Phosphorus Removal in a Membrane Reactor System— A Demonstration Study Wayne Lorenz, P.E. and Matthew J. Gavin Wright Water Engineers, Inc. and Newell.

Slides:

Advertisements

Similar presentations

Overview AST Clean water technologies was requested to design and construct an Industrial Waste water Treatment Plant with a capacity of 35 m 3 /h in.

Advertisements

Wastewater Management at an Animal Protein Rendering Facility J.B. Hess, W.A. Dozier, J. Spann and B. Thomas Poultry Science Department, Auburn University.

LEACHATE MANAGEMENT AND TREATMENT

INTRODUCTION TO THE TREATMENT OF TANNERY EFFLUENTS

1000 Friends of Florida Presentation on May 12, 2005 Presenter: Kart Vaith/CDM

Located in Exmoor National Park, with nearby bathing beach 3800 population equivalent (summer) 1900 m 3 /d flow to full treatment Sewage feed started 12th.

Anne Arundel County Department of Public Works

Wastewater treatment steps Primary: solids removal (physical) Secondary: BOD treatment (biological) Tertiary: Effluent polishing, Nutrient and Toxins Removal.

SECONDARY TREATMENT Main aim is to remove BOD (organic matter) to avoid oxygen depletion in the recipient Microbial action Aerobic/anaerobic microorganisms.

Membrane Processes For Waste Water Treatment By: Rohit Chaurasia 3 rd B. Tech. Civil Engineering 71/08.

Membrane Technologies for Wastewater Treatment W. Gilbert O’Neal, Ph.D., P.E.

The Basics of Phosphorus Removal

Nutrient Removal Project: Chemical Phosphorus Removal Jill Crispell, Stephanie Wedekind, Sarah Rosenbaum.

Phosphorus Removal at Sand Creek Water Reuse Facility by Duane “Bear” Steib and Kathy Bill/City of Aurora Steve Polson/CH2M HILL by Duane “Bear” Steib.

WEAO2012 Technical Conference USING ONLINE ANALYZER FOR OPTIMIZING CHEMICAL PHOSPHORUS REMOVAL PROCESS IN MUNICIPAL WASTEWATER TREATMENT Ottawa, Ontario,

Tertiary Treatment of Domestic Wastewater By

The AFC Process What Is AFC? Key Operations are  Balancing of incoming waste streams  Thermophilic activated sludge (AFC) to oxidise the organic.

Nitrogen Removal from Yamuna River (India) using MBBR – Pilot Summary

Aquaculture Systems Technologies, LLC

Nitrification and Denitrification

Deborah Helstrom, P.E. Utilities Technical Review Water Supply Division Membrane Bioreactors Treatment Systems.

GALENA WASTEWATER TREATMENT UPGRADES Informational Presentation for the Sassafras River Association Presented by Ryan J. Rangel, PE April 23, 2015.

ROTATING BIOLOGICAL CONTACTOR (RBC) PROCESS

WASTE WATER TREATMENT FOR RITONAVIR PRODUCTION PLANT Presented by Wang Dong Mei July 8, 2000.

Coagulation in Industrial water Treatment

Process biotechnology application to industrial wastewater treatment plants PROF AVN SWAMY, Vice Principal, JNTUACE Pulivendula.

Using On-line Monitoring as an Effective Tool for Wastewater Treatment Process Optimization Ontario WEA Wastewater Instrumentation & Data Management Seminar.

Wastewater Treatment Engineering Engineering. Environ. Engineering Course Sequence CE4501 Env.Chem P-Chem GE3850 Geohydrol. CE4508, 4507,4509 Drinking.

Wastewater treatment processes (II) ENV H 440/ENV H 541 John Scott Meschke Office: Suite 2249, 4225 Roosevelt Phone:

Lecture# 3 Water treatment

Moving Bed Biofilm Reactor Retrofit for Ammonia and Nitrate Removal

Pennsylvania Water Environment Federation PennTEC Annual Technical Conference June 4, 2013 Altoona Westerly Wastewater Treatment Facility BNR Conversion.

Effective Use Of Peracetic Acid to Reduce Effluent Disinfection Byproduct in Water Resource Recovery Facilities Isaiah Shapiro, EIT Dimitri Katehis PhD,

PHOSPHORUS REMOVAL FOR LAGOON OPERATORS WHY THE CONCERN OVER P.

Retro-Fit Denitrification for Small Wastewater Treatment Facilities

The Living Machine & Leachate

James M. Ebeling, Ph.D. Research Engineer

Reverse Osmosis Ultrafiltration Microfiltration

Michael Tamblin, P.E., BCEE Stearns & Wheler, LLC Protecting and Enhancing the Ramapo Watershed – A Designated Sole Source Aquifer Supplying New York and.

Rajni Patel Gopani Product Systems 13 th Sep

Biological Aerated Filtration (BAF) at the Denver Water Recycling Plant 2006 Water Reuse Workshop Golden, CO Russell Plakke, Denver Water.

Evaluation of alternative technologies for upgrading wastewater treatment plants in Minnesota for new phosphorus limits H. David Stensel University of.

Cottonwood Water & Sanitation DistrictSeptember 2002 Arber Indirect Potable Reuse at Cottonwood Water and Sanitation District Rick Arber, Ben Johnson Richard.

Adjusting N:P ratios in liquid dairy manure through nitrification and chemical phosphorus removal to match crop fertilizer requirements Background Nutrient.

Deborah Helstrom, P.E. Industrial Permits Team Wastewater Permitting Section Membrane Bioreactors Treatment.

Environmental Engineering (Wastewater treatment) Core Course Laboratory of Environmental Engineering & Planning Department of Civil Engineering Aristotle.

