
11
Ill. Reg.
13555, effective August
4,
1987;
amended
in R87-5
at
11 Ill. Reg. 19392,
effective November 12,
1987;
amended
in R87-39
at
12
Ill. Reg.
13129,
effective July 29,
1988;
amended
in R88-16
at
12
Ill.
Reg.
effective
SUBPART A:
GENERAL
Section
722.110
Purpose, Scope and Applicability
a)
These regulations establish standards for generators
of
hazardous
waste.
b)
A generator who treats,
stores
or disposes of hazardous waste on-site
must only comply with the following —s—Sections of this Part with
respect
to that waste:
Section
722.111
for determining whether
or
not
—he—the generator
has
a hazardous waste,
Section 722.112 for
obtaining
an EPA identification number,
Section 722.140(c) and
(d)
for recordkeeping, Section 722.143 for additional
reporting and,
if
applicable, Section
722—~5~—170
for farmers.
c)
Any person who imports hazardous waste
into the United States must
comply with the standards applicable
to generators established
in
this Part.
d)
A farmer who generates waste pesticides which are hazardous waste and
who complies with all
of
the requirements of Section 722.—~1~—17O
is
not required to comply with other
standards
in this Part,
or
35
Ii).
Adm. Code 702, 703, 724— e~~
725 or
728 with respect
to such
pesticides.
e)
A person who generates
a
hazardous waste
as defined by
35
Ill.
Adm.
Code 721
is
subject to
the compliance
requirements
and penalties
prescribed
in Title VIII
and XII
of the Environmental
Protection Act
if
he does
not comply with the requirements
of
this Part.
(BOARD NOTE:
A generator who treats,
stores
or disposes of
hazardous
waste on-site must comply with the applicable standards and permit
92—411
-74-
requirements
set
forth
in
35
Ill. Adm. Code
702,
703, 724—aR~~
a~i4
4G G~R2~—,725 and 726.)
f)
An owner
or operator who initiates
a
shipment of hazardous waste from
a treatment,
storage or disposal
facility must comply with the
generator standards established
in this Part.
(BOARD NOTE:
The provisions
of Section 722.134 are applicable
to the
on-site accumulation of hazardous waste
by generators.
Therefore,
the provisions of Section 722.134 only apply
to owners
or operators
who are shipping hazardous waste which they generated at
that
facility.)
g)
35
Ill.
Adm. Code 700 contains rules
on
application of other Board
regul ations.
(Source:
Amended
at
12
III. Reg.
,
effective
)
SUBPART
E:
EXPORTS OF
HAZARDOUS WASTE
Section 722.151
Definitions
In addition to the definitions set forth
at
35
Ill. Adm. Code 720.110,
the
following definitions
apply
to this Subpart:
“Consignee” means
the ultimate treatment, storage or disposal
facility
in
a
receivirig country
to which the hazardous waste will b~
sent.
“Primary Exporter” means any person—s— who
is
required to originate
the manifest for
a
shipment of hazardous waste
in
accordance with
Subpart B which specifies a treatment, storage or disposal
facility
in
a
receiving country
as the
facility to which the hazardous waste
will
be sent and any intermediary arranging for the export.
“Receiving country” means
a foreign country to~which.a hazardous
waste
is
sent for the purpose
of treatment,
storage or disposal
(except short-term storage incidental
to transportation).
“Transit country” means
any foreign country,
other than
a receiving
country, through which
a
hazardous waste
is
transported.
“USEPA Acknowledgment
of Consent” means the cable
sent to USEPA from
the United States Embassy
in
a receiving country that acknowledges
the written consent
of the receiving country to accept the hazardous
waste
and describes the terms
and conditions of the receiving
country’s consent
to the shipment.
(Source:
Amended
at
12
Ill.
Reg.
,
effective
)
92—412
-75—
TITLE
35:
ENVIRONMENTAL PROTECTION
SUBTITLE
G:
WASTE DISPOSAL
CHAPTER
1:
POLLUTION CONTROL BOARD
SUBCHAPTER
c:
HAZARDOUS WASTE OPERATING REQUIREMENTS
PART
724
STANDARDS FOR OWNERS AND OPERATORS OF
HAZARDOUS WASTE
TREATMENT,
STORAGE AND DISPOSAL FACILITIES
SUBPART
A:
GENERAL PROVISIONS
Section
724.101
Purpose, Scope and Applicability
724.103
Relationship
to Interim Status Standards
SUBPART
B:
GENERAL FACILITY STANDARDS
Section
724.110
Applicability
724.111
Identification Number
724.112
Required Notices
724. 113
General Waste Analysis
724.114
Security
724.115
General
Inspection Requirements
724.116
Personnel Training
724.117
General Requirements for
Ignitable, Reactive or
Incompatible
Wastes
724.118
Location Standards
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 Comunications
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
92—413
-76-
SUBPART
F:
RELEASES FROM SOLID WASTE MANAGEMENT UNITS
Applicability
Required Programs
Groundwater
Protection Standard
Hazardous Constituents
Concentration Limits
Point
of Compliance
Compliance Period
General Groundwater Monitoring Requirements
Detection Monitoring Program
Compliance Monitoring Program
Corrective Action
Program
Corrective Action for Solid Waste Management Units
SUBPART G:
CLOSURE AND POST-CLOSURE
Applicability
Closure Performance Standard
Closure Plan;
Amendment of Plan
Closure; Time Allowed For Closure
Disposal
or Decontamination
of Equipment, Structures and Soils
Certification of Closure
Survey Plat
Post-closure Care and Use of Property
Post-closure
Plan;
Amendment
of
Plan
Post—closure Notices
Certification of Completion of Post—closure Care
SUBPART
H:
FINANCIAL REQUIREMENTS
Applicability
Definitions
of Terms As Used
In This Subpart
Cost Estimate
for Closure
Financial Assurance
for Closure
Cost Estimate for Post—Closure Care
Financial Assurance for Post-Closure Care
Use of
a Mechanism for Financial Assurance
of
Post-Closure Care
Liability Requirements
Incapacity of Owners
or Operators, Guarantors
Institutions
Wording
of the Instruments
SUBPART
I:
USE
AND MANAGEMENT OF
CONTAINERS
Applicability
Condition of Containers
Compatibility of Waste With
Management
of Containers
Annual
Report
Unmanifested Waste Report
Additional
Reports
724. 175
724.176
724.177
Section
724.190
724.191
724.192
724.193
724.194
724.195
724.196
725. 197
724.198
724.199
724.200
724.201
Section
724.210
724.2 11
724. 212
724.213
724.214
724.215
724.216
724.217
724.218
724.219
7 24.220
Section
724.240
724. 241
724. 242
724.243
724. 244
724.245
724. 246
724.247
724.248
724.25 1
Secti on
724.270
724.271
724.272
724.273
Both Closure
and
or Financial
Container
92—414
—77—
Inspections
Containment
Special
Requirements
for Ignitable or Reactive Waste
Special Requirements
for Incompatible Wastes
Closure
SUBPART J:
TANK SYSTEMS
Applicability
Assessment of Existing Tank System’s Integrity
Design
and Installation
of New Tank Systems
