ILLINOIS POLLUTION CONTROL BOARD
Narch 28,
1991
IN THE MATTER OF:
)
R91—l
RCRA UPDATE, USEPA REGULATIONS
)
(Identical
in Substance Rules)
(7—1—90 through 12—31—90)
)
PROPOSAL
FOR
PUBLIC
CONNENT
PROPOSED
ORDER
OF
THE
BOARD
(by
J.
Anderson):
Pursuant to Sections 22.4(a)
of the Environmental Protection
Act
(Act),
the Board proposes amendments to the Resource
Conservation and Recovery Act
(RCRA)
regulations.
Section 22.4(a) provides for quick adoption of regulations
which are “identical
in substance” to federal regulations and
that Title VII of the Act and Section
5 of the Administrative
Procedure Act
(APA)
shall not apply.
Because this rulemaking is
not subject to Section
5 of the APA,
it is not subject to first
notice or to second notice review by the Joint Committee on
Administrative Rules
(JCAR).
The federal RCRA regulations are
found at 40 CFR 260 through 268.
This rulemaking updates RCRA
rules to correspond with federal amendments more fully outlined
in the accompanying Opinion.
This Order is supported by an Opinion adopted on the same
day.
The Board will receive public comment on the proposal for a
period of 45 days following
its publication in the Illinois
Register.
The complete text of the proposed rules follows.
IT IS SO ORDERED.
I,
Dorothy M. Gunn,
Clerk of the Illinois Pollution Control
Board, hereby~~ç~rtify
that the above Proposed Order was adopted
on the
____________
day of __________________________,
1991,
by
a vote of
(—0
Dorothy N. ~4’unn,Clerk
Illinois Pd~J1utionControl Board
120—361
2
TITLE 35:
ENVIRONMENTAL PROTECTION
SUBTITLE
G:
WASTE DISPOSAL
CHAPTER I:
POLLUTION CONTROL BOARD
SUBCHAPTER b:
PERMITS
PART 703
RCRA PERMIT PROGRAM
SUBPART A:
GENERAL PROVISIONS
Scope and Relation to Other Parts
Purpose
References
SUBPART
B:
PROHIBITIONS
Section
703.120
703.121
703
.
122
703.123
703 .124
703.125
703.126
703.127
Prohibitions in General
~RCRA~Permits
Specific Inclusions in Permit Program
Specific Exclusions from Permit Program
Discharges of Hazardous Waste
Reapplications
Initial Applications
Federal Permits
(Repealed)
SUBPART
C:
AUTHORIZATION BY RULE AND INTERIM STATUS
Section
703.140
703.141
703
.
150
703 .151
703 .1-52
703.153
703.154
703.155
703.156
703.157
703.158
703.159
703.160
Section
703.180
703.181
703.182
703.183
703.184
703.185
703.186
703. 187
Purpose and Scope
Permits by Rule
Application by Existing
HWN
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
Closure by Removal
Procedures for Closure Determination
SUBPART D:
APPLICATIONS
Applications in General
Contents of Part A
Contents of Part B
General Information
Facility Location Information
Groundwater Protection Information
Exposure Information
Solid Waste Management Units
Section
703.100
703.101
703.110
120—3 62
3
703.188
703 .200
703.201
703
.
202
703.203
703. 204
703.205
703.206
703.207
703.208
703.209
Section
703.221
703.222
703 .223
703.224
703.225
703.230
703.231
Section
703.240
703.241
703.242
703.243
703.244
703.245
703.246
703.247
Section
703.260
703.270
703.271
703.272
703.273
703.280
703.281
703.282
703.283
Appendix A
Other Information
Specific Information
Containers
Tank Systems
Surface
Impoundments
Waste Piles
Incinerators
Land Treatment
Landfills
Drip Pads
Miscellaneous
Units
SUBPART
E:
SHORT
TERM
AND
PHASED PERMITS
Emergency Permits
Incinerator Conditions Prior to Trial Burn
Incinerator Conditions During Trial Burn
~Incinerator’ConditionsAfter Trial Burn
Trial Burns for Existing Incinerators
Land
Treatment
Demonstration
Research, Development and Demonstration Permits
SUBPART F:
PERMIT CONDITIONS OR DENIAL
Permit Denial
Establishing
Permit
Conditions
Noncompliance
Pursuant
to
Emergency
Permit
Monitoring
Notice of Planned Changes
Twenty-four Hour Reporting
Reporting Requirements
Anticipated Noncompliance
SUBPART G:
CHANGES TO PERMITS
Transfer
Modification
Causes for Modification
Causes for Modification or Reissuance
Facility
Siting
Permit Modification at the Request of the Perinittee
Class
1 Modifications
Class
2 Modifications
Class
3 Modifications
Classification
of
~Permit
Modifications
AUTHORITY:
Implementing Section 22.4 and authorized by Section
27 of the Environmental Protection Act
(Ill.
Rev.
Stat.
1989,
ch.
111 1/2, pars.
1022.4 and 1027).
SOURCE:
Adopted in P82—19,
53 PCB 131, at 7 Ill. Reg.
14289,
12~—
363
4
effective
October
12,
1983;.
amended
in R83-24 at
8 Ill. Reg. 206,
effective December 27,
1983; amended in R84—9.at 9 Iii. Reg.
11899,
effective
July
24,-
1985;
amended
in
P85—22
at
iQIll.
Reg.
1110,
effective January
2,
1987; amended
in
R85—23
at
10
Ill.
Reg.
13284,
effective
July
28,~1986;
amended
in
P86—1
at
10
Ill.
Reg.
14093,
effective
August
12,
1986;
amended
in
P86-19
at
10
Ill. Peg.
20702, effective December
2, 1986; amended
in R86-28 at
11 Ill.
Peg.
6121, effective March 24,
1987;
amended in R86-46 at
11 Ill.
Reg.
13543,
effective August
4,
1987; amended in R87-5 at
11 Ill.
Reg.
19383, effective November 12,
1987; amended in R87-
26 at 12 Ill.
Reg.
2584, effective January 15,
1988; amended in
P87—39
at
12
Ill.
Reg.
13069,
effective
July
29,
1988;
amended
in
P88-16 at 13
Ill.
Peg.
447, effective December 27,
1988; amended
in P89-i at 13 Ill.
Reg.
18477, effective November 13,
1989;
amended
in R89—9 at 14
Ill. Peg.
6278,
effective April
16,
1990;
amended in P90—2 at 14
Ill. Peg.
14492, effective August 22,
1990;
amended
in
R90-1l
at
15
Iii.
Peg.
,
effective
SUBPART D:
APPLICATIONS
Section 703.208
prip Pads
Except as otherwise provided by 35 111.
Adm.
Code 724.101,
owners
3nd operators of hazardous waste treatment,
storage or disposal
facilities that collect,
store or treat hazardous waste on drip
pads shall provide the following additional information:
A list of hazardous wastes placed or to be placed on
each drip pad.
~j
If an exemption is sought to 35 Ill. Adm.
Code
724.Subpart
F,
as provided by 35
Ill.
Adm. Code
724.190, detailed plans and an engineering report
describing how the requirements of 35 Ill.
Adm.
Code
724.190(b) (2) will be met.
Qj
Detailed ~1ans and an engineering report describing how
the drip pad is or will be designed,
constructed,
operated and maintained to meet the requirements of 35
Ill. Adm.
Code 724.672, including the as-built drawings
and
specifications.
This
submission
must
address
the
following items as specified in
35
Ill.
Adm.
Code
724.671
:
jj
The design characteristics of the drip pad
~
The liner system
fl
The leakage detection system,
including the leak
detection system and how it
is designed to
detect..
the failure of the drip pad or the presence of ~
120—364
5
releases of hazardous waste or accumulated liquid
at
the
earliest
practicable
time
j)~.
Practices
designed to maintain drip pads
.~j..
The associated collection system
~j
Control of run-on to the drip pad
fl
Control
of
run-off
from
the
drip
pad
~
The interval at which drippa~eand other materials
will be removed from the associated collection
system and
a statement demonstrating that the
interval will be sufficient to prevent overflow
onto the drip pad
~j
Cleaning procedures and documentation.
~j
Procedures for cleaning the drip pad at least
once every seven days to ensure the removal
of any accumulated residues of waste or other
materials,
including,
but not limited to:
rinsing; washing with detergents or other
appropriate solvents;
or, steam cleaning.
And,
~J.
Provisions for documenting the date,
time and
cleaning procedure used each time the pad is
cleaned.
~Q)
Operating practices and procedures that will be
followed to ensure that tracking of hazardous
waste or waste constituents off the drip pad due
to activities bY personnel or equipment is
minimized
~j.
Procedures for ensuring that1
after removal from
the treatment vessel, treated wood from pressure
and non—pressure processes is held on the drip pad
until drippage has ceased. including recordkeeping
practices
•
~j
Provisions for ensuring that collection and
holding units associated with the run—on and run—
•
off control systems are emptied or otherwise
mana~edas soon as ~ossib.leafter storms to
maintain design capacity of the system
j~j
If treatment is carried out on the drip pad,
details of the process equipment used,
and the
nature and quality of the residuals.
120—365
6
~.41
A
description
of
how
each
drip
pad,
including
appurtenances
for
control
of
run—on
and
run—off,
will
be
inspected
in
order
to
meet
the
requirements of 35 Ill.
Adm. Code 724.672.
This
information must be included in the inspection
plan
submitted
under
Section
703.183(e).
~j
A certification signed by an independent
qualified,
registered
professional
engineer,
stating
that
the
drip
pad
design
meets
the
requirements of 35 Ill.
Adm. Code 724.671(a)
-
(f).
j~j A description of how hazardous waste residues and
contaminated materials will be removed from the
drip pad at closure,
as required under 35 Ill.
-Adm. Code 724.673(a).
For any waste not to be
removed from the drip pad upon closure,
the owner
or operator shall submit detailed plans and an
engineering report describing how 35
Ill.
Adin.
Code 724.410(a)
and
(b) will be complied with.
This information must be included
in the closure
plan and, where applicable,
the post—closure plan
submitted under Section 703.183(m).
BOARD NOTE:
Derived from 40 CFP 270.22, adopted
at 55 Fed. Reg.
50489,
December
6,
1990.
(Source:
Added at 15
Ill. Peg.
,
effective
120—366
7
TITLE 35:
ENVIRONMENTAL PROTECTION
SUBTITLE G:
WASTE DISPOSAL
-CHAPTER I:
-POLLUTION CONTROL BOARD
SUBCHAPTER c:
HAZARDOUS WASTE
OPERATING
REQUIREMENTS
PART
720
HAZARDOUS WASTE MANAGEMENT SYSTEM:
GENERAL
SUBPART A:
GENERAL PROVISIONS
Section
720.101
Purpose, Scope and Applicability
720.102
Availability of Information; Confidentiality of
Information
720.103
Use
of
Number
and
Gender
SUBPART
B:
DEFINITIONS
Section
720~.110
Definitions
720.111
References
SUBPART
C:
RULEMAKING PETITIONS AND
OTHER
PROCEDURES
Section
720. 120
Rulemaking
720.121
Alternative Equivalent Testing Methods
720.122
Waste Delisting
720.130
Procedures for Solid Waste Determinations
720.131
Solid
Waste
Determinations
720.132
Boiler Determinations
720.133
Procedures
for
Determinations
720.140
Additional regulation of certain hazardous waste
Recycling Activities on a case—by—case Basis
720.141
Procedures for case—by—case regulation of hazardous
waste
Recycling
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.
1989,
ch.
ill 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 P81—22,
45 PCB 317, at 6 Ill. Peg. 4828,
effective as
noted-in 35 Ill. Adm. Code 700.106; amended in P82—19 at 7
Ill.
Reg.
14015, effective:Oct.
12,
1983; amended in P84—9,
53 PCB 131
at 9Ill.
Peg.
11819, effective~Ju1y24,
1985; amended in P85—22
at 10 Ill.Reg.
968,
effective January 2,
1986; amended in P86-i
at 10 Ill.
Peg.
13998,
effective August 12,
1986; amended in R86—
19 at 10 Ill.
Peg. 20630,-effective December 2,
1986; amended in
P86—28 at 11 Ill. Peg.
6017, effective March 24, 1987; amended in
P86-46
•at 11 Ill. Peg.
13435, effective August
4,
1987;
amended
in P87—5 at 11 Ill.
Peg.
19280, effective November 12,
1987;
120—367
8
amended in P87-26 at 12 Ill.
Peg.
2450,
effective
January
15,
1988;
amended
in
R87—39
at
12
Ill.
Peg.
12999,
effective
July
29,
l988;-amended in P88—16 at 13
Ill. Reg.
362, -effective December
27,
1988;
amended in R89—1 at 13
Ill.
Peg. 18278,~effective
November 13,
1989; amended in P89—2 at 14 Ill. Reg.
3075,
effective February 20,
1990;
amended in R89-9 at 14 Ill. Peg.
6225, effective April 16,
1990; amended in P90—10 at 14 Ill. Peg.
,
effective
September
25,
1990;
amended
in
P90—17
at
15
Ill.
Reg.
,
effective
;
amended
in
P90—li.
at
15
Ill. Peg.
,
effective
;
amended
in
P91-1
at
15
Ill.
Reg.
,
effective
SUBPART B:
DEFINITIONS
Section 720.110
Definitions
When
used
in
35
Ill.
Adm.
Code
720
through
725
and 728 only, the
following terms have- the meanings given below:
“Aboveground tank” means a device meeting the
definition of “tank” that is situated in such a way
that
the
entire
surface
area
of
the
tank
is
completely
above the plane of the adjacent surrounding surface and
the entire surface area of the tank (including the tank
bottom)
•is able to be visually inspected.
“Act” or “PCRA” means the Solid Waste Disposal Act,
as
amended by the Resource Conservation and Recovery Act
of 1976, as amended
(42 U.S.C.
6901 et seq.)
“Active life” of a facility means the period from the
initial receipt of hazardous waste at the facility
until the Agency receives certification of final
closure.
“Active portion” means that portion of a facility where
treatment,
storage or disposal operations are being or
have
been
conducted
after
May
19,
1980, and which is
not
a
closed
portion.
(See
also
“closed
portion”
and
“inactive
portion”.)
“Administrator” means the Administrator of the U.S.
Environmental Protection Agency or the Administrator’s
designee.
“Agency” means the Illinois Environmental Protection
Agency.
“Ancillary equipment” means any device including,
but
not limited to, such devices as piping,
fittings,
flanges, valves and pumps,
that is used to distribute,
meter
or
control
the
flow
of
hazardous
waste
from
its
120—368
9
point of generation to storage or treatment tank(s),
between hazardous waste storage and. treatment tanks to.
a.
point
of
disposal.
onsite,
or
to.. a
point
of
shipment
for disposal off-site.
“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 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
120—369
10
annual basis.
In this calculation,
no
credit
shall be given for recovered heat used internally.
tn
the
same
unit.
(Examples.
of. internal
use
are
:he preheating of fuel or combustion—ai-r,
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”.)
“Component” means either the tank or ancillary
equipment of a tank system.
“Confined aquifer” means an aquifer bounded above and
below by- impermeable beds or by beds of distinctly
lower -permeability than that of the aquifer itself;
an
aquifer containing confined groundwater.
“Container” means any portable device
in, which a
material
is stored, transported, treated, disposed of~
or otherwise handled.
“Contingency.plan” means a document setting out an
organized, planned and coordinated course of action to
be followed in case of a fire,
explosion or release of
hazardous waste or hazardous waste constituents which
could threaten human health or the environment.
“Corrosion expert” means a person who, by reason of
knowledge of the physical sciences and the principles
of engineering and mathematics, acquired by a
professional education and related practical
experience,
is qualified to engage in the practice of
corrosion
control
on
buried
or
submerged
metal
piping
systems
and
metal
tanks.
Such
a
person
must
be
-
certified
as
being
qualified
by
the
National
Association
of
Corrosion
Engineers
(NACE)
or
be
a
registered
professional
engineer
who
has
certification
or
licensing
that
includes
education
and
experience
in
corrosion control on buried or submerged metal piping
systems and metal tanks.
120—370
11
“Designated facility”.
“Designated facility” means.a hazardous waste
treatment,
storage or disposa
facility,
-
Which:
Has received a PCRA permit
(or interim
status) pursuant to 35 Ill. Adm. Code
702,
703 and 705;
Has received a RCRA permit from USEPA
pursuant to 40 CFP 124 and 270
(1989);
Has received a PCRA permit from a state
authorized by USEPA pursuant to 40 CFR
271
(1989)
;
or
Is
regulated
under
35
Ill.
Adin.
Code
721.106(c) (2)
or 266.Subpart
F;
and
Which has been designated on the manifest by
the
generator
pursuant
to
35 Ill. Adm. Code
722.120.
If a waste is destined to a facility in a state,
other than Illinois, which has been authorized by
USEPA pursuant to 40 CFP 271, but which has not
yet
obtained authorization to regulate that waste
as
hazardous,
then
the
designated
facility
must
be
a facility allowed by the receiving state to
accept such waste.
“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 thatsuch 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.
12 0—3
7 1
12
“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.
“Drip pad” means an engineered structure consisting of
a
curbed,
free—draining
base,
constructed
of
non—
earthen materials and designed to convey preservative
kick-back
or
drippage
from
treated
wood1
precipitation
and
surface
water
run-on
to
an
associated
collection
system
at
wood
preserving
plants.
“Elementary
neutralization
unit”
means
a
device
which:
Is
used
for neutralizing wastes which are
hazardous only because they exhibit the
corrosivity
characteristic
defined
in
35
Ill.
Adin.
Code
721.122
or
are
listed
in
35
Ill.
Adm.
Code
72l.Subpart
D
only
for
this
reason;
and
Meets
the
definition
of
tank,
tank
system,
container,
transport
vehicle
or
vessel
in
this
Section.
“EPA”
or
“USEPA
“
means
United
States
Environmental
Protection Agency.
“EPA
hazardous
waste
number”
or
“USEPA
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.
Adra.
Code 72l.Subpart C.
“EPA
identification
number”
or
“USEPA
identification
number”
means
the
number
assigned
by
USEPA
pursuant
to
35
Ill.
Adm.
Code
722
through
725
to
each
generator,
transporter
and
treatment,
storage
or
disposal
facility.
“EPA region” means the states and territories found in
any
one
of
the.following
ten
regions:
Region
I:
-
Maine,
Vermont,
New
Hampshire,
Massachusetts,
Connecticut
and
Rhode
Island.
Region
II:
New
York,
New Jersey,
Commonwealth
of
Puerto
Rico
and
the
U.S.
Virgin
Islands
Region
III:
Pennsylvania,
Delaware,
Maryland,
West
Virginia,
Virginia
and
the
District
of
Columbia
120—372
13
Region IV:
Kentucky,
Tennessee, North Carolina,
Mississippi,.
Alabama,
Georgia,~.South.Carolina
an&
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 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.
“Existing tank system”. or “existing component” means a
tank system or component ~that is used for the storage
or treatment of hazardous waste and that is in
operation,
or for which installation has commenced on
or prior to July 14,
1986.
Installation will be
considered to have commenced if the.owner or operator
120—3 73
14
has
obtained
all
federal,
State
and
local
approvals
or
permitsnecessaryto begin physical construction of the
site
-or
installation
of
the
tank
.system
.and..J1. either
A
continuous
on—site
physical
construction
or
installation program has begun; or
The owner or operator has entered into contractual
obligations
——
which cannot be canceled or
modified without substantial loss
——
for physical
construction of the site or installation of the
tank system to be completed within a reasonable
time.
“Facility” means all contiguous land and structures,
other appurtenances and Improvements on the land used
for treating, storing or disposing of hazardous waste.
A facility may -consist. of.several .treatment,
storage or
disposal operational units
(e.g.,
one or more
landfills,
surface impoundments or combinations of
them).
“Final closure” means the closure of all hazardous
waste management units at the facility in accordance
with all-applicable closure requirements so that
hazardous waste management activities under 35 Ill.
Adm. Code 724 and 725 are no longer conducted at the
facility unless subject to the provisions of 35
Ill.
Adm. Code 722.134.
“Federal agency” means any- department,
agency or other
instrumentality of the federal government, any
i-ndependent 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 andthe surface
of the waste. contained therein.
“Free liquids” means liquids which readily separate
from the solid portion of
a waste under ambient
120—3 74
15
temperature and pressure.
“Generator” means any person,
by. site, .,whose.act or
process produce hazardous waste identified or listed in
35 Ill. Adm. Code 721 or whose act first causes a
hazardous waste to become subject to regulation.
“Groundwater” means water below the land surface in a
zone of saturation.
“Hazardous waste” means a hazardous waste as defined in
35
Ill. Adm. Code 721.103.
“Hazardous waste constituent” means a constituent which
caused the hazardous waste to be listed in 35 Ill.
Adm.
Code 721.Subpart D, or a constituent listed in of
35
Ill. Adm. Code 721.124.
“Hazardous
waste
management
unit”
is
a
contiguous
area
of land on or in which hazardous waste is placed, or
the largest area in which there is significant
likelihood of mixing hazardous waste constituents in
the same area.
Examples of hazardous waste management
units include a surface impoundment,
a waste pile,
a
land treatment area,
a landfill cell, an incinerator,
a
tank and its associated piping and.underlying
containment system and a container storage area.
A
container alone does not constitute a unit;
the unit
includes containers and the land or pad upon which they
are placed.
“Inactive portion” means that portion of a facility
which is not.operated after November 19,
1980.
(See
also “active portion” and “closed portion”.)
“Incinerator” means any enclosed device using
controlled flame combustion which
is neither a “boiler”
nor an “industrial furnace”.
“Incompatible waste” means a hazardous waste which is
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.
120—375
16
(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 refin~ngfurnaces
(including
pyrometallurgical devices such as cupolas,
reverberator furnaces, sintering machines,
roasters and foundry furnaces)
Titanium dioxide chloride process oxidation
reactors
Methane reforming furnaces
Pulping liquor recovery furnaces
Combustion devices used in the recovery of sulfur
values from spent sulfuric acid
Any other such device as the Agency determines to
be an “Industrial Furnace” on the basis of one or
more of the following factors:
The design and use of the device primarily to
accomplish recovery of material products;
The use of the device to burn or reduce raw
materials to.make a material product;
The use of the device to burn or reduce
secondary materials as effective substitutes
for raw materials,
in processes using raw
materials as principal feedstocks;
The use of the device to burn or reduce
120—3 76
17
secondary materials as ingredients in an
industrial process to make a material
product;
The use of the device
in. common industrial
practice to produce a material product;
and
Other relevant factors.
“Individual generation site” means the contiguous site
at or on which one or more hazardous wastes are
generated.
An individual generation site,
such as a
large manufacturing plant, may have one or more sources
of hazardous waste but is considered a single or
individual generation site
if the site or property is
contiguous.
“Inground: tank” means a device meeting the definition
of “tank” whereby a portion of the tank wall is
situated to any degree within the ground, thereby
preventing visual inspection of that external surface
area of the tank that is in the ground.
“In operation” refers to a facility which is treating,
storing or disposing of hazardous waste.
“Injection well”. means a well into which fluids are
being injected.
(See also “underground injection”.)
“Inner liner” means
a continuous layer of material
placed inside a tank or container which protects the
construction materials of the tank or container from
the contained waste
or reagents used to treat the
waste.
“Installation inspector” means a person who, by reason
of knowledge of the physical sciences and the
principles of engineering, acquired by a professional
education and related practical experience,
is
qualified to supervise the installation of tank
systems.
“International shipment” means the transportation of
hazardous waste into or out of the jurisdiction of the
United States.
“Land treatment facility” means a facility or part of a
facility at.which hazardous waste
is. applied onto or
incorporated into the soil surface;. such facilities are
disposal facilities if the waste will remain after
closure.
120—37 7
18
“Landfill” means a disposal facility or part of a
facility where hazardous waste is placed in or on land
and which is not-a pile,
a land treatment ..fagility,
a
surface impoundment, an underground’injection well,
a
salt dome formation,
an underground mine or a cave.
“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 a continuous layer of natural or manmade
materials beneath or on the sides of a surface
impoundment,
landfill or landfill cell, which restricts
the downward or lateral escape of hazardous waste,
hazardous waste constituents or leachate.
