ILLINOIS POLLUTION CONTROL BOARD
June 30,
1988
IN THE MATTER OF:
AMENDMENTS TO
)
SUBTITLE
C:
~7ATER POLLUTION.
)
R85—29
FECAL COLIFOPII AND
SEASONAL DISINFECTION
ADOPTED RULE
FINAL ORDER
OPINION AND ORDER OF THE BOARD
(by R.
C. Flemal):
The Board has long been grappling with
the problem of
chlorination of sewage treatment plant effluents.
The problem
occurs because chlorination of effluents, which
is
a nearly
universal practice
in Illinois, has a
negative impact on the
aquatic community
of the streams and lakes
to which the
chlorinated effluents are discharged.
For this reason prudent
environmental management demands that chlorination should at
least be selectively discontinued.
However, chlorination also constitutes
a mechanism for
the
removal
of pathogenic organisms from effluents.
Hence,
chlorination decreases
the possibility of waterborne
infections
and disease.
For this reason prudent environmental management
demands that chlorination should at least be selectively
continued
in those circumstances where water—borne infections
or
disease are possible.
The principal difficulty facing the Board has been
in
delineating
those circumstances under which chlorination should
be discontinued,
and those circumstances under which chlorination
should
be retained.
Further compounding
the issue are multiple
questions of how the selective discontinuance
of chlorination
should be effectuated,
which includes such matters as: Should
chlorination
be replaced by
an alternative disinfection
process?
How does one determine circumstances under which
risk
to human health outweigh environmental damage?
Can a general
rule suffice
to cover
all possible contingencies?
Etc.
Today
the Board adopts amendments which,
the Board believes,
answers the deficiencies found
in previous efforts
to address the
effluent chlorination problem.
90—635
—2—
ADOPTED AMENDMENTS
The instant amendments have three elements, which
respectively amend the fecal coliform sections
of the Board’s
General Use Water Quality Standards
at
35
Ill.
Adm. Code Part
302, Subpart B;
the Public and Food Processing Water Supply
Standards
at
35
Ill.
Adm.
Code Part
302,
Subpart
C; and the
Effluent Standards at
35 Ill.
Adm. Code Part
304.
The first element, which addresses
Part
302,
Subpart
B,
limits aQplicability of the present fecal coliforni water quality
standard-’~ to those general
use waters defined as protected
waters,
and then only during
the months May through October.
Protected waters are defined within the amendments
to include
waters which,
“due
to natural characteristics,
aesthetic value,
or environmental significance, are deserving
of protection from
pathogenic organisms”.
Explicitly included within the definition
are all waters which “presently
support
or have the physical
characteristics
to support primary contact
or which
“flow through
or adjacent
to parks or residential areas”.
Primary contact is
itself defined at 35 Ill.
Adm. Code 301.355 as “Any recreational
or other water
use
in which
there
is prolonged and intimate
contact with the water involving considerable
risk
of
ingesting
water
in quantities sufficient
to pose a significant health
hazard,
such
as swimming and water
skiing”.
The Part
302, Subpart B,
amendments additionally exempt from
the general use fecal coliform standards,
on a year—round basis,
“waters unsuited to support. primary contact uses because of
physical,
hydrologic
or geographic configuration and are located
in areas unlikely to be frequented
by the public on a routine
basis”.
The second element, which addresses Part
302, Subpart
C,
provides an exception
to the conditions
of the Subpart B
amendments.
Specifically,
it imposes
a water quality standard
applicable
at any point where water is withdrawn for public and
food processing purposes.
The standard is
a geometric mean of
2000 per 100 ml,
based on
a m~nimumof five samples taken over
not more than
a
30 day period
,
applicable
at all times.
The
The geometric mean,
based on a minimum of five samples taken
over not more than
a
30 day period,
shall not exceed 200 per ml,
nor shall more than 10
of the samples during
a
30 day period
exceed 400 per ml.
35. Ill.
Adm. Code 302.202.
For purpose
of
simplicity,
this standard
is hereinafter
referred to
as the
“200/100 ml” standard.
2 For purpose
of simplicity,
this standard
is hereinafter
referred
to as
the “2000/100 ml” standard.
90—636
—3--
2000 per 100 ml
standard here identified
is the same
as the
standard applicable
to raw water supplies,
as found at
35.
Ill
Adrn.
Code 604.501(c).
The net result of the Part 302 amendments sets
up several
classes of waters with respect to fecal coliforin standards,
based
on the use of the water and the time of year:
Applicable Standard
May—October
November—April
Protected Waters
200/100 ml
None
P&FP Water Supply
in
a Protected Water
200/100
nil
2000/100 ml
P&FP Water Supply
in other waters3
2000/100 ml
2000/100 ml
Other waters
None
None
The third element
of the amendments addresses
the fecal
coliform effluent standard.
Specifically,
the amendments retain
the current requirement that all effluents governed by Part 304
contain no more than 400 fecal colifqrms
per 100 ml, but provide
for the first
time that an exemption’* can be obtained.
To obtain
the exemption,
a discharger
must demonstrate to the Agency that
the receiving water
is not a protected water or a Public and Food
Processing Water Supply,
and that the discharge will not cause a
violation of any General Use or Public and
Food Processing Water
Supply standard at
a downstream point.
The exemptions,
which are
to be granted
by the Agency,
may be on
a year—round
basis or
a
seasonal basis, depending upon the individual circumstances.
The
exemption process would be carried out as part
of the NPDES
permitting process and would be governed by rules and appeal
processes
therein.
Additionally,
the Agency has entered
into the
record
(P.C.
#27,
attachment)
a copy
of proposed guidelines
for
review of exemption petitions.
It proposes
to promulgate
these
guidelines upon completion of the instant action.
The Board notes
that since
raw water supplies are by necessity
located
on bodies
of water
of substantial
size,
these bodies of
waters
in almost all cases are likely to be protected waters.
Thus,
it
is unlikely that public and food processing water
supplies will
be located on other than protected waters.
The exemption
is characterized
in the amendments
as an
“alternative effluent standard”, per
a suggestion
to this end by
the Joint Committee on Administrative Rules
(“JCAR”).
See
discussion following.
90—637
—4--
HISTORY
Institution
of Fecal Coliform Standards
Widespread municipal wastewater disinfection via
chlorination is
a relatively recent phenomenon,
dating only
to
the
1960’s
(.47 PCB 554).
Its intent is
to kill disease—causing
organisms which may have survived other steps
in the effluent
treatment process.
