ILLINOIS POLLUTION
CONTROL BOARD
August
15,
1996
IN MATTER
OF:
)
)
PETITION OF COMMONWEALTH
)
AS
96-9
EDISON COMPANY
FOR AN
ADJUSTED
)
(Adjusted
Standard
-
Land)
STANDARD
FROM
35
ILL. ADM. CODE
)
PARTS811and814
)
OPINION
AND ORDER OF THE BOARD (by R.C.
Flemal):
This matter comes before the Board upon
a
“Petition for Adjusted
Standards
from
Certain Regulations
Governing
Existing
Landfills” filed by
Commonwealth Edison Company
(Edison)
on April
1,
1996.
The petition applies to
Edison’s
Joliet/Lincoln Quarry Site
(Lincoln Quarry or the
Site).
The requested modifications
apply
to
the following standards governing non-hazardous
solid waste
landfill operations:
(1) the standard prescribing
a
leachate
collection and
management system;
(2)
the groundwater monitoring
requirements for
certain
inorgailic and
organic constituents;
(3) the standards for location of monitoring
wells;
(4) the zone of
attenuation standards
applicable
to
the Site;
(5)
the standard prescribing finatcover for-the
Main Quarry;
and
(6) miscellaneous additional
standards
that Edison assertsi&ctualiydo
not
apply
to the
mode of operation conducted at the
Site.
The Board’s responsibility
in this
matter arises from the Environmental Protection
Act
(Act)
(415 ILCS
5/1
et seq.).
The Board
is charged therein to
“determine,
define and
implement the environmental
control standards applicable
in the
State of Illinois”
(Act at
Section 5(b)) and
to
“grant
.
.
.
an adjusted standard for persons who can justify such an
adjustment”
(Act at Section 28.1(a)).
More generally,
the Board’s responsibility
in this
matter
is based
on the system of checks
and balances
integral
to
Illinois
environmental governance:
the Board
is charged with
the rulemaking and
principal adjudicatory
functions, and the Illinois
Environmental Protection Agency
(Agency)
is responsible for carrying out the principal
administrative duties.
The Act
also
provides
that
“the Agency
shall participate
in
adjusted
standard
proceedings”.
(415 ILCS
28. 1(d)(3).)
On May 3,
1996 the Agency
filed a response and
recommended that the instant requested adjusted standard be granted’.
Edison’s
April
1,
1996 petition for adjusted standard will be cited as (Pet.
at
_)
and the
Agency’s May 3,
1996
response will
be cited as (Res. at
_).
2
Edison waived hearing in
this matter pursuant to 35
Ill. Adm.
Code
106.705(j).
No
other person requested
a hearing, and
accordingly
no hearing was held.
Based
upon the record before it and
upon review of the factors involved
in the
consideration of adjusted standards,
the Board
finds
that Edison has demonstrated that grant of
an adjusted standard
in the instant
matter
is warranted for 35
Ill.
Adm.
Code
814.302(b)(1),
811.319(a)(2),
811.319(a)(3),
811.318(b)(5),
811.320(c),
and
811.314.
NATURE OF THE FACILITY AND DISCHARGE
The Lincoln Quarry, or Site,
is
located
1/4 mile south of the Des Plaines River in
incorporated
Will
County,
southwest of the City of Joliet
and
adjacent to
two
of Edison’s
coal-
fired generating stations, Joliet Stations 9
and
29.
(Pet.
at 2.)
The Site is comprised of former
dolomite quarries that are now divided
into three units:
the Main Quarry,
the North Quarry,
and
the West
Filled
Area.
(Id.)
Although the Joliet Stations generate
fly ash,
bottom ash,
and
slag as byproducts of the coal burning process, this
petition only
concerns the handling of
bottom
ash and
slag.
Fly ash
is
shipped off-site for disposal.
Edison deposited bottom ash and
slag
into the West Filled Area prior to
1975.
The
West Filled Area has since been leveled
and vegetated.
Since
1975
Edison has deposited the
bottom ash and
slag
into the Main Quarry,
which was permitted as a landfill for coal
combustion wastes
in
1976.
The bottom ash and
slag
are mixed
with water from the Des
Plaines River (River)
and
then sluiced
into the Main
Quarry.
Edison maintains the water level
in the Main Quarry between 549
feet and
555
feet above
sea
level,
approximately
20
to
30 feet
below
the adjacent groundwater table.
The difference
in water
level
generates
a
hydraulic
gradient
that
is directed into the Main Quarry.
That is,
the groundwater flows
into the Main
Quarry from the surrounding aquifer.
From the Main Quarry the water drains by
gravity
into
the North Quarry settling
pond
and
finally
the sluicing water
is pumped back into the River
(under NPDES
permit #1L0002216).
(Pet.
at 3.)
BACKGROUND
As
required under
35
Ill.
Adm.
Code
814.103,
Edison notified the Agency that
it
would be
closing the Lincoln Quarry by September
18,
1997.
(Pet.
at 3-4.)
However, due to
the unanticipated capacity, Edison now believes
that it can receive ash wastes from the Joliet
Stations well beyond the expected useful
life of those Stations.
(Id.)
As a result, Edison
amended
its
notification to extend the closure date of the coal combustion waste monofill at the
Lincoln
Quarry beyond
September
18,
1997.
As
a
result of Edison’s
closure extension,
it was required
to
show that the Lincoln
Quarry would
satisfy the standards applicable
to existing
landfills under
35
Ill.
Adm.
Code
814,
Subpart C.
(Pet.
at 4.)
However, Edison
states
that as its mandatory
application for
3
significant modification indicated, Lincoln
Quarry caimot satist~some of these standards.
(Id.
)2
In the instant adjusted standard, Edison
argues that the generally applicable
standards
at
issue caimot rationally apply
to
the operations
in the Main Quarry.
In addition,
it claims
that
such compliance
would
require structural modifications
to
the Main Quarry which are
technically and economically
impracticable for what amounts to
a
questionable environmental
benefit.
(Pet.
at
5.)
ADJUSTED
STANDARD PROCEDURE
The Illinois Environmental Protection Act at Section 28.1(415 ILCS
5/28.1(1994))
provides
that
a petitioner may request, and
the Board may impose,
an environmental
standard
that
is
different from the standard that would
otherwise apply
to
the petitioner as the
consequence
of the operation of a rule of general
applicability.
Such
a
standard
is called an
adjusted
standard.
The general procedures
that
govern an
adjusted standard proceeding are
found at Section
28.1
of the
Act
and within the Board’s procedural
rules at
35
Ill.
Adm.
Code
Part
106.
The standards
from which Edison seeks modification do
not
specify
a
level of
justification or other requirement for an
adjusted standard for this matter.
Therefore,
Sections
28. 1(c)(1)
through
(c)(4) of the Act are relevant in this
proceeding.
Petitioner has the burden
of proving the following for an adjusted standard from
a
rule of general
applicability:
1.
factors relating
to that petitioner are substantially
and
significantly
different from the factors relied upon by the Board
in
adopting
the
general regulation applicable to the petitioner;
2.
the existence of those
factors justifies
an adjusted standard;
3.
the requested standard will
not
result
in environmental
or health
effects substantially
and
significantly
more adverse than the effects
considered by
the Board
in adopting
the rule of general
applicability;
and
4.
the adjusted standard is consistent with
any applicable
federal
law.
