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The Arsenic Rule:
Water Treatment Plant Residuals
Issues in Management
and Disposal
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Treatment of drinking water results in the concentration of arsenic and other co-occurring contaminants in process residuals
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Residuals must be managed and disposed of legally, in a manner which does not adversely impact human health and the environment
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Residuals Overview:
• Contaminants impacting disposal alternatives
• Overview of regulations• Review of arsenic mitigation processes
and residuals produced • Pilot testing considerations• Case studies• Goals of residuals management• Conclusions
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2 Phases of Residuals Produced from Arsenic Removal Processes
• Liquid Phase Residuals – Brines, concentrates, backwash and rinse
water, filter to waste etc.
• Solid Phase Residuals– Spent media, membranes, dewatered sludge
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Contaminants Impacting Disposal Alternatives
• High or low pH• High Total Suspended Solids (TSS)• High Total Dissolved Solids (TDS)• High concentrations of heavy metals such as
arsenic, lead, and cadmium• High concentrations of competing
ions such as fluoride, sulfate, chloride• Radionuclides and daughter products
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Management / Disposal Options
andRegulatory Requirements
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Liquid Residual Disposal Options
• Direct discharge to receiving bodies • Discharge to Publicly Owned Treatment
Works (POTW) • Underground injection • Land application• Recycle to facility headworks
(Intermediate processing may be required)
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Solid Residual Disposal Options
•Land disposal:
– Non-hazardous waste landfill – Hazardous waste landfill– Land application
• A State permit may be required
(Intermediate processing may be required)
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Regulations Governing Residuals Management and Disposal
• The Resource Conservation and Recovery Act (RCRA)
• Clean Water Act (CWA)
• Safe Drinking Water Act Underground Injection Control (SDWA UIC)
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RCRA Background
• RCRA was passed to encourage waste minimization, recycling and reuse of wastes wherever possible
• Defines solid and hazardous wastes and establishes standards for appropriate management
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RCRA: Determining Waste Characteristics
– A person who generates a solid waste must determine if that waste is a hazardous waste (40 CFR 262.11)
• Listed wastes• Characteristic wastes• Excluded wastes
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Is your waste one of the following:1. Domestic sewage;
2. CWA point source discharge;3. Irrigation return flow; or,
4. In-situ mining waste?
Solid, liquid, semi-solid, or contained gaseous material which is:
1. Discarded2. Served its intended purpose
3. A manufacturing or mining by-product
Garbage, refuse, or sludge
RCRA solid waste
Other
Not a RCRA solid waste
May be hazardous
Not hazardous
under RCRA
YN
All Drinking Water Treatment Waste Materials
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RCRA Solid Waste
Is the solid waste excluded from regulation
under §261.4(b)?Is the solid waste listed in Part 261, Subpart D, or is it a mixture that contains a waste listed in Subpart D?
Has the waste or mixture been excluded from the
lists in Subpart D or §261.3 in accordance with
§§260.20 and 260.22?
Does the waste exhibit any of the
characteristics specified in Part 261, Subpart C?