“Leak-detection system” means a system capable of
detecting the failure of either the primary or
secondary containment structure or the presence of a
release of hazardous waste or accumulated liquid in the
secondary containment structure.
Such a system must
employ operational controls
(e.g., daily visual
inspections for releases into the secondary containment
system of aboveground tanks)
or consist of an
interstitial monitoring device designed to detect
continuously and automatically the failure of the
primary or secondary containment structure or the
presence-.of a release of hazardous waste into the
secondary containment structure.
“Management”
or “hazardous waste management” means the
systematic control of the collection,
source
separation, storage,
transportation, processing,
treatment, recovery and disposal of hazardous waste.
“Manifest” means the shipping document. originated and
signed by the generator which contains the information
required by 35 Ill. Adm. Code 722.Subpart
B.
“Manifest document number” means the USEPA twelve digit
identification number assigned to the generator plus a
unique five digit document number assigned to the
manifest by the generator for recording and reporting
purposes.
“Mining overburden returned to the mine site” means any
material overlying an economic mineral deposit which is
120—378
19
removed to gain access to that deposit. and is then used
for reclamation of a surface mine.
“Miscellaneous unit” means a hazardous ‘waste management
unit where hazardous waste
is
treated,... stored or
disposed of and which is not a container,
tank,
tank
system, surface impoundment, pile,
land treatment unit,
landfill, incinerator, boiler, industrial furnace,
underground injection well with appropriate technical
standards under 35
Ill. Adm. Code 730, or a unit
eligible for a research, development and demonstration
permit under 35 Ill. Adm. Code 703.231.
“Movement” means that hazardous waste transported to a
facility in an individual vehicle.
“New hazardous waste management facility” or “new
facility” means a facility which began operation, or
for which construction commenced,
after November 19,
1980.
(See also “Existing hazardous waste management
facility”.)
“New tank system” or “new tank component” means a tank
system or component that will be used for the storage
-~ortreatment of hazardous waste and for which
installation commenced after July 14,
1986;
except.,
however,
for purposes of
35 Ill. Adm. Code
724.293(g) (2) and 725.293(g) (2), a new tank system is
one fcr which construction commences after July 14,
1986.
(See also “existing tank system.”)
“Onground tank” means a device meeting the definition
of “tank” that is..situated in such a way that the
bottom of the tank is on the same level as the adjacent
surrounding surfaces so that the external tank bottom
cannot be visually inspected.
“On—site” means the same or geographically contiguous
property which may be divided by public or private
right—of—way, provided the entrance and exit between
the properties is at a crossroads intersection and
access is by crossing as opposed to going along the
right—of—way.
Noncontiguous properties owned by the
same person but connected by a right—of-way which he
controls and to.which the.-public~does.not..haveaccess_..
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;
120—379
20
Containment of the combustion reaction in an
enclosed.device to provide sufficient.,.re.sidence
time and mixing.for complete: combustion; and
Control of emission of the gaseous combustion
products.
(See also “incineration” and “thermal treatment”.)
“Operator”
means
the
person
responsible
for
the
overall
operation of
a facility.
“Owner” means the person who owns a facility or part of
a facility.
“Partial closure” means the closure of a hazardous
-waste management.unit in accordance with the applicable
closure requirements of 35 Ill. Adm. Code 724 or 725 at
a facility which contains other active hazardous waste
management units.
For example, partial closure may
include the closure of a tank (including its associated
piping and underlying containment systems), landfill
cell,
surface impoundment, waste pile or other
-hazardous waste management -unit,
while other units
of.
the same facility continue to operate.
“Person” means an individual, trust,
firm,
joint
stock..
company,
federal agency, corporation (including a
government corporation), partnership, association,
state,
municipality, commission,
political subdivision
of a state or any interstate body.
“Personnel” or “facility personnel” means all persons
who work at or oversee the operations of a hazardous
waste facility and whose actions or failure to act may
result in noncompliance with the requirements of 35
Ill. Adm. Code 724 or 725.
“Pile” means any noncontainerized accumulation of
solid, non-flowing hazardous waste that is used for
treatment or storage.
“Point source” means any discernible, confined and
discrete conveyance including, but not. limited to,
any...
pipe, ditch, channel, tunnel,
conduit, well, discrete
fissure, container, rolling stock,
concentrated animal
feeding operation or vessel or other floating craft
from which pollutants are.or may be discharged.
This
term does not include return flows from irrigated
agriculture.
120—380
21
“Publicly
owned treatment works” or
“POTW”
is
as
defined in 35
Ill. Adm. Code 310.110.
“Regional Administrator” means the-Regional
Administrator
for
the
EPA
Region
in
which
the
facility
is located or the Regional Administrator’s 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.-
“Punon” means any rainwater,
leachate or other liquid
that drains over land onto any part of a facility.
“Saturated zone” or “zone of saturation” means that
part of the earth’s crust in which all voids are filled
with water.
“SIC Code” means Standard Industrial Code as defined in
Standard Industrial Classification Manual,
incorporated
by reference in Section 720.111.
“Sludge” means any solid,
semi—solid or liquid waste
generated from a municipal, commercial or industrial
wastewater treatment plant, water supply treatment
plant or air pollution control facility exclusive of
the treated effluent from
a wastewater treatment plant.
“SmallQuantity Generator” means a generator which
generates less than 1000 kg of hazardous waste in a
calendar month.
“Solid waste” means a solid waste as defined in 35 Ill.
Adm. Code 721.102.
“Stamp” means any pit or reservoir that meets the
definition of tank and those troughs or trenches
connected to it that serve to collect hazardous waste
for transport to hazardous waste storage, treatment or
disposal facilities.
“State” means any of the several states, the District
of Columbia, the 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
120—381
22
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.
“Tank system” means a hazardous waste storage or
treatment tank and its associated ancillary equipment
and containment system.
“Thermal treatment” means the treatment of hazardous
waste
in a device which uses elevated temperatures as
the primary means to change the Ohemical, 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.
120—382
23
“Transporter” means a person engaged in the off—site
transportation
of
hazardous
waste.by.air,
rail,
highway
or
water.
“Treatability study” means:
A
study
in which a hazardous waste is subjected to
a
treatment
process
to
determine:
Whether the waste is amenable to the
treatment
process.
What pretreatment
(if any)
is required.
The optimal process conditions needed to
achieve the desired treatment.
The efficiency of a treatment process for a
specific waste or wastes.
Or,
The
characteristics
and volumes of residuals
from
a particular treatment process.
Also included in this definition for the purpOse....
of 35 Ill.
Adm. Code 721.104(e)
and
(f) exemptions
are liner compatibility, corrosion and other
material compatibility studies and toxicologicaL.~...
and health effects studies.
A “treatability
study”
is not a means to commercially treat or
dispose of hazardous waste.
“Treatment” means any method, technique or process,
including neutralization,
designed to change the
physical, chemical or biological character or
composition of any hazardous waste so as to neutralize
such waste,
or so as to recover energy or material
resources from the waste or so as to render such waste
non-hazardous or less hazardous; safer to transport,
store or dispose of; or amenable for recovery,
amenable
for storage or reduced in volume.
“Treatment zone” means a soil area of the unsaturated
zone of
a land treatment unit within which hazardous
constituents are degraded, transformed or
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”.)
120—383
24
“Underground tank” means a device meeting the
definition
of
“tank”
‘whose
entire
surface
area
is
totally
.
below the-surface of andrcovered -by the ground.
“Unfit-for-use tank system” means a tank system that
has been determined through an integrity assessment or
other inspection to be no longer capable of storing or
treating hazardous waste without posing a threat of
release of hazardous waste to the environment.
“Uppermost aquifer” means the geologic formation
nearest the natural ground surface that is an aquifer,
as well as lower aquifers that are hydraulically
interconnected with this aquifer within the facility’s
property boundary.
“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.
“Unsaturated
zone”
or
“zone
of
aeration”
means
the
zone
between
the
land
surface
and
the
water
table.
“USEPA” means United States Environmental Protection
Agency.
“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
has an NPDES permit pursuant to 35 Ill. Adm. Code
309 or a pretreatment permit or authorization to
discharge pursuant to 35 Ill. Adm. Code 310; and
Receives and treats or stores an influent
wastewater which is a hazardous waste as defined
in 35 Ill. Adm. 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
waste’
as
defined in 35 Ill. Adm. Code 721.103; and
Meets the definition of tank or tank system in
this Section.
“Water
(bulk shipment)” means the bulk transportation
of hazardous waste which is loaded .or carried on board
120—384
25
a
vessel
without.containers
or
labels.
“Well”
means
any
shaft
or
pit
dug..or.~.bored into
the
‘earth, generally of a cylindrical form, and often
walled with bricks or tubing to prevent the earth from
caving in.
“Well
injection”
(See
“underground
injection”).
“Zone
of
engineering
control”
means
an
area
under
the
control of the owner or operator that, upon detection
of a hazardous waste release, can be readily cleaned up.
prior to the release of hazardous waste or hazardous
constituents to groundwater or surface water.
(Source:
Amended at 15 Ill.
Reg.
,
effective
Section 720.111
References
a)
The following publications are incorporated by
reference:
ANSI.
Available from the American National
Standards Institute,
1430 Broadway, New York,
New.
York
10018,
(212)
354—3300:
ANSI B3l.3 and B3l.4.
See ASME/ANSI B3l.3
and B3l.4
API.
Available from the American Petroleum’
Institute,
1220 L Street, N.W.,
Washington,
D.C.
20005,
(202)
682—8000:
“Guide
for
Inspection
of
Refinery
Equipment,
Chapter XIII, Atmospheric and Low Pressure
Storage Tanks,” 4th Edition,
1981,
reaffirmed
December,
1987.
“Cathodic Protection of Underground Petroleum
Storage
Tanks
and
Piping
Systems,”
API
Recommended Practice 1632,
Second Edition,
December,
1987.
“Installation,of Underground Petroleum
Storage Systems,” API Recommended Practice
1615,
Fourth Edition, November,
1987.
APTI.
Available from the Air and Waste Management
Association,
Box 2861, Pittsburg,
PA
15230,
(412)
232—3444:
120—3 85
26
APTI Course
415:
Control of Gaseous
Emissions, EPA Publication EPA-450/2-81-005,
December, 1981.
ASME.
Available from the American Society of
Mechanical
Engineers,
345
East
47th
Street,
New
York,
NY
10017,
(212)
705—7722:
“Chemical
Plant
and
Petroleum
Refinery
Piping”,
ASME/ANSI
B31.3—l987,
as
supplemented
by
B31.3a-1988
and
B3l.3b-1988.
Also
available
from
ANSI.
“Liquid Transportation Systems for
Hydrocarbons,
Liquid
Petroleum
Gas,
Anhydrous
Ammonia,
and
Alcohols”, ASME/ANSI B3l.4—
1986,
as supplemented by B31.4a—l987.
Also
available from ANSI.
ASTM.
Available from American Society for Testing
and Materials,
1916 Pace Street, Philadelphia,
PA
19103,
(215)
299—5400:
-“ASTN
Standard Tc3t Mcthods for Flash Point
of Liquids by Setaflash Cl-osed Tester,”
ASTN...
Standard D—3828 87.
ASTM D93—85,”ASTM Standard Test Methods for
Flash Point kyPensky-Martens Closed
Tester-7-’1-
ASTM
Standard
D
93-79 or D-93—COapproved
October 25,
1985.
ASTM Dl946—90, Standard Practice for Analysis
of Reformed Gas by Gas Chroinatographyr
Approved March 30,
1990.
ASTM D2267-88, Standard Test Method for
Aromatics in Light Naphthas and Aviation
Gasolines
by
Gas
Chromatography,
approved
November 17,
1988.
ASTM D2382-88, Standard Test Method for Heat,
of Combustion of Hydrocarbon Fuels by Bomb
Calorimeter
(High Precision Method~,approved
October 31,
1988.
ASTM D2879-86, Standard Test Method for Vapor
Pressure-Temperature Relationship and Initial
Decomposition Temperature of Liquids by
Isoteniscope, approved October
31,
1986.
ASTN D3828-87, Standard Test Methods for
120—3 86
27
Flash
Point
of
Liquids
by
Setaf lash
Closed
Tester. approved December 14,
1988.
ASTM El68-88, Standard Practices for General
Techniques
of
Infrared
Quantitative
Analysis,
approved
May
27,
1988.
ASTM E169-87, Standard Practices for General
Techniques
of Ultraviolet—Visible
Quantitative Analysis, approved FebruarY 1,
1987.
ASTM E260-85, Standard Practice for Packed
Column Gas Chromatography1 approved June 28,
1985.
GPO.
Available from the Superintendent of
Documents,
U.S. Government Printing Office,
Washington,
DC.
20401,
(202)
783—3238:
Standard Industrial Classification Manual
(1972),
and
1977 Supplement,
republished in
1983
NACE.
.
Available from the National Association....of.
Corrosion Engineers,
1400 South Creek Dr.,
Houston, TX
77084,
(713)
492—0535:
“Control of External Corrosion on Metallic
Buried,
Partially Buried,
or Submerged Liquid
Storage Systems”, NACE Recommended Practice
RP0285-85,
approved March,
1985.
NFPA.
Available from the National Fire Protection
Association, Batterymarch Park,
Boston, MA
02269,
(617) 770—3000 or
(800)
344—3555:
“Flammable and Combustible Liquids Code” NFPA
30,
issued July 17,
1987.
Also available
from
ANSI.
NTIS.
Available from the National Technical
Information Service, 5285 Port Royal Road,
Springfield, VA
22161,
(703)
487—4600:
“Generic Quality Assurance Project Plan for
Land Disposal Restrictions Program”, EPA/530-
SW-87-011, March 15,
1987.
(Document number
PB
88—l70766.j
“Methods for Chemical Analysis of Water and
Wastes”,
Third
Edition,
March,
1983.
120—38 7
28
(Document number PB 84-128677)
“Petitions to Delist Hazardous Wastes
--
A
Guidance
Manual”,
EPA/530—SW-85—003,
April,
.1985.
(Document Number PB 85—194488
“Procedures
Manual
for
Ground
Water
Monitoring
at
Solid
Waste
Disposal
Facilities”, EPA—530/SW—611,
1977.
(Document
number PB 84—174820)
“Test Methods for Evaluating Solid Waste,
Physical/Chemical Methods,” EPA Publication
number SW-846
(Second Edition,
1982 as
amended by Update I
(April,
1984)
and Update
II
(April,
1985))
(Document number PB 87-
120291)
STI.
Available from the Steel Tank Institute,
728
Anthony Trail, Northbrook, IL
60062,
(312)
498-
1980:
“Standard for Dual Wall Underground Steel
Storage Tanks”
(1986).
USEPA.
Available from United States Environmental
Protection.Agency,
Office of Drinking Water, State
Programs Division, WH 550 E, Washington, D.C.
20460:
“Technical Assistance Document:
Corrosion,
Its Detection and Control in Injection
Wells”,
‘EPA
570/9—87—002,
August,
1987.
b)
Code of Federal Regulations.
Available from the
Superintendent of Documents, U.S. Government Printing
Office,
Washington,
D.C.
20401,
(202)
783—3238:
10 CFR 20, Appendix B
(1989) (1990)
40 CFR 60
(1990)
40 CFR 61. Subpart V
(1990)
40
CFP
136
(1939)
(1990)
40 CFR 142 -(1989) (1990)
40.CFR 220 (1989) (1990)
40 CFP 260.20
(1939) (1990)
~20—388
29
40 CFR 264
(1939) (1990)
40
.CFR
302.4,
302.5
and
302.6
(1939)
(1990)
40
CFR
761
(l989)j~j..
c)
Federal Statutes
Section 3004 of the Resource Conservation and Recovery
Act
(42 U.S.C.
6901 et seq.), as amended through
December 31,
1987.
d)
This
Section
incorporates
no
later
editions
or
amendments.
120—389
30
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
721. 108
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
PCB Wastes Regulated under TSCA
SUPBAPTSUBPART
B:
CRITERIA FOR IDENTIFYING THE CHARACTERISTICS
OF HAZARDOUS WASTE AND
FOR LISTING HAZARDOUS WASTES
Section
721.110
Criteria for Identifying the Characteristics of
Hazardous Waste
721.111
Section
Criteria for Listing Hazardous Waste
SUBPART
C:
CHARACTERISTICS OF HAZARDOUS WASTE
General
Characteristic of Ignitability
Characteristic
of
Corrosivity
Characteristic of Reactivity
Toxicity Characteristic
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
721.135
Wood Preserving Wastes
Appendix
Appendix
Appendix’ C’
Table A
Table B
A
Representative Sampling Methods
B
Method 1311 Toxicity Characteristic Leaching
Procedure
(TCLP)
Chemical Analysis Test Methods
Analytical Characteristics of Organic Chemicals
(Repealed)
Analytical Characteristics of Inorganic Species
721. 120
721. 121
721. 122
721. 123
721. 124
Section
721. 130
721.131
721. 132
721. 133
120—390
31
(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
J
Method
of
Analysis
for
Chlorinated
Dibenzo-p-
Dioxins and Dibenzofurans
Appendix
Z
Table to Section 721.102
AUTHORITY:
Implementing Section 22.4 and authorized by Section
27 of the Environmental Protection Act
(Ill.
Rev.
Stat.
1989,
ch.
111 1/2,
pars.
1022.4 and 1027).
SOURCE:
Adopted
in
P81-22,
43 PCB 427, at
5 Ill.
Reg. 9781,
effective as noted in 35
Ill.
Adm. Code 700.106; amended and
codified in P81—22,
45 PCB 317,
at
6 Ill. Peg.
4828, effective as
noted in 35
Ill. Adm. Code 700.106; amended in P82—18,
51 PCB 31,
at
7
Ill.
Peg.
2518,
effective February 22,
1983; amended
in P82-
19,
53 PCB 131,
at
7
Ill. Peg.
13999,
effective October 12,
1983;
amended in P84-34,
61 PCB 247,
at
8
Ill.
Peg.
24562,
effective
December 11,
1984; amended in P84—9,
at 9
Ill.
Peg.
11834,
effective July 24,
19.85; amended in P85—22 at 10
Ill. Reg.
998.,
effective January
2,
1986; amended in R85—2 at 10 Ill. Peg.
8112,
effective May 2,
1986; amended
in P86—i at 10 Ill.
Reg.
14002,
effective August 12,
1986;
amended in R86—19 at 10
Ill.
Peg.
20647,
effective December
2,
1986; amended in R86—28 at 11 Ill.
~Reg. 6035,
effective March 24,
1987; amended
in
R86—46
at
11
Ill.
Peg.
13466,
effective August
4,
1987; amended in P87—32 at 11
Ill.
Peg.
16698, effective September 30,
1987;
amended
in
P87-S
at 11 Ill.
Peg.
19303, effective November 12,
1987;
amended in
P87-26 at 12 Ill.
Peg.
2456, effective January 15,
1988;
amended
in P87-30 at 12
Ill. Peg.
12070,
effective July 12,
1988; amended
in P87-39 at 12
Ill. Peg.
13006, effective July 29,
1988; amended
in P88-16 at 13
Ill. Peg.
382,
effective December 27,
1988;
amended in P89-1 at 13
Ill.
Peg.
18300,
effective November 13,
1989; amended in P90-2 at 14
Ill.
Peg.
14401, effective August
22,
1990; amended in
P90—10
at 14 Ill. Peg.
16472,
effective
September 25,
1990; amended in P90—17 at 15 Ill. Peg.
effective
; amended in P90-il at 15 Ill.
Peg.
,
effective
.
;
amended in R9l—1 at 15
Ill.
Peg.
,
effective
120—391
32
SUBPART
A:
GENERAL
PROVISIONS
Section 721.104
Exclusions
a)
Materials
which
are
not
solid
wastes.
-The following
materials are not solid wastes for the purpose of this
Part:
1)
Sewage:
A)
Domestic
sewage;
and
B)
Any mixture of domestic sewage and other
waste
that
passes through a sewer system to
publicly-owned treatment works for treatment.
“Domestic
sewage”
means
untreated
sanitary
wastes that pass through a sewer system.
2)
Industrial wastewater discharges that are point
source discharges with NPDES permits issued by the
Agency pursuant to Section 12(f)
of the
Environmental Protection Act and
35 Ill. Adm. Code
309.
BOARD NOTE:
This exclusion applies only to the
actual point source discharge.
It does not
exclude industrial wastewaters while they are
being collected,
stored or treated before
discharge, nor does it exclude sludges that are
generated by industrial wastewater treatment.
3)
Irrigation return flows.
4)
Source,
special nuclear or by—product material as
defined by the Atomic Energy Act of 1954, as
amended
(42 U.S.C.
2011 et seq.)
5)
Materials subjected to in-situ mining techniques
which are not removed from the ground as part of
the extraction process.
6)
Pulping liquors
(i.e., black liquor)
that are
reclaimed in a pulping liquor recovery furnace and
then reused in the pulping process, unless
accumulated
speculatively
as
defined
in
Section.
721.101(c);
7)
Spent
sulfuric
acid
used
to
produce
virgin
sulfuric
acid,
unless
it
is
accumulated
speculatively as defined in Section 721.101(c).
8)
Secondary materials that are reclaimed and
12 0—392
33
returned to the original process or processes in
which they were generated where they are reused in
.the production process, provided:
A)
Only
tank
storage
is
involved,
and
the
entire
process
through
completion
of
reclamation
is.
closed
by
being
entirely
connected
with
pipes
or
other
comparable
enclosed
means
of
conveyance;
B)
Reclamation
does
not
involve
controlled
flame.
ccmbustion
(such
as
occurs
in
boilers,
industrial furnaces or incinerators);
C)
The secondary materials
are
never
accumulated
in such tanks for over twelve months without
being reclaimed; and
D)
The reclaimed material is not used to produce
a
fuel, or used to produce products that are
used in a manner constituting disposal.
Qj
Spent wood preserving solutions that have been
used and are reclaimed and reused for their
original intended purpose.
b)
Solid wastes which are not hazardous wastes.
The
following solid wastes are not hazardous wastes:
1)
Household waste,
including household waste that
has been collected,
transported,
stored,
treated,
disposed, recovered
(e.g., refuse—derived fuel)
or
reused.
“Household waste” means any waste
material
(including garbage, trash and sanitary
wastes
in septic tanks)
derived from households
(including single and multiple residences,
hotels
and motels, bunkhouses,
ranger stations, crew
quarters, campgrounds, picnic grounds and day—use
recreation areas).
A resource recovery facility
managing municipal solid waste shall not be deemed
to be treating, storing, disposing of or otherwise
managing hazardous wastes for the purposes of
regulation under this Part,
if such facility:
A)
Receives and burns only:.
I)
Household waste
‘
(from single and
multiple dwellings, hotels, motels and
other residential sources) and
ii)
Solid waste from commercial or
industrial sources that does not contain
120—393
34
hazardous
waste;
and
B)
Such
facility
does
not
.accept
.hazardous
waste
and
the
owner
or
opera1~or of’ such’ facility
has established contractural requirements or.
other
appropriate
notification
or
inspection
procedures to assure that hazardous wastes
are not received at or burned in such
facility.
2)
Solid
wastes
generated
by
any
of
the
following
and
which are returned to the soil as fertilizers:
A)
The
growing
and
harvesting
of
agricultural
crops.
B)
The
raising
of
animals,
including
animal
manures.
3)
Mining overburden returned to the mine site.
4)
Fly ash waste, bottom ash waste,
slag waste, and
flue gas emission control waste generated
primarily from the combustion of coal or other
fossil fuels.
5)
Drilling fluids, produced waters, and other wastes
associated with the exploration, development,
or
production of crude oil, natural ‘gas or geothermal
energy.
6)
Chromium
wastes:
A)
Wastes which fail the test for the toxicity
characteristic (Section 721.124 and Appendix
B) because chromium is present or are listed
in Subpart D due to the presence of chromium,
which do not fail the test for the toxicity
characteristic
for
any
other
constituent or
are
not
listed
due
to
the
presence
of
any
other constituent, and which do not fail the
test
for
any
other
characteristic,
if
it
is
shown
by
a
waste
generator
or
by
waste
generators that:
I)
The chromium in the waste is exclusively
(or nearly exclusively) trivalent
chromium; and
ii)
The waste is generated from an
industrial process which uses trivalent
chromium exclusively (or nearly
‘120—394
35
exclusively)
and
the
process
does
not
generate
hexavalent
chromium;
and
iii) The waste is typically ‘and frequently
managed in non—oxidizing environments.