2
Edison originally filed a site-specific rulemaking with
the Board,
R94-30,
which was
subsequently withdrawn after negotiations with the Agency
determined that Edison no longer
needed relief from the groundwater quality
standards.
(Pet.
at
5.)
4
REOUESTED ADJUSTED STANDARD
Section 814.302(b)(1)
Edison requests
an adjusted standard from the rule-of-general applicability
at 35
Ill.
Adm.
Code
814.302(b)(1), which states:
b)
Units
regulated under this
Subpart shall be
subject to
the following
standards:
1)
The unit
must be equipped with a system
which will effectively
drain and
collect leachate
and transport it to
a leachate
management system.
Leachate
is
defined in
the regulations
as a
“liquid which has been or
is in
direct contact
with
a
solid waste”.
(35
Ill.
Adm.
Code
810.103.)
Under this
definition, Edison handles
approximately
8.5
million gallons of leachate per
day
through its current gravity flow system.
According to
Edison this
is
a high volume
of leachate,
as compared
to an average
landfill
which
handles approximately
1000
gallons per acre per day.
(Pet.
at 50.)
It is
this
substantial
daily water inflow
at Edison’s
inward-gradient landfill
that justifies
its current tailored leachate
collection and management
system.
Under the present regulations
Edison would
be
required to drain, collect and transport
the approximately
8.5
million gallons per
day of sluice water, groundwater,
and precipitation,
all
which flow directly or indirectly to
the Main Quarry.
(Pet.
at 49.)
Under the proposed
adjusted standard Edison would
manage the water through
its current gravity-flow drainage
system.
This
system
includes drainage pipes
which draw water from the Main Quarry into the
North Quarry and
a pumping station which discharges that water from the North Quarry into
the River.
(Pet.
at 62.)
This
system captures all
but
101,400 gallons per day, or 1.2
of the
water volume reaching the
Site.
(Id.)
According
to
Edison,
installing
any alternative leachate
collection and management
system to
capture only
the incremental water would
“result
in
little,
if any,
discernible environmental benefit”.
(Pet.
at 63.)
The cost of using the gravity-
flow system would be
$150,000 per
year at present value, including
capital costs to
replace
slag lines
and pumps,
and
operating
costs
for the pumps.
(Id.)
Any additional compliance
system
which Edison
puts
in place
would
address the
incremental water which bypasses
its
present gravity-flow system.
Furthermore, Edison
claims
that any
alternative or additional
leachate
system
would simply change the path of the
leachate,
but it would
still
flow to the
same destination.
Specifically, the leachate which
would under the proposed adjusted standard flow from the bedrock directly into the River,
would
instead flow first to
its
leachate management system and then discharge into the River.
5
(Pet.
at 63-64.)
According
to
Edison there are no
known wells or other known environmental
receptors
in the region of the Site.
(Pet.
at 63.)
Edison examined various
alternatives
to
its current gravity-flow system
(Pet.
at
5 1-62)
and
found those
leachate collection
and
management systems
to
be
“prohibitively expensive
and present significant technological challenges”. (Pet.
at 51).
Initially
Edison evaluated the traditional leachate
collection
systems and
found them to
be
incompatible
with its
current operating
practices.
Edison
sluices
its
ash waste into the Main
Quarry and
operates the Quarry
as a surface impoundment.
(Pet.
at 51.)
A traditional leachate
system requires restricting the amount of water
that reaches
the waste.
Specifically,
Edison
examined and
rejected two
traditional landfill methods to
collect leachate:
(1) an
underdrainage system located beneath the waste
and
above a low permeability bottom
liner in
newer
landfills,
and
(2) leachate
recovery wells
drilled into the
waste
from the top of existing
or older landfills.
First,
the underdrainage
system
could be
installed either
above the existing
waste to
collect and manage
leachate
for future
waste placement, or below the existing
waste.
Installing
it above the current waste
would not effectively
address the groundwater which
would continue to
enter the Main Quarry and migrate downgradient after flowing
through the
waste.
(Pet.
at
52.)
Edison could install
the underdrainage
system,
which would
involve
removing the existing
waste,
lining
the fractured dolomitic rock base
and
walls of the Main
Quarry, and
installing
a low-permeability layer and leachate collection system.
(Pet.
at 52.)
Edison detailed the specifics of removing the ash,
and cited
the problems associated with
relocating the wet ash into not-yet constructed
settling
basins,
including extensive
dewatering
at the Quarry throughout the installing
period, dredging the settling basin,
and
the possibility
of having
to
store
the large volume of ash offsite.
(Pet.
at
52-56.)
Once
all
of the ash was
finally
removed, Edison would
install
a three-phase
leachate control system consisting of a
groundwater gradient control layer, a low-permeability liner system,
and a leachate
system on
the sides
and bottom of the Quarry bedrock.
Any new ash deposited into the Quarry would
have to be under dry,
and not wet, ash handling
practices.
When considering an
underdrainage
system,
Edison is
unclear of the potential
environmental harms.
For example
risks associated
with handling
dry ash at the Site such as increased worker exposure to ash
waste,
increased truck traffic between the
settling
basin and
the
Main
Quarry, and dust
generated by
dumping the dry ash into the dry Quarry.
(Pet.
at 56.)
Second,
Edison examined the possibility
of installing leachate
recovery wells
drilled
into the waste
from the
top of the landfill, at or near the downgradient boundary of the
disposal cell
to pump
leachate from the
waste
into a leachate management system.
(Pet.
at 57-
59.)
Edison found such pumping
wells not technically viable for the
Site
due
to the fact it uses
a wet disposal
method.
Under the current wet
disposal
system,
8.6 million gallons per
day of
sluice water, precipitation, and groundwater saturate the ash in
the Main Quarry.
It would be
impossible
for Edison to remove such a
large amount of leachate
daily through
collection
wells.
(Pet.
at 57.)
Additionally, Edison believes
such placement of the well would create a
localized
inward hydraulic
gradient which,
through pumping,
would draw additional
sluice
6
water,
precipitation, and
groundwater through
the ash to
the well, increasing
the amount of
leachate
in
the Main Quarry and
suspended sediments
which flow from the Main to
the North
Quarry.
(Id.)
Edison
found that converting its
system to dry ash collection,
to
take advantage of
leachate
recovery wells
would
create
a
series of other associated
difficulties.
Those
difficulties
include
converting
several other surrounding wells,
adding additional
wells,
and maintaining
the
water
level below the River level.
(Pet.
at
58-59.)
Both
wet
and dry systems
face
significant obstacles to any
installation of collection wells,
such as dewatering the ash and
using
barges
to
access the north wall of the Quarry
for well installation.
Edison also examined a
variety
of other more advanced
leachate
management
technologies
and likewise found them to
be
“technologically
impracticable and cost
prohibitive
at the Lincoln Quarry Site”.
(Pet.
at
59-62.)
Those
technologies included a
leachate
collection trench, which proved
to be
prohibitively expensive to
install,
and
a downgradient
drainage gallery
tunnel,
with drain holes
to accumulate
leachate
seepage from
fractures and
joints
in rock walls,
which may
not even
be technically feasible.
