ILLINOIS POLLUTION CONTROL BOARD
October 23,
1986
IN THE MATTER OF:
)
)
RCRA UPDATE,
USEPA REGULATIONS
)
R86—19
(2/1/86 THROUGH 3/31/86)
)
FINAL ORDER.
ADOPTED RULE.
ORDER OF THE BOARD
(by
3.
Anderson):
On July 11,
1986, the Board proposed to amend the RCRA rules
to correspond with United States Environmental protection Agency
amendments adopted between January
31 and March 31,
1986.
The
proposal was published on August 15, 1986,
at 10 Ill.
Reg.
13998.
The Board received public comment as
is detailed
in the
accompanying Opinion.
The text of the amendments as modified
appears below.
The Board directs that the amendments be filed
and published
in the Illinois Register no sooner than November
19,
1986.
The Board will withhold filing until
after that date
to receive any final motions from the agencies involved with RCRA
authorization.
The complete text of the adopted amendments
is as follows.
Striking and underlining
refer
to the text of the rules as
amended
in docket R86—1.
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
73.475
SUBPART C:
AUTHORIZATION BY RULE AND INTERIM STATUS
Section
703.140
703.141
703.150
703.151
703.152
703.153
703.154
703.155
703.156
703.157
703.158
Section
703.180
703.181
703.182
703. 183
703.184
703.185
703.186
703. 200
703. 201
703.202
703.203
703.204
703.205
703. 206
703.207
Section
703.221
703.222
703.223
703. 224
703.225
703. 230
703.231
Section
703.241
Purpose and Scope
Permits by Rule
Application by Existing HWM Facilities and Interim
Status Qualifications
Application by New HWM Facilities
Amended Part A Application
Qualifying for Interim Status
Prohibitions During Interim Status
Changes During Interim Status
Interim Status Standards
Grounds for Termination of Interim Status
Permits
for Less Than an Entire Facility
SUBPART D:
APPLICATIONS
Applications
in General
Contents of Part A
Contents of Part B
General Information
Facility Location Information
Ground—water Protection Information
Exposure Information
Specific Information
Containers
Tanks
Surface Impoundments
Waste Piles
Incinerators
Land Treatment
Landfills
SUBPART
E:
SHORT TERM AND PHASED PERMITS
Emergency Permits
Incinerator Conditions Prior
to Trial Burn
Incinerator Conditions During Trial Burn
Incinerator Conditions After
Trial Burn
Trial Burns for Existing Incinerators
Land Treatment Demonstration
Research, Development and Demonstration Permits
SUBPART F:
PERMIT CONDITIONS
Establishing Permit Conditions
703.125
703.126
703 .127
Reappiications
Initial Applications
Federal Permits (Repealed)
73.476
—3—
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.
1985,
ch.
111 1/2,
pars.
1022.4 and 1027).
SOURCE:
Adopted
in R82—l9,
53 PCB 131,
at
7
Ill. Reg.
14289,
effective October
12,
1983; amended
in R83—24 at 8
Ill.
Reg.
206,
effective December
27,
1983;
amended
in R84—9
at 9 Ill. Reg.
11899, effective July 24,
1985;
amended
in R85—23 at 10 Ill.
Reg.
13284, effective July 29,
1986;
amended
in R86—1 at 10
Ill.
Reg.
14093, effective August 12,
1986; amended
in R86—l9 at 10
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 90 dfiyS7 es the time periods provided
in 35
Ill. Adm. Code 722.134;
b)
Farmers who dispose of hazardous waste pesticides from
their own use as provided
in 35
Ill. Adm. Code 722.151;
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
Iii.
Adm. Code 721.104
or 721.105
(small generator
exemption);
d)
Owners or operators of totally enclosed treatment
facilities as defined in 35
Ill. 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
Ill.
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
73-477
—4--
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))
(Source:
Amended at 10 Ill Reg.
effective
SUBPART
C:
AUTHORIZATION BY RULE AND INTERIM STATUS
Section 703.150
Application by Existing HWM Facilities and
Interim Status Qualifications
a)
The owner or operator of an existing HWM facility or of
an HWM facility in existence on the effective date of
statutory or regulatory amendments that render the
facility subject to the requirement to have
a
RCRA
permit must submit Part A of the permit application to
the Agency no later than the following times, whichever
comes
first:
1)
Six months after the date of publication of
regulations which
first require the owner or
operator
to comply with standards in 35
Ill.
Adm.
Code 725;
or
2)
Thirty days after the date the owner or oper~tor
first becomes subject to the standards in 35
ill.
Adm. Code 725;
3)
For generators which generate greater than 100
kilograms but less than 1000 kilograms of hazardous
waste
in a calendar month and treat, store or
dispose
of these wastes on—site, by March 24,
1987.
b)
The owner or operator of an existing HWM facility may be
required to submit Part
B of the permit application at
any time after
the effective date of standards in 35
Ill. Adm. Code 724 applicable to any TSD unit at the
facility.
The Agency will notify the owner
or operator
that a Part B application is required, and set
a date
for receipt of the application, not less than six months
after the date the notice
is sent.
The owner or
operator may voluntarily submit a Part B application for
all
or part of the HWM facility at any time.
c)
The
time for filing Part A of the permit application may
be extended only by a Board Order entered pursuant to
a
variance petition.
The Board will consider whether
there has been substantial confusion
as
to whether the
owner
or operator
of such facilities were required
to
file
a Part A application and whether such confusion was
73-478
—5--
attributable
to ambiguities in 35 Ill. Adm. Code 720,
721
or
725.
d)
Notwithstanding
the above, any owner
or operator of an
existing HWM facility must submit
a Part B permit
application
in accordance with the dates specified in
Section 703.157.
Any owner or operator of a land
disposal facility in existence on the effective date of
statutory or regulatory amendments which render the
facility subject to the requirement
to have a RCRA
permit must submit a Part B application in accordance
with the dates specified
in Section 703.157..
e)
Interim status may be terminated as provided in Section
703.157.
(Board Note:
See 40 CFR 270.10(e).)
(Source:
Amended at 10 Ill.
Reg.
effective
)
73-479
—6—
TITLE 35:
ENVIRONMENTAL PROTECTION
SUBTITLE
G:
I4ASTE 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 Activities
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.
1985,
ch.
111 1/2, pars.
1022.4 and 1027).
•1
SOURCE:
Adopted
in R8l—22,
43 PCB 427,
at
5
Ill. Reg.
9781,
effective as noted
in 35 Ill. Adm. Code 700.106;
amended and
codified
in R8l—22,
45 PCB 317,
at
6 Ill. Reg. 4828, effective as
noted
in 35 Ill. Adm. Code 700.106; amended
in R82—19 at
7
Ill.
Reg.
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. Reg.
968, effective January
2, 1986;
amended
in R86—l
at 10 Ill.
Reg.
13998, effective August 12, 1986;
amended
in R86—
19 at 10
Ill.
Reg.
,
effective
73.480
—7.-
SUBPART B:
DEFINITIONS
Section 720.110
Definitions
When used in 35
Ill. Adm. Code 720 through 725 only,
the
following terms have the meanings given below:
“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. Section 6901 et seq.)
“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.
“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 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
73-481
—8--
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 facility closure plan and all applicable
closure requirements.
(See also “active portion” and
“inactive portion”.)
“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.
“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,
73.482
—9—
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
Ill. 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 Ill. Adm.
Code 721.122
or are listed
in 35
Ill. Adm. Code 72l.Subpart D
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
-
“EPA hazardous waste number” means the number assigned
by EPA to each hazardous waste listed
in 35
Ill. Adm.
Code 72l.Subpart
D and to each characteristic identified
in 35
Ill.
Adrn.
Code 72l.Subpart
C.
“EPA identification number” means the number assigned by
USEPA pursuant to 35
Ill.
Adin. Code 722 through 725
to
each generator,
transporter and treatment,
storage or
disposal facility.
73.483
—10—
“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 Islands
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
73.484
—11—
facility to be 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.
“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).
“Federal agency” means any department, agency or other
instrumentality 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 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.
Adxn.
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 72l.Subpart
D,
or
a constituent listed in of
35
Ill. Adm. Code 721.124.
73-485
—12—
“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
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:
Cement kilns
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
73-486
—13—
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.
“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.
“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
73.487
—14--
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 hazardous waste.
“Liner” means 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.
“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
requiret~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”.)
“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
73-488
—15—
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;
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 discrete part
of a facility in accordance with the applicable closure
requirements of
35 Ill. Adm. Code 724
or 725.
For
example, partial closure may include the closure of
a
trench,
a unit operation,
a landfill cell
or
a pit,
while other parts of the same facility continue
in
operation or will be placed
in operation in the future.
“Person” means 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
73.489
—16—
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
“POTW” 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., 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 li.~iid
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.
AdTn.
Code 721.102.
“State” means any of the several states,
the District of
73.490
—17—
Columbia,
the
Commonwealth
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
temporary 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.
“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.
73-491
—18—
“Transporter”
means
a
person engaged
in the off—site
transportation of hazardous waste by air, rail,
highway
or water.
“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 immobilized.
“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”.)
“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 zone
between the land surface and the water
table.
“United States” means the 50 States,
the District of
Columbia, the Commonwealth 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 Ill. Mm. Code 721.103 or
generates and accumulates
a wastewater
treatment
sludge which
is
a hazardous waste
as defined in 35
Ill. Adm. Code 721.103
or treats or stores
a
wastewater
treatment
sludge
which
is
a
hazardous
73-492
—19—
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”).
(Source:
Amended
at
10
Ill
Reg.
effective
73.493
—20—
TITLE 35:
ENVIRONMENTAL PROTECTION
SUBTITLE G:
WASTE DISPOSAL
CHAPTER
I:
POLLUTION CONTROL BOARD
SUBCHAPTER c:
HAZARDOUS WASTE OPERATING
REQUIREMENTS
PART 721
IDENTIFICATION AND LISTING OF HAZARDOUS WASTE
SUBPART A:
GENERAL PROVISIONS
Section
721 .101
721.102
721
.
103
721.104
721
.
105
721
.
106
721.107
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
Section
721.110
721.111
Criteria for Identifying the Characteristics of
Hazardous Waste
Criteria for Listing Hazardous Waste
SUBPART C:
CHARACTERISTICS OF HAZARDOUS WASTE
Section
721.120
721
.
121
721.122
721
.
123
721.124
Section
Appendix A
Appendix
B
Appendix
C
Table A
General
Characteristics of Ignitability
Characteristics of Corrosivity
Characteristics of Reactivity
Characteristics of EP Toxicity
SUBPART
D:
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)
721.130
721
.
131
721.132
721.133
73.494
—21--
Table B
Analytical Characteristics of Inorganic Species
(Repealed)
Table C
Sample Preparation/Sample Introduction Techniques
(Repealed)
Appendix
G
Basis
for Listing Hazardous Wastes
Appendix
H
Hazardous
Constituents
Appendix
I
Wastes Excluded under Section
720.120
and
720.122
Table
A
Wastes
Excluded
from
Non—Specific
Sources
Table
B
Wastes
Excluded
from
Specific
Sources
Table
C
Wastes
Excluded
from
Commercial
Chemical
Products,
Off—Specification Species, Container Residues, and
Soil Residues Thereof
Appendix 3
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.
1985,
ch.
111
1/2, pars.
1022.4 and 1027).
SOURCE:
Adopted
in
R8l—22,
43 PCB 427,
at
5 Ill. Reg.
9781,
effective as noted in 35
Ill. Adm. Code 700.106;
amended and
codified
in R8l--22,
45 PCB 317,
at
6 Ill. Reg.
4828, effective as
noted
in 35 Ill. Adm. Code 700.106; amended
in R82—18,
51 PCB 31,
at
7 Ill. Reg.
2518, effective February 22,
1983;
amended in R82—
19,
53 PCB 131, at
7 Ill.
Reg. 13999, effective October 12, 1983;
amended
in R84—34,
61 PCB 247, at
8
Ill.
Reg.
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. Reg.
998,
effective January
2,
1986;
amended in R85—2
at 10 Ill. Reg.
8112,
effective May
2,
1986;
amended in R86—l
at 10
Ill.
Reg.
14002,
effective August 12,
1986; amended
in R86—19 at 10 Ill.
Reg.
,
effective
SUBPART A:
GENERAL PROVISIONS
Section 721.101
Purpose and Scope
a)
This Part identifies those solid wastes which are
subject to regulation as hazardous wastes under
35 Ill.
Adm. Code 702,
703,
705 and 722 through 725 and which
are subject to the notification requirements of Section
3010 of the Resource Conservation and Recovery Act (42
U.S.C.
6901 et seq.).
In this Part:
1)
Subpart A defines the terms “solid waste” and
“hazardous waste,”
identifies
those wastes which
are excluded from regulation under
35
Ill. Adm.
Code 702, 703,
705 and 722 through ~5
726 and
establishes special management requirements for
hazardous waste produced by conditionally exempt
small quantity generators and hazardous waste which
is ~se~-1~eused7 recycled er reels4med.
73.495
—22--
2)
Subpart B sets forth the criteria used
to identify
characteristics of hazardous waste and to list
particular hazardous wastes.
3)
Subpart C identifies characteristics of hazardous
wastes.
4)
Subpart D lists particular
hazardous wastes.
b)
1)
The definition of solid waste contained in this
Part applies only to wastes that also are hazardous
for purposes of the regulations implementing
Subtitle
C of the Resource Conservation and
Recovery Act.
For example, it does not apply to
materials
(such as non—hazardous scrap, paper,
textiles,
or
rubber) that are not otherwise
hazardous wastes and that are recycled.
2)
This Part identifies only some of the materials
which are solid wastes and hazardous wastes under
Sections 1004(5),
1004(27)
and 7003 of RCRA.
A
material which
is not defined as a solid waste
in
this Part, or
is not a hazardous waste
identified
or listed
in this Part is still
a hazardous waste
for purposes of those Sections if,
in the case of
Section 7003
of
RCRA,
the statutory elements are
established.
c)
For
the purposes of Sections 721.102 and 721.106:
1)
A “spent material”
is any material that has been
used and as
a result of contamination can no longer
serve the purpose for which it was produced without
processing;
2)
“Sludge” has the same meaning used in 35 Ill. Adm.
Code 720.110;
3)
A “by—product”
is a material that is not one of the
primary products of a production process and
is not
solely or separately produced by the production
process.
Examples are process residues such as
slags or distillation column bottoms.
The term
does not include
a co—product that is produced for
the general public’s use and
is ordinarily used
in
the form it is produced by the process.
4)
A material
is “reclaimed”
if
it
is processed to
recover
a usable product,
or if it is
regenerated.
Examples are recovery of lead values
from spent batteries and regeneration of spent
solvents.
5)
A material
is “used or reused”
if
it
is either:
73-496
—23—
A)
Employed as an ingredient
(including use as an
intermediate)
in an industrial process to make
a product (for example, distillation bottoms
from one process used as feedstock in another
process).
However,
a material will not
satisfy this condition if distinct components
of the material are recovered as separate end
products (as when metals are recovered from
metal—containing
secondary materials);
or
B)
Employed
in a particular function or
application as an effective substitute for a
commercial product (for example, spent pickle
liquor used as phosphorus precipitant and
sludge conditioner
in wastewater treatment)
6)
“Scrap metal”
is bits and pieces of metal parts
(e.g., bars,
turnings,
rods, sheets,
wire) or metal
pieces that may be combined together with bolts or
soldering (e.g., radiators,
scrap automobiles,
railroad box cars) which when worn or superfluous
can be recycled.
7)
A material
is “recycled”
if
it is used, reused
or
reclaimed.
8)
A material
is “accumulated speculatively”
if it
is
accumulated before being recycled.
A material is
not accumulated speculatively, however,
if the
person accumulating it can show that the material
is potentially recyclable and has
a feasible means
of being recycled; and that
——
during the calendar
year (commencing on January 1)
——
the amount of
material that is recycled, or transferred
to a
different site for recycling, equals at least 75
percent by weight or volume of the amount of that
material accumulated at the beginning of the
period.
In calculating the percentage of turnover,
the 75 percent requirement is
to be applied
to each
material
of the same type (e.g.,
slags from a
single smelting process)
that
is recycled in the
same way (i.e.,
from which the same material
is
recovered or that is used
in the same way).
Materials accumulating
in units that would be
exempt from regulation under
Section 721.104(c)
are
not to be included
in making the calculation.
(Materials that are already defined as solid wastes
also are not to be included
in making the
calculation).