Good at the First Drop: Start-up of the Western Wake Regional WRF Meets Summer Permit Limits 95 TH Annual Conference | November 2015 | Raleigh Convention.

NYWEA ENERGY SPECIALTY CONFERENCE November 20, 2014 Towards Net-Zero Energy in Wastewater Treatment Demonstration of ClearCove’s Enhanced Primary Treatment.

APC-MB05 IS ADVANCED IN WASTEWATER TREATMENT SYSTEMS APC Wastewater Treatment System.

Membrane Bioreactors World’s best practice for Winery Wastewater Treatment Dr. Matt Savage MIChemE. CEng.

Presentation by Chelsea Smith March 11, My Background Southern Wells (K-12) Graduated in 2010 Ball State University ( ) BS in Environmental.

Electricity | Natural Gas | Water | Wastewater Adding Whey for Denitrification Dale Adams, P.E Managing Engineer, Colorado Springs Utilities September.

Study of the U.S. Institute for the Environment Introduction to Water and Wastewater and Treatment Tuesday July 14, 2009.

Membrane Bioreactors for Wastewater Treatment.

Town of Taos / Taos Valley Regional Wastewater Treatment Facility MBR Upgrade Emerging Technologies 2012 Infrastructure Finance Conference Kari Edenfield,

2011 WCW Conference. Fort McMurray James Sacker, Director Environmental Hugh Crawford, Wastewater Supervisor Plant Operations staff Alberta Environment.

Course TEN-702 Industrial waste management unit-2 Lecture -13.

Sudan Raj Panthi Advanced Remediation and Treatment (ART), Lab Biological Phosphorus Removal.

Modified Ludzack-Ettinger Wastewater Plant

Preliminary Treatment Removing Large Solids Material by Raking & Screening REMOVES 1.

Membrane Technology for Treatment of Process Affected Waters

CTC 450 Review Preliminary & Primary Treatment Measure flow Screen

TERTIARY TREATMENT METHODS

Wastewater Facilities Upgrade Project

Biological nutrient removal in municipal waste water treatment

Tertiary Treatment.

Assessment of MBR for Bacteria & Nitrogen Reduction

Physical/Chemical Waste Treatment

Nitrogen Removal University of Kansas

Advanced Wastewater Treatment

Presentation transcript:

Phosphorus Removal in a Membrane Reactor System— A Demonstration Study Wayne Lorenz, P.E. and Matthew J. Gavin Wright Water Engineers, Inc. and Newell Wright, P.E. Arapahoe County Water and Wastewater Authority

PROCESS SCHEMATIC LONE TREE CREEK WASTEWATER TREATMENT FACILITY SAMPLE POINT 1 INFLUENT SAMPLE POINT 2 MBR INFLUENT FERRIC CHLORIDE INFLUENT PUMP STATION MECHANICALLY CLEANED BAR SCREEN SOLIDS RECYCLE ANOXIC BASIN AEROBIC BASIN MEMBRANES MEMBRANE BIOREACTOR (MBR) SAMPLE POINT 3 PERMEATE MEMBRANE VACUUM/PERMEATE PUMPS UV DISINFECT DISCHARGE

SOLIDS RECYCLE ANOXIC BASIN AEROBIC BASIN MEMBRANES MEMBRANE BIOREACTOR (MBR)

Membrane ZeeWeed ® Membrane Inner reinforcing structure covered with a composite polymer outer layer Pore Size micron (nominal) 0.1 micron (absolute) Immersible, Ultra Low Pressure, Oxidant Resistant, High Strength Operates at -2 psi to -6 psi when filtering and 3 psi on backpulse Filtered Water Process Tank (Influent) X-Section Membrane Layer Inner Reinforcing Structure DiameterOuter = 1.9 mm Inner = 0.9 mm

FePO 4 (S) Fe(OH) 3 (S) Al(OH) 3 (S) AlPO 4 (S) Fe(PO 4 ) (X-3)/3 (OH) X (S) Al(PO 4 ) (X-3)/3 (OH) X (S) pH Value — 7 — 6 — 5 — 4 — 3 — 7 —6 — 5 — 4 — Log Molar Soluble Phosphorus

FERRIC CHLORIDE Fe +3 + H n PO 4 n-3  FePO 4 + nH + FeCl 3 + 3H 2 O  Fe(OH) 3 + 3H + + 3Cl -

SODIUM ALUMINATE Al +3 + H n PO 4 n-3  AlPO 4 + nH + Na 2 Al 2 O H 2 O  2 Na + + Al 2 (OH) (OH - )

Note: Samples filtered through a 0.45-micron filter.

Notes:1. Samples filtered through 0.45 micron filter. 2. pH adjusted to 6.5 using sulfuric acid.

Phase 1 Conditions Conducted over 15 weeks—December through March Average Daily Inflow = 0.98 mgd Membrane Filtration Area - 96,000 ft 2 Average Filtration Rate = 10.2 gpd/ft 2 Ferric Chloride Dosage 80 to 100 mg/L No pH Adjustment

Note: Phosphorus analyses performed by Chadwick Ecological Consultants.

MBR Average Effluent Quality Total Phosphorus0.035 mg/L BOD mg/L Ammonia1.3 mg/L Nitrate5.8 mg/L pH7.0

CONCLUSIONS Phosphorus Goal of 0.05 mg/L was met using ferric chloride at a dosage of 80 to 100 mg/L Average Phosphorus Concentration was mg/L Phosphorus removed to 0.05 mg/L regardless of temperature

CONCLUSIONS Addition of chemical to precipitate Phosphorus impacts pH and alkalinity pH conditions are key in optimizing Phosphorus removal Activated sludge was not affected by dosages in study

Phase 2 Testing Demonstrate 0.02 mg/L P removal, or less Different chemicals Limit of biomass viability Membrane maintenance