or
Containment
and Detection of Releases
General Operating Requirements
Inspections
Response to Leaks
or Spills and Disposition
of
for—use Tank Systems
Closure
and
Post—Closure
Special
Requirements for
Special
Requirements for
Special
Requirements for
FO26
and FO27
SUBPART
K:
SURFACE
IMPOUNDMENTS
Applicability
Design and Operating Requirements
Double—lined Surface
Impoundments:
Exemption from Subpart F:
Groundwater Protection Requirements (Repealed)
Monitoring and Inspection
Emergency Repairs; Contingency Plans
Closure and Post-Closure Care
Special Requirements for Ignitable or Reactive Waste
Special
Requirements
for Incompatible Wastes
Special Requirements for Hazardous Wastes FO2O, FO21,
F022, FO23,
F026
and FO27
SUBPART
L:
WASTE
PILES
Applicability
Design and Operating Requirements
Double-lined Piles:
Exemption from Subpart F:
Groundwater
Protection Requirements
(Repealed)
Inspection
of Liners:
Exemption from Subpart
F:
Groundwater
Protection Requirements
(Repealed)
Monitoring and
Inspection
Special Requirements for Ignitable or Reactive Waste
Special Requirements
for Incompatible Wastes
Closure and Post-Closure Care
Special Requirements
for Hazardous Wastes FO2O,
F021, FO22,
FO23,
F026 and FO27
SUBPART
M:
LAND
TREATMENT
Section
724.370
Applicability
Components
Leaking or unfit—
Care
Ignitable or Reactive Waste
incompatible Wastes
Hazardous Wastes
F020, FO21, FO22,
F023,
724.274
724.275
724.276
724.277
724.278
Section
724.290
724. 291
724.292
724.293
724.294
724.295
724.296
724.297
724.2 98
724.299
724.300
Section
724.320
724.321
724.322
724.326
724.327
724.328
724. 329
724.330
724. 331
Section
724.350
724. 351
724.352
724.353
724.354
724.356
724.357
724.358
724.359
92—415
-78-
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,
FO21,
F022, FO23,
F026 and F027
SUBPART
N:
LANDFILLS
Section
724.400
Applicability
724.401
Design and Operating Requirements
724.402
Double-lined
Landfills:
Exemption from Subpart F:
Groundwater
Protection Requirements
(Repealed)
724.403
Monitoring and
Inspection
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
F020, FO2I, FO22,
F023,
F026 and F027
SUBPART 0:
INCINERATORS
Section
724.440
Applicability
724.441
Waste Analysis
724.442
Principal Organic Hazardous Constituents
(POHCs’l
724.443
Performance Standards
724.444
Hazardous Waste Incinerator Permits
724.445
Operating Requirements
724.447
Monitoring
and Inspections
724.451
Closure
Appendix A
Recordkeeping
Instructions
Appendix
B
EPA Report Form and Instructions
(Repealed)
Appendix
D
Cochran’s Approximation
to the Behrens-Fisher
Student’s t-test
Appendix
E
Examples of Potentially Incompatible Waste
Appendix
I
Groundwater Monitoring List
AUTHORITY:
Implementing
Section 22.4 and authorized by Section
27 of the
Environmental
Protection Act
(Ill. Rev.
Stat.
1987, ch.
111
1/2,
pars.
1022.4
and
1027).
SOURCE:
Adopted
in R82-19,
53 PCB
131,
at
7
Ill.
Reg. 14059, effective
October
12,
1983; amended
in R84-9
at
9
Ill.
Reg. 11964, effective July 24,
9
2—4
16
-79—
1985; amended
in R85-22
at
10
Ill.
Reg.
1136,
effective January
2,
1986;
amended
in R86—1 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
Ill. Reg. 13135,
effective July 29, 1988;
amended
in R88-16
at
12
Ill.
Reg.
effective
SUBPART
A:
GENERAL PROVISIONS
Section
724.101
Purpose, Scope
and Applicability
a)
The purpose
of this Part
is
to establish minimum standards which
define the acceptable management
of hazardous waste.
b)
The standards
in
this Part apply
to owners
and operators of
all
facilities which
treat,
store
or dispose of hazardous waste,
except
as
specifically provided otherwise
in this Part or
35
Ill.
Adm. Code
721.
c)
The requirements
of this Part apply to
a person disposing of
hazardous waste
by means
of ocean disposal
subject
to
a permit
issued
under the Marine
Protection, Research and Sanctuaries Act
(16
U.S.C.
1431-1434,
33 U.S.C.
1401)
only to the extent
they are
included in
a
RCRA permit
by rule granted
to
such
a person
under
35
Ill.
Adm. Code
703.141.
A “RCRA permit”
is
a
permit required by Section
21(f) of
the Environmental Protection Act
and
35
Ill.
Adm. Code 703.121.
(BOARD NOTE:
This Part does apply
to the treatment or storage
of
hazardous waste before
it
is
loaded onto an ocean vessel
for
incineration
or disposal
at sea.)
d)
The requirements
of this Part apply to
a person disposing of
hazardous waste by means
of underground injection subject
to
a
permit
issued
by the Agency pursuant to Section 12(g) ~fthe Environmental
Protection Act
only to
the extent
they are
required by
35
Ill.
Adm.
Code 704.Subpart
F.
(BOARD NOTE:
This Part does apply to the above-ground treatment or
storage
of hazardous waste before
it
is
injected underground-)
e)
The requirements
of this Part apply to the owner or
operator of
a
POTW (publicly owned
treatment works) which
treats,
stores
or
disposes of
hazardous waste only to
the extent
included
in
a RCRA
permit
by
rule granted
to
such
a
person under
35
Ill. Adm. Code
703.141.
f)
The requirements
of this Part do
not apply to:
1)
The owner
or operator of
a facility permitted by
the Agency
under Section 21
of the Environmental Protection Act
to manage
municipal
or
industrial
solid waste,
if
the
only hazardous waste
the facility treats,
stores
or disposes
of
is
excluded from
92—4 17
-80-
regulation under
this Part by
35 Il.
Adm. Code 721.105.
(BOARD NOTE:
The owner
or operator may be
subject
to
35
Ill.
Adm. Code 807 and may have to
have
a supplemental
permit under
35
Ill. Adm. Code 807.210.)
2)
The owner
or operator of
a facility managing recyclable
materials described
in
35
Ill. Adm. Code 721.106(a)(2) and
(3)
(except to
the extent that requirements of this Part
are
referred to
in
35
Ill.
Adm. Code 726.Subparts
C,
D,
F or G).
3)
A generator accumulating waste on—site
in compliance with
35
Ill. Adm. Code 722.134.
4)
A farmer disposing of waste pesticides from —h4s—the farmer’s
own
use
in compliance with
35
Ill.
Adm. Code 722.—~~—17O.
5)
The owner
or
operator of
a totally enclosed treatment facility,
as
defined
in
35
111.
Adm. Code 720.110.
6)
The owner
or operator of an elementary neutralization unit or
a
wastewater treatment unit
as defined
in
35 Ill. Adm. Code
720.110;
8)
Iriinediate
response:
A)
Except
as
provided in
subsection (f)(8)(B),
a person
engaged
in treatment or containment
activities during
irriiiediate response to
any of the following situations:
i)
A discharge of
a
hazardous waste;
ii)
An iminent and substantial
threat
of
a discharge of
hazardous waste;
iii) A discharge of a material which,~when~Jischarqed,
becomes
a hazardous waste.