Materials are no longer
in this
category once they are removed from accumulation
for recycling,
however.
d)
The Agency has inspection authority pursuant to Section
3007 of the Resource Conservation and Recovery Act and
73-497
—24—
Section
4 of the Environmental Protection Act.
(Source:
Amended at 10 Ill Reg.
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 calendar month if it generates ~ee~ then
~00Gno 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. Mm.
Code
809.
b)
Except for those wastes
identified
in subsections
(e),
(f),(g)-r ~?h-~end +4t+ 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 the notification
requirements of Section 3010 of the Resource
Conservation and Recovery Act, provided the generator
complies with the requirements of subsections
(f),
(g)7
+h+ end
-~+
and
(j).
c)
Hazardous waste that is reeyeled end +.het 9s ee~Iuded
frem
~egti1e+Aen
~y
Seet4en
&*e~-)+e+
end
-(-E+7+’~3-~
e~r0~
~±.-
Adm-
eede ~6-~436not 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 Seet4ert7Part and
35
Ill. Adm. Code 722 through 726 and is not subject to
any requirements of th4s Seet4enthose Parts.
Hazardous
waste that is subject to the requirements of Section
721.106(b)
and
(c)
and 35 Ill.
Adm. Code 726.Subparts
C,
D7 and
F
is included
in the quantity determinations of
this SeetienPart
and
is subject to the requirements of
th4e See+.iertthis Part and 35
Ill. Adm. Code 722 through
726.
d)
In determining the quantity of hazardous waste
it
generates,
a generator need not include:
1)
~ts hHazardous 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
73.498
—25—
materials have been counted once.
e)
If
a see~quantity generator generates acute-ly
hazardous
waste
in
a
calendar
month
in
quantities
greater
than
set
forth
below,
all
quantities of
that
acute-3y
hazardous
waste
are
subject
to
full
regulation
under
35
Ill. Adm. Code 702,
7,03,
705
and
722
through
~5726,
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, 721.1327 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).
f)
In order for acute hazardous wastes generated by a sme~
quantity generator of acutey hazardous wastes in
quantities equal
to or less than those set forth
in
subsection (e)(l)
or (e)(2)
to be excluded from full
regulation under this Section, the generator’ must comply
with the following requirements:
1)
35
Ill. Adm. Code 722.111.
2)
The sme~1quantity generator may accumulate acutey
hazardous waste on—site.
If it accumulates at any
time acutey hazardous wastes in quantities greater
than set forth in subsections (e)(l)
or (e)(2),
all
of those
accumulated wastes fer wh4eh the
eeeun~u4et4en 4m4t
was
e~c’eeededare
subject
to
regulation under 35 Ill.
Adm. Code 702,
703.,
705
arid 722 through ~5726,
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 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
is:
A)
Permitted under 35 Ill. Adm. Code 703;
B)
In interim status under
35 Ill. Mm. Code 703
and 725;
73.499
—26—
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. Adm. 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 th4ethe generator’s hazardous waste,
all of those accumulated wastes fe~whieh the
eeetimulet4en
4m4t was e~eeededare subject to
regulation 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 ~02 th-reu’gh ~~723
through
726, 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
is:
A)
Permitted under 35 Ill.
Adm. Code 702 and 703;
B)
In interim status under 35
Ill.
Adin.
Code 703
73-500
—27—
and 725;
C)
Authorized
to manage hazardous waste by a
State with a hazardous waste management
program approved under 40 CFR 271
(1985);
D)
Permitted,
licensed or registered by
a State
to manage
municipal
or
industrial
solid
waste;
or
E)
A facility which:
i)
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~
~rt
e-rde-r
fer
he2ardous
waste
generated
by
a
smaH
quantity gene-rater in
a quantity greete-r then
0&
+~4-Iogramshut
ess then
090 4~Hog-remsdur4ng a ca-lender
month to
be
e~eeludedfrom fu~ reguet4on under this
Seetien~the generator must eempy with the fo~ewing
-fequirements--
+
35
~
Adm~
eede
7H~I-
~
A sma~quantity gene-rater may aeewrtuate hazardous
waste en—site-
~f it aeeumuates at any time more
than a teta
of
000 kiegrems of its hasardous
waste7 a~ these eeeumueted wastes
-for whteh the
eeeumulatien
im4t was e~~eeededare subject to
reguetion under 35 H~ Adm~eede ~
~G37 ~G5
end ~
through ~
and the appieabe
notif4eet4en requirements of Section 3030 of the
Reseuree ?onservetien and Reeo~v’eryAet~ The time
period of 35 fl~ Adft7 eede ~22-~34 for
eeeumuiatien of herardeas waste en—site begins for
a sma~quantity generator when the aeeumtiated
wastes exeeed
099 kiogramsi-
3+
Beginn4:ng
August
5~ ~9&S~
for
any
harardous
waste
shipped
off—site7
the
generator
must
ensure
that
such waste is aeeompan4ed by a espy of the manifest
.(-35 ~
Adm~eode ~-4~G-)- signed by him end
containing the fo~ewinginfermationi-
A+
The name and address of the generator of the
wastet
B+
The ~3mitedStates Bepartment of Pranspertatien
deseription of the waste7 ineuding the proper
73-501
—28—
shipping name7 hasard class and identification
number ~N/NA+t
e+
The number end type of eontatnerst
9+
The quantity of waste being trensportedt end
E+
The name end address of the facility
designated to receive the weste~
4+
A small quantity generator may either treat or
dispose of its hazardous waste in en on—site
feeility7 or ensure delivery to en off—site
storage7 treatment or disposal feeiltty7 either of
which is~-
A+
Permitted under 35 ~H-
Adm~-eode ~3t
B+
~n interim status under 35 fll-~Adm-~Sede ~G3
and
~2-S-
e+
Authorized to manage hazardous waste by a
State with a hazardous waste management
program approved by 8SBPA-
9+
Permitted7 licensed or registered by a State
to manage municipal or industrial solid waste~
or
5+
A facility whieh--
H
Beneficially uses or reuses or
legitimately recycles or reclaims its
waster or
44+
Treats its waste prior
to beneficial use
or reuse7 or legitimate recycling or
reelametion7
ih)
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.
j~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.
kj)
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
73-502
—29—
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 10 Ill. Reg.
,
effective
)
SUBPART
D:
LISTS OF HAZARDOUS WASTE
Section 721.131
Hazardous Wastes From Nonspecific Sources
The following solid wastes are listed hazardous wastes from non-
specific sources unless they are excluded under 35 Ill. Adm. Code
720.120
and 720.122 and listed
in Appendix
I.
Industry
and
EPA Hazardous
Hazardous Waste
Hazard Code
Waste No.
FOOl
The following spent halogenated solvents
(T)
used
in degreasing:
tetrachloroethylene,
trichloroethylene, methylene chloride,
1,1,1—
trichloroethane,
carbon tetrachloride and
chlorinated fluorocarbons; all spent solvent
mixtures/blends used
in degreasing containing,
before use,
a total
of ten percent or more
(by
volume)
of one or more of the above halogenated
solvents or those solvents listed
in F002, F004
c
FOOS; and still bottoms from the recovery of these
spent solvents and spent solvent mixtures.
F002
The
following spent halogenated solvents:
(T)
tetrachloroethylene, methylene chloride,
trichloroethylene,
l,1,l—trichloroethane,
chlorobenzene, l,l,2—trichloro—l,2,2—
trifluoroethane, orthodichlorobenzene and ~
trichlorofluoromethane and l,l,2—trichloroethane
all spent solvent mixtures/blends containing,
before use,
a total of ten percent or more
(by
volume)
of one or more of the above halogenated
solvents or those solvents listed in FOOl, F004 or
F005;
and still bottoms from the recovery of these
spent solvents and spent solvent mixtures.
F003
The following spent non—halogenated solvents:
(I)
xylene, acetone, ethyl acetate, ethyl benzene,
ethyl ether, methyl isobutyl ketone, n—butyl
alcohol, cyclohexanone and methanol; all spent
solvent mixtures/blends containing, before use,
a
total
of ten percent or more
(by volume)
of one or
more of the above non—halogenated solvents or those
solvents listed
in FOOl,
F002, F004 or
F005; and
still bottoms from the recovery of these spent
solvents and spent solvent mixtures.
73-503
—30--
F004
The following spent non—halogenated solvents:
(T)
cresols and cresylic acid and nitrobenzene; all
spent solvent mixtures/blends containing, before
use,
a total
of ten percent or more
(by volume)
of
one or more of the above non—halogenated solvents
or those solvents listed in FOOl, F002 or FOO5; and
still bottoms from the recovery of these spent
solvents and spent solvent mixtures.
F005
The following spent non—halogenated solvents:
(I,
T)
toluene, methyl ethyl
ketone, carbon disulfide,
isobutanol~andpyridine, benzene,
2—ethoxyethanol
and 2—nitropropane all spent solvent
mixtures/blends,
containing, before use,
a
total of
ten percent or more (by volume)
of one or more of
the above non—halogenated solvents or those
solvents listed
in FOOl, F002 or FOO4;
and still
bottoms from the recovery of these spent solvents
and spent solvent mixtures.
F006
Wastewater treatment sludges from
(T)
electroplating operations except from the following
processes:
(1) sulfuric
acid anodizing of
aluminum;
(2)
tin plating on carbon steel;
(3)
zinc plating (segregated basis)
on carbon steel;
(4)
aluminum or zinc—aluminum plating on carbon
steel;
(5)
cleaning/stripping associated with tin,
zinc and aluminum
plating on carbon steel; and
(6)
chemical etching and milling of aluminum.
F019
Wastewater treatment sludges
from the chemical
(T)
conversion coating of aluminum.
F007
Spent cyanide plating bath solutions from
(R,
T)
electroplating operations.
F008
Plating bath residues from the bottom of
(R,
T)
plating baths from electroplating operations where
cyanides are used
in the process.
FOO9
Spent stripping and cleaning bath solutions
(R,
T)
from electroplating operations where cyanides are
used in the process.
FO1O
Quenching bath residues from oil baths
(R,
T)
from metal heat treating operations where cyanides
are used
in the process.
FOll
Spent cyanide solutions from salt bath
(R,
T)
pot cleaning from metal heat treating operations.
F0l2
Quenching wastewater treatment sludges from
(T)
metal heat treating operations where cyanides are
used in the process.
F020
Wastes
(except wastewater and spent carbon
(H)
from hydrogen chloride purification) from the
production or manufacturing use
(as
a reactant,
chemical intermediate or component in
a
formulating
process)
of tn—
or tetrachlorophenol,
or of
intermediates used
to produce their pesticide
derivatives.
(This listing does not include wastes
from the production of hexachlorophene
from highly
purified 2,4,5—trichlorophenol.)
73.504
—31—
FO21
Wastes (except wastewater and spent carbon
(H)
from hydrogen chloride purification)
from the
production or manufacturing use (as a reactant,
chemical intermediate or component in a formulating
process)
of pentachlorophenol, or of intermediates
used to produce its derivatives.
FO22
Wastes (except wastewater
and spent carbon
(H)
from hydrogen chloride purification)
from the
manufacturing use
(as a reactant, chemical
intermediate or component in a formulating process)
of
tetra—, penta— or hexachlorobenzenes under
alkaline conditions.
FO23
Wastes (except wastewater and spent carbon
(H)
from hydrogen chloride purification)
from the
production of materials on equipment previously
used for the production
or manufacturing use (as a
reactant, chemical intermediate or component in
a
formulating process)
of tn— and
tetrachlorophenols.
(This listing does not include
wastes
from equipment used only for the production
or use of hexachlorophene from highly purified
2,4,5— trichlorophenol.
FO24
Wastes including but not limited
(T)
to, distillation residues, heavy ends,
tars,
and reactor cleanout wastes from the production of
chlorinated aliphatic hydrocarbons, having carbon
content from one
to
five,
utilizing free radical
catalyzed processes.
(This listing does not
include light ends, spent filters and filter
aids,
spent dessicants, wastewater, wastewater treatment
sludges, spent catalysts and wastes listed
in
Section 721.132.)
F026
Wastes
(except wastewater
and spent carbon
(H)
from hydrogen chloride purification)
from the
production of materials on equipment previously
used
for the manufacturing use (as
a reactant,
chemical intermediate or component in a formulating
process)
of tetra—, penta— or hexachlorobenzene
under
alkaline conditions.
F027
Discarded unused formulations containing
(H)
tn—, tetra—
or pentachlorophenol or discarded
unused
formulations containing compounds derived
from these chlorophenols.
(This listing does not
include formulations containing hexachlorophene
~ynthesized from prepurified 2,4,5—trichlorophenol
as the sole component).
F028
Residues resulting from the incineration
(T)
or
thermal treatment of soil contaminated with
hazardous waste numbers FO2O,
F02l,
F022,
F023,
F026 and FO27.
(Board Note:
The primary hazardous properties of these materials
have been indicated by the letters T (Toxicity),
R
(Reactivity),
I
(Ignitability),
and C
(Corrosivity).
The letter
H indicates
73.505
—32—
Acute Hazardous Waste.)
(Source:
Amended at 10 Ill. Reg.
effective
Section 721.132
Hazardous Waste from Specific Sources
The following solid wastes are listed hazardous wastes
from
specific sources unless they are excluded under 35 Ill. Adm. Code
720.120 and .720.122 and listed
in Appendix
I.
Industry and
EPA Hazardous
Hazardous Waste
Hazard Code
Waste No.
Wood Preservation:
KOOl
Bottom sediment
sludge from the treatment
(T)
of wastewaters from wood preserving processes that
use creosote and/or pentachlorophenol.
Inorganic Pigments:
KOO2
Wastewater treatment sludge from the
(T)
production of chrome yellow and orange pigments.
K003
Wastewater treatment sludge from the
(T)
production of molybdate orange pigments.
1004
Wastewater treatment sludge
from the
(T)
production of zinc yellow pigments.
KOO5
wastewáter treatment sludge from the
(T)
production of chrome green pigments.
K006
Wastewater treatment sludge
from the
(T)
production of chrome oxide green pigments
(anhydrous and hydrated).
1007
Wastewater
treatment sludge from the
(T)
production of iron blue pigments.
1008
Oven residue from the production of chrome
(T)
oxide green pigments.
Organic Chemicals:
1009
Distillation bottoms from the production of
(T)
acetaldehyde from ethylene.
KOlO
Distillation side cuts from the production of
(T)
acetaldehyde from ethylene.
1011
Bottom stream from the wastewater stripper in
(R,T)
the
production
of
acrylonitrile.
K0l3
Bottom stream from the acetrontnile column
(T)
in the production of acrylontrile.
1014
Bottoms from the acetontrile purification
(T)
column
in the production of acrylonitrile.
1015
Still bottoms from the distillation of benzyl
(T)
chloride.
KO16
Heavy ends or distillation residues from the
(T)
73.5~
—33—
production of carbon tetrachionide.
1017
Heavy ends
(still bottoms)
from the
(T)
purification column in the production of
epichlorohydrin.
K0l8
Heavy ends from the fractionation column in
(T)
ethyl chloride production.
1019
Heavy ends from the distillation of ethylene
(T)
dichlonide in ethylene dichloride production.
1020
Heavy ends from the distillation of vinyl
(T)
chloride
in vinyl chloride monomer production.
1021
Aqueous spent antimony catalyst waste from
(T)
fluoromethanes production.
1022
Distillation bottom tars from the production
(T)
of phenol/acetone from cumene.
1023
Distillation light ends from the production
(T)
of phthalic anhydride from naphthalene.
1024
Distillation bottoms from the production of
(T)
phthalic anhydride from naphthalene.
1093
Distillation light ends from the production
(T)
of phthalic anhydride from ortho—xylene.
1094
Distillation bottoms from the production
(T)
of phthalic anhydride from ortho—xylene.
1025
Distillation bottoms from the production
(T)
of nitrobenzene by the nitration of benzene.
1026
Stripping still tails from the production of
(T)
methyl ethyl pynidines.
1027
Centrifuge and distillation residues from
(R,T)
toluene diisocyanate production.
K028
Spent catalyst from the hydrochloninator
(T)
reactor
in the production of l,1,l—tnichloroethane.
1029
Waste from the product stream stripper
in
(T)
the production of l,l,l—tnichloroethane.
1095
Distillation bottoms from the production of
(T)
1,1, l—trichloroethane
-
1096
Heavy ends from the heavy ends column from
(T)
the production of 1,l,1—tnichloroethane.