In 1972,
shortly after
the organization of the Board,
the
Board adopted ambient water quality standards and effluent
standards wh~chhad the effect of requiring effluent
disinfection~. The standards did not specifically identify that
disinfection had to take place,
but rather limited the number of
fecal colifori~bacteria,
an indicator
of microbial
contamination~,which could be discharged and which
could be
present
in the ambient aquatic environment.
However,
since
almost all undisinfected municipal wastewater effluents contain
fecal
coliforrn bacteria
in numbers greater
than the standards,
the effect was
to require essentially universal disinfection.
In its 1972 action the Board was following
the best
scientific information of
the times.
In this context,
it is
to
be noted that the United States Environmental Protection Agency
(“USEPA”)
adopted
a similar fecal coliform standard
in 1973.
However, conventional wisdom began
to change very rapidly,
occasioned
by accumulating evidence that chlorination was causing
more problems than it was solving.
One of the consequences was
that
in 1976 the USEPA reversed itself and deleted the fecal
coliform standards
it had adopted only three years previously.
Moreover,
other states began
to change or repeal their previously
adopted
fecal coliform standards,
or
to adopt none
if they had
not reacted
to
the earlier trend to universal chlorination.
In the Matter of: Effluent Criteria,
R70—8, In the Matter of:
Water Quality Standards R7l—14,
and In the Matter
of: Water
Quality Standards Revisions for Interstate Waters
(SWB—l4), R7l—
20.
See Board Opinions and Orders at
3 PCB 755—76 and
4
PCR
3—
40.
6 Direct detection of disease—causing organisms is difficult.
Therefore,
standard practice
is to set limits on, and monitor
for, more easily detectable surrogate organisms whose presence
indicates the possible presence
of disease—causing organisms.
Fecal coliform bacteria are ubiquitous inhabitants of the
intestinal tract of warm—blooded animals and are not usually
themselves the cause of disease.
90—638
—5—
R77—l2D Proceeding
Illinois firs~readdressed effluent chlorination
in the
proceeding R77—12D
.
The R77—l2D proceeding produced
a
voluminous record,
including transcripts
of eight merit hearings
and three economic impact hearings,
64 exhibits, and 105 public
comments.
The Board found that the record clearly showed that
chlorination caused significant aquatic environmental damage.
Among
the observations weighed by the Board were:
that residual
chlorine stunts
the growth
of fish, halts or
reduces spawning,
and
is lethal at concentrations of less than 0.1
rng/l;
that fish
avoid levels
of residual chlorine as low as 0.01 mg/l;
that
estimated value of lost angling days
in Illinois was then from
$2,000,000 to $4,400,000;
that chlorinated hydrocarbons produced
as
a result
of chlorination are hazardous materials whose toxic
effects are
of uncertain,
but likely real concern;
and that
chlorination may negatively impact other
effluent parameters,
including ammonia and dissolved oxygen
(47 PCB 570—2).
The Board also reviewed
an extensive record contesting
the
efficacy of chlorination
in preventing waterborne disease
(47 PCB
561—4).
The Board pointed out that the record indicated that
effluent chlorination
is
of dubious value in killing intestinal
parasites and deactivating viruses.
It also pointed out that
there were no studies of human disease which showed that
disinfection of sewage produces any measurable public health
benefits related
to reduction of disease.
In summary, the Board concluded:
If disinfection were first proposed for adoption
today,
it
is quite clear that the
record would not
support
its widespread use.
Now, however, available
evidence of the harmful effects and limited,
at best,
health benefits has greatly increased.
47 PCB 574.
In response
to its findings
in R77—l2D,
the Board on October
14,
1982 issued
a final ruling encompassing these actions:
1)
Repeal
of the fecal coliform water quality
standard applicable to secondary contact waters;
2)
Repeal of the fecal coliform water quality
standard applicable
to general
use waters;
and
3)
Repeal of
the fecal coliform effluent standard
In the Matter of: Amendments
to Chapter
3:
Water Pollition
(Effluent Disinfection).
See Board Opinions and Orders at
43 PCB
479—80,
47 PCB 549—83,
and 49 PCB
183—4.
90—639
—6--
except
for
those dischargers situated within
20
stream miles from
a public bathing beach or
a
water
intake used
for public and food processing
water
supply.
The reason
for addressing action to the fecal coliform
bacterial standards rather than directly
to chlorination
is that
chlorination
is the accepted practice
by which compliance with a
fecal coliform standard
is achieved.
Thus,
removal
of the
standard obviates the need to continue
the offending chlorination
practice.
The Board’s action
in R77—12D was appealed though the State
Court system by the Illinois Attorney General.
The First
District Appellate Court upheld
the Board’s
repeal of the fecal
coliform water quality standard
for secondary use waters,
but
overturned
the Board’s actions with respect
to the
fecal
coliforrn
standards for general use waters and effluent discharges.
People
of the State
of
Illinois v.
Pollution Control Board,
119 Ill.
App.
3d
561,
456 N.E.
2d 909 (1983)).
The Illinois Supreme Court
upheld
the appellate court’s actions
in People of
the State of
Illinois
v.
Illinois Pollution Control Board,
103 Ill.
2d. 441,
469 N.E.
2d 1102
(1984).
The higher
courts’
decisions were based not on any one facet
of the Board’s decision,
but rather on
a combination of
facets,
including but not limited
to:
(a) arbitrariness of
the 20—mile
limit;
(b)
failure
to provide adequate protection
to primary
contact waters;
(C)
failure
to fully consider possible microbial
standards
other than fecal coliform bacteria;
and,
(d) failure
to
adequately consider alternative means of disinfection.
Instant Proceeding
The instant proceeding
conies before the Board as an
outgrowth of
a motion filed on November
8,
1985 by the
Bloomington and Normal Sanitary District (“BNSD”)
and the
Illinois Association
of sanitary Districts
(“IASD”) which
requested
that the Board adopt an Emergency Rule providing for
seasonal
disinfection.
Although
the
Board
denied
the
motion
based
on
failure
to find that an emergeny existed
(67 P08 55),
the Board
opened the present docket
in the same Order on the
prospect that the proposed BNSD/IASD rule might have merit as
a
permanent rule.
Following two public hearings and receipt of post—hearing
comments,
the Board on November
6,
1986
(74 PCB
73)
sent a
slightly modified version of the BNSD/IASD proposal
to first
notice; publication occurred at 10
Ill.
Reg.
19647, November
21,
1986.
An additional hearing on the BNSD/IASD proposal was held
on June
4,
1987 in response
to
a request from BNSD.