(Pet.
at 60-62.)
As
an alternative to
compliance
with
Section 814.302(b)(1) Edison proposes
to
operate
a leachate
collection system at the Lincoln Quarry Site which assures that the water
level
in the
Main Quarry
is maintained below the natural
watertable level,
assures
that the leachate
is
discharged to the Des Plaines River through
Edison’s
NPDES-permitted outfall,
and
assures
that Edison has properly complied
with all
effluent limitations
in
the NPDES permit.
(Pet.
at
12.)
The Board
finds
that,
given the configuration of Edison’s Site,
and
the need
to handle
almost
8.5
million gallons of water per day,
it is
impracticable to
require compliance with 35
Ill.
Adm.
Code
814.302(b)(1).
The Quarry configuration, including
the differences
in
the flow
regime,
mode of operations, and
waste characteristics,
are substantially
different
from the
factors upon which the Board
relied
in adopting
this general regulation.
Moreover, the
adjusted disposal
system proposed by
Edison does not appear to result
in any
environmental or
health effects
substantially more adverse then those
considered by
the Board
in initially
adopting
Section 814. 302(b)(1).
Section 811.3 19(aX2) and Section 811.3 19(a)(3)
Edison requests an
adjusted standard from the rule-of-general applicability
at 35
Ill.
Adm.
Code
811.319(a)(2),
which states:
2)
Criteria for Choosing
Constituents
to
be Monitored
A)
The operator shall monitor each well for constituents that
will provide
a means for detecting groundwater
7
contamination.
Constituents
shall be
chosen for
monitoring
if they meet
the following requirements:
i)
The constituent appears
in,
or is expected
to be in,
the leachate; and
ii)
The Board
has established
for the
constituent a public or food processing
water supply
standard, at 35
Ill.
Adm.
Code 302,
the Board has established
a
groundwater quality
standard under
the
Illinois
Groundwater Protection
Act (Ill.
Rev.
Stat.
1991,
ch.
111
1/2,
par.
7451
et
seq.
415
ILCS
55/1
et.
seq.),
or the
constituent may otherwise cause or
contribute
to groundwater contamination.
B)
One or more indicator constituents,
representative of the
transport processes of constituents
in
the leachate,
may be
chosen for monitoring
in place of the constituents
it
represents.
The use of such indicator constituents
must be
included
in an Agency
approved permit.
Along with subsection (a)(2)
above,
Edison requests an adjusted standard
from
35
Ill.
Adm.
Code
811.319(a)(3),
which states:
3)
Organic Chemicals Monitoring
The operator shall monitor each existing
well that
is being used as a part of the
monitoring
well network
at the facility within one year of the effective date of
this Part,
and
monitor each new well within the three months of its
establishment.
The monitoring required by this
subsection shall be for a broad
range of organic chemical contaminants in accordance with the procedures
described below:
A)
The analysis shall be at least as comprehensive and
sensitive as the tests
for:
i)
The
51
organic chemicals in
drinking water described at
40 CFR
141.40
(1988),
incorporated by reference at 35
Ill.
Adm.
Code
810. 104;
and
ii)
Any other organic chemical for which a
groundwater quality
standard or criterion has been
adopted pursuant to
Section
14.4 of the Act or
8
Section
8 of the Illinois
Groundwater
Protection
Act.
B)
At least once every two years,
the operator shall monitor
each well
in accordance
with
subsection (a)(1)(A).
C)
The operator of a MSWLF unit shall monitor each well
in
accordance with
subsection (a)(l)(A) on an
annual basis.
Edison argues that the concerns which underlie
the monitoring requirements
in the
Board’s landfill regulations do not
apply to
the Lincoln Quarry.
Consequently,
Edison
requests that the Board
limit the groundwater monitoring
requirements applicable
to
the Site.
Edison claims that the groundwater monitoring
program
was
established to ensure that
constituents
from landfill wastes do not migrate
into
and degrade the groundwater.
This
migration is especially important when the wastes within the landfill vary
significantly
(i.e.
municipal
landfill), or where the
waste
constituent or the constituent migration pathways
are
poorly characterized.
(Pet.
at 65-66.)
However, Edison asserts that
an adjusted standard is
warranted because it has operated
the Lincoln Quarry as a coal combustion waste
monofill for over 20
years,
and
has
fully
characterized the ash waste and groundwater constituents derived from that waste
(the
composition of combustion wastes deposited at the site has remained generally consistent,
although the specific percentages of each constituent in
the ash varies somewhat).
(Pet.
at 65-
66.)
Accordingly this
should eliminate the Board’s primary concerns regarding characterizing
the groundwater composition or impact on the environment of leachate from the landfill.
(Id.)
Edison also claims
the Board’s requirement of broad based
organic and
inorganic
constituent monitoring
is
not necessary at the
Site because studies
show no
organic parameters,
or volatile
or semi-volatile
organic compounds
in
the groundwater sampling.
(Pet.
at 65-67.)
The ash samples contained primarily silicon, iron,
aluminum, calcium,
potassium, magnesium,
sulfur, sodium,
barium, and
boron.
(Pet.
at 66.)
Edison argues that
it is
economically
unreasonable to
require it to
monitor
groundwater for organic and
inorganic constituents
that
could have
no environmental
impact.
As
stated, there are
no
organic constituents
in
its
coal
combustion waste.
(Pet.
at 67.)
The
cost for organic groundwater sampling and
testing
for all
the regulatorily tequired
parameters would
cost approximately $46,000 per year, as
compared to the $1,000 per year
ash sampling proposed
in Edison’s
petition for adjusted standard
which would
sufficiently
examine the organic composition of its combustion waste
to predict whether this
waste
could
impact the groundwater.
(Id.)
According to
Edison,
the cost to
analyze the groundwater for
the regulatory
parameters regarding inorganic constituents would
cost approximately
$28,600
per year, versus
the proposed testing
at $16,640 per year cost to analyze only
the potentially
impacted parameters plus
alkalinity.
(Pet.
at 68.)
9
Edison’s
proposed adjusted standard would waive the organic constituent requirement
of 35
Ill.
Adm.
Code 811.319,
and would
only
require Edison to
annually sample for semi-
volatile
organic compounds
which
could remain in
the bottom of ash and
slag,
and report these
results to the Agency,
and to institute sample of the semi-volatile organic constituents if
necessary.
(Pet. at
14 and 68.)
Edison feels
it is unnecessary
to
sample for volatile
organic
compound because they are destroyed
in the combustion process.
Edison’s
proposed adjusted standard also
limits
the frequency of the groundwater
sampling
for inorganic
constituents.
Edison proposes to quarterly
monitor the inorganic
constituents of which
it has detected statistically significant increases
over background
concentrations in
downgradient wells.
(Pet.
at 68-69.)
The other inorganic
constituents
regulated within 35
Ill.
Adm.
Code
811.3 19(a)(2),
those
whose parameters
were
not detected
in the groundwater or were
found not to have a
statistically significant increase
in parameter
concentrations over
background levels, would
be
sampled annually
simply
to
verify that
the
groundwater composition
remains constant.
(Pet.
at 68-71.)
