Michigan Water Environment Association (MWEA) Industrial Pretreatment Program Seminar May 28, 2008.
Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry...
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![Page 1: Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry MWEA Industrial Pretreatment Seminar October 24, 2007.](https://reader036.fdocuments.us/reader036/viewer/2022081602/551ab3da550346856e8b5013/html5/thumbnails/1.jpg)
engineersscientistsarchitects
constructors
Case Study
UV Disinfection Interference From Industry
MWEA Industrial Pretreatment Seminar
October 24, 2007
Jack D. Fraser City of Big Rapids
Jerald O. Thaler, P.E.Fishbeck, Thompson, Carr & Huber, Inc.
![Page 2: Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry MWEA Industrial Pretreatment Seminar October 24, 2007.](https://reader036.fdocuments.us/reader036/viewer/2022081602/551ab3da550346856e8b5013/html5/thumbnails/2.jpg)
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AGENDA
• The UV Interference Mystery
• Transmittance Local Limit Development
• Summary
• Questions
![Page 3: Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry MWEA Industrial Pretreatment Seminar October 24, 2007.](https://reader036.fdocuments.us/reader036/viewer/2022081602/551ab3da550346856e8b5013/html5/thumbnails/3.jpg)
engineersscientistsarchitects
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The UV Interference Mystery
![Page 4: Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry MWEA Industrial Pretreatment Seminar October 24, 2007.](https://reader036.fdocuments.us/reader036/viewer/2022081602/551ab3da550346856e8b5013/html5/thumbnails/4.jpg)
• In 2002, Nestle Waters North America opened a major pumping and bottling facility in Stanwood, Michigan.
• Facility has 145 employees, 80% live within 30 miles.
• Produces Ice Mountain® bottled water and Pure Life ® (“Splash”) fruit-flavored water.
• Wastes originally trucked to Grand Rapids area.
Background
![Page 5: Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry MWEA Industrial Pretreatment Seminar October 24, 2007.](https://reader036.fdocuments.us/reader036/viewer/2022081602/551ab3da550346856e8b5013/html5/thumbnails/5.jpg)
• WWTP operational problems with aging UV disinfection system.
– Periodic fecal coliform violations.
– Preliminary engineering began for a new system.
• City received inquiries about accepting “clean” process wastes from Stanwood facility.
– Previous policy - not to accept hauled waste.
– Expected monthly revenue to City - up to $25,000.
2003 - 2004
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• City performed characterization of process wastes from Stanwood facility.
• In June, City granted approval and trucking of wastes to WWTP began.
• Construction of replacement UV system started in July.
2005
• Periodic fecal coliform violationscontinued.
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• Fecal coliform violations continued, even after start-up of new UV system.
• MDEQ initiated formal enforcement action.
• Aggressive investigations into cause:
– Transmittance testing of effluent and each truckload.
– Operators noted color/odor changes in trucked waste and at WWTP headworks.
– Evaluation of Stanwood facility raw materials by Mr. Michael Goergen of Merit Laboratories, Inc.
2006
![Page 8: Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry MWEA Industrial Pretreatment Seminar October 24, 2007.](https://reader036.fdocuments.us/reader036/viewer/2022081602/551ab3da550346856e8b5013/html5/thumbnails/8.jpg)
• Investigations indicated cause of interference was potassium sorbate:
– Natural preservative, commonly used in foods.
– Additive in Splash fruit-flavored water product.
– Absorbs UV at approximately same wavelength as is optimum for microorganism deactivation.
• Question - How to control…
Mystery Solved
H3C H
C = C H
H C = C
H COO– K+
![Page 9: Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry MWEA Industrial Pretreatment Seminar October 24, 2007.](https://reader036.fdocuments.us/reader036/viewer/2022081602/551ab3da550346856e8b5013/html5/thumbnails/9.jpg)
engineersscientistsarchitects
constructors
Development of Local Limitfor Transmittance
![Page 10: Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry MWEA Industrial Pretreatment Seminar October 24, 2007.](https://reader036.fdocuments.us/reader036/viewer/2022081602/551ab3da550346856e8b5013/html5/thumbnails/10.jpg)
• Option 1 – Chemical-Specific Local Limit
– Not directly correlated to observed interference.