90—641)
—7—
Concurrently with these activities,
the Illinois Department
of Energy and Natural Resources undertook
a study expressly
targeted to
this docket and titled Assessment of Wastewater
Disinfection Technologies
(“AWDT Study”).
This study was filed
with
the Board on September
1,
1987 as
P.
C.
#22.
It considers
many facets of disinfection, including the rationale for
wastewater disinfection,
different disinfection technologies,
costs of
disinfection, public health and environmental benefits
and costs,
and a discussion of regulatory strategies.
By Order
of September 10,
1987 the Hearing Officer set a special comment
period on the AWDT Study.
Four comments were received
(P.C.
#23—
#26).
On February
4,
1988 the Illinois Environmental Protection
Agency
(“Agency”)
filed
an alternative proposal, which forms the
framework
for today’s adopted rules.
The Agency had not
previously been
a proponent
in the instant matter,
but had
actively participated
in the hearings.
The Agency
filed
the
proposal
in
the spirit of offering
a cure
to some o~the
objections
raised to the earlier BNSD/IASD proposal
.
The
Agency’s proposal was sent
to first notice pursuant to an Order
of
the Board of February
4,
1988, with publication occurring at
12
Ill. Reg.
4305, February
26,
1988.
On May
5, 1988 the Board adopted the Agency proposal for
second notice
after consideration of additional public comment
received.
On June
14,
1988 JCAR issued
a certification of
no
objection to the proposed amendments.
However, JCAR made certain
recommendations
for changes
in the regulatory language; these are
discussed later
in this Opinion.
In total,
forty-two public comments and two supplemental
public comments, representing 23 different individuals,
organizations, or governmental entities, have been received
in
this matter.
Of these,
the latter fifteen
(P.C.
#28—#42) have
been filed
in response
to first notice of
the Agency proposal.
With
two exceptions, both filed by Illinois American
(P.C.
#33
and #41),
the public comments express
support for the Agency
proposal.
Professor Charles Hass,
who had earlier expressed
objection to the BNSD/IASD proposal
(P.C.
#2,
#3, #14),
endorses
8 The Agency’s proposal differs from the BNSD/IASD proposal
principally
in that the BNSD/IASD proposal would
have retained
the 200/100 ml fecal coliform standard during May through October
for all general use waters irrespective of whether primary use
was likely
to occur.
Additionally, the earlier proposal would
have granted
a blanket exemption
to the 400/100 ml effluent
standard during
the months of May
through October,
rather than
providing for the site—specific exemption demonstration required
by the current rule.
90—641
—8—
the Agency proposal
(P.C.
#29).
The AG, who had also expressed
objection to the BNSD/IASD proposal
(P.C. #11; S.P.C.
#2),
has
not commented on the Agency proposal.
ENVIRONMENTAL IMPACT
Aquatic Life
The principal argument presented in favor of discontinuing
universal disinfection by chlorination
is that chlorination
causes significant environmental damage.
The damage
is largely
focused on the aquatic community,
which suffers as
a consequence
of exposure to residual chlorine and
to
a variety of chlorine
reaction products, many
of which are toxic organochlorine
compounds.
Total residual chlorine
(“TRC”)
refers
to the sum of
unreacted
free chlorine plus chlorine which has reacted with
ammonia
to produce chloramines
(NH2C1,
NHC12, and NC13).
It
is
well established through laboratory studies that TRC
is toxic
to
a wide variety of aquatic organisms at relatively low
concentrations.
The literature on TRC toxicity, plus its
cor~ponents, is extensively summarized
in Exhibit
22, pages 6—
18
.
It
is also noted that chloramines have been discharged from
Illinois sewage treatment facilities at concentrations as high
as
1.05
to 5.17 mg/l; many fish species cannot tolerate chloramine
levels above
0.1 mg/l,
and even wore tolerant fish species are
killed at
levels above
1.2 mg/lb.
In addition to chboramines,
reaction products are produced
when chlorine reacts with organic substances in the wastewater
stream or
the receiving body of water.
These include such
recognized toxicants as methyl chloride, chloroform,
trichioroethylene,
tetrachloroethylene,
and dichlorobenzenes
(Ex.
22).
Field demonstrations of environmental damage to aquatic life
due
to chlorination are many.
Among
these are a three—year study
conducted on Sugar
Creek below the BNSD outfall, which showed
a
marked decline
in intolerant fish species, fish species
“Environmental Impact and Health Effects of Wastewater
Chlorination”,
by Gary R. Brenniman,
ENR Document 81/27,
July,
1981.
10
“Wastewater Disinfection: A Review of the Technical
and Legal
Aspects
in Illinois”, The Metropolitan Sanitary District
of
Greater Chicago,
Report No.
84—17.
This document has been
admitted into the record
as Exhibit
6.
9fl—642
—9—
diversity,
and total number
of
individual
fish within the zone of
total residual chlorine persistence downstream from the BNSD
outfall
CR.
at
22—3;
Exh.
19).
One
of the more extreme cases presented
in this record
concerns the East Branch of the DuPage River.
The Northeastern
Illinois Planning Commission
(“NIPC”) notes that the East Branch
“once supported
a game fishery, including large mouth bass and
northern pike”,
but
is now characterized “as very poor,
being
dominated by carp and suckers”
(P.C.
#7,
p.
1).
Modeling studies
of the effect
of various toxicants
in the East Branch indicate
that residual chlorine
is
a major ççntributor
to the poor
character
of the aquatic community-~. Based on these results,
NIPC has concluded that even with the advent of advanced
wastewater
treatment at all East Branch treatment plants,
“fish
toxicity will still be
a problem due
to the presence
of residual
chlorine”
and that it
is only when chlorine
is eliminated
that
“toxicity drops
to tolerable levels throughout much of the river”
(Id.
at
5).
In summary, NIPC notes that
“if present chlorination
practices continue,
it will be impossible to achieve
a high
quality fish community
in much
of the East Branch even when
advanced wastewater treatment
is implemented”
(Id.
at
6).
Field studies have also demonstrated that the elimination of
chlorination can lead
to
a restoration
of the health
of
an
aquatic community.
A particularly pertinent study,
carried out
in Ilj~noisin 1983 by Drs.
Roy C. Heidinger and William M.
Lewis
,
found
that
in three central Illinois streams temporary
discontinuation of chlorination by sewage treatment plants
resulted
in the rapid restoration of what had been extremely poor
fish communities.
