Racine Wastewater Utility - Racine, Wisconsin · Racine Wastewater Utility Lift Stations LS #1 (780...
Transcript of Racine Wastewater Utility - Racine, Wisconsin · Racine Wastewater Utility Lift Stations LS #1 (780...
2015Annual Report
Racine Wastewater Utility
2015
Racine Wastewater Utility
Annual Report
Board of Wastewater Commissioners (2016)
Mayor John Dickert
Alderman Terry McCarthy
Alderman James Morgenroth
Anthony Beyer
Thomas Bunker
Kathleen DeMatthew
Gerald Garski
Robert Lui
Joseph Mandala
Dr. Ralph Schwartz
James Spangenberg
Chris Wright
Thomas Friedel (Alternate)
Jayme Hoffman (Alternate)
Howard Stacey (Alternate)
Keith E. Haas ............................... General Manager
Michael L. Gitter .......................... Chief of Operations
Kenneth M. Scolaro ...................... Administrative Manager
Mary-Frances T. Klimek ............. Superintendent
TABLE OF CONTENTS
LETTER OF TRANSMITTAL ......................................................................................................................... 1
ORGANIZATIONAL CHART ........................................................................................................................ 2
ADMINISTRATION & STAFF ............................................................................................................................... 3
EMPLOYEES & CLASSIFICATIONS .............................................................................................................. 4
SERVICE AREA .......................................................................................................................................... 6
SEWER SERVICE AREA MAP .............................................................................................................................. 8 LIFT STATIONS ................................................................................................................................................ 9 SERVICE AREA FLOW ..................................................................................................................................... 10 SUBURBAN COMMUNITIES QUARTERLY FLOWS................................................................................................... 11 PLANT CAPACITY ALLOCATIONS PER SEWER SERVICE AGREEMENT .......................................................................... 12
COMPLIANCE MAINTENANCE ANNUAL REPORT (CMAR)........................................................................ 14
CAPACITY MANAGEMENT, OPERATIONS, AND MAINTENANCE (CMOM) ............................................... 20
PLANT PROCESS & EQUIPMENT ............................................................................................................. 26
DESCRIPTION OF PLANT PROCESS & EQUIPMENT ................................................................................................ 28 FLOW MONITORING & SAMPLING SCHEMATIC ................................................................................................... 35 SITE PLAN WITH BUILDING NUMBERS ............................................................................................................... 36 BIOSOLIDS MANAGEMENT PROGRAM ............................................................................................................... 37
WASTEWATER OPERATIONS .................................................................................................................. 38
FLOW & PRECIPITATION TRENDS ..................................................................................................................... 40 ANNUAL TRUE–UP RESULTS ........................................................................................................................... 42 FLOW & PRECIPITATION ................................................................................................................................. 44 BOD – TSS – PHOSPHORUS ........................................................................................................................... 45 LOADING CHARACTERISTICS ............................................................................................................................ 46 INFLUENT & EFFLUENT METALS SUMMARY ........................................................................................................ 47 PRIMARY & DIGESTED BIOSOLIDS .................................................................................................................... 48 DIGESTER OPERATIONS .................................................................................................................................. 49 BELT FILTER PRESS SUMMARY ......................................................................................................................... 50 GRAVITY BELT THICKENER SUMMARY ............................................................................................................... 51 BIOSOLIDS METALS ANALYSIS.......................................................................................................................... 52 SECONDARY TREATMENT DATA ....................................................................................................................... 53 EFFLUENT AMMONIA SUMMARY ..................................................................................................................... 54 FERRIC CHLORIDE SUMMARY .......................................................................................................................... 55 SODIUM HYPOCHLORITE SUMMARY ................................................................................................................. 56 SODIUM BISULFITE SUMMARY ......................................................................................................................... 57 LIQUID WASTE HAULERS SUMMARY ................................................................................................................. 58 INDUSTRIAL FLOW AND LOADINGS ................................................................................................................... 59
MAINTENANCE & ENERGY ..................................................................................................................... 60
ENERGY INDEPENDENCE WITH BIOGAS .............................................................................................................. 62 WATER & ENERGY CONSUMPTION – PRODUCED ENERGY VS. TOTAL ENERGY USED .................................................. 63 PLANT ENERGY CONSUMPTION & COST ............................................................................................................ 64 ENERGY EFFICIENCY UPGRADES - LED SAVINGS .................................................................................................. 65
LABORATORY & INDUSTRIAL PRETREATMENT ....................................................................................... 66
LABORATORY SERVICES .................................................................................................................................. 68 INDUSTRIAL PRETREATMENT PROGRAM SUMMARY ............................................................................................. 69 PERMITTED INDUSTRIAL USERS ........................................................................................................................ 71 SUMMARY OF TREATMENT PLANT MERCURY DATA ............................................................................................. 72 MERCURY MINIMIZATION PROGRAM ............................................................................................................... 73 2015 COMMUNITY MERCURY PMP SCORE ...................................................................................................... 74
COLLECTION SYSTEM / LIFT STATIONS ................................................................................................... 76
COLLECTION SYSTEM AND LIFT STATIONS - 2015 ................................................................................................ 78 LIFT STATION FLOW SUMMARIES ..................................................................................................................... 84 LIFT STATION EQUIPMENT & CAPACITY SUMMARY .............................................................................................. 92 COLLECTION SYSTEM STORAGE & CAPACITY SUMMARY ....................................................................................... 93
HOUSEHOLD HAZARDOUS WASTE PROGRAM ........................................................................................ 94
WISCONSIN SUMMARY SHEET ......................................................................................................................... 96 2015 HHW PARTICIPATION BY COMMUNITY .................................................................................................... 97
APPENDIX A ........................................................................................................................................... 98
2015 WASTEWATER UTILITY BUDGET ............................................................................................................ 100 2015 OPERATION & MAINTENANCE BUDGET .................................................................................................. 101 CAPITAL IMPROVEMENT PROGRAM 2015 - 2019 ............................................................................................ 103 CLASS I WASTEWATER RATES ........................................................................................................................ 104 CLASS II WASTEWATER RATES ....................................................................................................................... 105 WASTEWATER VEHICLES .............................................................................................................................. 106
Sunrise at the Plant
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Letter of Transmittal
Racine Water and Wastewater Utilities Keith E. Haas, P.E. General Manager
Michael L. Gitter, P.E. Chief of Operations
Kenneth M. Scolaro, C.P.A. Administrative Manager
Chad W. Regalia, P.E. Chief Engineer
City of Racine, Wisconsin
July 26, 2016
TO: Keith E. Haas, General Manager,
Racine Wastewater Utility Commissioners
Submitted herewith is a detailed annual report of the Wastewater Treatment Plant and System for the
year 2015.
Respectfully submitted,
___________________________________ ___________________________________
Michael L. Gitter Mary-Frances T. Klimek
Chief of Operations Superintendent
___________________________________ ___________________________________
Kenneth M. Scolaro Nora S. Erlandson
Administrative Manager Laboratory Director
___________________________________ ___________________________________
Allan D. Wheeler Bruce J. Bartel
Field Supervisor Maintenance Supervisor
___________________________________ _________________________________
Catherine A. Adamczyk Robert R. Gilbreath
Operations Supervisor Computer & Control Systems Supervisor
800 Center Street, Room 227 Racine, Wisconsin 53403 262-636-9181 (Phone) 262-636-3933 (Fax)
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Organizational Chart
Racin
e W
aste
wate
r U
tili
ty
Tab
le o
f O
rgan
izati
on
2015
Racin
e W
aste
wate
r C
om
mis
sio
n
Ke
ith
E. H
aas
Ge
ne
ral M
an
ag
er
Mic
hae
l L
. G
itte
rC
hie
f o
f O
pe
rati
on
s
Mary
-Fra
nces T
. K
limek
Su
pe
rin
ten
de
nt
Kenneth
M.
Scola
ro
Ad
min
istr
ati
ve M
an
ag
er
Na
ncy S
anders
Ex
ec
uti
ve
Se
cre
tary
Cath
erine A
dam
czy
k
Op
era
tio
ns
Bru
ce B
art
el
Main
ten
an
ce
Robert
Gilb
reath
Co
mp
ute
r &
Co
ntr
ol
Syste
ms
Alla
n W
heele
r
Fie
ld O
pera
tio
ns
Nora
Erlandson
Lab
/Pre
treatm
en
t
Ad
min
istr
ati
ve C
lerk
Sherr
i R
uud
Ro
tati
ng
Sh
ift
Op
era
tors
Pete
r C
arlson
Pale
rmo G
alin
do
Em
ilio G
onzale
z
Tra
vis
Gonzale
z
Barr
y H
enkel
Dan M
ason
Luis
Padill
a
Mark
Salin
as
Walter
Spurlock
Sebastian S
tephens
Mech
an
ics
Doug B
ohl
Larr
y E
dm
onsto
n
Gle
nn H
ansen
Mark
Knuth
Wayne R
aff
els
on
Bld
g. &
Gro
un
ds
Main
ten
an
ce
Kevin
Ste
phens
Jacob T
om
psett
Ele
ctr
icia
n
Ed E
mm
erlin
g
Sto
ckro
om
/Bu
yer
Ed M
uniz
Lab
Ch
em
ists
Bobbi K
ram
er
Jam
ie M
uniz
Jan O
rth
Lab
Tech
nic
ian
Eric K
am
ps
Pre
treatm
en
t
Insp
ecto
r
Am
anda W
ieser
Veh
icle
Main
ten
an
ce
Mark
Gable
Lif
t S
tati
on
Mech
an
ic
H. D
avid
Sm
ith
Flo
ate
r M
ech
an
ic
Lee L
edeker
Ind
ustr
ial S
am
pli
ng
David
Mote
n
Terr
y T
ighe
Sew
er
Main
ten
an
ce
Keith M
essers
chm
idt
Ow
en V
an S
wol
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Administration & Staff ADMINISTRATION
Keith E. Haas, P.E., General Manager of the Racine Water & Wastewater Utility. Mr. Haas joined the
Utility August 2000. Mr. Haas has oversight of all functions at the Racine Water and Wastewater
Utilities.
Michael L. Gitter, P.E., Chief of Operations. Mr. Gitter was hired in April 2007. He is responsible for
all operations of the Water and Wastewater Utilities and reports directly to the General Manager.
Kenneth M Scolaro, CPA, Administrative Manager. Mr. Scolaro joined the Utility in January 1996 as
the Assistant Administrative Manager, and was promoted to Administrative Manager in April 1998.
Mr. Scolaro is responsible for the administration of financial, clerical, and customer service functions
under the direction of the General Manager.
Nancy Sanders, Executive Secretary for the Wastewater Utility Managers at the main office in the City
Hall Annex.
RACINE WASTEWATER TREATMENT PLANT STAFF
Mary-Frances T. Klimek, Superintendent. Ms. Klimek was named Superintendent effective
January 12, 2015. Between 2005 and 2015, she was the Operations Supervisor. Ms. Klimek is
responsible for the supervision of all functions of the Treatment Plant. She has been employed with the
Utility since 1990.
Nora S. Erlandson, Laboratory Director/Industrial Pretreatment Coordinator. Ms. Erlandson is
responsible for all laboratory services and industrial monitoring of local industries. She has been with
the Utility since 1979. In August 1995, Ms. Erlandson was appointed as Laboratory Director/Industrial
Pretreatment Coordinator.
Allan Wheeler, Field Operations Supervisor. Mr. Wheeler is responsible for the operation and
maintenance of 14 lift stations, directing the collection system cleaning program and working in
conjunction with the Lab Director to execute the Industrial Pretreatment Program. He has been
employed with the Utility since 1978 and was appointed Field Operations Supervisor in March 2006.
Bruce J. Bartel, Maintenance Supervisor. Mr. Bartel is responsible for all mechanical and grounds
maintenance at the Treatment Plant. He has been employed with the Utility since 2006 and was
appointed Maintenance Supervisor in June 2011.
Catherine A. Adamczyk, Operations Supervisor. Ms. Adamczyk is responsible for process control and
shift operations including solids handling at the Treatment Plant. Ms. Adamczyk has been employed
with the Utility since 2002 and was appointed Operations Supervisor in March 2015.
Robert Gilbreath, Computer and Control Systems Supervisor. Mr. Gilbreath is responsible for the
operation and maintenance of all computers, electronic monitoring systems and equipment. He has been
employed with the Utility since 1999.
Sherri Ruud, Administrative Clerk. Ms. Ruud is responsible for complex and confidential
administrative services including purchasing and other financial related duties. She has been with the
Utility since 2011.
4
Employees & Classifications EMPLOYEES & CLASSIFICATIONS
First Name Last Name Classification WW Date
# of Yrs
Hire Date
Douglas Bohl Mechanic IV 3/17/2008 8
Peter Carlson Operator I 11/21/2012 3
Larry Edmonston Mechanic III 7/16/2007 8
Ed Emmerling Electrician Local #430 8/30/2011 4
Mark Gable Garage Mechanic IV 2/25/2008 8
Palermo Galindo Operator I 5/27/2015 1
Emilio Gonzalez Operator I 11/30/2009 6
Travis Gonzalez Operator I 8/17/2015 0
Glenn Hansen Mechanic III 2/25/2002 14
Barry Henkel Operator IV 4/15/1991 25
Eric Kamps Laboratory Technician I 4/29/2013 3
Mark Knuth Mechanic III 4/16/2012 4
Bobbi Kramer Lab Chemist 5/30/2006 20
Lee Ledeker Floater Mechanic I 5/8/2006 10
Daniel Mason Operator III 11/21/2011 4
Keith Messerschmidt Sewer Maintenance III 3/16/1987 29
David Moten Sample Crew III 4/8/2009 7
Edward Muniz Mechanic II 2/27/1984 32
Jamie Muniz Lab Chemist 8/29/2008 7
Janet Orth Lab Chemist 5/30/2006 32
Luis Padilla Operator I 1/7/2013 3
Wayne Raffelson Mechanic IV 5/3/2004 12
Mark Salinas Operator IV 5/10/1999 17
H. David Smith Lift Station Mechanic IV 4/11/2005 11
Walter Spurlock Operator IV 12/18/2000 15
Kevin Stephens Bldg & Gr Maint II 8/13/2012 3
Sebastian Stephens Operator I 7/11/2005 10
Terry Tighe Sample Crew III 10/24/1994 21
Jacob Tompsett Bldg & Gr Maint 2/9/2015 1
Owen Van Swol Sewer Maintenance III 11/3/2003 12
Amanda Wieser Pre-Treatment Inspector I 2/7/2011 5
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Final Flow Meter
6
Service Area
Service Area
Racine
Mt. Pleasant
Caledonia
Sturtevant
Elmwood Park
North Bay
Wind Point
Town of Somers KR Utility District
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8
Sewer Service Area Map
9
Lift Stations
Racine Wastewater Utility Lift Stations
LS #1 (780 Washington Ave.-
Behind City Hall)
LS #6 (3236 Drexel Ave)
LS #11 (2750 Old Mill Rd-
Across from Horlick Dam)
LS #2 (2022 Spring St. and Leudtke Ct)
LS #7 (45 Steeplechase Dr)
LS #12 (334 Parkview Dr)
LS #3 (1004Riverbrook Dr)
LS #8 (3625 Rapids Ct-Horlick Dam)
LS #13 (100 N Main St and Dodge St)
LS #4 (6-5th Street-Festival Hall)
LS #9 (3908 Francis Dr and
Harrington Dr)
LS #14 (3205 Michigan Blvd)
LS #5 (1530-13th St and Lockwood)
LS #10 (800 South Memorial Dr-
On the River)
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Service Area Flow (Approximate)
2015 2015 % Of
MG MGD Plant Flow
TREATMENT PLANT 6,708.930 18.381
LIFT STATION # 1 3,578.424 9.804 53.338
LIFT STATION # 2 152.495 0.418 2.273
LIFT STATION # 3 10.415 0.029 0.155
LIFT STATION # 4 2.705 0.007 0.040
LIFT STATION # 5 29.204 0.080 0.435
LIFT STATION # 6 67.938 0.186 1.013
LIFT STATION # 7 8.886 0.024 0.132
LIFT STATION # 8 123.294 0.338 1.838
LIFT STATION # 9 7.147 0.020 0.107
LIFT STATION # 10 65.627 0.180 0.978
LIFT STATION # 11 2.826 0.008 0.042
LIFT STATION # 12 1.991 0.005 0.030
LIFT STATION # 13 1.562 0.004 0.023
LIFT STATION # 14 4.133 0.011 0.062
MOUNT PLEASANT INTERCEPTOR:
INDUSTRIAL 169.181 0.464 2.522
RESIDENTIAL 1,298.376 3.557 19.353
OTHER INTERCEPTOR FLOW
RACINE 227.930 0.624 3.397
STURTEVANT 172.030 0.471 2.564
TOTAL INTERCEPTOR FLOW 1,867.517 5.116 27.836
NON-INTERCEPTOR:
MOUNT PLEASANT 480.285 1.316 7.159
RACINE 41.214 0.113 0.614
TOTAL NON-INTERCEPTOR FLOW 521.499 1.429 7.773
ELMWOOD PARK 1,132.316 3.102 16.878
NORTH BAY 5.684 0.016 0.085
CALEDONIA 13.184 0.036 0.197
RACINE SERVICE AREA FLOW CONTRIBUTIONS
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Suburban Communities Quarterly Flows
1ST 2ND 3RD 4TH MG Total
MOUNT PLEASANT
INTERCEPTOR FLOW
INDUSTRIAL 35.256 39.983 48.301 45.640 169.181
RESIDENTIAL 305.138 354.790 264.419 374.028 1,298.376
OTHER INTERCEPTOR FLOW
RACINE 53.867 62.294 47.215 64.554 227.930
STURTEVANT 36.730 53.400 31.090 50.810 172.030
NON-INTERCEPTOR
MT. PLEASANT 118.852 155.253 69.478 136.702 480.285
RACINE 9.742 13.235 6.632 11.605 41.214
CALEDONIA 269.244 354.325 219.889 288.858 1,132.316
NORTH BAY 1.448 1.514 1.396 1.326 5.684
ELMWOOD PARK 3.462 3.226 3.278 3.218 13.184
TOTAL 833.740 1,038.021 691.699 976.741 3,540.201
2015 Quarterly Wastewater Flows
1,982
1,4751,529
1,962
1,620
1,781 1,784
1,9341,980
1,622
1,901
1,666
2,1462,068
1,948
269 224 193 231174
222 237 247189
150 185125
191 186 172
1,411
1,135
1,006
1,300
1,088
1,331 1,3301,374
1,432
1,281 1,258
1,016
1,349
1,1971,132
0
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1,000
1,500
2,000
2,500
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Community Total Flow by Year
Mt Pleasant Sturtevant Caledonia
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Racine Wastewater Treatment Plant Original Construction
Aerial View of Racine Wastewater Treatment Plant 1960’s
Present Day Aerial View of Racine Wastewater Treatment Plant
14
Compliance Maintenance Annual Report (CMAR)
Compliance Maintenance
Annual Report
Influent Flow and Loadings
Effluent Quality
BOD, TSS, Phosphorus, Ammonia
Biosolids Management
Staffing
Operator Certification
Financial Management
Collection Systems
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Primary Clarifiers
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2015 Compliance Maintenance Annual Report – (CMAR)
The Compliance Maintenance Annual Report (CMAR) has been an annual self-evaluation-reporting
requirement for publicly owned wastewater treatment plants since 1987. The CMAR program was
revised in 1992, in 2005, and in 2014. Annual submittal of an electronic CMAR form no later than
August 31st for 2015 is required under Wisconsin Administrative Code NR 208 – Compliance
Maintenance.
The purpose of the CMAR is to evaluate the wastewater treatment system for problems or
deficiencies. Management, operation and maintenance activities are described. Owners identify
proposed actions to prevent violations of WPDES permits and water quality degradation. The
CMAR program encourages actions that:
Promote the owners’ awareness and responsibility for wastewater conveyance and
treatment needs.
Maximize the useful life of wastewater treatment systems through improved operation &
maintenance.
Initiate formal planning, design and construction to prevent WPDES permit violations.
There are ten sections in the CMAR that apply to the Racine Wastewater Utility. Letter grades (A,
B, C, D, F) are assigned to each section denoting compliance and performance. Section grades of
C, D, and F require comments in the report. Section grades D & F require an action plan on the
part of the Utility to correct deficiencies. An overall grade point average less than 3.00 requires an
action response on the part of the Utility as well. The Utility’s overall grade point average was
4.0. The report submitted in 2016 is for calendar year 2015.
CMAR Section Summaries and Grades for 2015:
Influent Flow and Loadings: Grade A
This section looks at plant influent loadings and design parameters to determine adequate
plant capacity to treat incoming wastewater.
Effluent Quality BOD: Grade A
This section reviews plant performance and its ability to meet WPDES permit
requirements.
Effluent Quality TSS: Grade A
This section reviews plant performance and its ability to meet WPDES permit
requirements.
Effluent Quality Ammonia: Grade A
This section reviews plant performance and its ability to meet WPDES permit
requirements.
Effluent Quality Phosphorus: Grade A
This section reviews plant performance and its ability to meet WPDES permit
requirements.
Biosolids Quality and Management: Grade A
This section looks at biosolids use/disposal, land application sites, biosolids pollutants,
pathogen control, vector attraction reduction, and biosolids storage.
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Operator-In-Charge Certification and Education: Grade A
Verification is required to insure that the Operator-In-Charge is certified by the Department
of Natural Resources (NR 114) in all subclasses required for the Racine Wastewater
Treatment Plant. The Operator-In-Charge must be certified at the appropriate level to
operate this plant. It must also be stipulated that the Operator-In-Charge is maintaining
certification by earning the required continuing education credits.
Staffing and Preventative Maintenance: Grade A
This section looks at adequate staffing, recordkeeping, presence of a documented and
implemented preventative maintenance program, as well as a detailed operation and
maintenance manual.
Financial Management: Grade A
Are User Charges or other revenues sufficient to cover O & M expenses? When was the
User Charge System or other revenue sources last reviewed or revised? Is there a
segregated Equipment Replacement Fund? What are the additions or subtractions to the
fund? Future planning?
Sanitary Sewer Collection System: Grade A
Does the Utility have a Capacity, Management, Operation and Maintenance (CMOM)
requirement in our WPDES permit? Is there a documented CMOM program? The report
lists maintenance activities and amount maintained. These activities include:
Sewer cleaning
Flow monitoring
Televising
Lift station O & M
Manhole Inspection and Rehabilitations
The report also looks at performance indicators such as:
Number of sewer pipe failures
Basement backup occurrences
Lift station failures
Complaints
Sanitary sewer overflows
Peaking factor ratios
The collection system grade is highly influenced by the intensity of rainfall events. Many sewer
system overflows (SSO) in the past were the result of high intensity rain events which exceeded
collection system capacity. The Utility experienced no SSO’s in 2015
The Utility has constructed underground storage basins at Grove Avenue, Ohio Street and
Mt. Pleasant Street in the past decade. The Utility will continue its efforts to eliminate safety site
overflows in the collection system. Studies and investigations will continue to better document
events that occur to refine the engineered solution. The Utility will continue to utilize engineering
consultants to televise its collection system and perform lining and replacements. The Village of
Mt. Pleasant is working to reduce infiltration by replacing sewer laterals in their community. The
Village of Sturtevant is also identifying locations of I&I and addressing them. The Capital
Improvement Program will be prioritized to address the worst problem areas first to minimize
damage due to basement backups.
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Implementation Schedule
1. Approve the Storage Optimization Study.
2. Televise Utility-Owned Interceptor Sewers.
3. Televise the City-Owned Collection System.
4. Clean the City Sanitary Sewer Collection System on a 3 year schedule.
5. Begin project design and construction on additional storage basins.
Grease Ball Influent Channel After Heavy Rain
19
Fishing at the Wastewater Treatment Plant Outfall
Wastewater Plant Outfall
Whole Effluent Toxicity (WET) refers to the aggregate toxic effect to aquatic organisms from all pollutants
contained in a facility’s wastewater (effluent). WET tests measure wastewater’s effects on specific test organism’s
ability to survive, grow and reproduce.
RACINE WASTEWATER HAS NEVER FAILED A (WET) TEST!!!
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Capacity Management, Operations, and Maintenance (CMOM)
Capacity, Management,
Operations, and
Maintenance Program Audit
(CMOM)
21
Racine Wastewater Treatment Plant Looking North Along Lake Michigan
22
CAPACITY, MANAGEMENT, OPERATIONS, AND MAINTENANCE
PROGRAM AUDIT (CMOM) – 2015
The USEPA and WDNR proposed CMOM regulations define CMOM Program Audits as follows:
USEPA: If a Sanitary Sewer Overflow (SSO) that discharges to Waters of the United States occurs from
your collection system during the term of this permit, you must conduct an audit appropriate to the size of
the system and the number of overflows. A report of the audit shall be submitted evaluating your CMOM
and its compliance with this subsection, including its deficiencies and steps to respond to them.
WDNR: Annual Self-Auditing of your CMOM Program to ensure above components are being
implemented, evaluated, and re-prioritized as needed.