B)
An owner
or operator of
a facility otherwise regulated by
this Part must comply with
all
applicable requirements
of
Subparts
C and D.
C)
Any person who
is
covered
by
subsection
(f)(8)(A) and who
continues
or initiates hazardous waste treatment
or
containment activities after the
irrii~ediate response is over
is subject
to
all
applicable requirements of this Part
and
35
Ill.
Adm. Code 702,
703 and 705
for
those activities.
Or,
9)
A transporter
storing manifested shipments
of hazardous waste
in
containers meeting the requirements
of
35 Ill.
Adrn.
Code 722.130
at
a transfer facility for
a period
of ten days
or less.
10)
The addition
of absorbent materials to waste
in a container (as
92—418
-81-
defined
in
35 Ill. Adm. Code 720) or the addition of waste to
absorbent material
in
a container, provided these actions occur
at the time waste
is
first placed
in the container;
and Sections
724.117(b), 724.271 and 724.272 are complied with.
h)
This Part applies
to owners
and operators of facilities which treat,
store or dispose of hazardous wastes referred
to
in
35
Ill. Adm. Code
728.
(Source:
Amended
at
12 Ill.
Reg.
,
effective
)
92—419
-82-
Section 724.Appendix
I
Groundwater Monitoring List
a)
The regulatory requirements pertain only to the
list
of substances;
the right
hand
columns
(Methods
and PQL) are given for
informational
purposes
only.
See also
(e)
and
(f).
b)
Convnon names
are
those widely used in government regulations, scientific publications
and comerce;
synonyms exist for many chemicals.
c)
“CAS RN
means ~ChemicalAbstracts Service Registry Number”.
Where “total”
is entered,
all species
in the groundwater that contain this element are included.
d)
CAS
index names are
those used
in the 9th Cumulative
index.
e)
“Suggested Methods”
refer to analytical
procedure numbers used
in ~TestMethods for
Solid Waste,~incorporated by reference
In 35
Ill. Adm. Code 720.111.
Analytical
details
can
be found
in “Test Methods”, and
in documentation on file with USEPA.
Caution:
The methods listed are representative procedures
and may not
always
be the
most suitable methods for monitoring an analyte under
the regulations.
f)
Practical Quantitation Limits
(“PQLs”)
are the
lowest concentrations of analytes
in
groundwater that can be reliably determined within specified limits of precision
and
accuracy
by the indicated methods under routine laboratory operating conditions.
The
POLs listed are generally stated to one significant
figure.
Caution:
The PQL
values
In
many
cases
are
based
only
on
a
general
estimate
for
the
method
and
not
on
a
determination for
individual
compounds;
PQLs are
not
a part of the regulation.
g)
PCBs (CAS RN 1336—36—3).
This category contains congener chemicals, including
constituents Aroclor—1016 (CAS RN 12674—11—2), Aroclor—122l
(CA5 RN 11104—28—2),
Aroclor—1232 (CAS RN 11141—16—5), Aroclor—1242 (CAS
RN 53469—21—9
),
Aroclor—1248
(CAS
RN 12672—29—6), Aroclor—1254
(CAS RN 11097—69-1)
and Aroclor—l260 (CAS RN 11096-82-5).
The PQL shown
Is an average value for PCB congeners.
h)
PCOD5.
This category
includes congener chemicals,
including tetrachlorodibenzo—p—
dioxins (see also 2,3,7,8—TCDD), pentachlorodibenzo—p—dioxins
and hexachlorodibenzo—p—
dioxins.
The
PQL
shown
is an average value for PCDO congeners.
i)
PCOFs.
This
category
contains
congener
chemicals,
including
tetrachlorodibenzofurans,
pentachlorodibenzofurans
and hexachlorodibenzofurans.
The
PQL
shown
is an average for
all
PCOF congeners.
92—420
—83-
Comon Name
CAS
RN
Chemical Abstracts Service
Suggested
PQL
(ug/L)
Index Name
methods
Acenaphthene
83—32-9
Acenaphthylene,
1,2—dlhydro—
8100
200.
8270
10.
Acenaphthylene
208-96—8
Acenaphthylene
8100
200.
8270
10.
Acetone
67-64-1
2-Propanone
8240
100.
Acetophenone
98—86—2
Ethanone, 1—phenyl-
8270
10.
Acetonitrile;
Methyl cyanide
75—05—B
Acetonitrlle
8015
100.
2—Acetylaminofluor4ene;
2—AAF
53—96—3
Acetamide, N—9H—fluoren—2—yl—
8270
10.
Acrolein
107—02—8
2-Propenal
8030
5.
8240
5.
Acrylonitrile
107—13-1
2-Propenenitrile
8030
5.
8240
5.
Aidrin
309-00—2
1,4:5,8-Oimethanonaphthalene,
8080
0.05
1,2,3,4. 10,10—hexachioro—
8270
10.
1,4,4a,5,8,8a—hexahydro—
(lalpha,
4alpha, 4abeta, 5alpha,
8alpha,
8abeta)—
Allyl
chloride
107—05—1
1—Propene,
3—chloro—
8010
5.
8240
100.
4—Aminobiphenyl
92—67—1
C1,1’—Biphenyl)—4—amine
8270
10.
Aniline
62—53—3
Benzenamlne
8270
10.
Anthracene
120—12—7
Anthracene
8100
200.
8270
10.
Antimony
(Total)
Antimony
6010
300.
7040
2000.
7041
30.
Aramite
140—57—8
Sulfurous
acid,
2—chloroethyl
2—t4—
8270
10.
(1,1-dimethylethyl )phenoxy—1—
methylethyl ester
Arsenic
(Total)
Arsenic
6010
500.
7060
10.
7061
20.
Barium
(Total)
Barium
6010
20.
7080
1000.
Benzene
71—43—2
Benzene
8020
2.
8240
5.
Benzotaanthracene;
56—55—3
Benzlaanthracene
8100
200.
Benzanthracene
8270
10.
Benzotbfluoranthene
205—99—2
BenzEe)acephenanthrylene
8100
200.
8270
10.
Benzokfluoranthene
207-08—9
Benzok)fluoranthene
8100
200.
8270
10.
Benzoghi)perylene
191—24—2
Benzoghiperylene
8100
200.
8270
10.