Specifically,
Edison proposes to
sample, on an annual basis, all constituents for which the Board has established Class II
groundwater standards; if a statistically-significant increase in
any ofthe concentrations is
shown, then Edison proposes to add
those parameters in
the sampling
mode prescribed at Section
811.39l(a)(l).
(Pet. at
13.)
Edison argues that its proposed monitoring
plan, eliminating organic chemical
monitoring of groundwater and focusing primarily on
inorganic
monitoring of those
potentially
impacted parameters at the
Site, provides
environmental protection comparable to
the Board’s
generally applicable
standards.
(Pet.
at 69-71.)
It reasons that
“if
those organici
constituents
are absent, eliminating the monitoring
requirement for those constituents
would
have no environmental
impact”.
(Pet.
at 70.)
Edison also observes that,
because of the
consistency and
predictability of the groundwater concentrations of parameters attributable
to
the
Site,
“if previous
monitoring
results did
not detect a particular inorganic
constituent
in
Site
groundwater,
it is
improbable that that constituent would
appear
in future
sampling
events”.
(Pet.
at 70.)
As
for those
inorganic parameters
which have been detected at the
Site,
Edison
claims
that the “groundwater concentrations should remain constant or decrease over time as
the leachable
concentrations of those parameters in
the ash decreases”.
(Pet.
at 70.)
Edison’s proposed monitoring
plan, given the frequency and type of groundwater
monitoring,
appears
to be
adequate to justify the grant of an
adjusted standard.
The Site
presents
factors substantially
and
significantly different from the factors the Board considered
in adopting
the landfill groundwater monitoring
requirements with regard to choosing
the
constituents
to be
monitored and organic chemical
monitoring.
Given the absence of organic
chemicals and consistency of constituents for almost 20 years
in this
monofill,
the concerns
which underlie
the monitoring requirements
in
the Board’s landfill regulations
are
not present
at the Lincoln Quarry.
The Board
accordingly believes Edison has demonstrated that the
instant
groundwater monitoring
requirements, Section
811.3 19(a)(2) and
Section
811.3 19(a)(3), warrant an adjustment suitable to the Site.
The Board
also
finds
that Edison’s
10
proposed alternative
standards provide environmental protection comparable to that
contemplated under
the rule of general applicability.
Section 811.3 18(b)(3) and
Section 811.3 18(b)(5)
Edison requests
an adjusted standard from the rule-of-general applicability
at
35
Ill.
Adm.
Code
811.318(b)(3),
which states:
b)
Standards
for the Location of Monitoring Points
3)
Monitoring wells
shall be established as close
to
the potential
source of discharge
as possible without interfering with the
waste
disposal
operations, and within half the distance from the edge of
the potential
source of discharge
to
the
edge of the zone of
attenuation downgradient,
with respect to
groundwater flow,
from the source.
Edison also
requests an
adjusted standard from
35
Ill.
Adm.
Code
811
.318(b)(5),
which states:
5)
A minimum of at least one
monitoring
well shall be established at the
edge of the
zone of attenuation and shall be
located downgradient with
respect to groundwater flow and
not excluding the downward direction,
from
the unit.
Such well or wells
shall be used to
monitor any
statistically significant increase
in the concentration of any constituent,
in accordance with
Section
811.320(e) and
shall be used for determining
compliance with an applicable groundwater quality
standard of Section
811.320.
An observed statistically
significant increase above the
applicable groundwater quality
standards of Section 811.320
in a well
located at or beyond the compliance boundary
shall constitute
a
violation.
Edison claims
that
due to physical constraints at the Lincoln Quarry, it
is unable to
install the large number of groundwater monitoring
wells
required
in the above regulations.
Specifically,
if the Board
grants
Edison its
request to adjust the zone of attenuation for the
Site, Edison will be unable to
install a well at the edge of the adjusted zone.
(Pet.
at 72.)
Edison argues that the landfill conditions relied upon the Board in
adopting these
regulations
are not
the conditions
which
exist at Edison’s
Site.
First,
the landfill regulations
assume
a
lined landfill located in
a porous media,
where groundwater flow rates
and physico-
chemical processes
of soil attenuation
are consistent and
the entire
site can be easily modeled
with limited
flow volumes.
(Pet.
at 73-75.)
In contrast, the
Site
is
located
in
fractured
dolomitic
rock.
The type of limited groundwater monitoring
required
in the regulations
would
11
not present an accurate picture of the constituent transport.
On the whole,
the groundwater
flow rates through the rock
at the
Site are
very
slow;
however,
flow rates within individual
fractures and bedding planes can be
very
rapid.
(Id.)
As
a result of this widely divergent
ground formation,
Edison believes an
accurate representation of the
Site’s
water bearing
material can only be achieved through a
large-scale modeling process, unlike
that required
in
Section 811.318.
Secondly, Edison argues
that due to the terrain surrounding the Site, it would be
technically impracticable
and economically unreasonable
to
install
a
groundwater monitoring
system which would comply
with the Board’s landfill
regulations.
(Pet.
at 76-78.)
For
instance, there are physical obstacles
(screening berms
and
security fencing) and
natural
environmental barriers (sheer vertical dolomite faces
and
deep ponds) within
100
feet
downgradient of the Main Quarry boundary.
Most significantly
Edison explains that there
exists
a narrow strip of land between the Main and
North Quarries
which provides
insufficient
access
for well drilling
equipment and personnel
safety to
install a
network--of wells.
Regardless of the physical constraints preventing
well installation, Edison claims that any
constituent migration or groundwater flow data would not likely
be accurate.
(Pet.
at 76-77.)
Due
to
the quarrying
and
other land use activities
which
have altered the natural groundwater
flow patterns,
and differences
in the hydraulic
gradients between the Main and
North Quarries,
any
wells
installed
in this
area would
give atypical information regarding the entire
Site.
(Id.)
Given the unlikelihood the required wells
will provide meaningful monitoring data,
Edison
argues that it should
not be
required to expend capital to
install
such wells.
Lastly,
Edison states that
if the adjusted zone of attenuation is granted,
it would be
technically impracticable to
install
wells
at the edge of the zone.
The adjusted zone of
attenuation boundary
is contiguous with the northern-most property boundary
and
is
located at,
or sometimes
beyond,
the banks of the Des Plaines
River.
Because of its proximity
to
the
River and subsequent mixing
of groundwater and River water,
installing monitoring
wells
in
this
area would not provide reliable data regarding the pertinent constituents, nor allow access
for drill equipment or personnel.
(Pet.
at 77.)
According
to
Edison,
it would
be
required to
install
30 new groundwater monitoring
wells
to
comply with the Board’s regulations,
at an estimated total
cost of $300,000.
(Pet.
at
77.)
Edison proposes
to
install
a groundwater monitoring
network,
which
instead of placing
wells
at or near the locations prescribed by the Board’s regulations,
will place the wells
beyond the regulatory
100-foot standard and within the North Quarry.
Specifically,
Edison
will continue to use ten existing
wells3
at the
Site.
~
The pre-existing
wells
are:
upgradient wells
92-2S
and 92-2D in the South Quarry,
and
downgradient wells:
nested wells RO8S
and
RO8D northwest of the Quarry, nested
wells
92-
5S and 92-SD
north of the Main Quarry, nested wells
G205
and R16D northeast of the
Quarry, well 93-9 north of the Quarry, and
well
93-11 northwest of the Quarry.