The Racine Wastewater Utility annually prepares and tracks various programs for interceptor and
collection system improvements, including system component replacement or upgrades. Goals are set for
long-term and short-term projects with an assessment made at year end to determine the Utility’s
performance in reaching the goals that are set. The Utility’s annual capital improvement plan, as well as
preventive maintenance programs, is included in defining the annual goals.
SANITARY SEWER OVERFLOWS
Number of Overflows
The Utility did not experience any overflows in 2015.
BASEMENT BACKUPS
Number of Backups by Type (owner or Utility responsibility)
The Utility responded to 132 calls in 2015. Two (2) of the calls were caused by sewer main plugs.
The Utility had no calls caused by surcharged sewer mains. The remaining one hundred thirty (130)
calls were lateral problems, which are the owner’s responsibility; they were not related to problems
with the sewer mains.
Utility Response
The Utility’s response is to react immediately to the call, evaluate the situation, and then rectify the
problem as quickly as possible.
MAINTENANCE
Sanitary Sewer Cleaning Quantity in Feet: 558,117 linear feet (41.50% of the system)
Root Cleaning Quantity: 44,614 linear feet (4.43% of the system)
Manholes
Number of Inspections: 983 (19.08% of the system)
These maintenance activities are performed by the Racine Wastewater Utility
In 2015, the Utility re-laid 1,774 linear feet of interceptor throughout the City at a cost of $676,319.75
The Wisconsin Department of Natural Resources requires the completion of an annual CMAR as part of
the Utility’s WPDES permit. CMOM program elements are addressed in the CMAR reporting to the
WDNR.
23
Annual Overflow Events and Quantities
Year Number of Overflows
Total Wet Weather Events
Quantity (MG)
Annual Rainfall (inches)
2000 20 6 8.673 47.95
2001 20 5 4.478 41.66
2002 1 1 0.496 32.87
2003 0 0 0 27.99
2004 9 4 1.724 41.39
2005 0 0 0 25.68
2006 8 3 1.091 37.73
2007 13 2 3.873 41.72
2008 16 3 11.475 42.49
2009 12 2 3.928 40.83
2010 0 0 0 33.55
2011 0 0 0 34.16
2012 0 0 0 24.96
2013 7 1 4.142 41.42
2014 6 1 2.173 36.41
2015 0 0 0 32.22
In the event of an overflow during the course of the year, the CMOM program audit is revised to address
issues related to the overflow and activities being undertaken. All activities that are being implemented
are documented in the audit and results assessed as to the elimination of the causes of overflows.
8.673
1.133 0.496 0
1.204
0 1.072
3.873
11.475
3.928
0 0 0
4.142
2.173
0 0
4
8
12
20
00
20
01
20
02
20
03
20
04
20
05
20
06
20
07
20
08
20
09
20
10
20
11
20
12
20
13
20
14
20
15
Qu
an
tity
(M
illio
n G
allo
ns
)
Year
Overflow Trend 2000 - 2015
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COMMUNICATIONS The USEPA and WDNR proposed CMOM regulations define communications as follows:
USEPA: The permittee should communicate on a regular basis with interested parties on the
implementation and performance of its CMOM program. The communication system should allow
interested parties to provide input to the permittee as the CMOM program is developed and implemented.
WDNR: Not addressed.
The Racine Wastewater Utility provides wastewater treatment for eight satellite communities as shown
below:
1. City of Racine
2. Village of Mt. Pleasant
3. Village of Caledonia
4. Village of Sturtevant
5. Village of Elmwood Park
6. Village of North Bay
7. Village of Wind Point
8. Town of Somers KR Utility District
The Racine Wastewater Utility, the City of Racine and above listed satellite communities established the
Racine Area Intergovernmental Sanitary Sewer Service, Revenue Sharing, Cooperation, and Settlement
Agreement. The Utility communicates on a regular basis with these communities in regards to system
capacity as well as infiltration and inflow reduction. In 2009, a Technical Advisory Committee made up
of the contributing communities met and formulated plans to address system deficiencies.
MONTHLY COMMISSION MEETINGS The Racine Wastewater Utility is governed by an eleven person Commission. Representatives include
the Racine Mayor, six representatives appointed by the Racine Mayor and confirmed by the Racine
Common Council, two representatives from Mt. Pleasant, one representative from Caledonia, and one
from the outlying community with the largest amount of allocated treatment capacity other than Racine,
Mt. Pleasant or Caledonia.
The Commission meets on a monthly basis to decide administrative issues related to finance, personnel,
operations, SSO reduction and elimination, interceptor system improvements, and other administrative
issues. In addition to the Utility Commissioners, the Wastewater Utility General Manager, Chief of
Operations, Superintendent, and Department Supervisors typically attend the Commission meetings. The
Commission meetings are open to the public and local newspapers routinely attend. Any SSO events or
sewer capacity issues are presented and discussed at the Commission meeting.
SSO REPORTING Sanitary sewer overflows that enter the storm sewer system or open water are included in a report that is
transmitted to the WDNR conforming to the Racine Wastewater Utility’s WPDES permit. Overflows are
reported to all parties in the Utility chain of communication, WDNR, and affected stakeholders. The
Field Operations Supervisor is responsible for the verbal notification of the WDNR within 24 hours of an
overflow event and prepares the documentation for a written report. A written response is prepared by the
Field Operations Supervisor for submittal to the WDNR within five days of the event with review by the
Superintendent, Chief of Operations, and General Manager. The SSO event is also discussed at the
monthly Commission meeting.
25
ANNUAL CMOM PROGRAM AUDIT CMOM program elements will also be addressed on an annual basis as part of the Utility’s CMAR
reporting to the WDNR. The CMAR and CMOM Program Audit are included in the Utility’s Annual
Report which is provided to all Commissioners, agency communities, and are available for review to the
general public and interested parties.
Year Pipe ID
Sewer
Atlas
Pg
Upstream
MH
Downstream
MH Street Cross Streets Dia. Length Price/Ft Cost Comments
2015 new 63-H D0016 D0015 Yout St. Carter St. to Geneva St. 27" 437 $265.00 $161,402.75 Relaid next to existing pipe, abandond in place
2015 4237+4236 77-J TO309 TT0030 Taylor Ave. 17th St. to 16th St. 18" 412 $215.00 $107,360.00 Relaid short of 16th St. we will reline the rest
2015 73-P Z0536 Z0525 Echo Lane Kinzie to Lindermann Ave. 21" 925 $318.00 $407,557.00 Increase 15" to 21"
Total: $676,319.75
Relaying/Relining Log
26
Plant Process & Equipment
Plant Process & Equipment
27
Bar Screen
28
Description of Plant Process & Equipment
DESCRIPTION OF PLANT PROCESS & EQUIPMENT
The Racine Wastewater Treatment Plant is a conventional activated sludge plant with chemical
phosphorus precipitation, focused pulse (pretreatment) of secondary sludge, anaerobic sludge
digestion, belt filter press dewatering and ultraviolet disinfection of effluent.
FLOW EQUALIZATION BASINS
The Racine Wastewater Treatment Plant flow equalization basins are designed to reduce flow to
the treatment plant during periods of high
influent flow. Flows exceeding 108 MGD
(million gallons per day) will be directed to
the flow equalization basins. Wastewater
stored in the flow equalization basins is
reintroduced into the normal wastewater
stream at the option of the operator. Influent
wastewater which is directed to the basin can
be chlorinated. This will provide odor
control for stored wastewater and disinfection
for any amount that overflows the basins.
Prior to entering the equalization basins, wastewater is screened by mechanically cleaned bar
screens. Wastewater in the basins is returned to the treatment flow scheme by gravity and by
pumping. It can be returned to the headworks for full treatment, the aeration basins for
secondary treatment, or to the digesters for sludge handling. Both equalization basins are 200
feet in diameter and have a storage capacity of 2.7 million gallons each.
FLOW
The wastewater flow enters the headworks of the plant through 84” and 72” diameter lines. The
design average flow is 36 MGD. From the headworks junction chamber, two 54” diameter pipes
direct the flow into the preliminary treatment building.
MECHANICALLY CLEANED BAR SCREENS AND WASHING PRESSES
The preliminary treatment building contains four (4) bar screens each with a rated maximum
capacity of 35.0 MGD. The bar spacing between screen elements is one-half inch. Coarse
sewage material is captured and removed from the flow to prevent plugging of pumps and
unnecessary wear on downstream equipment. Each bar screen has a washing press to reduce
organic content, moisture content and volume of screenings.
VORTEX GRIT REMOVAL EQUIPMENT
Two (2) vortex grit removal units rated at 70 MGD each remove coarse abrasive inorganic
material continuously from the screened wastewater flow.
Diversion Structure – High Flow
29
GRIT CONCENTRATORS
Two (2) grit concentrators remove water and organics from the material pumped to them from
the vortex grit removal system.
PRIMARY INFLUENT CHANNEL BLOWERS
Two (2) Hoffman blowers (100 HP) with a capacity of 2500 CFM. These blowers keep
suspended solids in suspension until the flow reaches the primary clarifiers.
CHEMICAL FEED AND STORAGE FOR PHOSPHORUS REMOVAL
Phosphorus must be removed from wastewater to eliminate a major source of the primary
element required for the growth of algae in Lake Michigan. Three 12,000 gallon fiberglass tanks
store ferric chloride which is used to form insoluble ferric phosphates with the soluble
phosphates in the raw wastewater. Ferric chloride can be fed before primary clarifiers, after
primary clarifiers, and prior to final clarifiers. Total storage capacity equals 36,000 gallons.
PRIMARY CLARIFIERS
There are a total of 12 primary clarifiers. Six clarifiers are considered west bank and the other
six east bank clarifiers. Four West bank clarifiers are 137.5 ft. long by 34.5 ft. wide by 10.5 ft.
deep. The other two West bank clarifiers are 122 ft. long by 28 ft. wide by 10.5 ft. deep. The
East bank of primary clarifiers has four clarifiers 120 ft. long by 38 ft. wide by 8 ft. deep. The
other two East bank clarifiers are 128 ft. long by 30 ft. wide by 10.5 ft. deep. Total primary
clarifier capacity is 3.7 million gallons. Average detention time in the primary clarifiers is 3.6
hours at 25 MGD. Mechanical scrapers push sludge to sumps for removal to digesters. The
scrapers also push scum to troughs for removal. The scum is then pumped into the digesters.
ANAEROBIC DIGESTERS
Four-one million gallon capacity digesters. Sludge from the primary clarifiers and thickened
waste activated sludge (TWAS) is pumped to the digesters. Mechanical mixers and heat
exchangers for heating are provided. Temperature is maintained at 95 degrees Fahrenheit.
Through anaerobic bacterial action, sludge is decomposed and converted into a more stable
product. Methane (biogas) is produced as a by-product of this decomposition. Biogas is used as
a fuel supply for large internal combustion engines and boilers. Approximately 200,000 cubic
feet of biogas is produced daily.
HOLDING TANK FOR BELT FILTER PRESS OPERATION
One fixed cover tank with a volume of 552,000 gallons. After primary digestion, sludge is
transferred to the holding tank. Digested solids are removed from this tank and pumped to the
belt filter press operation for dewatering.
30
GAS STORAGE SPHERE
The gas produced in the digesters as a by-product of the digestion process consists mainly of
methane and carbon dioxide. It is used as fuel for the engine driven blowers and in the boilers
for building and sludge heating. Since gas production is not uniform in rate, a gas storage sphere
is provided for storage of gas produced at rates in excess of usage. Stored gas is removed and
used during periods when demand is greater than production. The sphere is 40 ft. in diameter,
providing storage at 50 psi for 200,000 cubic feet of digester gas. If gas production exceeds
capacity, the gas is routed and burned by a safety device.
AERATION TANKS
The aeration tanks are two pass tanks, each pass measuring 168 ft. by 30 ft. by 15 ft. The total
volume of five aeration tanks equals 5.65
million gallons. The aeration system can be
operated in several modes. Currently the
conventional activated sludge process is being
used. It consists mainly of microbiological
organisms (bugs) and organic material
(wastewater) that enter the aeration tanks.
The contents are mixed by the introduction of
air through 10,000 (9 inch diameter) fine
bubble diffuser discs located along the length
of each tank. The air also serves as a supply
of oxygen for the microorganisms which feed
and multiply on organic material contained in the wastewater. The resulting mixed liquor is
transferred from the aeration tanks to the final clarifier tanks for settling of biosolids (mixture of
solids and microorganisms) and return of microorganisms to the aeration tanks.
AERATION CONTROL BUILDINGS
These buildings house the controls for the pumps and equipment involved with the aeration
system.
AIR BLOWERS
THREE ENGINE DRIVEN BLOWERS:
#2 Engine and Blower - Engine: 426 HP
Blower Capacity: 9,600 CFM at 8.5 psig
#3 Engine and Blower - Engine: 675 HP
Blower capacity: 15,000 CFM at 8.5 psig
#5 Engine and Blower - Engine: 426 HP
Blower Capacity: 9,600 CFM at 8.5 psig
TWO MOTOR DRIVEN BLOWERS
#1 Motor HP: 500
Blower Capacity: 11,000 CFM at 8.5 psig
#4 Motor HP: 300
Blower Capacity: 6,900 CFM at 8.5 psig
Aeration Tank
31
The blowers provide air for the aeration tanks. All air for the low-pressure system is filtered by a
combination electrostatic and mechanical air filter. Accessory equipment includes silencers on
air intake and discharge for each blower, and combination silencers and heat recovery units on
the engine exhausts. Heat is recovered from engines by circulating the engine jacket water
through heat exchangers in the building and sludge heating system. The engines can be operated
on biogas produced by the treatment plant or natural gas.
FINAL CLARIFIERS Nine Clarifiers: Three 85 feet in diameter, three 90 feet in diameter, and three 93 feet in
diameter. Total volume equals 5,930,000
gallons. Detention time is 5.1 hours at 25
MGD. The activated sludge produced in
the aeration tanks settles in the final tanks.
The settled sludge is drawn through
rotating collector tubes and connected
piping system by pumps, which return the
major portion to the aeration tanks.
Because a balance must be maintained
between the amount of microorganisms
held in the secondary treatment plant and
the food supply in the primary effluent, the
excess waste activated sludge (WAS) is
pumped to the primary tanks or gravity belt
thickeners. The clarified water or secondary plant effluent is conveyed to the U.V. system for
disinfection.
ULTRAVIOLET LIGHT (U.V.) AND HYPOCHLORITE DISINFECTION
Two U.V. systems are provided at the Racine facility. Ultraviolet light is used to provide
disinfection of final clarifier effluent and a sodium hypochlorite system is used to provide
disinfection of wastewater diverted to the flow equalization basins.
The sodium hypochlorite system is used to service the flow equalization facility. Chlorination is
provided for odor control of wastewater temporarily stored in the equalization basins and for
disinfection of wastewater which may overflow the equalization basins. Chlorination is provided
at the equalization basin bar screen effluent channel and at the lift station force main discharge
structure. Sodium hypochlorite application to the return activated sludge (RAS) system is also
provided. Sodium hypochlorite is stored in two tanks located in the liquid chlorine building.
Liquid sodium hypochlorite solution is delivered to the various points of application by chemical
feed pumps located in the liquid chlorine building. The hypochlorite feed pumps are flow paced.
DECHLORINATION SYSTEM
Sodium bisulfite is used for dechlorination at the wastewater treatment facility. Liquid sodium
bisulfite is stored in one tank located in the preliminary treatment building. Bisulfite is
transferred to the point of application by chemical metering pumps and enters the equalization
basins’ effluent through diffusers. Dechlorination of equalization basin effluent is provided at
the dechlorination structure located downstream from the two equalization basins. For
dechlorination of equalization basin effluent, the bisulfite pump is flow paced.
Final Clarifier Weir
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NINETY-SIX AND SEVENTY-TWO INCH DIAMETER OUTFALLS
Two outfall lines (72” and 96”) extend 500 feet out into the lake. There are three 36” openings
at the end of the 72” pipe and three 48” openings at the end of the 96” pipe for discharge
purposes.
BELT FILTER PRESSES
Six – two meter presses. The continuous stage belt filter presses consists of two polyester cloth
belt sets one above another that maneuver through a series of pressure rollers. Sludge is
conditioned with a liquid polymer and is fed onto a gravity drainage section of the belts.
Following gravity drainage, the sludge is distributed on the lower pressure belt. After an
additional small section of gravity drainage, the concentrated sludge comes in contact with the
upper belt. The two belts form a wedge which gradually forces removal of water. The water
removed (filtrate) is collected in drainage pans and combined with gravity drainage water and
recycled back to the head of the plant. Pressure is increased as the belts pass through rollers of
decreasing size. The final three rollers form an S-shaped configuration which generates a shear
force and creates additional water drainage. Dewatered sludge is hauled by truck to ultimate
disposal. The filter belts are continuously washed with water at high pressure.
GRAVITY BELT THICKENERS
The two gravity belt thickeners are used to dewater waste activated sludge (WAS) from the
secondary activated sludge treatment process. Polymer is added to the WAS to help the
dewatering process.
Outfall Weir
33
FINAL EFFLUENT SYSTEM
Three final effluent pumps are located in the aeration pipe gallery. Final effluent is pumped to
the yard hydrants and street hydrants. There are also two cooling water pumps installed in the
aeration pipe gallery to pump screened final effluent to the engine jacket water cooling heat
exchangers.
One F.E. Pump: 200 gpm at 243 ft. head.
One Cooling Water Pump: 550 gpm at 55 ft. head.
One Auxiliary Engine: (use at time of power failure)
Pump: 550 gpm at 50 ft. head.
TANK DRAINAGE SYSTEM
The tank drainage system consists of the drain system for all the treatment units and the
bypassing arrangements for these units. Two tank drainage wells and five drainage pumps are
provided.
Five Tank Drainage Pumps: 700 gpm at 30 ft. TDH
PIPE GALLERY
Connection between primary plant and secondary plant. All necessary systems run through the
pipe gallery.
PLANT WATER SYSTEM
This system provides a physical break between the incoming city water and the plant water
distribution system.
HEATING, VENTILATION AND AIR CONDITIONING
Hot water for space heating is provided by one continuous loop system. The system is provided
with four multiple pass, horizontal fire tube boilers with five square feet of heating surface per
rated boiler horsepower. Two of the four units can be fired by biogas or natural gas. Air
circulation systems have been installed for space heating and cooling, odor control, and removal
of dangerous gases. At critical areas or areas where air handling units are not installed, unit
heaters are provided to heat the space, and exhaust fans with separate air intake louvers provide
ventilation.
34
EMERGENCY GENERATOR
The Wastewater Treatment Plant has an emergency generator that can operate the plant
independently of WE Energies. In the event of a power failure the plant will continue to function
and maintain permit limits. The generator has a capacity of 2000 KW.
Emergency Generator
35
Flow Monitoring & Sampling Schematic
Eq
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Ba
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Pri
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Ult
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36
Site Plan with Building Numbers
20-
Div
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Str
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145
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25-
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37
Biosolids Management Program
Biosolids Loading Bay Truck Full of Biosolids
Biosolids Storage Building Spreading Biosolids
Biosolids Management Program
The Utility generated almost 10,500 wet tons of biosolids in 2015
Biosolids solids content equaled 20%
Biosolids land applied to 425 acres of farmland
38
Wastewater Operations
Wastewater Operations
39
Engine Room
40
Flow & Precipitation Trends
The graph above shows 26 years of rainfall and flow trends at the Racine Wastewater Plant.
Rainfall can have an influence on peak events and increases in annual flow trends. However,
economic factors and industrial water usage can also have an impact on baseline flows at the
Wastewater Plant. In 2008, the Racine Water Utility stopped sending its daily sludge loadings to
the plant, which resulted in increased treatment capacity at the plant and a decrease in annual
plant flow. This trend can be seen on the graph as having some of the lowest annual flows in a
20 year period. The country has also suffered a severe recession in the past few years with a
decrease in domestic use of wastewater and water from residential customers as well.
The decade from 2000 to 2010 is the wettest decade on record in the State of Wisconsin. It also
contained unprecedented peak rain events in terms of inches per hour and inches per day. The
summers of 1990 and 1993 were extremely wet in the Midwestern states. As can be seen on the
graph, the Racine Wastewater Plant exceeded 10 BG (billion gallons) per year. These concerns,
along with some peak rain events, caused the Utility to prepare a facilities plan in 1996 to ensure
that the Wastewater Plant had adequate treatment capabilities to treat increased average day flow
and peak day flow. As can be seen in the plant flow for 1997 and 1998, plant flow exceeded the
peaks of 1990 and 1993, further reinforcing the need for more treatment capacity. The years of
2000 and 2001 continued to have flows over 10 BG/year. The Wastewater General Manager was
forced to invoke a sewer moratorium for new construction until an agreement could be entered
into with all of the local flow communities. A sewer agreement was signed in the spring of 2002
to address treatment capacity issues at the Wastewater Plant and to address known deficiencies in
the collection system getting flows to the plant.
44.16
33.89
32.37
36.46
33.35
34.06
32.38
32.68
39.33
34.71
47.95
41.66
32.87
27.99
41.39
25.68
37.73
41.72
42.49
40.83
33.55
34.16
24.96
41.42
36.41
32.22
20
25
30
35
40
45
50
4
5
6
7
8
9
10
11
12
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
2011
2012
2013
2014
2015
Tota
l An
nu
al P
reci
pit
atio
n (
Inch
es)
Tota
l Yea
rly
Plan
t Fl
ow
(B
illio
n G
allo
ns)
Flow & Precipitation TrendsTotal Plant Flow (BG) Total Precip (Inches)
41
While the rainfall graph shows peaks and valleys in the decade of 2000 (wettest on record in the
state), plant flows relaxed to under 9 BG/year (2006-2009) and most recently near 7 BG/year
(2010-2011). Year 2012 was the worst drought in the Midwest in decades. The 2012
wastewater plant flows were measured at 5.7 BG/year. These flows are nearly half of the yearly
flows experienced just 10 years earlier. In 2005, the Utility experienced a heavy rain event that
led to an SSO to the Root River in west Racine. The enforcement branch of the DNR issued
Racine a Notice of Violation and ordered that Racine install a storage basin to capture the
quantity of rainfall that was discharged to the river in 2005. The resulting project is referred to
as the Grove Avenue Storage Basin.
As a result of a 40 year storm that occurred in August of 2007 spreading over 6 inches of rain in
a 36 hour period, the Utility was forced to study and address the concerns related to this event.
Widespread surcharging occurred in the sewer system across the entire City as a result of this
rainfall. Several homes experienced basement backups, even though SSO’s were allowed in the
collection system to relieve the greater than normal rainfall. A subset of the Wastewater
Commission was formed called the TAC, or Technical Advisory Committee, to study and
evaluate issues surrounding the 40 year rain event that occurred. A draft final report of its
findings was submitted to the full Commission in October of 2010. Costs of Service Studies
(COSS) were commissioned to evaluate the costs and how they would be applied to the local
Sewer Service Recipient (SSR) Parties of the agreement.
In May of 2014, the Racine area experienced an intense rain storm over a short amount of time.
This storm produced a number of basement backups in specific areas of the City. These areas
included Roosevelt and Kinzie, Spring Street near Dombrowski and Graham and areas in and
around Horlick Field. The Utility is currently studying alternatives to eliminate basement
backups and property damage during intense events such as the one in May of 2014.
Historic trends are an important element in the planning for long range projects in the wastewater
industry. This discussion serves to place historical perspective on the need for a sewer
agreement and plant expansion that occurred in 2002 – 2005. Recent trends and economic
conditions in the local area show roughly a 20% drop in wastewater flows as compared to the
previous average over twenty years (say 7 BG/year vs. 9 BG/year).
Plant Influent Structure
EQ Basin in Service
42
Annual True–Up Results
Wastewater Flow Trends
Wastewater plant flow can be cyclical. The flow rates that have been used for budgeted flow over
the past few years are very close to the six-year average of actual flow. The actual plant flow in 1998
thru 2001 was on average higher resulting in higher revenues than what was budgeted. This trend led
to a concept called the True-up to be incorporated into the April 2002 Racine Area Intergovernmental
Sanitary Sewer Service, Revenue Sharing, Cooperation and Settlement Agreement. The concept was
that the Utility should no longer profit from abnormally high flows, due to wetter than normal years,
and that any additional revenue should be put back into the rate formula to offset rate increases
instead of building reserves within the utility. Conversely if the flows went below normal and a
deficit of flow was realized, all parties to the agreement should contribute additional money through
the rates to offset the deficit. This concept was negotiated into the contract with all parties in
agreement. The Utility is made whole by making sure that it can stay in business and positive returns
on investments are returned to the ratepayer or customers of the Utility.
Recent History
Over the five years, starting in 2004, the Utility experienced a wetter period and higher flows
resulting in an excess of revenues over budgeted expectations, which caused negative true-up and
decreased revenue needs to the rate models from 2006 through 2010. Revenues from 2011 to 2014
were lower because of lower than expected flows reaching the plant. The rates for 2015 were
influenced by a surplus of $233,997 from the 2013 fiscal year resulting from reduced expenditures
and somewhat lesser revenues. The previous year a deficit of $885,344 negatively affected the rates.