Not a hazardous waste;
land disposal subject to Subtitle D
Hazardous waste
N Y
N
Y
Y
N
Y
N
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RCRA Regulatory Tests
• Paint Filter Liquids Test
• Toxicity Characteristic Leaching Procedure (TCLP)
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Paint Filter Liquids Test
– Determines if “free” liquids are present in a waste
– Wastes containing free liquids banned from disposal in municipal solid waste landfills and hazardous waste landfills
– Liquid wastes must be treated or disposed in an alternative manner
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Toxicity Characteristic Leaching Procedure (TCLP)
– Predicts if hazardous components of a waste are likely to leach out of the waste and become a threat to public health or the environment
– 8 metals and 32 organics have regulatory levels established
– Exceeding regulatory levels result in designation as hazardous
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Residuals Management Under RCRA
• Land Disposal– non-hazardous Wastes
• 40 CFR Parts 239-258
– Hazardous Wastes – Subtitle C• 40 CFR Parts 260-273
– Land Disposal Restrictions• 40 CFR Part 268
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RCRA Land Disposal
• Options:– Landfill, land application
• May require permit
• Must be non-hazardous or RCRA land disposal restrictions apply
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CWA Background
Clean Water Act (CWA) / National Pollution Discharge Elimination System (NPDES)
• Created to control, through permit systems, discharge of pollutants into waters of the U.S• Domestic sewage and CWA point source
discharges excluded from regulation under RCRA
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Residuals Management under CWA
• Direct Discharge
• Discharge to a Publicly Owned Treatment Works (POTW)
• Land Application/Beneficial Reuse
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Direct Discharge to a Receiving Body
• Requires NPDES permit
• Must meet NPDES discharge requirements
• Talk to permitting agency for requirements
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Discharge to a POTW
• Requires permit - talk to POTW or Primacy Agency permitting agency
• Must meet pretreatment requirements / POTW Technically Based Local Limits (TBLLs)
• Must not interfere with POTW operations or pass through excessive pollutants to sludge
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Arsenic TBLLs
2,000 µg/L
150 µg/L
120 µg/L
4,000 µg/L
170 µg/L
500 µg/L
1,000 µg/L
1,700 µg/L
51 µg/L
1,000 µg/L
Orange County, California
Newark, New Jersey
Lakeland, Florida
King County (Seattle), Washington
El Paso, Texas
Boston, Mass. (Metropolitan Sewerage Area)
Boston, Mass. (Clinton Sewerage Area, MWRA)
Anchorage, Alaska
Albuquerque, New Mexico
San Jose, California
City Arsenic TBLLs
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Land Application/ Beneficial Reuse
• May require permit
• Must be non-hazardous
• Some Primacy Agencies use CWA Part 503 sludge land application limits as WTP residuals management guidelines
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SDWA-UIC Background
The Safe Drinking Water Act (SDWA) Underground Injection Control (UIC) program
• Established to protect the quality of drinking water in the U.S.
• Prohibits movement of injected fluids into underground sources of drinking water
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Residuals Management under SDWA – UIC
• Requires a permit• Dilution as a substitute for treatment
is prohibited • No injection shall be authorized if:
– fluid containing any contaminant moves into underground sources of drinking water
– the presence of that contaminant may cause a violation of any National Primary Drinking Water Regulation (NPDWR) or adversely affect the health of persons
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Recycle to facility headworks
• Ensure that the system complies with the Filter Backwash Recycling Rule
• Ensure that recycling practices do not negatively impact finished water quality
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Primacy Agency Regulations• California uses Waste Extraction
Test (WET) to determine toxicity characteristic– Determination based on total metals
analysis as well as extraction analysis– Some residuals which might pass TCLP
for metals may fail California WET for metals
• Others ?
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Arsenic Mitigation Processes and the
Residuals Produced
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Dual Objectives: Meeting the MCL & Waste Minimization• Option #1: Change of source• Option #2: Source blending• Option #3: Optimize existing processes
for arsenic removal• Option #4: Add unit processes specific
to arsenic removal/sidestream treatment
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Source Management
• Changing the source
• Source blending
No residuals are generated if no treatment is used
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Optimize Existing Processes
• Removal of arsenic from drinking water results in increased levels of arsenic in residuals
• Changes in residual characteristics trigger requirement to sample and analyze
• Results of analyses dictate disposal options
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Add Unit Processes for Arsenic Removal
– Pilot test promising treatment technologies to determine finished water quality, residuals characteristics
– Residuals high in arsenic require sampling and analysis to determine characteristics and appropriate management and disposal strategy