K030
Column bottoms or heavy ends from the
(T)
combined production of trich.oroethylene
and
perchioroethylene.
1083
Distillation bottoms from aniline production.
(T)
1103
Process residues from aniline extraction
(T)
from the production of aniline.
Kl04
Combined wastewater streams generated from
(T)
nitrobenzene/aniline production.
K085
Distillation or fractionation column bottoms
from the production of chlorobenzenes.
1105
Separated aqueous stream from the reactor
(T)
product washing step
in the production of
chlorobenzenes.
Klll
Product wastewaters from the production of
(C,T)
dinitrotoluene via nitration of toluene.
1112
Reaction by—product water
from the drying
(T)
column
in the production of toluenediamine via
hydrogenation of dinitrotoluene.
73-507
—34—
Kl13
Condensed liquid light ends from the
(T)
purification of toluenediamine
in the production of
toluenediamine via hydrogenation of dinitroluene.
Kll4
Vicinals from the purification of toluene—
(T)
diamine
in the production of toluenediamine via
hydrogenation of dinitrotolune.
K1l5
Heavy ends from the purification of
(T)
toluenediamine
‘in the production of toluenediamine via
hydrogenation of dinitrotoluene.
1116
Organic condensate from the solvent recovery
(T)
column
in the production of toluene diisocyanate via
phosgenation of toluenediamine.
Kll7
Wastewater from the reactor vent gas scrubber
(T)
in the~production of ethylene dibromide via
bromination of ethene.
1118
Spent adsorbent solids from purification of
(T)
ethylene dibromide in the production of ethylene
dibromide via bromination of ethene.
1136
Still bottoms from the purification of
(T)
ethylene dibromide in the production of ethylene
dibromide via bnomination of ethene.
Inorganic Chemicals:
K071
Brine purification muds from the mercury
(T)
cell process
in chlorine production, where
separately prepurified brine is not used.
K073
Chlorinated hydrocarbon waste from the
(T)
purification step of the diaphragm cell process
using graphite anodes
in chlorine production.
1106
Wastewater
treatment sludge from the mercury
(T)
cell process in chlorine production.
Pesticides:
K031
By—product salts generated
in the production
(T)
of MSMA and cacodylic acid.
1032
Wastewater treatment sludge from the
(T)
production of chlordane.
1033
Wastewater
and scrub water from the
(T)
chlorination of cyclopentadiene
in the production
of chlordane.
1034
Filter solids from the filtration of
(T)
hexachlorocyclopentadiene
in the production of
chlordane.
1097
Vacuum stripper discharge from the chlordane
(T)
chlorinator
in the production of chlordane.
KO35
Wastewater treatment sludges generated
in the
(T)
production of creosote.
1036
Still bottoms from toluene reclamation
(T)
distillation
in the production of disulfoton.
1037
Wastewater
treatment sludges from the
(T)
production of disulfoton.
1038
Wastewater from the washing and stripping of
(T)
73-508
—35—
phorate production.
K039
Filter cake from the filtration of
(T)
diethylphosphorodithioic acid
in the production of
phorate.
1040
Wastewater treatment sludge from the
(T)
production of phorate.
1041
Wastewater
treatment sludge from the
(T)
production of toxaphene.
KO98
Untreated process wastewater from the
CT)
production of toxaphene.
1042
Heavy ends or distillation residues from the
(T)
distillation of tetrachlorobenzene
in the
production of 2,4,5—T.
KO43
2,6—Dichlorophenol waste from the production
of 2,4—D.
1099
Untreated wastewater from the production
(T)
of 2,4—D.
Explosives:
1044
Wastewater treatment sludges from the
(R)
manufacturing and
processing of explosives.
1045
Spent carbon from the treatment of wastewater
(R)
containing explosives.
K046
Wastewater treatment sludges from the
(T)
manufacturing, formulation and loading
of lead--
based initiating compounds.
K047
Pink/red water from TNT operations.
(R)
Petroleum Refining:
K048
Dissolved air flotation
(DAF)
float from the
(T)
petroleum refining
industry.
KO49
Slop oil emulsion solids from the petroleum
(T)
refining industry.
1050
Heat exchanger bundle cleaning sludge
from
(T)
the petroleum
refining industry.
K05l
API separator sludge from the petroleum
(T)
refining industry.
1052
Tank bottoms
(leaded)
from the petroleum
CT)
refining industry.
Iron and Steel:
K06l
Emission control dust/sludge from the primary
(T)
production of steel
in electric furnaces.
1062
Spent pickle liquor from steel
finishing
(C,T)
operations.
Secondary Lead:
K069
Emission control dust/sludge from secondary
(T)
lead smelting.
1100
Waste leaching solution from acid leaching
(T)
73.509
—36—
of emission control dust/sludge
from secondary lead
smelting.
Veterinary Pharmaceuticals:
KO84
Wastewater treatment sludges generated
CT)
during the production of veterinary pharmaceuticals
from arsenic or organo—arsenic compounds.
1101
Distillation tar residues from the distillation
(T)
of aniline—based compounds in the production of
veterinary pharmaceuticals from arsenic or
organoarsenic compounds.
1102
Residue from use of activated carbon for
(T)
decolorization
in the production of veterinary
pharmaceuticals from arsenic or organo—arsenic
compounds.
Ink Formulation:
1086
Solvent washes and sludges, casutic washes
(T)
and sludges,
or water washes and sludges from
cleaning tubs and equipment used
in the formulation
of ink from pigments,
driers, soaps and stabilizers
containing chromium and lead.
Coking:
K060
Ammonia still
lime sludge from cooking
(T)
operations.
1087
Decanter tank tar sludge from cooking
(T)
operations.
(Source:
Amended at 10
Ill..
Reg.
effective
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, when they are
mixed with waste oil or used oil or other material and applied to
the land for dust suppression or road treatment,
or when,
in lieu
of their original intended use, they are produced for use as (or
as a component of)
a fuel,
distributed for use as a fuel,
or
burned as
a fuel.
a)
Any commercial chemical product, or manufacturing
chemical intermediate having the generic name listed
in
subsections
Ce)
or
(f).
b)
Any off—specification commercial chemical product or
manufacturing chemical intermediate which,
if
it met
73-510
—37—
specifications, would have the generic name listed
in
subsections
(e)
or
Cf).
c)
Any container or
inner liner removed from a container
that has been used to hold any commercial chemical
product or manufacturing chemical intermediate having
the generic names listed
in subsection
Ce),
or any
container or
inner liner removed from a container that
has been used
to hold any off—specification chemical
product and manufacturing chemical intermediate whiOh,
if it met specifications, would have the generic name
listed
in subsection
Ce)
unless:
1)
The container or inner liner has been triple rinsed
using
a solvent capable of removing the commercial
chemical product or manufacturing chemical
intermediate;
2)
The container or inner liner has been cleansed by
another method that has been shown
in the
scientific literature, or by tests conducted by the
generator,
to achieve equivalent removal;
or
3)
In the case of a container,
the inner
liner that
prevented contact of the commercial chemical
product or manufacturing chemical intermediate with
the container,
has been removed.
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
Ce)
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
Ce)
or
(f)
-
(Board Note:
The phrase “commercial chemical product or
manufacturing chemical intermediate having the generic
name listed in
.
.
.“
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
73-511
—38—
either Sections 721.131
or 721.132 or will be identified
as
a hazardous waste by the characteristics set forth in
Subpart.)
e)
The commercial chemical products, manufacturing chemical
intermediates or off—specification commercial chemical
products or manufacturing chemical intermediates
referred to in subsections
(a) through
Cd)
of this
Section, are identified as acute hazardous waste
(H)
and
are subject to the small quantity exclusion defined
in
Section
721.105(e).
+Board
Note~
Per
the
convenience
of the regulated community the primary hazardous
properties of these materials have been indicated by the
-ietters P +Poxieity-3-7 and R +Reaetivity+~ Absence of a
letter indicates that the compound only is listed for
acute toxieity--+
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.)
Hazardous
Waste
No.
Substance
P023
Acetaldehyde, chloro—
P002
Acetamide, N—(aminothioxomethyl)-
P057
Acetamide,
2—fluoro—
P058
Acetic acid, fluoro—, sodium salt
P066
Acetimedic acid, N—(methylcarbamoyl)oxythio-
methyl ester
POOl
3—(alpha—acetonylbenzyl)—4—hydroxycoumarin and
salts,
when present at concentrations greater
than 0.3
P002
l-Acetyl—2—thiourea
P003
Acrolein
P070
Aldicarb
P004
Aidrin
P005
Allyl alcohol
P006
Aluminum phosphide
P007
5—(Aminomethyl)—3—isoxazolol
P008
4—Aminopyridine
P009
Ainnionium
picrate
CR)
P119
Animonium vanadate
POlO
Arsenic acid
P012
Arsenic (III) oxide
POll
Arsenic
CV)
oxide
POll
Arsenic pentoxide
P012
Arsenic trioxide
P038
Arsine, diethyl—
P054
Aziridine
73.512
—39—
P013
Barium cyanide
P024
Benzenamine, 4—chloro—
P077
Benzenamine, 4—nitro—
P028
Benzene,
(chloromethyl)—
P042
l,2—Benzenediol, 4—1—hydroxy—2—(methyl—
amino) ethyl
—
P014
Benzenethiol
P028
Benzyl chloride
P015
Beryllium dust
P016
BisCchloromethyl)
ether
P017
Bromoacetone
P018
Brucine
P021
Calcium cyanide
P123
Camphene, octachloro—
P103
Carbamidoselensoic acid
P022
Carbon bisulfide
P022
Carbon disulfide
P095
Carbonyl chloride
P033
Chlorine cyanide
P023
Chloroacetaldehyde
P024
p—Chloroaniline
P026
l—Co—Chlorophenyl)thiourea
P027
3—Chloropropionitrile
P029
Copper cyanides
P030
Cyanides (soluble cyanide salts), not
elsewhere specified
P031
Cyanogen
P033
Cyanogen chloride
P036
Dichlorophenylarsine
P037
Dieldrin
P038
Diethylarsine
P039
O,O—Diethyl S--2—(ethylthio)ethyl
phosphoro—
dithioate
P041
Diethyl-p—nitrophenyl phosphate
P040
0,0—Diethyl 0—pyrazinyl phosphorothioate
P043
Diisopropyl fluorophosphate
P044
Dimethoate
P045
3,3—Dimethyl—l—(methylthio)—2—butanone,
0—
(methylamino)
carbonyl
oxime
P071
0,0—Dimethyl O—p—nitrophenyl phosphorothioate
P082
Dimethylnitrosantine
P046
alpha, alpha—Dimethylphenethylamine
P047
4,6—Dinitro—o—cresol and salts
P034
4, 6—Dinitro-o—cyclohexylphenol
P048
2,4—Dinitrophenol
P020
Dinoseb
P085
Diphosphoramide, octamethyl—
P039
Disulfoton
P049
2,4—Dithiobiuret
P109
Dithiopyrophosphoric acid,
tetraethyl ester
P050
Endosulfan
P088
Endothall
P051
Endrin
P042
Epinephrine
73.513
—40—
P046
Ethanamine, l,l—dimethyl—2—phenyl—
P084
Ethenamine, N—methyl—N—nitroso—
P101
Ethyl cyanide
P054
Ethylenimine
P097
Famphur
P056
Fluorine
P057
Fluoroacetarnide
P058
Fluoroacetic acid,
sodium salt
P065
Fulminic acid, mercury
(II)
salt
(R,T)
P059
Heptachlor
P051
1,2,3,4,lO,lO—Hexachloro—6,7—epoxy—
l,4,4a,5,6,7,8,8a—octahydro—endo, endo—1,
4:5,
8—dimethanonaphthalene
P037
1,2,3, 4,l0,lO—Hexachloro—6,7—epoxy—
l,,4,4a,5,6,7,8,8a—octahydro—endo, exo—1,
4:5,
8—dimethanonaphthalene
P060
1,2,3,4,10,lO—Hexachloro—l,4,4a,5,8,8a—
hexahydro—1,4:5,8—endo, endo—
dimethanonaphthalene
P004
l,2,3,4,lO,1O,—Hexachloro---l,4,4a,5,8,8a—
hexahydro—l,4:5,8—endo, exo—
dimethanonaphthalene
P060
Hexachlorohexàhydro—exo,exo—
dimethanonaphthalene
P062
Hexaethyl tetraphosphate
P116
Hydrazinecarbothioamide
P068
Hydrazine, methyl—
P063
Hydrocyanic acid
P063
Hydrogen cyanide
P096
Hydrogen phosphide
P064
Isocyanic acid, methyl ester
P007
3(2H)—Isoxazolone, 5—(aminomethyl)—
P092
Mercury, phenyl—, acetate
P065
Mercury fulminate CR,T)
P016
Methane, oxybis(chloro—
P112
Methane, tetranitro—
(R)
P118
Methanethiol, trichloro—
P059
4,7—Methano—lH—indene,1,4,5,6,7,8,8—
heptachloro—3a,4, 7,7a—tetrahydro—
P066
Methomyl
P067
2—Methylaziridine
P068
Methyl hydrazine
P064
Methyl isocyanate
P069
2—Methyllactonitrile
P071
Methyl parathion
P072
alpha-Naphthylthiourea
P073
Nickel carbonyl
P074
Nickel cyanide
P074
Nickel
(II) cyanide
P073
Nickel tetracarbonyl
P075
Nicotine and salts
P076
Nitric oxide
P077
p—Nitroaniline
P078
Nitrogen dioxide
73-514
—41—
P076
Nitrogen
CII) oxide
P078
Nitrogen
(IV) oxide
P081
Nitroglycerine
CR)
P082
N—Nitrosodimethylamine
P084
N—Nitrosomethylvinylarnine
P050
5—Norbornene—2,3—dimethanol, 1,4,5,6,7,7—
hexachloro, cyclic sulfite
P085
Octamethylpyrophosphoramide
P087
Osmium oxide
P087
Osmium tetroxide
P088
7—Oxabicyclo2.2.lheptane—2,3—dicarboxylic
acid
P089
Parathion
P034
Phenol, 2—cyclohexyl—4,6—dinitro—
P048
Phenol,
2,4—dinitro—
P047
Phenol, 2,4,—dinitro—6—methyl—
P020
Phenol, 2,4—dinitro—6—(l—methylpropyl)—
P009
Phenol, 2,4,6—trinitro—,
ammonium salt
(R)
P036
Phenyl dichloroarsine
P092
Phenylmercuric acetate
P093
N—Phenylthiourea
P094
Phorate
P095
Phosgene
P096
Phosphine
P041
Phosphoric acid, diethyl p—nitrophenyl ester
P044
Phosphorodithioic acid, 0,0—dimethyl S-2—
Cmethylamino)—2—oxoethyl
ester
P043
Phosphorofluoric acid,
bis(l—methy’lethyl)ester
P094
Phosphorothioic acid, O,O—diethyl 5—
(ethylthio)methyl ester
P089
Phosphorothioic
acid, O,O—diethyl O-(p—
nitrophenyl) ester
P040
Phosphorothioic
acid, 0,0—diethyl 0—pyrazinyl
ester
P097
Phosphorothioic acid, 0,0—dimethyl O—p-
((dimethylamino)—sulfonyl)phenylester
P110
Plumbane, tetraethyl—
P098
Potassium cyanide
P099
Potassium silver cyanide
P070
Propanal, 2—methyl—2—(methylthio)—,
0—
(methylamino)
carbonyl
oxime
P101
Propanenitrile
P027
Propanentrile, 3—chloro—
P069
Propanenitrile,
2—hydroxy—2—methyl—
P081
1,2,3—Propanetriol, trinitrate—
CR)
P017
2—Propanone, 1—bromo—
P102
Propargyl alcohol
P003
2—Propenal
P005
2—Propen—1—ol
P067
1,2—Propylenimine
P102
2—Propyn—l—ol
P008
4—Pyridinamine
P075
Pyridine,
(S)—3—(1—methy--2--pyrrolidinyl)-,
and
salts
73.515
—42—
P111
Pyrophosphoric acid,
tetraethyl ester
P103
Selenourea
P104
Silver cyanide
P105
Sodium azide
P106
Sodium cyanide
P107
Strontium sulfide
P108
Strychnidin—lO—one, and salts
P018
Strychnidin—lO—one, 2,3—dimethoxy—
P108
Strychnine and salts
P115
Sulfuric acid,
thallium(I)
salt
P109
Tetraethyldithiopyrophosphate
P110
Tetraethyl lead
P111
Tetraethylpyrophosphate
P112
Tetranitromethane
(R)
P062
Tetraphosphoric acid, hexaethyl ester
P113
Thallic oxide
P113
Thallium (III)
oxide
P114
Thallium
(I)
selenite
P115
Thallium
CI) sulfate
P045
Thiofanox
P049
Thioimidodicarbonic diamide
P014
Thiophenol
P116
Thiosemicarbazide
P026
Thiourea, (2—chlorophenyl)—
P072
Thiourea, 1—naphthalenyl—
P093
Thiourea, phenyl—
P123
Toxaphene
P118
Trichloromethanethio.