This surplus of $233,997 decreased the need for revenues in 2015. Ratepayers saw about 2% to 10%
decrease in sewer rates from the previous year. The true up serves as a self-correcting financial tool
that over a period of time will insure that the ratepayer is treated fairly and that the Utility will not
incur huge losses or gains that could impact its financial viability.
$764,000
$1,090,099
-$359,075
-$32,649
-$1,000,219 -$905,684
-$497,205
$404,156
$933,677
$202,862
$885,344
-$233,997
-$1,200,000
-$800,000
-$400,000
$0
$400,000
$800,000
$1,200,000
2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015Do
llars
Years
Annual True-Up Results
43
.
Belt Filter Presses
44
Flow & Precipitation
DAILY PEAK DAILY PEAK DAILY PEAK DAILY PEAK DAILY PEAK DAILY PEAK
DATE PREC. FLOW FLOW PREC. FLOW FLOW PREC. FLOW FLOW PREC. FLOW FLOW PREC. FLOW FLOW PREC. FLOW FLOW
1 0.00 14.96 19.40 0.31 13.54 16.80 0.01 12.14 15.60 0.00 18.39 21.20 0.00 17.95 20.30 0.00 20.24 24.10
2 0.00 16.08 18.70 0.94 13.01 15.20 0.00 12.35 15.40 0.13 18.80 24.60 0.00 17.65 20.80 0.00 18.53 21.80
3 0.23 15.51 19.40 T 13.20 15.30 0.20 12.78 15.50 0.01 20.07 21.40 0.00 16.80 20.00 0.00 17.89 20.20
4 0.53 17.20 17.90 0.14 13.42 15.30 0.15 12.67 15.60 0.00 16.05 24.60 0.02 16.47 18.90 0.00 16.53 20.00
5 0.02 15.01 17.70 0.00 13.11 15.30 0.00 12.58 15.60 0.00 15.35 19.20 0.32 22.57 38.60 0.00 16.62 18.70
6 0.09 15.55 17.10 0.00 13.34 15.30 0.00 12.51 14.80 0.00 17.79 19.40 0.25 21.22 24.00 0.00 16.11 20.40
7 0.00 14.96 17.10 0.00 12.89 16.00 0.00 13.56 18.20 T 14.72 18.40 0.00 17.74 22.10 0.00 16.23 20.70
8 0.00 15.35 18.60 0.00 13.69 16.50 0.00 13.51 19.50 0.12 17.26 19.80 0.00 28.62 80.90 0.09 17.74 21.50
9 0.25 14.55 18.20 T 12.96 16.00 0.00 18.62 27.00 0.90 50.50 73.20 1.04 47.94 72.30 0.08 15.09 18.80
10 0.00 15.05 17.60 T 12.54 15.30 0.00 24.25 41.00 1.30 75.01 93.50 0.04 35.87 37.60 T 16.85 19.20
11 0.00 13.08 17.10 T 13.34 15.00 0.00 33.47 38.70 0.12 44.84 61.50 0.11 33.02 38.20 0.00 15.92 17.80
12 0.00 14.54 19.30 T 13.20 14.90 0.00 32.27 39.00 0.00 37.66 38.90 0.20 31.23 35.30 0.51 21.14 25.70
13 0.01 14.30 16.50 0.00 12.70 14.60 0.00 32.66 38.50 0.11 31.60 37.40 0.00 27.07 31.50 0.18 18.89 21.40
14 0.07 13.35 16.70 0.00 12.64 15.60 0.00 37.00 41.30 0.00 30.34 31.70 0.00 26.05 29.00 0.45 27.11 40.30
15 0.00 13.23 15.50 0.00 12.36 15.20 0.00 32.21 39.10 0.00 26.27 29.90 0.13 23.49 26.80 0.27 31.95 41.90
16 0.00 12.81 14.89 T 13.38 17.10 0.00 31.68 34.40 T 25.55 28.70 0.04 20.30 25.20 0.76 30.68 38.40
17 0.00 13.84 20.70 T 11.97 16.30 0.00 28.48 33.10 0.00 23.02 27.20 0.00 21.00 24.60 0.00 22.62 29.20
18 0.00 16.20 19.60 0.00 13.42 15.30 0.00 25.20 28.10 0.00 22.60 25.60 0.07 21.49 25.50 0.00 21.94 25.50
19 0.00 16.09 19.40 0.00 12.65 14.80 0.00 23.66 26.70 0.00 20.72 59.40 0.00 21.80 23.00 0.00 21.02 22.90
20 0.00 14.98 18.20 0.00 11.31 15.00 0.00 20.49 23.90 0.89 42.90 58.60 0.00 19.73 23.00 0.00 18.10 21.90
21 0.08 15.08 20.50 T 13.36 15.00 0.00 20.00 23.60 0.01 28.53 33.10 T 19.64 23.30 T 17.09 21.40
22 0.00 15.26 19.00 0.00 11.92 15.30 0.00 18.87 22.80 0.02 26.59 28.60 0.12 17.45 20.60 0.00 20.59 30.50
23 0.00 14.26 17.20 0.00 12.52 15.20 0.06 19.28 22.50 T 23.97 26.70 0.00 15.23 18.80 0.41 20.14 22.30
24 0.00 14.34 17.40 0.00 12.43 15.00 0.03 20.13 22.10 0.00 22.91 26.30 0.00 14.78 19.40 0.00 17.22 21.80
25 T 14.17 17.50 0.00 12.73 14.70 0.37 24.77 30.80 0.14 21.36 25.60 0.21 19.39 22.60 0.02 17.36 20.00
26 0.00 14.42 19.50 0.07 12.24 14.10 T 23.20 26.40 0.00 20.81 23.70 0.07 20.29 27.80 0.02 17.06 19.80
27 0.05 13.87 16.00 0.02 12.18 14.20 0.07 21.37 24.10 0.00 20.17 22.60 0.37 23.30 27.40 0.00 14.98 19.40
28 0.00 14.46 18.00 0.00 12.12 15.70 0.00 21.34 25.90 0.00 19.96 22.60 0.12 19.50 23.60 0.00 14.28 22.10
29 0.00 13.70 15.90 0.00 20.49 27.50 0.00 18.39 20.90 0.00 19.68 21.80 T 15.39 18.70
30 T 13.56 15.50 0.02 20.65 23.90 0.00 17.77 20.30 0.27 22.21 38.50 T 16.28 18.20
31 0.00 13.21 16.50 0.03 19.41 22.00 0.22 22.14 25.00
TOTAL 1.33 452.97 1.48 358.17 0.94 671.60 3.75 789.90 3.60 701.62 2.79 571.59
AVG 0.05 14.61 17.83 0.07 12.79 15.36 0.03 21.66 26.21 0.14 26.33 32.82 0.12 22.63 29.24 0.11 19.05 23.49
MAX 0.53 17.20 20.70 0.94 13.69 17.10 0.37 37.00 41.30 1.30 75.01 93.50 1.04 47.94 80.90 0.76 31.95 41.90
MIN 0.00 12.81 14.89 0.00 11.31 14.10 0.00 12.14 14.80 0.00 14.72 18.40 0.00 14.78 18.80 0.00 14.28 17.80
DAILY PEAK DAILY PEAK DAILY PEAK DAILY PEAK DAILY PEAK DAILY PEAK
DATE PREC. FLOW FLOW PREC. FLOW FLOW PREC. FLOW FLOW PREC. FLOW FLOW PREC. FLOW FLOW PREC. FLOW FLOW
1 0.00 14.75 17.50 0.00 12.76 15.80 0.00 13.78 15.70 0.00 13.46 16.70 0.42 17.61 20.50 0.75 45.18 51.90
2 0.00 14.71 18.70 T 13.30 22.10 0.00 12.31 15.00 0.00 12.80 14.90 0.00 15.54 18.80 0.14 33.39 38.00
3 0.00 14.22 17.40 0.75 19.31 38.90 0.02 13.12 16.90 0.00 12.67 16.10 0.00 13.58 18.00 T 28.40 32.70
4 0.00 12.72 15.90 0.00 14.68 18.20 0.00 11.71 15.10 T 12.27 16.10 0.00 14.48 17.70 0.00 25.79 29.20
5 0.00 13.01 16.60 0.00 14.84 19.30 T 11.27 14.30 T 12.93 15.20 0.00 13.56 16.30 0.00 22.96 27.70
6 0.00 14.22 17.10 0.00 12.49 15.10 0.00 11.19 13.90 0.00 12.96 14.90 0.02 15.28 18.30 0.00 22.09 26.80
7 0.43 16.37 19.10 0.00 11.90 15.20 T 11.46 14.70 0.00 12.44 14.60 0.00 13.85 17.00 0.00 21.13 24.80
8 0.00 13.19 15.90 0.02 13.47 15.70 0.15 20.15 34.50 0.00 12.60 15.10 0.00 13.80 15.90 0.00 19.76 22.40
9 0.02 13.32 15.40 0.00 11.30 15.10 1.15 19.24 26.60 0.05 12.17 13.80 0.00 13.18 16.10 0.00 18.82 21.30
10 0.00 13.31 15.40 0.00 17.27 26.30 0.00 15.88 18.10 0.00 11.63 15.00 0.00 13.34 15.90 0.00 18.19 21.30
11 0.00 13.12 16.80 0.80 14.87 17.80 0.24 15.33 17.60 0.00 11.78 15.20 0.00 12.13 14.90 0.00 16.87 19.50
12 T 12.94 16.20 0.00 14.53 16.20 0.00 14.18 16.90 0.00 12.37 14.40 0.30 16.13 18.90 T 16.91 20.30
13 0.69 18.30 23.30 0.00 12.81 15.50 0.00 13.52 17.40 0.00 11.71 13.80 0.00 13.33 18.70 0.09 20.80 40.70
14 0.00 16.27 18.90 0.00 13.08 15.80 0.00 14.01 17.30 0.00 11.55 14.10 0.00 13.32 16.00 0.95 54.98 70.00
15 0.00 14.89 16.70 0.19 13.97 17.80 0.00 13.32 15.80 T 11.39 13.80 0.00 12.40 16.10 0.09 36.82 43.20
16 0.00 14.07 20.90 0.00 13.01 16.00 0.00 12.91 15.60 T 11.25 13.00 0.00 13.23 15.70 0.06 30.67 34.80
17 0.52 20.88 29.50 0.00 13.13 16.40 0.00 13.89 15.80 0.00 10.91 14.20 0.13 21.40 40.60 0.03 27.49 30.40
18 0.00 20.08 39.20 0.03 14.53 17.00 0.89 22.26 33.90 0.00 11.13 14.20 0.92 26.46 36.50 0.00 24.91 28.00
19 0.45 20.46 25.20 0.37 17.14 19.90 0.29 22.18 26.10 0.00 11.51 15.10 0.10 19.18 22.20 T 22.44 26.70
20 0.00 17.31 19.80 0.01 13.94 16.60 0.00 17.71 20.90 0.00 11.43 14.20 0.00 17.77 20.70 0.00 20.96 25.70
21 0.03 16.10 18.20 0.00 13.42 15.80 0.00 16.39 20.30 0.22 11.08 14.60 0.36 18.22 23.30 0.12 29.02 43.80
22 0.00 15.29 17.10 0.00 12.65 15.70 0.00 15.71 18.50 0.00 12.03 14.30 0.56 18.87 21.60 0.33 29.82 35.10
23 0.00 15.18 16.90 T 11.82 16.50 0.00 15.71 18.00 0.00 11.86 16.40 0.00 17.96 20.40 T 32.62 43.90
24 0.00 13.73 16.40 T 14.40 15.80 0.00 14.21 17.00 0.27 12.09 15.70 0.00 18.08 22.60 0.34 32.60 38.20
25 0.00 13.49 16.90 0.00 13.00 16.90 0.00 14.22 16.50 0.02 11.53 14.80 0.00 22.19 26.70 0.00 27.97 34.00
26 0.00 13.48 16.90 0.00 13.09 15.90 0.00 13.18 16.80 0.00 11.99 14.10 T 30.49 50.50 0.00 29.50 41.00
27 0.00 14.16 17.60 0.00 11.91 14.40 0.00 13.83 18.00 0.00 11.97 14.10 1.32 59.80 89.00 0.31 31.67 35.50
28 0.00 14.03 16.20 0.00 12.81 14.80 0.00 13.89 17.90 0.63 20.29 28.20 0.00 33.36 38.30 0.02 28.01 34.50
29 0.00 13.49 16.10 0.47 15.40 20.60 T 15.47 20.90 0.05 16.10 19.00 0.00 25.96 32.20 1.79 38.02 43.80
30 0.00 13.82 16.50 0.05 13.69 17.90 0.29 13.90 16.10 0.00 13.11 16.20 0.00 23.90 29.00 0.00 33.92 38.60
31 0.00 12.59 15.80 0.00 13.95 18.40 0.08 19.73 37.20 0.00 31.74 34.90
TOTAL 2.14 463.50 2.69 428.47 3.03 445.93 1.32 392.74 4.13 578.40 5.02 873.45
6728.34
AVG 0.07 14.95 18.71 0.10 13.82 17.85 0.11 14.86 18.74 0.05 12.67 16.10 0.14 19.28 24.95 0.19 28.18 34.15
MAX 0.69 20.88 39.20 0.80 19.31 38.90 1.15 22.26 34.50 0.63 20.29 37.20 1.32 59.80 89.00 1.79 54.98 70.00
MIN 0.00 12.59 15.40 0.00 11.30 14.40 0.00 11.19 13.90 0.00 10.91 13.00 0.00 12.13 14.90 0.00 16.87 19.50
Daily Flow = MG (Million Gallons) Precipitation = Inches Total Precipitation (Inches) 32.22
Peak Flow = MGD (Million Gallons per Day) Precipitation Record = 8AM to 8AM Average Daily Flow (MG) 18.43
RACINE WASTEWATER TREATMENT PLANT - FLOW AND PRECIPITATION - 2015
JANUARY FEBRUARY MARCH APRIL MAY JUNE
Total Plant Flow (MG)
JULY AUGUST SEPTEMBER OCTOBER NOVEMBER DECEMBER
45
BOD – TSS – Phosphorus
RA
CIN
E W
AS
TE
WA
TE
R T
RE
AT
ME
NT
PL
AN
T2
01
5 B
OD
- T
SS
- P
ho
sp
ho
rou
s
B O
DT
OT
AL
SU
SP
EN
DE
D S
OL
IDS
P
H O
S P
H O
R U
S
F
LO
W2
01
4
RA
W P
RI IN
P
RI E
FF
F
IN%
RR
AW
P
RI IN
P
RI E
FF
F
IN%
RR
AW
P
RI IN
P
RI E
FF
F
IN%
RM
GD
To
tal M
GM
GD
JA
N1
44
17
17
91
39
11
26
19
44
45
96
3.5
4.1
2.1
0.8
77
14
.61
45
2.9
71
3.9
9
FE
B1
65
19
38
51
49
21
40
20
94
56
96
3.8
4.3
2.2
0.8
79
12
.79
35
8.1
71
4.9
6
MA
R1
19
13
66
81
29
01
08
15
94
45
95
2.7
3.1
1.9
0.8
70
21
.66
67
1.6
02
4.2
9
AP
R9
91
27
55
12
88
89
15
64
06
93
2.3
3.1
1.7
0.7
70
26
.33
78
9.9
02
5.4
6
MA
Y9
91
33
58
11
89
95
16
23
75
95
2.3
3.2
1.7
0.8
65
22
.63
70
1.6
22
9.4
5
JU
N1
21
13
06
59
93
11
91
84
40
49
72
.83
.61
.80
.77
51
9.0
55
71
.59
23
.57
JU
L1
54
16
78
08
95
15
22
27
46
49
73
.63
.82
.00
.87
81
4.9
54
63
.50
19
.80
AU
G1
64
19
58
41
29
31
65
26
05
38
95
3.8
4.2
2.1
0.8
79
13
.82
42
8.4
71
5.2
8
SE
P1
70
17
07
81
39
21
57
23
04
28
95
3.8
3.7
1.9
0.7
82
14
.86
44
5.9
31
5.5
2
OC
T1
88
20
59
31
29
41
62
23
84
55
97
4.2
4.2
2.3
0.8
81
12
.67
39
2.7
41
8.4
5
NO
V1
33
13
47
29
93
14
11
73
48
59
63
.23
.32
.00
.87
51
9.2
85
78
.40
14
.55
DE
C9
21
11
49
79
28
91
21
31
49
62
.32
.41
.60
.96
12
8.1
88
73
.45
16
.64
AV
G1
37
15
67
21
19
21
29
19
34
35
96
3.2
3.6
1.9
0.8
74
18
.43
67
28
.34
19
.36
20
14
13
01
42
71
13
90
12
21
68
43
79
43
.13
.72
.00
.87
41
9.3
6
20
13
13
71
39
70
13
90
12
81
58
41
69
53
.23
.72
.00
.87
52
0.9
8
20
12
15
91
56
75
15
91
14
31
95
43
79
53
.94
.72
.10
.88
01
5.5
4
20
11
15
11
59
71
13
91
13
92
22
43
79
53
.44
.71
.90
.77
81
9.6
2
20
10
14
41
58
68
12
92
13
72
23
38
69
63
.54
.71
.90
.77
81
9.5
0
20
09
11
91
38
68
11
90
12
11
96
48
79
43
.15
.22
.00
.77
62
4.3
2
20
08
12
21
47
68
12
90
12
61
88
49
79
43
.24
.22
.10
.77
82
4.7
6
20
07
12
21
50
66
14
89
13
91
99
48
79
53
.24
.32
.10
.77
82
3.0
7
20
06
12
51
58
60
15
87
13
72
40
44
79
53
.14
.31
.90
.77
71
9.7
1
20
05
13
11
94
71
14
89
14
93
31
64
69
63
.55
.12
.20
.77
91
7.2
0
Begin
nin
g in 2
007,
flow
num
bers
are
effl
uent
flow
.
46
Loading Characteristics RACINE WASTEWATER TREATMENT PLANTLOADING CHARACTERISTICS
MG AVG DAILY INF LBS INF LBS INF LBS/P
2015 FLOW FLOW MGD BOD BOD/DAY T.S S. T.S.S./DAY P DAY
JAN 452.97 14.61 144 17,546 126 15,353 3.5 426
FEB 358.17 12.79 165 17,600 140 14,934 3.8 405
MAR 671.60 21.66 119 21,497 108 19,510 2.7 488
APR 789.90 26.33 99 21,740 89 19,544 2.3 505
MAY 701.62 22.63 99 18,685 95 17,930 2.3 434
JUN 571.59 19.05 121 19,224 119 18,906 2.8 445
JUL 463.50 14.95 154 19,201 152 18,952 3.6 449
AUG 428.47 13.82 164 18,902 165 19,018 3.8 438
SEP 445.93 14.86 170 21,069 157 19,457 3.8 471
OCT 392.74 12.67 188 19,866 162 17,118 4.2 444
NOV 578.40 19.28 133 21,386 141 22,672 3.2 515
DEC 873.45 28.18 92 21,622 89 20,917 2.3 541
TOTAL: 6,728.34 7,252,838 6,828,800 169,230
AVG/DAY: 18.43 137 19,861 129 18,692 3.2 463
MG AVG DAILY INF LBS INF LBS INF LBS/P
2014 FLOW FLOW MGD BOD BOD/DAY T.S S. T.S.S./DAY P DAY
JAN 433.78 13.99 165 19,252 132 15,401 3.9 455
FEB 418.95 14.96 160 19,963 141 17,592 4.1 512
MAR 753.04 24.29 117 23,702 103 20,866 2.7 547
APR 763.71 25.46 104 22,083 108 22,932 2.4 510
MAY 913.07 29.45 99 24,316 94 23,088 2.4 589
JUN 707.01 23.57 96 18,871 111 21,820 2.4 472
JUL 613.76 19.80 130 21,467 136 22,458 2.8 462
AUG 473.57 15.28 151 19,243 145 18,478 3.2 408
SEP 465.67 15.52 143 18,509 137 17,733 3.3 427
OCT 571.94 18.45 125 19,234 114 17,542 3.2 492
NOV 436.61 14.55 145 17,595 124 15,047 3.6 437
DEC 515.91 16.64 131 18,180 115 15,959 3.2 444
TOTAL: 7,067.02 7,378,214 6,966,299 175,034
AVG/DAY: 19.36 131 20,201 122 19,076 3.1 480
MG AVG DAILY INF LBS INF LBS INF LBS/P
2013 FLOW FLOW MGD BOD BOD/DAY T.S S. T.S.S./DAY P DAY
JAN 535.72 17.28 158 22,770 137 19,744 3.7 533
FEB 572.33 20.44 129 21,991 107 18,240 2.6 443
MAR 897.01 28.94 101 24,377 84 20,274 2.1 507
APR 1,422.09 47.40 72 28,463 67 26,486 1.6 633
MAY 652.91 21.06 115 20,199 126 22,131 2.7 474
JUN 938.44 31.28 130 33,914 119 31,044 2.3 600
JUL 636.15 20.52 121 20,708 122 20,879 2.7 462
AUG 431.32 13.91 147 17,053 129 14,965 3.9 452
SEP 367.25 12.24 170 17,354 173 17,660 4.3 439
OCT 394.55 12.73 180 19,110 184 19,535 4.3 457
NOV 424.57 14.15 155 18,292 137 16,168 3.8 448
DEC 384.56 12.41 183 18,940 150 15,525 4.0 414
TOTAL: 7,656.90 7,994,367 7,376,188 178,290
AVG/DAY: 20.98 138 21,931 128 20,221 3.2 489
47
Influent & Effluent Metals Summary
RA
CIN
E W
AS
TE
WA
TE
R T
RE
AT
ME
NT
PL
AN
T
2015 S
um
mary
of
Sam
plin
g o
f P
OT
W In
flu
en
t an
d E
fflu
en
t W
aste
str
eam
s
Inf
Effl
Inf
Effl
Inf
Effl
Inf
Effl
Inf
Effl
Inf
Effl
Inf
Effl
Inf
Effl
Inf
Effl
Inf
Effl
Inf
Effl
Inf
Effl
1/6
/20
15
<5
.8<
5.8
<8
.9<
8.9
43
.51
7.7
<9
.3<
9.3
6.5
6.8
74
.43
8.2
0.0
20
0.0
01
6<
13
.7<
13
.7<
15
.3<
15
.3<
26
.8<
26
.8<
8.1
<8
.1
2/3
/20
15
<5
.8<
5.8
<8
.9<
8.9
58
.6<
14
.0<
9.3
<9
.31
1.4
7.3
85
25
.80
.01
60
.00
12
<1
3.7
<1
3.7
<1
5.3
<1
5.3
<2
6.8
<2
6.8
<8
.1<
8.1
3/1
0/2
01
5<
5.8
<5
.8<
8.9
<8
.96
1.8
18
.1<
9.3
<9
.36
.97
.41
10
51
.60
.02
80
.00
11
<1
3.7
<1
3.7
<1
5.3
<1
5.3
<2
6.8
<2
6.8
<8
.1<
8.1
4/7
/20
15
<5
.8<
5.8
<8
.9<
8.9
58
.81
7.2
<9
.3<
9.3
<5
.3<
5.3
92
.94
1.4
0.0
32
0.0
01
3<
13
.7<
13
.7<
15
.3<
15
.3<
26
.8<
26
.8<
8.1
<8
.1
5/6
/20
15
<5
.8<
5.8
10
.8<
8.9
48
.41
4.6
<9
.3<
9.3
<5
.3<
5.3
51
.2<
20
.30
.01
50
.00
11
13
.9<
13
.72
1.5
<1
5.3
<2
6.8
<2
6.8
<8
.1<
8.1
<1
1.0
<1
1.0
6/2
/20
15
<5
.8<
5.8
<8
.9<
8.9
37
.01
5.7
<9
.3<
9.3
7.0
5.9
64
.12
8.0
0.0
20
0.0
01
1<
13
.7<
13
.71
7.2
<1
5.3
<2
6.8
<2
6.8
<8
.1<
8.1
7/7
/20
15
<5
.8<
5.8
<8
.9<
8.9
62
.61
5.2
<9
.3<
9.3
12
.98
.61
54
26
.20
.03
60
.00
16
17
.7<
13
.7<
15
.3<
15
.3<
26
.8<
26
.8<
8.1
<8
.1
8/4
/20
15
<5
.8<
5.8
<8
.9<
8.9
37
.8<
14
.0<
9.3
<9
.38
.11
0.5
65
.73
6.2
0.0
36
0.0
01
22
0.7
<1
3.7
<1
5.3
<1
5.3
<2
6.8
<2
6.8
<8
.1<
8.1
9/1
/20
15
<5
.8<
5.8
<8
.9<
8.9
63
.21
7.8
<9
.3<
9.3
8.0
8.2
11
44
5.4
0.0
25
0.0
06
2<
13
.71
9.2
<1
5.3
<1
5.3
<2
6.8
<2
6.8
<8
.1<
8.1
9/2
1/2
01
50
.03
20
.00
08
10
/7/2
01
5<
5.8
<5
.8<
8.9
<8
.93
9.0
<1
4.0
<9
.3<
9.3
7.6
<5
.31
01
41
.50
.02
80
.00
09
0<
13
.7<
13
.7<
15
.3<
15
.3<
26
.8<
26
.8<
8.1
<8
.1
11
/3/2
01
5<
5.8
<5
.8<
8.9
<8
.95
6.2
<1
4.0
<9
.3<
9.3
<5
.3<
5.3
10
13
1.9
0.0
48
0.0
01
4<
13
.7<
13
.7<
15
.3<
15
.3<
26
.8<
26
.8<
8.1
<8
.1<
11
.0<
11
.0
12
/1/2
01
5<
5.8
<5
.8<
8.9
<8
.93
5.4
<1
4.0
<9
.3<
9.3
<5
.3<
5.3
56
.62
1.8
0.0
22
0.0
01
5<
13
.7<
13
.7<
15
.3<
15
.3<
26
.8<
26
.8<
8.1
<8
.1
Min
imum
<5.