92—42 1
-84-
Benzota)py rene
Benzyl alcohol
Beryll lum
gama-BKC;
Lindane
Bis (2—chloroethoxy)methane
Bis (2—ch loroethyl)ether
81$ (2—ch loro—1 —methylethyl)
ether; 2,2’—
Dichiorodlisopropyl ether
BIs(2—ethylhexyl) phthalate
Bromodichioromethane
Bromoforrn;
Tribromomethane
4—Bromophenyl
phenyl
ether
Butyl
benzyl
phthalate;
Benzyl
butyl
phthalate
Cadmium
50—32—8
Benzoapyrene
100-51—6
8enzenemethanol
(Total)
Beryllium
319—84—6
Cyclohexane, 1,2,3,4,5,6—hexachloro—,
(lalpha,
2alpha, 3beta, 4alpha,
5beta, 6beta)—
319—85—7
Cyclohexane, 1,2,3,4,5,6—hexachioro—,
(lalpha, 2beta. 3alpha, 4beta,
Salpha, 6beta)—
319—86-8
Cyclohexane,
I,2,3,4,5,6—hexachloro—,
(laipha,
Zalpha, 3alpha,
4beta,
Salpha, 6beta)—
58—89—9
Cyclohexane, 1,2,3,4,5,6—hexachloro—,
(laipha,
2alpha, 3beta, 4alpha,
Salpha, 6beta)—
111—91—1
Ethane, 1,1’—methylenebis
(oxyflbis2—ch
loro—
111—44—4
Ethane, 1,1’—oxybis2—chloro—
108—60—1
Propane, 2,2’-oxybisEl-chloro-
117—81—7
1,2—Benzenedicarboxylic acid,
bis(2—
ethylhexyl) ester
75-27—4
Methane, bromodichloro—
75—25-2
Methane,
tribromo—
101—55—3
Benzene, 1—bromo—4-phenoxy-
85—68—7
1,2—Benzenedicarboxylic acid,
butyl
phenylmethyl ester
Total
Cadmium
7091
2.
8080
0.05
8250
10.
8080
8250
8080
8250
8080
8250
0.05
40.
0.1
30.
0.05
10.
8270
10.
8270
10.
8010
100.
8270
10.
8060
8270
8010
8240
8010
8240
8270
8060
8270
6010
7130
7131
1.
Carbon disulfide
Carbon tetrachloride
Chlordane
p—Chloroanilme
Ch lorobenzene
Chlorobenzilate
75—15—0
Carbon disulfide
56—23—5
Methane, tetrachloro—
57—74-9
4,7—Methano—1H—indene,
1,2,4,5,6,7,8,8—octachloro—
2,3,3a,4,7 ,7a—hexahydro—
106-47—8
Benzeneamlne, 4-chloro-
108—90—7
Benzene, chloro—
510—15—6
Benzeneacetlc acid.
4—chioro—aipha—
(4—chiorophenyl )-alpha—hydroxy—,
ethyl
ester
8240
5.
8010
1.
8240
5.
8080
0.1
8250
10.
8270
20.
8010
2.
8020
2.
8240
5.
8270
10.
8100
200.
alpha—BHC
beta-BHC
del ta-BHC
8270
8270
6010
7090
10.
20.
3.
50.
20.
10.
1.
5.
2.
5.
10.
5.
10.
40.
50.
92—422
-85-
p—Chloro-rn—cresol
59—50—7
Phenol, 4—chloro—3-methyl-
8040
5.
8270
20.
Chloroethane;
Ethyl
chloride
75-00-3
Ethane,
chloro—
8010
5.
8240
10.
Chloroform
67—66—3
Methane, trichloro—
8010
0.5
8240
5.
2—Chloronapthalene
91—58—7
NaphthaIene, 2—chioro—
8120
10.
8270
10.
2-Chiorophenol
95—57—8
Phenol,
2—chioro—
8040
5.
8270
10.
4-Chiorophenyl phenyl
ether
7005—72—3
Benzene,
1-chIoro—4-phenoxy—
8270
10.
Chioroprene
126—99-8
1,3-Butadiene, 2—chloro—
8010
50.
8240
5.
Chromium
(Total)
Chromium
6010
70.
7190
500.
7191
10.
Chrysene
218—01—9
Chrysene
8100
200.
8270
10.
Cobalt
(Total)
Cobalt
6010
70.
7200
500.
7201
10.
Copper
(Total)
Copper
6010
60.
7210
200.
m—Cresol
108—39—4
Phenol, 3-methyl—
8270
10.
o-Cresol
95-48-7
Phenol, 2-methyl-
8270
10.
p—Cresol
106—44—5
Phenol, 4-methyl—
8270
10.
Cyanide
57-12-5
Cyanide
9010
40.
2,4—D;
2,4—
94—75—7
Acetic acid,
(2,4—dichiorophenoxy)—
8150
10.
Dichiorophenoxyacetic
acid
4,4’-DDD
72—54—8
Benzene, l,1’—(2,2—
8080
0.1
dichloroethylidene)—f—bisE4—chloro—
8270
10.
4,4*_DDE
72—55-9
Benzene, 1,1’—(dichloroethyuldene)—f-
8080
0.05
bis4-chloro—
8270
10.
4,4’-DDT
50-29—3
Benzene,
1,1’—(2,2,2—
8080
0.1
trich loroethy 1idene)—f—bisC4—ch loro—
8270
10.
Diallate
2303—16—4
Carbamothioic acid,
bis(1—
8270
10.
methylethyl)-, S—(2,3-dichloro—2—
propenyl)
ester
DlbenzCa,h)anthracene
53—70—3
Dibenzta,hanthracene
8100
200.
8270
10.
Dibenzofuran
132—64—9
Dibenzofuran
8270
10.
Dibromochloromethane;
124-48-1
Methane, dibromochloro—
8010
1.
Chlorodibromomethane
8240
5.
1,2—Dibromo—3—chloropropane;
96-12—8
Propane, 1,2—dibromo—3—chloro—
8010
100.
DBCP
8240
5.
8270
10.
1,2—Dibromoethane;
Ethylene
106-93-4
Ethane, 1,2—dibromo—
8010
10.
dibromide
8240
5.
92—423
-86-
Di—n—butyl phthalate
84—74—2
1,2—Beazenedicarboxylic
acid,
dibutyl
8060
5.
ester
8270
10.
o-Dichlorobenzene
95-50—1
Benzene, 1,2-dichloro-
8010
2.
8020
5.
8120
10.
8270
10.
m—Dichlorobenzene
541—73—1
Benzene, 1,3—dichloro—
8010
5.
8020
5.
8120
10.
8270
10.
p—Dichlorobenzene
106—46—7
Benzene, 1,4-dIchloro—
8010
2.
8020
5.
8120
15.
8270
10.
3,3’—Olchlorobenzidine
91—94—1
(1,1’—Biphenyl)—4,4’—diamlne,
3,3’—
8270
20.
dichioro—
trans—1,4—Dichloro-2—butene
110—57—6
2—Butene,
1,4—dlchloro—,
(E)—
8240
5.
Dichlorodifluoromethane
75—71—8
Methane, dichiorodifluoro—
8010
10.
8240
5.
1,1—Dichloroethane
75—34—3
Ethane, I,I—dichloro-
8010
1.
8240
5.
1,2—Dichioroethane;
Ethylene
107—06-2
Ethane, 1,2—dichloro—
8010
0.5
dichloride
8240
5.
1,1—Dichloroethylene;
75—35—4
Ethene. 1,1—dichloro—
8010
1.
Yinylldene chloride
8240
5.
trans-1,2—Dichloroethylene
156—60—5
Ethene, 1,2—dichloro—,
(E)—
8010
I.
8240
5.
2,4-Dichiorophenol
120—83—2
Phenol, 2,4-dlchloro—
8040
5.
8270
10.