P119
Vanadic acid,
ammonium salt
P120
Vanadium pentoxide
P120
Vanadium(V) oxide
POOl
Warfarin, when present at concentration
greater than 0.3.
P121
Zinc cyanide
P122
Zinc phosphide,when present at concentrations
greater
than 10
(R,T)
f)
The commercial chemical products, manufacturing chemical
intermediates or off—specification commercial chemical
products referred to
in subsections
(a)
through (d), are
identified as toxic wastes
CT)
unless otherwise
designated and are subject to the small quantity
exclusion defined
in Section 721.105(a)
and
(~1)~
-E-Boerd Note~- For the convenience of the regulated
community7 the primary hazardous properties of these
materials have been indicated by the letters P
+Poxieity+r R +Reaetivity+y I flgnitability+ end
e
+eorrosivity+~- Absence of a letter indicates that the
compound is only listed for to~ieity7+ 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
73-516
--43—
(Toxicity), R (Reactivity),
I
(Ignitability)
and
C
(Corrosivity).
Absence of
a letter indicates that the
compound is only listed
for toxicity.)
Hazardous
Waste No.
Substance
UOO1
Acetaldehyde
(I)
0034
Acetaldehyde, trichloro—
0187
Acetamide, N—(4—ethoxyphenyl)-
U005
Acetamide, N—9H—fluoren—2—yl—
0112
Acetic acid,
ethyl ester
(I)
0144
Acetic acid,
lead salt
0214
Acetic acid,
thallium(I)
salt
0002
Acetone
(I)
0003
Acetonitrile
(I,T)
0248
3—(alpha—Acetonylbenzyl)—4—hydroxycoumarin
and salts, when present at concentrations of
0.3
or less
0004
Acetophenone
U005
2—Acetylaminofluorene
0006
Acetyl
chloride (C,R,T)
U007
Acrylamide
U008
Acrylic acid
(I)
U009
Acrylontrile
0150
Alanine, 3—p-bis(2—chloroethyl)amino
phenyl-,
L—
0328
2—Amino—1-methylbenzene
0353
4—Amino—l—ntethylbenzene
UOll
Amitrole
U012
Aniline
(I,T)
U0l4
Auramine
U015
Azaserine
U010
Azirino(2’,3’:3,4)pyrrolo(l,2—a)indole—4,7—
dione, 6—amino—B—
C(aininocarbonyl)oxy)methyl—l,la,2,8,8a,8b—
hexahydro—8a—methoxy—5—methyl—,
0157
Benzjaceanthrylene,
1,2—dihydro—3—methyl—
0016
Benz(c)acridine
0016
3,4—Benzacridine
0017
Benzal chloride
0018
Benzaanthracene
UO18
l,2—Benzanthracene
U094
l,2—Benzanthracene, 7,l2—dimethyl--
tYOl2
Benzenamine
CI,T)
U0l4
Benzenamine, 4,4’—carbonimidoylbis(N,N—
dimethyl—
0049
Benzenamine, 4—chloro—2—methyl—
U093
Benzenamine, N,N’—dimethyl—4—phenylazo—
0158
Benzenamine, 4,4’—methylenebis(2—chloro—
U222
Benzenamine, 2—methyl—,
hydrochloride
0181
Benzenamine,
2—methyl—5—nitro
0019
Benzene
(I,T)
U038
Benzeneacetic acid,
4—chloro—alpha—(4—
73.517
—44—
chlorophenyl
)
—alpha—hydroxy,
ethyl ester
0030
Benzene,
l—bromo—4—phenoxy—
U037
Benzene,
chioro—
0190
l,2—Benzenedicarboxylic acid anhydride
U028
1,2—Benzenedicarboxylic acid,
bis(2—ethyl—
hexyl)
ester
U069
l,2—Benzenedicarboxylic acid, dibutyl ester
U088
l,2—Benzenedicarboxylic
acid,
diethyl ester
0102
l,2—Benzenedicarboxylic acid, dimethyl ester
0107
l,2—Benzenedicarboxylic acid, di—n—octyl
ester
U070
Benzene, l,2—dichloro—
0071
Benzene,
1,3—dichloro—
U072
Benzene, 1,4—dichloro—
0017
Benzerie,
(dichloromethyl)—
U223
Benzene, l,3—diisocyanatomethyl— (R,T)
0239
Benzene,
dimethyl—
(I,T)
0201
l,3—Benzenediol
Ul27
Benzene, hexachloro—
0056
Benzene, hexahydro—(I)
0188
Benzene, hydroxy—
0220
Benzene, methyl—
0105
Benzene,
l—methyl—l—2,4—dinitro—
0106
Benzene, l—methyl—2 ,6—dinitro—
0203
Benzene, 1,2—methylenedioxy—4—allyl—
0141
Benzene, l,2—methylenedioxy—4—propenyl—
0090
Benzene, 1,2—methylenedioxy—4—propyl—
0055
Benzene,
(l—methylethyl)—
CI)
0169
Benzene, nitro—
(I,T)
0183
Benzene, pentachloro—
0185
Benzene, pentachloronitro—
U020
Benzenesulfonic acid chloride (C,R)
0020
Benzenesulfonyl chloride
(C,R)
U2O7
Benzene, l,2,4,5—tetrachloro—
0023
Benzene,
(trichloromethyl)—(C,R,T)
0234
Benzene, 1,3,5—trinitro—
(R,T)
0021
Benzidine
0202
l,2—Benzisothiazolin—3—one,
1,1—dixoide
0120
Benzoj,k
fluorene
0022
Benzoapyrene
0022
3,4—Benzopyrene
Ul97
3—Benzoquinone
0023
Benzotrichloride (C,R,T)
0050
1, 2—Benzphenanthrene
0085
2,2’—Bioxirane
(I,T)
0021
(l,1’—Biphenyl)—4,4 ‘—diamine
0073
(l,l’—Biphenyl)—4,4’—diamine, 3,3’—dichloro—
0091
(1,l’—Biphenyl)—4,4’—diamine, 3,3’—
dimethoxy—
U095
Cl,l’—Biphenyl)—4,4’—diamine, 3,3’—dimethyl—
U024
Bis(2—chloroethoxy) methane
0027
Bis(2—chloroisopropyl)
ether
0244
Bis(dimethylthiocarbamoyl) disulfide
U028
Bis(2—ethylhexyl) phthalate
73-518
—45—
0246
Bromine cyanide
0225
Bromoform
0030
4—Bromophenyl phenyl ether
0128
1,3—Butadiene, 1,l,2,3,4,4—hexachloro—
0172
1--Butanamine,
N—butyl—N—nitroso—
0035
Butanoic acid, 4—Bis(2—chloroethyl)amino
benzene—
0031
1—Butanol
(I)
0159
Butanone
CI,T)
Ul60
2—Butanone peroxide (R,T)
0053
2—Butenal
0074
2—Butene, l,4—dichloro—
(I,T)
0031
n—Butyl alcohol
(I)
0136
Cacodylic acid
U032
Calcium chromate
0238
Carbamic acid, ethyl
ester
0178
Carbamic acid, methylnitroso—, ethyl ester
U176
Carbamide, N—ethyl—N—nitroso—
0177
Carbamide, N—methyl—N—nitroso—
0219
Carbamide,
thio—
0097
Carbamoyl chloride, dimethyl
U2l5
Carbonic acid, dithallium
(I)
salt
0156
Carbonochloridic acid, methyl ester
(I,T)
(1033
Carbon oxyfluoride
CR,T)
0211
Carbon tetrachloride
0033
Carbonyl fluoride
CR,T)
0034
Chloral
0035
Chloranibucil
0036
Chlordane,
technical
0026
Chlornaphazine
0037
Chlorobenzene
0039
4—Chloro—m—cresol
0041
1—chloro—2,3—epoxypropane
0042
2—Chloroethyl vinyl ether
U044
Chloroform
0046
Chloromethyl methyl ether
0047
beta—Chloronapthalene
0048
o—Chlorophenol
0049
4—chloro—o—toluidine, hydrochloride
0032
Chrornic acid, calcium salt
U050
Chrysene
UO51
Creosote
0052
Cresols
0052
Cresylic
acid
U053
Crotonaldehyde
0055
Cumeme
(I)
0246
Cyanogen bromide
0197
1,4—Cyclohexadienedione
0056
Cyclohexane
(I)
0057
Cyclohexanone
(I)
0130
1,3—Cyclopentadiene,
l,2,3,4,5,5—hexachloro—
0058
Cyclophosphamide
0240
2,4—D,
salts and esters
0059
Daunomyciri
73.519
—46—
0060
DDD
0061
DDT
0142
Decachlorooctahydro—l
,
3
,
4—metheno—2H—
cyclobutac
,d—pentalen—2—one
0062
Diallate
0133
Diamine
(R,T)
0221
Diaminotoluene
0063
Dibenza,h
anthracene
0063
1,2:5,6—Dibenzanthracene
0064
l,2:7,8—Dibenzopyrene
0064
Dibenza,ipyrene
0066
1,2—Dibromo—3—chloropropane
0069
Dibutyl phthalate
0062
S—(2,3—Dichloroallyl)
diisopropyithiocarbamate
0070
o—Dichlorobenzene
0071
xn—Dichlorobenzene
(1072
p—Dichlorobenzene
(1073
3,3 ‘—Dichlorobenzidine
0074
l,4—Dichloro—2—butene
(I,T)
0075
Dichlorodifluoromethane
0192
3,5—Dichloro—N—Cl,1—dimethyl—2—propynyl)
benzamide
0060
Dichlorodiphenyldichloroethane
0061
Dichlorodiphenyltr ichloroethane
0078
l,1—Dichloroethylene
0079
1,2—Dichloroethylene
0025
Dichloroethyl ether
0081
2,4—Dichlorophenol
0082
2,6—Dichlorophenol
0240
2,4—Dichlorophenoxyacetic acid,
salts and
esters
0083
1,2—Dichloropropane
0084
1,3—Dichloropropene
0085
1,2:3,4—Diepoxybutane
(I,T)
0108
1,4—Diethylene dioxide
(1086
N,N—Diethylhydrazine
0087
O,O—Diethyl—S—methyl—dithiophosphate
0088
Diethyl phthalate
0089
Diethylstilbestrol
0148
1,2—Dihydro—3,6—pyradizinedione
0090
Dihydrosafrole
0091
3,3 ‘—Dimethoxybenzidine
0092
Dimethylamine
(I)
(3093
Dimethylaminoazobenzene
0094
7, l2—Dimethylbenz a
anthracene
0095
3,3‘—Dimethylbenzidine
0096
alpha, alpha—Dimethylbenzylhydroperoxide
(R)
(3097
Dimethylcarbamoyl chloride
0098
1,1—Dimethylhydrazine
0099
l,2—Dimethylhydrazine
0101
2,4—Dimethyiphenol
(3102
Dimethyl phthalate
0103
Dimethyl sulfate
73.520
—47—
U105
2,4—Dinitrotoluene
0106
2,6—Dinitrotoluene
0107
Di—n—octyl phthalate
Ul08
1,4—Dioxane
0109
l,2—Diphenylhydrazine
0110
Dipropylamine
(I)
0111
Di—N—propylnitrosoamirie
0001
Ethanal
(I)
0174
Ethanamine, N—ethyl—N—nitroso—
0067
Ethane, 1,2—dibromo—
0076
Ethane, l,l—dichloro—
(3077
Ethane, l,2—dichloro—
Ul14
l,2—Ethanediylbiscarbamodithioic acid
0131
Ethane,
1,1,1, 2,2,2—hexachloro—
0024
Ethane, l,1’—rnethylenebis(oxy)bis(2—
chloro—
0247
Ethane, l,1,l—trichloro—2,2—bis(p—
methoxyphenol )—
0003
Ethanenitrile
CI,T)
Ul17
Ethane, l,l’—oxybis—
CI)
0025
Ethane, 1,l’—oxybis(2—chloro—
U184
Ethane, pentachloro—
0208
Ethane, l,l,l,2—tetrachloro—
0209
Ethane, l,1,2,2—tetrachloro—
0218
Ethanethioamide
0227
Ethane,
l,l,2—trichloro—
0043
Ethene, chloro—
0042
Ethene,
2—chloroethoxy—
U078
Ethene,
l..l—dichloro—
0079
Ethene, trans—l,2—dichloro—
(3210
Ethene, l,l,2,2—tetrachloro—
0173
Ethanol,
2,2 ‘—(nitrosoimino)bis—
0004
Ethanone, l—phenyl--
0006
Ethanoyl chloride (C,R,T)
0359
2—Ethoxyethanol
Ull2
Ethyl acetate
(I)
0113
Ethyl acrylate
(I)
0238
Ethyl carbamate
Curethan)
U038
Ethyl 4,4’—dichlorobenzilate
0114
Ethylenebis(dithiocarbamic
acid)
0067
Ethylene dibromide
(3077
Ethylene dichloride
0359
Ethylene glycol monoethyl ether
0115
Ethylene oxide
(I,T)
0116
Ethylene thiourea
(3117
Ethyl ether
CI)
0076
Ethylidene dichloride
0118
Ethylmethacrylate
(3119
Ethyl methanesulfonate
0139
Ferric dextran
(3120
Fluoranthene
U122
Formaldehyde
0123
Formic acid
CC,T)
0124
Furan
(I)
73-52
1
—48—
(3125
2—Furancarboxaldehyde
(I)
0147
2,5—Furandione
(3213
Furan, tetrahydro—
CI)
0125
Furfural (I)
(3124
Furfuran
(I)
(3206
D—Glucopyranose,
2—deoxy-2—(3—methyl—3—
nitrosoureido)—
Ul26
Glycidylaldehyde
Ul63
Guanidine, N—nitroso—N—methyl—N’—nitro
(3127
Hexachlorobenzene
(3128
Hexachlorobutadiene
(3129
Hexachlorocyclohexane (gamma isomer)
U130
Hexachlorocyclopentadiene
(3131
Hexachloroethane
(3132
Hexachlorophene
(3243
Hexachloropropene
(3133
Bydrazine
CR,T)
(1086
Hydrazine, 1,2—diethyl—
0098
Hydrazine,
1,1—dimethyl—
(3099
Hydrazine, 1,2—dimethyl—
0109
Hydrazine,
1,2—Diphenyl—
(1134
Hydrofluoric acid
(C,T)
(3134
Hydrogen fluoride
CC,T)
(1135
Hydrogen sulfide
(3096
Hydroperoxide, l—methyl—l—phenylethyl—
(R)
(3136
Hydroxydimethylarsine oxide
0116
2—Imidazolidinethione
0137
Indenol,2,3—cdpyrene
0139
Iron dextran
0140
Isobutyl alcohol
(I,T)
0141
Isosafrole
0142
Kepone
(1143
Lasiocarpene
0144
Lead acetate
0145
Lead phosphate
0146
Lead subacetate
(3129
Lindane
0147
Maleic anhydride
0148
Maleic hydrazide
(3149
Malononitrile
0150
Melphalan
(3151
Mercury
0152
Methacrylonitrile
(I,T)
(3092
Methanamine, N—methyl—
(I)
(3029
Methane, bromo
(3045
Methane, chloro—
(I,T)
(3046
Methane, chloromethoxy—
(3068
Methane, dibromo—
(3080
Methane, dichloro—
(3075
Methane, dichlorodifluoro—
(3138
Methane,
iodo—
(3119
Methanesulfonic acid, ethyl ester
(3211
Methane,
tetrachloro—
Ul21
Methane, trichlorofluoro—
73.522
—49—
0153
Methanethiol
(I,T)
U225
Methane,
tribromo—
0044
Methane, trichloro—
Ul2l
Methane, trichlorofluoro—
(3123
Methanoic acid CC,T)
0036
4,7—Methanoindan,
1,2,4,5,6,7,8,8—
octachloro—3a,4,7,7a—tetrahydro—
0154
Methanol
(I)
0155
Methapyrilene
Ul54
Methyl alcohol
(I)
(3029
Methyl bromide
(3186
l—Methylbutadiene
(I)
(1045
Methyl chloride
(I,T)
(3156
Methyl chlorocarbonate
(I,T)
(3226
Methylchloroform
(3157
3—Methyicholanthrene
(3158
4,4‘—MethylenebisC2—chloroaniline)
(3132
2,2’—Methylenebis(3,4,6—trichlorophenol)
(3068
Methylene bromide
U080
Methylene chloride
(3122
Methylene oxide
U159
Methyl ethyl ketone
(I,T)
(3160
Methyl ethyl ketone peroxide
CR,T)
0138
Methyl iodide
(1161
Methyl isobutyl ketone
(I)
(3162
Methyl methacrylate
CI,T)
0163