8<
5.8
<8.
9<
8.9
35.4
<14
.0<
9.3
<9.
3<
5.3
<5.
351
.2<
20.3
0.01
50.
0008
4<
13.7
<13
.7<
15.3
<15
.3<
26.8
<26
.8<
8.1
<8.
1<
11.0
<11
.0
Max
imum
<5.
8<
5.8
10.8
<8.
963
.218
.1<
9.3
<9.
312
.910
.515
451
.60.
048
0.00
6220
.719
.221
.5<
15.3
<26
.8<
26.8
<8.
1<
8.1
<11
.0<
11.0
Ave
rage
<5.
8<
5.8
10.8
0<
8.9
50.2
16.6
<9.
3<
9.3
8.6
7.8
89.2
35.3
0.02
80.
0016
17.4
319
.219
.4<
15.3
<26
.8<
26.8
<8.
1<
8.1
<11
.0<
11.0
note
: pe
r D
NR
req
uire
men
ts,
any
"les
s th
an"
(<)
resu
lt re
port
ed is
tre
ated
as
a ze
ro w
hen
calc
ulat
ing
mon
thly
ave
rage
s.
The R
acin
e P
OTW
does n
ot
curr
ently h
ave
dis
charg
e lim
its for
meta
ls w
ith t
he e
xception o
f m
erc
ury
. T
he m
erc
ury
lim
it is 0
.0058 µ
g/l
(5.8
ng/l).
In
fluent
and e
ffluent
sam
ple
s a
re a
naly
zed m
onth
ly
and r
eport
ed t
o t
he W
DN
R a
s r
equired in t
he R
acin
e W
PD
ES
dis
charg
e p
erm
it.
All
meta
ls (
except
merc
ury
) are
analy
zed b
y t
he R
acin
e W
WTP
labora
tory
, W
DN
R C
ert
ification #
252003400.
Low
leve
l in
fluent
merc
ury
and u
ltra
-low
leve
l effl
uent
merc
ury
are
analy
zed b
y N
ort
hern
Lake S
erv
ice,
a W
DN
R c
ert
ified labora
tory
.
Zin
c (
T)
Me
rcu
ry (
T)
Ars
en
icM
oly
bd
en
um
(T
)S
ele
niu
m (
T)
Silve
r (T
)D
ate
of
Sa
mp
leC
ad
miu
m (
T)
Chro
miu
m (
T)
Co
pp
er
(T)
Le
ad
(T
)N
icke
l (T
)C
yan
ide
mg
/l
Para
mete
rs
(mg
/l -
mic
rog
ram
s/lite
r)
48
Primary & Digested Biosolids
RACINE WASTEWATER TREATMENT PLANTPrimary & Digested Biosolids
2015
% SOL % VS % SOL % VS
JAN 4.2 78 2.2 56
FEB 3.9 78 2.1 54
MAR 4.3 78 2.1 58
APR 4.8 76 2.2 59
MAY 4.7 77 2.1 57
JUN 5.2 72 2.4 60
JUL 5.1 74 2.4 57
AUG 5.0 73 2.3 56
SEP 4.6 74 2.3 57
OCT 4.2 77 2.2 56
NOV 4.7 77 2.1 57
DEC 4.4 79 1.9 57
AVG. 4.6 76 2.2 57
2014
% SOL % VS % SOL % VS
JAN 4.0 77 2.2 54
FEB 4.4 74 2.2 55
MAR 4.3 76 2.2 55
APR 4.4 76 2.2 53
MAY 4.9 73 2.3 57
JUN 4.9 72 2.5 57
JUL 5.4 69 2.6 53
AUG 4.8 74 2.6 54
SEP 4.5 74 2.5 55
OCT 4.3 74 2.4 57
NOV 4.3 76 2.3 55
DEC 4.3 77 2.3 55
AVG. 4.5 74 2.4 55
Heavy rain 5/13 resulted in higher flows and raw sludge with a higher % Sol and a lower % VS
for about a week
2013
% SOL % VS % SOL % VS
JAN 4.0 75 2.3 51
FEB 3.9 77 2.1 57
MAR 3.9 77 2.2 54
APR 4.1 71 2.1 57
MAY 5.0 67 2.3 52
JUN 5.3 70 2.5 51
JUL 4.8 75 2.6 52
AUG 4.7 73 2.1 53
SEP 5.0 64 2.4 56
OCT 4.7 70 2.6 51
NOV 4.4 74 2.5 53
DEC 4.1 77 2.3 48
AVG. 4.5 73 2.3 53
% Sol = % Solids
% VS = % Volatile Solids
72
57
55
64
58
28
55
60
58
65
60
65
46
47
49
59
57
53
61
63
65
57
61
64
51
48
53
53
62
60
65
58
%
%
%
64
67
61
55
60
42
53
VOL REDUCTION
CLARIFIERS 1-12 POST DIGESTION
VOL REDUCTION
CLARIFIERS 1-12 POST DIGESTION
VOL REDUCTION
CLARIFIERS 1-12 POST DIGESTION
49
Digester Operations
RACINE WASTEWATER TREATMENT PLANT
2015 DIGESTER OPERATIONS
AVG/DAY (1000 GAL)
A B D E GBT Total In TWAS/PS A B D E Total Out
JAN 13 13 13 12 26 77 0.510 23 20 21 17 81
FEB 13 12 13 13 27 78 0.529 24 19 21 19 83
MAR 13 13 12 12 33 83 0.660 25 21 22 19 87
APR 8 13 13 12 31 77 0.674 18 21 25 19 83
MAY 0 15 15 16 27 73 0.587 22 26 26 25 99
JUN 0 15 15 16 31 77 0.674 0 27 26 26 79
JUL 0 14 13 14 32 73 0.780 0 19 15 16 50
AUG 10 10 10 10 25 65 0.625 17 18 19 15 69
SEP 11 11 11 12 28 73 0.622 22 16 20 17 75
OCT 11 11 10 11 39 82 0.907 23 20 19 18 80
NOV 11 11 10 10 41 83 0.976 23 19 19 19 80
DEC 11 9 9 10 44 83 1.128 28 19 23 18 88
AVG. 8 12 12 12 32 77 0.723 19 20 21 19 80
RAW SLUDGE TRANSFER SLUDGE
AVG /DAY (1000 GAL)
50
Belt Filter Press Summary
RA
CIN
E W
AS
TE
WA
TE
R T
RE
AT
ME
NT
PL
AN
T
20
15
Be
lt P
res
s S
um
ma
ry
lb/D
T b
ase
d
H A
U L
C
O S
T
MO
NT
HD
AY
S
HO
UR
SM
G%
SO
LD
RY
TN
SD
T/D
ay
DR
Y T
NS
ca
ptu
re
% S
OL
W
ET
TO
NS
$/D
TP
OL
Y
$L
BS
LB
/D.T
.o
n f
ee
d $
JA
N17
421.
52.
662
2.2
242
7.8
183
75.6
20.5
891.
5730
5,48
5.20
3,91
821
.416
.228
.98
25,8
37.7
0
FE
B16
403.
42.
437
2.0
208
7.4
170
81.7
20.3
836.
3533
5,58
6.00
3,99
023
.519
.228
.98
24,2
37.4
2
MA
R18
461.
22.
928
2.2
267
8.6
188
70.4
19.5
964.
2432
5,99
6.20
4,28
322
.816
.028
.98
27,9
43.6
8
AP
R18
434.
22.
773
2.2
252
8.4
179
71.0
19.3
920.
3234
6,09
1.40
4,35
124
.317
.327
.44
25,2
53.5
8
MA
Y16
471.
02.
909
2.1
255
8.2
180
70.6
19.8
932.
3726
4,70
9.60
3,36
418
.713
.227
.44
25,5
84.2
3
JU
N18
439.
72.
589
2.4
253
8.4
184
72.7
19.1
960.
5034
6,15
8.60
4,39
923
.917
.427
.44
26,3
56.1
2
JU
L12
294.
51.
663
2.5
172
5.5
130
75.6
19.4
694.
9629
3,70
1.60
2,64
420
.315
.433
.97
23,6
08.1
2*
AU
G17
444.
62.
210
2.5
226
7.3
182
80.5
20.7
876.
9349
8,98
5.80
6,37
935
.028
.227
.44
24,0
62.9
6
SE
P17
489.
52.
377
2.3
226
7.5
200
88.5
21.3
941.
6920
3,9
45.6
02,
740
13.7
12.1
26.5
124
,964
.20
OC
T17
528.
62.
541
2.3
239
7.7
200
83.7
20.9
954.
8634
6,81
6.96
4,73
423
.719
.826
.51
25,3
13.3
4
NO
V17
514.
62.
491
2.0
211
7.0
178
84.0
21.5
825.
1832
5,69
2.41
3,95
322
.318
.726
.51
21,8
75.5
2
DE
C19
638.
33.
142
2.0
265
8.5
223
84.4
22.3
1,00
2.37
368,
029.
615,
576
25.0
21.1
26.5
126
,572
.83
TO
TA
L202
5,5
41
30.7
22
2,8
15.9
892.5
72,1
96.9
510,8
01.3
471,1
98.9
850,3
31
27.9
2336
301,6
09.7
0
29.5
9137.8
93
AV
G17
461.8
2.5
60
2.2
234.7
7.7
183
78.2
20.4
900.1
132
5,9
33.2
54,1
94
22.9
17.9
25,1
34.1
4
2014
201
5,10
431
.258
2.4
3,12
92,
358
22.2
10,7
9031
73,7
9152
,708
2216
.933
2,62
520
1320
55,
161
30.1
372.
53,
089
2,51
723
.810
,609
3176
,169
54,4
0622
17.7
45.7
548
6,37
520
1220
15,
090
31.5
292.
43,
111
2,59
223
.811
,009
2975
,583
53,9
8821
17.4
44.7
549
2,67
120
1123
15,
439
34.9
142.
13,
181
2,54
222
.611
,260
2767
,813
51,4
0120
16.3
43.7
549
2,62
120
1024
45,
514
36.9
052.
13,
256
2,78
823
.811
,737
2362
,617
50,4
9518
42.7
550
1,76
8
2009
251
6,77
937
.986
2.4
3,81
93,
719
23.9
15,5
1826
96,3
5878
,339
2141
.75
647,
891
2008
244
6,78
943
.595
2.3
4,19
03,
684
24.5
14,9
2024
86,9
4571
,642
2040
.75
607,
997
2007
215
7,27
753
.426
2.0
4,39
33,
686
25.0
14,7
9523
85,1
7674
,065
2039
.75
588,
112
2006
248
7,74
055
.187
2.1
4,82
43,
795
24.3
15,9
0924
90,1
8478
,421
2138
.75
616,
506
The
ha
uli
ng
cost
do
es n
ot
incl
ud
e th
e w
et t
on
s p
roce
ssed
to
cle
an
Dig
A.
This
is
bil
led
wit
h t
he
dig
este
r cl
ean
ing.
Th
e to
tal
wei
ght
to c
lea
n D
iges
ter
A i
n J
un
e, 2
01
5 w
as
38
5.8
4 W
T.
The
tota
l co
st t
o c
lea
n D
iges
ter
A:
$1
00
,32
1.0
6.
Th
e h
au
lin
g co
st i
s n
ot
incl
usi
ve a
nd
ca
nn
ot
be
com
pa
red
to
pre
vio
us
yea
rs.
$1.4
15
* Th
e h
au
l co
st i
ncl
ud
es a
$4
,53
8.4
2 W
ast
e M
an
age
men
t M
etro
RD
F ti
pp
ing
fee
for
loa
ds
tha
t w
ere
lan
dfi
lled
du
e to
th
e b
uil
din
g b
ein
g fu
ll.
Po
lym
er co
st/
lb.
PO
LY
ME
R D
OS
E
We
t T
on
s/D
ay
Po
lym
er
lbs/
da
y
Sol
ids
ente
r th
e pl
ant,
are
dige
sted
and
dew
ater
ed.
Bio
logi
cal
solid
s ar
e pr
oduc
ed,
thic
kene
d, t
reat
ed a
nd a
lso
dige
sted
with
sol
ids
that
ent
ered
the
plan
t. A
fter
dige
stio
n, t
his
mix
ture
is
dew
ater
ed b
y be
lt filt
er p
ress
es a
nd
haul
ed fr
om t
he p
lant
to
stor
age
and
ultim
atel
y la
nd a
pplic
atio
n. D
ue to
WP
DE
S p
erm
it ch
ange
s re
gard
ing
efflu
ent
amm
onia
lim
its
in 2
011,
pro
cess
con
trol
chan
ges
wer
e im
plem
ente
d in
201
0 th
at r
educ
ed b
iolo
gica
l
solid
s (th
us r
educ
ing
tota
l to
ns e
nter
ing
the
dige
ster
s an
d ul
timat
ely
leav
ing
the
plan
t).
51
Gravity Belt Thickener Summary
RA
CIN
E W
AS
TE
WA
TE
R T
RE
AT
ME
NT
PL
AN
T
20
15
GR
AV
ITY
BE
LT
TH
ICK
EN
ER
SU
MM
AR
Y
WA
S F
EE
DT
WA
Sm
g/l
WA
S%
S T
WA
SB
EL
TW
AS
TW
AS
TO
TA
LP
O L
Y M
E R
Po
ly D
osa
ge
M
G -
To
tal
gp
dM
G
gp
d(L
ab
)L
B I
nL
B O
ut
(La
b)
SP
EE
DG
PM
GP
MH
OU
RS
Inch
GA
L
Lb
sW
ate
r R
ate
CO
NC
.B
AT
CH
ES
lbs
/to
n
Ja
n6
.89
60
.22
20
.80
10
0.0
25
83
83
87
12
09
26
64
.30
18
20
62
2.1
95
79
.07
.69
38
01
5+
0.1
51
93
13
Fe
b6
.75
60
.24
10
.76
70
0.0
27
43
94
87
94
59
59
54
.20
18
20
42
1.4
35
49
.06
.58
06
85
5+
0.1
51
76
11
Ma
r8
.22
30
.26
50
.93
70
0.0
30
24
52
11
00
02
10
84
04
.30
18
23
61
8.3
25
91
.07
.49
17
80
5+
0.1
52
46
11
Ap
r8
.03
90
.26
80
.82
70
0.0
27
64
53
51
01
35
11
03
54
.80
18
24
81
7.9
65
27
.08
.41
03
88
55
+0
.15
28
61
3
Ma
y7
.39
40
.23
90
.78
90
0.0
25
54
18
58
32
59
34
04
.40
18
21
51
8.0
05
55
.07
.89
68
22
5+
0.1
52
32
13
Ju
ne
7.2
18
0.2
41
0.8
81
00
.02
94
42
94
86
16
10
77
64
.40
18
23
32
0.3
65
35
.07
.38
97
69
5+
0.1
52
60
15
Ju
ly5
.27
10
.17
00
.99
40
0.0
39
84
96
67
04
21
12
32
4.2
01
81
81
28
.76
41
4.0
7.3
89
76
95
+0
.15
27
62
0
Au
g6
.86
80
.22
20
.69
80
0.0
22
53
89
77
20
18
45
04
.50
18
24
12
0.2
94
70
.07
.79
48
11
5+
0.1
52
51
17
Se
pt
9.8
67
0.3
29
0.8
54
00
.02
85
28
38
77
84
87
84
3.7
01
82
79
22
.40
62
9.0
10
.81
32
11
38
5+
0.1
54
02
25
Oc
t1
2.5
04
0.4
03
1.2
05
00
.03
89
23
86
80
26
97
26
3.0
01
83
03
29
.00
72
0.0
16
.11
98
16
99
5+
0.1
55
21
30
No
v7
.43
30
.24
81
.15
80
0.0
38
63
53
37
30
08
37
02
.60
18
22
93
4.8
95
66
.01
2.8
15
71
34
85
+0
.15
33
22
2
De
c1
0.4
75
0.3
38
1.4
84
00
.04
79
34
63
97
59
15
97
04
.00
18
29
93
0.3
36
03
.01
3.8
16
91
45
45
+0
.15
38
91
9
Su
m9
6.9
44
11
.39
56
73
8.0
11
3.5
13
91
11
96
13
56
4
Av
g8
.07
90
.26
50
.94
96
0.0
31
83
86
78
27
11
02
82
4.0
31
82
39
23
.66
56
1.5
9.5
11
69
97
0.1
52
97
17
52
Biosolids Metals Analysis SAMPLE Cd Cu Cr Zn Pb Ni As Hg Se Mo % pH
DATE mg/kg mg/kg mg/kg mg/kg mg/kg mg/kg mg/kg mg/kg mg/kg mg/kg SOLIDS
1/6/2015 <3.3 630 93 918 42 31 <10 0.48 <11.7 <29 20.6 7.4
2/3/2015 0.42 20.8 7.3
3/10/2015 <3.3 592 84.5 855 31.4 26.4 <10 <0.25 <11.7 <29 19.8 7.3
4/7/2015 <0.28 20.4 7.3
5/6/2015 <3.3 644 78.4 864 42.4 31.3 <10 0.33 <11.7 <29 19.6 7.3
6/2/2015 0.56 18.3 7.3
7/7/2015 <3.3 585 73.8 826 37 30 <10 <0.34 <11.7 <29 19.6 7.3
8/4/2015 0.50 22.4 7.3
9/1/2015 <3.3 541 76 839 34 29 <10 0.44 <11.7 <29 20.6 7.4
10/7/2015 0.35 20.8 7.4
11/3/2015 <3.3 571 81 840 35 27 <10 0.50 <11.7 <29 20.8 7.4
12/1/2015 0.49 22.1 7.3
MINIMUM <3.3 541 73.8 826 31.4 26.4 <10 <0.25 <11.7 <29 18.3 7.3
MAXIMUM <3.3 644 93 918 42.4 31.3 <10 0.56 <11.7 <29 22.4 7.4
AVERAGE <3.3 594 81 857 37 29 <10 0.45 <11.7 <29 20.5 -
HQ Limit 39 1500 NA 2800 300 420 41 17 100 NA NA -
Results are recorded on a Dry Weight basis. Per DNR requirements any (<) result is treated as zero for calculating averages.
BIOSOLID METAL ANALYSIS 2015
RACINE WASTEWATER UTILITY
High Quality Sludge is sludge that meets the monthly average pollutant concentration limits established by the WDNR in NR
204 (Domestic Sewage Sludge Management). Sludge that meets all of the pollutant concentration limits listed is exempt from
cumulative loading limits for metals where sludge is land applied. Racine biosolid metal concentrations dramatically decreased
after 1984 when the Industrial Pretreatment Program went into effect. Since 1985 Racine biosolids have been considered High
Quality Sludge. This is important as the Utility currently applies these biosolids to farmland.
0
1000
2000
3000
4000
5000
6000
7000
MG
/KG
YEAR
BIOSOLIDS METALS
Racine vs. High Quality StandardSum of cadmium, copper, lead, nickel, zinc, arsenic and mercury
Racine Biosolids
53
Secondary Treatment Data R
AC
INE
WA
ST
EW
AT
ER
TR
EA
TM
EN
T P
LA
NT
20
15
SE
CO
ND
AR
Y T
RE
AT
ME
NT
D
AT
A
F
LO
W A
ER
A
ER
R
AS
R
AS
M
LS
S R
AS
WA
SR
AS
TO
T. R
AS
PR
IF
/ME
-CO
LI
FE
CA
L'S
20
15
MG
D M
LS
S M
LV
SS
T
SS
AV
G V
SS
AV
G %
VM
% V
MS
V 3
0S
VI
MG
DM
GD
M
GD
SR
TB
OD
RA
TIO
#/1
00
ML
S#
/10
0 M
LS
JA
N1
4.5
71
75
51
43
23
83
83
12
88
28
21
19
69
0.2
31
2.7
91
2.5
61
27
90
.16
15
51
10
FE
B1
2.7
91
77
21
46
43
94
83
23
68
38
21
54
87
0.2
31
1.0
21
0.7
91
08
50
.15
18
38
3
MA
R2
1.6
61
86
11
51
74
52
13
65
48
28
11
59
86
0.2
71
6.7
91
6.5
27
68
0.1
91
09
84
AP
R2
6.3
31
92
31
52
64
53
53
59
08
07
91
37
72
0.2
62
1.5
32
1.2
79
55
0.1
91
21
81
MA
Y2
2.6
31
87
21
50
44
18
53
34
98
08
01
14
61
0.2
41
8.3
21
8.0
81
05
80
.17
12
19
8
JU
N1
9.0
51
80
51
42
14
29
43
34
47
97
81
03
57
0.2
41
4.2
11
3.9
68
65
0.1
89
61
01
JU
L1
4.9
51
96
41
53
94
96
63
89
67
97
91
30
65
0.1
71
0.6
81
0.5
18
80
0.1
99
41
16
AU
G1
3.8
21
77
81
36
93
89
73
02
07
77
81
22
70
0.2
11
2.8
91
2.6
97
84
0.2
11
64
24
4
SE
P1
4.8
61
70
81
32
62
83
82
21
77
87
81
84
10
80
.34
25
.26
24
.92
87
80
.22
68
83
OC
T1
2.6
71
60
31
26
22
38
51
90
67
98
01
77
11
10
.39
25
.45
25
.05
89
30
.23
87
98
NO
V1
9.2
81
86
11
45
73
53
32
77
27
87
91
71
91
0.2
52
2.8
92
2.6
41
17
20
.20
72
64
DE
C2
8.1
81
80
21
43
73
46
32
76
08
08
01
89
10
50
.34
32
.46
32
.12
94
90
.18
10
16
6
AV
G1
8.4
01
80
91
43
83
86
73
07
38
08
01
47
82
0.2
61
8.6
91
8.4
39
72
0.1
91
14
10
2
MA
X2
8.1
81
96
41
53
94
96
63
89
68
38
21
89
11
10
.39
32
.46
32
.12
12
93
0.2
31
83
24
4
MIN
12
.67
16
03
12
62
23
85
19
06
77
78
10
35
70
.17
10
.68
10
.51
74
90
.15
68
64
20
14
19
.32
18
82
14
85
43
61
34
29
79
79
12
86
90
.23
51
5.4
51
5.2
29
71
0.1
92
07
13
7
20
13
20
.81
16
92
12
94
38
76
29
74
76
77
13
98
20
.31
01
6.4
51
6.1
78
70
0.2
21
88
18
3
20
12
15
.52
19
01
14
94
50
92
40
18
79
79
14
17
40
.21
01
2.9
31
2.7
29
75
0.1
92
21
13
9
20
11
19
.62
18
61
14
55
51
60
40
41
78
78
13
17
20
.21
01
2.9
31
2.7
28
71
0.2
01
34
77
20
10
19
.45
15
09
11
84
39
32
30
77
79
79
13
79
30
.26
01
3.5
61
3.3
08
68
0.2
38
76
8
20
09
23
.79
17
63
13
92
45
43
35
90
79
79
15
79
20
.32
01
7.8
31
7.5
27
68
0.2
38
56
9
20
08
24
.17
19
50
15
32
53
53
41
94
79
79
17
99
10
.27
01
5.4
61
5.1
97
68
0.2
28
58
2
20
07
23
.07
16
77
13
29
41
43
34
73
80
84
14
68
90
.31
01
4.5
81
4.2
55
65
0.2
01
77
24
2
20
06
19
.71
15
11
12
11
43
47
34
83
80
80
16
91
14
0.3
67
13
.68
13
.31
56
00
.22
11
81
06
Be
gin
nin
g in
20
07
, fl
ow
nu
mb
ers
are
eff
lue
nt
flo
w.
Be
gin
nin
g in
20
08
, th
e f
low
da
ta is
fo
r th
e f
low
th
rou
gh
th
e p
lan
t. It
do
es
no
t in
clu
de
th
e E
Q f
low
s.
54
Effluent Ammonia Summary
AMMONIA
It is necessary to remove or reduce the amount of ammonia in the final effluent in order to
protect the receiving water. In the un-ionized form, ammonia is toxic to the aquatic life in
Lake Michigan. In the aeration system at the Wastewater Treatment Plant, the nitrifying bacteria
reduce the ammonia to nitrite and nitrate. The pH of the final effluent is monitored closely and
pH is reported as a time weighted average (TWA) of all of the daily pH data. The ammonia limit
varies based on the daily TWA pH because at higher pH, ammonia is more toxic to the biotic
make-up of the ecosystem. The treatment plant received a limit for seasonal ammonia in its
2015 WPDES Permit. The limit covers a six month seasonal period from November through
April.