– Testing issues
• Turnaround time
• Cost
Control Mechanism forPotassium Sorbate
![Page 11: Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry MWEA Industrial Pretreatment Seminar October 24, 2007.](https://reader036.fdocuments.us/reader036/viewer/2022081602/551ab3da550346856e8b5013/html5/thumbnails/11.jpg)
Control Mechanism forPotassium Sorbate (cont’d)
• Option 2 – Transmittance Local Limit
– Direct correlation to observed interference.
– Straightforward testing.
– But…
No experience or EPA/MDEQ guidance on developing transmittance local limit.
![Page 12: Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry MWEA Industrial Pretreatment Seminar October 24, 2007.](https://reader036.fdocuments.us/reader036/viewer/2022081602/551ab3da550346856e8b5013/html5/thumbnails/12.jpg)
General Methodologyfor Local Limit Development
1. Calculate maximum allowable headworks loading (MAHL):– Pass-through– Sludge Quality– Inhibition
2. Calculate domestic/background loading (LBKGD).
3. Calculate maximum allowable industrial loading (MAIL):
MAIL = MAHL*(1-SF) - LBKGD
4. Allocate MAIL among significant industrial users (SIUs).
![Page 13: Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry MWEA Industrial Pretreatment Seminar October 24, 2007.](https://reader036.fdocuments.us/reader036/viewer/2022081602/551ab3da550346856e8b5013/html5/thumbnails/13.jpg)
Transmittance
• Definition of transmittance (T):
where: I = intensity of UV light leaving sample
Io = intensity of UV light entering sample
• Not concentration-proportional; not additive.• Not adaptable to mathematical manipulation.
100I
IT
o
![Page 14: Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry MWEA Industrial Pretreatment Seminar October 24, 2007.](https://reader036.fdocuments.us/reader036/viewer/2022081602/551ab3da550346856e8b5013/html5/thumbnails/14.jpg)
Absorbance
• Related parameter, absorbance (A), is related to T by Beer’s Law:
or
• Both concentration-proportional and additive• Adaptable to mathematical manipulation
A10100T
log(T/100)A
![Page 15: Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry MWEA Industrial Pretreatment Seminar October 24, 2007.](https://reader036.fdocuments.us/reader036/viewer/2022081602/551ab3da550346856e8b5013/html5/thumbnails/15.jpg)
Proposed Calculation Procedure
1. Assume effluent absorbance (AEFF) is additive from:
– Residual effluent total suspended solids (TSS):
– Pass-through of background sources:
– Pass-through of trucked waste source:
)100BKGD
R(1
BKGDA
)100SIU
R(1
SIUA
EFFTSS
TSSΔA
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Proposed Calculation Procedure
2. Assume AEFF maintained at or below maximum value (AMAXEFF) less safety factor (XSF):
3. Calibrate parameters using site-specific data, then solve above equations for ASIU.
4. Transpose ASIU to TSIU:
)100
X(1AMAXA SF
EFFEFF
SIUSIU
A10100T
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Site–Specific Calibration• ΔTSS
0.0
0.1
0.2
0.3
0.4
0.5
0 10 20 30 40 50 60
TSS, mg/L
Abs
orb
an
ce
ΔATSS = 0.00701
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Site–Specific Calibration (cont’d)
• ABKGD*(1-RBKGD/100)
Effluent Transmittance
%
Effluent TSS mg/L
Effluent Absorbance
TSS Correction
Corrected Effluent
Absorbance
Corrected Effluent
Transmittance %
a.m. 61 17 0.215 0.119 0.096 80
p.m. 55 18 0.260 0.126 0.133 74
April 7, 2004 a.m. 54 24 0.268 0.168 0.099 80
April 8, 2004 a.m. 58 23 0.237 0.161 0.075 84
a.m. 54 33 0.268 0.231 0.036 92
p.m. 56 20 0.252 0.14 0.112 77
a.m. 57 19 0.244 0.133 0.111 77
p.m. 61 14 0.215 0.098 0.117 76
April 11, 2004 p.m. 62 17 0.208 0.119 0.088 82
57 0.240 0.096 80
ABKGD*(1-RBKGD/100)
Measured Calculated
April 6, 2004
April 9, 2004
April 10, 2004
Average
Sampling Event (without SIU discharge)
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Site–Specific Calibration (cont’d)• AMAXEFF
Design Basis
NPDES Limit
Pass-through
0
200
400
600
800
0.000 0.100 0.200 0.300 0.400 0.500 0.600
Effluent Absorbance
Eff
luen
t F
ecal
Col
iform
, co
unts
/100
mL
Design Basis Pass-through
NPDES Limit
(AMAXEFF)
![Page 20: Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry MWEA Industrial Pretreatment Seminar October 24, 2007.](https://reader036.fdocuments.us/reader036/viewer/2022081602/551ab3da550346856e8b5013/html5/thumbnails/20.jpg)
Site-Specific Parameters
• RSIU
Data showed lower A at higher trucked waste volume, but effluent remained relatively constant.