B)
Specific
wastes
which
meet
the
standard
in
subsections
(b) (6)
(A) (1),
(ii)
and
(iii)
(so
long
as
they
do
not
fail
the
test
for
the
characteristic of EP toxicity, and do not
fail the test for any other characteristic)
are
i)
Chrome
(blue)
trimmings generated by the
following subcategories of the leather
tanning and finishing industry; hair
pulp/chrome tan/retan/wet finish; hair
save/chrome tan/retan/wet finish;
retan/wet finish; no beamhouse; through-
the-blue; and shearling.
ii)
Chrome
(blue)
shavings generated by
the..
following subcategories of the leather
tanning
and
finishing
industry;
hair
pulp/chrome
tan/retan/wet
finish;
hair
save/chrome
tan/retan/wet
finish;
.retan/wet finish; no beamhouse; through-
the-blue; and shearling.
iii)
Buffing dust generated by the following
subcategories of the leather tanning and
finishing industry:
hair pulp/chrome
tan/retan/wet finish; hair save/chrome
tan/retan/wet finish; retan/wet finish;
no
beamhouse;
through—the—blue.
iv)
Sewer screenings generated by the
following
subcategories
of
the leather
tanning and finishing industry:
hair
pulp/chrome tan/retan/wet finish; hair
save/chrome tan/retan/wet finish;
retan/wet finish; no beamhouse; through-
the-blue; and shearling.
v)
Wastewater treatment sludges generated
by the following subcategories of the
leather
tanning
and
finishing
industry:
hair
pulp/chrome
tan/retan/wet
finish;
hair
save/chrome
tan/retan/wet
finish;
retan/wet
finish;
no beamhouse; through-
the-blue; and shearling.
120—395
36
vi)
Wastewater treatment sludges generated
by~..the following
subcategories
of
the
leather tanning and finishing industry:
hair
pulp/chrome
tan/retan/wet
finish;
hair
save/chrome
tan/retan/wet
finish;
and
through-the-blue.
vii) Waste scrap leather from the leather
tanning
industry,
the
shoe
manufacturing
industry, and other leather product
manufacturing
industries.
viii)Wastewater treatment sludges from the
production of titanium dioxide pigment using
chromium-bearing ores by the chloride
process.
7)
.
-Solid waste from the extraction, beneficiation and
processing of ores and’minerals
(including coal),
including phosphate rock and overburden from the
mining of uranium ore.
For purposes of this
subsection,
beneficiation of ores and minerals
is
restricted to the following activities:
crushing,
grinding, washing, dissolution, crystallization,
filtration,
sorting,
sizing,
drying,
sintering,
pelletizing, briquetting, calcining to remove
water or carbon dioxide,
roasting, autoclaving or
chlorination
in
preparation
for leaching
(except
where the roasting or autoclaving or
chlorination)/leaching sequence produces a final
or intermediate product that does not undergo
further beneficiation or processing), gravity
concentration, magnetic separation,
electrostatic
separation,
floatation,
ion exchange, solvent
extraction,
electrowinning,
precipitation,
amalgamation, and heap, dump, vat tank and in situ
leaching.
For the purposes of this subsection,
solid waste from the processing of ores and
minerals will include only the following wastes:
A)
Slag from primary copper processing;
B)
.
Slag from primary lead processing;
C)
Red and-brown muds from bauxite refining;
D)
Phosphogypsum from phosphoric acid
production;
E)
Slag from elemental phosphorus production;
F)
Gasifier ash from coal.gasification;
120—396
37
G)
Process wastewater from coal gasification;
H)
Calcium’ sulfate wastewater ‘treatment plant
sludge from primary copper processing;
I)
Slag tailings from primary copper processing;
J)
Fluorogypsum from hydrofluoric acid
production;
K)
Process wastewater from hydrofluoric acid
production;
L)
Air pollution control dust/sludge from iron
blast furnaces;
N)
Iron
blast
furnace
slag;
N)
Treated residue from roasting/leaching of
chrome ore;
0)
Process wastewater from primary magnesium
processing by the anhydrous process;
P)
Process wastewater from phosphoric acid
production;
Q)
Basic
oxygen furnace and open hearth furnace
air pollution control dust/sludge from carbon
steel production;
R)
Basic oxygen furnace and open hearth furnace
slag from carbon steel production;
S)
Chloride processing waste solids from
titanium tetrachloride production;
T)
Slag from primary zinc smelting;
and,
U)
Until June 30,
1991, process wastewater, acid
plant blowdown and wastewater treatment plant
solids from primary zinc smelting and
refining, except for wastewater treatment
plant solids which are hazardous by
characteristic and which are not processed.
8)
Cement kiln dust waste.
9)
Solid waste which ‘consists of discarded wood or
wood products which fails the test for the
toxicity characteristic solely for arsenic and
120—397
38
which
is
not
a
hazardous
waste
for
any
other
reason
or
reasons
if
the waste is generated by
persons
who
utilize
the
arsenical—treated
wood
and
wood products for these materials4
intended end
use.
10)
Petroleum-contaminated media and debris that fail
the test for the
toxicity
characteristic
of
Section 721.124
(hazardous waste codes D018
through D043 only) and are subject to corrective
action
regulations
under
35
Ill.
Adm.
Code
731.
~J
Groundwater that exhibits the toxicity
characteristic in Section 721.124 that is
reinlected or reinfiltrated pursuant to existing
hydrocarbon recovery operations undertaken at
petroleum refineries, marketing terminals or bulk
plants handling crude petroleum or intermediate
products of petroleum refining until March
25,
1991.
C)
Hazardous wastes which are
exempted
from
certain
regulations.
A
hazardous
waste
which
is
generated
in
a
product or raw material storage tank,
a product or
raw
material-transport vehicle or vessel,
a product or raw
material pipeline, or in a manufacturing process unit
or an associated non-waste—treatment manufacturing
unit,
is not subject to regulation under 35
Ill. Adm.
Code 702,
703, 705 and 722 through 725 and 728 or to
the notification requirements of Section 3010 of RCRA
until
it exits the unit in which it was generated,
unless
the
unit
is
a
surface
impoundment,
or
unless
the
hazardous waste remains .in the unit more than 90 days
after the unit ceases to be operated for manufacturing,
or for storage or transportation of product or
raw
materials.
d)
Samples
1)
Except as provided in subsection
(d) (2), a sample
of
solid
waste
or
a
sample
of
water,
soil or air,
which is collected for the sole purpose of testing
to determine its characteristics or composition,
is not subject to any requirements of this Part or
35 Ill. Adm. Code 702, 703, 705 and 722 through
728.
The
sample
qualifies
when:
A)
The
sample
is
being
transported
to
a
laboratory for the purpose of testing; or
B)
The
sample
is
being
transported
back
to
the
sample
collector
after
.testing;...or
120—398
39
C)
The
sample
is
being
stored
by
the
sample
collector
before
transport
...to...a
laboratory
for
testing;
or
D)
The
sample
is
being
stored
in
a
laboratory
before
testing;
or
E)
The sample is being stored in a laboratory
for
testing
but
before
it
is
returned
to
the
sample
collector;
or
F)
The
sample
is
being
stored
temporarily in the
laboratory
after testing for a specific
purpose (for example, until conclusion of a
court
case
or
enforcement
action
where
further testing of the sample may be
necessary)
2)
In
order
to
qualify
for
the
exemption
in
subsection
(d) (1) (A) and
(B), a sample collector
shipping
samples
to
a
laboratory
and
a
laboratory
returning
samples
to
a
sample
collector
must:
A)
Comply with U.S. Department of Transportation
(DOT), U.S. Postal Service
(USPS) or any
other applicable shipping .requirements; or
B)
Comply with the following requirements if the
sample collector determines that DOT, USPS or
other shipping requirements do not apply to
the
shipment
of
the
sample:
i)
Assure that the following information
accompanies
the
sample:
The
sample
collector’s name, mailing address and
telephone number; the laboratory’s name,
mailing
address
and telephone number;
the quantity of the sample; the date of
the shipment; and a description of the
sample.
ii)
.Package
the
sample
so
that
it
does
not
leak,
spill
or
vaporize
from
its
packaging.
3)
This exemption does not apply .if...the laboratory
determines
that
the
waste
is
hazardous
but
the
laboratory
is
no
longer
meeting
any
of
the
conditions
stated
in
subsection
(d) (1).
e)
Treatability
study
samples.
120—399
40
1)
Except as is provided in subsection
(e) (2),
persons who generate or collect samples for the
purpose of conducting treatability studies,
as
defined in 35 Ill.
AdnI.~
Code 720.110, are not
subject to any requirement of 35 Ill. Adm. Code
721 through 723 or to the notification
requirements of Section 3010 of the Resource
Conservation and Recovery Act.
Nor are such
samples included in the quantity determinations o
Section 721.105 and 35 Ill.
Adxn.
Code 722.134(d)
when:
A)
The sample is being collected and prepared
for transportation by the generator or
sainpi
collector;
or,
B)
The
sample
is
being accumulated or stored by
the
generator
or
sample
collector
prior
to
transportation to a laboratory or testing
facility; or
C)
The
sample
is
being
transported
to
the
laboratory
or
testing
facility
for
the
purpose
of
conducting
a
treatability
study.
2)
The
exemption
in
subsection
(e)
(1)
is
applicable
to samples of hazardous waste being collected and
shipped for the purpose of conducing treatability
studies
provided
that:
A)
The generator or sample collector uses
(in
“treatability studies”)
no more than 1000 kg
of any non—acute hazardous waste,
1 kg of
acute hazardous waste or 250 kg of
soils,
water
or
debris
contaminated
with
acute
hazardous
waste
for
each
process
being
evaluated
for
each
generated
wastestream;
anc
B)
The
mass
of
each
shipment
does
not
exceed
1000 kg of non—acute hazardous waste,
1 kg of
acute hazardous waste or 250 kg of soils,
water
or
debris
contaminated
with
acute
hazardous
waste;
and
C)
The
sample
must
be
packaged
so
that
it
does
not
leak,
spill
or
vaporize
from
its
packaging during shipment and the
requirements
of. subsections
(i)
or
(ii)
are
met.
i)
The transportation of each sample
120—400
41
shipment complies with U.S. Department
of
Transportation
(DOT),
U.S.
Postal
Service
(USPS)
or any other applicable
shipping
requirements;
or
ii)
If
the
DOT,
USPS
or
other
shipping
requirements
do
not
apply
to
the
shipment of the sample, the following
information must accompany the sample:
The
name,
mailing
address
and
telephone
number of the originator of the sample;
the name,
address and telephone number
of the facility that will perform the
treatability study; the quantity of the
sample;
the
date
of
the
shipment;
and,
a
description of the sample,
including its
USEPA hazardous waste number.
D)
The sample is shipped to a laboratory or
testing facility which is exempt under
subsection
(f) or has an appropriate PCRA
permit or interim status.
E)
The generator or sample collector maintains
the following records for a period ending
3
years after completion of the treatability
study:
i)
Copies of the shipping documents;
ii)
A copy of the contract with the facility
conducting the treatability study;
iii) Documentation showing:
The amount of
waste
shipped
under
this exemption; the
name,
address
and
USEPA
identification
number of the laboratory or testing
facility
that
received
the
waste;
the
date the shipment was made;
and, whether
or not
unused
samples
and
residues
were
returned to the generator.
F)
The
generator
reports
the
information
required
in
subsection
(e)
(2)
(E) (iii)
in
its
report
under
35
Iii.
Adm.
Code
722.141.
3)
The
Agency
may
grant
requests,
on
a
case-by—case
basis,
for
quantity
limits
in
excess
of
those
specified in subsection
(e) (2) (A), for up to an
additional 500 kg of any non-acute hazardous
waste,
3. kg of acute hazardous waste and 250 kg of
soils,
water or debris contaminated with acute
120—40 1
42
hazardous
waste,
to
conduct
further
treatability
study evaluation when:
There has been an
equipment or mechanical failure during the conduct
of the treatability study; there is need to verify
the results of a previously conducted treatability
study;
there
is
a
need
to
study
and
analyze
alternative techniques within a previously
evaluated
treatment
process;
or,
there
is
a
need
to
do
further
evaluation
of
an
ongoing
treatability
study
to
determine
final
specifications for treatment.
The additional
quantities allowed are subject to all the
provisions
in
subsections
(e)
(1)
and
(e)
(2)
(B)
through
(F).
The generator or sample collector
must apply to the Agency and provide in writing
the following information:
A)
The reason why the generator or sample
collector requires additional quantity of
sample for the treatability study evaluation
and the additional quantity needed;
B)
Documentation accounting for all samples of
hazardous
waste
from
the wastestream which
have been sent for or undergone treatability
studies, including the date each previous
sample was shipped, the quantity of each
previous shipment, the laboratory or testing
facility to which it was shipped, what
treatability study processes were conducted
on each sample shipped, and the available
results of each treatability study;
C)
A
description
of
the
technical
modifications
or change
in specifications which will be
evaluated and the expected results;
D)
If such further study is being required due
to equipment or mechanical failure, the
applicant must include information regarding
the reason for the failure or breakdown and
also include what procedures or equipment
have been made to protect against further
breakdowns;
and,
E)
Such other information as the Agency
determines is necessary.
4)
Final Agency determinations pursuant to this
subsection may be appealed to the Board.
f)
Samples undergoing treatability studies at laboratories
120—402
43
or
testing
facilities.
Samples
undergoing
treatability
studies and the laboratory or testing facility
conducting such treatability studies (to the extent
such
facilities
are
not
otherwise
subject
to
RCRA
requirements) are not subject to any requirement of
this Part,
or of 35 Ill. Adm. Code 702,
703,
705, 722
through
726,
and
728,
or
to
the
notification
requirements of Section 3010 of the Resource
Conservation and Recovery Act, provided that the
requirements of subsections
(f) (1) through
(f) (11) are
met.
A mobile treatment unit may qualify as a testing
facility subject to subsections
(f) (1) through
(f) (11)..
Where a group of mobile treatment units are located at
the same site, the limitations specified in subsections
(f)
(1) through
(f) (11) apply to
the
entire
group
of
mobile treatment units collectively as if the group
were one mobile treatment unit.
1)
No less than 45 days before conducting
treatability studies, the facility notifies the
Agency in writing that it intends to conduct
treatability studies under this subsection.
2)
The laboratory or testing facility conducting the
treatability study has a USEPA identification
number.
3)
No more than a total of 250 kg of “as received”
hazardous waste is subjected to initiation of
treatability
studies
in
any
single
day.
“As
received”
waste
refers
to
the
waste
as
received in
the
shipment
from
the
generator
or
sample
collector.
4)
The quantity of “as received” hazardous waste
stored at the facility for the purpose of
evaluation in treatability studies does not exceed
1000 kg, the total of which can include 500 kg of
soils, water or debris contaminated with acute
hazardous waste or 1 kg of acute hazardous waste.
This quantity limitation does not include:
A)
Treatability
study
residues;
and,
B)
Treatment materials (including nonhazardous
solid
waste)
added
to
“as
received”
hazardous
waste.
5)
No
more. than
.90
days
have
elapsed
since
the
treatability
study
for
the
sample
was
completed,
or no more than one year has elapsed since the
generator
or
sample
collector shipped the sample
120—403
44
to the laboratory or testing facility, whichever
date
first
occurs.
6)
The treatability study does not involve the
placement of
hazardous
waste
on .the
land
or
open
burning
of
hazardous
waste.
7)
The facility maintains records for
3 years
following
completion
of
each
study
that
show
compliance with the treatment rate limits and the
storage time and quantity limits.
The following
specific information must be included for each
treatability study conducted:
A)
The name,
address and USEPA identification
umber of the
generator or sample collector of
each waste sample;
B)
The date the shipment was received;
C)
The
quantity
of
waste
accepted;
D)
The
quantity
of
“as
received”
waste
in
storage each day;
E)
The date the treatment study was initiated
and the amount of “as received” waste
introduced to treatment each day;
F)
The date the treatability study was
concluded;
G)
The
date
any
unused
sample
or
residues
generated
from
the
treatability
study
were
returned
to
the
generator
or
sample
collector
or,
if
sent
to
a
designated
facility,
the
name
of
the
facility
and
the
USEPA
identification
number.
8)
The
facility
keeps,
on-site,
a
copy
of
the
treatability
study
contract
and
all
shipping
papers
associated
with
the
transport
of
treatability
study
samples
to
and
from
the
facility
for
a
period
ending
3
years
from
the
completion
date
of
each
treatability
study.
9)
The
facility
prepares
and
submits
a
report
to
the
Agency
by
March
15
of
each
year
that
estimates
the
number
of. studies
and
the
amount
of
waste
expected
to
be
used
in
treatability
studies
during
the
current
year,
and
includes
the
following
information for the previous calendar year:
120—404
45
A)
The
name,
address
and
USEPA
identification
number
of
the
facility
conducting
the
treatability
studies;
B)
The
types
(by
process)
of
treatability
studies
conducted;
C)
The
names
and
addresses
of
persons
for
whom
studies have been conducted (including their
USEPA
identification
numbers);
D)
‘
The
total
quantity
of
waste
in
storage
each
day;
E)
The quantity and types of waste subjected to
treatability
studies;
F)
When each treatability study was conducted;
G)
The
final
disposition
of
residues
and
unused
sample from each treatability study;
10)
The facility determines whether any unused sample
or
residues
generated
by
the
treatability
study
are
hazardous
waste
under Section 721.103 and,
if
so,
are
subject
to
35
Ill.
Adin.
Code
702,
703
and
721 through 728, unless the residues and unused
samples
are
returned
to
the
sample
originator
under
the
subsection
(e)
exemption.
11)
The facility notifies the Agency by letter when
the facility is no longer planning to conduct any
treatability studies at the site.
(Source:
Amended at 15 Ill.
Peg.
,
effective
120—405
46
SUBPART D:
LISTS OF HAZARDOUS WASTE
Section 721.131
Hazardous Wastes From Nonspecific Sources
~j
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.
EPA
Hazar
Hazardous Industry and Hazardous Waste
d
Waste No.
Code
FOOl
The
following
spent
halogenated
(T)
solvents
used
in
degreasing:
tetra—
chloroethylene,
trichloroethylene,
methylene chloride,
1,1,l—trichloro-
ethane, carbon tetrachloride and
chlorinated fluorocarbons;
all
spent
solvent mixtures and 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 or F005; and still
bottoms from
the
recovery
of
these
spent solvents and spent solvent
mixtures.
F002
The following spent halogenated
(T)
solvents:
tetrachloroethylene,
methylene chloride, trichioroethylene,
1,1,l—trichloroethane,
chlorobenzene,
1,1,2—trichloro—1, 2, 2—trifluoroethane,
orthodichlorobenzene,
trichloro—
fluoromethane
and
1,1,
2—trichloro—
ethane;
all
spent
solvent
mixtures
and
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.
120—406
47
F003
The following spent non-halogenated
(I)
solvents:
xylene,
acetone,
ethyl
acetate,
ethyl
benzene,
ethyl
ether,
methyl
isobutyl
ketone,
n-butyl
alcohol,
cyclohexanone
and
methanol;
all
spent
solvent
mixtures
and
blends
containing,
before
use,
only
the
above
spent
non-halogenated
solvents;
and
all
spent
solvent
mixtures
and
blends
containing,
before
use,
one
or
more
of
the
above
non—halogenated
solvents
and
a total of ten percent or more
(by
volume) of one or more of those
solvents listed in FOOl,
F002,
F004 or
FOO5; and still bottoms from the
recovery of these spent solvents and
spent solvent mixtures.
F004
The
following
spent
non-halogenated
(T)
solvents:
cresols and cresylic acid
and nitrobenzene;
all spent solvent
mixtures and 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 F005;
and still bottoms from the recovery of
these
spent
solvents
and
spent
solvent
mixtures.
F005
The following spent non-halogenated
(I,
solvents:
toluene,
methyl
ethyl
T)
ketone, carbon disulfide,
isobutanol,
pyridine, benzene, 2—ethoxyethanol and
2—nitropropane;
all
spent
solvent
mixtures
and
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
F004;
and still bottoms from the recovery of
these spent solvents and
spent
solvent
mixtures.
120—407
48
FOO6
Wastewater treatment sludges from
(T)
electroplating operations except from
the
following
processes:
.(l)
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.
FO19
See Below
F007
Spent cyanide plating bath solutions
(P,
from electroplating operations.
T)
F008
Plating bath residues from the bottom
(R,
of plating baths from electroplating
T)
operations where cyanides are used in
the process.
FOO9
Spent stripping and cleaning bath
(R,
solutions from electroplating
T)
operations where cyanides are used in
the process.
FO1O
Quenching bath residues from oil baths
(R,
from metal heat treating operations
T)
where cyanides are used in the process.
FOll
Spent
cyanide
solutions
from salt bath
(R,
pot cleaning from metal heat treating
T)
operations.
FO12
Quenching wastewater treatment sludges
(T)
from metal heat treating operations
where cyanides are used in the process.
FO19
Wastewater treatment sludges from the
(T)
chemical
conversion
coating
of
aluminum
except from zirconium phosphating in
aluminum can washing when such
phosphating
is
an
exclusive
conversion
coating
process.
120—408
49
FO2O
Wastes
(except wastewater and spent
(H)
carbon from hydrogen chloride
purification)
from
the.
production
or
manufacturing
use,
(as
a
reactant,
chemical
intermediate
or
component
in
a
formulating process)
of tn— or tetra—
chlorophenol,
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-trichloro-
phenol.)
FO21
Wastes
(except wastewater and spent
(H)
carbon
from
hydrogen
chloride
purification) from the production or
manufacturing use
(as a reactant,
chemical intermediate or component in
a
formulating process) of pentachloro—
phenol,
or
of intermediates used to
produce its derivatives.
FO22
Wastes
(except wastewater and spent
(H)
carbon 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
(H)
carbon 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-
trichiorophenol.
120—409
50
FO24
Process
wastes
including
but
not
(T)
limited
to,
distillation
residues,
heavy
ends,
tars,
and
reactor
cleanout
wastes, from the production of certain
chlorinated aliphatic hydrocarbons by
free radical catalyzed processes.
These chlorinated aliphatic
hydrocarbons
are
those
having
carbon
chain
lengths
ranging
from
one
to
and
including
five,
with
varying
amounts
and positions of chlorine substitution.
(This listing does not include
wastewaters, wastewater treatment
sludges, spent catalysts and wastes
listed
in
this
Section
or
Section
721.132.)
FO25
Condensed
light ends,
spent filters and
(T)
filter aids, and spent dessicant wastes
from the production of certain
chlorinated aliphatic hydrocarbons by
free
radical
catalyzed
processes.
These chlorinated aliphatic
hydrocarbons are those having carbon
chain lengths ranging from one to and
including five, with varying amounts
and positions of chlorine substitution.
FO26
Wastes
(except
wastewater
and
spent
(H)
carbon 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
(H)
containing
tn—,
tetra—
or
pentachloro—
phenol or discarded unused formulations
containing compounds derived from these
chlorophenols.
(This listing does not
include formulations containing hexa-
chlorophene
synthesized
from
prepurified 2,4,5-trichlorophenol as
the sole component).
120—4 10
51
F028
Residues resulting from the
(T)
incineration
or
thermal
treatment
of
soil contaminated with hazardous waste
numbers F020,
F021, F022,
F023,
F026
and
F027.
F032
Wastewatens, process residuals,
preservative drippage and spent
formulations
from
wood
preserving
processes
generated
at
plants
that
currently
use
or
have
previously
used
chiorophenolic formulations
(except
potentially cross-contaminated wastes
that have had the F032 waste code
deleted in accordance with Section~
721.135 and where the generator does
not resume or initiate use of chioro—
phenolic formulations).
This listing
does not include
1001
bottom sediment
sludge from the treatment of wastewater
from wood preserving processes that use
creosote or pentachlorophenol.
F034
Wastewaters, process residuals,
preservative
drippage
and
spent
formulations from wood preserving
processes generated at plants that use
creosote formulations.
This listing
does not include K001 bottom sediment
sludge from the treatment of wastewater
from wood preserving processes that use
creosote or pentachlorophenol.
F035
Wastewaters, process residuals,
preservative dnippage and spent
formulations from wood preserving
processes generated at plants that use
inorganic preservatives containing
arsenic or chromium.