Ammonia TWA Limit Nov - Apr
2015 Final Effluent EFF pH at TWA pH
JAN 9.52 7.35 31
FEB 9.80 7.22 35
MAR 10.08 7.32 31
APR 5.60 7.33 31
MAY 5.32 7.43 27
JUN 5.04 7.36 31
JUL 6.16 7.25 35
AUG 7.28 7.20 35
SEP 9.80 7.27 35
OCT 15.40 7.35 31
NOV 5.88 7.34 31
DEC 1.96 7.33 31
AVG 7.65 7.31 32
MAX 15.40 7.43 35
MIN 1.96 7.20 27
55
Ferric Chloride Summary
FERRIC CHLORIDE SUMMARY
Ferric chloride is used for phosphorus removal. The iron ion binds with the phosphorus and
settles out the phosphorus in the primary clarifiers.
Ferric chloride is an iron salt that is an industrial
scale commodity. The ferric chloride used at the
treatment plant is a purified byproduct of the steel
industry. Because of this, when the steel industry
experiences an economic downturn, the price of
ferric chloride for the treatment plant increases due to
a shortage of supply. A secondary cause of price
fluctuation is the amount of ferric chloride exported
to China
for use in
their fertilizers. As the amount of phosphorus in the
influent to the plant increases, the amount of ferric
chloride added also increases. The result is an
increase in the amount of sludge processed at the
plant. Low flows at the wastewater plant result in
increased ferric chloride dosage due to the higher
concentration of phosphorus in the wastewater. Plant
staff added pump, piping, and metering controls for
phosphorus removal in the final clarifiers.
Ferric Chloride Tanks
Ferric Chloride Controls
GALLONS $ GALLONS $ GALLONS $
JAN 22,823 $22,055 23,594 $22,302 20,713 $18,851
FEB 14,768 $14,210 23,116 $21,381 17,264 $15,903
MAR 13,082 $12,518 15,803 $14,354 14,332 $13,222
APR 10,227 $9,818 16,406 $14,944 12,524 $11,388
MAY 16,569 $15,851 12,956 $12,051 15,548 $14,092
JUN 11,595 $11,176 16,217 $14,993 18,049 $16,292
JUL 19,279 $18,508 18,598 $17,142 22,615 $20,357
AUG 26,611 $25,451 22,459 $20,544 22,077 $20,284
SEP 27,192 $26,265 19,718 $17,902 24,014 $21,875
OCT 24,927 $24,207 16,223 $14,799 23,333 $21,034
NOV 22,511 $21,853 26,214 $23,750 19,547 $17,574
DEC 21,707 $21,296 20,226 $18,085 10,733 $9,691
TOTAL 231,291 $223,208 231,530 $212,247 220,749 $200,563
AVG/DAY 634 $612 634 $581 605 $549
$/GAL $0.97 $0.92 $0.91
2013 2014 2015
56
Sodium Hypochlorite Summary
SODIUM HYPOCHLORITE SUMMARY
Sodium hypochlorite (NaOCL) is added to the equalization basins for pathogen destruction
(disinfection). NaOCL is also used to kill filamentous
bacteria (that hinder settling) in the secondary treatment
system. Sodium hypochlorite can be considered a
solution of dissolved chlorine gas in sodium hydroxide.
Its character is that of common household bleach or
"swimming pool" chlorine; however, sodium
hypochlorite for wastewater treatment usually is found in
12.5 % concentration. Chlorine is easily released from
the sodium hypochlorite due to the breaking of weak
ionic bonds with its base molecule, sodium hydroxide.
Piping material, valve selection, seal materials, pressure
relief, and stagnation control, are a few design, safety, and
operational measures to consider with the use of NaOCL
systems. Off-gassing occurs with sodium hypochlorite due to common decomposition of the
chemical, resulting in diminished potency and requiring the chemical to be replenished for
effective disinfection.
Sodium Hypochlorite Pumps
GALLONS $ GALLONS $ GALLONS $
JAN 2,846 $2,063 3,871 $2,748 0 $0
FEB 0 $0 0 $0 0 $0
MAR 1,967 $1,426 0 $0 0 $0
APR 2,711 $1,965 0 $0 1,570 $1,068
MAY 0 $0 1,792 $1,271 0 $0
JUN 455 $330 0 $0 0 $0
JUL 0 $0 497 $353 0 $0
AUG 4,025 $2,918 0 $0 903 $470
SEP 5,897 $4,258 0 $0 1,206 $627
OCT 1,938 $1,376 2,380 $1,690 5,541 $3,606
NOV 0 $0 427 $290 1,105 $818
DEC 0 $0 0 $0 2,177 $1,611
TOTAL 19,839 $14,336 8,967 $6,352 12,502 $8,200
Fed to RAS for filament control Hypo fed to both the influent and to the RAS
Fed to back due to high fecals Fed to influent for odor control
Fed to influent for tank repair Hypo fed to the RAS to control foaming filaments
2014 20152013
57
Sodium Bisulfite Summary
SODIUM BISULFITE SUMMARY
Sodium bisulfite (NaHSO3) is added to the equalization basin effluent to remove chlorine that
was added for pathogen control (disinfection). The
plant has a maximum daily limit of <37 parts per
billion (ppb) for chlorine. NaHSO3 is a clear, to
colorless to light yellow solution with a distinctive
odor. Sodium bisulfite is essentially very fine
crystallized sodium granules that are dissolved in a
bisulfite solution. Sodium bisulfite acts as a reducing
agent for purifying and destroying residual chlorine.
NaHSO3 used for wastewater treatment usually is
purchased at about 37% concentration. The solution
is acid reactive and an oxidizer when in contact with
air. Because sodium bisulfite is very reactive with
sodium hypochlorite, caution must be taken when using the two chemicals together and when
accepting and receiving deliveries of the two chemicals.
Sodium Bisulfite Pumps
GALLONS $ GALLONS $ GALLONS $
JAN 0 $0 0 $0 0 $0
FEB 0 $0 0 $0 0 $0
MAR 0 $0 0 $0 0 $0
APR 3,761 $4,376 0 $0 0 $0
MAY 0 $0 623 $938 0 $0
JUN 0 $0 0 $0 0 $0
JUL 0 $0 0 $0 0 $0
AUG 700 $1,035 0 $0 0 $0
SEP 0 $0 0 $0 0 $0
OCT 0 $0 0 $0 0 $0
NOV 0 $0 0 $0 0 $0
DEC 0 $0 0 $0 0 $0
TOTAL 4,461 $5,411 623 $938 0 $0
Fed to back due to high fecals
2014 20152013
58
Liquid Waste Haulers Summary
RACINE WASTEWATER TREATMENT PLANT
2015 LIQUID WASTE HAULERS SUMMARY
Month Gallons $ Gallons $ Gallons $ Gallons $
January 240,000 $1,399.20 26,500 $296.54 28,000 $592.76 294,500 $2,288.50
February 180,000 $1,049.40 80,000 $800.00 22,200 $392.94 282,200 $2,242.34
March 200,000 $1,166.00 43,300 $433.00 23,400 $414.18 266,700 $2,013.18
April 255,000 $1,619.25 32,500 $325.00 37,300 $660.21 324,800 $2,604.46
May 195,000 $1,238.25 36,900 $369.00 33,300 $589.41 265,200 $2,196.66
June 140,000 $889.00 44,000 $440.00 33,300 $589.41 217,300 $1,918.41
July 190,000 $1,206.50 28,000 $280.00 32,200 $569.94 250,200 $2,056.44
August 225,000 $1,428.75 31,000 $310.00 24,100 $426.57 280,100 $2,165.32
September 190,000 $1,206.50 34,600 $346.00 27,600 $488.52 252,200 $2,041.02
October 220,000 $1,397.00 32,000 $320.00 26,900 $476.13 278,900 $2,193.13
November 175,000 $1,111.25 19,500 $195.00 24,200 $428.34 218,700 $1,734.59
December 140,000 $889.00 10,300 $103.00 28,200 $499.14 178,500 $1,491.14
TOTAL 2,350,000 $14,600.10 418,600 $4,217.54 340,700 $6,127.55 3,109,300 $24,945.19
AVG. 195,833 $1,216.68 34,883 $351.46 28,392 $510.63 259,108 $2,078.77
Waste Hauler Rates for 2015
(Per 1,000) Jan-Mar: MMMA - $5.83 Jan: Pat's - $11.19 Jan: Stericycle - $21.17
(Per 1,000) Apr-Dec: MMMA - $6.35 Feb-Dec: Pats - $10.00 Feb-Dec: Stericycle - $17.70
Year Gallons Revenue2010 3,983,380 $29,179.01
2011 3,585,477 $26,323.85
2012 3,364,200 $28,144.71
2013 3,374,700 $26,575.31
2014 3,620,400 $29,078.88
2015 3,109,300 $24,945.19
PATS MMAA SERVICES TOTALSTERICYCLE
3,983,380
3,585,477
3,364,200 3,374,700
3,620,400
3,109,300
$29,179.01
$26,323.85$28,144.71
$26,575.31
$29,078.88
$24,945.19
$0.00
$5,000.00
$10,000.00
$15,000.00
$20,000.00
$25,000.00
$30,000.00
1,000,000
1,500,000
2,000,000
2,500,000
3,000,000
3,500,000
4,000,000
Re
ven
ue
Gal
lon
s
Gallons Revenue
59
Industrial Flow and Loadings
2015
Racine Total Flow Cl 2 Flow BOD TSS Phos NH3 TKN
Flow & Loadings Mgal Mgal Lbs Lbs Lbs Lbs Lbs
A&E Manufacturing 1.444 0.212 319 431 15.1 6.9 10.7
Burlington Graphic Systems 2.294 2.294 26,187 11,468 108.4 167.9 728.3
Butter Buds 1.215 0.922 7,040 1,889 39.2 53.1 280.7
Dura Color 0.910 0.750 2,926 1,358 42.5 136.3 366.5
Great Northern Corp 1.527 0.707 4,138 76 0.6 1,535 1,882
InSinkErator 17.805 0.859 3,369 690 42.5 146 227
Journal Times 0.429 0.201 737 696 1.1 15.1 51.0
Modine Manufacturing 0.731 0.000 0 0 0.0 0.0 0.0
S.C.Johnson (Howe St) 8.093 1.731 2,837 5,130 109.0 380 812
Shurpac 3.976 0.000 0 0 0.0 0.0 0.0
Styberg Engineering 2.013 2.013 12,289 416 288.0 114.8 987.3
Superior Industrial
API Heat Transfer 1.355 1.123 3,572 5,053 80.6 349.6 563.5
Twin Disc (21st St) 0.390 0.390 1,006 1,372 32.1 129 208
Twin Disc (Racine St) 1.494 0.000 0 0 0.0 0 0
Racine Plating Division 8.124 0.000 0 0 0.0 0.0 0.0
Wisconsin Plating Works 3.605 0.000 0 0 0.0 0.0 0.0
Total Racine 55.405 11.202 64,420 28,579 759 3,033 6,116
Mt. Pleasant Total Flow Cl 2 Flow BOD TSS Phos NH3 TKN
Flow and Loadings Mgal Mgal Lbs Lbs Lbs Lbs Lbs
SC Johnson (Process) 138.513 110.067 134,657 174,403 1,339 1,526 11,585
SC Johnson (Sanitary) 9.989 0.000 0 0 0 0 0
SC Johnson (JohnsonDiversey) 1.075 1.075 9,525 7,444 110 286 713
Case RMO 3.151 2.675 8,873 9,290 686 1,423 2,106
Putzmeister 1 1.497 1.497 4,083 2,508 91.8 139 401
Putzmeister 2 (telebelt &Paint) 0.619 0.619 5,235 1,881 110.4 413 785
Total Mt Pleasant 154.844 115.933 162,373 195,527 2,337 3,787 15,590
Sturtevant Total Flow Cl 2 Flow BOD TSS Phos NH3 TKN
Flow and Loadings Mgal Mgal Lbs Lbs Lbs Lbs Lbs
Andis 6.536 3.059 3,231 12,013 148 215 914
Cree/Delta 14.820 14.820 5,711 37,915 17,261 158.7 1,183.2
Powder Finishers 2.495 0.000 0 0 0 0.0 0.0
Kerry 3.115 3.115 159,817 69,232 1,152 295.9 3,325.2
BRP 15.391 3.540 4,930 4,880 215 413 860
Total Sturtevant 42.358 24.534 173,690 124,040 18,777 1,083 6,282
Kestral Hawk Landfill Total Flow Cl 2 Flow BOD TSS Phos NH3 TKN
Flow and Loadings Mgal Mgal Lbs Lbs Lbs Lbs Lbs
K hawk 16th 7.166 1.900 26,487 821 38.1 9,524 11,952
K hawk Oakes 7.282 0.000 0 0 0.0 0 0
Total Landfill 14.448 1.900 26,487 821 38 9,524 11,952
Caledonia Total Flow Cl 2 Flow BOD TSS Phos NH3 TKN
Flow and Loadings Mgal Mgal Lbs Lbs Lbs Lbs Lbs
Midland 0.666 0.666 3,918 1,626 41 1,069 1,398
Jensen Metal Products 1.440 1.440 1,234 519 843 17 114
Total Caledonia 2.106 2.106 5,152 2,145 885 1,086 1,512
Year Total
Industrial Flow and Loadings (Class 2)(Class 2 wastewater exceeds pollutant concentrations of domestic wastewater and is charged higher rate)
60
Maintenance & Energy
Maintenance & Energy
61
1
Gas Storage Sphere
62
Energy Independence with Biogas
Approximately 57% of the Wastewater Utility's energy needs are met from internal sources!!
Total
Average Daily Values (Ft 3 ) Gas to Gas to Gas to Dig Gas
Dig A Dig B Dig D Dig E Boilers Engines Flare Produced
Jan 49,986 46,831 45,253 58,602 15,814 184,858 0 200,672
Feb 52,132 47,269 50,423 56,131 8,072 196,882 0 204,954
Mar 59,460 51,536 56,321 56,325 21,880 200,431 1,330 223,641
Apr 44,521 56,292 65,949 50,634 28,200 186,404 2,790 217,395
May 0 69,407 70,899 53,408 11,795 181,177 780 193,752
Jun 0 40,329 71,409 84,767 3,884 190,813 1,809 196,506
Jul 0 53,756 69,738 66,316 4,460 183,014 2,336 189,810
Aug 43,426 44,895 42,910 49,527 3,699 164,322 130 168,151
Sep 39,801 34,745 42,980 60,190 17,514 147,076 13,125 177,716
Oct 39,733 34,357 33,781 58,546 19,262 145,993 1,161 166,417
Nov 41,830 38,756 44,001 54,531 17,411 161,232 476 179,119
Dec 52,653 44,556 44,188 52,730 41,890 151,546 692 194,128
AVG 35,295 46,894 53,154 58,476 16,157 174,479 2,052 192,688
Working Towards Energy Independence
Engines/Blowers
• Air for microorganisms in secondary treatment
• $208,632
Boilers
• Digesters and Building Heat
• $19,320
Engine Heat Exchangers
• Heat Recovery value
• $48,667
Total Value of Biogas& Heat Recovery:
$276,619
Biogas Monthly Production and Use
The Racine Wastewater Utility has been using biogas in its operations for over 50 years. Biogas
is a bi-product of decomposition from organic material in the digester operations. Biogas makeup
is approximately 60% methane and has a Btu value of 600 Btu/ft3 compared to 1000 Btu/ft3 for
natural gas. The Utility strives to make use of the biogas in the most cost efficient manner to
reduce overall energy needs. The biogas can be used in engines for aeration or boilers for
digester and building heat. Digester operation requires temperature maintained at 95o
Fahrenheit. Heat exchangers were installed to recover heat from the engines to preheat boiler
water to reduce energy used to heat digesters and buildings. Future goals are to reclaim more
energy from wastewater operations and to work towards the goal of energy independence
sometime in the future.
63
Water & Energy Consumption – Produced Energy vs. Total Energy Used
Month
100
CF
Water
Cost
$
Water
Natural
Gas
Therms
Cost
$
Nat. Gas
Conversion
Nat Gas
Therms to
kWh
Electric
kWh
Cost
$
Electricity
Biogas
kWh
Total
kWh
Used
%
Energy
Produced
kW
Peak
Demand
Jan 44,857 $33,169 1,314,310 602,069 $53,046 1,589,737 3,506,116 45 1,178
Feb 53,186 $35,408 1,558,350 515,949 $46,592 1,458,023 3,532,322 41 1,040
Mar 26,963 $49,073 32,033 $38,788 938,567 508,900 $46,281 1,713,562 3,161,029 54 1,056
Apr 17,420 $13,035 510,406 637,176 $61,806 1,615,607 2,763,189 58 1,663
May 12,170 $9,664 356,581 481,967 $48,922 1,545,676 2,384,224 65 1,367
Jun 26,945 $49,040 8,154 $6,022 238,912 454,561 $43,738 1,493,877 2,187,350 68 1,098
Jul 9976 $4,047 292,297 483,018 $42,491 1,514,214 2,289,529 66 889
Aug 10,729 $3,574 314,360 481,237 $43,532 1,402,899 2,198,495 64 960
Sep 24,155 $44,204 1,782 $3,782 52,213 563,974 $51,374 1,338,644 1,954,831 68 1,199
Oct 11,081 $7,590 324,673 516,701 $47,859 1,387,071 2,228,445 62 1,113
Nov 22,233 $18,252 651,427 503,067 $47,553 1,416,465 2,570,959 55 1,146
Dec 29,678 $54,014 27,777 $22,875 813,866 624,593 $60,975 1,548,331 2,986,790 52 1,663
TOTAL / AVG. 107,741 $196,331 251,398 $196,206 7,365,961 6,373,212 $594,169 18,041,694 31,780,868 57 1,198
PLANT WATER & ENERGY CONSUMPTION - 2015
0
500,000
1,000,000
1,500,000
2,000,000
2,500,000
3,000,000
3,500,000
4,000,000
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec
Produced Energy vs Total Used Energy
Total kWh Used Biogas kWh
100%
Produced Energy as % of Total Energy Used
Purchased Energy
0
500,000
1,000,000
1,500,000
2,000,000
2,500,000
3,000,000
3,500,000
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec
Produced Energy vs Total Used Energy
Total kWh Used Biogas kWh
57%
43%
Produced Energy as % of Total Energy Used
Produced Energy 57 Purchased Energy 43
64
Plant Energy Consumption & Cost
Plant Energy Consumption & Cost
Only the charts were used in the 2014 report!
$410,523
$489,939$517,992 $531,368 $537,590
$499,976
$572,836$545,217
$640,525$611,727
$594,169
$-
$100,000
$200,000
$300,000
$400,000
$500,000
$600,000
$700,000
0
1,000,000
2,000,000
3,000,000
4,000,000
5,000,000
6,000,000
7,000,000
8,000,000
2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015
Co
st $
Kw
h
Electrical Consumption & Cost
Kwh Cost $
$333,460
$305,599
$242,779
$313,568
$236,845
$191,884 $191,668
$126,176 $131,327
$196,206
$132,273
$-
$50,000
$100,000
$150,000
$200,000
$250,000
$300,000
$350,000
$400,000
0
100,000
200,000
300,000
400,000
2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015
Co
st $
The
rms
Natural Gas Consumption & Cost
Therms Cost $
65
Energy Efficiency Upgrades - LED Savings
Original Lamp Replaced With Original Lamp Replaced With Original Lamp Replaced With
Metal Halide LED High Pressure LED Florescent LED
WATTS PER FIXTURE 100 52 250 160 34 17
HOURS ON PER WEEK (EST.) 70 70 48 48 168 168
# OF FIXTURES ON 12 12 9 9 60 60
TOTAL KILOWATTS PER WEEK 84.00 43.68 108.00 69.12 342.72 171.36
AVERAGE COST PER YEAR $458.64 $238.49 $589.68 $377.40 $1,871.25 $935.63
FIXTURE COST (EACH) N/A $372.50 N/A $323.50 N/A $17.05
TOTAL SAVINGS PER YEAR
Energy Efficiency Upgrades - LED Savings 2015
The Utility received $510 in Focus on Energy rebates for these upgrades
Final Clairifier Poles 165 BFP 3rd Floor Tunnel Florescent
$220.15 $212.28 $935.63
66
Laboratory & Industrial Pretreatment
Laboratory & Industrial
Pretreatment
67
ICP (Inductively Coupled Plasma) Spectrometer
Measures Metals Down to Parts per Billion
68
Laboratory Services LABORATORY SERVICES
The laboratory at the Racine Wastewater Treatment Plant is a WDNR certified laboratory,
providing analytical support for regulatory compliance and plant process control, as well as
monitoring of samples for the Industrial Pretreatment and Hauled Waste programs. Certification
is maintained with annual proficiency test samples.
The laboratory staff is composed of a Laboratory Director, four analysts and the Pretreatment
Inspector who works in the lab when needed. The Laboratory Director is responsible for all
laboratory functions, standard operating procedures (SOPs) for each method, updating methods as
needed, entering lab results for DNR monthly eDMR reports and annual electronic land spreading
report. The Laboratory Director also is responsible for the administration of the Industrial
Pretreatment Program, acting as the Pretreatment Coordinator and fills the role of laboratory
safety director. Laboratory staff responsibilities include wet chemistry, bacterial analysis, metals
analysis by Inductively Coupled Plasma (ICP), computer evaluations of industrial discharges and
providing data for various WDNR and EPA reports. The Pretreatment Inspector performs all
industrial pretreatment inspections, dental inspections for the Mercury Pollution Minimization
Program, and for contacting all area Food Service Establishment (FSE) to survey them about Fats
Oils and Grease (FOG) program management. All staff undergoes regular training to enhance their
analytical skills and wastewater related knowledge. All laboratory personnel have a bachelor
degree in biology, chemistry or environmental science and are WDNR certified in the laboratory
subcategory as well as various other wastewater subcategories.
The laboratory staff performs process and quality control analyses, industrial user charge analysis,
waste strength information from outlying communities that discharge to the treatment plant,
analysis of hauled waste discharged at the treatment plant and analysis of industrial pretreatment
samples taken by the field crew. The laboratory collects monthly low-level influent and ultra-low
level final effluent mercury data for Mercury Pollution Minimization Plan (PMP) status reporting.
The plant has a final effluent mercury limit of 5.8 ng/L. Mercury samples are sent to a private
Wisconsin certified lab for analysis. The laboratory sends final effluent samples to a certified lab
for whole effluent toxicity (WET) testing. The samples are collected during a quarter of the year
specified by the WPDES permit. The laboratory also collects samples for low level arsenic and
ultra-low level mercury from Lake Michigan. Lake samples are collected quarterly for background
level determination; results are reported on the eDMR. The Racine Wastewater Laboratory
performs analyses on the plant influent and effluent. Tests include biochemical oxygen demand
(BOD), pH, total suspended solids (TSS), phosphorus (Total P) and nitrogen determinations (NH3
and TKN), metals analysis, fecal coliform and e coli determinations. Biosolids analyses include
percent solids, nutrient analysis, soluble phosphorus, metals analysis, volatile acid/alkalinity levels
and bacterial analysis. Cyanide is determined on industrial samples. Industrial and wastewater
plant metals data was compiled and evaluated for a local limits study submitted to the WDNR in
July 2014, with amendments added in October 2014. We are awaiting the WDNR determination
of our recommended local limits.
The laboratory was audited by the DNR in December 2015. The auditor commented on many
exceptional practices employed at the laboratory. There were 5 deficiencies noted, all of which
have been corrected.
69
Industrial Pretreatment Program Summary INDUSTRIAL PRETREATMENT PROGRAM
The Industrial Pretreatment Program is a federally mandated program which regulates industrial
wastewater discharges in Racine and surrounding communities. In 1984, the Utility became the
delegated Control Authority to regulate industrial discharges to the Racine Wastewater Treatment
Plant. The Utility regulates industries that fall under several federally mandated categorical
discharge limits, such as Metal Finishing, Electroplating, Metal Molding and Casting, Non-Ferrous
Metals Manufacturing, Soap and Detergent Manufacturing and Pesticide Formulating, Packaging and
Repackaging (PFPR).
Also included in the Pretreatment Program are industries serviced by the Racine Wastewater Utility
which do not fall into the Federal Government’s list of categorical industries. These industries are
non-categorical and are therefore regulated by the City of Racine local ordinance covering
wastewater discharges. The local industries included in the Industrial Pretreatment Program are
those industries that have the potential to impact the wastewater treatment plant processes or by-
products. There are permitted industries which do not discharge process waste, but have the potential
to exceed local limits if discharge were to occur. These industries must provide the Utility with a No
Discharge Statement every six months to maintain their status. There are also industries designated
as a Minimal Discharge. These industries seldom discharge or the discharge volume is minimal.
These industries self-sample and the Utility inspects them annually.
The laboratory staff at the Racine Wastewater Treatment Plant is responsible for industrial
wastewater sample scheduling, laboratory analyses, data handling, compliance evaluations,
enforcement actions and reporting requirements.