0.0
1.0
2.0
3.0
4.0
5.0
0 25,000 50,000 75,000 100,000 125,000
Trucked Waste Volume, gal/day
Tru
cked
Was
te A
bsor
banc
e
ASIU = 2.32 – 1.58x10-5*QSIU
0.0
0.1
0.2
0.3
0.4
0.5
0 25,000 50,000 75,000 100,000 125,000
Trucked Waste Volume, gal/day
Eff
luen
t A
bso
rban
ce
(B
ack
gro
und-
and T
SS
-corr
ect
ed)
0.0
0.1
0.2
0.3
0.4
0.5
0 1 1 2
SIU Flow, gal/day
Eff
lue
nt
Ab
sorb
an
ce (
TS
S-c
on
tro
lled
)
0.0
0.1
0.2
0.3
0.4
0.5
0.0 0.5 1.0 1.5
Discharge Absorbance
Eff
lue
nt
Ab
sorb
an
ce (
TS
S-C
otr
rect
ed
)
50%
60%
70%
80%
90%
100%
0 25,000 50,000 75,000 100,000 125,000
Trucked Waste Volume, gal/day
Rem
oval
of
Tru
cked
Was
te A
bsor
banc
e
ASIU = 2.32 – 1.58x10-5*QSIU
AEFF’ = 0.065 + 2.30x10-8*QSIU
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Site-Specific Parameters (cont’d)
RSIU decreased at higher trucked waste volume:
60%
70%
80%
90%
100%
0 25,000 50,000 75,000 100,000 125,000
Trucked Waste Volume, gal/day
RS
IU
![Page 22: Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry MWEA Industrial Pretreatment Seminar October 24, 2007.](https://reader036.fdocuments.us/reader036/viewer/2022081602/551ab3da550346856e8b5013/html5/thumbnails/22.jpg)
Results• Solving for ASIU and transposing to TSIU produced
family of curves for local limit:
0
20
40
60
80
100
0 25,000 50,000 75,000 100,000 125,000
Trucked Waste Volume, kgal/day
Min
imu
m T
ran
smitt
an
ce,
Da
ily A
vera
ge
%
Effluent TSS
10 mg/L
5 mg/L
15 mg/L
17.5 mg/L
>18.5 mg/L
![Page 23: Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry MWEA Industrial Pretreatment Seminar October 24, 2007.](https://reader036.fdocuments.us/reader036/viewer/2022081602/551ab3da550346856e8b5013/html5/thumbnails/23.jpg)
Results (cont’d)• Permit negotiations between City and Nestle
Waters led to following permit conditions:– No acceptance if TSSEFF exceeds 15 mg/L.
– Maximum QSIU of 120,000 gal/day.
– Minimum transmittance of 70%.
0
20
40
60
80
100
0 25,000 50,000 75,000 100,000 125,000
Trucked Waste Volume, kgal/day
Min
imu
m T
ran
smitt
an
ce,
Da
ily A
vera
ge
%
Effluent TSS
10 mg/L
5 mg/L
15 mg/L
17.5 mg/L
>18.5 mg/L
![Page 24: Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry MWEA Industrial Pretreatment Seminar October 24, 2007.](https://reader036.fdocuments.us/reader036/viewer/2022081602/551ab3da550346856e8b5013/html5/thumbnails/24.jpg)
Summary
• “Clean” waste caused interference in this case.
• For T limit, use general methodology based on A.
• Must specify both TSSEFF and QSIU to set limit.
• Lessons learned:
– You never know what you will get with trucked waste.
– Use all your resources to maximize knowledge.
– Get it in writing before it happens.
– Permit the discharger, not the transporter.
![Page 25: Engineers scientists architects constructors Case Study UV Disinfection Interference From Industry MWEA Industrial Pretreatment Seminar October 24, 2007.](https://reader036.fdocuments.us/reader036/viewer/2022081602/551ab3da550346856e8b5013/html5/thumbnails/25.jpg)
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Questions