12
Edison
claims that
although
it cannot install
all
of the regulatorily required wells,
it can
“establish a network of groundwater monitoring
wells
that protects the environment”
(Pet.
at
72), and
which comprehensively and
accurately
depicts constituent migration at the Site.
Edison states that the River is
the only
significant environmental receptor for groundwater at
the
Site.
To
accurately
determine the groundwater flow to the River;
Edison believes it
is
necessary to
install
monitoring
wells under the North Quarry (as proposed
in its
adjusted
standard request),
as opposed to
100 feet from the Main
Quarry (as
required in the
regulations) or as opposed to the northern boundary
line
of the proposed adjusted standard.
(Pet.
at 78-80.)
Only by
installing wells
under
the North Quarry can Edison measure the
water that bypasses
its
pumping system and flows directly into the River.
If the wells
were
placed
under or near the
Main Quarry,
it would primarily measure the groundwater which
is
flowing
to the North Quarry due
to pumping.
Edison argues that
its
proposed network of
monitoring wells
satisfies
the Board’s environmental
objectives of monitoring
environmentally
relevant constituent flow at the Site.
(Pet.
at 80.)
The Board
finds that Edison has presented sufficient justification for an adjusted
standard from
Sections
811 .318(b)(3) and
Section
811
.318(b)(5).
The conduits present in
such fractures provide for groundwater flow quite
distinct from the flow in homogenous
porous
media.
Such a significantly
different groundwater flow regime
was
not the type
considered by the Board
in
adopting the rule of general
applicability.
The Board
acknowledges that a altered groundwater monitoring network
may be
required.
Indeed the
physical
location of the
Site
with
relation to
the River
in addition to
the unique widely
divergent
ground formation at the Quarries,
justify an
adjusted standard.
Section 811.320(c)
Edison requests an adjusted standard from the rule-of-general applicability
at
35
Ill.
Adm.
Code
811.320(c), which states:
c)
Determination of the Zone of Attenuation
1)
The zone of attenuation,
within which concentrations of
constituents
in
leachate
discharged from
the unit may
exceed
the applicable groundwater quality
standard of this
Section,
is a volume bounded by
a vertical plane at the
property boundary
or 100 feet from the edge of the unit,
whichever
is
less,
extending from
the ground surface
to
the bottom of the uppermost aquifer and excluding
the
volume
occupied by
the waste.
2)
Zones of attenuation
shall not
extend to the annual high
water mark of navigable surface
waters.
13
3)
Overlapping zones of attenuation
from units
within a
single facility may be
combined
into a
single zone for the
purposes of establishing
a monitoring
network.
As
alternative to
compliance
with Section 811.320(c),
Edison proposes
a
zone of
attenuation that
is
100 feet from the edge of the Lincoln
Quarry on
the upgradient
side and at
the property boundary
on the downgradient side.
(Pet.
at 14.)Edison believes
this proposed
zone of attenuation,
coupled with the proposed monitoring well location
standards
discussed
above,
and an agreement with the Agency to
establish
a
groundwater management zone (GMZ)
at the Site,
will be
consistent with
the Board’s current definitions and
regulations.
(Id.)
The proposed zone
is supported
twofold:
first,
it places
“all relevant site features that
potentially contribute
to
elevated constituent concentrations
in groundwater within a
single
zone of attenuation for the Site”;
and the zone
will be contiguous
with
the GMZ.
(Pet.
at
86.)
The Agency has agreed to designate
the Lincoln Quarry Site from the waste
boundary-to
the site boundary as
a
GMZ (apparently to address exceedences of background
concentrations).
Edison states
two
reasons to justify
a modification
from the landfill
standards relating
to
the zone of attenuation.
First,
Edison
argues that the Board
did not consider water flow
conditions
like those present at the
Site
in
defining the generally applicable
zone of
attenuation.
(Pet.
at 81-83.)
Specifically,
Edison
claims the
Site
consists
of fractured
rock,
where,
unlike
in
the Board’s models, groundwater flow rates
vary
considerably.
Accordingly
the “degree
to which
attenuation and
hydrodynamic dispersion can occur under these
conditions depends upon the existence, number, properties, and
relationship between
discontinuities
in the rock mass”.
(Pet.
at 82.)
Edison
argues that
the “geochemical processes
of attenuation
are of little
or no
significance at Lincoln Quarry because there
is little
interaction between the chemical
constituents and
the rock
mass”.
(Id.)
Second,
Edison argues that retaining the zone of attenuation
at the
100
foot boundary
would
cause it to
incur tremendous expense for minimal environmental
benefit.
(Pet.
at 83-
85.)
Groundwater degradation over
background concentrations already
exists
beyond the
Main Quarry4 due
to disposal of flyash in
the West Quarry and
lack of attenuation.
Therefore
groundwater downgradient of the
Site beyond the 100-foot zone of attenuatiuwwilltontinue
to
exceed
the Board’s non-degradation standard (particularly for boron and
sulfate) iregardiesrof
whether Edison takes additional precautions.
(Pet.
at 83-84.)
As
a result,
Edison believes
it
is
“technically impracticable to
establish the zone of attenuation as required by-the generally
applicable
standards”.
(Pet. at 83.)
Edison examined several different options
to bring
the Quarry into partial or complete
compliance with groundwater standards
at the edge of the zone of attenuation-.
The options
“
Ammonia,
arsenic, boron, cadmium, chloride,
fluoride, manganese,
molybdenum,
PH,
potassium, selenium,
sodium,
sulfate, total dissolves
solids,
total
organic carbon and
zinc.
14
considered include:
converting
the facility from sluiced to dry disposal andconstructing
a
new
landfill
on the existing
ash designed in
compliance with the standards
in Sectium8it
closing
the landfill and contracting for off-site ash disposal at
existing facilities; closing theiandflll
and
the generating stations; or closing the landfill
and constructing
a new off-site
landfill for
ash disposal.
(Pet.
at 84.)
According to
Edison each of the these compliance
alternatives
present severe adverse economic and/or social impacts
for limited,
if any,
environmental
benefit.
(Id,
see
also Exhibit
12)
Edison notes
that none of the compliance
alternatives
studied
would
address the
groundwater impacts from prior waste
operations which account for exceedences at the edge of
the zone of attenuation.
Edison believes those
constituent concentrations would either
remain
constant or decrease
over time,
but would
not decrease significantly
immediately.
(Pet.
at 85.)
Therefore,
Edison would
still
need to
request an adjusted zone of attenuation.
If it desired to
reduce the existing concentrations it could excavate the waste
currently
in
the Main Quarry
and West Filled Area
(at a cost estimate
$65-187 million) or install a leachate/groundwater
collection system.
Edison believes
neither option
is economically reasonable.
Edison claims that the proposed zone of attenuation extension will adequately protect
the environment.
(Pet.
at 86-88.)
It claims
that
the only
environmental
receptor affected
by
the increase
in the zone of attenuation
is
the River.
The current constituent concentrations in
groundwater have “no discernible impact on water quality
in the Des Plaines
River”.
(Pet.
at
86.)