Restoration was to the level characteristic of
ambient areas
above the outfalls,
and could
be directly
attributed
to reductions
in residual chlorine
(Exh.
3 at
88).
As
a general conclusion, Heidinger and Lewis determined that “the
elimination
of residual chlorine from good quality secondary
sewage
effluents derived primarily from domestic wastes will
result
in quantitative and qualitative improvement
of the fish
communities
in most Illinois streams”
(Id.
at 88—9).
11 Dennis
W. Dreher,
“Study of Fish Toxicity
in the East Branch
DuPage River”, Northeastern Illinois Planning Commission Staff
Paper, June 1981.
This document has been admitted into the
record as part of P.C.
#7.
12 Heidinger and Lewis,
“Relative Effects of Chlorine and Ammonia
from Wastewater Treatment Facilities on Stream Biota”.
This
document has been admitted into the record as Exhibit
3.
90—643
—10—
In
a separate submission
to the record Professor Heidinger
points out that many fish species,
including endangered and
threatened species,
live or spawn
in headwater streams where they
are subject to TRC toxicity.
He concludes that he wishes
to
“make
it very clear that from the fisheries standpoint the best
solution
is
to stop chlorination altogether or
to dechlorinate”
(P.C.
#8 at
2).
The Metropolitan Sanitary District of Greater Chicago
(“MSDGC”) has also undertaken
a study
of comparative fish
populations under chlorination/non—chlorination regimes.
In
April,
1984,
MSDGC ceased chlorinating effluent discharged from
its North Side Sewage Treatment Works pursuant to deletion of
the
secondary use fecal coliform standard.
The effluent had received
continuous chlorination prior
to that time.
During fish sampling
conducted in each
of the seven preceding years and carried out
0.7 to 1.7 miles downstream from the outfall,
a total of
20
individual fish representing six species had been collected.
In
contrast,
a collection made in that same area on November
5,
1984,
seven months
after cessation of chlorination,
totalled 115
individual
fish representing
9 species
(R.
at 112—3).
Concerns over environmental damage associated with
chlorination have persuaded other states
to reduce
requirements
for chlorination.
Among these are the neighboring states
of
Ohio,
Indiana, Minnesota,
Iowa,
and Missouri,
each of which has
instituted seasonal chlorination
(R.
at
14; Ex.
1).
Wisconsin
recently adopted a program similar
to the instant proposal
in
that
it provides for year—round disinfection where protection of
public drinking water supplies
is required, seasonal disinfection
where only protection
of recreational uses
is required, and
elimination
of disinfection
in other circumstances
(AWDT Study at
94).
A Wisconsin official has estimated that under
this program
about half of the municipal dischargers are not required
to
disinfect at all,
about
40 percent are required
to seasonally
disinfect,
and about 10 percent are required to disinfect year—
round
(Id.).
The U.S. Environmental Protection Ageny
(“USEPA”)
is also on
record as endorsing
a reduction in universal wastewater
chlorination.
Commenting
in a letter
written by the chief
of
(JSEPA’s Technical Support Section to an official of the BNSD,
the
USEPA noted that it:
encourages
the reduction
in disinfection by the use
of
chlorine where aquatic life protection is
a
desired use,
and public health requirements do not
outweigh this consideration.
EPA encourages seasonal
disinfection as
a reasonable way
to avoid chlorine
discharges when justified.
(Ex.
2.
90—644
—11—
Finally,
the Agency also concludes
that “reduction in the
amount of chlorine released
to the environment
in Illinois can be
expected
to have
a positive impact on the aquatic communities
(R.
at
190).
Human Health
The two long—standing arguments in opposition to any
curtailment
of disinfection concern possible health impacts on
downstream water supplies and human recreational use of waters.
The problem of impact on downstream public water supplies has
been capsulized by Mr. James
Park, representing the Agency:
The Agency
is concerned
...
about the possible impact
of existing and the potential impact of new
discharges
of wastewater containing high counts
of
fecal coliform in the immediate vicinity of public
water supply intakes
...
While public water supply
clarification, filtration and chlorination facilities
can effectively deal with
a relatively wide range
of
raw water quality,
the elevated and fluctuating
bacterial levels associated with unchlorinated
secondary effluent do have the potential to overwhelm
public water supply chlorination facilities
if the
natural mitigating effects of dilution and instrearn
die—off do not have
a chance
to operate.
(R. at 188—
9).
Mr. C.
A. Blanck of Illinois—American Water Company, which
provides public water
supply for one million Illinois residents,
has also noted
the following concerns:
Disinfection at the source
...
provides the initial
barrier
to the transmission of waterborne disease.
The removal of this barrier simply transfers an
additional burden to the potable water perveyor.
.*
*
*
*
*
Disinfection of
the effluent assures some minimal
level
of protection
for downstream users and at least
reduces the levels of microbiological contamination
during periods when plants are not operating
properly.
**
*
*
*
Any quality degradation
in the water
supply caused by
the cessation
in disinfection will probably create
increased chlorine requirements at the downstream
water
treatment plants.
This will increase the
trihalomethane levels formed by chlorination of the
90—645
—12—
raw water,
since they are directly related to
chlorine dosage.
R.
at 428—430
Accordingly, Illinois—American Water Company urges
the Board
to allow modification of existing chlorination rules only
to
the
extent that such modification does not increase the health risk
to public water supply users
(P.C.
#41
at
2).
Human health impacts have also been the principal
focus
of
public comments by
the AG and Professor Haas.
The AG points out
that phenomena such as the survival
of viruses and bacteria at
low temperatures and viral shedding during late summer
and early
fall require consideration of year—round disinfection of effluent
discharges located upstream of public water supplies or
recreational areas
(P.C.
#11 at 3—4).
The
AG additionally
contends that treatment
of drinking water
is “an imperfect
process” which
“is not immune from operational problems which
allow bacteria and viruses
to pass through
to the users”
(Id.
at
5).
Given
this circumstance,
the AG urges continued disinfection
where
its absence would otherwise “eliminate
an important barrier
protecting
the health of drinking water users”
(Id.).
Professor Haas emphasizes that:
It
is necessary
for any proposed revisions of
wastewater disinfection regulations
to recognize the
need for year—round disinfection
of those effluents
in proximity to intakes and/or
in low dilution
receiving waters.
Without this recognition, any
relaxation of effluent disinfection
is technically
unsupportable.
(P.C.
#3,
p.
3)
At hearing and in P. C.
#12, BNSD offered rebuttal of the
position that adoption
of uniformly—applicable seasonal
disinfection would adversely impact downstream water supplies.