N—Methyl—N’—nitro—N—nitrosoguanidine
(3161
4—Methyl—2—pentanone
(I)
(3164
Methylthiouracil
(3247
Methoxychlor
(3010
Mitoinycin C
(3059
5,l2—Naphthacenedione,
(8S—cis)—8--acetyl—lO—
(3—amino—2,
3 ,6—trideoxy—alpha—L—lyxo—
hexapyranosyl
)oxyl) —7,8,9,lO—tetrahydro—
6,8,ll—trihydroxy—l—methoxy—
0165
Naphthalene
0047
Naphthalene, 2—chloro-
(3166
l,4—Naphthalenedione
0236
2,7—Naphthalenedisulfonic acid,
3,3’—(3,3’—
dimethyl—Cl,1’—biphenyl)—4,4’—diylfl—
bisCazo)bis(5—amino—4—hydroxy)—, tetrasodium
salt
0166
l,4—Naphthaquinone
0167
1—Naphthylamine
0168
2—Naphthylarnine
0167
alpha—Naphthylamine
0168
beta—Naphthylamine
0026
2—Naphthylamine,
N,N’—bis(2—chloromethyl)—
0169
Nitrobenzene
(I,T)
(3170
p—Nitrophenol
0171
2—Nitropropane (I~)
(3172
N—Nitrosodi—n—butylamine
(3173
N—Nitrosodiethanolamine
(3174
N—Nitrosodiethylamine
73-523
—50—
0111
N—Nitroso—N—propylamine
(3176
N—Nitroso-N—ethylurea
(3177
N—Nitroso—N—inethylurea
Ul78
N—Nitroso—N—methylurethane
U179
N—Nitrosopiperidine
0180
N—Nitrosopyrrolidine
(3181
5—Nitro—o—toluidine
U193
1,2—Oxathiolane,
2,2—dioxide
0058
2H—1,3,2—Oxazaphosphorine,
2—bis(2—chloro—
ethyl)aminotetrahydro—,
oxide 2—
UllS
Oxirarie CI,T)
0041
Oxarane,
2—(chlorontethyl)—
0182
Paraldehyde
0183
Pentachlorobenzene
(3184
Pentachloroethane
(3185
Pentachloronitrobenzene
See F027
Pentachlorophenol
0186
1,3—pentadiene
(I)
U187
Phenacetin
0188
Phenol
0048
Phenol, 2—chloro—
0039
Phenol, 4—chloro—3—methyl—
U08l
Phenol, 2,4—dichloro-
(3082
Phenol, 2,6—dichloro—
0101
Phenol, 2,4—dimethyl—
(1170
Phenol, 4—nitro—
See F027
Phenol, pentachloro—
See F027
Phenol, 2,3,4,6—tetrachloro—
See F027
Phenol, 2,4,5—trichioro—
See FO27
Phenol, 2,4,6—trichloro—
0137
1 ,10—(1,2—phenylene)pyrene
(3145
Phosphoric acid,
lead salt
(3087
Phosphorodithioic acid, 0,0—diethyl—, S--
methyl—ester
0189
Phosphorous sulfide
(R)
0190
Phthalic anhydride
(3191
2—Picoline
0192
Pronamide
U194
1—Propanainine
(I,T)
UllO
1—Propanamine, N—propyl—(I)
U066
Propane, l,2—dibromo—3—chloro—
0149
Propanedinitrile
0171
Propane, 2—nitro— (I~)
U027
Propane,
2,2’—oxybis2—chloro—
0il93
1,3—Propane sultone
0235
1—Propanol,
2,3—dibromo—, phosphate
(3:1)
(3126
l—Propanol,
2,3—epoxy—
0140
1—Propanol,
2—methyl—
(I,T)
U002
2—Propanone
(I)
0007
2—Propenainide
(1084
Propene, 1,3—dichioro—
0243
l—Propene,
l,1,2,3,3,3—hexachloro—
(3009
2—Propenenitrile
0152
2—Propenenitrile,
2—methyl—
(I,T)
73.524
—51-
0008
2—Propenoic acid
CI)
(3113
2—Propenoic acid, ethyl ester
(I)
13118
2—Propenoic acid,
2—methyl-, ethyl ester
0162
2—Propenoic acid,
2—methyl—, methyl ester
(I,T)
See F027
Propionic acid,2—(2,4,5—trichlorophertoxy)--
Ul94
n—Propylamine
(I,T)
0083
Propylene dichloride
0196
Pyridine
0155
Pyridine, 2—(2—(dimethylamino)—2—
thenylamino
—
(3179
Pyridine, hexahydro—N--nitroso—
0191
Pryidine, 2—methyl—
(3164
4(lH)—Pyrirnidinone, 2,3—dihydro—6—methyl—2—
thioxo—
13180
Pyrrole, tetrahydro—N—nitroso—
0200
Reserpine
U201
Resorcinol
(3202
Saccharin and salts
0203
Safrole
0204
Selenious acid
0204
Selenium dioxide
(3205
Selenium disulfide
(R,T)
(3015
L—Serine, diazoacetate
(ester)
See F027
Silvex
0089
4,4’—Stilbenediol, alpha, alpha’—diethyl—
U206
Streptozotocin
Ul35
Sulfur hydride
0103
Sulfuric acid, dimethyl ester
0189
Sulfur phosphide
CR)
U205
Sulfur selenide
CR,T)
See F027
2,4,5—T
0207
1,2,4,5—Tetrachlorobenzene
0208
1,l,l,2—Tetrachloroethane
0209
l,l,2,2—Tetrachloroethane
U210
Tetrachioroethylene
See F027
2,3,4,6—Tetrachlorophenol
0213
Tetrahydrofuran
(I)
U214
Thallium
(I) acetate
0215
Thallium
(I) carbonate
0216
Thallium
(I) chloride
0217
Thallium
(I)
nitrate
0218
Thioacetamide
U153
Thiomethanol
(I,T)
0219
Thiourea
0244
Thiram
0220
Toluene
0221
Toluenediamine
0223
Toluene diisocyanate
CR,T)
(3328
o—Toluidine
0353
p—Toluidine
0222
o—Toluidine hydrochloride
(3011
lH—l,2,4—Triazol—3—amine
(3226
l,l,1—Trichloroethane
73.525
—52—
0227
1,l,2—Trichloroethane
0228
Trichloroethene
0228
Trichioroethylene
0121
Trichloromonofluoromethane
See F027
2,4,5—Trichlorophenol
See F027
2,4,6—Trichiorophenol
See F027
2,4,5—Trichiorophenoxyacetic acid
U234
sym-Trinitrobenzene (R,T)
0182
1,3,5—Trioxane,
2,4,5—trimethyl—
(3235
Tris(2,3—dibromopropyl) phosphate
0236
Trypan blue
0237
(Jracil, 5bis(2—chloromethyl)amino3—
0237
Uracil mustard
0043
Vinyl chloride
(1248
Warfarin, when present at concentrations of
0.3
or less
0239
Xylene
(I)
0249
Zinc phosphide, when present at
concentrations of 10
or less
0200
Yohimban—16—carboxylic acid,
11,l7—di—
methoxy—l8— (3
,
4
,
5—trimethoxy—benzoyl)oxy
—
,methyl ester
Source:
Amended at 10 Ill. Reg.
effective
Appendix C
Chemical Analysis Test Methods
The Board incorporates by reference 40 CFR 261, Appendix III
(1985), as amended at 50 Fed. Reg.
42942, October 23, 1985, at 51
Fed. Reg.
5330, February 13,
1986 and at 51 ‘Fed.
Reg.
6541,
February 25,
1986.
This Section incorporates no future editions
or modifications.
(Source:
Amended at 10 Ill.
Reg.
effective
Appendix G Basis for Listing Hazardous Wastes
EPA
Hazardous constitutents
for which listed
hazardous
waste No.
FOOl
Tetrachloroethylene, methylene chloride,
trichloroethylene,
l,l,l—trichloroethane,
carbon
tetrachloride, chlorinated fluorocarbons.
F002
Tetrachioroethylene, methylene chloride,
trichioroethylene,
l,l,l—trichloroethane,
l,1,2—trichloroethane, chlorobenzene, 1,1,2—
trichloro—l,2,2— trifluoroethane, ortho—
dichlorobenzene, trichlorofluoromethane.
73.526
—53—
F003
N.A.
F004
Cresols and cresylic acid, nitrobenzene.
F005
Toluene, methyl ethyl
ketone,
carbon
disulfide, isobutanol, pyridine,
2—
ethoxyethanol, benzene,
2—nitropropane
F006
Cadmium, hexavalent chromium, nickel, cyanide
(complexed).
F007
Cyanide (salts).
F008
Cyanide
(salts).
F009
Cyanide (salts).
FOlO
Cyanide
(salts).
FOll
Cyanide (salts).
F0l2
Cyanide (complexed).
F0l9
Hexavalent chromium,
cyanide (complexed).
F020
Tetra— and pentachlorodibenzo—p—dioxins;
tetra— and pentachlorodibenzofurans; tn— and
tetrachlorophenols and their chlorophenoxy
derivative acids, esters, ethers, amines and
other salts.
F021
Penta-
and hexachlorodibenzo—p—dioxins; penta—
and hexachlorodibenzofurans; pentachlorophenol
and its derivatives.
F022
Tetra—, penta— and hexachlorodibenzo—p—
dioxins; tetra—, penta— and
hexachlorodibenzofurans.
F023
Tetra— and pentachlorodibenzo—p—dioxins;
tetra— and pentachlorodibenzofurans; tn— and
tetra—
chlorophenols and their chlorophenoxy
derivative acids, esters, ethers, amines and
other salts.
F024
Chloromethane, dichloromethane,
trichloromethane,
carbon tetràchloride, chloroethylene, 1,1—
dichloroethane, l,2—dichloroethane, trans—l,2—
dichloroethylene,
l,1—dichloroethylene,
1,1,1—
trichloroethane,
l,l,2—trichloroethane,
trichloroethylene, l,l,1,2—tetrachloroethane,
1,1, 2,2—tetrachloroethane,
tetrachloroethylene, pentachloroethane,
hexachloroethane, allyl chloride
C3—
chloropropene),
dichioropropane,
dichioropropene,
2—chloro—l,3—butadiene,
hexachloro—1 ,3—butadiene, hexachlorocyclo—
pentadiene, hexachlorocyclohexane, benzene,
chlorobenzene, dichlorobenzenes,
1,2,4—
trichlorobenzene, tetrachlorobenzenes,
pentachlorobenzene, hexachlorobenzene,
toluene, naphthalene.
F026
Tetra—, penta—,
and hexachlorodibenzo—p—
dioxins;
tetra—, penta—, and hexachlorodibenzofurans.
F027
Tetra—,
penta—,
and
hexachlorodibenzo—p—
dioxins;
tetra—, penta—,
and hexachlorodibenzofurans;
73.527
—54—
tn—, tetra—,
and pentachlorophenols and their
chlorophenoxy derivative acids, esters,
ethers,
amine and other
salts.
F028
Tetra—, penta—, and hexachlorodibenzo—p—
dioxins;
tetra—, penta—, and hexachlorodibenzofurans;
tn—,
tetra—, and pentachiorophenols and their
chlorophenoxy derivative acids, esters,
ethers, amine and other salts.
1001
Pentachlorophenol, phenol, 2—chlorophenol,
p—
chloro—m—cresol,
2,4—dimethylphenol,
2,4—
dinitrophenol, trichlorophenols,
tetrachlorophenols, 2,4—dinitrophenol,
cresosote, chrysene, naphthalene,
fluoranthene, benzo( b) fluoranthene,
benzo(a)pyrene,
indeno(1,2,3—cd)pyrene,
benz(a)anthracene, dibenz(a)anthracene,
acenaphthalene.
1002
Hexavalent chromium,
lead.
K003
Hexavalent chromium,
lead.
K004
Hexavalent chromuim.
1005
Hexavalent chromium,
lead.
1006
Hexavalent chromium.
K007
Cyanide
(complexed), hexavalent chromium.
KOO8
Hexavalent chromium.
K009
Chloroform,
formaldehyde, methylene chloride,
methyl chloride, paraldehyde,
formic acid.
KO1O
Chloroform,
formaldehyde, methylene chloride,
methyl chloride, paraldehyde,
formic
acid,
chloroacetaldehyde.
KOll
Acrylonitrile, acetonitrile, hydrocyanic acid.
1013
Hydrocyanic acid, acrylonitrile, acetonitrile.
1014
Acetonitnile, acrylamide.
K015
Benzyl chloride, chlorobenzene, toluene,
benzotrichloride.
K016
Hexachlorobenzene, hexachlorobutadiene,
carbon
tetrachioride, hexachloroethane,
perchloroethylene.
1017
Epichlorohydrin,
chloroethers
bis(
chloromethyl)
ether and bis—(2—chloroethyl)
ethers
,
trichloropropane, dichioropropanols.
1018
l,2—dichloroethane, trichloroethylene,
hexachlorobutadiene, hexachlorobenzene.
K0l9
Ethylene dichloride,
l,1,1—tnichloroethane,
1,1,2—trichioroethane,
tetrachloroethanes
(1,l,2,2—tetrachloroethane and 1,1,1,2—
tetrachloroethane), trichloroethylene,
tetrachloroethylene,
carbon tetrachloride,
chloroform, vinyl chloride, vinylidene
chloride.
1020
Ethylene dichlonide,
l,l,l—tnichloroethane,
l,1,2—trichloroethane,
tetrachloro—ethanes
(l,l,2,2—tetrachloroethane and 1,1,1,2—
73-528
tetrachloroethane), tnichloroethylene,
tetrachloroethylene,
carbon
tetrachlor
ide,
chloroform, vinyl chloride, vinylidene
chloride.
1021
Antimony, carbon tetrachlonide, chloroform.
K022
Phenol,
tars (polycyclic aromatic
hydrocarbons).
K023
Phthalic anhydnide,
inaleic anhydnide.
K024
Phthalic anhydnide, l,4—naphthoguinone.
K025
Meta—dinitrobenzene,
2,4—dinitrotoluene.
1026
Paraldehyde, pyridines,
2—picoline.
1027
Toluene diisocyanate, toluene—2,
4—diamine.
K028
l,l,l—tnichloroethane, vinyl chloride.
K029
l,2—dichloroethane, l,l,l—tnichloroethane,
vinyl
chloride, vinylidene chloride, chloroform.
1030
Hexachlorobenzene, hexachlorobutadiene,
hexachloroethane, l,l,l,2—tetrachloroethane,
l,1,2,2—tetrachloroethane,
ethylene
dichioride.
1031
Arsenic.
1032
Hexachlorocyclopentadiene.
K033
Hexachlorocyclopentadiene.
K034
Hexachlorocyclopentadiene.
K035
Creosote, chrysene, naphthalene, fluoranthene,
benzo(b) fluoranthene, benzo(a)—pyrene,
indeno(1,2,3—cd) pyrene, benzo(a)anthracene,
dibenzo
(
a) anthracene, acenaphthalene.
1036
Toluene, phosphorodithioic and phosphorothioic
acid esters.
1037
Toluene, phosphorodithioic and phosphorothioic
acid esters.
1038
Phorate, formaldehyde, phosphorodithioic and
phosphorothioic acid esters.
1039
Phosphorodithioic and phosphorothioic acid
esters.
1040
Phorate, formaldehyde, phosphorodithioic and
phosphorothioic acid esters.
K04l
Toxaphene.
1042
Hexachlorobenzene,
ortho—dichlorobenzene.
1043
2,4—dichlorophenol, 2,6—dichlorophenol, 2,4,6—
trichlorophenol.
K044
N.A.
1045
N.A.
K046
Lead
K047
N.A.