2,6—Dichiorophenol
87—65—0
Phenol, 2,6—dlchloro—
8270
10.
1,2—Dichioropropane
78-87—5
Propane, 1,2—dlchloro—
8010
0.5
8240
5.
cls—1,3—Dichloropropene
10061—01—
1—Propene,
1,3—dlchloro—,
(Z)—
8010
20.
5
8240
5.
trans—l,3—Olchloropropene
10061—02—
1—Propene,
1,3—dlchloro-,
(E)—
8010
5.
6
8240
5.
Dieldrin
60—57—1
2,7:3,6—DimethanonaphthE2,3—
8080
0.05
boxirene,
3,4,5,6,9,9—hexachloro—
8270
10.
la,2,2a,3,6,6a,7,7a-octahydro—,
(laalpha, 2beta, 2aalpha, 3beta,
6beta, 5aalpha,
lbeta, laalpha)—
Diethyl phthalate
84—66—2
l,2—BenzenedicarboxyIic
acid,
diethyl
8060
5.
ester
8270
10.
0,0-Diethyl 0—2-pyrazinyl
297—97—2
Phosphorothioic acid,
0,0—diethyl
0—
8270
10.
phosphorothioate;
Thionazin
pyrazinyl
ester
Dimethoate
60—51—5
Phosphorodithioic acid,
0,0—dimethyl
8270
10.
5—C2-(methylamino)-2—oxoethyl
ester
92—424
-87-
p—(Dimethylamino)azobenzene
60—11—7
Benzenamlne, N,N—dimethyl-4—
8270
10.
(phenylazo)—
7,12-Dimethylbenz(a)anthracene
57—97—6
Benz(alanthracene, 7,12—dlmethyl—
8270
10.
3,3’—Dimethylbenzidine
119—93—7
(1,1’—Biphenyl)—4,4’—diamine, 3,3’—
8270
10.
dimethyl
—
alpha. alpha—
122—09—8
Benzeneethanamine,
alpha, alpha—
8270
10.
Dimethyiphenethylamine
dimethyl
-
2,4—Dimethylphenol
105-67-9
Phenol,
2,4-dimethyl-
8040
5.
8270
10.
Dimethyl phthalate
131—11—3
1,2—Benzenedicarboxyllc
acid,
8060
5.
dimethyl
ester
8270
10.
m-Dinitrobenzene
99-65—0
Benzene,
1,3-dlnitro—
8270
10.
4,6-Dinitro-o-cresol
534—52—1
Phenol. 2—methyl-4,6—dinitro—
8040
150.
8270
50.
2,4-Dinitrophenol
51—28—5
Phenol, 2,4—dinitro—
8040
150.
8270
50.
2,4-Dinitrotoluene
121—14—2
Benzene, 1—methyl-2,4—dinitro—
8090
0.2
8270
10.
2,6—Dinitrotoluene
606—20—2
Benzene, 2—methyl—1,3-dinitro—
8090
0.1
8270
10.
Dinoseb;
ONBP;
2-sec-Butyl—
88—85—7
Phenol, 2—(1-methylpropyl)—4.6—
8150
1.
4,6—dinitrophenol
dInitro—
8270
10.
Di—n—octyl phthalate
117—84—0
1,2-Benzenedlcarboxylic acid.
dioctyl
8060
30.
ester
8270
10.
1,4—Dioxane
123—91—1
1,4—Dioxane
8015
150.
Diphenylamine
122—39—4
Benzeneamine, N—phenyl—
8270
10.
Disulfoton
298—04—4
Phosphorodithioic acid, 0,0—diethyl
8140
2.
S—2-(ethylthio)—
&—E?-ethyl)
ester
8270
10.
Endosulfan
1
959—98—8
6,9—Methano-2,4,3-benzodioxathlepin,
8080
0.1
6,7,8,9, 10,10-hexachloro—
8250
10.
I,S,5a,6,9,9a-hexahydro—, 3—oxide,
(3alpha,
Sabeta,
6alpha, 9a)phd,
9abeta)—
Endosulfan
II
33213—65—
6,9-Methano—2,4,3—benzodioxathlepin,
8080
0.05
9
6,7,8,9,10,10—hexachloro-
1 ,5,5a,6,9.9a—hexahydro—, 3—oxide,
(3alpha,
Saalpha, 6beta,
9beta,
9aalpha)—
Endosulfan
sulfate
1031—07-8
6,9—Methano—2,4,3—benzodioxathlepin,
8080
0.5
6.7,8,9,10, 10—hexachloro—
8270
10.
1,5,5a,6,9,9a—hexahydro-,
3,3—dioxide
Endrin
72—20—8
2,7:3,6—Dimethanonaphtht2,3—
8080
0.1
bloxirene, 3,4,5,6,9,9—hexachloro—
8250
10.
1a,2,2a,3,6,6a,7 ,7a—octahydro-,
(laalpha,
2beta. 2abeta, 3alpha,
6alpha,
6abeta, 7beta, 7aalpha)—
92—425
-88-
Endrin aldehyde
7421—93—4
1,2,4—Methanocyclopentatcd)pentalene—
8080
0.2
5—carboxaldehyde, 2,2a,3,3,4,7—
8270
10.
hexachlorodecahydro—,
(Ialpha,
2beta,
2abeta. 4beta, 4abeta, Sbeta,
6abeta,
6bbeta, 7R)-
Ethylbenzene
100-41—4
Benzene,
ethyl—
8020
2.
8240
5.
Ethyl methacrylate
97—63—2
2—Propenolc acid,
2-methyl—,
ethyl
8015
10.
ester
8240
5.
8270
10.
Ethyl methanesulfonate
62—50—0
Methanesulfonic
acid,
ethyl
ester
8270
10.
Famphur
52—85—7
Phosphorothioic
acid,
0-4—
8270
10.
(dimethylamino)sulfonyl phenyl
-0,0-
dimethyl
ester
Fluoranthene
206—44—0
Fluoranthene
8100
200.
8270
10.
Fluorene
86—73—7
9H—Fluorene
8100
200.
8270
10.
Heptachior
76—44—8
4,7—Methano—IH—indene, 1,4,5,6,7,8,8-
8080
0.05
heptachloro-3a,4,7,7a-tetrahydro—
8270
10.
Heptachlor epoxide
1024—57—3
2,5—Methano—2H—indenotl.2—boxirene,
8080
1.
2,3,4,5,6,7,7-heptachloro-
8270
10.
la,lb,5,Sa,6,6a—hexahydro-, (laalpha,
lbbeta, Zalpha, Salpha, Sabeta,
6beta, 6aalpha)—
Hexachlorobenzene
118—74—1
Benzene, hexachloro-
8120
0.5
8270
10.
Hexachlorobutadiene
87—68—3
1,3—Butadiene, 1,1,2,3,4,4—
8120
5.
hexachloro—
8270
10.
Hexachlorocyclopentadiene
77—47—4
1,3—Cyclopentadiene, 1,2,3,4,5,5-
8120
5.
hexachloro—
8270
10.
Hexachloroethane
67—72—1
Ethane, hexachioro—
8120
0.5
8270
10.