Among other matters, BNSD notes that existing regulations require
water
suppliers utilizing surface water
as
a raw water source
to
employ coagulation, clarification,
rapid sand filtration,
and
continuous post—chlorination.
BNSD contends
“that each
of these
treatment processes
in themselves are bacterialcidal and
virucidal”
and that when “employed
in
a series treatment scheme
they provide adequate protection
of the public health”
(P.
C.
#12
at 1—2).
BNSD
also provided documentation from other
states
where seasonal chlorination
is the accepted practice which notes
that no known human health problems have been associated with
seasonal chlorination.
Additionally, BNSD contests the
applicability to Illinois of the studies cited by the AG
in
support of his contention
of winter bacterial and viral
survival,
contending that the studies are old and were conducted on Alaskan
streams very different both physically and chemically from those
in Illinois
(Id.
at 8—15).
90—646
—13—
ECONOMIC REASONABLENESS
The Illinois Department of Energy and Natural Resources
(“ENR”)
concluded on September
26,
1986,
that
a formal economic
economic impact study
(“EcIS”)
is not necessary
in the
proceeding, noting that this declaration
is appropriate based on
the statutory criteria
in
Ill. Rev. Stat.,
ch.
96y?
par.
7404(d)(2).
The Economic Technical Advisory Committee
(“ETAC”)
concurred
in this determination on October
10, 1986.
It
is
to be noted
that the proposal before ENR and ETAC was
the BNSD/IASD proposal of May 1986 rather than the Agency—
sponsored proposal which the Board adopts
today.
Section 27(b)
of the Act, however,
in addition
to requiring that economic
impact studies
be prepared,
also allows
the Board
to modify and
subsequently adopt
any proposed regulations without additional
economic study by ENR
if the modification does not significantly
alter
the intent and purpose of the proposed regulation which was
the subject
of ENR’s determination.
The Board finds
that the
proposal considered today
is
not significantly altered
in intent
or
purpose from the May 1986 proposal.
The Board consequently
believes that no additional determination by ENR regarding the
necessity
of an EcIS is required.
The
AG has objected
(P.C.
#11,
p.
9—11)
to this matter
proceeding on the basis
of an alleged necessity
of conducting
a
EcIS pursuant to Section 27(b)
of the Environmental Protection
Act
(Ill.
Rev.
Stat.,
ch. ll~/~par.
1027).
The AG contends that
the record before the Board
is insufficent to allow the Board
to
reach
a determination on the economic reasonableness of the
proposed amendments.
Aside from the determination of ENR and
ETAC that an EcIS
is not necessary, the Board
notes that an EcIS
was conducted
in R77—l2D, and that th~same has been admitted
into the current record as Exhibit
21
~.
Moreover,
the AWDT
Study
(P.C.
#22),
which was filed subsequent to the AG’S
objection, contains substantial new and updated economic
information.
The Board finds
that the significant information
contained
in the R77—12D EcIS remains pertinent, and that this,
in combination with the record developed in the current
proceeding, provides information sufficient
for the Board
to make
its mandatory economic determination.
The record identifies
two economic benefits and three
costs.
The benefits are related
to decrease
in cost associated
with disinfecting wastewaters and increase in quality of the
13 “The Economic Analysis of Health Risks and the Environmental
Assessment of Revised
Fecal Coliform Effluent and Water Quality
Standards”,
Illinois Institute of Natural Resources,
Document No.
81/15,
March
1981.
90—647
—14—
aquatic environment.
The costs are related
to possible increased
incidence
of waterborne disease
to
a) primary contact users and
b)
consumers of water withdrawn for human consumption,
and
increased costs
of treatment
of water withdrawn for human
use.
The R77—12D EcIS determined that the more than 1,400
municipal,
industrial,
and commercial treatment facilities
in
Illinois which are required
to disinfect their
final effluents
spend over
$4 million annually doing so
‘~.
These are annual
operational costs,
and do not include amortization of
chlorination equipment
(Ex
21,
p.
158).
Under the assumption
that approximately halving the time period when chlorination
would be required would approximately halve total operational
costs,
the expected savings associated with the current proposal
would be on the order
of
$2 million annually.
This figure is
consistent with a 1985 IASD study, which showed that
22 large
municipal plants serving
a population of
2 million people spend
$960,000 annually
to disinfect final effluents
(R.
at
12).
The AWDT Study provides estimates
of 1987 disinfection costs
based on treatment plant capacity.
For disinfection via
chlorination, expressed
in $1,000s,
these estimates
include
(P.C.
#22 at 28,
31):
Plant Capacity
(mgd)
0.1
1.0
10.0
100.0
Basic Construction
40.0
88.0
340.0
1400.0
Annual Operations
4.6
16.8
78.7
589.5
Those facilities that would
be allowed
to cease chlorination
entirely as
a consequence
of these amendments would
realize
savings for
full operational costs and any
costs associated with
equipment replacement.
Those facilities which would be required
to maintain seasonal chlorination would realize a savings of
a
portion of
their annual operations
costs.
14 The annual cost of disinfection
in Illinois
as cited
in
Exhibit
21 was approximately $6.9 million
(Table 6—3,
p.
159).
Included
in that sum was the amount spent annually by MSDGC,
approximately $2.8 million.
Since MSDGC’s plants discharge only
to secondary contact waters,
the plants are no longer required
to
provide disinfection and MSDGC has ceased the practice of
chlorination.
The best estimate of current disinfection costs
is
therefore the State
total minus
the MSDGC cost,
expressed
in the
dollars current for the Exhibit
21 study.
90—648
—15—
The AWDT Study also provides estimates of the marginal
charges
to the user of
a chlorination disinfection system per
1000 gallons
of wastewater
flow
(P.C.
#22
at 40).
For three
different chlorination situations these are:
Plant Capacity
(inyd)
0.1
1.0
10.0
100.0
No Disinfection
$0.00
$0.00
$0.00
$0.00
Six—Month Disinfection
$0.29
$0.07
$0.03
$0.02
Year—Round Disinfection
$0.34
$0.09
$0.03
$0.02
The second principal economic benefit
to be expected as
a
consequence
of
a reduction
in chlorination consists of
improvement
in the aquatic environment.
Unfortunately,
this is
a
historically difficult benefit
to quantify.
One of the methods
which has been used is estimation
of the increase in angling days
occasioned
by
increased fish populations.
This was estimated
in
the R77—l2D EcIS under
the condition
of elimination of all
disinfection.