K048
Hexavalent chromium, lead.
K049
Hexavalent chromium,
lead.
K050
Hexavalent chromium.
K051
Hexavalent chromium, lead.
K052
Lead
K060
Cyanide, naphthalene, phenolic compounds,
arsenic.
1061
Hexavalent chromium,
lead,
cadmium.
73.529
—56—
1062
Hexavalent chromium,
lead.
K069
Hexavalent chromium, lead,
cadmium.
1071
Mercury.
1073
Chloroform, carbon tetrachlonide,
hexachioroethane,
tnichloroethane,
tetrachlonoethylene, dichloroethylene,
1,1,2, 2—tetrachloroethane.
1083
Aniline, diphenylamine, nitrobenzene,
phenylenediamine.
K084
Arsenic.
1085
Benzene, dichlorobenzenes, tnichlorobenzenes,
tetrachlorobenzenes, pentachlorobenzene,
hexachlorobenzene, benzyl chloride.
1086
Lead, hexavalent chromium.
1087
Phenol, naphthalene.
1093
Phthalic anhydnide maleic anhydnide.
1094
Phthalic anhydnide.
1095
1,l,2—tnichloroethane, 1,1,1,2—
tetrachloroethane,
1,1,2,2—tetrachioroethane.
1096
1,2—dichloroethane, l,1,l,—trichloroethane,
l,l,2—trichloroethane.
KO97
Chiordane, heptachlor.
1098
Toxaphene.
1099
2,4—dichlorophenol, 2,4,6—trichlorophenol.
1100
Hexavalent chromium,
lead, cadmium.
1101
Arsenic.
1102
Arsenic.
K1O3
Aniline, nitrobenzene, phenylenediamine.
1104
Aniline, benzene, diphenylamine, nitrobenzene,
phynylenediamine.
1105
Benzene, monochlorobenzene,
dichlorobenzenes,
2,4,6—trichlorophenol
-
1106
Mercury.
Klll
2,4—Dinitrotoluene.
Kl12
2,4-Toluenediamine, o—toluidine, p—toluidine,
aniline.
1113
2,4-Toluenediamine, o—toluidine, p—toluidine,
aniline.
1114
2,4—Toluenediamine, o—toluidine, p-toluidine.
Kll5
2,4—Toluenediamine.
1116
Carbon tetrachloride, tetrachloroethylene,
chloroform,
phosgene.
K1l7
Ethylene dibromide
1118
Ethylene dibromide
1136
Ethylene dibromide
N.A.——Waste
is hazardous because
it fails the test for the
characteristic of ignitability, corrosivity,
or reactivity.
(Source:
Amended
at
10 Ill. Reg.
effective
)
Appendix
H
Hazardous Constituents
73.530
—57—
acetonitrile (ethanenitrile)
acetophenone (ethanone,
l—phenyl—)
3—(alpha—acetonylbenzyl)—4—hydroxycoumanin and salts
(warfarin)
2—acetylaminofluorene
(acetamide, N—C9H—fluoren—2—yl)—)
acetyl chloride (ethanoyl chloride)
1—ace ty1—2—thiourea
(acetamide, N—(aminothioxoinethyl)—)
acrolein
(2—propenal)
acrylamide (2—propenamide)
acrylonitnile (2—propenenitnile)
aflatoxins
aldrin
(l,2,3,4,10,lO—hexachloro—l,4,4a,5,8,8a—hexahydro—
endo,exo—l,4:5,8—dimethanonaphthalene)
allyl alcohol
(2—propen—l—ol)
aluminum phosphide
4—aminobiphenyl
(
l,1’—biphenyl—4—amine)
6—amino—l,1a,2,8,8a,8b—hexahydro—8—( hydroxymethyl)—8a—
methoxy—5-methylcarbamate
azirino2’
,3’:3,4pyrrolo
l,2aindole—4,7—dione,
(ester)
(mitomycin C)
(azinino2’,3’:3,4pynrolo(1,2a)indole—4,7—dione,
6—amino—8—((aminocarbonyl)oxy)methyl—1,la,2,8,8a,8b—
hexahydro—8a—methoxy—5—methyl—)
5—Caminomethyl)—3—isoxazolol
(3(2H)—isoxazolone,
5—(aininomethyl)—)
4—aminopyr idme
(4—pyridinamine)
amitrole (lH—l,2,4—tnjazol—3—amine)
aniline
C
benzenamine)
antimony and compounds,
N.O.S.
(not otherwise specified)
an antite
(sulfurous acid, 2—chloroethyl—,
2—4—(l,l—
dimethylethyl)phenoxy) —1—methylethyl ester)
arsenic and compounds, N.O.S.
arsenic acid (orthoarsenic acid)
arsenic
pentoxide
(arsenic
CV)
oxide)
arsenic tnioxide
(arsenic
(III)
oxide)
auramine
(benzenamine, 4,4’—canbonimidoylbisN,N—dimethyl—,
monohydrochlor ide
azaserine (L—serine,
diazoacetate (ester))
barium and compounds, N.O.S.
barium cyanide
benzcacnjdine
(3,4—benzacnidine)
benzaj
anthracene (1,2—benzanthnacene)
benzene (cyclohexatriene)
benzene,
2—amino—l—methyl (o—toluidine)
benzene,
4—amino—l-methyl (p—toluidine)
benzenearsonic acid (arsonic acid, phenyl—)
benzene, dichloroinethyl—
(benzal chloride)
benzenethiol
(thiophenol)
benzidine (l,l’—biphenyl—4,4’—diamine)
benzo(b)fluonanthene
(2,3—benzofluoranthene)
73-531
—58—
benzo(j)fluoranthene (7,8—benzofluoranthene)
benzo( a)pynene
(3,4—benzopyrene)
p—benzoguinone
(1 ,4—cyclohexadienedione)
benzotnichlonide (benzene, tnichloromethyl—)
benzyl chloride (benzene, (chloromethyl)—)
beryllium and compounds, N.O.S.
bis(2—chloroethoxy)methane
(ethane, l,l’—methylenebis(oxy)bis2—chloro—)
bis(2—chloroethyl) ether
(ethane, l,l’—oxybis2—chloro—
N,N-bis(2—chloroethyl)—2—napthylamine
(chlornaphazine)
bis(2—chloroisopropyl)
ether
(propane, 2,2’—oxybis2—chlorol—)
bis(chloromethyl) ether
(methane, oxybischloro—)
bis(2—ethylhexyl) phthalate
(l,2—benzenedicarboxylic acid,
bis(2—ethylhexyl) ester)
bromoacetone (2—propanone, 1—bronto—)
bromomethane (methyl bromide)
4—bromophenyl phenyl ether
(benzene, 1—bromo—4—phenoxy—)
brucine (strychnidin—lO—one,
2,3—dimethoxy—)
2—butanone peroxide
(methyl ethyl ketone, peroxide)
butyl benzyl phthalate
Cl,2—benzenedicarboxylic acid, butyl phenylmethyl ester)
2—sec—butyl—4,6—dinitrophenol
(DNBP)
(phenol, 2,4—dinitro—6—(l—methylpropyl)—)
cadmium and compounds, N.O.S.
calcium chnoinate (chromic acid, calcium salt)
calcium cyanide
carbon disulfide (carbon bisulfide)
carbon oxyfluonide (carbonyl fluoride)
chloral (acetaldehyde, trichloro—)
chlorambuc 11
(butanoic acid,
4—bisC2—chloroethyl)axninobenzene—)
chlordane
(alpha and gamma isomers)
(4,7—methanoindan,1,2,4,5,6,7,8, 8—octachlono--
3,4,7,7a—tetrahydro—)
(alpha and gamma isomers)
chlorinated benzenes, N.O.S.
chlorinated ethane, N.O.S.
chlorinated fluorocarbons, N.O.S.
chlorinated naphthalene, N.O.S.
chlorinated phenol,
N.’O.S.
chloroacetaldehyde (acetaldehyde,
chloro—)
chloroalkyl ethers, N.O.S.
p—chloroaniline Cbenzeneamine, 4—chloro—)
chlorobenzene
(benzene, chloro—)
chlonobenzilate
(benzeneacetic acid,
4—chloro—alpha—(4—chlorophenyl)—
alpha—hydroxy—,
ethyl
ester)
(2—chloro—l,3—butadiene
(chloroprene)
p—chlono—m—cresol
(phenol, 4—chloro—3-methyl—)
73-532
—59—
l—chloro—2
,
3—epoxypropane
(oxirane, 2—(chloromethyl)—)
2—chloroethyl vinyl ether
(ethene,
(2—chloroethoxy)—)
chloroform
(methane, trichloro—)
chloromethane
(methyl chloride)
chioromethyl methyl ether
(methane, chloromethoxy—)
2—chloronaphthalene (naphthalene, beta—chloro—)
2—chlorophenol (phenol,
o—chloro—)
l—(o—chlonophenyl)thiourea
(thiourea,
(2—chlorophenyl)—)
3—chioropropene
(allyl chloride)
3—chioropropionitrile (propanenitnile, 3—chloro—)
chromium and compounds, N.O.S.
chrysene
(1,2—benzphenanthr ene)
citrus red No.
2
(2—naphthol, l—(2,5—dimethoxyphenyl)azo—)
coal tars
copper cyanide
creosote (creosote, wood)
cresols
(cresylic acid)
(phenol, methyl—)
crotonaldehyde
(2—butenal)
cyanides
(soluble salts and complexes),
N.O.S.
cyanogen (ethanedinitnile)
cyanogen bromide
(bromine cyanide)
cyanogen chloride (chlorine cyanide)
cycasin
(beta—D—glucopyranoside,
(methyl—ONN—azoxy)methyl—)
2—cyclohexyl—4,6—dinitrophenol
(phenol, 2—cyclohexyl—4,6—dinitro—)
cyclophosphamide
(2H—l,3,2—oxazaphosphonine,
bis(2—chloroethyl)amino—
tetrahydro—, 2—oxide)
daunomycin
(5,12—naphthacenedione,
(8S—cis)—8—acetyl—lO—
C3—amino—2,3,6—trideoxy)—alpha—L—lyxo—hexopynanosyl)oxy—
7,8,9,l0—tetrahydro—6
,
8,11—tnihydnoxy—l—methoxy—)
DDD (dichlorodiphenyldichloroethane)
(ethane, l,l—dichloro—2,2—bis(p—chlorophenyl)—)
DDE
(ethylene,
1,l—dichloro—2,2—bis(4—chlorophenyl)—)
DDT (dichlorodiphenyltnichloroethane)
(ethane, 1,1,l—trichioro—2,2—bis(p—chlorophenyl)—)
dial late
(S—(2
,
3—dichloroallyl) diisopropylthiocarbamate)
dibenza,hacnidine
(1,2,5,6—dibenzacnidine)
dibenza,jacnidine
(l,2,7,8—dibenzacnidine)
dibenza,hanthracene
Cl,2,5,6—dibenzanthracene)
7H—dibenzoc,glcarbazole
(3,4,5,6—dibenzcarbazole)
dibenzoa,epynene
(1,2,4,5—dibenzpyrene)
dibenzoa,hpynene
Cl,2,5,6—dibenzpynene)
dibenzoa,ipynene
(l,2,7,8—dibenzpyrene)
1,2—dibnomo-3—chloropropane
(propane, l,2—dibromo-3—chloro—)
1,2—dibromoethane
(ethylene dibromide)
dibnomomethane (methylene bromide)
‘pa,,
—60—
di—n—butyl phthalate
(l,2—benzenedicarboxylic acid, dibutyl ester)
o—dichlorobenzene (benzene,
l,2—dichlono-)
m—dichlorobenzene (benzene, 1,3—dichloro-)
p—dichlorobenzene Cbenzene, l,4—dichloro—)
dichlorobenzene, N.O.S.
(benzene, dichloro—,
N.O.S.)
3,3 ‘—dichlorobenzidine
(l,l’—biphenyl—4,4’—diamine,
3,3’—dichloro—)
1,4—dichloro—2—butene
(2—butene,
l,4—dichlono—)
dichionodifluoromethane
(methane, dichiorodifluoro—)
l,l—dichloroethane
Cethylidine dichlonide)
l,2—dichloroethane (ethylene dichloride)
trans—l,2—dichlorethene
Cl,2—dichlorethylene)
dichloroethylene, N.O.S.
Cethene, dichloro—,
N.O.S.)
l,1—dichloroethylene
Cethene, l,1—dichloro—)
dichioromethane
(methylene chloride)
2,4—dichlorophenol
(phenol, 2,4—dichloro—)
2,6—dichlorophenol
(phenol, 2,6—dichloro—)
2,4—dichiorophenoxyacetic acid (2,4—D), salts and esters
(acetic acid, 2,4—dichlorophenoxy—, salts and esters)
dichiorophenyl arsine
(phenyl dichloroarsine)
dichloropropane, N.O.S.
(propane, dichloro—,N.O.S.)
1,2—dichioropropane
(propylene dichlonide)
dichloropropanol,
N.O.S.
(propanol, dichlono—,
N.O.S.)
dichloropropene, N.O.S.
(propene, dichlono—, N.O.S.)
1,3—dichlonopropene (1—propene, 1,3—dichloro—)
dieldnin
Cl,2,3,4,lO,lO—hexachlono—6,7—epoxy—l,4,4a,5,6,7,8,Sa—
octahydro—endo,exo—l,4:5,8—dimethanonaphthalene)
1,2:3,4—diepoxybutane (2,2’—bioxirane)
diethylarsine Carsine, diethyl—)
N,N’—diethylhydrazine
(hydnazine, 1,2—diethyl--)
0,0—diethyl S—methyl ester
of phosphorodithioic acid
(phosphorodithioic acid, 0,0—diethyl
S—methyl ester)
O,O—diethylphosphoric acid, 0—p—nitrophenyl ester
(phosphoric
acid,
diethyl p—nitrophenyl ester)
diethyl phthalate
(l,2—benzenedicarboxylic acid, diethyl
ester)
0,0—diethyl 0-2—pyrazinyl phosphorothioate
(phosphorothioic
acid, 0,0—diethyl 0—pynazinyl ester)
diethylstilbestrol
(4,4 ‘—stilbenediol, alpha, alpha—diethyl,
bis(dihydrogen phosphate,
CE)—)
dihydrosafrole
(benzene,
1 ,2—methylenedioxy—4—pnopyl—)
3,4—dihydroxy—alpha—(methylamino)methyl benzyl alcohol
(1,2—benzenediol, 4—l—hydroxy—2—(methylamino)ethyl—)
diisopropylfluorophosphate
(DFP)
Cphosphonofluoridic acid,
bis(l—methylethyl)
ester)
dimethoate
(phosphonodithioic
acid, 0,0—dimethyl
S—2—(methylamino)—2—oxoethyl
ester)
3,3’—dimethoxybenzidme
73-534
—61—
(1,l’—biphenyl—4,4’—diamine,
3,3’—dimethoxy—)
p—diinethylaminoazobenzene
(benzenamine, N,N—dimethyl—4—(phenylazo)—)
7,12—dimethylbenz a
anthracene
(1,2—benzanthracene, 7,l2—dimethyl—)
3,3 ‘—dimethylbenzidine
(l,l’—biphenyl—4,4’—diamjne,
3,3’—dimethyl—)
dimethylcarbamoyl chloride
(carbamaoyl chloride, dimethyl—)
l,l—dimethylhydrazine
(hydrazine,
1,1—dimethyl—)
l,2—dimethylhydrazine
(hydrazine, 1,2—dimethyl—)
3,3—dimethyl—1— (methylthio)—2—butanone,
0—
Cmethylamino)carbonyl
oxime
(thiofanox)
alpha, alpha—dimethylphenethylamine
(ethanamine,
l,l—dimethyl—2—phenyl—)
2,4—dimethylphenol
(phenol, 2,4—dimethyl—)
dimethyl phthalate
(l,2—benzenedicarboxylic acid, dimethyl ester)
dimethylsulfate
(sulfuric acid, dimethyl ester)
dinitrobenzene, N.0.S.
(benzene, dinitro—, N.O.S.)