The Pretreatment Inspector reports to the Pretreatment Coordinator/Laboratory Director and is
available to work in the laboratory as needed. The Pretreatment Inspector is responsible for
scheduling inspections of each industry in the program at least once per year under the direction of
the Pretreatment Coordinator. The inspection process includes a walk-through of industrial processes
and discharges, inspecting the sample site, noting changed conditions, and verifying/reviewing spill
plans, toxic organic management plans (if required) and hauled waste records. Additional site-
specific inspections are scheduled if necessary. When directed to do so by the Pretreatment
Coordinator, the pretreatment inspector also visits industries that have the potential to be included in
the pretreatment program, as well as other industries that are under permitting consideration.
The two person sampling crew collects wastewater samples from all regulated industries. Laboratory
staff coordinates the sampling schedule, based upon industrial discharge status and compliance. The
laboratory works closely with the field crew in obtaining pretreatment samples, watching for changed
conditions of industrial discharge and to maintain contact with the industries.
The pretreatment program is self-funded. Regulated industries are charged annually for a discharge
permit and for all sampling and analysis that the Utility undertakes. All industrial discharge permits
have a four year term. Each industry was issued a new permit effective January 1, 2013. These
permits will expire December 31, 2016. Permits are modified as needed within this four year permit.
Modifications may include changing sampling sites, addition or deletion of discharge processes,
changing from categorical to local (or the reverse), change in discharge volume or change in
ownership. No industries were deleted or added to the pretreatment program in 2015. The estimated
total person hours used to implement the Pretreatment Program in 2015 was 2890 hours. The
estimated total cost of the program was $149,300.
70
INDUSTRIAL PRETREATMENT PROGRAM REVIEW 2015
In 2015, there were forty two (42) permitted industries in the industrial pretreatment program. There
were twenty (20) categorical and twenty-two (22) non-categorical industries regulated by the Racine
Pretreatment Program. Industrial categories regulated in 2015 include: twelve Metal Finishing, two
Electroplating, three Metal Molding and Casting, one Non-Ferrous Metals Manufacturing, one Soap
and Detergent Manufacturing and one Pesticide Formulating, Packaging and Repackaging (PFPR).
These categorical industries have specific numerical limits set by the Federal Government for
pollutants characteristically found in their process wastewater discharge. The parameters regulated
include oil & grease, ammonia, organic chemicals, cyanide and various metals. There are six no-
discharge permitted industries and two minimal discharge permitted industries.
The non-ferrous metals manufacturing industry changed location, which also resulted in a change in
limit calculations. Beck Aluminum submits biannual process water discharge and pounds of
aluminum poured. New limits are calculated every 6 months if necessary. A listing of the industries
divided by discharge category follows this summary. All regulated industrial users were inspected at
least once in 2015; some had additional follow up visits or specific site inspections.
No industries were in significant non-compliance (SNC) during 2015. Three industries were in
noncompliance during the 2nd six month period. Violations included one minor oil & grease
violation and two industries with zinc noncompliance. There were no treatment plant upsets and the
plant did not exceed any discharge limits as a result of industrial non-compliance. One waste hauler
also exceeded the local limit for zinc discharge and was notified of the ordinance violation. All
industries and waste haulers that are in noncompliance are required to investigate the cause of the
noncompliance and provide the Utility a written response, explaining the cause and how the
noncompliance will be resolved. Continuing noncompliance results in increased enforcement. Pretreatment Streamlining changes were drafted for the Racine Wastewater Ordinance and Industrial
Discharge Permits. These changes, incorporating both mandatory and optional revisions, were
submitted to the Wisconsin DNR Pretreatment Coordinator for review and comment. The draft
document was submitted to the DNR in January 2015. We are still awaiting DNR approval of the
proposed changes.
Pollution Prevention activities included distributing information, attending training seminars and
recognizing industries in total compliance with a congratulatory letter and certificate. The Racine
Wastewater Utility continues to promote mercury recycling and reduction in the Racine area through
their Mercury Pollution Prevention Plan.
71
Permitted Industrial Users
RACINE WASTEWATER PERMITTED INDUSTRIAL USERS 2015
METAL FINISHING
BRP USA (BOMBARDIER) JENSEN METAL PRODUCTS CNH RMO KOLAR ARMS/LETSCH MANUFACTURING CHROMIUM, INC POWDER FINISHERS/(SETROK) CREE (RUUD) LIGHTING–DELTA FINISHING DIV SHURPAC, INC D & D INDUSTRIAL FINISHING PLT #1 SUPERIOR INDUSTRIAL – INDIANA STREET D & D INDUSTRIAL FINISHING PLT #2 (ND) THERMAL TRANSFER PRODUCTS
ELECTROPLATING – JOB SHOPS
WISCONSIN PLATING WORKS WIS PLATING - RACINE PLATING DIVISION
METAL MOLDING & CASTING
IN-SINK-ERATOR (H) WOODLAND/ALLOY CASTING PREMIER ALUMINUM (ND)
NON-FERROUS METALS MANUFACTURING
WISCONSIN ALUMINUM RECYCLING DBA: BECK ALUMINUM RACINE (MET-AL)
PESTICIDE FORMULATING, PACKAGING AND REPACKAGING
SC JOHNSON & SON – WAXDALE FACILITY
SOAP AND DETERGENT MANUFACTURING
DW DAVIES (ND)
NON-CATEGORICAL
A & E MANUFACTURING MODINE MANUFACTURING ACE STAMPING & MACHINE (ND) MOTOR SPECIALTY (ND) ANDIS COMPANY PUTZMEISTER, INC BUTTER BUDS FOOD INGREDIENTS RACINE WATER UTILITY DIVERSEY INC (RDE) (MD) SC JOHNSON – HOWE STREET FACILITY DURA COLOR STERICYCLE (HW) GREAT NORTHERN CORPORATION (E.C.) STYBERG ENGINEERING INDUSTRIAL FINISHING (ND) TWIN DISC – RACINE STREET (H) JOURNAL TIMES TWIN DISC – 21st STREET (H) KHP LANDFILL (REPUBLIC SERVICES) WE ENERGIES MIDLAND PACKAGING AND DISPLAY WISCONSIN SCREEN PROCESS (MD)
No discharge (ND) / Minimal Discharge (MD) H = haul process waste off site HW = hauled waste
72
Summary of Treatment Plant Mercury Data
2014
Date Conc. Test Date Conc. Test % Date Conc. Test
2014 ng/L Method 2014 ng/L Method Removal 2014 mg/kg Method
01/07/14 32.00 245.7M/1631M 01/07/14 2.50 EPA 1631E 92.2 01/07/14 0.79 EPA 200.8, Rev 5.4
02/25/14 20.00 245.7M/1631M 02/04/14 2.90 EPA 1631E 85.5 02/04/14 0.56 EPA 200.8, Rev 5.4
03/04/14 19.00 245.7M/1631M 03/04/14 3.00 EPA 1631E 84.2 03/04/14 0.78 EPA 200.8, Rev 5.4
04/09/14 21.00 245.7M/1631M 04/09/14 1.60 EPA 1631E 92.4 04/09/14 0.37 EPA 200.8, Rev 5.4
05/06/14 23.00 245.7M/1631M 05/06/14 1.20 EPA 1631E 94.8 05/06/14 0.39 EPA 200.8, Rev 5.4
06/10/14 25.00 245.7M/1631M 06/10/14 1.50 EPA 1631E 94.0 06/10/14 0.41 EPA 200.8, Rev 5.4
07/08/14 31.00 245.7M/1631M 07/08/14 1.50 EPA 1631E 95.2 07/08/14 1.10 EPA 200.8, Rev 5.4
08/05/14 50.00 245.7M/1631M 08/05/14 1.90 EPA 1631E 96.2 08/05/14 0.55 EPA 200.8, Rev 5.4
09/23/14 35.00 245.7M/1631M 09/23/14 2.30 EPA 1631E 93.4 09/09/14 0.47 EPA 200.8, Rev 5.4
10/08/14 23.00 245.7M/1631M 10/08/14 0.96 EPA 1631E 95.8 10/08/14 0.50 EPA 200.8, Rev 5.4
11/05/14 53.00 245.7M/1631M 11/05/14 1.50 EPA 1631E 97.2 11/05/14 0.41 EPA 200.8, Rev 5.4
12/02/14 16.00 245.7M/1631M 12/06/14 1.10 EPA 1631E 93.1 12/02/14 0.39 EPA 200.8, Rev 5.4
Influent Effluent Removal Biosolids
average average 92.8% average
2015
Date Conc. Test Date Conc. Test % Date Conc. Test
2015 ng/L Method 2015 ng/L Method Removal 2015 mg/kg Method
01/06/15 20.00 245.7M, Rev 2.0 01/06/15 1.60 EPA 1631E, 2002 92.2 01/06/15 0.48 SW 846 7471A
02/03/15 16.00 245.7M, Rev 2.0 02/03/15 1.20 EPA 1631E, 2002 85.5 02/03/15 0.42 SW 846 7471A
03/10/15 28.00 245.7M, Rev 2.0 03/10/15 1.10 EPA 1631E, 2002 84.2 03/10/15 <0.25 SW 846 7471A
04/07/15 32.00 245.7M, Rev 2.0 04/07/15 1.30 EPA 1631E, 2002 92.4 04/07/15 <0.28 SW 846 7471A
05/06/15 15.00 245.7M, Rev 2.0 05/06/15 1.10 EPA 1631E, 2002 94.8 05/06/15 0.33 SW 846 7471A
06/02/15 20.00 245.7M, Rev 2.0 06/02/15 1.10 EPA 1631E, 2002 94.0 06/02/15 0.56 SW 846 7471A
07/07/15 36.00 245.7M, Rev 2.0 07/07/15 1.60 EPA 1631E, 2002 95.2 07/07/15 0.34 SW 846 7471A
08/04/15 36.00 245.7M, Rev 2.0 08/04/15 1.20 EPA 1631E, 2002 96.2 08/04/15 0.50 SW 846 7471A
09/01/15 25.00 245.7M, Rev 2.0 09/01/15 6.20 EPA 1631E, 2002 93.4 09/01/15 0.44 SW 846 7471A
10/07/15 28.00 245.7M, Rev 2.0 10/07/15 0.90 EPA 1631E, 2002 95.8 10/07/15 0.35 SW 846 7471A
11/03/15 48.00 245.7M, Rev 2.0 11/03/15 1.40 EPA 1631E, 2002 97.2 11/03/15 0.50 SW 846 7471A
12/01/15 22.00 245.7M, Rev 2.0 12/01/15 1.50 EPA 1631E, 2002 93.1 12/01/15 0.49 SW 846 7471A
Influent Effluent Removal Biosolids
average average 92.8% average
Is there a mercury limit in the local sewer use ordinance?Yes
If yes, what is it? 0.10 mg/l
Laboratory doing mercury analysis:
Northern Lake Service #721026460
The Racine Wastewater Treatment Plant samples influent, effluent and biosolid samples monthly for low-level and ultra-low level mercury.
Influent, effluent and biosolids concentrations have decreased slightly from 2014 to 2015.
Influent Effluent Biosolids
27.17 1.68 0.44
29.00 1.83 0.56
RACINE WASTEWATER TREATMENT PLANT
Summary of Treatment Plant Analytical Mercury Data
Influent Effluent Biosolids
73
Mercury Minimization Program
2015 - MERCURY MINIMIZATION PROGRAM
The Racine Wastewater Treatment Plant WDNR permit number WI-0025194-07-1 required that the
Utility submit annual status reports on the progress of the Mercury Pollutant Minimization Program. The
new Racine WPDES permit number WI-0025194-08-0 has an effluent mercury limit of 5.8 ng/L. The
goal remains to reduce mercury coming into the plant. The annual status report is now due to the WDNR
by September 30 of each year. Each report covers the period from January 1 to December 31 of the
previous year. The initial plan was submitted in March 2006, following two years of wastewater
monitoring.
The Utility continues to survey different sectors thought to contribute mercury to the waste stream.
Sectors surveyed have been schools, medical facilities, industries, general public and dental facilities.
Contacts have been made with each of these sectors by mail and phone. Best Management Practices
(BMPs) are used by the various mercury source sectors to reduce or eliminate mercury contributions to
the wastewater. All Racine area dental facilities that place or remove amalgam dental fillings are required
to have amalgam separators and are required to implement Best Management Practices for Dental
Facilities as outlined by the American Dental Association. Health centers and schools are committed to
be mercury-free. School and medical facility status is updated as needed. The Utility accepts mercury
thermostats at no charge by partnering with the Thermostat Recycling Corporation (TRC). Thermostats
are collected from the public at all scheduled household hazardous waste events and at the wastewater
plant from area contractors. Accumulated thermostats are stored in the designated container and sent in
for recycling as needed, but at least annually.
The Utility will continue to monitor the wastewater effluent to assess progress towards the Water Quality
Limitation. Annual reporting of the Mercury PMP to the WDNR will evaluate progress. The 2015
Community Mercury PMP Score, the laboratory data from 2014 and 2015, as well as a graph of the
measured mercury in the influent and effluent from 2003-2015 are included in this report.
Mercury is measured in ng/l (nanograms per liter) or PPT (parts per trillion); the units are interchangeable. Influent
and effluent levels have decreased since 2003.
0
20
40
60
80
100
120
0.0
1.0
2.0
3.0
4.0
5.0
6.0
7.0
2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015
PP
T M
erc
ury
in
In
flu
en
t
PP
T M
erc
ury
in
Eff
lue
nt
Year
2003-2015 Yearly Average Influent/Effluent Mercury PPT
Effluent WQ Criteria Permit Limit Influent
74
2015 Community Mercury PMP Score
2015 Community Mercury PMP Score
Facility Name: Racine Wastewater Utility
Report Period: January 1, 2015 – December 31, 2015
I. Wastewater Sectors: (Should be included in Mercury PMP Plan)
Sector Sector Score X Weighting Factor* = Weighted Sector Score
A: Medical (from Form 4C) 100 X (0.15) = 15.0
B: Dental (from Form 5C) 98 X (0.50) = 49.0
C: School (from Form 6C) 100 X (0.15) = 15.0
D: Industry (from Form 7C) 100 X (0.20) = 20.0
Total Wastewater Sectors Score 99.0
*Weighting factor is the relative fraction of mercury to POTW that is attributable to each sector. If you know what fraction comes from each sector you can
adjust accordingly. The weighting factors must add up to 1. Use default values in parenthesis above if unknown.
II. Other Community Sectors: (May be included in Mercury PMP Plan)
Sector Sector Score X Weighting Factor** = Weighted Sector Score
A: General Public (from Form 8A) 100 X (0.1) = 10.0
B: HVAC (from Form 8B) 4 X (0.1) = 0.4
C: Auto Switch (from Form 8C) 0 X (0.1) = 0.0
D: Fluorescent Bulb (from Form 8D) 60 X (0.1) = 6.0
Total Other Community Sectors Score 16.4
**Weighting factor is between 0.0 and 0.1. Wisconsin’s weighting factor is 0.1.
III. Other Credits: (May be included in Mercury PMP Plan)
Other Score X Weighting Factor** = Weighted Score
A: Historical (from Form 9A) 23 X (0.1) = 2.3
B: Extra-Jurisdictional (from Form 9B) 9 X (0.1) = 0.9
Total Other Credits Score 3.2
**Weighting factor is between 0.0 and 0.1. Wisconsin’s weighting factor is 0.1.
IV. 2015 Community Mercury PMP Score:
Total Score
Sum of Wastewater Sectors, Other Community Sectors and Other PMP Credits 118.6
V. 2014 Community Mercury PMP Score:
Total Score
Sum of Wastewater Sectors, Other Community Sectors and Other PMP Credits 117.6
75
Stalked Ciliate Protozoa
Type 021N Filamentous Microorganism
76
Collection System / Lift Stations
Collection System /
Lift Stations
77
Field Services Building
Field Services/Vehicle Garage
78
Collection System and Lift Stations - 2015 COLLECTION SYSTEMS AND LIFT STATIONS - 2015
In 2015, the Utility continues to focus on the Capacity, Management, Operations and
Maintenance Program (CMOM). The CMOM Program is being developed by the United States
Environmental Protection Agency and the Wisconsin Department of Natural Resources. The
goal of the program is to develop guidelines for the operation and maintenance of wastewater
collection systems.
In February of 2010, the Utility became a member of Diggers Hotline. The Field Operations
staff spent many hours establishing areas of concern and relaying them to Diggers Hotline. The
Utility then contracted with USIC Locating Services in order to establish the most cost effective
manner of locating and marking our underground infrastructure.
The Utility continues to implement flow studies within the collection system, in an attempt to
pinpoint infiltration and inflow. In 2015, we monitored flow in the west side area of the City of
Racine covering about 161,381.6 LF.
The Utility implemented an interceptor closed circuit televising program in 2010. The Utility
owns 252,084 linear feet of interceptor sewers, ranging in size from 6 inch to 84 inch. Under the
2015 contract, we televised a total of 23,251 linear feet of interceptor sewer and inspected
37 manhole structures. When minor defects or obstructions are discovered, they are dealt with
immediately. Larger defects are assessed and scheduled for repair in a timely manner. The
intent is to televise the interceptor system within a 10 year period.
Linear
Feet
Televised
(000)
Cumulative
Total
(000) % of Total
Number of
Structure
Inspections
2010 23.4 23.4 9% 98
2011 26.3 49.7 20% 106
2012 22.7 72.4 29% 110
2013 48.6 121.0 48% 211
2014 18.6 139.6 55% 33
2015 23.3 162.9 65% 37
In 2008, the Utility formed a Technical Advisory Committee. The Committee members
represent the Wastewater Utility and outlying communities. They were selected for their
expertise and understanding of the Racine Wastewater Utility system. The Committee continues
to work on immediate and long term issues in the system, cost-sharing between municipalities,
understanding the sewer agreement, and development of strategies for streamlining future
projects. The Storage Optimization Study was completed in late 2009. This study identified
$193 million in improvements to the regional collection system to mitigate bypassing and
backups. The improvements would be completed in stages over a period of time to
accommodate 2035 peak flows anticipated during a 40 year storm event.
The Utility re-laid 1,774 linear feet of interceptor throughout the City in 2015 at a cost of
$676,319.75.
79
In 2015, the Utility replaced the control panel at lift station #5; located at 1530 13th
St. The
aging control panel was located in the parkway adjacent to the station. The new walk in
structure is now located in a fenced in area adjacent to the standby generator and has an arc flash
safe control panel. The pumps are now controlled by a level transducer and have a backup float
system for additional reliability.
The Vactor crew continues to do an outstanding job of maintaining the City of Racine’s
203 miles of sewer mains that make up the collection system, as well as the Utility owned
52 miles of interceptors and force mains. In 2015, the crew cleaned 558,117 linear feet
(105.7 miles) of the 255 miles of sewer in the collection system. The crew used our root saws on
59,531 linear feet of sewer mains, and responded to 132 sewer calls; 2 of which required
corrective action by the Utility. They also responded to 7 requests for assistance from other City
departments.
The Lift Station Crew does an exceptional job maintaining the Utility’s lift stations and storage
basins. The crew also maintains the lift stations owned by the City of Racine’s Parks
Department.
It should be noted that the Racine Wastewater Utility operates and maintains the regional
sanitary sewer infrastructure in the area of Racine. Local municipalities, including the City of
Racine, have the responsibility of maintaining their own collection systems that feed into the
Utility system.
LIFT STATION #1
736 Washington Ave.
The lift station was originally constructed in 1931. It is the largest station in the collection
system, providing half of the treatment plant’s flow. The East side of lift station #1 was
constructed in 1989, doubling the capacity of the original station. In 2004, the West side was
completely updated with new pumps, controls, and a stainless steel crawler barscreen. In 2005,
the East pumps were reconditioned and the variable frequency drives were replaced. In 2005,
the Utility also added a 2000kW, 480V diesel powered generator and building. In 2006, the
aging bar screen on the East side was replaced with a stainless steel crawler bar screen.
LIFT STATION #2
2022 Spring St.
Originally constructed in 1931, the station was modified in 1965. A third pump was added in
1970. Area growth required an additional upgrade. In 1994 the station was redesigned,
increasing the capacity to 9.072 MGD. An additional force main and dedicated stand-by
generator was added at that time. In 2004, the Utility completed construction of an emergency
bypass pumping station. The 2-Flygt pumps have the ability to pump 2.880 MGD directly to the
storm water system, thereby preventing basement backups in the area. In 2009, the 12 inch force
main from the station was replaced. In 2010, the Utility completed the upgrade of the standby
generator. The generator output was increased from 100kW to 250kW, 480V. As part of the
project, we improved the flood protection of the station.
80
LIFT STATION #3
1004 Riverbrook Dr.
The station was originally constructed in 1984. Upgrade of this station’s pumps occurred in
1996. The 1.6 hp submersible pumps were converted to 2.4 hp. In 2010, the station received a
complete upgrade. A walk in control structure with an arc flash safe control panel was installed.
The panel uses VFD motor starters in order to convert 1-phase to 3-phase power. The 3 hp
pumps have greater capacity, as well as improved efficiency and reliability. This upgrade
increased the station capacity from 0.430 MGD to 0.648 MGD.
LIFT STATION #4
6 - 5th
St.
The original lift station was constructed in 1967 as a pneumatic ejector station. This station was
moved and upgraded in 1987 in conjunction with the Festival Site development project. A
“package can” station, Lift Station #4 contains two 7.5 hp pumps with a capacity of 1.82 MGD.
In 2014, the Utility replaced the control panel which was located underground in the “can”. The
new walk in structure is located in the adjacent parking ramp, and has an arc flash safe control
panel. The station serves Lakeshore Towers, the Festival site, and Pershing Park.
LIFT STATION #5
1530 - 13th
St.
The lift station was originally constructed in the summer of 1955 as a pneumatic ejector station.
In 1971 it was converted to a wet well and submersible pumps were installed. In 1989 a
$165,000 lift station upgrade and force main reconstruction project replaced the existing station.
The two new 24 hp submersible pumps and redirected force main solved wet weather overload
problems at lift stations #5 and #10. The project was completed in January of 1990. In 2007, the
Utility replaced one of the original pumps; the old pump will remain in service as a spare. In
2015, the Utility replaced the control panel which was located on the parkway adjacent to the
station. The new walk in structure is located next to the standby generator and has an arc flash
safe control panel. This station serves a 10-block area in the vicinity of the station, and its new
capacity is 2.06 MGD
LIFT STATION #6
3236 Drexel Ave.
The original design in 1955 was a pneumatic system that called for two-150 gallon ejectors. In
1970, two more ejectors were added to handle the growth of the area. This station had a major
renovation in 1996; the ejectors were eliminated and replaced with centrifugal pumps. The
pumps are driven by 15 hp motors. This upgrade increased the capacity of the station from
2.08 MGD to 3.02 MGD. Additional capacity can easily be obtained by simply increasing the
size of the impeller. The automatic transfer switch for the stand-by generator was replaced in
2005. In 2006, the Utility replaced an aging stand-by generator with an 85kW natural gas
powered generator. On April 9, 2011 the utility discovered the 12 inch force main was leaking
under the building. An emergency repair was implemented, and we replaced the first 85 feet of
force main from the building to the street.
81
LIFT STATION #7
45 Steeplechase Dr.
This station was originally constructed in April of 1958 as a pneumatic ejector station. The
station was converted to a wet well with submersible pumps in April of 1999. The lift station
has two 7.5 hp pumps with a capacity of 1.22 MGD. As part of this upgrade, a stand-by
generator was added for operation during emergency situations.
LIFT STATION #8
3625 Rapids Ct.
A 1986 construction project combined two existing stations into one new one. One station was
located on the west side of the Root River, the other on the east side dating back to 1958. The
new “package can” station contains three 40 hp centrifugal pumps with total capacity of
5.25 MGD. This lift station serves several blocks on either side of Northwestern Avenue from
Golf Avenue to Highway 31. Construction included the installation of stand-by generator for
emergency power. The pump control system was updated in 2006, replacing the soft starts and
adding bypass circuitry that will allow the pumps to run in the event of a soft start failure. In
2012, the Utility completed an upgrade on the standby generator. The generator output was
increased from 100kW to 150 kW, 480V.
LIFT STATION #9
3908 Francis Dr.
This station was originally constructed in April of 1955. The station was equipped with
pneumatic ejectors and had a capacity of 0.07MGD. In the spring of 1995, the station was
converted to a wet well with submersible pumps, increasing the capacity to 0.173 MGD. This
lift station serves the area north of Vista Drive between Harrington Drive and Spring Valley
Drive. In 2009, the 5 hp pumps were replaced with 7.5 hp pumps to increase the station’s
capacity during high flow situations. The 5 hp pumps will be used for spares.
LIFT STATION #10
800 S. Memorial Dr.
The station was originally constructed in 1962. In order to increase capacity, a third pump was
added to the station in 1986. In 2000, the aging pumps and control system were replaced with
two higher capacity pumps. In 2005, the Utility replaced an aging stand-by generator with a
44 kV.A/240V natural gas powered generator and new automatic transfer switch. In 2008, the
Utility replaced an aging KSB pump with a Fairbanks Morse Model 5442. In 2009, the Utility
installed a second Fairbanks Morse pump; the exiting KSB pump will remain in service as a
spare or to be used in high flow situations when extra capacity is required. In 2010, the 6 inch
force main and flow meter were replaced with a 10 inch force main and meter. This increased
the capacity from 2.44 MGD to 3.67 MGD.