This listing does
not include 1001
bottom sediment sludge
from the treatment of wastewater from
wood preserving processes that use
creosote or pentachiorophenol.
F037
Petroleum refinery primary oil/water!
iIJ.
solids separation sludge
-—
Any sludge
generated
from
the
gravitational
separation of oil/water/solids during
the storage or treatment of process
wastewaters and oily cooling
wastewaters from petroleum refineries.
Such sludges include, but are not
120—411
52
limited to, those generated in:
oil!
water/solids
separators;
tanks
and
impoundments;
ditches
and
other
conveyances;
sumps;
and stormwater
units
receiving
dry
weather
flow.
S1ud~es generated
in
stormwater
units
that do not receive dry weather flow,
sludges generated in aggressive
biological
treatment
units
as
defined
in
subsection
(b)(2)
(including
sludges
generated
in
one
or
more
additional
units
after
wastewaters
have
been
treated
in
aggressive
biological
treatment units)
and 1051
wastes are
not included in this listing.
F038
Petroleum refinery secondary
(emulsified)
oil/water/solids
separation sludge
——
Any sludge or
float generated from the physical or
chemical separation of oil/water/solids
in
process
wastewaters~ and
oily
cooling
wastewaters from petroleum refineries.
Such wastes include, but are not
limited to, all sludges and floats
generated in:
induced air floatation
(IAF)
units, tanks
and’ impoundments,
and all sludges generated in DAF units.
Sludges generated in stormwater units
that do not receive dry weather flow,
sludges generated in aggressive
biological treatment units as defined
in subsection
(b) (2)
(including sludges
generated in one or more additional
units after wastewaters have been
treated in aggressive biological
treatment units),
FO37,
1048
and 1051
wastes are not included in this
listing.
F039
Leachate resulting from the treatment,
~.Lfl
storage or disposal of wastes
classified by more than one waste code
under Subpart
D, or from a mixture of
wastes classified under Subparts C and
D.
(Leachate resulting from the
management of one or more of the
following USEPA hazardous wastes and no
other hazardous wastes retains its
hazardous waste code(s):
FO2O,
F021,
F022,
FO23,
F026,
F027 or F028.)
12 0—4 12
53
(Board
No-t-e--BOARD
NOTE:
The primary hazardous
properties of these materials have been indicated by
the letters T (Toxicity), P
(Reactivity),
I
(Ignitability),
and C
(Corrosivity).
The letter H
indicates Acute Hazardous Waste.)-
~j
Listing specific definitions.
fl
For the purpose of the F037 and F038 listings,
oil/water/solids is defined as oil or water or
solids.
21
For the purposes of the F037 and FO38 listings:
~j
Aggressive biological treatment units are
defined as units which employ one of the
following four treatment methods:
activated
sludge;
trickling filter;
rotating
biological contactor for the continuous
accelerated biological oxidation of
wastewaters;
or, high—rate aeration.
High-
rate aeration is
a system of surface
impoundments or tanks,
in which intense
mechanical aeration is used to completely mix
the wastes, enhance biological activity,
and:
fl
The units employ a minimum of
6
horsepower per million gallons of
treatment volume;
and either
jJj.~. The hydraulic retention time of the unit
is
no
longer
than
5
days;
or
iii) The hydraulic retention time is no
longer than 30 days and the unit does
not generate a sludge that is a
hazardous waste bY the toxicity
characteristic.
~j
Generators and treatment,
storage or disposal
(TSD)
facilities have the burden of proving
that
their
sludges
are
exempt
from
listing
as
F037 or F038 wastes under this definition.
C-~n~ratorsand
TSD
facilities
shall
maintain,
I
t~ieiroperatin~or other on site records,
uc~cumentsand data sufficient to prove that:
j).
The unit is an aggressive biological
treatment unit as defined in this
subsection;
and
jJJ..
The sludges sought to be exempted fr~
120—4 13
54
F037 or F038
were
actually
generated
in
the
aggressive
biological
treatment
unit.
fl
Time of generation.
For the purposes of:
~j
The F037 listing, sludges are considered to
be
generated
at
the
moment
of
deposition
in
the
unit,
where
deposition
is
defined
as
at
least
a
temporary
cessation
of
lateral
particle
movement.
~j
The FO38 listing:
fl
Sludges
are
considered
to
be
generated
at the moment of deposition in the unit,
where deposition is defined as at least
a temporary cessation of lateral
particle movement;
and
JJj
Floats are considered to be generated at
the moment they are formed
in the top of
the unit.
(Source:
Amended at 15 Ill.
Peg.
,
effective
Section 721.135
Wood Preserving Wastes
~j
Wastes from wood preserving processes at plants that do
not resume or initiate use of chlorophenolic
preservatives will not meet the listing definition of
F032 once the generator has met all of the reguireinents
of subsections
(b)
and
(c).
These wastes may, however,
continue
to
meet
another
hazardous
waste
listing
description
or
may
exhibit
one
or more of the hazardous
waste characteristics.
~
Generators shall either clean or replace all process
equipment
that may have come into contact with
chlorophenolic formulations or constituents thereof,
including, but not limited to. treatment cylinders,
sumps, tanks,
piping systems, drip pads,
fork lifts and
trams,
in a manner which minimizes or eliminates the
escape of hazardous waste, waste constituents,
leachate, contaminated dnippage or hazardous waste
decomposition products to the groundwater, surface
water
or
atmosphere.
Generators shall do one of the
following
as
specified
in
subsections
(b) (1).
(2)
or
(3):
~j
Cleaning or replacement plan.
120—414
55
~
Prepare and sign a written e~iipmentcleaning
or
replacement
plan that describes:
iL
The
equipment
to
be
cleaned
or
replaced
uI
How
the
equipment
will
be
cleaned
or
replaced;
And
iii) The appropriate solvent chosen to use
in
cleaning.
And,
~j
Conduct
cleaning
or
replacement
in
accordance
with_the Plan by replacing the equipment and
managing the discarded equipment as F032
waste.
21
Cleaning.
~j
Remove all visible residues from process
equipment.
~j
Rinse process equipment with an appropriate
solvent
until
dioxins
and
dibenzofurans
are
not detected in the final solvent rinse.
jj
Rinses must be tested in accordance with
SW-846, Method 8290,
incorporated by
reference in 35 Ill. Adm. Code 720.111.
£~jJ
“Not
detected”
means
at
or
below
the
lower
method
calibration
limit
(MCL)
in
Method 8290. Table
1.
~
Manage all residues from the cleaning process
as F032 waste.
fl
Document that previous equipment cleaning and
replacement
was
performed
in
accordance
with
this
Section and occurred after cessation of use of
chlorophenol
ic
preservatives.
~j
The generator shall maintain the following records
documenting
the
cleaning
and
replacement
as
part
of
the
facility’s operating record:
3j
The
name
and
address
of
the
facility
21
Formulations previously used and the date on which
their
use
ceased
in
each
process
at
the
plant
~j
Formulations currently used in each process at the
120—415
56
plant
~j
The equipment cleaning or replacement plan
~j
The name and address of any persons who conducted
the
cleaning
and
replacement
~j
The dates on which cleaning and replacement were
accomplished
21
The dates of sampling and testing
~
A description of the sample handling and
preparation
techniques,
including
techniques
used
for
extraction,
containerization,
preservation
and
chain-of—custody
of
the
samples
~j
A
description
of
the
tests
performed,
the
date
the
tests were performed and the results of the tests
~Qj
The name and model numbers of the instrument(s)
used in performing the tests
fl)
QA/OC documentation;
and
~l2I The following statement signed by the generator or
the generator’s authorized representative:
I certify under penalty of law that all process
equipment required to be cleaned or replaced under
35 Ill.
Adm. Code 721.135 was cleaned or replaced
as
represented
in
the
equipment
cleaning
and
replacement plan and accompanying documentation.
I am aware that there are significant penalties
for providing false information, including the
possibility of fine or imprisonment.
(Source:
Added at 15 Ill. Peg.
,
effective
Section 72l.Appendix C
Chemical Analysis Test Methods
The Board incorporates by reference 40 CFR 261, Appendix III
(1909),
as amcnded at 54 Fed.
fleg.
41407,
October
C,
1989,
and as
amended at 55 Fcd.
Ileg.
0940, March
9,
1990(1990),
as amended at
55 Fed.
Peg.
50483, December 6,
1990.. .This Section incorporates
no future editions or modifications.
(Source:
Amended at 15
Ill.. Reg.
,
effective
Section 72l.Appendix G
Basis for Listing Hazardous Wastes
120—416
57
~PA
Hazardous Constitutents for which Listed
Hazardous
Waste No.
FOOl Tetrachloroethylene, methylene chloride, trichloroethylene,
1, 1, 1—trichloroethane, carbon tetrachloride, chlorinated
fluorocarbons.
F002
Tetrachloroethylene,
methylene
chloride,
trichloroethylene,
1,1, 1—trichloroethane,
1,1,2—trichloroethane,
chlorobenzene,
1,1,
2—trichloro—l,2,2—
trifluoroethane,
ortho-dichloro—
benzene, trichlorofluoromethane.
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).
FOil Cyanide
(salts).
F012 Cyanide
(complexed).
F0l9 Hexavalent chromium, cyanide
(complexed).
FO2O Tetra- and pentachlorodibenzo-p-dioxins; tetra- and penta-
chlorodibenzofurans; tn— and tetrachlorophenols and their
chlorophenoxy derivative acids, esters,
ethers,
amines and
other salts.
F021 Penta- and hexachlorodibenzo-p-dioxins; penta- and hexa-
chlorodibenzofurans;
pentachlorophenol
and
its
derivatives.,
F022 Tetra-, penta- and hexachlorodibenzo-p-dioxins; tetra-,
penta- and hexachlorodibenzofurans.
FO23 Tetra- and pentachlorodibenzo-p-dioxins; tetra- and penta-
chlorodibenzofurans; tn— and tetra— chlorophenols and their
chlorophenoxy
derivative
acids,
esters,
ethers,
amines
and
other salts.
120—417
58
F024’ Chloromethane, dichloromethane, trichioromethane,
carbon
tetrachloride, chloroethylene,
1, 1—dichloroethane,
1, 2-di-
chloroethane, trans-i,2-dichionoethylene,
1,l-dichloro-
ethylene,
1,1,1-tnichloroethane,
1,1,2-tnichloroethane, tn-
chloroethylene,
1,1,1, 2—tetrachlonoethane,
1,1,2, 2—tetra—
chloroethane, tetrachloroethylene, pentachloroethane, hexa-
chloroethane, allyl chloride (3—chloropropene), dichloro-
propane,
dichloropropene,
2—chloro—1, 3—butadiene,
hexa—
chloro—l, 3—butadiene,
hexachlorocyclopentadiene,
hexa—
chlorocyclohexane,
benzene,
chlorobenzene,
dichlorobenzenes,
1,2,4—tnichlorobenzene, tetrachlorobenzenes, pentachiono—
benzene, hexachlorobenzene, toluene, naphthalene.
F025 Chloromethane, dichloromethane, tnichloromethane; carbon
tetrachloride; chloroethylene;
1, l—dichloroethane;
1, 2-di-
chloroethane;
trans-i,
2—dichloroethylene;
1, l—dichloro-
ethylene;
1,1,l—trichloroethane;
1,1,2-tnichloroethane; tn-
chioroethylene;
1,1, i,2-tetrachloroethane;
1,1,2, 2—tetra-
chioroethane;
tetrachioroethylene;
pentachloroethane;
hexa-
chioroethane; allyl chloride (3-chioropropene); dichloro-
propane;
dichloropropene;
2-chloro-l,3-butadiene;
hexa—
chloro-l,3—butadiene; hexachlorocyclopentadiene; benzene;
chlorobenzene;
dichlorobenzene;
1,2,
4—trichlorobenzene;
tetrachlorobenzene; pentachlorobenzene; hexachlorobenzene;
toluene; naphthalene.
F026
Tetra-,
penta—,
and
hexachlorodibenzo—p-dioxins;
tetra-,
penta—,
and
hexachlorodibenzofurans.
FO27 Tetra-,
penta-, and hexachlorodibenzo—p-dioxins; tetra—,
penta—,
and
hexachlorodibenzofurans;
tn—,
tetra—,
and
pentachlorophenols and their chlorophenoxy derivative acids,
esters,
ethers,
amine and other salts.
FO28
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.
F032 Benz(a)anthracene, benzo(a)pyrene, dibenz(a,h)anthracene,
indeno (1,2, 3—cd)pyrene, pentachloronhenol, arsenic,
chromium,
tetra—, penta—,
hexa—, heptachlorodibenzo—p—
dioxins,
tetra—,
penta—,
hexa—,
heptachlorodibenzofurans’.
FO34 Benz (a)anthracene, benzo(k) fluoranthene. benzo(a)pyrene,
dibenz (a ,h)anthracene. indeno(1
,
2,3—cd)~yrene,naphthalene,
arsenic chromium.
FO35 Arsenic, chromium and lead.
F037 Benzene, benzo(a)pyrene,
chrvsene,
lead, chromium.
120—4 18
59
F038
Benzene,
benzo(a)pyren’e,~’chrysene,
lead,
chromium.
F039 All constituents for which treatment standards are specified
for multi—source leachate
(wastewaters and non—wastewaters)
under
35
Ill.
Adm.
Code
728.Table
B
(Constituent
Concentrations in Waste)
KOOl Pentachlorophenol, phenol, 2-chlorophenol, p—chloro-m-
cresol,
2,4-dimethylphenol,
2,4-dinitrophenol,
tnichiono—
phenols,
tetrachlorophenols,
2, 4—dinitrophenol,
cresosote,
chrysene, naphthalene, fluonanthene, benzo (b) fluoranthene,
benzo(a)pyrene,
indeno(l, 2, 3—cd)pyrene, benz(a)anthracene,
dibenz (a) anthracene,
acenaphthalene.
1002
Hexavalent chromium,
lead.
~0O3‘Hexavalent chromium,
lead.
1004
Hexavalent chromuim.
1005
Hexavalent chromium,
lead.
1006
Hexavalent chromium.
1007
Cyanide
(complexed), hexavalent chromium.
1008
Hexavalent chromium.
1009
Chloroform,
formaldehyde, methylene chloride, methyl
chloride, paraldehyde, formic acid.
KO1O Chloroform,
formaldehyde, ‘methylene chloride, methyl
chloride, paraldehyde, formic acid, chloroacetaldehyde.
1011
Acrylonitnile, acetonitnile, hydrocyanic acid.
KO13 Hydro cyanic acid, acrylonitnile, acetonitrile.
1014
Acetonitrile, acrylamide.
1015
Benzyl chloride, chlonobenzene, toluene, benzotrichlonide.
1016
Hexachlorobenzene, hexachlorobutadiene,
carbon tetna—
chloride, hexachloroethane, perchloroethylene.
KO17 Epichlorohydnin,
chloroethens bis(.chloromethyl)
ether and
bis-(2-chloroethyl)
ethers),
trichloropnopane,
dichlono-
propanols.
K0l8
1, 2-dichioroethane, tnichioroethylene, hexachlorobutadiene,
hexachlorobenzene.
12
0—4 19
60
~K019 Ethylene’dichloride,
I, 1,l—tnichloroethane,
I,1,2—tn—
chloroethane,
tetrachloroethanes
(1,1,2,2-tetrachloroethane
and 1,1,1, 2—tetrachioroethane), tnichloroethylene, tetra-
chioroethylene,
carbon tetrachioride, chloroform, vinyl
chloride, vinylidene chloride.
1020
Ethylene dichlonide,
1,1,1-trichioroethane,
1,1,2-tn-
chloroethane, tetrachloro-ethanes
(1, 1,2,2—tetrachiono-
ethane and 1,1,1,2—tetrachioroethane), tnichloroethylene,
tetrachloroethylene, carbon tetrachloride, chloroform,
viny.
chloride, vinylidene chloride.
1021
Antimony,
carbon
tetrachlonide,
chloroform.
K022 Phenol, tars (polycyclic aromatic hydrocarbons).
1023
Phthalic anhydnide, maleic anhydnide.
K024 Phthalic anhydnide,
1,
4-naphthoguinone.
KO25 Meta-dinitrobenzene,
2, 4—dinitnotoluene.
K026 Paraldehyde, pynidines,
2-picoline.
1027
‘Toluene diisocyanate, toluene—2, 4—diamine.
K028
1,1,l-trichloroethane,
vinyl chloride.
KO29
1,2—dichloroethane,
1,1,l-trichloroethane, vinyl chloride,
vinylidene chloride, chloroform.
1030’
‘Hexachlorobenzene, hexachiorobutadiene, hexachioroethane,
1,1,1, 2-tetnachloroethane,
1,1,2, 2-tetrachioroethane, ethyl-
ene dichlonide.
K031 Arsenic.
K032
Hexachlorocyclopentadiene.
1033
Hexachiorocyclopentadiene.
KO34 Hexachlorocyclopentadiene.
1035
Creosote, chrysene, naphthalene, fluoranthene, benzo(b)
fluoranthene, benzo(a) -pynene,
indeno(l,2,3—cd)
pynene,
benzo(a) anthracene, dibenzo(a) anthracene,
acenaphthalene.
KO36Toluene, phosphorodithioic and phosphorothioic acid esters.
K037 Toluene, phosphorodithioic and phosphorothioic acid esters.
120-420
61
KO38 Phorate,
formaldehyde, phosphonodithioic and phosphoro-
thioic acid esters.
1039
Phosphorodithioic and phosphorothioic acid esters.
1040
Phorate, formaldehyde, phosphonodithioic and phosphoro-
thioic acid esters.
KO41 Toxaphene.
1042
Hexachlorobenzene,
ontho—dichlorobenzene.
1043
2, 4-dichlorophenol,
2, 6-dichlorophenol,
2,4,6-tnichloro—
phenol.
KO44 N.A.
1045
N.A.
K046 Lead
K047 N.A.
K048 Hexavalent chromium,
lead.
K049 Hexavalent chromium,
lead.
1050
Hexavalent chromium.
1051
Hexavalent chromium,
lead.
1052
Lead
1060
Cyanide, naphthalene, phenolic compounds,
arsenic.
1061
Hexavalent chromium,
lead, cadmium.
K062 Hexavalent chromium,
lead.
KO64 Lead,
cadmium
1065
Lead,
cadmium
1066
Lead, cadmium
1069
Hexavalent chromium,
lead,
cadmium.
1071
Mercury.
KO73 Chloroform,
carbon tetrachlonide, hexachloroethane, tn-
chloroethane, tetrachloroethylene, dichlonoethylene,
1,1,2,2—tetrachlonoethane.
120—42 1
62
K08i’ Aniline, diphenylamine,~nitrobenzene, phenylenediamine.
1084
Arsenic.
K085 Benzene,
dichlorobenzenes, tnichlonobenzenes, tetrachloro-
benzenes, pentachlorobenzene, hexachlorobenzene, benzyl
chloride.
1086
Lead,
hexavalent chromium.
1087
Phenol,
naphthalene.
K088 Cyanide
(complexes)
1090
Chromium
K091 Chromium
K093 Phthalic anhydnide maleic anhydnide.
1094
Phthalic anhydnide.
1095
l,l,2—tnichlonoethane,
1,1,1,2—tetnachloroethane,
1,1,2,2-
tetrachloroethane.
1096
1,2-dichloroethane, l,l,1,-tnichloroethane,
1,1,2—tn-
chloroethane.
1097
Chlordane,
heptachlor.
1098
Toxaphene.
K099
2,4-dichlorophenol,
2,4,6—tnichlorophenol.
KlOO Hexavalent chromium,
lead,
cadmium.
K1O1 Arsenic.
Kl02 Arsenic.
Kl03 Aniline,
nitnobenzene, phenylenediamine.
Kl04 Aniline, benzene, diphenylamine, nitrobenzene, phynylenedi-
amine.
K105 Benzene, monochlorobenzene, dichlonobenzenes,
2,4,6—tn—
chlorophenol.
1106
Mercury.
1107
1,l-Dimethylhydrazine
(UDMH)
120—422
63
‘1108
1, l—Dimethylhydrazine
(UDMH)
1109
l,1—Ditnethylhvdrazine
(UDMH)
KilO
1,1—Dimethvlhvdrazine
(UDMH)
1111
2, 4—Dinitrotoluene.
Kl12
2,4—Toluenediainine,
o-toluidine,
p-toluidine,
aniline.
1113
2,4—Toluenediamine,
o-toluidine, p-toluidine, aniline.
1114
2,4—Toluenediamine,
o-toluidine,
p—toluidine.
1115
2, 4—Toluenediamine.
“1116
Carbon tetnachlonide, tetnachloroethylene, chloroform,
phosgene.
Kl17
Ethylene
dibnomide
1118
Ethylene
dibromide
1123
Ethylene
thiounea
1124
Ethylene
thiounea
1125
Ethylene
thiourea
1126
Ethylene thiourea
1131
Dimethyl sulfate, methyl bromide
1132
Methyl bromide
1136
Ethylene dibromide
N.A.--Waste is hazardous because
it fails the test for the
characteristic of ignitability, corrosivity on reactivity.
(Source:
Amended at 15 Ill. Peg.
,
effective
)
Section 721.Appendix H
Hazardous Constituents
CO~ThnOn
Name
ChemicaL
Abstracts
Name
Chemical
Hazard-
Abstracts
ous
Nur~er
Waste
Number
Acetonitrile
Same
75-05-8
U003
120—4 23
64
Acetophenone
2~Acetytaminofluorene
Acetyl chloride
1-Acetyl-2-thjourea
Acrotein
Acrylamide
Acrylonitrile
Aftatoxins
Atdicarb
Atdrin
Allyt alcohol
Aluminum
phosphide
4-Aminobiphenyt
5-(Aminomethyl)-3- isoxazotol
4-Aminopyridine
Amitrote
‘Anmonium vanadate
Aniline
Antimony
Antimony compounds,
N.0.S.
(not otherwise
specified)
Arami te
Arsenic
Arsenic compounds, N.0.S.
Arsenic acid
Arsenic pentoxide
Arsenic trioxide
Auranline
Azaserine
Bar
i urn
Barium compounds,
W.0.S.
Barium cyanide
Benz Ic acridine
Benz(a anthracene
Benzat chloride
Benzene
Benzenearsonic acid
Benz idine
Benzo (b ftuoranthene
Benzo
(j
fluoranthene
Benzo(k)ftuoranthene
Benzo (a pyrene
p-Bonzoquinone
Benzotrichloride
Benzyl chloride
Beryllium
Beryllium compounds, N.OS.
Bromoacetone
Bromoform
4-Bromoph~hyl
phenyt ether
Brucine
Butyt benzyl phthatate
Cacodylic acid
Cadmium
Ethanone,
1-phenyt-
Acetamide,.