Additionally, the contribution of constituents
attributable
to
groundwater discharges
which enter the River are indistinguishable from natural
incremental deviations which are
normally expected.
Edison claims
that
“current discharges from the
Site have
no
impact on
River concentrations of constituents”.
(Pet.
at 87.)
Edison also proclaims
that the “proposed zone of attenuation does not
impact any
known or potential
environmental
receptors”.
(Pet.
at 88.)
It states there will
be
no
environmental
impact on the area between the original and
proposed zone, primarily because
there are
no current uses for impacted groundwater downgradient of the
Site.
(Pet.
at 87-88.)
In addition to current uses, the future use of this groundwater is
also unlikely
because Edison
owns or controls
most of the pertinent land,
the impacted surrounding land is
industrialized
and unsuitable for residential development,
and there exists
an unimpacted, deeper acquirer
to
be used in the future.
The Board’s rule of general
applicability at Section
811.320(c)
is premised on the
presence of an attenuating
porous media,
which differs
from the fractured
and jointed bedrock
that occurs
at the Lincoln
Quarry Site.
In this
circumstance,
and
in
light of the chemistry of
the Lincoln Quarry waters
and the
local nature of the groundwater flow system,
the Board
believes that adjusting
the downgradient zone of attenuation to
the northern property
is
justified.
Moreover,
because Edison commits to controlling future use of the groundwater, it
appears granting the requested adjusted standard will not result
in environmental or health
effects substantially
more adverse than the effects considered by the Board inadoptingthetufe
of general
applicability.
15
Section 811.314
Edison requests
an adjusted standard from
the rule-of-general applicability at35 IlL
Adm.
Code
811.314,
which
states:
a)
The unit shall be covered by
a final cover consisting of a low
permeability layer overlain by
a
final protective layer constructed
in
accordance with the requirements of this
Section.
b)
Standards for the Low Permeability
Layer
1)
Not later than 60 days after placement of the final lift of solid
waste,
a low permeability layer shall
be
constructed.
2)
The
low permeability layer shall cover the entire unit and
connect
with
the liner system.
3)
The
low permeability layer shall consist of any
one of the
following:
A)
A compacted earth layer constructed
in
accordance with
the following standards:
i)
The minimum allowable thickness shall be 0.91
meter
(3 feet);
ii)
The layer shall
be compacted to achieve a
permeability of lxi
o7
centimeters per second and
minimize
void spaces.
iii)
Alternative specifications
may be utilized
provided
that the performance of the low permeability layer
is
equal to
or superior to
the performance of a
layer meeting the requirements of subsections
(b)(3)(A)(i) and
(b)(3)(A)(ii).
B)
A geomembrane constructed in
accordance with the
following standards:
i)
The geomembrane shall provide performance
equal or superior to the compacted earth layer
described
in
subsection (b)(3)(A).
16
ii)
The geomembrane shall have strength to
withstand the normal stresses imposed
by
the
waste
stabilization process.
iii)
The geomembrane shall
be
placed over a
prepared base free from sharp objects and other
materials which may
cause
damage.
C)
Any other low permeability layer construction techniques
or materials, provided
that
they provide equivalent or
superior performance to the requirements of this
subsection.
4)
For a MSWLF unit, subsection (b)(3) notwithstanding,
if the
bottom liner system permeability
is lower
than
1
x
1ff7 cmlsec.
the permeability of the lower permeability layer of the
final cover
system shall be
less than or equal to
the permeability of the
bottom liner system.
c)
Standards for the Final Protective Layer
1)
The final protective layer shall cover the entire
low permeability
layer.
2)
The thickness of the final protective layer
shall be
sufficient to
protect the
low permeability layer from freezing
and
minimize
root penetration of the
low permeability layer, but shall
not
be
less
than 0.91
meter
(3 feet).
3)
The final protective layer shall consist of soil
material capable of
supporting vegetation.
4)
The final protective layer shall
be
placed as
soon as possible after
placement of the
low permeability layer to prevent desiccation,
cracking,
freezing or other damage to
the
low permeability
layer.
Edison claims
that the Board’s generally applicable cover requirements
do
not apply
to
conditions
at the Lincoln Quarry due
to the
mode of operation at the site.
(Pet.
at 88-94.)
Edison examined the following environmental
objectives in
coming to that conclusion:
minimization of water percolation and
infiltration into the waste,
control of water run-off from
the cover,
maximization of evapotranspiration,
control of landfill gas and prevention of cover
erosion,
and
minimization of maintenance.
For instance,
minimizing water percolation and
infiltration into the waste would
not
be
accomplished with
a Section 811.314 cover because the water reaching the Quarry comes
from
17
natural groundwater flows,
not
infiltration or percolation.
(Pet.
at 90.)
The objectives of the
impermeable
layer and the
final cover include minimization of water percolation and
infiltration
into the
waste as well
as controlling landfill
gas and
control of the runoff water.
At
the Site the water infiltration through
percolation is
relatively
small compared
to
the
groundwater infiltration into the waste area.
Given the fractured
rock
and dolomite at the Site,
along
with
the difference
in
water level
in the Quarry and
the adjacent groundwater table, the
natural groundwater flows from the south
through the Quarry to the River.
A landfill cover
system would
reduce, but not
eliminate the amount of water which reaches the bottom
ash and
slag
due to precipitation.
(Pet.
at 91.)
Maximizing evapotranspiration
is
not
a
factor at the
Site because the majority of the water reaches
the waste
through groundwaterinflowandnot
precipitation.
(Pet.
at 92.)
The effect of the
very
small
additional
amount leachate
through
precipitation on downgradient groundwater quality
would be
undetectable.
Because the wastes
in the Quarry contain no
organic constituents
that might
produce
gases through decomposition,
the type of cover system required
in Section
811.314
is
not
necessary to
control the
gas.
The
waste
at the Quarry contains only
non-putrescible industrial
wastes consisting of inorganic constituents,
primarily oxides of silicon,
aluminum, iron and
calcium.
(Pet.
at 93.)
Therefore,
there
is no
need to control landfill gas because the coal
combustion byproducts do
not produce methane through
decomposition as organic
constituents.
Another
environmental objective
examined, the prevention of cover erosionnd
minimization
of maintenance,
would require significant upkeep and
maintenance
at the
Site
because of the hydraulic
conditions,
particularly the fact that pressures caused by
groundwater
flow into the landfill could degrade the required cap.
(Pet.
at 93-94.)
Edison argues that
it would be
technically impracticable
and economically unreasonable
to
install
a final cover system
satisfying the generally applicable
requirements for the Main
Quarry.
(Pet.
at 94-98.)
Edison examined the two alternatives
which
satisfy
the Board’s final
cover requirements.
First,
the installation of a compacted earth low-permeability layer
covered by
three feet of soil.
And second,
the installation of a
geomembrane liner covered by
three feet of soil.
Edison thoroughly examined the scenario of installing a cap using
a wet
closure and
a dry closure
with
a total closure cost of $20-28 and
$8
million respectively.
Lastly,
Edison describes the proposed
“Closure
and Post-Closure Care Plan”.
(Pet.
at
98-101.)
Edison presents two
possible options
during closure, where the ash level
in theMain
Quarry is
below
and
above the water level.