Hexachlorophene
70—30—4
Phenol, 2,2’—methylenebisC3,4,6—
8270
10.
trich loro-
Hexachloropropene
1888—71—7
1—Propene, 1,l,2,3,3,3—hexachloro—
8270
10.
2—Hexanone
591—78—6
2—Hexanone
8240
50.
Indeno(1,2,3—cd)pyrene
193—39-5
Indeno+1,2,3-cd+pyrene
8100
200.
8270
10.
Isobutyl alcohol
78-83—1
1-Propanol, 2-methyl-
8015
50.
Isodrin
465—73—6
1,4,5,8—Dimethanonaphthaiene,
8270
10.
I,2,3,4,10,10-hexach loro—
1,4,4a,5,8,8a-hexahydro—(lalpha,
4alpha, 4abeta,
Sbeta, 8beta,
8abeta)—
Isophorone
78—59—1
2—Cyclohexen—1-one, 3,5,5—trimethyl—
8090
60.
8270
10.
Isosafrole
120—58—1
1,3-Benzodioxole, 5-(1—propenyl)—
8270
10.
92—426
-89-
Kepone
143—50—0
1,3,4—Metheno—2H—cyclobuta—
8270
10.
Ec,dpentalen—2—one,
1,la,3,3a,4,5,5, 5a
,
5b, 6—
decachlorooctahydro—
Lead
(Total)
Lead
6010
40.
7420
1000.
7421
10.
Mercury
(Total)
Mercury
7470
2.
Methacrylonitrile
126—96—7
2—Propenenitrile,
2—methyl—
8015
5.
8240
5.
Methapyrilerie
91—80—5
1,2—Ethanediamine, N,N—dimethyl—N’—2—
8270
10.
pyridinyl —N’—(2—thienylmethyl
)—
Methoxychlor
72—43—5
Benzene, 1,1’—(2,2,2—
8080
2.
trichloroethylidene)bls4—methoxy—
8270
10.
Methyl
bromide;
Bromornethane
74—83-9
Methane, bromo—
8010
20.
8240
10.
Methyl
chloride;
74—87—3
Methane, chloro—
8010
1.
Chloromethane
8240
10.
3—Methylcholanthrene
56—49—5
Benzjlaceanthrylene,
1,2—dihydro—3—
8270
10.
methyl—
Methylene bromide;
74—95—3
Methane, dibromo—
8010
15.
Dibromomethane
8240
5.
Methylene chloride;
75—09—2
Methane, dichioro—
8010
5.
Dichloromethane
8240
5.
Methyl
ethyl
ketone;
MEK
78—93—3
2—Butanone
8015
10.
8240
100.
Methyl
iodide;
lodomethane
74—88—4
Methane,
iodo—
8010
40.
8240
5.
Methyl methacrylate
80—62—6
2—Propenoic
acid,
2—methyl—, methyl
8015
2.
ester
8240
5.
Methyl methanesulfonate
66—27—3
Methanesulfonic
acid, methyl
ester
8270
10.
2—Methylnaphthalene
91—57—6
Naphthylene,
2—methyl—
8270
10.
Methyl
parathion;
Parathion
298—00—0
Phosphorothloic
acid, 0,0—dimethyl
0—
8140
0.5
methyl
(4—nitrophenyl)
ester
8270
10.
4—Methyl—2-pentanone;
Methyl
108—10—1
2—Pentanone,
4—methyl—
8015
5.
isobutyl
ketone
8240
50.
Naphthalene
91—20—3
Naphthalene
8100
200.
8270
10.
1,4—Naphthoquinone
130—15—4
1,4—Naphth lenedione
8270
10.
1—Naphthylamine
134—32—7
1—Naphthalenamlne
8270
10.
2—Naphthylamine
91—59—8
2—Naphthalenamine
8270
10.
Nickel
(Total)
Nickel
6010
50.
7520
400.
o—Nitroaniline
88—74—4
Benzenamine,
2—nitro—
8270
50.
m—Nitroaniline
99—09—2
Benzenamlne,
3—nitro—
8270
50.
p—Mitroaniline
100—01—6
Benzenamine,
4—nitro—
8270
50.
Nitrobenzene
98—95—3
Benzene,
nitro—
8090
40.
8270
10.
92—427
-90-
a—Mitrophenol
p—N Itraphenol
4-Nitroquinoline 1-oxide
N—Nltrosodi—n—butylamine
N—Nitros ad iethy lamine
N-Nltrosodimethylamlne
N—Nitrosodiphenylamlne
N—Nltrosodipropylarnine;
propylnitrosamine
N—N itrosomethy lethy larnine
N—Nitrosomorpholme
N—Nitrosopiperidene
N—Nitrosopyrrouidine
5—Nitro-o-toluidine
Parathion
Polychiorinated biphenyls;
PCBs
Polychlorinated dibenzo-p-
dioxins;
PCDDs
Polych lorinated
dibenzofurans;
PCDFs
Pentach lorobenzene
Pentachioroethane
Pentach loronitrobenzene
Pentachiorophenol
Phenacetin
Phenanthrene
Phenol
p—Phenylenediamine
Ph orate
2—Picol me
Pronamide
Quirioline, 4—nitro—,
1—oxide
1—Butanamine, N—butyl—N-nitroso—
Ethanamine, N—ethyl—N—nitroso—
Methanamine, N-methyl—N-nitroso—
Benzenamirie, N-nitroso-N-phenyl—
1—Propanamine, N—nitroso-N—propyl—
Morpholine, 4-nitroso—
Piperidene,
1—nitroso—
Pyrrolidine, 1—nitroso-
Benzenamine, 2—methyl—5—nitro—
Phosphorothioic acid,
0,0—diethyl—O—
(4—nitrophenyl)
ester
See
(g)
1,1’—Biphenyl,
chioro derivatives
See
(h)
Dibenzotb,e)1,4)dioxin,
chloro
derivatives
See
Ci’,
Bibenzofuran, chloro derivatives
608—93-5
Benzene, pentachloro—
76—01—7
Ethane,
pentachloro—
82-68-8
Benzene, pentachloronitro—
87-86-5
Phenol,
pentachioro—
62—44—2
Acetamlde, N—(4—ethoxyphenyl)
85—01—8
Phenanthrene
106—50—3
1,4—Benzenediamine
298-02-2
Phosphorodithioic acid, 0,0—diethyl
S—(ethylthio)methyll
ester
109—06—8
Pyridine, 2—methyl-
23950—58—
Benzamlde, 3,5—dichloro—N—(1,1—
5
dimethyl-2-propenyl)-
8040
5.
8270
10.
8040
10.
8270
50.
8270
tO.
8270
10.
8270
10.
8270
10.
8270
10.
8270
10.
8270
10.
8270
10.
8270
10.
8270
10.
8270
10.
8270
10.
8080
50.
8250
100.
8280
0.01
8015
60.
8240
5.
8100
200.
8270
10.
88-75-5
Phenol, 2-nitro-
100-02-7
Phenol, 4-nitro—
56—57—5
924-16—3
55—18—5
62-75-9
86-30-6
01—n—
521-64—7
10595-95—
Ethanamine, N-methyl—N—nitroso-
6
59-89-2
100—75—4
930—55—2
99-55-8
56—38-2
8280
0.01
108—95—2
Phenol
8270
8240
8270
8270
8040
8270
8270
8100
8270
8040
8270
8270
8140
8270
8240
8270
8270
10.