N-9H-fluoren-2-yl-
Same
Acetamide,
N-(aminothioxomethyl)-
2-Propenal
2-Propenamide
2-Propenenitri Ic
Same
Propanal,
2-methyt-2-(methylthio)-,
0-((methylamino)carbonyl)oxime
1, 4, 5, 8-Dimethanonaphthatene,
1,
2,
3,
4, 10, 10-hexachloro-1,
4, 4a,
5, 8, 8a-hexahydro-, 1-alpha, 4-
alpha,
4a-beta,
5-alpha,
8-alpha,
8a-beta)-
2-Propen-1-ol
Same
(1,1’-Biphenyt-4-amine
3(2H)-Isoxazolone,
5-(aminomethyt)-
4-Pyridinamine
1H-1,2,4-Triazot-3-amine
Vanadic acid,
aninonium salt
Benzenamine
Same
SuLfurous acid, 2-chloroe~thyL-,2-
1-dimethyLethyl )phenoxy
-1-
methylethyl ester
Arsenic
Arsenic
acid
H3AsO4
Arsenic oxide As205
Arsenic oxide As203
Benzenamine, 4,
4’-carbonirnidoyl-
bisN,
N-dimethyl-
L-Serine,
diazoacetate (ester)
Same
Same
Same
Same
Benzene,
(dich Ioromethyl)
-
Same
Arsonic acid, phenyl-
(1,1~-Biphenyl-4,4’-diamine
BenzLe acephenanthrytene’
Same
Same
Same
2,5-Cyclohexadiene-1,4-dione
Benzene, (trichLoromethyl)-
Benzene, (chtoromethyt)-
Same
2-Propanone,
1-bromo-
Methane,
tribromo-
Benzene,
1 -bromo-4-phenoxy-
Strychnidin-ID-one,
2,3-dimethoxy-
1,2-Benzenedicarboxylic
acid,
butyL
phenylmethyl ester
Arsenic acid, dimethyl-
Same
98-86-2
53-96-3
75-36-5
591-08-2
107-02-8
79-06-1
107-13-i
1402-68-2
116-06-3
309-00-2
P004
107-18-6
20859-73-8
92-67-1
2763-96-4
504-24 -5
6 1-82-5
7803-55-6
62- 53-3
7440-36-0
140-57-8
7440-38-2
115-02-6
1)015
7440-39-3
542-62-i
225-51-4
56-55-3
98-87-3
71 -43-2
98-05-5
92-87- 5
205-99-2
205-82-3
207-08-9
50-32-8
106-51-4
98-07-7
100-44-7
7440-41-7
598-31 -2
75-25-2
101-55-3
357- 57-3
85-68-7
75-60-5
7440-43 -9
1)004
U005
U006
P002
P003
U007
U009
P070
P005
P006
P007
P008
1)011
U119
1)012
‘Polo
Poll
P012
1)014
7778-39-4
13 03-28-2
13 27-53-3
492-80-8
P013
1)016
U018
U01 7
U018
1)021
U022
Ui 97
U023
P028
p015
P017
U225
U030
P018
Ui
36
120—42~
65
Cadmium
compounds,
W.0.S.
talcium chromate
Chromic acid H2CrO4, calcium salt
13765-19-0
1)032
Calcium cyanide
Calciun cyanide Ca(CN)2
592-01-8
P021
Carbon disulfide
Same
75-15-0
P022
Carbon oxyfluoride
Carbonic difuoride
353-50-4
1)033
Carbon tetrachloride
Methane,
tetrachloro-
56-23-5
u211
Chlorat
Acetatdehyde,
trichloro-
75-87-6
U034
Chlorambucil
Benzenebutanoic acid, 4tbis-(2-
305-03-3
1)035
chtoroethyl)anhino)-
Chlordane
4,
7-Methano-1H-indene,
1,
2,
4,
5,
57-74-9
1)036
6, 7, 8, 8-octachloro-2,
3, 3a, 6,
7, 7a-hexahydro-
Chlordane,
alpha and yanina isomers
U036
Chlorinated benzenes,
N.0.S.
Chlorinated ethane,
N.0.S.
Chlorinated fluorocarbons,
N.0.S.
Chlorinated naphthaleae, W.0.S.
Chlorinated phenol,
N.0.S.
Chlornophazine
Naphthalenamine,
N, N’-bis(2-chloro-
494-03-1
1)026
ethyl)-
Chtoroacetaldehyde
Acetaldehyde, chloro-
107-20-0
P023
Chloroatkyl ethers,
N.0.S.
p-Chloroaniline
Benzenamine, 4-chloro-
106-47-8
P024
Chtorobenzene
Benzene, chloro-
108-90-7
U037
ChLorobenzilate
Benzeneacetic acid, 4-chloro-alpha-
510-15-6
1)038
(4-chtorophenyt)-alpha-hydroxy-,
ethyl ester
p-Chloro-m-cresol
Phenol, 4-chtoro-3-rnethyl-
59-50-7
1)039
2-Chloroethyl vinyl ether
Ethene,
(2-chtoroethoxy)-
110-75-8
1)042
Chloroform
Methane,
trichloro-
67-66-3
U044
Chloromethyl methyl ether
Methane,
chtoromethoxy-
107-30-2
1)046
beta-chtoronaphthalene
Naphthalene,
2-chloro-
91-58-7
1)047
o-Chlorophenol
Phenol, 2-chtoro-
95-57-8
1)048
1-(o-Chlorophenyl)thiourea
Thiourea,
(2-chiorophenyl)-
5344-82-i
P026
‘Chloroprene
1,3-Butadiene, 2-chloro-
126-99-8
3-Chloropropionitrile
Propanenitrile, 3-chloro-
542-76-7
P027
Chromium
Same
7440-47-3
Chromium compounds, N.0.S.
Chrysene
Same
218-01-9
1)050
Citrus red
No. 2
2-Waphthalenol,
1-C(2,
5-dimethoxy-
6358-53-8
phenyt)azo)
-
Coat tar creosote
Same
8007-45-2
Copper cyanide
Copper cyanide CuCN
544-92-3
P029
Creosote
Same
U051
Cresols
(CresyLic acid)
Phenol, methyl-
1319-77-3
1)052
Crotonaldehyde
2-Butenal
4170-30-3
u053
Cyanides (soluble salts and complexes),
P030
N.0.S.
Cyanogen
Ethanedinitrile
460-19-5
P031
Cyanogen bromide
cyanogen bromide (CN)Br
506-68-3
1)246
Cyanogen chloride
Cyanogen chloride (CN)CL
506-77-4
P033
Cycasin
Beta-D-gLucopyranoside,
(methyl-OWN-
14901-08-7
azoxy)methyl-
2-Cyclohexyl-4,6-dinitrophenol
Phenol, 2-cyclohexyl-4,6-dinitro-
131-89-5
P034
Cyclophosphamide
2H-1,
3, 2-Oxazaphosphorin-2-amine,
50-18-0
U058
N, N-bis(2-chloroethyl)tetrahydro-,
2-oxide
2,4-0
Acetic
acid,
(2,4-dichtorophenoxy)-
94-75-7
U240
120—42 5
66
2,4-0,
salts
and
esters
Acetic acid, (2,4-dichlorophenoxy)-,
1)240
salts
and
esters
Daunomycin
5,
12-Naphthacenedione,
8-acetyl-lO-
20830-81-3
1)059
((3-amino-2, 3, 6-trideoxy-alpha-L-
Lyxo-hexopyranosyl)oxy-7,
8, 9,
10-
tetrahydro-6,
8,
11-trihydroxy-L-
methoxy-, 8S-cis)-
ODD
Benzene,
1,1’-(2,2-dichloroethyl-
idene)bis(4-chloro-
72-56-8
1)060
DDE
Benzene,
1, 1’-(dichloroethenyt-
idene)bisC4-chloro-
72-55-9
DDT
Benzene,
1, 1’-(2,
2, 2-trichtoro-
ethyl idene)bis (4-chtoro-
50-29-3
U061
Diallate
Carbamothioic acid, bis(1-methyt-
ethyl)-,
S-(2, 3-dichloro-2-pro-
penyl) ester
2303-16-4
1)062
Dibenz(a,hacridine
Same
226-36-8
Dibenz(a,jacridine
Same
224-42-0
Dibenz(a,hanthracene
Same
53-70-3
U063
7H-Dibenzo(c,g carbazole
Same
194-59-2
Dibenzo(a,epyrene
Naphtho(1,2,3,4-defchrysene
192-65-4
Dibenzo(~,h)pyrene
Dibenzo(b,defchrysene
189-64-0
Dibenzo(e, ipyrene
Benzo(rstpentaphene
189-55-9
U064
i,2-Dibromo-3-chtoropropane
Propane,
i,2-dibromo-3-chloro-
96-12-8
1)066
Dibutyl phthalate
i,2-Benzenedicarboxylic acid,
dibutyl ester
84-74-2
1)069
o-Dichlorobenzene
Benzene,
1,2-dichloro-
95-50-1
U070
m-Dichlorobenzene
Benzene,
1,3-dichloro-
541-73-i
U071
p-Dichlorobenzene
Benzene,
1.4-dichloro-
106-46-7
U072
DichLorobenzene, N.O.S.
Benzene, dichtoro-
‘
25321-22-6
3,3’-Dichlorobenzidine
(1,
i’-Biphenyl-4,
4’-diamine, 3,
3’ -dichloro-
91-94-i
U073
1,4-Dichtoro-2-butene
2-Butene, i,4-dichtoro-
764-41-0
U074
Dichlorodifluoromethane
Methane, dichtorodifluoro-
75-71-8
U075
O ichtoroethylene,
P4.0.S.
0 ichloroethylene
25323-30-2
i,i-Dichtoroethylene
Ethene, 1,1-dichloro-
75-35-4
U078
i,2-Dichloroethylene
Ethene,
i,2-dichloro-,
(E)-
156-60-5
U079
Dichloroethyl
ether
Ethane,
i,1’-oxybis(2-chloro-
111-44-4
U025
Dichloroisopropyl
ether
Propane,
2,2’-oxybis(2-chloro-
108-60-i
U027
Dichtoromethoxyethane
Ethane,
i,1’-(methytenebis(oxy)bis-
(2- ch loro-
111-91-1
U024
Dichloromethyl ether
Methane,
oxybis(chloro-
542-88-1
P016
2,4-Dichlorophenot
Phenol, 2,4-dichloro-
120-83-2
U08I
2,6-Dichlorophenol
Phenol, 2,6-dichloro-
87-65-0
1)082
Dichtorophenylarsine
Arsonous dichtoride,
phenyl-
696-28-6
P036
Dichloropropane, N.0.S.
Propane, dichtoro-
26638-i9-7
Dichloropropanol, N.O.S.
Propanol, dichloro-
26545-73-3
Dichloropropene, N.0.S.
1-Propane, dichloro-
26952-23-8
i,3-Dichtoropropene
i-Propane,
1,3-dichloro-
542-75-6
U084
Dieldrin
2, 7:3, 6-Dimethanonaphth(2, 3-b-
oxirene,
3, 4,
5, 6,
9, 9-hexa-
chloro-la,
2, 2a, 3, 6,
6a,
7, 7a-
octahydro-,
Cia
alpha,
2 beta,
2a
alpha,
3
beta,
6 beta, 6a
alpha,
7
beta, 7a alpha)-
60-57-i
P037
i,2:3,4-Diepoxybutane
2,2’-Bioxirane
1464-53-5
(J085
Diethylarsine
Arsine, diethyt-
692-42-2
P038
1,4-Diethyleneoxide
i,4-Dioxane
123-91-i
Ui08
Diethylhexyt phthalate
i,2-Benzenedicarboxylic acid, bis(2-
ethythexyl) ester
117-81-7
U028
N,N’-Diethythydrazine
Hydrazine,
1,2-diethyl-
,
i6i5-~o-i
U086
120—426
67
O,O-Diethyl-S-methyt
dithiophosphate
Phosphorodithioic acid, 0,0-diethyl
3288-58-2
1)087
S-methyl
ester
Diethyl-p-nitrophenyl
phosphate
Phosphoric
acid,
diethyl
4-nitro-
311-45-5
P041
phenyl
ester
Diethyl phthalate
1,2-Benzenedicarboxylic acid,
84-66-2
U088
diethyt
ester
0,0-Diethyl 0-pyrazinyl
phosphorothioate
Phosphorothioic
acid, 0,0-diethyl 0-
297-97-2
P040
pyrazinyt ester
Diethylstilbestrol
Phenol, 4,41-(1,2-diethyl-i,2-
56-53-1
1)089
ethenediyl)bis-, (E)-
Dihydrosafrole
1,3-8enzodioxole, 5-propyl-
94-58-6
U090
DiisopropytfluorophOsphate
(DFP)
Phosphorofluoridic
acid, bis(i-
55-91-4
P043
inethylethyl) ester
Dimethoate
Phosphorodithioic acid, 0,0-dimethyl
60-51-5
P044
5- (2-(methylamino)-2-oxoethyl)
ester
3,3’-Dimethoxybenzidine
(1,i’-Biphenyt-4,4’-diamine,
3,3’-
119-90-4
U09i
dimethoxy-
p-Dimethylaminoazobenzene
Benzenamine, N,N-dimethyt-4-(phenyl-
60-il-7
U093
azo)-
7,i2-Dimethylbenz(aanthracene
Benz(aanthracene,
7,i2-dirnethyl-
57-97-6
U094
3,3’-Dimethylbenzidine
(l,1’-Biphenyl-4,4’-diamine,
3,3’-
119-93-7
1)095
dimethyl-
Dimethylcarbamoyl chloride
Carbamic chloride, dimethyl-
79-44-7
U097
1,1-Dimethylhydrazine
Hydrazine,
1,1-dimethyl-
57-14-7
1.1098
1,2-Dirnethylhydrazine
Hydrazine,
1,2-dimethyL-
540-73-8
U099
alpha,alpha-Dimethylphenethylarnine
Benzeneethanamine,
alpha,
alpha-
122-09-8
P046
dimethyl-
2,4-Dimethylpheriol
Phenol,
2,4-dimethyl-
105-67-9
UlOl
Dimethylphthalate
1,2-Benzenedicarboxylic acid,
13i-1i-3
U102
dimethyl ester
Dimethyl sulfate
Sulfuric acid, dimethyl ester
77-78-i
U103
Dinitrobenzene, N.0.S.
Benzene, dinitro-
25154-54-5
4,6-Dinitro-o-cresoL
Phenol, 2-methyl-4,6-dinitro-
534-52-1
P047
4,6-Dinitro-o-cresol salts
P047
2,4-Dinitrophenol
Phenol,
2,4-dinitro-
51-28-5
P048
2,4-Dinitrototuene
Beazene, i-methyl-2,4-dinitro-
121-14-2
U105
2,6-Dinitrotoluene
Beazene, 2-methyl-1,3-dinitro-
606-20-2
Ul06
Dinoseb
Phenol,
2-(1-methytpropyl)-4,6-
88-85-7
P020
dinitro-
Di-n-octyt phthatate
1,2-Benzenedicarboxylic acid,
117-84-0
U107
dioctyl ester
Diphenylamine
Benzenamine, N-phenyl-
122-39-4
i,2-Diphenylhydrazine
Hydrazine,
i,2-diphenyl-
122-66-7
U109
Di-n-propytnitrosamine
i-Propanamine, N-nitroso-N-propyt-
621-64-7
U111
Disulfoton
Phosphorodithioic acid,
0, 0-diethyl
298-04-4
P039
S- (2-(ethylthio)ethyl
ester
Dithiobiuret
Thioimidodicarbonic diamide
541-53-7
P049
((H2N)C(S)2NH
Endosulfan
6, 9-Methano-2, 4, 3-benzodioxathie-
115-29-7
P050
pen, 6,
7,
8,
9,
10,
10-hexachloro-
1,
5, 5a,
6, 9, 9a-hexahydro-,
3-
oxide,
Endothal
7-Oxabicyclo(2.2.1heptane-2,
3-di-
145-73-3
P088
carboxylic
acid
Endrin
2,
7:3,
6-Dimethanonaphth(2,
3-b)-
72-20-8
P051
oxirene,
3,
4,
5,
6,
9,
9-hexa-
chloro-la,
2, 2a, 3,
6, 6a,
7,
7a-
octahydro-,
Cia alpha, 2 beta,
2a
beta, 3 alpha, 6 alpha, 6a beta, 7
beta,
7a alpha)-,
Endrin metabolltes
P051
Epichlorohydrin
Oxirane,
(chloromethyt)-
i06-89-8
1)041
120—42 7
68
Epinephrine
1,2-Benzenediol, 4-(1-hydroxy-2-
51-43-4
P042
(methylamino)ethyl)-, (R)-
Ethyl
carbamate (urethane)
Carbamic acid,
ethyl ester
51-79-6
U238
Ethyl
cyanide
Propanenitrile
107-12-0
P101
Ethylenebisdithiocarbamic acid
Carbamodithioic acid, 1,2-ethane-
ili-54-6
1)114
diylbis-
Ethylenebisdithiocarbamic acid, saLts and
U114
esters
Ethylene dibromide
Ethane,
1,2-dibromo-
106-93-4
U067
Ethylene dichtoride
Ethane, 1,2-dichtoro-
107-06-2
U077
Ethylene glycoL monoethyl ether
Ethanol, 2-ethoxy-
110-80-5
U359
EthyLeneimine
Aziridine
151-56-4
P054
Ethylene oxide
Oxirane
75-21-8
UiiS
Ethytenethiourea
2-lmidazolidinethione
96-45-7
Uiió
EthyLidine dichloride
Ethane, 1,1-dichLoro-
75-34-3
1)076
Ethyl
rnethacrylate
2-Propenoic acid, 2-methyl-, ethyl
97-63-2
U118
ester
Ethyl
methanesulfonate
Methanesulfonic acid,
ethyl ester
62-50-0
U1i9
Famphur
Phosphorothioc acid, 0-(4-
52-85-7
P097
((diniethylamino)sulfonylphenyt
0,0-dirnethyl
ester
Fluoranthene
Same
206-44-0
U120
Fluorine
Same
7782-41-4
P056
Fluoroacetamide
Acetamide,
2-fluoro-
640-19-7
P057
Fluoroacetic
acid,
sodium
salt
Acetic
acid,
fluoro-,
sodium
salt
62-74-8
P058
FormaLdehyde
Same
50-00-0
U122
Formic
acid
Same
64-18-16
1)123
Glycidytaldehyde
Dxiranecarboxaldehyde
765-36-4
U126
Halomethanes, N.OS.
Heptachlor
4,
7-Methano-1H-indene,
1, 4,
5, 6,
76-44-8
P059
7, 8, 8-heptachtoro-3a, 4,
7, 7a-
tetrahydro-
Heptachlor epoxide
2, 5-Methano-2H-indeno(i,
i024-57-3
2boxirene,
2, 3, 4, 5, 6, 7,7-
heptachloro-la,
lb.
5, 5a, 6,
6a-
hexahydro-,
(ia alpha,
lb beta,
2
alpha,
5
alpha,
5a
beta,
6 beta, 6a
alpha)
-
Heptachlor
epoxide
(alpha,
beta
and ganina
isomers)
Heptachtorodibenzofurans
Heptachlorodibenzo-p-dioxins
Hexachlorobenzene
Benzene,
hexachloro-
118-74-1
U127
Hexachtorobutadiene
1,3-Butadiene,
1,1,2,3,4,4-hexa-
87-68-3
U128
chloro-
Hexachiorocyclo-pentadiene
i,3-Cyclopentadiene, 1,2,3,4,5,5-
77-47-4
U130
hexachIoro-
Hexachtorodibenzo-p-dioxins
Hexachtorodibenzofurans
HexachLoroethane
Ethane,
hexachloro-
67-72-1
1)131
Hexachlorophene
Phenol,
2,2’-methyLenebis(3,4,6-tri-
70-30-4
Ui32
chloro-
HexachLoropropene
1-Propane,
i,1,2,3,3,3-hexachLoro-
1888-71-7
1)243
Hexoethyttetraphosphate
Tetraphosphoric acid, hexaethyl
757-58-4
P062
ester
Hydrazine
Same
‘
302-01-2
Ui33
Hydrogen cyanide
Hydrocyanic acid
74-90-8
P063
Hydrogen fluoride
Hydrofluoric acid
7664-39-3
U134
Hydrogen sulfide
Hydrogen sulfide H2S
7783-06-4
U135
Indeno(l,2,3-cdpyrene
Same
193-39-5
Ui37
Isobutyl alcohol
1-Propanot,
2-methyl-
78-83-i
Ui40
120—428
69
Isodrin
1,
4:5,
8-Dimethanonaphthalene,
1,
465-73-6
P060
2, 3,
4,
10,
iO-hexachtoro-i, 4,
4a,
5,
8,
8a-hexahydro-,
(1
alpha,
4
alpha,
4a
beta,
5
beta,
8
beta,
8a
beta)-,
Isosafrole
1,3-Benzodioxole,
5-(1-propenyl)-
120-58-1
1)141
Kepone
1, 3, 4-Metheno-2H-cyctobuta(cd-
143-50-0
1)142
pentalen-2-one,
1,
ia,
3,
3a,
4,
5,
5,
5a,
5b,
6-decachlorooctahydro-,
Lasiocarpine
2-Butenoic acid, 2-methyl-,
7-((2,
303-34-1
Ul43
3-dihydroxy-2-(1-methoxyethyl)-3-
methyl-1-oxobutoxymethyl-2,
3, 5,
7a-tetrahydro-IH-pyrrol I zin- l-yl
ester,
(IS-(1-alpha(Z),
7(2S*,
3R*),
Ta alpha)-
Lead
Same
7439-92-1
Lead and compounds,
N.0.S.
Lead acetate
Acetic acid,
lead (2+) salt
301-04-2
Ui44
Lead phosphate
Phosphoric acid,
lead
(2k)
salt
7446-27-7
U145
(2:3)
Lead
subacetate
Lead,
bis(acetato-0)tetrahydroxytri-
1335-32-6
U146
Lindane
Cyclohexane,
i,2,3,4,5,6-hexa-
58-89-9
U129
chtoro-,
1
alpha,
2
aLpha,
3
beta,
4
alpha,
5 alpha, 6 beta)-
Maleic anhydride
2,5-Furandione
108-31-6
Ui47
Mateic hydrazide
3,6-Pyridazinedione,
i,2-dihydro-
123-33-1
U148
MaLononitrile
Propanedinitrile
109-77-3
U149
MeLphatan
L-Phenylatanine, 4-(bis(2-chloro-
i48-82-3
1)150
ethyl )amino)
-
Mercury
Same
7439-97-6
U151
Mercury compounds, N.0.S.
Mercury fulminate
Futminic acid, mercury (2+) salt
628-86-4
P065
Methacrytonitrile
2-Propenenitrile, 2-methyl-
126-98-7
1)152
Methapyrilene
1,2-Ethanediamine, N,N-dimethyl-W’-
91-80-5
U155
2-pyridinyl-N’-(2-thienylmethyt)-
Methotmyl
Ethanimidothioic acid, N-(((methyt-
16752-77-5
P066
amino)carbonyloxy)-,
methyl
ester
Methoxychlor
Benzene,
1,i’-(2,2,2-trichloroethyl-
72-43-5
U247
idene)bi s(4-methoxy-
Methyl bromide
Methane, bromo-
74-83-9
1)029
Methyl chloride
Methane,
chloro-
74-87-3
1)045
Methylchtorocarbonate
Carbonochloridic acid, methyl ester
79-22-i
Ul56
Methyl chloroform
Ethane,
i,1,1-trichloro-
71-55-6
1)226
3-Methylcholanthrene
Benz(jaceanthrylene,
1,2-dihydro-
56-49-5
U157
3-methyl
-
4,4’-Methylenebis(2-chtoroaniline)
Benzenamine, 4,4’-methylenebis(2-
101-14-4
U158
chloro-
MethyLsne
bromide
Methane,
dibromo-
74-95-3
U068
Methylene
chloride
Methane,
dichtoro-
75-09-2
U080
Methyl ethyl ketone (MEK)
2-Butanone
78-93-3
1)159
Methyl ethyl ketone peroxide
2-Butanone,
peroxide
1338-23-4
U160
Methyl hydrazine
Hydrazine, methyl-
60-34-4
P068
Methyl
iodide
Methane,
lodo-
74-88-4
U138
Methyl
isocyanate
Methane,
isocyanato-
624-83-9
P064
2-Methyl Lactonitrile
‘Propanenitrile, 2-hydroxy-2-methyl-
75-86-5
P069
MethyL
methacryLate
2-Propenoic
acid,
2-methyl-,
methyl
80-62-6
Ui62
ester
Methyl
methanesulfonate
‘
Methanesutfonic
acid,
methyl
ester
66-27-3
Methyl
parathion
Phosphorothioic
acid,
0,0-dimethyl
298-00-0
P071
0-(4-nitrophenyL) ester
120—42 9
70
MethylthiouraciL
4-(1H)-Pyrimidinone, 2,3-dihydro-6-
56-04-2
U164
methyl-2-thioxo-
Mitomycin
C
Azirino(2’, 3’:3, 4pyrrolo(i,
2-
50-07-7
U010
aindole-4,
7-dione,
6-amino-B-
Uaminocarbonyl)oxymethyt-i,
la,
2, 8, Ba, 8b-hexahydro-8a-methoxy-
5-methyl-,
tla-S-(la alpha, 8 beta,
Ba alpha, 8b alpha)-,
MNNG
Guanidine, N-methyl-N’-nitro-14-
70-25-7
1)163
nitroso-
Mustard gas
Ethane,
1,1’-thiobis(2-chioro-
505-60-2
1)165
Naphthalene
Same
91-20-3
U165
i ,4-Waphthoquinone
1 ,4-Naphthalenedione
130-15-4
U166
atpha-NaphthyLamine
1 -Naphthalenainine
i34-32-7
U167
beta-NaphthyLamine
2-NaphthaLenami ne
91-59-8
U168
alpha-Waphthylthiourea
Thiourea, 1-naphthalenyl-
86-88-4
P072
Nickel
Same
7440-02-0
Wicket compounds, N0.S.