4,6—dinitro—o—cresol and salts
(phenol, 2,4—dinitno—6—methyl—, and salts)
2,4—dinitrophenol
(phenol, 2,4—dinitro—)
2,4—dinitnotoluene
(benzene, l—methyl—2,4—dinitro—)
2,6—dinitrotoluene
(benzene, l—methyl—2,6—dinitro—)
di—n—octyl phthalate
(1,2—benzenedicarboxylic acid,
dioctyl ester)
1,4—dioxane
(1,4—diethylene oxide)
diphenylamine
(benzenamine, N—phenyl—)
1,2—diphenyihydrazine
(hydrazine,
1,2—diphenyl—)
di—n—propylnitrosamine (N—nitnoso—di—n—propylamine)
disulfoton
(O,O—diethyl S—2—(ethylthio)ethyl
phosphorodithioate
2,4—dithiobiuret (thioimidodicarbonic diamide)
endosulfan
(5—norbornene, 2,3—dimethanol, 1,4,5,6,7,7—hexachloro—,
cyclic sulfite)
endnin and metabolites
Cl,2,3,4,10,10—hexachlono—6,7—epoxy—l,4,4a,5,6,7,8,8a—
octahydro—endo,endo—l,4: 5,8—dimethanonaphthalene,
and metabolites)
ethyl carbamate
Curethan)
(carbamic acid, ethyl
ester)
ethyl cyanide
(propanenitrile)
ethylenebisdithiocarbamic acid, salts and esters
Cl,2—ethanediylbiscarbamodithioic acid, salts and esters)
ethylene glycol monoethyl ether
(ethanol,
2—ethoxy—)
ethyleneirnine (aziridine)
ethylene oxide
(oxirane)
ethylenethiourea
(2—imidazolidinethione)
ethyl methacrylate (2—propenoic acid,
2—methyl—, ethyl ester)
73.535
—62—
ethyl methanesulfonate
(methanesulfonic acid,
ethyl ester)
fluoranthene (benzoj,kfluorene)
fluorine
2—fluoroacetamide (acetamide,
2—fluono—)
fluoroacetic acid,
sodium salt
(acetic
acid,
fluoro—, sodium salt)
formaldehyde (methylene oxide)
formic acid (methanoic
acid)
glycidylaldehyde
(1—propanal,
2,3—epoxy—)
halomethane, N.O.S.
heptachlor
(4,7—methano—lif—idene,
l,4,5,6,7,8,8—heptachloro--
3a,4,7,7a—tetrahydro—)
heptachlor epoxide (alpha, beta and gamma isomers)
(4,7—methano—lH—indene, 1,4,5,6,7,8,8—heptachioro—
2,3—epoxy—3a,4,7,7—tetrahydro—,
alpha, beta and
gamma
isomers)
hexachlorobenzene (benzene, hexachloro—)
hexachlorobutadiene
C 1, 3—butadiene, hexachloro—)
hexachlorocyclohexane
(all isomers)
(lindane and isomers)
hexachlorocyclopentadiene
(cyclopentadiene, hexachloro—)
hexachlonodibenzo—p—dioxins
hexachlonodibenzofurans
hexachioroethane
C
ethane, hexachloro—)
l,2,3,4,lO,lO—hexachloro—1,4,4a,5,8,8a—hexahydro—l,4:5,8—
endo, endo—dimethanonaphthalene
(hexachlorohexahydro—endo,endo—dimethanonaphthalene)
hexachlorophene
(2,2’—methylenebis(3,4,6—trichlorophenol))
hexachloropropene
(propene, hexachioro—)
hexaethyl tetraphosphate
(tetraphosphoric acid,
hexaethyl ester)
hydrazine
(diamine)
hydrocyanic acid (hydrogen cyanide)
hydrofluonic acid (hydrogen fluoride)
hydrogen sulfide
hydroxydimethylansine oxide
(cacodylic acid)
indeno(l,2,3—cd) pyrene
l,lO—(1 ,2—phenylene)pyrene)
iodoinethane
(methyl iodide)
iron dextran (fernic dextran)
isocyanic acid, methyl ester
(methyl isocyanate)
isobutyl alcohol
(1—propanol, 2—methyl—)
isosafrole
(benzene, l,2—methylenedioxy—4—allyl—)
kepone
C decachlorooctahydro—l
,
3, 4—metheno—2H—
cyclobutacdj pentalen—2—one)
lasiocanpine
(2—butenoic
acid, 2—methyl—,
7—(2,3—dihydroxy—
2—( 1—niethoxyethyl
) —3—methyl—l—oxobutoxy)methyl
—
2,3,5,7a—tetnahydno—1H—pyrnolizin—l—yl ester)
lead and compounds, N.O.S.
73.536
—63--
lead acetate
(acetic acid,
lead salt)
lead phosphate (phosphoric acid,
lead salt)
lead subacetate
(lead, bis(acetato—O)tetrahydroxytni-)
maleic anhydnide
(2,5—furandione)
maleic hydrazide (l,2—dihydno—3,6—pyridazinedione)
malononitrile (propanedinitnile)
meiphalan
alanine, 3—p—bis(2—chloroethyl)amino)phenyl—,
L—)
mercury fulminate
(fulminic acid, mercury salt)
mercury and compounds, N.O.S.
methacrylonitnile
(2—propenenitnile,
2—methyl—)
methanethiol (thiomethanol)
methapyr ilene
(pyridine, 2—(2—dimethylamino)ethyl—2—thenylamino—)
metholmyl
Cacetimidic acid, N—(methylcarbamoyl)oxythio—,
methyl ester)
methoxychlon
(ethane, l,1,l—tnichloro—2,2’—bis(p—methoxyphenyl)—)
2—methylaziridine (1,2—propylenimine)
3—methylcholanthrene
(benzjaceanthrylene,
1,2—dihydro—3—methyl—)
methylchlorocarbonate
(carbanochloridic
acid, methyl ester)
4,4‘—methylenebis(2—chloroaniline)
4,4 ‘—methylenebis(2—chlonobenzenamine))
methyl ethyl ketone
(MEK)
(2—butanone)
methyl hydrazine (hydrazine, methyl—)
2—methyllactonitnile (proparienitnile, 2—hydroxy—2—methyl—)
methyl methacrylate
(2—propenoic acid,
2—methyl—, methyl ester)
methyl methanesulfonate (methanesulfonic acid, methyl ester)
2—methyl—2—(methylthioCpropionaldehyde—O—
(methylcanbonyl) oxime
(propanal,
2—methyl—2-(niethylthio)—,
O—(methylamino)carbonyloxime)
N—methyl—N’—nitro—N—nitrosoguanidine
(guanidine, N—nitroso—N—methyl—N’—nitro—)
methyl parathion
(0,0—dimethyl O—(4—nitrophenyl) phosphorothioate)
methylthiouracil
(4—1H—pyrimidinone, 2,3—dihydro—6—methyl—2—thioxo—)
mustard gas (sulfide, bis(2—chloroethyl)—)
naphthalene
l,4—naphthoquinone
(1,4—naphthalenedione)
1—naphthylamine
(alpha—naphthylainine)
2—naphthylamine (beta—naphthylamine)
1—naphthyl—2—thiourea
(thiourea, l—naphthalenyl—)
nickel
and compounds, N.O.S.
nickel carbonyl (nickel tetracarbonyl)
nickel cyanide
(nickel
(II)
cyanide)
nicotine and salts
(pyridine,
(S)—3—(1—methyl—2—pyrnolidinyl)—, and salts)
nitric oxide
(nitrogen
(II) oxide)
p—nitroaniline (benzenamine, 4—nitro—)
73.537
—64—
nitnobenzene
Cbenzene, nitro—)
nitrogen dioxide (nitrogen
(IV)
oxide)
nitrogen mustard and hydrochloride salt
(ethanamine,
2—chloro—, N—C2—chlonoethyl)—N—methyl—,
and hydrochloride salt)
nitrogen mustard N—oxide and hydrochloride salt
(ethanamine,
2—chloro—, N—(2—chloroethyl)—N—methyl—,
N—oxide, and hydrochloride salt)
nitroglycerin (1,2,3—propanetriol,
tninitrate)
4—nitrophenol (phenol,
4—nitro—)
2—nitropropane
(propane, 2—nitro—)
4—nitroquinoline—l—oxide (quinoline, 4—nitro--l—oxide—)
nitrosamine, N.O.S.
N—nitrosodi—n—butylamine (1—butanamine, N—butyl—N—nitroso—)
N—nitrosodiethanolamine (ethanol, 2,2’—(nitrosoimino)bis—)
N-nitrosodiethylamine
(ethanarnine, N—ethyl—N—nitroso—)
N—nitrosodimethylamine (dimethylnitnosamine)
N—nitroso—N—ethylurea (carbamide, N—ethyl—N—nitroso—)
N—nitrosomethylethylamine
C ethanamine, N—methyl—N—nitroso—)
N—nitroso—N—methylurea (carbamide, N—methyl—N—nitroso-)
N—nitroso—N—methylurethane
(carbamic acid, methylnitroso—,
ethyl ester)
N-nitrosomethylvinylamine
(ethenaniine, N—methyl—N—nitroso—)
N-nitrosomorpholine (morpholine, N—nitroso-)
N—nitrosonornicotine (nornicotine, N—nitroso—)
N-nitrosopipenidine (pynidine, hexahydro—, N—nitroso—)
N—nitrosopyrrolidine (pyrrole, tetrahydro—, N—nitroso—)
N—nitrososarcosine
(sarcosine, N—nitroso—)
5—nitro—o—toluidine (benzenaniine, 2—methyl—5—nitno—)
octamethylpyrophosphoramide (diphosphoramide, octamethyl-)
osmium tetroxide (osmium (VIII)
oxide)
7—oxabicyclo2.2.lheptane—2,3—dicarboxylic
acid
(endothal)
paraldehyde
(1,3,5—trioxane,
2,4,6—trimethyl--)
parathion
(phosphorothioic
acid, 0,0—diethyl O-(p—nitrophenyl)
ester)
pentachlorobenzene (benzene, pentachloro—)
pentachlorodibenzo—p—dioxins
pentachlonodibenzofunans
pentachioroethane (ethane, pentachioro—)
pentachloronitrobenzene (PCNB)
(benzene, pentachloronitro—)
pentachiorophenol (phenol, pentachioro—)
phenacetin (acetamide, N— (4—ethoxyphenyl
)—)
phenol
(benzene, hydroxy—)
phenylenediamine
(benzenediamine)
phenylmercury acetate
(mercury, acetatophenyl—)
N—phenylthiounea (thiourea, phenyl—)
phosgene (carbonyl chloride)
phosphine (hydrogen phosphide)
73.538
—65—
phosphorodithioic
acid, 0,0—diethyl S—(ethylthio)methyl
ester
(phorate)
phosphorothioic acid,
0,O—diniethyl
0—p—((dimethylamino)sulfonyl)phenyl
ester
(famphur)
phthalic acid esters, N.O.S.
(benzene, l,2—dicarboxylic acid, esters, N.O.S.)
phthalic anhydnide
(l,2—benzenedicarboxylic acid anhydride)
2—picoline
(pynidine,
2—methyl—)
polychloninated biphenyl, N.0.S.
potassium cyanide
potassium silver cyanide
C argentate(1—), dicyano—, potassium)
pronamide
C 3, 5—dichloro—N—(1,l—dimethyl—2—propynyl
)benzamide)
1,3—propane sultone
(l,2—oxathiolane, 2,2—dioxide)
n—propylamine (l—propanamine)
propylthiouracil
(2,3—dihydro—6—propyl—2—thioxo—4(lH)—pyrimidinone)
2—propyn—1—ol (propargyl
alcohol.)
pyridine
reserpine
(yohimban—16—carboxylic acid,
ll,l7—dimethoxy—
18—(3,4,5—trimethoxybenzoyl)oxy)—,
methyl ester)
resorcinol
(l,3—benzenediol)
saccharin and salts
(1,2—benzoisothiazolin—3—one, 1,1—dioxide, and salts)
safrole (benzenè, 1,2—methylenedioxy—4—allyl—)
selenious acid (selenium dioxide)
selenium and compounds, N.O.S.
selenium sulfide (sulfur selenide)
selenourea
(carbamimidoselenoic acid)
silver
and compounds, N.O.S.
silver cyanide
sodium cyanide
streptozotocin
CD—glucopyranose, 2—deoxy—2—(3—methyl—3—nitnosoureido)—)
strontium sulfide
strychnine and salts
(strychnidin—lO—one, and salts)
1,2,4,5—tetrachlorobenzene
Cbenzene,
1,2,4,5—tetrachloro—)
Tetrachlorodibenzo—p—dioxins
2,3,7,8—tetrachlorodibenzo—p—dioxin
(TCDD)
(dibenzo—p—dioxin, 2,3,7,8—tetrachloro—)
tetrachlorodibenzofurans
tetrachioroethane, N.O.S.
(ethane, tetnachloro—, N.O.S.)
1,1,l,2—tetrachlonoethane
(ethane, 1,1,1,2—tetnachloro—)
l,l,2,2—tetrachloroethane
(ethane, 1,1,2,2—tetrachlono—)
tetnachloroethene (perchloroethylene)
tetnachlonomethane
(carbon tetrachlonide)
2,3,4,6—tetrachlonophenol
(phenol, 2,3,416—tetrachloro—)
73.539
—66—
tetraethyldithiopyrophosphate
(dithiopyrophosphonic acid,
tetraethyl ester)
tetraethyl lead (plumbane, tetraethyl—)
tetraethylpynophosphate (pynophosphonic
acid,
tetraethyl ester)
tetranitromethane (methane, tetnanitno—)
thallium and compounds, N.O.S.
thallic oxide (thallium (III)
oxide)
thallium
(I)
acetate (acetic acid, thallium
(I)
salt)
thallium (I) carbonate
(carbonic acid,
dithallium
(I)
salt)
thallium
(I)
chloride
thallium
(I) nitrate
(nitric acid,
thallium
(I)
salt)
thallium selenite
thallium (I)
sulfate
(sulfuric acid, thallium
(I)
salt)
thioacetamide (ethanethioamide)
thiosemicarbazide
(hydrazinecarbothioamide)
thiourea (carbamide, thio—)
thiuram
(bis(dimethylthiocarbamoyl)
disulfide)
toluene
(benzene, methyl—)
toluenediamine
,
N.O.S.
(diaminotoluene N.O.S.)
2,4—toluenediamine
2, 6—toluenedjamme
3,4—toluenediamine
toluene diisocyanate
(benzene, l,3—diisocyanatomethyl—)
o—toluidine hydrochloride
(benzeneamine,
2—methyl—,
hydrochloride)
toxaphene (camphene,
octachloro—)
tnibnomomethane (bromoform)
l,2,4—tnichlorobenzene
(benzene, l,2,4—trichlono—)
l,l,l—trichloroethane
(methyl chloroform)
l,l,2—tnichloroethane
Cethane, l,l,2—tnichloro—)
tnichloroethene (tnichloroethylene)
tnichloromethanethiol
(methanethiol, trichlono—)
trichloromonofluoromethane
(methane, tnichlorofluoro—)
2,4,5—tnichlorophenol
(phenol, 2,4,5—tnichloro—)
2,4,6—tnichlorophenol
(phenol, 2,4,6—tnichloro—)
2,4,5—trichlorophenoxyacetic acid
(2,4,5—T)
(acetic acid,
2,4,5—tnichlorophenoxy—)
2,4,5—tnichlorophenoxypropionic acid C2,4,5—TP)
(silvex)
(propionic acid,
2—(2,4,5—tnichlorophenoxy)—)
tnichloropropane, N.O.S.
(propane,
tnichloro—, N.O.S.)