LIFT STATION #11
2750 Old Mill Dr.
The Utility took ownership of this station in November of 1993 after requested improvements
were made by the previous owner. The station provides service for the residents of Old Mill
Road. It is equipped with two submersible pumps and has a capacity of 0.792 MGD. In 2002,
the Utility installed a dedicated stand-by generator and automatic transfer switch. In
November of 2008, the Utility completed an upgrade of the station including valves, pumps,
telemetry, and controls.
82
LIFT STATION #12
334 Parkview Dr.
Construction of this new lift station began in October 1999. The station went on-line in
December 1999. This station handles the flow along the Root River on Parkview Drive. Lift
Station #12 has two 3.4 hp submersible pumps with a flow capacity of 0.346 MGD.
LIFT STATION #13
1100 N. Main St.
This station came on line in March of 2002 and handles the flow from Hamilton to Dodge Street
on Main Street. The station is equipped with two 1.5 hp submersible pumps rated at
0.128 MGD.
LIFT STATION #14
3205 Michigan Blvd.
The Utility added a new lift station to the collection system in 2009. This lift station went on
line September 11, 2009. The purpose of the station is to isolate homes in the area from a
36 inch interceptor that can become surcharged during high flow conditions. The station is
equipped with two 5 hp pumps, each capable of pumping 500 gallons per minute. In order to
protect the esthetics of the neighborhood, the station is located underground with the control
panel and standby generator located at remote sites in the area.
NORTH SIDE STORAGE BASIN
3026 Mt. Pleasant St.
The construction of a North side 8.4 MG storage basin was completed in 2004. This in-ground
storage basin serves the Caledonia area during high flow situations. The storage basin is placed
in operation during periods of high flow and emptied when flows return to normal levels.
GROVE AVENUE STORAGE BASIN
1218 Grove Ave.
The Utility completed construction of the Grove Avenue Storage basin in March of 2008. The
storage basin reduces the potential for sanitary overflow into the storm water system by
providing storage of 650,000 gallons of peak sanitary flow. The stored wastewater is pumped
back into the collection system when the flow returns to normal. The tank was utilized three
times in 2008.
OHIO STREET IN-LINE STORAGE
The Utility completed the construction of the Ohio Street interceptor sewer. It was available for
service in March of 2009. The sewer is located under Ohio Street between Ridgeway Avenue
and the northern boundary of Lockwood Park; it continues east in the park from Ohio Street to
Illinois Street. The sewer protects properties on Virginia Street, which are connected to a
21 inch interceptor, from basement backups by providing 160,000 gallons of in-line overflow
storage.
83
SCADA
The SCADA system is always being tuned and refined as more is being learned about the
functionality of the system. The Utility is becoming more efficient through the operation of this
tool. In 2010, the Utility began upgrading the software that controls the SCADA system. The
Utility started investigating the use of the SCADA system as a security and monitoring tool in
2001 due to the environment in which we have lived since September 11, 2001.
84
Lift Station Flow Summaries
2015 Summary of Lifts #2 - #13
Time Total Avg Plant Plant WE
Period MG MGD % Flow KWH $
January 30.319 0.978 6.79 446.66 23,465 3,415
February 25.514 0.880 7.06 361.46 18,948 2,708
March 48.503 1.565 7.06 686.57 19,278 2,752
April 59.110 1.970 7.57 780.61 23,016 3,237
May 51.666 1.667 7.43 695.28 23,224 3,264
June 39.647 1.322 7.09 559.03 19,177 2,740
July 31.752 1.024 6.84 463.89 16,646 2,404
August 30.032 0.969 6.87 437.11 14,500 2,122
September 30.041 1.001 6.81 441.45 14,843 2,183
October 27.613 1.446 7.19 384.02 15,023 2,193
November 42.374 1.255 7.06 600.55 15,995 2,326
December 57.517 1.345 6.97 824.94 23,629 3,348
2015 474.090 1.285 7.06 6,681.57 227,744 $32,692
2014 646.554 1.829 8.86 7,656.90 246,223 $37,005
2013 432.831 1.269 7.58 5,686.29 219,630 $31,110
2012 546.819 1.552 7.64 7,160.50 264,201 $36,652
Lift Station #1
Time Total Avg Max Min WE
Period MG MGD MGD MGD KWH $
January 249.267 8.041 10.021 7.225 85,355 $10,478
February 206.094 7.118 9.017 6.508 68,630 $8,700
March 357.872 11.544 17.389 7.314 77,619 $10,478
April 412.647 13.755 36.012 8.409 110,654 $15,975
May 390.766 12.605 28.629 9.319 108,469 $15,556
June 293.667 9.789 15.290 7.766 83,179 $10,482
July 257.855 8.318 10.848 6.522 77,225 $9,548
August 234.241 7.556 9.523 6.498 77,802 $10,031
September 230.825 7.694 12.243 6.178 69,424 $10,005
October 212.883 6.867 11.651 5.929 63,524 $8,048
November 315.329 10.511 29.611 6.698 71,454 $10,146
December 416.978 13.899 28.481 8.703 101,391 $13,051
2015 3,578.424 9.808 36.012 5.929 994,726 $132,498
2014 3,648.299 9.972 49.496 6.193 1,050,774 $146,305
2013 3,143.996 8.536 42.442 5.801 926,165 $113,893
2012 3,945.641 10.821 50.777 6.196 1,130,958 $137,721
85
Lift Station #2
Time Total Avg Max Min WE
Period MG MGD MGD MGD KWH $
January 9.871 0.318 0.364 0.290 5,160 $717
February 8.351 0.288 0.310 0.265 3,400 $462
March 15.356 0.495 0.785 0.271 3,600 $489
April 18.169 0.606 1.621 0.381 4,800 $643
May 16.658 0.537 1.233 0.390 4,600 $616
June 12.420 0.414 0.657 0.339 4,440 $598
July 10.679 0.344 0.467 0.280 3,720 $503
August 9.876 0.319 0.395 0.282 3,280 $446
September 10.117 0.337 0.517 0.278 3,480 $475
October 9.108 0.294 0.512 0.242 3,160 $432
November 13.856 0.462 1.436 0.296 3,120 $427
December 18.035 0.601 1.262 0.356 4,880 $656
2015 152.495 0.418 1.621 0.242 47,640 $6,464
2014 155.342 0.425 3.493 0.264 53,880 $7,643
2013 135.187 0.367 1.864 0.245 49,880 $6,678
2012 166.196 0.456 1.975 0.253 64,200 $8,450
Lift Station #3
Time Total Avg Max Min WE
Period MG MGD MGD MGD KWH $
January 0.631 0.020 0.025 0.018 1,376 $202
February 0.544 0.019 0.020 0.017 1,308 $188
March 1.203 0.039 0.082 0.018 1,439 $207
April 1.487 0.050 0.193 0.023 1,417 $203
May 1.401 0.045 0.156 0.028 1,305 $188
June 0.862 0.029 0.049 0.019 1,120 $165
July 0.590 0.019 0.031 0.015 775 $118
August 0.501 0.016 0.022 0.013 573 $91
September 0.529 0.018 0.035 0.014 629 $101
October 0.483 0.016 0.029 0.013 611 $97
November 0.874 0.029 0.123 0.015 680 $106
December 1.310 0.044 0.117 0.020 994 $150
2015 10.415 0.029 0.193 0.013 12,227 $1,816
2014 11.939 0.033 0.397 0.013 15,295 $2,323
2013 8.499 0.023 0.190 0.011 12,851 $1,788
2012 9.188 0.025 0.159 0.011 11,459 $1,601
86
Lift Station #4
Time Total Avg Max Min WE
Period MG MGD MGD MGD KWH $
January 0.169 0.005 0.006 0.005 1,559 $223
February 0.163 0.006 0.007 0.004 1,437 $206
March 0.170 0.005 0.014 0.004 1,326 $191
April 0.186 0.006 0.010 0.005 1,256 $183
May 0.277 0.009 0.016 0.006 1,260 $184
June 0.258 0.009 0.014 0.006 1,068 $157
July 0.380 0.012 0.029 0.008 1,059 $156
August 0.272 0.009 0.014 0.007 1,067 $157
September 0.258 0.009 0.018 0.007 1,321 $193
October 0.227 0.007 0.010 0.005 813 $124
November 0.173 0.006 0.009 0.005 941 $141
December 0.170 0.006 0.009 0.005 1,521 $223
2015 2.705 0.007 0.029 0.004 14,628 $2,138
2014 3.079 0.008 0.032 0.003 15,920 $2,455
2013 3.729 0.010 0.049 0.003 15,400 $2,227
2012 3.906 0.011 0.044 0.003 16,127 $2,316
Lift Station #5
Time Total Avg Max Min WE
Period MG MGD MGD MGD KWH $
January 1.887 0.061 0.073 0.052 2,307 $330
February 1.878 0.065 0.078 0.056 1,929 $271
March 2.723 0.088 0.134 0.065 1,977 $278
April 3.321 0.111 0.271 0.065 2,403 $335
May 3.309 0.107 0.207 0.073 2,076 $291
June 2.507 0.084 0.138 0.065 1,712 $243
July 2.091 0.067 0.090 0.056 1,479 $214
August 2.101 0.068 0.103 0.052 1,348 $195
September 1.874 0.062 0.103 0.047 1,365 $198
October 1.723 0.056 0.090 0.047 1,266 $184
November 2.520 0.084 0.254 0.047 1,594 $229
December 3.270 0.109 0.194 0.073 2,770 $383
2015 29.204 0.080 0.271 0.047 22,226 $3,151
2014 31.637 0.087 0.237 0.047 22,559 $3,374
2013 23.111 0.063 0.271 0.034 16,485 $2,372
2012 30.185 0.083 0.332 0.034 19,836 $2,797
87
Lift Station #6
Time Total Avg Max Min WE
Period MG MGD MGD MGD KWH $
January 4.425 0.143 0.171 0.127 1,950 $294
February 3.672 0.126 0.146 0.112 1,400 $202
March 7.426 0.240 0.412 0.111 1,320 $191
April 9.910 0.330 1.131 0.168 1,923 $271
May 6.940 0.224 0.446 0.158 2,874 $396
June 5.719 0.191 0.463 0.139 2,269 $317
July 4.174 0.135 0.195 0.106 1,813 $256
August 3.618 0.117 0.155 0.103 1,823 $259
September 3.830 0.128 0.241 0.103 1,530 $219
October 3.479 0.112 0.187 0.094 1,651 $236
November 5.935 0.198 0.708 0.106 1,376 $199
December 8.808 0.294 0.616 0.161 2,173 $306
2015 67.938 0.186 1.131 0.094 22,102 $3,146
2014 72.907 0.199 0.828 0.098 23,230 $3,476
2013 54.286 0.147 0.922 0.088 18,715 $2,668
2012 74.823 0.205 1.218 0.097 23,191 $3,225
Lift Station #7
Time Total Avg Max Min WE
Period MG MGD MGD MGD KWH $
January 0.610 0.020 0.024 0.018 1,420 $211
February 0.505 0.017 0.022 0.015 1,269 $184
March 0.857 0.028 0.037 0.015 1,162 $170
April 1.197 0.040 0.103 0.024 1,104 $162
May 1.171 0.038 0.111 0.023 1,051 $157
June 0.991 0.033 0.040 0.019 733 $113
July 0.605 0.020 0.028 0.015 637 $101
August 0.550 0.018 0.022 0.014 602 $97
September 0.551 0.018 0.025 0.015 636 $101
October 0.514 0.017 0.025 0.013 643 $101
November 0.526 0.018 0.022 0.015 762 $117
December 0.808 0.027 0.106 0.015 1,191 $176
2015 8.886 0.024 0.111 0.013 11,210 $1,690
2014 10.508 0.029 0.201 0.012 12,063 $1,913
2013 10.068 0.027 0.143 0.015 8,344 $1,295
2012 13.965 0.038 0.158 0.019 11,660 $1,722
88
Lift Station #8
Time Total Avg Max Min WE
Period MG MGD MGD MGD KWH $
January 7.557 0.244 0.296 0.217 3,960 $560
February 6.071 0.209 0.245 0.188 3,080 $421
March 13.545 0.437 0.846 0.189 3,160 $432
April 15.975 0.533 1.543 0.315 4,960 $663
May 13.783 0.445 1.049 0.308 5,080 $679
June 10.450 0.348 0.642 0.241 3,560 $484
July 7.669 0.247 0.404 0.202 2,600 $359
August 7.244 0.234 0.352 0.186 2,440 $339
September 7.371 0.246 0.420 0.197 2,120 $298
October 6.629 0.214 0.437 0.171 2,280 $318
November 11.039 0.368 1.164 0.212 2,120 $298
December 15.962 0.532 1.280 0.291 3,600 $490
2015 123.294 0.338 1.543 0.171 38,960 $5,341
2014 131.519 0.360 1.981 0.188 44,440 $6,366
2013 112.731 0.305 2.083 0.170 40,120 $5,428
2012 142.769 0.392 2.072 0.165 50,040 $6,640
Lift Station #9
Time Total Avg Max Min WE
Period MG MGD MGD MGD KWH $
January 0.453 0.015 0.020 0.012 1,175 $181
February 0.395 0.014 0.020 0.012 983 $147
March 0.839 0.027 0.059 0.011 1,014 $150
April 0.899 0.030 0.108 0.015 1,013 $150
May 0.809 0.026 0.079 0.016 890 $133
June 0.569 0.019 0.038 0.013 807 $124
July 0.426 0.014 0.020 0.011 651 $102
August 0.397 0.013 0.018 0.011 551 $89
September 0.386 0.013 0.025 0.009 622 $100
October 0.348 0.011 0.024 0.009 613 $97
November 0.620 0.021 0.074 0.011 692 $108
December 1.005 0.033 0.087 0.016 1,064 $159
2015 7.147 0.020 0.108 0.009 10,075 $1,540
2014 7.556 0.021 0.213 0.010 11,373 $1,814
2013 5.828 0.016 0.120 0.009 15,532 $2,241
2012 7.598 0.021 0.124 0.010 19,402 $2,737
89
Lift Station #10
Time Total Avg Max Min WE
Period MG MGD MGD MGD KWH $
January 3.940 0.127 0.148 0.112 1,603 $231
February 3.345 0.115 0.127 0.104 1,529 $219
March 5.755 0.186 0.241 0.114 1,641 $233
April 7.270 0.242 0.588 0.159 1,959 $276
May 6.777 0.219 0.420 0.164 2,297 $321
June 5.387 0.180 0.282 0.145 1,797 $254
July 4.734 0.153 0.195 0.131 1,668 $237
August 5.061 0.163 0.259 0.126 1,535 $219
September 4.746 0.158 0.237 0.129 1,815 $258
October 4.757 0.153 0.216 0.128 1,891 $267
November 6.351 0.212 0.512 0.152 2,468 $343
December 7.506 0.250 0.414 0.154 2,507 $350
2015 65.627 0.180 0.588 0.104 22,710 $3,208
2014 58.062 0.159 0.444 0.092 19,085 $2,953
2013 73.057 0.199 0.748 0.115 21,074 $2,972
2012 90.902 0.249 0.745 0.166 25,686 $3,553
Lift Station #11
Time Total Avg Max Min WE
Period MG MGD MGD MGD KWH $
January 0.247 0.008 0.010 0.005 1,022 $154
February 0.201 0.007 0.018 0.005 945 $142
March 0.255 0.008 0.012 0.005 985 $146
April 0.269 0.009 0.014 0.007 664 $104
May 0.274 0.009 0.012 0.007 530 $86
June 0.245 0.008 0.010 0.005 568 $92
July 0.210 0.007 0.010 0.005 1,355 $195
August 0.218 0.007 0.020 0.003 613 $97
September 0.198 0.007 0.010 0.003 558 $91
October 0.184 0.006 0.008 0.003 607 $96
November 0.223 0.007 0.012 0.003 700 $108
December 0.301 0.010 0.012 0.008 1,063 $159
2015 2.826 0.008 0.020 0.003 9,610 $1,470
2014 3.173 0.009 0.018 0.005 11,093 $1,659
2013 2.977 0.008 0.022 0.003 7,574 $1,097
2012 3.202 0.009 0.022 0.003 8,276 $1,184
90
Lift Station #12
Time Total Avg Max Min WE
Period Mgal Mgal Mgal Mgal KWH $
January 0.195 0.006 0.009 0.004 1,806 $278
February 0.105 0.004 0.005 0.003 1,540 $233
March 0.185 0.006 0.029 0.003 1,530 $233
April 0.325 0.011 0.059 0.003 1,382 $213
May 0.163 0.005 0.008 0.004 1,118 $177
June 0.152 0.005 0.008 0.004 979 $161
July 0.132 0.004 0.006 0.003 774 $132
August 0.134 0.004 0.006 0.003 562 $104
September 0.122 0.004 0.005 0.003 645 $116
October 0.121 0.004 0.005 0.003 1,387 $212
November 0.163 0.005 0.014 0.004 1,403 $214
December 0.193 0.006 0.013 0.004 1,682 $253
2015 1.991 0.005 0.059 0.003 14,808 $2,326
2014 2.246 0.006 0.032 0.003 14,623 $2,433
2013 1.976 0.005 0.012 0.003 11,815 $1,911
2012 2.437 0.007 0.066 0.003 12,242 $1,960
Lift Station #13
Time Total Avg Max Min WE
Period Mgal Mgal Mgal Mgal KWH $
January 0.333 0.011 0.015 0.009 127 $34
February 0.284 0.010 0.021 0.007 128 $33
March 0.189 0.006 0.020 0.002 124 $32
April 0.100 0.003 0.007 0.002 135 $34
May 0.105 0.003 0.008 0.002 143 $36
June 0.086 0.003 0.004 0.002 124 $32
July 0.061 0.002 0.004 0.001 115 $31
August 0.060 0.002 0.007 0.001 106 $29
September 0.060 0.002 0.004 0.001 122 $33
October 0.040 0.001 0.003 0.001 101 $29
November 0.094 0.003 0.012 0.001 139 $36
December 0.150 0.005 0.013 0.002 184 $43
2015 1.562 0.004 0.021 0.001 1,548 $402
2014 4.068 0.011 0.059 0.001 2,662 $596
2013 1.381 0.004 0.015 0.001 1,840 $433
2012 1.650 0.005 0.021 0.001 2,082 $467
91
Lift Station #14
Time Total Avg Max Min WE
Period Mgal Mgal Mgal Mgal KWH $
January 0.249 0.008 0.010 0.007 1,003 $150
February 0.195 0.007 0.008 0.006 949 $141
March 0.368 0.012 0.017 0.006 922 $138
April 0.582 0.019 0.055 0.009 911 $136
May 0.551 0.018 0.055 0.010 802 $122
June 0.356 0.012 0.018 0.009 642 $101
July 0.290 0.009 0.015 0.007 497 $81
August 0.240 0.008 0.012 0.006 430 $72
September 0.222 0.007 0.013 0.006 506 $85
October 0.182 0.006 0.010 0.005 500 $82
November 0.336 0.011 0.042 0.006 648 $102
December 0.561 0.019 0.038 0.010 1,126 $168
2015 4.133 0.011 0.055 0.005 8,936 $1,378
2014 4.564 0.012 0.108 0.005 9,833 $1,593
2013 3.412 0.009 0.054 0.003 7,812 $1,217
2012 4.767 0.013 0.067 0.005 8,889 $1,356
92
Lift Station Equipment & Capacity Summary
LIF
T S
TA
TIO
N E
QU
IPM
EN
T &
CA
PA
CIT
Y S
UM
MA
RY
N
O.
L
IFT
ST
AT
ION
P
UM
PS
GP
M A
T T
DH
MA
NU
FA
CT
UR
ER
T
OT
AL
**
FIR
M**
*
L
OC
AT
ION
C
AP
AC
ITY
C
AP
AC
ITY
#1
7
36
W
ash
ingto
n A
ve
.
3-3
00 h
p
3-3
00 h
p
1
5,5
00 a
t 65
' 1
4,7
99 a
t 65
'
IT
T A
-C P
um
p-
West
Fa
irb
an
ks/M
ors
e-E
ast
1
12
MG
D
9
0 M
GD
#2
2
02
2 S
pri
ng
Str
ee
t &
L
ue
dtk
e C
ou
rt
3-4
0 h
p
2
10
0 a
t 3
8'
F
airb
an
ks/M
ors
e
9
.07
MG
D
6
.05
MG
D
#2
Byp
ass w
et
we
ll
2-7
.5 h
p
200
0 a
t 2
2'
Fly
gt
2.8
8 M
GD
1.4
4 M
GD
#3
1004
Riv
erb
roo
k D
rive
2-3
hp
225
at 1
5'
F
lyg
t
0.6
48
MG
D
0
.32
4 M
GD
#4
Fe
stiva
l S
ite
/ 6
-5th S
tre
et
2-7
.5 h
p
6
30
at 2
6'
F
airb
an
ks/M
ors
e
1
.82
MG
D
0
.91
0 M
GD
#5
1530-1
3th
Str
ee
t &
L
ockw
ood
Ave
.
2-2
4 h
p
7
18
at 7
6'
P
ea
bod
y/B
arn
es
2
.06
MG
D
1
.03
0 M
GD
#6
323
6 D
rexe
l A
ve
nu
e
3-1
5 h
p
1
,00
0 a
t 1
5'
IT
T
4
.32
MG
D
2
.88
0 M
GD
#7
45 S
tee
ple
ch
ase
Dri
ve
2-7
.5 h
p
4
25
at 2
7.5
’
K
SB
1
.22
4 M
GD
0.6
12
MG
D
#8
3
62
5 R
ap
ids C
ourt
at
Ro
ot R
ive
r
3-4
0 h
p
1
22
0 a
t 4
4'
F
airb
an
ks/M
ors
e
5
.27
MG
D
3
.51
0 M
GD
#9
3
90
8 F
rance
s D
r. a
nd
Ha
rrin
gto
n D
r.
2-7
.5 h
p
1
20
at 4
8'
K
SB
0.3
44
MG
D
0
.17
2 M
GD
#10
8
00
So
uth
Mem
orial D
r.
& R
oo
t R
ive
r
3-1
0 h
p
8
50
at 1
9'
1-K
SB
2-F
airb
an
ks/M
ors
e
3
.67
MG
D
2
.44
0 M
GD
#11
275
0 O
ld M
ill R
oa
d
2-2
.8 h
p
2
75
at 1
5'
P
ea
bod
y/B
arn
es
0
.79
2 M
GD
0.3
96
MG
D
#12
334
Pa
rkvie
w
2-3
.4 h
p
1
20
at 3
0'
K
SB
0.3
46
MG
D
0
.17
3 M
GD
#13
110
0 N
. M
ain
2-1
.5 h
p
7
0 a
t 2
5'
K
SB
0.1
28
MG
D
0
.06
4 M
GD
#14
320
5 M
ich
iga
n B
ou
leva
rd
2-5
hp
500
at 2
0.7
'
Hyd
rom
atic
1
.44
MG
D
0.7
20
MG
D
**
To
tal C
ap
acity is t
he e
stim
ate
d c
ap
acity w
ith
all
pu
mp
s in
se
rvic
e.
***
Firm
Ca
pa
city is t
he
estim
ate
d c
ap
acity w
ith
th
e s
ing
le la
rge
st
pum
p o
ut o
f se
rvic
e.
93
Collection System Storage & Capacity Summary
CO
LL
EC
TIO
N S
YS
TE
M S
TO
RA
GE
& C
AP
AC
ITY
SU
MM
AR
Y
S
TO
RA
GE
NA
ME
P
UM
PS
G
PM
AT
TD
H
M
AN
UF
AC
TU
RE
R
T
OT
AL
PU
MP
T
OT
AL
ST
OR
AG
E
FL
OW
AN
D L
OC
AT
ION
CA
PA
CIT
Y
C
AP
AC
ITY
SO
UR
CE
No
rth
Sid
e S
tora
ge
3
02
6 M
t. P
leasa
nt
St.
3-6
0 h
p –
se
wa
ge
2-5
hp –
d
ew
ate
rin
g
18,
00
0 a
t 3
0’
150
at 3
5’
ITT
Fly
gt P
um
p
ITT
Fly
gt P
um
p
3 p
um
ps 2
6 M
GD
0.2
16
MG
D
8.4
0 M
illio
n G
allo
ns
Ca
led
on
ia-
Riv
erb
en
d
Lift
Sta
tio
n
Gro
ve
Ave
. S
tora
ge
1
21
8 G
rove
Ave
.
