Analysis and Relative Distribution of OPFR Compounds in Wastewater Treatment Million B. Woudneh, Coreen Hamilton, Guanghui Wang, Richard Grace, John R.

Slides:

Advertisements

Similar presentations

PCBs in San Francisco Bay Area Municipal Wastewater Effluents Donald Yee*, Jon Leatherbarrow, Jay Davis.

Advertisements

Polybrominated Diphenyl Ether (PBDE) Flame Retardants in San Francisco Bay Daniel R. Oros, Ph.D. San Francisco Estuary Institute.

ENVIRONMENTAL ANALYSIS I. Solid Phase Extraction

ENVIRONMENTAL ANALYSIS I. Solid Phase Extraction

Polynuclear Aromatic Hydrocarbon Content of Corn Stover Biochar Generated by Pyrolysis at Three Different Temperatures John W Scott, ISTC Senior Analytical.

LC-ESI-MS/MS analysis of nine basic pharmaceuticals in influent, effluent and surface water Jet C. Van De Steene and Willy E. Lambert Laboratory of Toxicology,

Chemistry, Environmental Fate and Transport, Production and Uses Charge Question 2-1: Please comment on whether the information is used appropriately in.

Mentoring Session Technical Assistance Committee Method Modifications.

ENVIRONMENTAL ANALYSIS I. Solid Phase Extraction sorbent configurations – layered phases.

Chemicals Management Forum San Antonio, Texas May 15-16, 2012 Implementation of Risk Reduction Strategies PBDE Team Commission for Environmental Cooperation.

ENVIRONMENTAL ANALYSIS I. Solid Phase Extraction fundamentals of SPE.

HPLC 1. Introduction 1.Introduction CHROMATOGRAPHY Chromatography basically involves the separation of mixtures due to differences in the distribution.

DR ZIAD W JARADAT PROTEIN BIOTECHNOLOGY BT 452 Chapter 3 HIGH PERFORMANCE LIQUID CHROMATOGRAPHY.

MINORITY/LOW INCOME STUDENTS SCIENCE RESEARCH MENTORING PROGRAM Asopuru Okemgbo a Washington State University Tri- Cities 2710 University Drive Richland,

Laboratory requirements Dioxin Workshop, Leon Mexico Richard Turle Analysis and Air Quality Division Environmental Science and Technology Centre Environment.

AXYS developed a method for direct injection analysis of 9 perfluoroalkyl carboxylates (PFCA), 3 perfluoroalkyl sulfonates (PFSA) and perfluorooctane sulfonamide.

ENVIRONMENTAL ANALYSIS I. Solid Phase Extraction example - triazines.

Establishing Baseline Levels on PBDEs in Lake Ontario Surface Water Frederick Luckey, New York State DEC Brian Fowler, AXYS Analytical Services Simon Litten,

Developing Baseline Information on PBDEs in Lake Ontario Surface Water Frederick Luckey, New York State DEC Simon Litten, New York State DEC Brian Fowler,

Measuring PCBs in Lake Ontario Surface Water Using Full-Scan Congener Methods Frederick Luckey U.S. Environmental Protection Agency, Region 2 Simon Litten.

Rapid and Accurate Analysis of Microcystins Using UPLC/MS/MS Yongtao (Bruce) Li, Ph.D. Joshua S. Whitaker Eurofins Eaton Analytical,

Types of Liquid Chromatography I. Ion Exchange Chromatography A. Factors influencing retention B. Suppressed ion exchange II. Partitioning Chromatography.

LC-MS/MS Analysis of Naphthenic Acids in Environmental Waters Coreen Hamilton, Million B. Woudneh & Guanghui Wang Presented at Workshop on Analytical Strategies.

Brominated Diphenyl Ether Results from EPA’s Targeted National Sewage Sludge Survey Harry McCarty, CSC and Rick Stevens, USEPA.

Normal-phase chromatography is really not that normal. That is to say that it is used much less frequently than reversed-phase chromatography. The main.

Developing a Method for Measuring Amlodipine Levels in Cat Plasma By:Preston Bull Advisors: Mike Gallagher, Dr. Webster.

