West Basin Ocean Water Desalination Program High Salinity...

West Basin Ocean Water Desalination ProgramHigh Salinity Study Results

Management of Brine DischargesScience Advisory Panel Meeting

December 8, 2011

Who is West Basin?

• Wholesaler of imported water• Industry leader in recycling & y y g

conservation• Serve 1 million people in

17 cities• Provide enough water to

fill R B l 850 tifill Rose Bowl 850 times each year

Pilot PlantDesalination Background

Project Objectives

• Step of Due Diligence in Full-Scale Development

j jDemonstration Project

• Certify Processes at Full-Scale Level- Intake Study- Process Optimization- Energy Minimization- High Salinity Studyg y y- Regulatory Compliance

• Stakeholder Education• Stakeholder Education

Quick Facts

• Location: Redondo Beach, CADemonstration Project

• Intake:- Wedgewire Passive Screens (1mm & 2mm slot size)- Subsurface Infiltration Gallery Pilot

• Project Capacity:j p y- 0.5 MGD (Intake)- 35 GPM (Product Water Production)

• Process:- Pretreatment/Ultra-Filtration (Zeeweed 1000)- Desalination/Reverse Osmosis (Hydranautics SWC5)

0.5 MGD Demonstration ProjectjDemonstration Project Highlights

Wedgewire ScreengDemonstration Project

Impingement & Entrainment (I&E) Study

• Establish baseline characterization of

Demonstration Projectp g ( ) y

fish eggs and larval stages of fish & invertebrates

• Evaluate operational effectiveness of intake technologies

• Model potential impacts to local fish and invertebrate populations

• Evaluate corrosion and biofouling of intake technologiesintake technologies

Process OptimizationDemonstration Project

• Minimize Operational Costs

• Minimize Capital ReplacementMinimize Capital Replacement

• Minimize Energy Consumption

Regulatory Compliance

• Performing Extensive Water Quality

Demonstration Projectg y p

• Performing Extensive Water QualityDischarge Compliance Test

• Performing Suite of DPH Water QualityTests for Full-Scale Permitting

• Evaluating CECs

• Monitoring Harmful Algal Blooms• Monitoring Harmful Algal Blooms

Stakeholder EducationDemonstration Project

Project Objectivesj jDemonstration Project

- High Salinity Studyg y y

Study Objectives

• Research high salinity Impacts

High Salinity Studyy j

on local marine species

• Identify tolerance levels ofIdentify tolerance levels ofindigenous organisms

• Identify salinity levels eliciting• Identify salinity levels elicitingadverse effects on organisms

• Establish guidance on regulatory

limits for concentrate dischargelimits for concentrate discharge

Biological Impacts Study

• Assess short & long term impacts of high salinity discharges

High Salinity Studyg p y

- Short-term: EPA Whole Effluent Toxicity (WET) methods* Accute Toxicity Accute Toxicity* Chronic Toxicity

Long term: On site mesocosm exposures- Long-term: On-site mesocosm exposures

Short-term WET Study

• Organism Selection

High Salinity Studyy

- Sensitive life stage

- Trophic representativeness

Regional presence- Regional presence

- Available protocols

- Available organisms

Short-term WET StudyHigh Salinity Study

• Chronic Toxicity Species Three Episodes- Larval mysid shrimp- Larval topsmelt

Gi t k l

Five or Six Brine Dilutions

- Giant kelp spores

• Acute Toxicity Species- Larval mysid shrimp- Larval topsmelt

Juvenile sanddabs- Juvenile sanddabs

• Chronic Toxicity Species EPISODE 1- Larval mysid shrimp- Larval topsmeltGi t k l

33, 42, 51, 60, 70 PPT

EPISODE 2- Giant kelp spores

• Acute Toxicity Species

EPISODE 233, 36, 39, 41, 45, 50 PPT

- Larval mysid shrimp- Larval topsmelt

Juvenile sanddabs

EPISODE 333 36 39 42 45 60 PPT- Juvenile sanddabs 33, 36, 39, 42, 45, 60 PPT

LOEC NOEC

Acute Toxicity Results

SPECIESMEAN LC50

LOEC NOEC

E1 E2 E3 E1 E2 E3

Mysid shrimp 49.2 51 50 60 42 45 45

Topsmelt 50.4 51 >50 60 42 50 45

Sanddabs 55.5 60 NT NT 51 NT NT

Ch i T i it R lt

Chronic Toxicity Results

SPECIESLC50 Test

E1 E2 E3

M id h iSurvival 42 42 45

Mysid shrimp 49.0Biomass 42 41 41

Topsmelt 50.4Survival 42 50 45Biomass 42 50 45

Giant Kelp 53.7Prop Germ 42 41 39Growth 42 39 41

Short-term WET Study ConclusionsHigh Salinity Study

• Acute Salinity Limit: 45 ppt

• Chronic Salinity Limit: 41 ppt

• Most sensitive effects levels substantially higher than conceptual COP salinity thresholds.

• Species with highest exposure risk (demersal fish) appear to be least sensitivebe least sensitive.

• Existing discharge technologies (i.e., Dilution/Diffusion)can meet the proposed Chronic and Acute thresholds

Long-term Mesocosm StudyHigh Salinity Study

• Long-term Component300 gallon aquarium divided into two compartments- 300 gallon aquarium divided into two compartments

- 67 ppt RO concentrate and 33.5 ppt ocean water feeds- Carbon columns to remove chloramines- Stocked with species indigenous to Southern California- Three 2-week intervals at varying salinities: 40, 45 & 50 ppt- Three 8 week mesocosm iterationsThree 8 week mesocosm iterations- Two sublethal endpoints measured at end of each iteration

Long-term Mescosm ExposureHigh Salinity Study

Long-term Mesocosm ExposureHigh Salinity Study

Long-Term Species List

Rock Crabs Kelp PerchRock Crabs Kelp Perch

Mussels Sand Daps

Splitnose Rockfish Bat Starsp

Flag Rockfish Red Abalone

Shiner Perch Purple Urchins

Long-term Mescosm StudyHigh Salinity Study

• 1st Mesocosm Results- All species survived 40 & 45 ppt @ 2 week exposures- No observed adverse effects on any species- Observed effects on Urchins and Red Abalone @ 50 pptObserved effects on Urchins and Red Abalone @ 50 ppt- No statistical impact to Sanddap weights/lengths @ 50 ppt

• Next Steps• Next Steps- Mesocosm Trial No. 2 & 3- Salinity Intervals Considered: 36.5, 40, & 47ppt- Evaluate post-salinity Purple Urchin embryo development @

40 and 47 pptand 47 ppt

Suggested SWRCB Policy Considerationsgg y

• Regulations to be based of site specific species salinity tolerance

• Best available discharge technology identified by project proponen

Use of dilution & mixing allowed to meet salinity objectives• Use of dilution & mixing allowed to meet salinity objectives

• Policy should support the concept of a large ZID for energy mixing

• Provide credit for gravity energy potential for falling brine and slopbottombottom

• Acceptable brine models should be identified and standardized

Questions ?????

West Basin Ocean Water Desalination Program High Salinity...

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