2-1
0 h
p
507
at 4
1’
KS
B
0.7
30
MG
D
0.6
5 M
illio
n G
allo
ns
City a
nd
M
t. P
lea
sa
nt
Oh
io S
t. in
line
Sto
rag
e
No
rth
sid
e o
f L
ockw
oo
d
Pa
rk
N/A
N
/A
N/A
N
/A
0.1
6 M
illio
n G
allo
ns
City a
nd
M
t. P
lea
sa
nt
N
ort
h S
ide
Sto
rag
e
Gro
ve
Ave
nu
e S
tora
ge
O
hio
Str
ee
t S
tora
ge
94
Household Hazardous Waste Program
Household Hazardous
Waste Program
95
Household Hazardous Waste & Medication Collection
96
Wisconsin Summary Sheet
97
2015 HHW Participation by Community
April May June July Aug Sept Oct Totals
Racine 216 124 134 133 106 156 208 1077
Sturtevant 16 8 11 8 6 7 20 76
Elmwood Park 4 3 2 1 1 2 2 15
Mt. Pleasant 142 92 81 75 84 85 152 711
Caledonia 88 58 65 64 31 50 133 489
North Bay 3 0 0 2 0 0 3 8
Wind Point 14 7 9 6 9 7 13 65
No Reply 0 1 0 0 0 0 0 1
Monthly Total: 483 293 302 289 237 307 531
Gross Total: 2442
April May June July Aug Sept Oct Totals
Racine 177 72 128 107 102 153 256 995
Sturtevant 15 5 11 11 6 12 20 80
Elmwood Park 7 4 0 2 3 0 8 24
Mt. Pleasant 122 51 83 64 67 96 138 621
Caledonia 79 32 48 53 27 67 93 399
North Bay 3 1 0 0 1 1 2 8
Wind Point 15 6 7 6 4 9 15 62
Monthly Total: 418 171 277 243 210 338 532
Gross Total: 2189
Racine Household Hazardous Waste Collection 2015Participation by Community - Current Year
Racine Household Hazardous Waste Collection 2014Participation by Community - Previous Year
875
582
1,315
1,691
1,8411,922
2,179 2,1892,442
0
250
500
750
1,000
1,250
1,500
1,750
2,000
2,250
2,500
0
10,000
20,000
30,000
40,000
50,000
60,000
70,000
80,000
90,000
100,000
2007 2008 2009 2010 2011 2012 2013 2014 2015
# o
f Par
tici
pan
ts
Am
t C
olle
cted
(L
bs)
Amt Collected (Lbs) # of Participants
Amount Collected & Participation by YearAmount Collected & Participation by Year
Racine, 1077, 44.1%
Sturtevant, 76, 3.1%
Elmwood Park, 15, 0.6%
Mt. Pleasant, 711,
29.1%
Caledonia, 489, 20.0%
North Bay, 8, 0.3%
Wind Point, 65, 2.7% No Reply, 1, 0.0%
Total Participation by Community 2015
98
Appendix A
Appendix A
Racine Wastewater Utility 2015 Budget
Capital Improvement Program 2015-2019
Operations & Maintenance Budget
Class I Residential Rates
Class II Industrial Rates
List of Vehicles
99
100
2015 Wastewater Utility Budget
2013 2014 2014 2015 14 VS 15
ACTUAL BUDGET PROJECTED BUDGET BUDGET
Operating Revenue $12,938,777 $13,275,590 $12,504,186 $13,182,626 -0.7%
True Up $885,344 ($233,997)
Total Operating Revenue $14,160,934 $12,504,186 $12,948,629 -8.6%
O&M Expense* $8,196,875 $8,717,000 $8,355,000 $8,860,000 1.6%
Depreciation** 2,690,429 2,869,461 2,700,000 2,728,087 -4.9%
Total Operating Expense $10,887,304 $11,586,461 $11,055,000 $11,588,087 0.0%
Net Operating Income $2,051,473 $2,574,473 $1,449,186 $1,360,542 -47.2%
Other Income
Plant Capacity Income $2,009,558 $1,912,355 $1,920,000 $1,844,181 -3.6%
Household Hazard Waste 102,297 130,000 135,000 162,000 24.6%
Interest Income 34,551 30,000 31,000 34,000 13.3%
Other Expense
Household Hazard Waste $143,095 $130,000 $150,000 $156,000 20.0%
Interest Expense $1,502,290 $1,368,000 $1,368,000 1,222,000 -10.7%
Net Income $2,552,494 $3,148,828 $2,017,186 $2,022,723 -35.8%
Distribution of 2015 Budget Net Income $2,022,723
Plus Depreciation 2,728,087
Plus principal collected from other communities not included above 1,806,948
Total Cash Available $6,557,758
Less Bond Principal Payments (5,033,004)
Less Total Capital Improvement Projects (3,227,000)
Plus Contributed Capital Improvement Projects 1,300,000
Net Cash Balance ($402,246)
Funding - From State Loans and/or Reserves
* O&M Expense O&M expense does not include the annual net OPEB obligation.
** Depreciation Depreciation shown only represents amount used in rate calculation per the agreement.
Depreciation used for GAAP shown in the audit will be much higher.
Note: Following the 2002 Intergovernmental Sanitary Sewer Agreement, in 2015 $789,049 from
Utility reserves will be transferred to the City of Racine. (Zoo, Library, & Museum)
RACINE WASTEWATER UTILITY
Adopted 2015 BUDGET
101
2015 Operation & Maintenance Budget
2013
2014
2014
2014
Ad
op
ted
14 v
s 1
5
AC
CO
UN
TA
ctu
al
Bu
dg
et
7/3
1/2
014
Pro
jecte
d15 B
ud
ge
tB
ud
ge
t
A
.P
ER
SO
NN
EL
SE
RV
ICE
S
Sala
ries &
Wages
$2,4
42,2
88
$2,5
02,0
00
$1,3
43,9
44
2,4
00,0
00
$2,5
78,0
00
3.0
%
Ove
rtim
e89,8
87
97,0
00
35,0
68
90,0
00
97,0
00
0.0
%
Tem
pora
ry S
erv
ices
16,9
75
40,0
00
13,7
77
20,0
00
32,0
00
-20.0
%
-
----
----
----
----
- -
----
----
----
----
- -
----
----
----
----
- -
----
----
----
----
- -
----
----
----
----
-
T
OT
AL
$2,5
49,1
50
$2,6
39,0
00
$1,3
92,7
88
$2,5
10,0
00
$2,7
07,0
00
2.6
%
B
.CO
NT
RA
CT
UA
L
Pro
fessio
nal S
erv
ices
$133,7
68
$265,0
00
$97,9
66
168,0
00
$255,0
00
-3.8
%
Labora
tory
Pro
f. S
erv
ices
23,6
28
24,0
00
10,5
07
18,0
00
24,0
00
0.0
%
Pre
-tre
at. P
rof S
erv
ices
3,3
60
4,0
00
1,6
81
3,0
00
4,0
00
0.0
%
Build
ing &
Equip
ment M
ain
t.71,3
28
89,0
00
41,0
81
70,0
00
139,0
00
56.2
%
Vehic
le M
ain
tenance
24,7
01
20,0
00
21,0
50
36,0
00
25,0
00
25.0
%
Tele
phone
8,2
78
10,0
00
3,9
34
7,0
00
9,0
00
-10.0
%
N
atu
ral G
as
136,3
72
160,0
00
157,9
84
205,0
00
160,0
00
0.0
%
E
lectr
ic S
erv
ice
872,2
17
950,0
00
502,0
38
884,0
00
920,0
00
-3.2
%
Wate
r S
erv
ice
201,6
20
235,0
00
96,3
61
193,0
00
230,0
00
-2.1
%
City
Sew
er
& L
.S. M
ain
t.13,0
25
25,0
00
4,6
56
8,0
00
20,0
00
-20.0
%
Inte
rcepto
r &
L.S
. M
ain
t.231,1
96
180,0
00
29,0
70
160,0
00
180,0
00
0.0
%
Slu
dge &
Grit D
isposal
557,9
95
580,0
00
297,9
83
511,0
00
555,0
00
-4.3
%
-
----
----
----
----
- -
----
----
----
----
- -
----
----
----
----
- -
----
----
----
----
- -
----
----
----
----
-
T
OT
AL
$2,2
77,4
89
$2,5
42,0
00
$1,2
64,3
10
$2,2
63,0
00
$2,5
21,0
00
-0.8
%
C
.MA
TE
RIA
LS
& S
UP
PL
IES
Offic
e S
upplie
s$13,3
80
$14,0
00
$7,3
27
13,0
00
$14,0
00
0.0
%
Gasolin
e &
Die
sel F
uel
34,8
04
38,0
00
21,5
32
37,0
00
38,0
00
0.0
%
Lubricants
33,3
41
36,0
00
11,4
56
30,0
00
36,0
00
0.0
%
Custo
dia
l Supplie
s13,6
66
14,0
00
7,3
80
13,0
00
14,0
00
0.0
%
Opera
tional C
hem
icals
336,5
77
474,0
00
171,7
68
294,0
00
374,0
00
-21.1
%
Pla
nt &
Sys
tem
Supplie
s52,2
62
54,0
00
23,4
25
50,0
00
54,0
00
0.0
%
Equip
ment S
upplie
s191,8
87
215,0
00
103,5
81
190,0
00
215,0
00
0.0
%
Sew
er
Main
t. S
upplie
s5,8
04
5,0
00
3,4
21
6,0
00
7,0
00
40.0
%
Pre
-tre
at.S
am
plin
g S
upplie
s6,9
51
4,0
00
905
4,0
00
4,0
00
0.0
%
Labora
tory
Supplie
s44,0
71
48,0
00
18,1
75
40,0
00
48,0
00
0.0
%
Pre
-tre
at. L
ab S
upplie
s24,2
44
26,0
00
9,1
89
22,0
00
25,0
00
-3.8
%
Com
pute
r &
PLC
Supplie
s24,5
08
40,0
00
12,5
50
22,0
00
40,0
00
0.0
%
-
----
----
----
----
- -
----
----
----
----
- -
----
----
----
----
- -
----
----
----
----
- -
----
----
----
----
-
T
OT
AL
$781,4
96
$968,0
00
$390,7
08
$721,0
00
$869,0
00
-10.2
%
RA
CIN
E W
AS
TE
WA
TE
R U
TIL
ITY
2015 A
DO
PT
ED
OP
ER
AT
ION
AN
D M
AIN
TE
NA
NC
E B
UD
GE
T
102
2013
2014
2014
2014
Ad
op
ted
14 v
s 1
5
AC
CO
UN
TA
ctu
al
Bu
dg
et
7/3
1/2
014
Pro
jecte
d15 B
ud
ge
tB
ud
ge
t
D
.CU
ST
OM
ER
AC
CO
UN
T
Mete
ring, B
illin
g &
Colle
ctio
n$617,6
97
$595,0
00
$360,3
23
618,0
00
$618,0
00
3.9
%
-
----
----
----
----
- -
----
----
----
----
- -
----
----
----
----
- -
----
----
----
----
- -
----
----
----
----
-
T
OT
AL
$617,6
97
$595,0
00
$360,3
23
$618,0
00
$618,0
00
3.9
%
E
.AD
MIN
IST
RA
TIO
N &
GE
NE
RA
L
Dues, P
ublic
atio
ns &
Tra
vel
$31,5
14
$30,0
00
$10,3
30
30,0
00
$30,0
00
0.0
%
FIC
A T
ax
188,9
34
211,0
00
109,7
60
188,0
00
217,0
00
2.8
%
Pro
pert
y &
Lia
bili
ty In
sura
nce
88,0
80
93,0
00
46,2
77
90,0
00
95,0
00
2.2
%
Work
er's C
om
pensatio
n In
sur.
74,5
96
69,0
00
37,6
60
65,0
00
65,0
00
-5.8
%
Offic
e R
ent
26,4
96
27,0
00
15,4
56
26,0
00
28,0
00
3.7
%
Wis
consin
Retir
em
ent E
xpense
229,7
66
261,0
00
140,0
15
240,0
00
253,0
00
-3.1
%
Medic
al E
xpenses
1,0
61,4
68
926,0
00
739,7
90
1,2
68,0
00
1,1
00,0
00
18.8
%
Life
Insura
nce
12,5
24
16,0
00
7,8
08
13,0
00
15,0
00
-6.3
%
Safe
ty P
rogra
ms &
Supplie
s15,5
48
11,0
00
5,2
90
9,0
00
12,0
00
9.1
%
City
Depart
menta
l Charg
es
78,0
00
80,0
00
45,5
00
78,0
00
80,0
00
0.0
%
Tra
inin
g P
rogra
ms
2,8
44
12,0
00
2,9
16
5,0
00
10,0
00
-16.7
%
Sto
rmw
ate
r F
ees
28,0
85
30,0
00
30,9
05
31,0
00
33,0
00
10.0
%
DN
R P
erm
it F
ee
134,5
29
145,0
00
138,2
08
138,0
00
142,0
00
-2.1
%
Airport
Pro
pert
y Lease
58,9
73
62,0
00
62,2
52
62,0
00
65,0
00
4.8
%
-
----
----
----
----
- -
----
----
----
----
- -
----
----
----
----
- --
----
----
----
----
-
----
----
----
----
-
T
OT
AL
$2,0
31,3
59
$1,9
73,0
00
$1,3
92,1
67
$2,2
43,0
00
$2,1
45,0
00
8.7
%
SU
MM
AR
Y
A. P
ers
onel S
erv
ice
$2,5
49,1
50
$2,6
39,0
00
$1,3
92,7
88
$2,5
10,0
00
$2,7
07,0
00
2.6
%
B. C
ontr
actu
al S
erv
ice
2,2
77,4
89
2,5
42,0
00
1,2
64,3
10
2,2
63,0
00
2,5
21,0
00
-0.8
%
C. M
ate
rials
& S
upplie
s781,4
96
968,0
00
390,7
08
721,0
00
869,0
00
-10.2
%
D. C
usto
mer
Accounts
617,6
97
595,0
00
360,3
23
618,0
00
618,0
00
3.9
%
E. A
dm
inis
trativ
e &
Genera
l2,0
31,3
59
1,9
73,0
00
1,3
92,1
67
2,2
43,0
00
2,1
45,0
00
8.7
%
-
----
----
----
----
- -
----
----
----
----
- -
----
----
----
----
- --
----
----
----
----
-
----
----
----
----
-
T
OT
AL
S$8,2
57,1
90
$8,7
17,0
00
$4,8
00,2
96
$8,3
55,0
00
$8,8
60,0
00
1.6
%
RA
CIN
E W
AS
TE
WA
TE
R U
TIL
ITY
2015 A
DO
PT
ED
OP
ER
AT
ION
AN
D M
AIN
TE
NA
NC
E B
UD
GE
T
103
Capital Improvement Program 2015 - 2019 2015 2016 2017 2018 2019 Total
GENERAL PLANT
1 Laboratory Equipment $0 $30,000 $0 $0 $0 $30,000
2 PLC & SCADA Equipment 20,000 120,000 20,000 20,000 20,000 200,000
3 Roof Replacement 150,000 - - - - 150,000
4 Window Replacement 10,000 10,000 10,000 10,000 - 40,000
5 Hach UVT Analyzer 20,000 - - - - 20,000
6 Flow-Thru Samplers 8,000 8,000 - - - 16,000
7 Railing Replacement 50,000 - - - - 50,000
8 Security Improvements 10,000 10,000 - - - 20,000
9 Concrete Replacement 175,000 100,000 600,000 - - 875,000
10 Clarifier Equipment Rehab 25,000 25,000 25,000 25,000 25,000 125,000
11 Final Clarifier Launder Covers 200,000 200,000 200,000 - - 600,000
12 **Real Estate Acquisition - 5,000,000 - - - 5,000,000
13 Energy Savings - Biogas Gen - 579,000 - - - 579,000
14 Biogas Pretreatment Equip - 500,000 - - - 500,000
15 Energy Savings - OpenCEL 340,000 - - - - 340,000
16 Energy Savings - Organics Tank - - 249,000 - - 249,000
17 Energy Savings - LED Lighting 20,000 20,000 20,000 20,000 20,000 100,000
18 Overhaul Engine/Blowers 25,000 200,000 200,000 - - 425,000
19 Building Sprinkler Systems - - 150,000 - - 150,000
20 Ammonia Analyzer 20,000 - - - - 20,000
21 Final Flow Meters 14,000 - - - - 14,000
Subtotal $1,087,000 $6,802,000 $1,474,000 $75,000 $65,000 $9,503,000
AUTOMOTIVE * * Automotive f igures do not include any value received from the sale of the old vehicle. Estimated purchase price only.
1 Pickup/Van/SUVs $30,000 $30,000 $59,000 $34,000 $86,000 $239,000
2 Utility Trucks - - - 84,000 - 84,000
3 Vactor - 429,000 - - - 429,000
4 Rodder - - 81,000 - - 81,000
5 Loader/Skid Steer 50,000 - - - - 50,000
Subtotal $80,000 $459,000 $140,000 $118,000 $86,000 $883,000
COLLECTION SYSTEM
1 LS Controls/Building $75,000 $65,000 $65,000 $65,000 $0 $270,000
2 Maryland Ave Interceptor - - - - 200,000 200,000
3 LS #6 Force Main Replacement - - - 100,000 - 100,000
4 **Kinzie Ave Sewer Upgrade 600,000 600,000 - - - 1,200,000
5 Tire Mounting Machine 14,000 - - - - 14,000
6 CCTV Equipment 12,000 - - - - 12,000
7 Rain Gauges/Telemetry 24,000 - - - - 24,000
8 Manhole Structure Rehab 20,000 20,000 20,000 20,000 20,000 100,000
9 **LS #16 Hamilton St (City Dev) - 1,200,000 - - - 1,200,000
10 **LS #2 Storage Basin 700,000 3,400,000 5,168,000 - - 9,268,000
11 **Lakeview Park Storage, 48" Int - 200,000 14,084,000 - - 14,284,000
12 **LS #1 West FM - - 100,000 5,142,000 - 5,242,000
13 **West Blvd Int - - 50,000 3,281,000 - 3,331,000
14 **NP FM Extension - - - 50,000 1,884,000 1,934,000
15 Lift Station #1 Controls Upgrade 50,000 - - - - 50,000
16 Lift Station #2 Controls Upgrade 30,000 - - - - 30,000
17 SCADA System Ext to Maint Facility 10,000 - - - - 10,000
18 Interceptor Improvement Projects 275,000 100,000 100,000 100,000 100,000 675,000
19 Wet Weather Mitigation 250,000 250,000 250,000 250,000 250,000 1,250,000
Subtotal $2,060,000 $5,835,000 $19,837,000 $9,008,000 $2,454,000 $39,194,000
TOTAL COST $3,227,000 $13,096,000 $21,451,000 $9,201,000 $2,605,000 $49,580,000
**Total Contributed Captital Projects $1,300,000 $5,400,000 $19,402,000 $8,473,000 $1,884,000
Note: ** Denotes that the project cost is to be split on a Cost of Service share (COSS) basis among SSR parties per the Sewer Agreement
RACINE WASTEWATER UTILITY
CAPITAL IMPROVEMENT PROGRAM 2015 - 2019
Adopted
104
Class I Wastewater Rates
9/23/2014
Adopted
Overall
AREA 2014 2015 % CHANGE % Change
A. City of Racine ($/ccf) $2.56 $2.33 -8.9%
plus quarterly fixed charge $17.00 $20.00 17.6% -2.5%
B. Elmwood Park ($/ccf) $2.52 $2.30 -8.8%
North Bay ($/ccf) $2.52 $2.30 -8.8%
plus quarterly fixed charge $17.00 $20.00 17.6% -2.4%
C. Mt. Pleasant (int) ($/MG) $1,468.61 $1,311.74 -10.7% -10.7%
Sturtevant ($/MG) $1,468.61 $1,311.74 -10.7% -10.7%
D. Mt. Pleasant ($/MG) $1,784.72 $1,617.60 -9.4% -9.4%
Caledonia ($/MG) $1,784.72 $1,617.60 -9.4% -9.4%
The percentage change is shown as a comparison to the previous years rates. The actual rate increase
imposed by individual sewer utilities will vary depending on how they deal with existing surpluses and
future projects within their respective Utilities.
RACINE WASTEWATER UTILITY
CLASS I CHARGES - 2015
105
Class II Wastewater Rates
9/23/2014
Adopted
AREA 2014 2015 Difference % CHANGE
A. City of Racine ($/MG) $2,208.61 $2,053.09 ($155.52) -7.0%
B. Mt. Pleasant - Sturtevant ($/MG) $806.64 $727.21 ($79.43) -9.8%
C. Caledonia ($/MG) $1,094.94 $1,008.47 ($86.47) -7.9%
D. BOD ($/1000 LBS.) $208.62 $220.82 $12.20 5.8%
E. SS ($/1000 LBS.) $333.44 $280.75 ($52.70) -15.8%
F. PHOS ($/1000 LBS.) $2,737.81 $2,534.21 ($203.60) -7.4%
RACINE WASTEWATER UTILITY
CLASS 2 CHARGES - 2015
106
Wastewater Vehicles
E
NG
INE
SIZ
EA
MO
UN
T
R
EC
'D T
K#
YE
AR
, M
AK
E &
MO
DE
LID
EN
TIF
ICA
TIO
N N
O.
T
ITL
E N
O.
IS
SU
ED
L
IC #
RA
DIO
GV
WF
UE
L(L
ITE
RS
) $
2/2
1/0
601
2006 F
ord
Fre
esta
r S
E2F
MZA
51626B
A49417
060930370020-6
4/3
/2006
70065
NO
5780 G
VW
RN
.L.-
26 g
al.
LE
V .
3.9
$17,0
10
4/2
4/0
703
2007 F
150 4
x 4
Superc
ab
1F
TP
X14V
37F
A87664
071600451012-3
6/9
/2007
72865
YE
S7200 G
VW
RN
.L.-
27 g
al.
LE
V5.4
$25,7
44
1/2
7/0
504
2005 F
ord
F150 4
X 4
Pic
kup
1F
TR
X14525K
C83194
051090202023-2
4/1
9/2
005
45649
YE
S7150 G
VW
RN
.L. 26 g
al.
LE
V5.4
$23,3
43
9/1
4/0
005
2001 F
ord
F350 D
um
p T
ruck
1F
DW
F37F
11E
A31715
0031115041-0
11/1
9/0
033748
YE
S12500 G
VW
RD
iesel 3
8 g
al.
LE
V7.3
$33,4
53
4/1
6/0
306
2003 C
hevy
Exp
ress C
arg
o V
an
1G
CF
G15T
831201139
0315049022-1
06/0
2/0
332753
YE
S7200 G
VW
RN
L-3
1 g
al.
LE
V
5.3
$19,4
36
1/2
7/0
508
2005 F
ord
F-1
50 4
x 4
Pic
kup
1F
TP
X14545K
C83195
051090202024-1
4/1
9/2
005
31588
YE
S7150 G
VW
RN
.L.2
6 g
al.
LE
V .
5.4
$26,0
98
3/1
/06
10
2006 F
ord
SD
F250 4
X 4
Superc
ab
1F
TS
X21P
76E
C94195
060870370016-6
3/2
8/2
006
70025
YE
S8800 G
VW
R
Die
sel 2
9 g
al.
LE
V
6.0
$49,1
88
3/1
8/1
511
2015 F
ord
Exp
lore
r1F
M5K
7D
93F
GC
16597
15093F
1008-0
4/3
/2015
89981
NO
5900 G
VW
RN
.L.-
18.6
gal.
LE
V2.0
$29,6
83
3/2
3/0
712
2008 E
scape 4
DR
. 4 W
D1F
MC
U93Z38K
A20254
071350370038-3
5/1
5/2
007
72637
Y
ES
4540 G
VW
R16 g
al.
cap L
EV
2.3
$18,0
34
4/2
4/0
714
2007 F
150 R
eg C
ab 4
x 4
1F
TR
F14V
77K
C46494
071600451011-8
06/0
9/0
772864
YE
S6950 G
VW
RN
.L.-
27 g
al.
LE
V5.4
$23,6
57
3/2
3/0
715
2007 F
150 4
WD
Reg. C
ab
1F
TR
F14V
97K
C46495
071350370040-4
5/1
5/2
007
72639
YE
S6950 G
VW
RN
.L.-
27 g
al.
LE
V5.4
$23,8
27
7/7
/11
16
2011 F
ord
F550 4
X4 R
eg C
ab
1F
DU
F5H
T6B
EC
37007
111390401051-8
5/1
9/2
011
81797
NO
18000 G
VW
RD
iesel 4
0 g
al.
6.7
$77,2
28
8/2
7/1
318
2013 M
erc
edes-B
enz S
printe
rW
D3P
E8C
C4D
5796274
13248Q
8008-9
09/0
5/1
386887
NO
8550 G
VW
RD
iesel 2
6 g
al.
LE
V3.0
$138,5
10
8/5
/10
20
2011 P
ete
rbilt
365/2
115P
16 V
acto
r1N
PS
LU
0X
6B
D117168
102300406006-8
8/1
8/2
010
80134
NO
66,0
00 G
VW
RD
iesel 1
00 g
al.
13.0
$379,9
51
4/6
/04
31
2004 F
ord
SD
F-2
50 S
uper
Cab 4
WD
1F
TN
X21S
64E
C95479
0415649002-1
06/0
7/0
466097
YE
S8800 G
VW
RN
.L.-
29 g
al.
LE
V
6.8
$24,1
45
4/5
/99
32
1999 F
ord
F-3
50 1
Ton R
odder
1F
DW
F37F
XX
ED
43203
991802X
038-1
06/3
0/9
932810
YE
S12500 G
VW
RD
iesel 2
9 g
al.
LE
V7.3
$56,3
88
$965,6
94
LIS
T O
F V
EH
ICL
ES
20
15
R A
C I N
E
W
A S
T E
W A
T E
R
T
R E
A T
M E
N T
P L
A N
T