Nickel
carbonyl
Nickel carbonyl
Ni(C0)4,
(T-4)-
13463-39-3
P073
Wicket cyanide
Nickel cyanide Ni(CN)2
557-19-7
P074
Nicotine
Pyridine, 3-(i-methyt-2-
54-11-5
P075
pyrroLidinyl)-,
(5)-
Nicotine salts
P075
Nitric oxide
Nitrogen oxide NO
10102-43-9
P076
p-Nitroanitine
Benzenamine, 4-nitro-
100-01-6
P077
Nitrobenzene
Benzene,
nitro-
98-95-3
P078
Nitrogen dioxide
Nitrogen oxide N02
10102-44-0
P078
Nitrogen mustard
Ethanamine,
2-chtoro-N-(2-
51-75-2
chloroethyl)-N-methyl-
Nitrogen mustard, hydrochloride salt
Nitrogen mustard N-oxide
Ethanamine,
2-chloro-N-(2-chtoro-
126-85-2
ethyL)-N-methyL-,
N-oxide
Nitrogen mustard, N-oxide,
hydrochloride
salt
NitrogLycerin
1,2,3-PropanetrioL,
trinitrate
55-63-0
P081
p-Nitrophenol
Phenol, 4-nitro-
100-02-7
U170
2-Nitropropane
Propane,
2-nitro-
79-46-9
1)171
Nitrosamines, N.OS.
35576-91-1
N-Nitrosodi-n-butyLamine
i-Butanamine, N-butyl-N-nitroso-
924-16-3
U172
N-Nitrosodiethanolamine
Ethanol,
2,2’-(nitrosoimino)bis-
1116-54-7
1)173
N-Nitrosodiethytamine
Ethanamine,
N-ethyl-W-nitroso-
55-18-5
U174
N-Nitrosodimethylamine
Methanamine, N-methyl-N-nitroso-
62-75-9
P082
N-Witroso-N-ethylurea
Urea, N-ethyL-N-nitroso-
759-73-9
1)176
N-Nitrosomethylethylamine
Ethanamine,
N-methyl-N-nitroso-
10595-95-6
N-Nitroso-N-methyLurea
Urea, N-methyL-N-nitroso-
684-93-5
11177
N-Nitroso-N-rnethylurethane
Carbamic acid, methytnitroso-,
ethyl
615-53-2
1)178
ester
N-NitrosomethylvinyLamine
Vinylamine, N-methyl-N-nitroso-
4549-40-0
P084
N-Nitrosomorpholine
Morpholine, 4-nitroso-
59-89-2
N-Nitrosonornicotine
Pyridine, 3-(i-nitroso-2-
16543-55-8
pyrrolidinyL)-, CS)-
N-Nitrosopiperidine
Piperidine,
1-nitroso-
100-75-4
1)179
N-Nitrosopyrrolidine
Pyrrotidine, 1-nitroso-
930-55-2
1)180
N-Nitrososarcosine
Glycine,
W-methyt-W-nitroso-
13256-22-9
5-Nitro-o-toluidine
Benzenamine, 2-methyl-5-nitro-
99-55-8
U181
Octamethylpyrophosphoramide
Diphosphoramide,
octamethyl-
152-16-9
P085
Osmium tetroxide
Osmium oxide 0s04,
(1-4)
20816-12-0
P087
ParaLdehyde
‘
1,3,5-Trioxane, 2,4,6-trimethyl-
123-63-7
1)182
Parathion
‘
Phosphorothioic acid, 0,0-diethyl 0-
56-38-2
P089
(4-nitrophenyl) ester
Pentachtorobenzene
Benzene, pentachloro-
608-93-5
1)183
Pentach Iorodibenzo-p-dioxins
Pentach Iorodibenzofurans
120—430
71
Pentachtoroethane
Ethane, pentachloro-
76-01-7
U184
Pentachloronitrobenzene
(PCNB)
Benzene,
pentachloronitro-
82-68-8
11185
Pentachlorophenot
Phenol, pentachloro-
87-86-5
See F027
Phenacetin
Acetainide, W-(4-ethoxypbenyl)-
62-44-2
11187
PhenoL
Same
108-95-2
11188
Phenylenediasnine
Benzenediamine
25265-76-3
Phenylmercury acetate
Mercury,
(acetato-0)phenyl-
62-38-4
P092
Phenylthiourea
Thiourea, phenyl-
103-85-5
P093
Phosgene
Carbonic dichtoride
75-44-5
P095
Phosphine
Same
7803-51-2
P096
Phorate
Phosphorodithioic acid, 0,0-diethyl
298-02-2
P094
5-((ethylthio)methyl
ester
Phthalic
acid
esters,
N.0.S.
PhthaLic anhydride
i,3-lsobenzofurandione
85-64-9
U190
2-PicoLine
Pyridine,
2-methyl-
109-06-8
U191
Polychlorinated biphenyts,
N.0.S.
Potassium cyanide
Same
151-50-8
P098
Potassium silver cyanide
Argentate(1-), bis(cyano-C)-,
506-61-6
P099
potassium)
Pronamide
Benzamide, 3,5-dichloro-N-(1,1-di-
23950-58-5
U192
methyl-2-propynyl)-
1,3-Propane sultone
‘
1,2-Oxathiolane, 2,2-dioxide
1120-71-4
U193
n-Propylamine
1-Propanamine
107-10-8
1)194
Propargyl alcohol
2-Propyn-1-ol
107-19-7
P102
Propylene dichioride
Propane, 1,2-dichtoro-
78-87-5
U083
1,2-PropyLenimine
Aziridine, 2-methyl-
75-55-8
P067
Propytthiouracit
4(1H)-Pyri,nidinone,
2,3-dihydro-6-
51-52-5
propyl-2-thioxo-
Pyridine
Same
iio-86-1
U196
Reserpine
Yohimban-i6-carboxylic acid,
ii,
17-
50-55-5
U200
dimethoxy-18-((3, 4, 5-trimethoxy-
benzoyL)oxy-,
methyl ester,
(3
beta,
16 beta,
17 alpha,
18 beta,
20
alpha)-,
Resorcinot
1,3-BenzenedioL
108-46-3
U201
Saccharin
i,2-Benzisothiazol-3(2H)-one,
1,1-
81-07-2
U202
dioxide
Saccharin salts
U202
Safrote
1,3-Benzodioxole, 5-(2-propenyL)-
94-59-7
1)203
Selenium
Same
7782-49-2
Selenium compounds,
P4.0.5.
Selenium dioxide
Selenious acid
7783-00-8
1)204
Selenium sulfide
Selenium sulfide SeS2
7488-56-4
U205
Selenourea
Same
630-10-4
P103
Silver
Same
7440-22-4
Silver compounds, NO.S.
Silver cyanide
SiLver cyanide
AgCN
506-64-9
P104
Silvex
(2,4,5-IP)
Propanoic
acid,
2-C2,4,5-
93-72-i
See
F027
trichlorophenoxy)-
Sodium cyanide
Sodium cyanide NaCN
143-33-9
P106
Streptozotocin
0-Glucose, 2-deoxy-2-Umethyl-
18883-66-4
1)206
nitrosoamino)carbonylamino)
-
Strychnine
Strychnidin-lO-one
57-24-9
P108
Strychnine
salts
‘
P108
TCDD
Dibenzo(b,e
(1,4dioxin,
2,3,7,8-
1746-01-6
tetrachLoro-
1,2,4,5-TetrachLorobenzene
Benzene,
i,2,4,5-tetrachloro-
95-94-3
U207
letrachlorodi benzo-p-dioxins
letrachlorodi benzofurans
Tetrachloroethane, N.OS
Ethane,’tetrachloro-, N.0.S
25322-20-7
i,1,i,2-Tetrachloroethane
Ethane,
1,i,1,2-tetrachloro-
630-20-6
1)208
1,i,2,2-Tetrachloroethane
Ethane, 1,1,2,2-tetrachloro-
79-34-5
U209
TetrachloroethyLene
Ethene, tetrachloro-
127-18-4
U2i0
120—43 1
72
~,3,4,6-Tetrachlorophenol
retraethytdithiopyrophosphate
Tetraethyl
lead
letraethyIpyrophosphate
letranitromethane
ThaLlium
Thallium compounds
Thallic oxide
ThaLlium (I) acetate
Thallium (I) carbonate
Thallium (I) chloride
Thallium (I) nitrate
Thallium selenite
Thallium (1) sulfate
ThI oacetamide
Thiofanox
Thiomethanol
Thiophenol
‘Thiosemicarbazide
Thiourea
Thiram
Totuene
Toluenediamine
ToLuene-2,4~diamine
Toluene-2,6-diamine
Toluene-3,4-diamine
Toluene di isocyanate
o-Totuid ine
o-Toluidine hydrochloride
p-Toluidine
Toxaphene
1,2,4-TrichLorobenzene
i,i,2-Trichloroethane
TrichLoroethylene
Tr ichloromethanethioL
Trichtoromonofluoromethane
2,4,5-Trichlorophenol
2,4,6-Trichlorophenol
2,4,5-T
TrichLoropropane, N.0.S
1, 2,3-In chLoropropane
0,0,0-TriethyLphosphoroth ioate
i,3,5-Trinitrobenzene
Tnis(L-azinidinyl)phosphine sulfide
Tris(2,3-dibromopropyt) phosphate
Trypan blue
Phenol, 2,3,4,6-tetrachloro-
Thiodiphosphoric acid,
tetraethyl
ester
Plurbane, tetraethyl-
Diphosphoric acid,
tetraethyt ester
Methane, tetranitro-
Same
Thathun oxide 11203
Acetic acid,
thallium (i~)salt
Carbonic acid, dithatliun (1÷)saLt
Thallium
chloride ltd
Nitric
acid,
thallium
(1+)
salt
Selenious acid, dithalliun (1+) salt
Sulfuric
acid,
dithathiun
(1+)
salt
Ethanethioamide
2-Butanone,
3,3-dimethyl-i-(methyl-
thio)-,
0-
((mett,ylamino)carbonylj
-
oxime
Methanethiol
Benzenethiol
Hydrazinecarboth
ioamide
Same
Thioperoxydicarbonic diamide
((H2N)C(S)2S2,
tetramethyl-
Benzene, methyl-
Benzenediamine, ar-methyl-
i,3-Benzenediamine, 4-methyl-
1 ,3-Benzenediamine, 2-methyl-
i,2-Benzenediamine, 4-methyl-
Benzene,
1,3-diisocyanatornethyl-
Benzenamine, 2-methyl-
Benzeneamine, 2-methyl-, hydro-
chloride
Benzenamine, 4-methyl-
Same
Benzene, 1,2,4-trichloro-
Ethane, 1,1,2-trichloro-
Ethene, tnichloro-
Methanethiol,
trichloro-
Methane, trichtorofluoro-
Phenol, 2,4,5-trichtoro-
Phenol, 2,4,6-tnichtoro-
Acetic acid,
(2,4,5-trichloro-
phenoxy)
-
Propane,
i,2,3-trichloro-
Phosphorothioic acid,
0,0,0-triethyl
ester
Benzene, 1,3,5-trinitro-
Aziridine,
i,1’,l”-phosphinothioyl-
idynetris-
1-Propanol, 2,3-dibromo-, phosphate
(3:1)
2,7-P4aphthalenedisuLfonic acid,
3,3’- E(3,3’-dimethyl (1,1’-biphenyl-
4,4’ -diyl )bis(azo)
bi
s(5-amino-4-
hydroxy-,
tetrasodiun
salt
2,4-(IH,3H)-Pyrimidinedione, 5-
(bis(2-chloroethyl)amino)
-
Vanadium oxide V205
58-90-2
3689-24-5
78-00-2
107-49-3
509-14-8
7440-28-0
74-93
-
108-98-5
79-19-6
62-56-6
137-26-8
108-88-3
25376-45-8
95-80-7
823-40-5
496-72-0
26471-62-5
95-53-4
636-21-5
106-49-0
8001-35-2
120-82-1
79-00-5
79-01-6
75-70-7
75-69-4
95-95-4
88-06-2
93-76-5
25735-29-9
96- 18-4
126-68-i
99-35-4
1)234
52-24-4
126-72-7
U235
72-57-1
0236
66-75-1
U237
1314-62-1
P120
1314-32-5
563-68-8
6533-73-9
7791-12-0
10102-45-1
12039-52-0
7446-18-6
62-55-5
39196- 18-4
See
F027
P109
P110
Pill
P112
P113
U214
0215
U2i6
11217
P114
P115
U218
P045
11153
P014
P116
P219
11244
U220
U22 1
.1223
0328
0222
U353
P123
1)227
U228
P118
U121
See
F027
See
F027
See
F027
Uracit mustard
Vanadium pentoxide
120—4 32
73
Vinyl
chloride
Warfanin
Wartanin
Warfarin salts, when present at
concentrations
less than 0.3.
Warfarin salts,
when present at
concentrations
greater than 0.3.
Zinc cyanide
Zinc
phosphide
Zinc phosphide
Ethene,
chloro-
2H-1-Benzopyran-2-one,
4-hydroxy-3-
(3-oxo-1-phenytbutyl)-, when present
at concentrations less than 03.
2H-i-Benzopyran-2-one, 4-hydroxy-3-
(3-oxo-1-phenylbutyl)-,
when
present
at
concentrations
greater
than
0.3.
Zinc cyanide Zn(CN)2
Zinc phosphide P2Zn3, when present
at concentrations greater
than 10.
Zinc phosphide P2Zn3, when present
at concentrations of 10
or less.
81-81-2
P001
0248
Pool
557-21-1
P121
1314-84-7
P122
1314-84-7
0249
(Source:
Amended
at
15
Iii.
Reg.
,
effective
75-01-4
81-81-2
U043
1)248
120—433
74
TITLE 35:
ENVIRONMENTAL PROTECTION
‘“SUBTITLE
G:
‘‘WASTE
DISPOSAL
CHAPTER
I:
POLLUTION
CONTROL
BOARD
SUBCHAPTER c:
HAZARDOUS WASTE OPERATING REQUIREMENTS
PART 722
STANDARDS APPLICABLE TO GENERATORS OF HAZARDOUS WASTE
SUBPART A:
GENERAL
Section
722.110
722.111
722.112
Purpose, Scope and Applicability
Hazardous Waste Determination
USEPA Identification Numbers
SUBPART B:
THE MANIFEST
Section
722
.
120
722.121
722.122
722.123
Section
722.130
722.131
722.132
722.133
722.134
General Requirements
Acquisition
of
Manifests
Number of Copies
Use
of
the
Manifest
Packaging
Labeling
Marking
Placarding
Accumulation Time
Section
722.140
722. 141
722.142
722.143
722.144
Section
722.150
722.151
722.152
722.
153
722.
154
722.
155
722.156
722.157
Applicability
Definitions
General
Requirements
Notification of Intent to Export
Special Manifest Requirements
Exception Report
Annual
Reports
Recordkeep ing
SUBPART
F:
IMPORTS OF HAZARDOUS WASTE
Section
722.160
Imports of Hazardous Waste
SUBPART
C:
PRE-TRANSPORT REQUIREMENTS
SUBPART
D:
RECORDKEEPING
AND
REPORTING
Recordkeeping
Annual Reporting
Exception Reporting
Additional Reporting
Special Requirements for Generators of between 100 and
1000 kilograms per month
SUBPART E:
EXPORTS OF HAZARDOUS WASTE
120—434
75
SUBPART G:
FARMERS
Section
722.170
Farmers
Appendix A
Hazardous Waste Manifest
AUTHORITY:
Implementing Section 22.4 and authorized by Section
27 of the Environmental Protection Act
(Ill.
Rev. Stat.
1989,
ch.
ill 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.
Adiii.
Code 700.106; amended and
codified in R81—22,
45 PCB 317, at 6 Ill. Reg.
4828, effective as
noted in 35 Ill.
Adm. Code 700.106; amended in R82—18,
51 PCB 31,
at
7
Ill.
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.113l, effective January
2,
1986; amended in
R86—1
at 10
Ill. Reg.
14112, effective August 12,
1986;
amended
in R86—19 at 10
Iii. Reg.
20709,
effective December 2,
1986;
amended in R86-46 at 11
Ill. Reg.
13555,
effective August
4,
1987; amended
in R87-5 at
11 Ill.
Reg.
19392, effective November
12,
1987;
amended in R87—39 at 12
Ill. Reg.
13129,
effective July
29,
1988;
amended in R88—16 at 13
Ill. Reg.
452, effective
December 27,
1988; amended in R89—1 at 13
Ill. Reg.
18523,
effective November 13,
1989; amended in R90-lO at 14 Ill.
Req.
16653, effective September 25,
1990; amended in R90-11 at 15 Ill.
Reg.
,
effective
;
amended in R91—1 at
15 Ill. Reg.
,
effective
SUBPART C:
PRE-TRANSPORT REQUIREMENTS
Section 722.134
Accumulation Time
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 35 Ill.
Adin.
Code
725.Subpart
I or the waste is placed in tanks and
the
generator
complies
with
35 Ill.
Adin.
Code
725.Subpart J except 35
Ill.
Adni. Code 725.297(c)
and 725.300.
In addition, such a generator is
exempt from all the requirements in 35 Ill. Adm.
Code 725.Subparts G and H,,except for 35
Ill.
Adm.
Code 725.211 and 725.214;
2)
The waste is Placed on drip pads and the generator
complies with 35 Ill.
Adm.
Code 725.Subpart W and
maintains the following records at the facilit~
120—435
76
~
A description of the procedures that will be
followed to ensure that all wastes are
removed from the drip pad and associated
collection
system
at
least.once
every
90
days;
and
~
Documentation of each waste removal,
including the quantity of waste removed from
the drip pad and the sump or collection
system and the date and time of removal.
~j
In addition, such a generator is exempt from
all the requirements in 35
Ill.
Adni. Code
725.Subparts G and H,
except for 35 Ill. Adm.
Code 725.211 and 725.214.
fl
‘The date upon which each period of accumulation
begins is clearly marked and visible for
inspection on each container;
-3-4.)
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 35 Ill. Adm. Code
725.Subparts C and D~and with 35 Ill.
Adin.
Code
725.116 and 728.107(a) (4).
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 Ill. Adm. Code 724
and 725 and the permit requirements of 35 Ill.
Adnt.
Code 702, 703 and 705 unless the generator has been
granted an extension of the 90-day period.
If
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
up
to
30
days
by
means
of
a
variance
or
provisional
variance, pursuant to Section 37 of the Environmental
Protection Act.
C)
Accumulation near point of generation.
1)
A generator may accumulate as much;.~as55 ‘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 control of the operator of the
process generating the waste, without a permit or
120—436
77
interim
status
and
without
complying
with
paragraph
(a)”provided
the
generator:
A)
Complies with 35 Ill. Adm. Code 725.271,
725.272
and
725.273(a);
and
B)
marks 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
subsection
(c)
(1) at or near any point of
generation must, with respect to that amount of
excess
waste,
comply
within
three
days
with
subsection
(a)
or
other
applicable
provisions
of
this chapter.
During the three day period the
generator must continue to comply with subsection
(c) (1).
The generator must mark the container
holding the excess accumulation of hazardous waste
with the date the excess amount began
accumulating.
d)
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 35
Ill.
Adni.
Code 725.Subpart
I,
except the generator
need not comply with 35 Ill.
Adin. Code 725.276;
3)
The generator complies with the requirements of 35
Ill. Adm. Code 725.301;
4)
The generator complies with the requirements of
subsections
(a)
(2)
and
(a)
(3)
and
the
requirements
of 35 Ill.
Adni.
Code 725.Subpart C; and
5)
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
120—43 7
78
period
of
time)
with
the
responsibility
for
coordinating
all
emergency
response
measures
specified in subsection
(d) (4) (D).
The
employee is the emergei~cycoordinator.
B)
The generator shall post the following
information next to the telephone:
i)
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:
i)
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 of 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
120—438
79
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.
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
or
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 15
Ill.
Reg.
,
effective
120—439
80
TITLE
35:
ENVIRONMENTAL
PROTECTION
SUBTITLE G:” WASTE DISPOSAL
CHAPTER
I:
POLLUTION
CONTROL
BOARD
SUBCHAPTER
C:
HAZARDOUS
WASTE
OPERATING’ REQUIREMENTS
PART
724
STANDARDS
FOR
OWNERS
AND
OPERATORS
OF
HAZARDOUS
WASTE
TREATMENT,
STORAGE
ANDtor.
B)
The
generator
shall
post
the
following
information
next
to
the
telephone:
1)
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,
rele
DISPOSAL FACILITIES
SUBPART
A:
GENERAL
PROVISIONS
Section
724.101
Purpose, Scope and Applicability
72ipment
724.133
Testing and Maintenance of Equipment
724.134
Access to Communications or Alarm System
724.135
Required Aisle Space
724.137
Arrangements with Local Authorities
SUBPART
D: CONTINGENCY
PLAN
AND
EMERGENCY PROCEDURES
Section
724.150
Applicability
724.151
Purpose
and
Implementation
of
Contingency
Plan
724.152
Content of Contingency Plan
724.153
Copies of Contingency Plan
724.154
Amendment of Contingency Plan
724.155
Emergency Coordinator
724.156
Emergency Procedures
SUBPART E:
MANIFEST
SYSTEM, RECORDKEEPING
‘AND
REPORTING
Section
724.170
Applicability
724.171
Use of Manifest System
724.172
Manifest Discrepancies
120—440
~8
1
724 .173
724.174
724.175
724.176
724.177
Operating Record
Availability,
Retention
and
Disposition
of
Records
Annual Report
Unmanifested
Waste
Report
Additional
Reports
Section
724.190
724.191
724
.
192
724.193
724.194
724.195
724.196
724.197
724.198
724.199
724.200
724.201
Section
724.210
724.211
724.212
724.213
724.214
724.215
724.216
724.217
~724
.
2~i8
724.219
724.220
SUBPART F:
RELEASES FROM SOLID WASTE MANAGEMENT UNITS
Applicability
Required Programs
Groundwater Protection Standard
Hazardous Constituents
Concentration Limits
Point of Compli’artce
Compliance Period
General Groundwater Monitoring Requirements
Detection
Monitoring
Program
Compliance
Monitoring
Program
Corrective
Action
Program
Corrective Action for Solid Waste Management Units
SUBPART G:
CLOSURE
AND
POST-CLOSURE
Applicability
Closure Performance Standard
Closure Plan; Amendment of Plan
Closure; Time Allowed For Closure
Disposal or Decontamination of Equipment,
Structures
and Soils
Certification of Closure
Survey Plat
Post—closure Care and Use of Property
Post—closure Plan; Amendment of Plan
Post—closure Notices
Certification of Completion of Post-closure Care
SUBPART H:
FINANCIAL REQUIREMENTS
Applicability
Definitions of Terms As Used In This Subpart
Cost Estimate for Closure
Financial Assurance for Closure
Cost Estimate for Post—closure Care
Financial Assurance for Post—closure Care
Use of a Mechanism for Financial Assurance of Both
Closure and Post-closure Care
Liability Requirements
Incapacity of Owners or Operators,’ Guarantors or
Financial Institutions
724.251
Wording of the Instruments
Section
724.240
724.241
724.242
724.243
724.244
724.245
724.246
724.247
724.248
120—44 1
82
SUBPART
I:
USE
AND
MANAGEMENT OF CONTAINERS
Section
724.270
724.271
724.272
724.273
724.274
724 .275
724 .276
724
.