“ANALYSIS OF CURRENT USE PESTICIDES IN ENVIRONMENTAL AND WASTEWATER SAMPLES BY HIGH RESOLUTION GC WITH HIGH RESOLUTION MASS SPECTROMETRIC DETECTION” Richard.

Determination of 209 Congeners and Congener Groups by HRGC/HRMS using a Single GC Column: Details of EPA Method 1668A Brian Fowler Axys Analytical Services.

Introduction Lake Ontario is one of the world’s largest lakes with a surface area of 19,000 km 2 and an average depth of 86 m. In addition to supporting.

Polybrominated diphenyl ethers by HRGC/HRMS Coreen Hamilton Brian Fowler Louis Haviland Axys Analytical Services, Ltd.

Application of Method 1668A to the Analysis of Dioxin-Like PCBs and Total PCBs in Human Tissue and Environmental Samples Coreen Hamilton, Todd Fisher,

Challenges of Conducting Analytical Chemistry in Environmental Matrices May 8 th 2006 Meg Sedlak and Don Yee San Francisco Estuary Institute Oakland, California.

MLA-068 Rev 3 GC- MS Analysis of Hormones and Sterols Bharat Chandramouli 05-August-2009.

High Performance Liquid Chromatography. The chromatogram is a record of detector output Vs time as the analyte passes through the chromatography.

OPTIMIZATION OF BISPHENOL A, 4-t-OCTYLPHENOL, AND 4-NONYLPHENOL EXTRACTION FROM HUMAN BLOOD SERUM WITH HYBRID SOLID PHASE EXTRACTION – PROTEIN PRECIPITATION.

HIGH PERFORMANCE LIQUID CHROMATOGRAPHY (HPLC). HIGH PERFORMANCE LIQUID CHROMATOGRAPHY High Performance Liquid Chromatography (HPLC) is one of the most.

How can the General Elution Problem by fixed? 1.Temperature programming in GC 2.Solvent programming in LC 3.Density programming in SFC.

Chromatography High Performance Liquid Chromatography HPLC Chapter Dr Gihan Gawish.

Emerging Problems? Progress on Identifying Contaminants of Concern in San Francisco Estuary Susan Klosterhaus San Francisco Estuary Institute RMP Annual.

CHM 410/1410 Lecture 2 Environmental Sampling. Environmental sampling Two things to consider: 1.Size of the samples required 2.Number of samples required.

PERFLUORINATED CARBOXYLIC ACIDS AND SULFONIC ACIDS IN WASTE SAMPLES Katsuya Y 1 *,Takemine S 1, Matsumura C 1, Tsurukawa M 1, Haga Y 1, Fujimori K 1, Nakano.

Figure S1: Comparison of blanks in non-depleted human plasma and depleted human plasma matrices (Supporting Information)

Aroclor Analysis and the Challenge of Matrix Interference “Using a Holistic approach in the Laboratory to analyze uncommon matrices with Confidence and.

John D. Vargo 1 ; Michael Schueller 1 ; Mary Skopec 2 1 State Hygienic Laboratory at the University of Iowa, Coralville, IA; 2 Iowa Department of Natural.

and Identification by Thin-Layer Chromatography

James Byrd, Marta Kozak 28 Apr 2011

John J. Oram, Lester J. McKee, Christine E. Werme, Mike S

LU 3: Separation Technique (P2)

RESULTS and DISCUSSION

CHROMATOGRAPHY.

Automation of Solid Phase Extraction Column Chromatographic Cleanup

Agility WCX SPE Cartridges

Automation of Sample Preparation for Trace Analysis Haibin Wan

Chem. 31 – 11/1 Lecture.

William Lipps Analytical & Measuring Instrument Division August 2017

Detection of selected antibiotics and their degradation products in water and soil from Korea’s four main rivers using SPE-LC-MS/MS Ryan De Sotto, Sungpyo.

DETERMINATION OF ESTROGENIC STEROIDS IN SEWAGE SLUDGE SAMPLES FROM EIGHT DOMESTIC WASTEWATER TREATMENT PLANTS Jana Petre, Toma Galaon, Vasile Ion Iancu,

Determination of carbamate residues in high-fat cheeses by ultra-high performance liquid chromatography–tandem mass spectrometry using zirconia-based QuEChERS.