The magnitude
of the benefit under
the current
proposal
is not likely to be accurately estimated by halving the
R77—l2D figure
of $2.0 to $4.4 million per annum.
Nevertheless,
the determination that seasonal chlorination would contribute
to
the health of
the aquatic community implies
that some benefit
in
angling potential could be expected
to accrue.
The only cost associated with chlorination cessation as
determined
in the R77—12D EcIS was
a small increased risk of
viral disease.
For
a proposal which included protection of
downstream water supplies and recreational areas,
as does
today’s
proposal, the estimated annual cost was $11
to $1200
(Ex.
21,
p.
169).
The AWDT Study concludes that
a reduction in required
chlorination might produce
a greater increase
in the incidence of
gastrointestinal
illness among swimmers than was found
in the
R77—12D EcIS
(P.C.
#22 at 53);
the principal increase
is
associated with swimming during April and November.
However,
this conclusion is challenged by MSDGC
(P.C. #23 at 2—3) and the
Agency
(P.C.
*27 at
2) on the basis of use of
a questionable
model and questionable input data.
The AWDT Study itself
cautions that the model developed therein “is subject to
considerable uncertainty”
(AWDT Study at 51).
The MSDGC contends
that the uncertainties are so large
“that the predictions derived
from the model cannot be meaningful”
(P.C.
#23 at
2).
The Agency
further contends that the contact recreational use rates employed
in the model
“seem far too high” and that the use rates “suggest
bathing beaches”
(P.C.
27 at
2).
The Agency continues with the
observation that “it
would
be highly improbable
to find total
immersion anywhere during April and November”
(Id.)
as postulated
in the AWDT model.
The Board notes that much of the question
of
90—649
—16—
the validity of
the AWDT Study’s estimates
of gastrointestinal
illness becomes
irrelevant if,
as
is the case here, reduction in
chlorination
is only permitted upon demonstration that no
significant primary contact use
(swimming included) occurs.
The additional
issue of whether
the amendments would cause
water treatment plants operating downstream
of sewage treatment
plant effluents
to incur increased costs
in chlorinating their
finished water was addressed at hearing.
Dr. Lue—Hing
of the
MSDGC testified that such would
not be expected
to occur,
as
the
processes used prior
to chlorination in the water
treatment
process are effective
in removing particulate material,
including
bacteria.
Therefore,
Dr. Lue—Hing concluded that water treatment
plants would not have
to use additional chlorine during
their
treatment operations as
a result of the proposed regulations.
This issue also becomes
irrelevant
if,
as
is the case here,
upstream effluent dischargers who significantly impact downstream
water supplies are required to maintain continuous chlorination.
CONCLUSIONS
The arguments presented
in favor
of
a reduction in
chlorination, where such can be accomplished without impacting
human health, are similar
to
those presented
to the Board
in R77—
l2D.
The Board
found these arguments compelling
in R77—l2D, and
does so again here.
If
anything,
the passage
of time since
the
Board’s action
in R77—l2D has provided even more compelling
reason to conclude that chlorination as a disinfection process
causes significant environmental damage.
The higher courts found
in R77—12D,
among other matters,
that the Board went too far
in repealing the need
to disinfect in
all circumstances.
In particular,
the higher courts found that
a
bacterial standard,
and thereby disinfection, must remain when
there
is reasonable prospect that there will be primary human
contact with the waters
in question;
under
this circumstance,
the
concern for human healthoutweighs the negative aspects of
chlorination.
The Board believes that the present amendments cute this
aspect
of the higher courts’
concern.
Under the adopted
rule the
present fecal coliform water quality standard would
be retained
for all protected general
use waters during that time
of year
when primary contact can be expected to occur.
Protected waters
are not only those which “presently support or have the physical
characteristics to support primary contact recreation”
(302202(a)(l)),
but also those which otherwise “flow through or
adjacent to parks
or residential areas”
(302.202(a)(2)).
A
protected water
is thus more encompassing than the primary
contact waters.
90—651)
—17—
The rationale
for extending the protection afforded
by
a
fecal
coliform standard to streams which flow through
or adjacent
to parks or
residential areas is succinctly expressed by the
Agency:
Year—round relief
from
disinfection) would not be
allowed in streams
that flow through residential
neighborhoods and certain recreational areas.
These
streams may
often invite public contact simply due
to
their
accessible locations without regard
to their
suitability
for primary contact recreation.
Streams
in such locations would be treated as
if primary
contact were possible.
P.C.
#27 at
3.
During
the remaining six months, when human contact
is
expected
to be minimal
or non—existent,
the prime concern would
shift
to addressing
the damaging aspects of chlorination.
The
Board also believes that this perspective
is consistent with the
holding
of the higher courts which upheld the Board’~repeal of
the fecal coliform standard for secondary use waters
The most common objection to earlier efforts
to limit
chlorination was failure
to fully weigh the
impact
of
nondisinfection on downstream water withdrawal uses, particularly
withdrawal
for human consumption.
This
is
a concern that the
Board
itself
has shared throughout both the R77—12D and current
proceedings.
In R77—l2D the Board attempted
to address this
issue by
requiring continuous chlorination at all facilities
located within twenty—miles upstream of
a public water supply
intake.
However,
the higher courts
reversed the Board on this
issue,
finding that the twenty—mile
limit was arbitrary and
capricious since
it was incorporated without any scientific
justification.
Today’s amendments incorporate an alternative remedy, which
consists of maintaining an ambient water quality standard
for
fecal coliform at sites where water
is withdrawn for public and
food processing water supply,
as set forth
in proposed Section
302.306.
The Board believes that this element of the proposal
addresses the concern for downstream public water supplies
expressed in the R77—12D and current records,
and also addresses
the concern expressed by the higher courts.
15 Secondary contact
is defined
in
35
Ill.
Adm. Code 301.380 as
“Any recreational
or other water use
in
which
contact
with
the
water
is either
incidental
or accidental and
in which the
probability of ingesting appreciable quantities of water
is
minimal, such
as fishing, commercial and recreational boating and
any limited contact incident
to shoreline activity.”
90—651
—18—
Under
existing regulations,
the raw water used by public and
food processing water
suppliers is subject
to the 200/100 ml
fecal coliform limit on
a year—round basis.
The limit exists
because,
pursuant
to Section 302.301, Public and Food Processing
Water
Supply Standards are cumulative with General Use
Standards.
That
is,
the General Use Standards
apply,
in addition
to the Public and Food Processing Water Supply Standards,
at
all
points where water
is withdrawn for public and food processing
supply purposes.