5.
10.
10.
5.
50.
10.
200.
10.
10.
10.
2.
10.
5.
10.
10.
Propionitrile;
Ethyl
cyanide
107—12—0
Propanenitrlle
Pyrene
129-00—0
Pyrene
92—428
-91—
Pyridine
Saf role
Selenium
Silver
Silvex;
2,4,5-TP
styrene
Sul fide
2,4,5—1;
2,4,5—
Trichiarophenoxyacetic acid
2,3,7,8—TCDD;
2,3,7,8—
Tetrachloradibenzo—p—dioxin
1,2,4, 5—Tetrachlorobenz ene
1,1,1 ,2—Tetrachloroethane
1,1,2,2, —Tetrachloroethane
letrach 1oroethy lene;
Perchloroethylene;
Tetrach loroethene
2,3,4,6—Tetrachlorophenol
letraethyl
dIthiopyrophosphate;
Sulfotepp
Thallium
Tin
Toluene
o-Toluidine
Toxaphene
110—86—1
Pyridine
94—59—7
1,3—Benzodloxole, 5—(2-propenyI)—
(Total)
Selenium
(Total)
Silver
93—72—1
Propanoic acid,
2—(2,4,5-
trichiorophenoxy)—
100—42—5
Benzene, ethenyl—
18496—25—
Sulfide
93-76—5
Acetic
acid,
(2,4,5-
trichlorophenoxy)
-
1746—01—8
DibenzoCb,el,4)dioxin,
2,3,7,8—
tetrach 1oro—
95—94-3
Benzene, I,2,4,5—tetrachloro—
630—20—6
Ethane, 1,1,I,2-tetrachloro—
79—34—5
Ethane,
l,1,2,2—tetrachloro—
127—18—4
Ethene,
tetrachloro—
58—90—2
Phenol, 2,3,4,6—tetrachioro—
3689—24—5
Thiodiphosphoric
acid
(E(H0)2P(5fl20), tetraethyl
ester
(Total)
Thallium
Tin
Benzene, methyl—
95-53—4
Benzenamlne, 2—methyl—
8001-35—2
Toxaphene
Benzene, 1,2,4-trichloro—
Ethane, 1,I,1—trichloro—
8240
5.
8270
10.
8270
10.
6010
750.
7740
20.
7741
20.
6010
70.
7760
100.
8150
2.
8020
1.
8240
5.
9030
10000.
8150
2.
8280
0.005
8270
10.
8010
5.
8240
5.
8010
0.5
8240
5.
8010
0.5
8240
5.
8270
10.
8270
10.
6010
400.
7840
1000.
8
(Total)
108-88-3
1,2,4—Trlchlorobenzene
120—82—1
1,1,1—Trichioroethane;
Methyl
71—55—6
chloroform
7841
7870
8020
8240
8270
8080
8250
8270
8240
10.
8000.
2.
5.
10.
2.
10.
10.
5.
92—429
-92-
l,I,2—Trlchloroethane
79—00—S
Ethane, 1,I,2-trichloro—
8010
0.2
8240
5.
Trlchloroethylene;
79—01-6
Ethene,
trlchioro—
8010
1.
Trichloroethene
8240
5.
Trichlorofluoromethane
75—69—4
Methane, trichlorofluoro—
8010
10.
8240
5.
2,4,5—Trichlorophenol
95—95-4
Phenol, 2,4,5—trichloro—
8270
10.
2,4,6—Trichiorophenol
88-06-2
Phenol, 2,4,6—trichloro-
8040
5.
8270
10.
I,2,3-Trichloropropane
96—18—4
Propane, 1,2,3-trichloro—
8010
10.
8240
5.
0,0,0-Triethyl
126—68—1
Phosphorothioic acid,
0,0,0—triethyl
8270
10.
phosphorothioate
ester
sym-Trinitrobenzene
99—35—4
Benzene,
1,3,5-trinitro—
8270
10.
Vanadium
(Total)
Vanadium
6010
80.
7910
2000.
7911
40.
Vinyl acetate
108—05—4
Acetic acid,
ethenyl ester
8240
5.
Vinyl
chloride
75—01—4
Ethene, chloro—
8010
2.
8240
10.
Xylene (total)
1330-20—7
Benzene, dimethyl-
8020
5.
8240
5.
Zinc
(Total)
Zinc
6010
20.
7950
50.
(Source:
Added at
12 Ill. Reg.
,
effective
)
92—430
-93-
TITLE
35:
ENVIRONMENTAL PROTECTION
SUBTITLE
G:
WASTE
DISPOSAL
CHAPTER
1:
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
Iminent Hazard Action
SUBPART B:
GENERAL FACILITY STANDARDS
Section
725.110
Applicability
725.111
USEPA Identification Number
725.112
Required Notices
725.113
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
725.118
Location Standards
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 Comunications
or Alarm System
725.135
Required Aisle Space
725.137
Arrangements with
Local
Authorities
SUBPART
D:
CONTINGENCY
PLAN AND EMERGENCY PROCEDURES
Secti on
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, RECORDKEEPING 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
92—43 1
-94-
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
725.241
Definitions of Terms
as Used
in this Subpart
725.242
Cost Estimate for Closure
725.243
Financial Assurance for Closure
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 Containers
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
Secti on
725.290
Applicability
92—432
-95-
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 Tests
725.301
Generators of 100 to
1000 kg/mo.
SUBPART
K:
SURFACE IMPOUNDMENTS
Secti on
725.320
Applicability
725.321
Design Requirements
725.322
General Operating Requirements
725.323
Containment System
725.325
Waste Analysis
and Trial Tests
725.326
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
725.351
Protection
from. Wind
725.352
Waste Analysis
725.353
Containment
725.354
Design Requirements
725.356
Special Requirements for Ignitable or Reactive Waste
725.357
Special Requirements for Incompatible Wastes
725.358
Closure
and Post-Closure Care
SUBPART
M:
LAND TREATMENT
Secti on
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
Secti on
725.400
Applicability
725.401
Design Requirements
725.402
General Operating Requirements
725.409
Surveying
and Recordkeeping
725.410
Closure
and Post—Closure
9 2—433
-96-
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
Secti on
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
Secti on
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
Appendix A
Recordkeeping Instructions
Appendix B
EPA Report Form and Instructions
(Repealed)
Appendix C
EPA Interim Primary Drinking Water Standards
Appendix
0
Tests
for Significance
Appendix
E
Examples of Potentially Incompatible Waste
AUTHORITY:
Implementing Section
22.4 and authorized by Section
27 of the
Environmental Protection Act
(Ill.
Rev.
Stat.
1987, ch.
111-1/2,
pars.
1022.4
and
1027).
SOURCE:
Adopted
in R81—22,
43 PCB 427,
at
5
Ill. 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
Ill. Adm. Code
700.106;
92—434
—97-
amended
in R82—18,
51
PCB 831,
at
7
111. Reg.
2518, effective February 22,
1983;
amended
in R82-19,
53 PCB 131,
at
7
Ill.
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
111.
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.