If the ash level
is below
the water level
for the
groundwater table,
Edison would close the landfill
in
its present “wet”
condition.
It would
place
a
fence around the
Site to prevent access and maintain the water at
a
level
in
the Quarry
which supports
the current inward hydraulic gradient.
This
would be
the least costly
alternative providing comparable environmental
benefits.
If the level of ash in the Main
Quarry is
above the natural
groundwater table,
Edison
would install
a
two-stage cover system
consisting of a
“compacted
clay layer that performs equivalently
to two
feet of compacted soil
having a hydraulic
conductivity
of
1
x
10
-7
cm/sec,
overlain by
at least four inches of topsoil.
18
The cap would be
sloped at no
less than a two percent
grade
and
would be
seeded
to
prevent
erosion.”
(Pet.
at
100.)
Edison alleges
that its
proposed final
cover standards
in
the request for adjusted
standard will provide environmental
benefits that are comparable to those
obtained under the
generally applicable
final cover standards
at a lower cost.
(Pet.
at
101-105.)
The Board
agrees that
Edison’s
operation at the
Site does not
lend itself to compliance
with the Section
811.314
final cover requirements.
The required impermeable layer and
final
cover operate to minimize
water percolation and
infiltration into the waste,
and
to
control
landfill gas and
runoff water.
At
the Edison Site water infiltration through percolation is
relatively
small compared to
the groundwater infiltration into the waste area.
It therefore
appears
that there would
be no environmental benefit to
installing cover pursuant
to
this
section.
With regards
to controlling landfill gas,
Edison’s current discharges are only coal
combustion byproducts
with no organic constituents
that might produce methane through
decomposition.
Therefore,
there
is no
need to require control of landfill gas at the Quarry.
“Attachnent A”
Standards
(Sections 811.105.
811.106,
811.107(a),
811.107(b),
811.107(i),
811.310.
811.311.
811.312,
811.313,
811.321,
and 811.322)
Edison includes as part of its
overall petition request that the Board find certain parts of
the Board’s landfill regulations be
found to not
apply to the
Site.
For the purposes of
discussion, these will be referred to the at the “Attachment A”
standards,
based on their
presentation in Attachment A of Edison’s petition.
(Pet.
at
110,
Attachment A.)
The
regulations
at issue
are 35
Ill.
Adm.
Code
Section
811.105
(compaction of waste),
811.106
(daily cover), 811.107(a)
(phasing of operations),
811.107(b) (working face), 811.107(i)
(vector control), 811.310,
811 .311,
811.312
(landfill gas monitoring and management
system),
811.313
(intermediate cover),
811.321
(waste
placement),
and
811.322
(final slopes
and
stabilization).
The Board
notes
that Edison’s
request regarding the Attachment A standards differs
from
its request regarding the main portion of the instant
adjusted standardin thatEdisx,ndoes
not
seek to
replace the Attachment A standards
with alternate,
site-specific standards.
Rather,
Edison requests
that the Board
“confirm that
these standards do not apply to
Lincoln
Quarry”
and
to
find
that
“Edison’s
current management practices adequately
satisfy The purposes behind
these requirements”.
(Pet.
at 110.)
In addition,
Edison’s
request regarding the Attachment A standards differs
from
its
request regarding the
main portion of the instant adjusted standard
in that
Edisoirdoesmot
attempt to make the demonstrations required at Section 28.1(c) of the
Act for any
of the
Attachment A requests.
19
AGENCY RESPONSE
The Agency
believes that the factors relating to
Edison with regards to
the applicable
standards
are substantially
and
significantly different from the factors upon which
the Board
relied upon
in adopting
the regulations of general applicability.
(Res. at 4.)
The Agency
agrees that compliance
with the applicable
standards
would be
economically
unreasonable and,
with respect to
some of the standards,
technically infeasible
for Edison to
accomplish.
(Res. at 3.)
Moreover, the Agency
states that it has “no
basis
for
challenging Edison’s
cost analyses”.
(Id.)
The Agency
agrees with
Edison that
granting the adjusted standard will not have an
adverse impact on the environment and
specifically
will not result in environmental or health
effects substantially
and
significantly more adverse than the effects considered by
the Board
when adopting the rule of general
applicability.
(Res.
at
1-5.)
The Agency
agrees with
Edison that the Board
may grant the adjusted standard
consistent
with applicable federal law.
(Res.
at 4-5.)
CONCLUSION
The Board
finds
that Edison
has demonstrated that grant of the adjusted standard
requested by
Edison is
warranted.
Regarding the request for adjusted standard from 35
Ill.
Adm.
Code
814.302(b)(1),
811.319(a)(2),
811.319(a)(3),
811.318(b)(5), 811.320(c),
and
811.314,
the Board
finds
that
Edison has made the demonstrations required under
Section 28.1(c) of the Act.
In reaching
this
decision, the Board
finds
it noteworthy that
Edison proposes
and
agrees
to
abide with
a
series of replacement standards.
The Board believes these replacement standards
will provide
environmental protection at least equivalent to that
which flows from the current regulations.
The Board will accordingly condition
grant of the adjusted standard upon Edison’s
compliance
with the replacement standards.
As
regards
the Attachment A parameters, the Board will grant Edison’s
request that
we
determine
“that these standards
do
not apply
to
Lincoln Quarry”.
(cf. In the Matter of Wood
Energy,
AS
94-1
(October 6,
1994), esp. footnote 3).
We will
not grant an
“adjusted
standard”
as
such, since as we have noted above,
Edison does not attempt
to
make the
demonstrations
required by
Section 28.1(c) of the Act,
and we do
not
wish to establish
a
precedent of acceptance of inadequate pleading in these cases.
However, the Board believes
that none of these standards
are reasonably applicable
to the circumstances encountered
in
the
Lincoln Quarry disposal
system.
We will instead include
in
the order of adjusted standard
a
statement that the attachment A standards do
not apply.
20
This
opinion constitutes
the Board’s findings of fact and conclusions of law
in this
matter.
ORDER
Commonwealth Edison Company
is hereby granted
an adjusted standard for the
Joliet/Lincoln Quarry Site with respect to the following regulations:
35
Ill.
Adm.
Code
814.302(b)(1),
811 .319(a)(2),
811 .319(a)(3),
811 .318(b)(5), 811.320(c),
and 811il4.
In addition,
the following Board regulations
do
not apply to the Joliet/Lincoln Quarry
Site:
35
Ill.
Adm.
Code
811.105,
811.106,
811.107(a), 811.107(b), 811.107(i),
811.310,
811.311,
811.312,
811.313,
811.321,
and
811.322.
In lieu of the standards
above the following shall
apply.
1)
Edison shall
dispose
only
bottom ash and
slag from the combustion of coalinthcMain
Quarry.
2)
Edison shall operate a leachate collection and management
system
at the Joliet/Lincoln
Quarry Site that assures compliance with effluent
limitations contained
in
an NPDES
permit duly
issued by
the Illinois
Environmental Protection Agency.
The leachate
collection and management
system
shall consist of:
a)
A gravity flow drainage
system that:
i)
Channels supernatant liquid
from the Main Quarry into the North
Quarry;
and
ii)
Assures that the water
level
in the Main Quarry
is maintained below
the
natural
water table
level.
b)
A permitted point source discharge from the North Quarry to
the Des Plaines
River.