1,2,3—tnichloropropane
(propane, 1,2,3—tnichioro—)
0,0,0—tniethyl phosphorothioate
(phosphorothioic acid, O,O,O—tniethyl ester)
sym—tr
mi
trobenzene
(benzene, 1,3,5—tninitro—)
tnis(l—aziridinyl) phosphine sulfide
(phosphine sulfide, tnis(l—aziridinyl)—)
tnisC2,3—dibromopnopyl) phosphate
(l—pnopanol,
2,3—dibromo-, phosphate)
trypan blue
(2,7—naphthalenedisulfonic acid,
3,3’—(3,3’—
dimethyl(1,1’—biphenyl)—4,4’—diyl)bis(azo)bis(5—
73.540
—67—
anuino—4—hydroxy-, tetrasodium salt)
undecamethylenediamine, N,N’—bis(2—chlorobenzylamine),
c3ihydnochlonide
(N,N’—undecamethylenebis) 2—chlorobenzylamine),
dihydnochloride)
uracil mustard
(uracil, 5—bis(2—chloroethyl)amino—)
vanadic acid, ammonium salt Cammonium vanadate)
vanadium pentoxide Cvanadiurn
CV)
oxide)
vinyl chloride (ethene, chloro—)
zinc cyanide
zinc phosphide
(Source:
Amended at 10
Ill. Reg.
effective
)
73-541
—68—
TITLE
35:
ENVIRONMENTAL PROTECTION
SUBTITLE C:
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
Purpose, Scope and Applicability
Hazardous Waste Determination
USEPA Identification Numbers
SUBPART B:
THE MANIFEST
Section
722. 120
722.121
722.122
722.123
General Requirements
Acquisition of Manifests
Number of Copies
Use of the Manifest
SUBPART C:
PRE-TRANSPORT REQUIREMENTS
Section
722.130
722.131
722.132
722.133
722.134
Section
722.140
722.141
722.142
722.143
722. 144
Packaging
Labeling
Marking
Placarding
Accumulation Time
Recordkeeping
Annual Reporting
Exception Reporting
Additional Reporting
Special Requirements for Generators of between 100
and 1000 kilograms per month
SUBPART
E:
SPECIAL CONDITIONS
Section
722.150
722.151
Appendix A
International Shipments
Farmers
Form—Annual Report
(EPA Form 8700—13)
(Repealed)
AUTHORITY:
Implementing Section 22.4 and authorized by Section
27 of the Environmental Protection Act
(Ill.
Rev. Stat.
1985,
ch.
111 1/2, pars.
1022.4 and 1027).
Section
722.110
722.111
722.112
SUBPART D:
RECORDKEEPING AND REPORTING
73-542
—69—
SOURCE:
Adopted
in R8l—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; amended
in R82—l8,
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—l
at 10
Ill.
Reg. 14112, effective August 12,
1986;
amended
in R86—19 at 10
Ill. Reg.
,
effective
SUBPART B:
THE MANIFEST
Section 722.120
General Requirements
a)
A generator who transports, or offers for
transportation,
hazardous waste
for off—site treatment,
storage or disposal must prepare
a manifest before
transporting the waste off—site.
b)
A generator must designated on the manifest one facility
which is permitted to handle the waste described on the
manifest.
C)
A generator may also designate on the manifest one
alternate facility which is permitted to handle his
waste in the event an emergency prevents delivery of the
waste to the primary designated facility.
d)
If the transporter
is unable
to deliver the hazardous
waste to the designated facility or the alternate
facility, the generator must either designate another
facility on instruct the transporter
to
return the
waste.
e)
The requirements of this Subpart do not apply to
hazardous waste produced by generators of greater than
100
kg but less than 1000 kg in
a calendar month where:
~J
The waste
is reclaimed under
a contractual
agreement pursuant to which:
A)
The type of waste and frequency of shipments
are specified
in the agreement:
B)
The vehicle used to transport the waste
to the
recycling facility and
to deliver regenerated
material back to the generator
is owned and
operated by the reclaimer of the waste;
and
2)
The generator maintains
a copy of the reclamation
agreement
in his files
for
a period of
at least
three years
after
termination or expiration of the
agreement.
73.543
—70—
(Source:
Amended at 10 Ill Reg.
effective
)
SUBPART C:
PRE-TRANSPORT REQIJIREMENTS
Section 722.134
Accumulation Time
a)
A Except as provided
in subsections (d),(e)
or
(f),
a
generator may accumulate hazardous waste on—site for 90
days or less without a permit or without having interim
status provided that:
1)
The waste
is placed
in containers and the generator
complies with Subpert I of 35 Ill. Adm. Code
725.Subpart
I or the waste is placed
in tanks and
the generator complies with Subpert ~ of 35 Ill.
Adm. Code 725.Subpart J except 35 Ill.
Adm. Code
725. 293;
2)
The date upon which each period of accumulation
begins
is clearly marked and visible for inspection
on each container;
3)
While being accumulated on—site, each container and
tank is labeled or marked clearly with the words,
“Hazardous Waste”, and
4)
The generator complies with the requirements for
owners or operators in Subperts
e
end B in 35 Ill.
Adm. Code 725.Subparts
C and D and with 35 Ill.
Mm.
Code 725.116.
b)
A generator who accumulates hazardous waste for more
than 90 days
is an operator of a storage facility and is
subject to the requirements of
35 Iii. Adm. Code 724 and
725 and the permit requirements of 35 Ill. Adm. Code
702,
703 and 705 unless he the generator has been
granted
an extension of the 90—day period.
~ueh
extension mey be grented by the Agency ilf hazardous
wastes must remain on—site for longer than 90 days due
to unforeseen,
temporary,
and uncontrollable
circumstances~,the generator may seek an extension of
~p to 30 days by means of
a variance or provisional
variance, pursuant to Section 37 of
the Environmental
Protection Act.
An extension of up to 3G deys mey be
grented et
the
discretion of
the
Agency en e
esse bes4s~
c)
1)
A generator may accumulate
as much as
55 gallons of
hazardous waste or one quart of acutely hazardous
waste listed
in 35 Ill. Adm. Code 721.133(e)
in
containers at or near any point of generation where
wastes initially accumulate, which
is under
the
73.544
—71—
control of the operator of the process generating
the waste, without a permit or interim status and
without complying with paragraph
(a) provided hethe
generator:
A)
Complies with 35 Ill. Adm. Code 725.271,
725.272 and 725.273(a);
and
B)
marks his the generator’s containers either
with the words “Hazardous Waste”
or with other
words that identify the contents of the
containers.
2)
A generator who accumulates either hazardous waste
or acutely hazardous waste listed in 35
Ill.
Adm.
Code 721.133(e)
in excess of the amounts listed
in
peregrephsubsection (c)(l)
at or near any point of
generation must, with respect to that amount of
excess waste, comply within three days with
peregrephsubsection
(a)
or other applicable
provisions of this chapter.
During the three day
period the generator must continue
to comply with
peregrephesubsection
Cc)(l).
The generator must
mark the container holding
the excess accumulation
of hazardous waste with the date the excess amount
began accumulating.
~j
A generator who generates greater than 100 kilograms but
less than 1000 kilograms of hazardous waste
in
a
calendar month may accumulate hazardous waste on—site
for 180 days or less without
a permit or without having
interim status provided that:
1)
The quantity of waste accumulated on—site never
exceeds 6000 kilograms:
2)
The generator complies with the requirements of
subsection
(a)(1)
except the generator need not
comply with 35 Ill. Adm. Code 725.276:
3)
The generator complies with the requirements of
subsections
(a)(2)
and
(a)(3) and
the requirements
of 35 Ill. Mm. Code 725.Subpart C; and
4)
The generator complies with the following
requirements:
A)
At all times there must be at least one
employee either on the premises or on call
(i.e., available to respond
to an emergency by
reaching the facility within
a short period
of
time) with the responsibility for coordinating
all emergency response measures specified in
subsection Cd)(4)(D).
The employee
is the
7a-sgs
—72—
emergency coordinator.
B)
The generator shall post the following
information next
to the telephone:
fl
The name and telephone number of the
emergency coordinator:
ii)
Location of fire extinguishers and spill
control material, and
if present, fire
alarm: and
iii) The telephone number of the fire
department, unless the facility has a
direct alarm.
C)
The generator shall ensure that all employees
are thoroughly familiar with proper waste
handling and emergency procedures, relevant to
their responsibilities during normal facility
operations and emergencies:
D)
The emergency coordinator or designee shall
respond
to any emergencies that arise.
The
applicable responses are as follows:
1)
In the event of a fire,
call the fire
department or attempt to extinguish it
using
a fire extinguisher:
ii)
In the event of a spill,
contain the flow
~f hazardous waste
to the extent
possible,
and as soon as is practicable,
clean up the hazardous waste and any
contaminated materials or soil:
iii)
In the event of
a fire, explosion or
other release which could threaten human
health outside the facility or when the
generator has knowledge that
a spill has
reached surface water,
the generator
shall immediately notify the National
Response Center
(using its 24—hour toll
free number 800/424—8802).
The report
must include the following information:
the name, address and USEPA
identification number
(35 Ill. Adm. Code
722.112)
of the generator; date, time and
type of
incident (e.g., spill or fire);
quantity and type of hazardous waste
involved
in
the
incident;
extent
of
injuries,
if any; and, estimated quantity
and disposition of recoverable materials,
if any.
73-546
—73—
e)
A generator who generates greater than 100 kilograms but
less than 1000 kilograms of hazardous waste
in a
calendar month and who must transport the waste,
or
offer
the waste for transportation, over
a distance of
200 miles or more
for off—site treatment, storage on
disposal may accumulate hazardous waste on—site for 270
days
or less without
a permit or without having
interim
status provided that the generator complies with the
requirements of subsection (d).
f)
A generator who generates greater than 100 kilograms but
less than 1000 kilograms of hazardous waste
in a
calendar month and who accumulates hazardous waste
in
quantities exceeding 6000 kg
or accumulates hazardous
waste for more than 180 days
(or for more than 270 days
if the generator must transport the waste, or offer the
waste for transportation, over
a distance of 200 miles
or more)
is an operator of a storage facility and
is
subject to the requirements
of
35 Ill. Adm. Code 724 and
725 and the permit requirements of 35 Ill. Adm. Code 703
unless the generator has been granted an extension to
the 180—day
(or 270—day if applicable)
period.
If
hazardous wastes must remain on—site for longer than 180
days
(or 270 days if applicable) due
to unforeseen,
temporary and uncontrollable circumstances, the
generator may seek an extension of up to 30 days by
means of variance or provisional variance pursuant to
Section 37
of the Environmental Protection Act.
(Source:
Amended at 10 Ill Reg.
effective
)
SUBPART D:
RECORDKEEPING AND REPORTING
Section 722.144
Special Requirements for Generators of between
100 and 1000 kilograms per month
A generator who generates greater than 100 kilograms but less
than 1000 kilograms of hazardous waste
in
a calendar month
is
exempt from the requirements of this Subpart, except for
the
recordkeeping requirements in Section 722.140(a),(c)
and (d),
and
the requirements of Section 722.143.
Source:
Added at
10 Ill Reg.
,
effective
73-547
—74—
TITLE
35:
ENVIRONMENTAL PROTECTION
SUBTITLE G: WASTE DISPOSAL
CHAPTER
I:
POLLUTION CONTROL BOARD
SUBCHAPTER
C:
HAZARDOUS WASTE OPERATING REQUIREMENTS
PART 723
STANDARDS APPLICABLE TO TRANSPORTERS OF HAZARDOUS WASTE
SUBPART A:
GENERAL
Section
723.110
Scope
723.111
USEPA Identification Number
723.112
Transfer Facility Requirements
SUBPART B:
COMPLIANCE WITH THE MANIFEST SYSTEM AND
RECORDKEEPING
Section
723.120
The Manifest System
723.121
Compliance with the Manifest
723.122
Recordkeeping
SUBPART C:
HAZARDOUS WASTE DISCHARGES
Section
723.130
Immediate Action
723.131
Discharge Clean
tip
AUTHORITY:
Authorized by Section 27 and implementing Section
22.4 of the Environmental Protection Act
(Ill. Rev. Stat.
1985,
Ch.
111 1/2, pars.
1027 and 1022.4).
SOURCE:
Adopted
in R8l—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 17,
at
6
Ill. Reg. 4828, effective as
noted
in 35
Ill. Adm. Code 700.106;
amended
in R84—9, at 9 Ill.
Reg.
11961, effective July 24, 1985;
amended in R86—19, at 10
Ill. Reg.
,
effective
SUBPART B:
COMPLIANCE WITH THE MANIFEST SYSTEM
AND
RECORDKEEPING
Section 723.120
The Manifest System
a)
A transporter may not accept hazardous waste from a
generator unless it is accompanied by
a manifest, signed
by the generator in accordance with the provisions of
Pert
35
Ill. Adm. Code 722.
b)
Before transporting the hazardous waste, the transporter
must sign and date the manifest acknowledging acceptance
of the hazardous waste
from the generator.
The
73-548
—75—
transporter must return a signed copy of the generator
before leaving the generator’s property.
c)
The transporter must ensure that the manifest
accompanies the hazardous waste.
d)
A transporter who delivers a hazardous waste
to another
transporter or
to the designated facility must:
1)
Obtain the date of delivery and the handwritten
signature of that transporter or of the owner or
operator of the designated facility on the
manifest; and
2)
Retain one copy of the manifest
in accordance with
Section 723.122;
and
3)
Give the remaining copies of the manifest to the
accepting transporter or designated facility.
e)
The requirements of paregreph subsections
(c),
Cd)
and
(f)
of this section do not apply to water
(bulk
shipment) transporters if:
1)
The hazardous waste
is delivered by water
(bulk
shipment)
to the designated facility; and
2)
A shipping paper containing all the information
required on the manifest (excluding the EPA
identification numbers, generator certification and
signatures)
accompanies the hazardous waste; and
3)
The delivering transporter obtains the date of
delivery and handwritten signature of the owner or
operator designated facility on either the manifest
or the shipping paper; and
4)
The person delivering the hazardous waste to the
initial water
(bulk shipment)
transporter obtains
the date of delivery and signature of the water
(bulk shipment)
transporter on the manifest and
forwards it
to the designated facility; and
5)
A copy of the shipping paper or manifest is
retained by each water
(bulk shipment)
transporter
in accordance with Section
723.122.
f)
For shipments involving rail transportation, the
requirements of peregrephe subsections (c),
Cd)
and
Ce)
do not apply and the following requirements do apply:
1)
When accepting hazardous waste from a non—rail
transporter, the initial rail transporter must:
73.549
—76—
A)
Sign and date the manifest acknowledging
acceptance of the hazardous waste;
B)
Return a signed copy of the manifest to the
non—rail transporter;
C)
Forward at least three copies of the manifest
to:
i)
The next non—rail transporter, if any;
or,
ii)
The designated facility,
if the shipment
is delivered to that facility by rail;
or
iii) The last rail transporter designated
to
handle the waste in the United States;
D)
Retain one copy of the manifest and rail
shipping paper
in accordance with Section
723.122.
2)
Rail transporters must ensure that a shipping paper
containing all the information required on the
manifest (excluding the EPA identification numbers,
generator certification and signatures)
accompanies
the hazardous waste at all times.
(Board Note.
——
Intermediate rail transporters are
not required
to sign either
the manifest or
shipping paper.)
3)
When delivering hazardous waste
to the designated
facility,
a rail transporter must:
A)
Obtain the date of delivery and handwritten
signature of the owner
or operator
of the
designated facility on the manifest or the
shipping paper
(if the manifest has not been
received by the facility);
and
B)
Retain
a copy of the manifest or
signed
shipping paper
in accordance with Section
723. 122.
4)
When delivering hazardous waste
to a non—rail
transporter
a
rail
transporter
must:
A)
Obtain the date of delivery and the
handwritten signature of the next non—rail
transporter on the manifest; and
B)
Retain
a copy of the manifest in accordance
with Section
723.122.
73.550
—77—
5)
Before accepting hazardous waste from
a rail
transporter, a non—rail transporter must sign and
date the manifest and provide a copy of the rail
transporter.
g)
Transporters who transport hazardous waste out of the
United States must:
1)
indicate on the manifest the date the hazardous
waste left the United States;
and
2)
sign the manifest and retain one copy in accordance
with Section
723.122(c);
and
3)
return
a signed copy of the manifest to the
generator.
h)
A transporter
transporting hazardous waste from a
generator who generates greater than 100 kilograms but
less than 1000 kilograms of hazardous waste
in a
calendar month
need not compl~’with the requirements of
this Section or those of Section 723.122 provided that:
1)
The waste is being transported pursuant to a
reclamation agreement provided for
in 35 Ill. Adm.
Code 722.120(e)
2)
The transporter
records, on
a log or shipping
paper, the following information for each shipment:
A)
The name, address,
and USEPA Identification
Number
(35 Ill. Adm. Code 722.112)
of the
generator of the waste
B)
The quantity of waste accepted
C)
All
shipping information required by the
United States Department of Transportation
D)
The date the waste
is accepted; and
3)
The transporter carries this record when
transporting waste
to the reclamation facility; and
4)
The transporter
retains these records for
a period
of at least three years after termination or
expiration of the agreement.
Source:
Amended
at
10 Ill Reg.
effective
IT IS SO ORDERED.
73.551
—78—
I, Dorothy
M. Gunn,
Clerk of the Illinois Pollution Control
Board, hereby certify that the above Order was adopted on
the .~3”(dayof
~
,
1986,
by a vote of ~-o
Dorothy M.
Gu4in, Clerk
Illinois Pollution Control Board
73.552