Under
the adopted
rule,
absent Section 302.306, there would
be
no fecal coliform standard during November
through April
at
points
of water withdrawal
for public and food processing supply
purposes.
The inclusion of Section 302.306 rectifies this matter
by retaining the essential status quo of
a fecal coliform
standard at such points.
The Board believes that retention of
a fecal coliform
standard applicable at points of water withdrawal
for public and
food processing supply addresses much of the concern which has
been expressed,
and which
the Board has shared,
about curtailment
of disinfection.
With the inclusion of Section 302.306, upstream
facilities would
not be permitted
to discontinue disinfection
if
failure
to disinfect caused
the water
at
a downstream withdrawal
point
to exceed
the 2000 per 100 ml
standard.
Although the
number
of
thusly affected effluent dischargers
is expected
to
be
small
(R.
at 189), and the expected human health gain has not
been demonstrated
to be large,
the Board nonetheless believes
that
the substantial expression of concern in this area warrants
prudence at this
time.
Section 302.306 includes the 2000 per 100 ml standard rather
than
the 200/100 ml standard which currently exists
in the
General Use Standards.
The latter number
is inappropriate
because
it is based on protection of
human contact and
recreational uses, which
are not
at issue here.
The selection
of
2000 per 100 ml
is based on the same rationale employed
in the
promulgation of
35 Ill.
Adrn.
Code 604.501(c), which
sets raw
water quality standards for Public Water Supplies.
That
rationale is that 2000 per
100 ml
is “determined
as
a level
required to yield
a safe supply
after
normal treatment”
(In the
Matter
of Public Water Supplies,
R73—13,
15 PCB 103,
146, January
3,
1975).
The Board
is well cognizant of the equation
of disinfection
with chlorination which has permeated both this and
the R77—12D
proceeding.
The Board
is also cognizant
of the prospect that
disinfection might be achievable by means other than
chlorination,
as
is clearly recognized in the AWDT study and has
been pointed out by the AG
(P.C.
#11).
The Board
in fact
strongly encourages STW operators and
their
associations to
continue
to actively explore disinfection alternatives.
It
is
90—652
—19—
only when chlorination
is completely replaced
by an
environmentally—sound alternative that the full “chlorination
problem” will have been addressed.
However,
given
the present
de
facto synonymity
of chlorination with disinfection,
the Board
must now address
“the chlorination problem”
by those means
at
hand and
to the degree that technology and economics allow.
Having recognized
the egregious nature of chlorination,
the Board
would be remiss
if
it failed
to do otherwise.
CHANGES FROM FIRST AND SECOND NOTICE
The proposal which
the Board today adopts
is unchanged
in
substance and intent from that proposed at first notice.
However,
at first notice
there were several nonsubstantive
language changes
intended to provide greater clarity to the rule,
as well
as other nonsubstantive language changes
in response
to
JCAR recommendations
at second notice.
The first change consists of
the rewording of Subsection
304.121(b).
At first notice this section read:
b)
The Agency shall exempt
a discharger
from this
standard only in accordance with the protection
status of waters pursuant to Section 302.209.
1)
The discharger must provide documentation
to
show that:
A)
The receiving stream does not meet
the
definition of
a protected water
(Section
302.209),
B)
The discharge will not cause downstream
protected waters
to exceed water
quality standards.
2)
Exemptions
to the standards may be issued on
a year—round or seasonal basis.
As adopted by the Board for
the purposes of second notice,
this subsection included changes proposed by the Agency
in public
comment #29 and read:
b)
The Agency shall exempt
a discharger from this
standard only in accordance with the requirements
of
Sections 302.209 and 302.306.
1)
The discharger must demonstrate and document
the following:
90—653
—20--
A)
The character of
the receiving waters
pursuant
to Sections 302.202, 302.209,
and 302.306.
B)
The discharge will not cause downstream
waters
to exceed the applicable fecal
coliforrn water quality standards.
2)
The Agency shall grant exemptions
to the
standards
on
a year—round or seasonal
basis
consistent with
the documentation provided
by the discharger.
In support
of the
these changes the Agency commented:
1.
Section
304.121(b):
The amendment
substitutes
reference to “the requirements
of Sections 302.209 and 302.306”
for “the
protection status
of waters”
to eliminate
possible confusion that
the scope of the
exemption process
is limited
to “protected
waters”
of Section 302.209(a).
The addition
of
the reference to Section
302.306 makes
explicit the Agency’s intention
to provide
protection for public and food processing
water
supplies under this proposed exemption
proceeding.
2.
Section 304.l21(b)(1):
Amendments were made
to stress
the demonstration and
documentation requirements
of
the discharger
and
to modify the language to ensure
grammatical consistency with
the changes
below.
3.
Section 304.12l(b)(l)(A):
The Agency has by
this amendment eliminated
the inference that
all protected waters would be required
to
meet the year—round fecal coliform effluent
limitation of Section 304.121(a),
notwithstanding
the demonstration that the
discharger
is entitled
to seasonal
disinfection.
In addition,
the Agency has
changed
the reference of
“stream”
to
“waters”
to broaden
the scope
of downstram
bodies
to lakes and other
surface waters and
has delineated
the means and methods for
evaluating receiving streams by the addition
of Sections 302.202 and 302.306 water
quality and specific use criteria.
90—654
—21—
4.
Section 304.l21(b)(l)(B):
The reference to
“protected”
has been eliminated
to avoid
the
confusion that
this proceeding
is restricted
to “protected water” requirements of Section
302.209(a).
In addition,
the Agency has
included
“fecaj. coliform”
to the water
quality standard reference
to ensure that
the focus
of
this exception proceeding will
be on the applicable
fecal coliform water
quality standard of Subtitle C.
5.
Section 304.l2l(b)(2):
This subparagraph
has been amended
to make explicit the nature
of the Board directive of administrative
responsibilities
to the Agency.
During second notice,
JCAR recommended
further changes
to
Section 304.121
and other sections
in
this rulemaking.
For
Sections 302.209(b)
and 302.121(b), JCAR desires
that the
language parallel and refer
to the NPDES Permit Program of
35
Ill. Adm Code
309,
Subpart
A,
which the Agency will utilize
in
administering the exemption process.
To implement these
suggestions, JCAR requests that the Board insert a reference
to
the NPDES Permit Program with citation
to
35 Ill. Mm.
Code
309,
Subpart
A
in Subsection
302.209(b)
and
to insert
that same
citation
in 304.121(b);
and further
to substitute
“alternative
effluent standard process” for “exemption process”
in Subsections
304.121(b)
and
(B)(2).