– Results of analyses dictate disposal options
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Arsenic Removal Technologies
• Sorption Processes• Chemical Precipitation Processes *• Membrane Processes *
* Technology in place at existing treatment plants
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Sorption Processes- Disposable Media
• Process:Adsorptive media
(GFH etc.) without regeneration
Activated alumina without regeneration
• Residuals: Liquid Residuals
– Possibly backwash and rinse water
Solid Residuals– Spent media
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Disposable Media Disposal Options
• Recycle backwash water to facility headworks
• Discharge backwash water to receiving body or POTW
• Landfill spent media
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Sorption Processes- Reusable MediaProcess: Ion Exchange (IX)
– With regeneration
Residuals:
Liquid Residuals – Backwash and rinse
water, regenerant fluids
Solid Residuals– Spent media– Sludge from liquids
processing
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IX Residuals Disposal Options
Liquids:– Investigate discharge to POTW
• Combine backwash, regenerant, and rinse streams for flow equalization
• Consider pretreatment options• Apply for pretreatment permit
Solids:– Landfill sludge, spent media
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Chemical Precipitation Processes
Process:
• Conventional and Direct Coagulation/Filtration
• Enhanced Coagulation/Filtration
• Enhanced Lime Softening
• Oxidation/Filtration
Residuals:
• Liquid Residuals:– filter backwash,
supernatant
• Solid Residuals: – sludge – spent media
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Chemical Precipitation Residuals Disposal Options
Liquids:• Direct discharge backwash water/
supernatant • Discharge backwash
water/supernatant to POTW
Solids:• Landfill sludge, spent media
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Membrane Processes
• Reverse osmosis
• Nanofiltration
• Coagulation-assisted membrane filtration
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Membrane Processes Residuals
• Liquid Residuals:– Reject concentrate– Cleaning solution/
backwash water
• Solid Residuals– Spent membranes– Sludge
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Membrane Processes Residual Disposal Options
• Liquids:– Consider pretreatment/management
options– Investigate discharge to POTW
• Solids:• Landfill sludge, spent membranes
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Pilot Testing Considerations
• Consider pilot testing when optimizing existing processes or adding new processes
• Plan sampling ports for raw water, finished water, media, liquid and solid waste streams
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Sampling
• Obtaining a representative sample is critical
• Consider mixing, compositing, coring or analyzing multiple samples to account for sample variability
• Lab work is only as good as the sample
being tested
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Developing a Sampling Plan:
– Use a certified lab, use approved methods
– Determine preservation requirements, holding times, sample container compatibility
– Choose grab samples for liquids, composite samples for solids
– Obtain equipment and provide for decontamination between samples
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Sampling Mechanism
Sampling Frequency
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Case Study #1: IX Plant Backwash/Regeneration
1.2
108
9.6
1,332
9.0
15,623
14.0
59.4
Average Conc.
-
5000
4.0
356
0.5
6.9
5
5
mg/L
g/L
Fast Rinse:
TSS
Total As
-
5000
22.0
3,060
0.5
253
5
5
mg/L
g/L
Slow Rinse:
TSS
Total As
-
5000
13.0
38,522
6.0
1,830
5
5
mg/L
g/L
Brine Rinse:
TSS
Total As
-
5000
24.0
74.4
6.0
28.9
5
5
mg/L
g/L
Backwash:
TSS
Total As
Arsenic
TC
Maximum Conc.
Minimum Conc.
# Samples
UnitsParameter
Arsenic Removal from Drinking Water by Ion Exchange and Activated Alumina Plants, USEPA ORD 10/00
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Case Study #2: TCLP Results of Spent Adsorptive Media in CA
100
5.0
7.5
0.011
2.63.94.6Barium
<0.01<0.010.0074Arsenic
TC
mg/L
Iron –
Based
Media
mg/L
AA
Media #3
mg/L
AA
Media #2
mg/L
AA
Media #1
mg/LElement
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Example Pilot Plant Set Up for Media and Residual Testing
Flow Control
Sample Taps
Media Sample Ports
To Waste
Meters
Media1
Media2
Media3
Flow Control
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Goals of WTP Residuals Management
1. Generate non-hazardous wastes
2. Generate as little waste as possible
3. Dispose of waste appropriately at lowest cost
Result? Waste Minimization/Best Management Practice
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Why Generate Non-hazardous Wastes ?
• No cradle-to-grave liability
• Management requirements less rigorous
• Disposal of non-hazardous waste is less expensive
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But…. Economics
• Possible trade-off between maximizing use of media and avoiding generation of hazardous waste
• Therefore, perform cost-benefit analysis
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Conclusions
• Avoid generating a hazardous waste unless it is more cost-effective to do so
• Most likely scenarios:– Ion exchange with discharge to a POTW– Activated alumina without regeneration– GFH– POU systems
• Pilot scale testing will be useful for determining operating parameters and residuals characteristics