13489,
effective August
4, 1987;
amended
in R87—5
at
11
Ill.
Reg. 19338,
effective November
10,
1987;
amended
in R87-26 at
12
Ill.
Reg.
2485,
effective January
15,
1988;
amended
in R87-39
at
12
Ill. Reg.
13027,
effective July 29, 1988;
amended
in R88-16
at
12 Ill. Reg.
effective
SUBPART A:
GENERAL PROVISIONS
Section 725.101
Purpose, Scope
and Applicability
a)
The purpose
of this Part
is
to establish minimum standards which
define the acceptable management of
hazardous waste during the period
of
interim status and until
certification of
final
closure
or,
if the
facility
is
subject
to post-closure requirements,
until
post—closure
responsibilities
are fulfilled.
b)
The standards
in this Part apply
to owners and operators of
facilities which treat,
store
or dispose of hazardous waste who have
fully
complied with the requirements
for interim status under Section
3005(e)
of the Resource Conservation and Recovery Act
(RCRA)
(42
U.S.C.
6901
et seq.)
and
35
111. Adm. Code 703,
until
either
a permit
is issued
under Section. 3005 of the Resource Conservation and
Recovery Act or Section 21(f)
of the Environmental Protection Act, or
until
applicable closure and post—closure responsibilities
under this
Part
are fulfilled,
and to those owners
and operators of facilities
in existence on November 19,
1980, who have failed
to
provide timely
notification
as
required by Section 3010(a) of RCRA,
or
failed to
file Part A
of the Permit Application as
required by 40 CFR 270.10(e)
and
(g) or
35
Ill.
Adm. Code 703.150 and 703.152.
These
standards
apply to
all treatment,
storage or disposal
of hazardous waste
at
these facilities
after November
19, 1980, except
as
s’pecifically
provided otherwise
in
this Part or
35
Ill. Adm. Code 721;
(BOARD NOTE:
As
stated
in Section 3005(a)
of RCRA,
after the
effective date of regulations under that Section,
i.e.,
40 CFR
270
and
124,
the treatment,
storage or disposal
of hazardous waste
is
prohibited
except
in accordance with
a permit.
Section
3005(e)
of
RCRA provides
for the continued operation of
an existing facility
which meets certain conditions until
final
administrative disposition
of the owner’s and operator’s
permit application
is made.
35
Ill.
Adm. Code 703.140
et
seq. provide that
a permit
is deemed issued
under Section 21(f)(1) of the Environmental
Protection Act under
conditions similar
to
federal
interim status.)
c)
The requirements
of this Part do
not
apply
to:
1)
A person disposing of
hazardous waste by means of ocean
disposal
subject
to
a
permit
issued under
the Narine Protection, Research
92—43 5
-98-
and Sanctuaries Act
(16 U.S.C.
1431—1434;
33 U.S.C.
1401);
(BOARD NOTE:
This Part applies
to the treatment or storage of
hazardous waste before
it
is loaded
into an ocean vessel
for
incineration
or disposal
at sea,
as provided
in subsection
(b).)
3)
The owner or operator of
a POTW (publicly owned treatment works)
which treats,
stores
or disposes of hazardous waste;
(BOARD
NOTE:
The owner
or operator of
a
facility under
subsections
(c)(1) through
(c)(3)
is subject
to
the requirements
of 35
Ill.
Adm. Code 724
to the extent they are included
in
a
permit
by rule granted
to
such
a person under
35
Ill.
Adm. Code
702 and
703 or are
required by 35
Ill. Adm. Code 704.Subpart
F.)
5)
The owner
or operator of a facility permitted, licensed
or
registered
by Illinois to manage municipal
or industrial
solid
waste,
if the only hazardous waste the facility treats,
stores
or disposes of
is excluded from regulation under this Part by 35
Ill. Adm. Code 721.105;
6)
The owner
or operator of
a facility managing recyclable
materials described
in
35
Ill. Adm. Code 721.1O6(a)(2) and
(3)
(except
to the extent
that requirements of this Part are
referred to
in
35
Ill. Adm. Code 726.Subparts
C,
D,
F
or
G;
7)
A generator accumulating waste on—site
in compliance with
35
Ill.
Adm. Code 722.134, except
to the
extent the requirements
are included
in
35
Ill.
Adm. Code 722.134;
8)
A farmer disposing of waste pesticides from —h4~s-thefarmer’s
own use
in compliance with 35 Ill. Adm. Code 722.—I
—170;
9)
The owner
or operator of
a totally enclosed treatment facility,
as defined
in
35
Ill. Adm. Code 720.110;
10)
The owner
or operator of an elementary neutralization unit or
a
wastewater treatment unit as defined
in
35
111. Adm. Code
720.110;
11)
Immediate response:
A)
Except
as provided
in
subsection
(c)(11)(B),
a person
engaged
in treatment or containment
activities during
imediate response to any of the following situations:
i)
A discharge of
a
hazardous waste;
ii)
An in~inentand substantial
threat
of
a discharge of
a
hazardous waste;
iii) A discharge of
a material which, when discharged,
becomes
a
hazardous waste.
92—436
-99-
B)
An owner
or operator of
a facility otherwise regulated by
this Part must comply with
all
applicable requirements of
Subparts
C
and
D.
C)
Any person who
is covered
by subsection
(c)(11)(A)
and who
continues or initiates hazardous waste treatment
or
containment
activities
after the immediate response is over
is subject
to
all applicable requirements
of this Part and
35
Ill. Adm. Code 702,
703 and
705 for those
activities.
12)
A transporter storing manifested shipments of hazardous waste
in
containers meeting the requirements
of
35
Ill. Adm. Code 722.130
at
a
transfer facility for
a period
of ten days or
less.
13)
The addition of
absorbent material
to waste
in
a container
(as
defined
in
35
Ill.
Adm. Code 720.110),
or the addition of waste
to the absorbent material
in
a container, provided that these
actions occur
at
the time waste
is
first placed
in the
containers;
and Sections 725.117(b),
725.271
and
725.272 are
complied with.
d)
The following hazardous wastes must
not be managed
at
facilities
subject
to
regulation under this Part:
hazardous waste numbers
FO2O,
FO21,
F022,
FO23, FO26 or FO27 unless:
1)
The wastewater treatment sludge
is
generated
in
a surface
impoundment
as
part of the plant’s wastewater treatment system;
2)
The waste
is stored
in
tanks
or containers;
3)
The waste
is stored
or treated
in waste piles that meet the
requirements
of
35
Ill.
Adrn. Code 724.350(c)
as well
as all
other applicable requirements
of
Subpart
L;
4)
The waste
is burned
in
incinerators that
are certified pursuant
to the standards and procedures
in Section
725.452; or
5)
The waste
is burned
in
facilities that thermally treat
the waste
in
a device other than an incinerator and
that are certified
pursuant to the standards and procedures
in Section 725.483.
e)
This Part applies
to owners
and operators of facilities which treat,
store
or dispose of hazardous wastes
referred
to
in
35
Ill.
Adm. Code
728.
f)
35
Ill. Adm. Code 700 contains rules concerning application of other
Board
regulations.
(Source:
Amended
at
12
Ill. Reg.
,
effective
92—437