These changes were also made
in order
to
clarify
that the Agency
is required to apply
the applicable
fecal
coliform water quality standards and effluent limitations as part
of the NPDES Permit Program.
The discharger has the obligation
of providing information required by Section 304.121(b)
to the
Agency which will
then determine
the appropriate
fecal coliform
water quality standards and effluent limitations.
This permit
determination
is reviewable pursuant
to Section 40 of the Act and
35 Ill. Adm. Code,
Part 105.
The Board accepts these recommended
changes,
such
that Sections 302.209(b)
and 304.121 now read:
Section 302.209
Fecal Coliform
*
*
*
*
b)
Waters unsuited
to support primary contact uses
because of physical, hydrologic
or geographic
configuration and are located
in areas unlikely
to be frequented
by the public on a
routine basis
as determined by the Agency at 35
Ill.
Adm. Code
309.Subpart A,
are exempt from this standard.
90—655
—22—
Section 304.121
Bacteria
a)
Effluents discharged
to all general use waters
shall not exceed 400 fecal coliforms per 100 ml
unless
the Illinois Enviromental Protection
Agency determines that
an alternative effluent
standard
is applicable pursuant
to
subsection
(b).
b)
The Agency shall,
as part of
the NPDES Permit
Program under
35 Iii. Mm.
Code 309.Subpart A,
determine
the applicable standard only
in
accordance with the requirements
of
Sections
302.209
and 302.306.
1)
The discharger must demonstrate
and document
the following:
A)
The character
of the receiving waters
pursuant
to Sections 302.202,
302.209,
and 302.306.
B)
The discharge
will not cause downstream
waters
to exceed the applicable
fecal
coliform water quality standards
pursuant to Sections 302.209 and
302. 306.
2)
Alternate effluent standards consistent with
Sections 302.209 and 302.306 shall
be
applied on either a year—round
or seasonal
basis consistent with the documentation
provided by the discharger.
JCAR further requests that the Board insert the full name
of
the Agency
in Subsection 304.121(a),
and
in Subsection
304.l2l(b)(l)(B)
insert
a citation
to Sections 302.209 and
302.306 to clarify
the reference
to the applicable
fecal coliform
standards contained therein.
JCAR also suggests the addition of
a new Subsection 302.209(c)
to further
clarify the Agency’s
role
as indicated
in Section 304.121.
The Board accepts each
of these
suggestions,
with the new subsection
reading:
c)
The Agency shall apply this rule pursuant
to
35
Ill.
Adm.
Code 304.121.
The full text of
the amendments as adopted
today by the
Board
is contained
in the Board Order below.
90—656
—23—
ORDER
The Clerk
of the Pollution Control Board is directed
to
submit the following adopted
rule
to the Secretary
of State
for
final notice:
PART
302
Water Quality Standards
Subpart
B:
General Use Water Quality Standards
Section 302.202
Purpose
The general
use standards will protect the State’s water
for
aquatic
life, wildlife,
agricultural
use, p~r~ta~y
~rt~
secondary
contact use and most industrial
uses and ensure
the aesthetic
quality
of the State’s aquatic environment.
Primary contact uses
are protected
for all general
use waters whose physical
configuration permits such
use.
Section 302.209
Fecal Coliform
During the months May through October,
Bbased on a
minimum of five samples
taken over not more than a
30
day period,
fecal coliform
(STORET number 31616)
shall
not exceed
a geometric mean
of 200 per 100 ml, nor shall
more than 10
of the samples
during any
30 day period
exceed 400 per 100 m1~-in protected waters.
Protected
waters are defined as waters which,
due to natural
characteristics,
aesthetic value or environmental
significance are deserving of protection
from pathogenic
organisms.
Protected waters will meet one or both of
the following conditions:
1)
presently support or have
the physical
characteristics
to support primary contact;
2)
flow through or adjacent
to parks or
residential
areas.
Waters unsuited
to support primary contact uses because
of physical, hydrologic
or geographic configuration and
are located
in areas unlikely
to be frequented
by the
public on
a routine basis as determined by the Agency at
35
Ill.
Adm.
Code 309.Subpart A,
are exempt from this
standard.
c)
The Agency shall apply
this rule pursuant
to
35
Ill.
Adm.
Code 304.121.
a)
b)
90—657
—24—
SUBPART
C:
PUBLIC AND FOOD PROCESSING WATER
SUPPLY STANDARDS
Section 302.306
Fecal Coliform
Notwithstanding
the provisions
of Section 302.209,
at no
time shall the geometric
mean,
based
on
a minimum
of five
samples
taken over not more than
a
30 day period,
of
fecal
coliform
(STORET number 31616)
exceed 2000 per
100 ml.
PART 304
EFFLUENT STANDARDS
SUBPART
A:
GENERAL EFFLUENT STANDARDS
Section 304.121
Bacteria
No e~e~
~e~e~te&
by ~
Paf~w~4e~
~ebat~ge5 ~o
gener-a3~
~se
wa~e~sba~
e~eeed
409
~eeo3~
eo4~o~rn pe~ ~1O0nt1~
a)
Effluents discharged
to all general use waters shall not
exceed
400 fecal
coliforms per 100 ml
unless the
Illinois Enviromental
Protection Agency determines
that
an alternative effluent standard
is applicable pursuant
to subsection
(b).
b)
The Agency shall,
as part
of
the NPDES Permit Program
under
35
Ill.
Adm.
Code 309.Subpart
A, determine
the
appilicable standard only
in accordance with the
requirements
of Sections 302.209 and 302.306.
1)
The discharger must demonstrate and document the
following:
A)
The character
of the receiving waters pursuant
to Sections 302.202,
302.209,
and 302.306.
B)
The discharge
will
not cause downstream waters
to exceed
the applicable
fecal
coliform water
quality standards pursuant
to Sections 302.209
and 302.306.
2)
Alternate effluent standards consistent with
Sections 302.209 and 302.306 shall
be applied
on
either
a year—round or
seasonal basis consistent
with the documentation provided
by the discharger.
IT
IS SO ORDERED.
Chairman Jacob D.
Dumelle concurred.
90—658
—25--
I,
Dorothy
M.
Gunn,
Clerk of
the Illinois Pollution Control
Board, hereby certify that the
bove Opinion and Order was
adopted on the .‘t-~day of
_______________,
1988,
by
a vote
of
7-c.
Dorothy
M./2tunn, Clerk
Illinois Vollution Control Board
90—659