3)
Groundwater
Sampling.
a)
Edison shall analyze groundwater from
the monitoring
well system
at the
Joliet/Lincoln Quarry Site,
in
accordance with the requirements of 35
Ill.
Adm.
Code
811.3 19(a)(1), for the following constituents:
Ammonia
Fluoride
Selenium
Total Organic
Arsenic
Manganese
Sodium
Carbon
Boron
Molybdenum
Sulfate
Zinc
Cadmium
pH
Total
Dissolved
Chloride
Potassium
Solids
21
b)
Except for the constituents
monitored
in accordance with a),
Edison shall
sample its monitoring
well system on an annual basis for all inorganic
constituents for which the Board has established Class II groundwater standards
under 35
III. Adm.
Code 620.420(a).
i)
If Edison detects,
and
confirms through
replicate
sampling,
a
statistically
significant increase above applicable
groundwater standards for any
constituent monitored under this
paragraph, Edison shall monitor that
constituent
in accordance with the requirements of paragraph a).
ii)
If, after monitoring for five years
in accordance with this
paragraph,
Edison does not
detect a
statistically significant increase above applicable
groundwater standards
for a constituent monitored under this
paragraph
2),
Edison may propose as a permit modification to
discontinue
monitoring for that constituent.
4)
Waste Sampling.
a)
At least once annually,
Edison
shall determine the semi-volatile
organic
constituent content of a representative
sample of waste bottom
ash and
slag
to
be disposed at the Joliet/Lincoln Quarry Site.
b)
The results of such sampling
shall be
submitted to
the Agency
within 30 days
after Edison receives the analytical report.
c)
If Edison detects
one of the semi-volatile
organic constituents
listed under
35
Ill.
Adm.
Code
811 .319(a)(3)
in
its ash samples, then Edison shall conduct
confirmatory
sampling and analysis.
d)
If the sampling
and analysis conducted under
c)
above confirms the presence of
one or more of the
listed
semi-volatile organic constituents,
then Edison shall
monitor
its
groundwater monitoring well
system for those constituents
in
accordance with the
sampling
and
analysis plan contained in
Volume II of
Edison’s
Application for Significant pennit Modification at LincolnlJoliet
Quarry Ash Landfill
IL
197809001
(May
1994).
5)
Standards for Monitoring Well Locations.
a)
In consultation with Edison,
the
Agency
shall establish
a monitoring
well
network for the Lincoln Quarry Site that
achieves the monitoring
objectives of
part 811.
The Agency shall
not
impose more stringent well location standards
than the requirements
in
35 Ill.
Adm.
Code
811.318(b).
22
b)
If any of the
wells
in
the monitoring
network established
by
the Agency
fails or
is rendered unusable,
Edison shall request permission from
the Illinois
Environmental Protection
Agency
to replace the well
with
another well, located
as close as practicable to the non-functioning
well and
sampling
the same
aquifer.
6)
Zone of Attenuation.
a)
For purposes
of this paragraph I),
the zone of attenuation
at the Joliet/Lincoln
Quarry Site
shall be defined
as
the volume bounded by
a
vertical plane
extending from the ground surface to
the bottom
of the uppermost aquifer,
excluding the waste,
and
located:
i)
100
feet from the edge of Lincoln
Quarry on the upgradient side
with
respect to groundwater flow;
and,
ii)
At the property boundary
on the downgradient side
with respect to
groundwater flow.
If the property
boundary extends beyond the annual
high
water mark of the
Des
Plaines River at any
location, the zone of
attenuation at that location will be
reduced to
satisfy
the requirements
of
35
Ill.
Adm.
Code
811.320(c)(2).
This
zone of attenuation is depicted on Figure
SAP-S, Volume II of
Edison’s
Application for Significant Permit Modification,
attached to
Edison’s petition for site specific
relief.
b)
Groundwater
quality
at or beyond
the zone of attenuation for the Joliet/Lincoln
Quarry Site
shall be maintained at each constituent’s background concentration.
c)
Nothing herein shall be construed to prohibit Edison from petitioning the Board
for an adjustment of the groundwater quality
standards
applicable to the
Site,
in
accordance with the procedures established
in 35
Ill.
Adm.
Code 811.320(b).
d)
Compliance Determination.
Any statistically significant increase
above an applicable groundwater quality
standard that
is
attributable to
the facility and
which
occurs at or beyond the
zone of attenuation within
100 years
after closure of the last unit accepting
waste
within such a facility shall constitute
a violation.
7)
Final Cover.
a)
For purposes of b) and
c)
below,
“maximum adjusted seasonal water
table
level” means the maximum predicted water table
level
in
the vicinity of the
23
Joliet/Lincoln Quarry Site, determined at the time of closure, plus sufficient
elevation to ensure
the integrity of a cap.
b)
Closure
Below
Water
Table.
i)
If,
at the time of closure, the level of settled
ash in Lincoln
Quarry
is at
or below
the maximum adjusted seasonal water table level,
no final
cover
is required for the Quarry and the Quarry shall be maintained as
an impoundment.
ii)
Water
levels in the Quarry shall be
maintained at or below
a maximum
elevation of 570
feet above
sea
level.
iii)
A chain link fence no
less than eight
(8)
feet in
height,
topped by
a no
less than three (3) strands of barbed wire,
shall be installed around the
Joliet/Lincoln Quarry Site to prevent access
and
shall be maintained
in
good
condition at all times.
c)
Closure
Above Water
Table.
i)
If, at
the time ofclosure, the
level of settled ash in Lincoln
Quarry is
above the maximum adjusted seasonal water table level,
Edison shall
install a two-stage cover system,
which shall consist of a compacted clay
layer that performs equivalently
to a 2
foot layer of compacted soil
having a hydraulic
conductivity
of
1
x
1ff7 cmlsec,
overlain by
at least
four inches of topsoil.
The cap
shall be
graded at no
less
than 2
grade
and
shall drain to
a collection area located on the cap.
Stormwater
collecting
on the cap
shall be
pumped to the North Quarry for settling
prior to discharge pursuant to the facility’s NPDES permit.
The cap
shall be
seeded to prevent erosion.
ii)
Water
levels in the Main Quarry shall be
maintained at
no more than 570
feet above sea
level
through use of a gravel drainage
blanket underlying
the stormwater collection area.
Water collecting
in the drainage blanket
shall drain by gravity to
the North Quarry for settling prior to
discharge
pursuant to the facility’s NPDES permit.
Section
41
of the Environmental
Protection Act (415 ILCS
5/41
(1994)) provides
for
the appeal of final Board
orders within 35
days of the date of service of this order.
The Rules
of the Supreme Court of Illinois
establish
filing
requirements.
(See also
35
Ill.
Adm.
Code
101.246
“Motions for Reconsideration”.)
24
IT IS
SO
ORDERED.
Board Member McFawn Concurred.
I, Dorothy
the above opinion
of
M.
Gunn, Clerk of the Illinois
Pollution Control Board,
hereby certify
that
and
order
was adopted on the
/5~
day of
___________,
1996,
by
a vote
inn,
Clerk
Control Board
Illinois