277
724.278
Section
724.290
724.291
724.292
724 .293
724.294
724 .295
724 .296
724.297
724.298
724.299
724.300
Section
724 .320
724.321
724.322
724.326
724.327
724.328
724.329
724.330
724.331
Applicability
Condition
of
Containers
Compatibility
of
Waste
With
Container
Management of Containers
Inspections
Containment
Special Requirements for Ignitable or Reactive Waste
Special Requirements for Incompatible Wastes
Closure
SUBPART J:
TANK SYSTEMS
Applicability
Assessment of Existing Tank System’s Integrity
Design and Installation of New Tank Systems or
Components
Containment and Detection of Releases
General Operating Requirements
Inspections
Response to Leaks or Spills and Disposition of Leaking
or unfit—for—use Tank Systems
Closure and Post—Closure Care
Special Requirements for Ignitable or Reactive Waste
Special Requirements for Incompatible Wastes
Special Requirements for Hazardous Wastes F020,
F021,
F022,
F023,
F026 and F027
SUBPART
K:
SURFACE IMPOUNDMENTS
Applicability
Design and Operating Requirements
Double—lined Surface Impoundments:
Exemption from
Subpart
F: Ground—water Protection Requirements
(Repealed)
Monitoring and Inspection
Emergency Repairs; Contingency Plans
Closure and Post—closure Care
Special.Requirements for Ignitable or Reactive Waste
Special Requirements for Incompatible Wastes
Special Requirements for Hazardous Wastes F020,
F02l,
F022,
F023,
F026
and
F027
SUBPART L:
WASTE PILES
Section
724.350
Applicability
724.351
Design and Operating Requirements
724.352
~~~Double-linedPiles:
Exemption from Subpart F:
water Protection Requirements
(Repealed)
724.353
Inspection of Liners:
Exemption from Subpart F:
Ground—water
Protection
Requirements
(Repealed)
Ground-
120—442
83
724.354
724’. 356
724.357
724.358
724.359
Section
724.370
724.371
724.372
724.373
724.376
724.378
724.379
724. 380
724.381
724. 382
724.383
Section
Monitoring and Inspection
Special Requirements for Ignitable or Reactive Waste
Special
Requirements
for
Incompatible
Wastes
Closure
and
Post—closure
Care
Special Requirements for Hazardous Wastes F020,
F02l,
F022,
F023,
F026
and
F027
SUBPART N:
LAND
TREATMENT
Applicability
Treatment Program
Treatment Demonstration
Design and Operating Requirements
Food—chain Crops
Unsaturated Zone Monitoring
Recordkeeping
Closure and Post-closure Care
..:Special Requirements for Ignitable or Reactive Waste
Special Requirements for Incompatible Wastes
Special Requirements for Hazardous Wastes F020, F021,
F022, F023,
F026 and F027
SUBPART N:
LANDFILLS
Applicability
Design and Operating Requirements
Double-lined Landfills:
Exemption
from
Subpart
F:
Ground—water Protection Requirements (Repealed)
Monitoring and Inspection
Surveying and Recordkeeping
Closure and Post—closure Care
Special Requirements for Ignitable or Reactive Waste
SpecialRequirements for Incompatible Wastes
Special Requirements for Bulk and Containerized Liquids
Special Requirements for Containers
Disposal of Small Containers of Hazardous Waste in
Overpacked Drums
(Lab
Packs)
724.417
Special
Requirements
for
Hazardous
Wastes
F020,
F021,
F022,
F023,
F026 and F027
SUBPART 0:
INCINERATORS
Applicability
Waste Analysis
Principal Organic Hazardous Constituents
(POHC5)
Performance Standards
Hazardous Waste Incinerator Permits
Operating Requirements
Monitoring and Inspections
Closure
SUBPART W:
DRIP PADS
724.400
724.401
724.402
724.403
724.409
724.410
724.412
724.413
724.414
724.415
724.416
Section
724.440
724.441
724.442
724.443
724.444
724.445
724.447
724.451
120—443
84
Section
‘724.670
Applicability
.724.671
Assessment of existing drip pad integrity
724.672
Design and operating requirements
724.673
Inspections
724.674
Closure
724.675
Design and installation of new drip pads
SUBPART X:
MISCELLANEOUS UNITS
Section
724.701
Applicability
724
.
701
Environmental
Performance
Standards
724.702
Monitoring, Analysis,
Inspection,
Response,
Reporting
and Corrective Action
724.703
Post-closure Care
Appendix A
Recordkeeping Instructions
Appendix’ B
EPA Report Form and Instructions
(Repealed)
Appendix D
Cochran’s Approximation to the Behrens-Fisher
Student’s T-Test
Appendix E
Examples of Potentially Incompatible Waste
Appendix
I
Groundwater Monitoring List,
AUTHORITY:
Implementing Section 22.4 and authorized by Section
27 of the Environmental Protection Act
(Ill. Rev.
Stat.
1989,
ch.
111 1/2, pars.
1022.4 and 1027).
SOURCE:
Adopted in R82—l9,
53 PCB 131, at
7 Ill. Reg.
14059,
effective October
12,
1983; amended in R84—9 at 9 Ill.
Reg.
11964, effective July 24,
1985; amended in R85—22 at
10
Ill. Reg.
1136, effective January 2,
1986; amended in R86—l at 10
Ill. Reg.
14119, effective August 12,
1986; amended in R86—28 at 11 Ill.
Req.
6l38,~’effective
March
24,
1987;
amended
in
R86—28
at
11
Ill.
Req.
8684,
effective
April
21,
1987; amended in R86—46 at 11
Ill.
Reg.
13577,
effective
August
4,
1987; amended in R87—5 at 11
Iii.
Reg.
19397, effective November
12,
1987; amended in R87-39 at
12
Ill. Reg.
13135,
effective July 29,
1988; amended in R88—16 at
13
Ill. Req.
458, effective December 28,
1988; amended in R89-l
at
13 Ill.
Reg.
18527, effective November 13,
1989; amended in R90-
2 at 14
Ill. Reg.
14511,
effective August 22,
1990;
amended in
R90—lO at 14
Ill.
Req.
16658,
effective September 25,
1990;
amended in R90-ll at 15
Ill.
Reg.
,
effective
;
amended in R9l—l at 15
Ill. Reg.
,
effective
SUBPART J:
TANK SYSTEMS
Section 724.290
Applicability
The requirements of this Subpart apply to owners and operators of
facilities that use tank systems for treating or storing g~
treating hazardous waste, except as otherwise provided in
120—444
85
subsections
(a).,~.—ei~(b) or
(c) or in Section 724.101.
‘a)
Tank systems that are used to store or treat hazardous
waste which contains no free liquids and are situated
inside a building with an impermeable floor are
exempted from
the
requirements
in Section 724.293.
To
demonstrate the absence or presence of free liquids in
the stored or treated waste, EPA Method 9095
(Paint
Filter Liquids Test)
as described in “Test Methods for
Evaluating Solid Wastes Physical/Chemical Methods “EPA
Publication No. SW-846), incorporated by reference in
35
Ill.
Adm.
Code
720.111,
must
be
used.
b)
Tank
systems,
including
sumps,
as
defined
in
35
Ill.
Adm.
Code
720.110,
that
serve
as
part
of
a
secondary
containment system to collect or contain releases of
hazardous wastes are exempted from the requirements in
Section
‘724.293(a).
ç~
Tanks,
suinps and other such collection devices or
systems used in con)unction with drip pads,
as defined
in
35
Ill.
Adm.
Code
720.110
and
regulated
under
Subpart
W,
must
meet
the
requirements
of
this
Subpart.
(Source:
Amended at 15 Ill. Reg.
,
effective
)
SUBPART
W:
DRIP
PADS
Section 724.670
Applicability
~j
The requirements of this Subpart apply to owners and
operators of facilities that use new or existing drip
pads to convey treated wood drippac~eto an associated
collection system.
fl
“Existing drip pads”
are:
~
Those constructed before December
6,
1990;
and
~j
Those for which the owner or
operator
has
a
design and has entered into binding financial
or
other
agreements
for
construction
prior
to
December
6,
1990.
2i..
All other drip pads are “new drip pads”.
~j
The owner or oPerator of any drip pad that is inside or
under
a
structure
that
provides
protection
from
precipitation so that neither run—off nor run-on is
generated is not subiect to regulation under Section
120—445
86
724.672(e)
or
(f).
(Source:
Added at
15 Ill. Reg.
,
effective
)
Section 724.671
Assessment of existing drip pad integrity
~
For each
existing
drip
pad,
the
owner
or
operator
shall
evaluate the drip ~ad and determine that it meets all
of the requirements of this Subpart. except the
requirements for liners and leak detection systems of
Section 724.672(b).
No later than June 6,
1991, the
owner or operator shall obtain and keep on file at the
facility a written assessment of the drip pad,
reviewed
and certified by an independent, qualified registered
professional
engineer
that
attests
to
the
results
of
the
evaluation.
The
assessment
must
be
reviewed,
updated and re-certified annually until all upgrades,
repairs
or
modifications
necessary
to
achieve
compliance with all of the standards of Section 724.672
are complete.
The evaluation must document the extent
to which the drip pad meets each of the design and
operating standards of Section 724.672,
except the
standards for liners and leak detection systems,
specified in Section 724.672(b),
and must document the
age of the drip pad to the extent possible, to document
compliance with subsection
(b).
~
The owner or operator shall develop a written plan for
upgrading, repairing and modifying the drip pad to meet
the requirements of Section 724.672(b)
and submit the
plan to the Agency no later than
2 years before the
date
that
all
repairs,
upgrades
and
modifications
will
be
complete.
This
written
plan
must
describe
all
changes to be made to the drip pad in sufficient detail
to document compliance with all the requirements of
Section 724.672 and must document the age of the drip
pad to the extent possible.
The plan must be reviewed
and certified by an independent qualified,
registered
professional
engineer.
All
upgrades,
repairs
and
modifications
must
be
completed
in
accordance
with
the
following:
fl
For existing drip pads of known and documentable
age, all upgrades, repairs and modifications must
be
completed
by
June
6,
1993,
or
when
the
drip
pad
has
reached
15
years
of
age,
whichever
comes
later.
ZL
For existing drip pads’ for which the age cannot be
documented, by June 6,
1999;
but,
if the age of
the facility is greater than
7 years.
all
120—446
87
upgrades. repairs and modifications must be
completed
by
the
time
the
facility
reaches
15
years of a~eor by June 6,
1993, whichever comes
later.
~
The
owner
or
operator
may
petition
the
Board
for
an
extension
of
the
deadline
in
subsection
(b) (1)
or
(2).
flj..
The owner or operator shall file
a petition
for a RCRA variance as specified in
35
Ill.
Adm. Code 104.
~j
The Board will grant the petition for
extension if it finds that:
j)
The drip pad meets all of the
requirements of Section 724.672, except
those for liners and leak detection
systems
specified
in
Section
724.672(b);
and
j~J That it will continue to be protective
of human health and the environment.
~j
Upon completion of all repairs and modifications, the
~p~r
or operator shall submit to the Agency, the as-
built drawings for the drip pad, together with a
certification by an independent, qualified,
registered
professional engineer attesting that the drip pad
conforms to the drawings.
‘~j
If the drip pad is
found to be leaking or unfit for
use,
the
owner
or
operator
shall comply with the
provisions of Section 724.672(m)
or close the drip pad
in
accordance with Section 724.674.
(Source:
Added at 15 Ill. Reg.
,
effective
Section 724.672
Design and operating requirements
~j
Drip pads must:
fl..
Not be constructed of earthen materials, wood or
asphalt, unless the asphalt is structurally
supported
a)..
Be sloped to free-drain to the associated
collection system treated wood drippage,
rain,
other waters, or solutions of drippage and water
or
other
wastes
120—447
88
~j
Have
a
curb’
or’ berm ‘around
the
perimeter
~j
Be impermeable, e.g.,
concrete cads must be
sealed, coated or covered with an impermeable
material such that the entire surface where
drippage occurs or may
run
across is capable of
containing
such
drippage
and
mixtures
of
drippage
and
precipitation,
materials
or
other
wastes
while
being
routed
to
an
associated
collection
system
and
~j
Be
of
sufficient
structural
strength
and
thickness
to_prevent
failure
due
to
physical
contact,
climatic
conditions,
the
stress
of
installation
and the stress of daily operations,
e.g.,
variable
and moving loads such as vehicle traffic, movement
of wood,
etc.
BOARD NOTE:
the Agency shall generally consider
applicable standards established by professional
organizations generally recognized by the industry
such
as
the
American
Concrete
Institute
(ACI)
or
the
American
Society
of
Testing
Materials
(ASTM)
in ludging the structural integrity requirement of
this subsection.
~j
A drip pad must have:
fl
A synthetic liner installed below the drip pad
that is designed, constructed and installed to
prevent leakage from the drip ~ad into the
adlacent subsurface soil or groundwater or surface
water at any time during the active life
(including
the
closure
period)
of
the
drip
pad.
The liner must be constructed of materials that
will prevent waste from being absorbed into the
liner and to prevent releases into the adiacent
subsurface soil or groundwater or surface water
during the active life of the facility.
The liner
must be:
~
Constructed of materials that have
appropriate
chemical
properties
and
sufficient
strength
and
thickness
to
prevent
failure
due
to
pressure
gradients
(including
static
head
and
external
hvdrogeolociic
forces),
physical contact with the waste or
drip
pad
leakage
to
which
they
are
exposed,
climatic
conditions,
the
stress
of
installation and the stress of daily
~peration
(including stresses from vehicular
120—448
89
traffic on the drip pad)
.~j
Placed
upon
a
foundation
or
base
capable
of
providing
support
to
the
liner
and
resistance
to
pressure
gradients
above
and
below
the
liner
to
prevent
failure
of
the
liner
due
to
settlement,
compression
or
uplift;
and
,Q)..
Installed to
cover
all
surrounding
earth
that
could
come
in
contact
with
the
waste
or
leakage;
and
a)..
A
leakage
detection
system
immediately
above
the
liner that is designed. constructed, maintained
and
operated
to
detect
leakage
from
the
drip
pad.
The 1eaka~edetection system must be:
~j
Constructed of materials that are:
j)
Chemically resistant to the waste
managed in the drip pad and the leakage
that might be generatec~ and
£jI
Of
sufficient
strength
and
thickness
to
prevent
collapse
under
the
pressures
exerted by overlaying materials and by
any
equipment
used
at
the
drip
pad;
,and
~
Designed
and
operated
to
function
without
clogging through the scheduled closure of the
drip pad;
and
Q~
Designed so that it will detect the failure
of
the
drip
pad
or
the
presence
of
a
release
of
hazardous
waste
or
accumulated
liquid
at
the earliest practicable time.
~j
Drip pads must be maintained such that they remain free
of
cracks,
gaps,
corrosion
or
other
deterioration
that
could
cause
hazardous
waste
to
be
released
from
the
drip pad.
BOARD
NOTE:
See
subsection
(m)
for
remedial
action
required if deterioration or leakage is detected.
~j
The
drip
pad
and
associated
collection
system
must
be
designed
and
operated
to
convey,
drain
and
collect
liquid
resulting
from
drippage
or
precipitation
in
order
to
prevent
run—off.
~j
The
owner
or
operator
shall
design,
construct,
operate
and maintain a run—on control system capable of
120—449
90
preventing flow onto the’ drip pad during peak discht.
from_at_least a 24—hour,
25—year
storm,
unless
the
system
has
sufficient
excess
capacity
to
contain
any
run-on
that
might
enter
the
system.
or
the
drip
pad
is
protected
by
a
structure
~or
cover,
as
described
in
Section
724.670(b).
~j.. Unless protected by a structure or cover,
as described
in
Section
724.670(b),
the
owner
or
operator
shall
design,
construct,
operate
and
maintain
a
run—off
management
system
to
collect
and
control
at
least
the
water
volume
resulting
from
a
24—hour,
25—year
storm.
gj
The
drip
pad
must
be
evaluated
to
determine
that
it
meets the requirements of subsections
(a) through
(f).
The
owner
or
operator
shall
obtain
a statement from an
independent,
qualified,
registered professional
engineer certifying that the drip pad design meets the
requirements of this Section.
ifl
Drippage and accumulated precipitation must be removed
from
the
associated
collection
system
as
necessary
to
prevent overflow onto the drip pad.
it
The drip pad surface
must
be
cleaned
thoroughly
at
least once every seven days suchthat accumulated
residues of hazardous waste or other materials are
removed, using an appropriate and effective cleaning
technique,
including but not limited to,
rinsing,
washing with detergents or other appropriate solvents,
or steam cleaning.
The owner or operator shall
document the date and time of each cleaning and the
cleaning procedure used in the facility’s operating
log.
jj..
Drip pads must be operated and maintained in a manner
to
minimize
tracking
of
hazardous
waste
or
hazardous
waste constituents off the drip pad as a result of
activities by personnel or equipment.
~
After being removed from the treatment vessel, treated
wood from pressure and non—pressure processes must be
held on the drip pad until drippage has ceased.
The
owner or operator shall maintain records sufficient to
document
that
all
treated
wood
is
held
on
the
pad
following
treatment
in
accordance
with
this
subsection.
fl
Collection and holding units associated with run—on and
run—off
control
systems
must
be
emptied
or
otherwise
managed
as
soon
as
possible
after
storms
to
maintain
design
capacity
of
the
system.
120—450
9.
~j
Throughout
the
active
life
of
the
drip
pad
and
as
specified
in
the
permit,
if
the
owner
or
operator
detects
a condition that could lead to or has caused a
release
of
hazardous
waste,
the
condition
must
be
repaired
within
a
reasonably
prompt
period
of
time
following discovery.
in accordance with the following
procedures:
fl
Upon
detection
of
a
condition
that
has
led
or
could
lead
to
a
release
of
hazardous
waste
(e.g.,
upon_detection
of
leaka~e
in
the
leak
detection
system).
the
owner
or
operator
shall:
~j
Enter
a record of the discovery in the
facility operating log
~j
Immediately
remove
the
portion
of
the
drip
pad
affected
by
the
condition
from
service
ci..
Determine what steps must be taken to repair
the drip pad, clean up any leakage from below
the drip pad, and establish a schedule for
accomplishing the clean up and repairs
~j
Within
24
hours
after
discovery
of
the
condition,
notify the Agency of the condition
and, within 10 working days.
provide written
notice
to
the
Agency
with
a
description
of
the steps that will be taken to repair the
drip pad and clean up any leakage, and the
schedule
for
accomplishing
this
work.
~j
The Agency shall:
review the information
submitted;
make a determination regarding whether
the pad must be removed from service completely or
partially until repairs and clean up are complete;
and notify the owner or operator of the
determination and the underlying rationale in
writing.
fl
Upon completing all repairs and clean up, the
owner or operator shall notify the Agency
in
writing
and
provide
a
certification,
signed
by
an
independent,
aualified,
registered
professional
engineer,
that
the
repairs
and
clean
up
have
been
completed according to the written plan submitted
in
accordance
with
subsection
(m)
(1)
(DY.
~fl
If a permit
is
necessary.
the
Agency
shall
specify
in
the
permit
all
design
and
operating
practices
that
are
necessary
to
ensure
that
the
requirements
of
this
Section are satisfied.
12
0—451
92
Qj
The owner or”operator shall maintain,
as part of the
facility operating log, documentation of past operating
and
waste
handling
practices.
This
must
include
identification
of
preservative
formulations
used
in
the
past,
a
description
of
drippage
management
practices
and
a
description
of
treated
wood
storage
and
handling
practices.
(Source:
Added at 15 Ill. Reg.
,
effective
Section
724.673
Inspections
~j
During construction or installation, liners and cover
systems
(e.g.,
membranes,
sheets
or
coatings)
must
be
inspected
for
uniformity,
damage
and
imperfections
(e.g.,
holes,
cracks,
thin
spots
or
foreign
materials).
Immediately after construction or installation,
liners
must be inspected and certified as meeting the
requirements of Section 724.672 by an independent,
qualified,
registered professional engineer.
The
certification
must
be
maintained
at
the
facility
as
part of the facility operating record.
After
installation liners and covers must be inspected to
ensure tight seams and joints and the absence of tears,
punctures or blisters.
~j
While a drip pad is in operation,
it must be inspected
weekly and after storms to detect evidence of any of
the following:
Deterioration, malfunctions or improper operation
of run-on and run—off control systems
21
The presence of leakage in and proper functioning
of leak detection system.
~j
Deterioration or cracking of the drip pad surface.
BOARD NOTE: See Section 724.672(m)
for remedial
action
required
if
deterioration
or
leakage
is
detected.
(Source:
Added at
15 Ill.
Reg..
,
effective
)
Section 724.674
Closure
~j
At
closure,
the
owner
or
operator
shall
remove
or
decontaminate all waste residues,, contaminated
containment
system
components
(pad,
liners,
etc.),
120—442
93
contaminated subsoils, and structures and equipment
contaminated with waste and leakage, and manage them as
hazardous waste.
~
If. after removing or decontaminating all residues and
making
all
reasonable
efforts
to
effect
removal
or
decontamination
of
contaminated
components,
subsoils,
structures
and
equipment
as
required
in
subsection
(a),
the
owner
or
operator
finds
that
not
all
contaminated
subsoils can be practically removed or decontaminated,
the
operator
shall
close
the
facility
and
perform
post-
closure care in accordance with closure and post
closure care requirements that apply to landfills
(Section 724.410).
For permitted units,
the
requirement
to
have
a
permit
continues
throughout
the
post—
closure
period.
In
addition,
for
the
purposes
of
closure.
Post
closure
and
financial
responsibility,
such
a
drip
~ad
is
then
considered
to
be
a
landfill,
and the owner or operator shall meet all of the
requirements
for
landfills
specified
in
Subparts
G
and
H.
~j
Existing drip pads without liners.
fl
The
owner
or
operator
of
an
existing
drip
Pad
that
does
not
comply
with
the
liner
requirements
of
Section
724.672(b)
(1)
shall:
~j
Include in the closure plan for the drip ~ad
under Section 724.212 both a plan for
complying with subsection
(a)
and a
contingent plan for complying with subsection
(b)
in
case
not
all
contaminated
subsoils
can
be
practicably
removed
at
closure;
and
~j
Prepare
a contingent post—closure plan under
Section 724.218 for complying with subsection
(b)
in case not all contaminated subsoils can
be
practicably
removed
at
closure.
21
The
cost
estimates
calculated
under
Sections
724.212
and
724.244
for
closure
and
post
closure
care
of
a
drip
~ad
sublect
to
this
subsection
must
include
the
cost
of
complying
with
the
contingent
closure
plan
and
the
contingent
post
closure
plan,
but
are
not
required
to
include
the
cost
of
expected closure under subsection
(a).
(Source:
Added
at
15
Ill.
Reg.
,
effective
Section
724.675
Design
and
installation
of
new
drip
pads
120—453
94
Owners ~and operators of’new drip pads shall ensure that the pads
are
designed,
installed
and
operated
in
accordance
with
all
of
the applicable requirements of Sections 724.672,
724.673 and
724. 674.
(Source:
Added at
15 Iii. Reg.
,
effective
120—454
95
TITLE 35:
ENVIRONMENTAL PROTECTION
SUBTITLE G:
WASTE DISPOSAL
CHAPTER
I:
POLLUTION
CONTROL
BOARD
SUBCHAPTER
C:
HAZARDOUS WASTE OPERATING REQUIREMENTS
PART
725
INTERIM
STATUS
STANDARDS
FOR
OWNERS
AND
OPERATORS
OF
HAZARDOUS
WASTE TREATMENT, STORAGE AND
DISPOSAL FACILITIES
Section
725.101
725.104
SUBPART
A:
GENERAL
PROVISIONS
Purpose,
Scope
and
Applicability
Imminent Hazard Action
SUBPART B:
GENERAL FACILITY STANDARDS
Section
725.110
725.111
725.112
725.113
725.114
725.115
725. 116
725. 117
Applicability
USEPA
Identification
Number
Required Notices
General Waste Analysis
Security
General
Inspection
Requirements
Personnel
Training
General Requirements for Ignitable, Reactive or
Incompatible Wastes
725.118
Location Standards
Section
725.150
725.151
725.152
725.153
725.154
725.155
725.156
SUBPART
C:
PREPAREDNESS
AND
PREVENTION
Applicability
Maintenance and Operation of Facility
Required Equipment
Testing and Maintenance of Equipment
Access to Communications or Alarm System
Required Aisle Space
Arrangements with Local Authorities
SUBPART D:
CONTINGENCY PLAN
AND
EMERGENCY
PROCEDURES
Applicability
Purpose
and
Implementation
of
Contingency
Plan
Content of Contingency Plan
Copies of Contingency Plan
Amendment of Contingency Plan
Emergency Coordinator
Emergency Procedures
SUBPART E:
MANIFEST SYSTEM, RECORDKEEPING
AND
REPORTING
Applicability
Use of Manifest System
Manifest Discrepancies
Section
725.130
725.131
725.132
725.133
725.134
725. 135
725. 137
Section
725. 170
725. 171
725. 172
120—455
96
Operating Record
Availability; ‘-Retention and Disposition of Records
Annual
Report
Unmanifested
Waste
Report
Additional
Reports
SUBPART
F:
GROUNDWATER
MONITORING
Applicability
Groundwater
Monitoring
System
Sampling
and
Analysis
Preparation,
Evaluation
and
Response
Recordkeeping
and
Reporting
SUBPART
G:
CLOSURE
AND
POST-CLOSURE
Applicability
Closure~Performance
Standard
Closure
Plan;
Amendment
of
Plan
Closure;
Time
Allowed
for
Closure
Disposal or Decontamination of Equipment, Structures
and Soils
Certification of Closure
Survey Plat
Post-closure Care and Use of Property
Post—closure Plan; Amendment of Plan
Post—Closure Notices
Certification of Completion of Post-Closure Care
SUBPART
H:
FINANCIAL
REQUIREMENTS
Section
725.240
Applicability
725.241
Definitions’ of Terms as Used in this
Subpart
725.242
Cost Estimate for Closure
725.243
Financial Assurance for Closure
725.244
Cost Estimate for Post—closure Care
725.245
Financial Assurance for Post—closure Monitoring and
Maintenance
725.246
Use of a Mechanism for Financial Assurance of Both
Closure
and
Post—closure
Care
725.247
Liability
Requirements
725.248
Incapacity of Owners or Operators, Guarantors or
Financial
Institutions
725.251
Promulgation of Forms
(Repealed)
SUBPART I:
USE
AND
MANAGEMENT OF CONTAINERS
Section
725.270
Applicability
725.271
Condition
of
Containers
‘725.272
Compatibility
of
Waste
with
Container
725.273
Management of Containers
725.274
Inspections
725.173
‘725.174
725. 175
725.176
725.177
Section
725.190
725.191
725. 192
725.193
725. 194
Section
725.210
125.
‘211’
725.212
725.213
725.214
725.215
725.216
725.217
725. 218
725.219
725.220
120—456
97
725.276
725:277
Section
725.290
725.291
725.292
725.293
725.294
725.295
725.296
725.297
725. 298
725.299
725. ‘300
725.301
Section
725.320
725.321
725.322
725.323
725.325
725.326
725.328
725.329
725.330
Section
725.350
725.351
725. 352
725.353
725. 354
725.356
725.357
725.358
Section
725.370
725. 372
725.373
725.376
725.378
725.379
725.380
Special Requirements for Ignitable or Reactive Waste
special Requirements ‘for Incompatible Wastes
SUBPART J:
TANK SYSTEMS
Applicability
Assessment of Existing Tank System’s
Integrity
Design and Installation of New Tank Systems or
Components
Containment
and
Detection
of
Releases
General
Operating
Requirements
Inspections
Response to leaks or spills and disposition of Tank
Systems
Closure and Post—Closure Care
Special
Requirements
for
Ignitable
or
Reactive
Waste
Special Requirements for Incompatible Wastes
Waste
Analysis
and
Trial
Tests
Generators of 100 to 1000 kg/mo.
SUBPART K:
SURFACE IMPOUNDMENTS
Applicability
Design
Requirements
General
Operating
Requirements
Containment System
Waste Analysis and Trial Tests
Inspections
Closure and Post—Closure Care
Special Requirements for Ignitable or Reactive Waste
Special Requirements for Incompatible Wastes
Applicability
SUBPART L:
WASTE PILES
Protection from Wind
Waste Analysis
Containment
Design Requirements
Special Requirements for Ignitable or Reactive Waste
Special Requirements for Incompatible Wastes
Closure
and
Post—Closure
Care
SUBPART
N:
LAND
TREATMENT
Applicability
General
Operating
Requirements
Waste
Analysis
Food Chain Crops
Unsaturated Zone
(Zone of Aeration) Monitoring
Recordkeeping
Closure and Post—closure
120—457
98
725.381
Special
Requirements
for
Ignitable
or
Reactive
Waste
725.‘~82
Special’Requirements for’~IncompatibleWastes
SUBPART
N:
LANDFILLS
Section
725.400
725.401
725.402
725.409
725.410
725. 412
725. 413
725.414
725. 415
725.416
Section
725.440
725.441
725.445
725.447
725.451
725.452
Section
725.470
725.473
725.475
72 5’. 4 7’7
725.481
725.482
725.483
Applicability
Design
Requirements
General
Operating
Requirements
Surveying
and
Recordkeeping
Closure
and
Post—Closure
Special
Requirements
for
Ignitable
or
Reactive
Waste
Special Requirements for Incompatible Wastes
Special Requirements for Liquid Wastes
Special
Requirements
for
Containers
Disposal
of
Small
Containers
of
Hazardous
Waste
in
Overpacked Drums
(Lab Packs)
SUBPART
0:
INCINERATORS
Applicability
Waste Analysis
General Operating Requirements
Monitoring and Inspection
Closure
Interim Status Incinerators Burning Particular
Hazardous Wastes
SUBPART P:
THERMAL
TREATMENT
Other Thermal Treatment
General Operating Requirements
Waste Analysis
Monitoring and Inspections
Closure
Open Burning; Waste Explosives
Interim Status Thermal Treatment Devices Burning
Particular Hazardous Waste
SUBPART
Q:
CHEMICAL,
PHYSICAL
AND
BIOLOGICAL
TREATMENT
Applicability
General
Operating
Requirements
Waste
Analysis
and
Trial
Tests
Inspections
Closure
Special Requirements ‘for‘Ignitable or Reactive Waste
Special Requirements for Incompatible Wastes
SUBPART R:
UNDERGROUND INJECTION
Section
725.530
Applicability
Section
725.500
725.501
725.502
725.503
725.504
725.505
725.506
120—458
99
SUBPART W:
DRIP PADS
Section
725.540
Applicability
725.541
Assessment
of
existing
drip
pad
integrity
725.542
Design and installation of new drip pads
725.543
Design
and
operating
requirements
725.544
Inspections
725.545
Closure
Appendix A
Recordkeeping Instructions
Appendix B
EPA Report Form and Instructions (Repealed)
Appendix C
EPA Interim Primary Drinking Water Standards
Appendix D
Tests for Significance
Appendix E
Examples of Potentially Incompatible Waste
AUTHORITY:
Implementing Section 22.4 and authorized by Section
27 of the Environmental Protection Act
(Ill. Rev.
Stat.
1989,
ch.
111—1/2, ‘pars.
1022.4 and 1027).
SOURCE:
Adopted in R81—22,
43 PCB 427, at 5 Ill. Reg. 9781,
effective as noted in 35 Ill. Adm. Code 700.106; amended and
codified in R81—22,
45 PCB 317, at
6 Ill.
Reg.
4828,
effective as
noted in 35
Ill.
Adm. Code 700.106; amended in R82-18, 51 PCB
831,
at
7
Ill.
Reg.
2518,
effective February 22,
1983; amended in
R82-19,
53 PCB 131,
at
7 Ill.
Reg.
14034, effective October 12,
1983; amended in R84—9, at9 Ill. Reg.
11869,
effective July 24,
1985; amended in R85—22 at 10
Ill. Reg.
1085,
effective January
2,
1986; amended in R86—1 at 10 Ill. Reg.
14069, effective August
12,
1986; amended in R86—28 at
11 Ill. Reg. 6044,
effective March
24,
1987; amended in R86—46 at 11 Ill. Reg.
13489, effective
August
4,
1987; amended in R87—5 at
11 Ill. Reg.
19338, effective
November 10,
1987; amended in R87—26 at 12 Ill. Reg.
2485,
‘effective’ January ‘15,
1988; amended in R87—39 at 12
Ill.
Reg.
13027,
effective July 29,
1988; amended in R88—l6 at 13
Ill. Reg.
437, effective December 28,
1988; amended in R89—1 at 13
Ill.
Reg.
18354,
effective November 13, 1989;
amended in R90-2 at 14
Ill. Reg.
14447, effective August 22,
1990;
amended in R90-lO at
14
Ill. Reg.
16498,
effective September 25,
1990;
amended in R90-
11 at 15
Ill.
Reg.
,
effective
;
amended in
R9l-l at 15
Ill. Reg.
,
effective
SUBPART J:
TANK SYSTEMS
Section 725.290
Applicability
The regulations of this Subpart-apply to owners and operators-of
facilities that use tank systems for storing or treating
hazardous waste, except as otherwise provided in subsections
(a)...
e±~—(b)or
(c), or,in Section 725.101.
a)
Tank systems that are used to store or treat hazardous
waste which contains no free liquids and that are
120—459
100
situated
inside
a
building
with
an
impermeable
floor
are
exempted
from-the
requirements
in
Section
725.293.
To
demonstrate
the
absence
or
presence
of
free
liquids
in
the
stored/treated
waste,
USEPA
Method
9095
(Paint
Filter
Liquids
Test)
as
described
in
“Test
Methods
for
Evaluating
Solid
Wastes,
Physical/Chemical
Methods”
(EPA Publication No. SW-846), incorporated by reference
in 35 Ill. Adm. Code 720.111, must be used.
b)
Tank systems, including sumps,
as defined in 35 Ill.
Adm. Code 720.110, that serve as part of a secondary
containment system to collect or contain releases of
hazardous wastes are exempted from the requirements in
Section 725.293(a).
~j
Tanks,
sumps and other collection devices used in
conjunction with drip pads,
as defined in 35 Ill. Adm.
Code 720.110 and regulated under Subpart W, must meet
the requirements of this Subpart.
(Source:
Amended at 15
Ill.
Reg.
,
effective
)
SUBPART W:
DRIP PADS
Section 725.540
Applicability
~j
The requirements of this Subpart apply to owners and
operators of facilities that use new or existing drip
pads to convey treated wood drippage to an associated
collection system.
fl
“Existing drip pads”
are:
~j
Those constructed before December 6,
1990;
and
~j
Those for which the owner or operator has a
design and has entered into binding financial
or other agreements for construction prior to
December
6,
1990.
21
All
other
drip
pads
are
“new
drip
pads”.
~j
~Theowner or operator of any drip pad that is inside or
under a structure that provides protection from
precipitation so that neither run—off nor run—on is
generated is not subject to regulation under Section
725.543(e)
or
(f)
(Source:
Added at 15 Ill. Reg.
,
effective
)
120—4 60
101
Sectlon’725.541
Assessment of existing drip pad integrity
~
For each existing drip pad, the owner
or
operator
shall
evaluate the drip pad and determine that it meets all
of
the
requirements
of
this
Subpart,
except
the
requirements
for
liners
and
leak
detection
systems
of
Section
725.543(b).
No
later
than June
6,
1991.
the
owner or operator shall obtain and keep on file at the
facility
a
written
assessment
of
the
drip
pad,
reviewed
and
certified
by
an
independent,
qualified
registered
professional
engineer
that
attests
to
the
results
of
the evaluation.
The assessment must be reviewed,
updated and re-certified annually until all upgrades,
repairs or modifications necessary to achieve
compliance with all of the standards of Section 725.543
are complete.
The evaluation must justify and document
the -extent to which the drip pad meets each of the
design and operating standards of Section 725.543,
except the standards for liners and leak detection
systems, specified in Section 725.543(b),
and must
document the age of the drip pad to the extent
possible, to document compliance with subsection
(b).
~j
The
owner
or
operator
shall
develop
a
written
plan
for
upgrading,
repairing and modifying the drip pad to meet
the requirements of Section 725.543(b) and submit the
plan to the Agency no later than 2 years before the
date that all repairs. upgrades and modifications will
be
complete.
This
written
Plan
must
describe
all
changes to be made to the drip pad in sufficient detail
to document compliance with all the requirements of
Section 725.543 and must document the age of the drip
pad to the extent possible.
The plan must be reviewed
and certified by an independent qualified,
registered
professional engineer.
All upgrades, repairs and
modifications
must
be
completed
in
accordance
with
the
following:
fl
For
existing
drip
pads
of
known
and
documentable
age,
all
upgrades,
repairs
and
modifications
must
be
completed
by
June
6,
1993,
or
when
the
drip
pad
has
reached
15
years
of
age,
whichever
comes
later.
~
For existing drip pads for which the age cannot be
documented, by June 6,
1999;
but,
if the age of
the
facility
is
greater
than
7
years,
all
upgrades, repairs and modifications must be
completed by the time the facility reaches 15
years
of age or bY June 6~1993, whichever comes
later.
120—46 1
102
~j
The owner or “operator may petition the Board for
an
extension
of
the
deadline
in
subsection
(b) (1)
~r
(2).
~j.. The owner or operator shall file a petition
for
a
RCRA
variance
as
specified
in
35
Ill.
Adm. Code 104.
~j
The Board will grant the petition for
extension
if
it
finds
that:
it
The
drip
pad
meets
all
of
the
requirements of Section 725.543,
except
those for liners and leak detection
systems
specified
in Section 725.543(b);
and
jjj
That it will continue to be protective
of human health and the environment.
~j
UPon compl~tionof all repairs and modifications, the
owner or operator shall submit to the Agency, the as-
built
drawings
for
the
drip
pad,
together
with
a
certification
by
an
independent,
qualified,
registered
professional engineer attesting ‘that the drip pad’
conforms to the drawings.
~j
If
the
drip
pad
is
found
to
be
leaking
or
unfit
for
use,
the
owner
or
operator
shall
comply
with
the
provisions of Section 725.543(m)
or closethe drip pad
in
accordance
with
Section
725.545.
(Source:
Added at 15 Ill. Reg.
,
effective
)
Section 725.542
Design and installation of new drip pads
Owners and operators of new drip pads shall ensure that the pads
are designed, installed and operated in accordance with all of
the applicable requirements of Sections 725.543,
725.544 and
725. 545.
(Source:
Added at 15 Ill.
Reg.
,
effective
)
Section 725.543
Design and operating requirements
.~j..
Drip pads must:
fl
Not be constructed of earthen materials1 wood or
asphalt, unless the asphalt is structurally
120—4
63
103
supported
21
Be
sloped
to
free-drain
to
the
associated
collection
system
treated
wood
drippage,
rain,
other
waters,
or
solutions
of
drippage
and
water
or
other
wastes
fl
Have a curb or berm
around
the
perimeter
~4J..
Be
impermeable,
e.g.,
concrete
pads
must
be
sealed,
coated
or
covered
with
an
impermeable
material such that the entire surface where
drippage
occurs
or
may
run
across
is
capable
of
containing
such
drippage
and
mixtures
of
drippage
and precipitation, materials or other wastes while
being routed to an associated collection system
and
~j
Be of sufficient structural strength and thickness
to
prevent
failure
due
to
physical
contact,
climatic conditions,
the stress of installation
and the stress of daily operations,
e.g., variable
and moving loads such as vehicle traffic, movement
of wood,
etc.
BOARD NOTE:
the Agency shall generally consider
applicable standards established by professional
organizations
generally
recognized
by
the
industry
such as the American Concrete Institute
(ACI) or
the
American
Society
of
Testing
Materials
(ASTM)
in judging the structural integrity requirement of
this subsection.
j~j
A new drip pad or an existing drip pad,
after the
deadline established in Section 725.541(b), must have:
fl
A synthetic liner installed below the drip pad
that is designed, constructed and installed to
prevent leakage from the drip pad into the
adiacent subsurface soil or groundwater or surface
water at any time during the active life
(includinci the closure period) of the drip pad.
The liner must be constructed of materials that
will prevent waste from being absorbed into the
liner
and
to
prevent
releases
into the adjacent
subsurface soil or groundwater or surface water
during the active life of the facility.
The liner
must be:
~
Constructed of materials that have
appropriate chemical properties and
sufficient strength and thickness to
prevent
120—463
104
failure
due
to
pressure
gradients
(including
static
head
and
external
hydrogeologic
forces),
physical
contact
with
the
waste
or
drip pad leakage to which they are exposed,
climatic
conditions,
the
stress
of
installation and the stress of daily
operation (including stresses from vehicular
traffic
on
the
drip
pad)
DI
Placed upon a foundation or base capable of
providing
support
to
the
liner
and
resistance
to
pressure
gradients
above
and
below
the
liner to prevent failure of the liner due to
settlement,
compression or uplift;
and
çj
Installed to cover all surrounding earth that
could come in contact with the waste or
leakage;
and
21
A leakage detection system immediately above the
liner that is designed, constructed, maintained
and
operated
to
detect
leakage
from
the
drip
pad.
The leakaae detection system must be:
~j
Constructed of materials that are:
it
Chemically
resistant
to
the
waste
managed in the drip pad and the leakage
that might be generated;
and
j~J
Of
sufficient
strength
and
thickness
to
prevent
collapse
under
the
pressures
exerted
by
overlaying
materials
and
by
any
equipment
used
at
the
drip
pad;
and
~j
Designed so that it will detect the failure
of the drip pad or the presence of a release
of
hazardous
waste
or
accumulated
liquid
at
the earliest practicable time.
~j
Drip
pads
must
be
maintained
such
that
they
remain
free
of
cracks,
gaps,
corrosion
or
other
deterioration
that
could
cause
hazardous
waste
to
be
released
from
the
drip
pad.
BOARD NOTE: See subsection
(m)
for remedial action
required
if
deterioration
or
leakage
is
detected.
~j.. The drip pad and associated collection system must be
designed and operated to convey, drain and collect
liquid
resulting
from
drippage
or
precipitation
in
order to prevent run—off.
120—464
105
~j
-The owner ‘or operator shall design. construct,
operate
and
maintain
a
run—on
control
system
capable
of
preventing
flow
onto
the
drip
pad
during
peak
discharge
from
at
least
a
24—hour,
25—year
storm,
unless
the
sYstem has sufficient excess capacity to contain any
run-on that might enter the system, or the drip Pad is
protected
by
a
structure
or
cover,
as
described
in
Section
725.540(b).
~fj
Unless protected by a structure or cover, as described
in Section 725.540(b),
the owner or operator shall
design,
construct,
operate
and maintain a run—off
management system to collect and control at least the
water volume resulting from a 24—hour, 25—year storm.
gj
The drip Pad must be evaluated to determine that it
meets the requirements of subsections
(a) through
(f).
The owner or operator shall obtain
a statement from an
independent, qualified,
registered professional
engineer certifying that the drip ~ad design meets the
requirements of this Section.
~j
Drippage and accumulated precipitation must be removed
from the associated collection system as necessary to
prevent overflow onto the drip pad.
it
The drip pad surface must be cleaned thoroughly at
least once every seven days such that accumulated
residues of hazardous waste or other materials are
reraoved, using an appropriate and effective cleaning
technique,
including but not limited to, rinsing,
washing with detergents or other appropriate solvents,
or steam cleaning.
The owner or operator shall
document the date and time of each cleaning and the
çJ~eaningprocedure used in the facility’s operating
~
Drip pads must be operated and maintained
in a manner
to minimize tracking of hazardous waste or hazardous
waste constituents off the drip pad as a result of
activities by personnel or equipment.
~
After being removed from the treatment vessel, treated
wood from pressure and non—pressure processes must be
held on the drip ~ad until drippage has ceased.
The
owner or oPerator shall maintain records sufficient to
document that all treated wood is held on the pad
following treatment in accordance with this subsection.
fl
Collection and holding units associated with run-on and
run—off control
systems must be emptied or otherwise
120—465
106
managed as soon as possible after storms to maintain
design capacity of the system.
~
Throughout the active life of the drip pad,
if the
owner
or
operator
detects
a
condition
that
could
lead
to
or
has
caused
a
release
of
hazardous
waste,
the
condition must be repaired within a reasonably prompt
period of time following discovery,
in accordance with
the following procedures:
jj.
Upon detection of a condition that has led or
could
lead
to
a
release
of
hazardous
waste
(e.g.,
upon
detection
of
leakage
in
the
leak
detection
system), the owner or operator shall:
~
Enter a record of the discovery in the
facility operating log
DI
Immediately
remove
the
portion
of
the
drip
pad
affected
by
the
condition
from
service
~j
Determine what steps must be taken to repair
the drip pad, clean up any leakage from below
the drip pad, and establish a schedule for
accomplishing the clean up and repairs
~
Within 24 hours after discovery of the
condition,
notify the Agency of the condition
and,
within
10
working
days,
provide
written
notice
to
the
Agency
with
a
description
of
the steps that will be taken to repair the
drip
pad
and
clean
up
any
leakage,
and
the
schedule
for
accomplishing
this
work.
21
The Agency shall:
review the information
submitted;
make a determination regarding whether
the pad must be removed from service completely or
partially until repairs and clean up are complete;
and
notify
the
owner
or
operator
of
the
determination and the underlying rationale in
writing.
fl
Upon
completing
all
repairs
and
clean
up,
the
owner or operator shall notify the Agency in
writing and provide a certification,
signed by an
independent, qualified,
registered professional
engineer, that the repairs and clean up have been
completed according to the written plan submitted
in accordance with subsection
(m) (1) (D).
ut
The
owner
or
operator
shall
maintain,
as
part
of
the
facility operating log, documentation of past operating
120—466
107
and
waste
handling
practices.
This
must
include
identification
of
preservative
formulations
used
in
the
past,
a
description
of
drippage
management
practices
and
a
description
of
treated
wood
storage
and
handling
practices.
(Source:
Added at 15 Ill. Reg.
,
effective
Section 725.544
Inspections
~j
During construction or installation,
liners and cover
systems
(e.g., membranes,
sheets or coatings) must be
inspected for uniformity, damage and imperfections
(e.g., holes,
cracks, thin spots or foreign materials).
Immediately after construction or installation,
liners
must
be
inspected
and
certified
as meeting the
requirements
of
Section
725.543
bY
an
independent,
aualified,
registered
professional
engineer.
The
certification
must
be
maintained
at
the
facility
as
part
of
the
facility
operating
record.
After
installation liners and covers must be inspected to
ensure
tight
seams
and
joints
and
the
absence
of
tears,
punctures or blisters.
~j
While a drip pad
is in operation,
it must be inspected
weekly and after storms to detect evidence of any of
the following:
fl
Deterioration, malfunctions or improper operation
of run—on and run—off control systems
21
The presence of leakage
in and proper functioning
of leak detection system.
~j
Deterioration
or
cracking
of
the
drip
pad
surface.
BOARD NOTE: See Section 725.543(m)
for remedial
action required if deterioration or leakage is
detected.
(Source:
Added at 15
Ill.
Reg.
,
effective
Section 725.545
Closure
~j
At
closure,
the
owner
or
operator
shall remove or
decontaminate all waste residues, contaminated
containment system components
(pad,
liners, etc.),
contaminated
subsoils,
and
structures
and equipment
contaminated with waste and leakage, and manage them as
hazardous waste.
120—467
108
~j
If,
after~removing”or
decontaminating
all
residues
and
making all reasonable efforts to effect removal or
decontamination
of
contaminated
components,
subsoils,
structures
and
equipment
as
required
in
subsection
(a),
the owner or operator finds that not all contaminated
subsoils
can
be
practically
removed
or
decontaminated,
The operator shall close the facility and perform post-
closure
care
in
accordance
with
closure
and
post
closure care requirements that apply
to
landfills
(Section 725.410).
For permitted units, the
requirement to have
a permit continues throughout the
post— closure period.
~j
Existing drip pads without liners.
fl
The owner or operator of an existing drip pad that
does not comply with the liner requirements of
Section
725.543(b)
(1)
shall:
~j
Include in the closure plan for the drip pad
under Section 725.212 both a plan for
complying with subsection
(a)
and a
contingent plan for complying with subsection
(b)
in
case
not
all
contaminated
subsoils
can
be practicably removed at closure;
and
DI
Prepare
a
contingent
post—closure
plan
under
Section
725.218
for
complying
with
subsection
(b)
in
case
not
all
contaminated
subsoils
can
be
practicably
removed
at
closure.
21
The cost estimates calculated under Sections
725.212 and 725.244 for closure and post closure
care of a drip pad subject to this subsection must
include the cost of complying with the contingent
closure
plan
and
the
contingent
post
closure
plan,
but are not required to include the cost of
expected
closure
under
subsection
(a).
(Source:
Added at 15 Ill.
Reg.
‘
,
effective
)
120—4
68