2 MTM Research Centre, Örebro University, Örebro Sweden

Solid Phase Extraction Optimization Experiment

William Lipps, Brahm Prakash

Added Monrovia and South Bend to the slide.

The Use of Advanced Instrumental Techniques to Address Emerging and Unique Circumstance Contaminants Charles Neslund, Scientific Officer, Eurofins Lancaster.

Dnyanasadhana College, Thane. Department of Chemistry M. Sc

EPA method 521 by direct-inject LC-MS/MS

Brahm Prakash Tairo Ogura and William Lipps

Sara García-Salgado, G. Raber, K.A. Francesconi, M.A. Quijano

Jet C. Van De Steene and Willy E. Lambert

COLLEGE OF PUBLIC HEALTH AND HUMAN SCIENCES

Jonathan P. Benskin,1,2 Michael G

Presentation transcript:

Analysis and Relative Distribution of OPFR Compounds in Wastewater Treatment Million B. Woudneh, Coreen Hamilton, Guanghui Wang, Richard Grace, John R. Cosgrove Sidney B.C., Canada, V8L 5X2

 OPFRs are commercial additives widely used to inhibit, suppress or delay the production of flames. Trialkyl phosphatesHalogenated phosphatesTriaryl phosphates Restrictions on polybrominated diphenyl ethers (PBDEs) has increased demand for OPFRs. Since they are not chemically bonded agents, OPFRs use as additives results in easy release to the environment. Importance of Organophosphate Flame Retardants (OPFRs)

Alkyl phosphates Short - hand Halogenated alkyl phosphates Short - hand Triethyl phosphate TEPTris(2-chloroethyl) phosphateTCEP Tripropyl phosphateTPrPTris(2-chloroisopropyl) phosphateTCPP Tributyl phosphateTBPTris(1,3-dichloro-2-propyl) phosphateTDCPP Tris(2-ethylhexyl) phosphateTEHPTris(2,3-dibromopropyl) phosphateTDBPP Aryl phosphatesOther phosphates Triphenyl phosphateTPPTris(2-butoxyethyl) phosphateTBEP Tricresyl phosphateTCrP Tetrakis(2-chlorethyl) dichloroisopentyldiphosphate V6 2-Ethylhexyl-diphenyl phosphateEHDPP Target compounds selected based on: CMP = Chemical management plan TSCA = EPA's Toxic Substances Control Act SFEI = San Francisco Estuary Institute CECBP = California Environmental Contaminant biomonitoring program list Leading researchers in the field Target Analytes of Interest to Regulators & Scientists

Matrices: Influent, Effluent, Soil, Sediment, Biosolid Solids + surrogates Extraction: Soxhlet, DCM:EtAOc Cleanup: -NH2 SPE, Silica Solvent exchange to MeOH Analysis by LC-MS/MS Aqueous + surrogates Extraction: L-L with DCM Cleanup: -NH2 SPE Surrogates 2 H 15 -TEP 2 H 12 -TCEP 2 H 21 -TPrP 2 H 18 -TCPP 2 H 15 -TDCPP 13 C 15 -TPP 2 H 27 -TBP Recovery 2 H 15 -TPP Initial and ongoing QCs: 5 replicates MS/MSD QC samples: 1 Lab blank 1 Spiked sample 1 Duplicate Isotope labeled surrogates: 7 Surrogates 1 Recovery Method Makes Use of Eight Isotope- Labeled Standards

min > 152 TPP min 431> 99 TDCPP min 583 >361 V6 min 329> 99 TCPP min 225> 99 TPrP min 285 > 223 TCEP min 183 > 99 TEP Relative response min >99 TEHP min 363 > 251 EHDPP min 369> 165 TCrP min 399 > 299 TBEP min 267 > 99 TBP min 716 >99 TDBPP Relative response Column: - Waters C18MS Mobile phase: - 0.1% HCOONH % HCOOH MeOH Two MRMs per compound All Analytes Separated by Mass and Time

Reporting limits: to 5 ng/L for a 0.5 L sample to 0.5 ng/g for a 5 g wet sample Quantitative measurement of OPFRs from aqueous samples, sediment and biosolids

P RIMARY E FFLUENT Surface Waters Primary Clarifier Aeration Basin Secondary Clarifier Disinfection Bio-GasDigestion DewateringLand Application P RIMARY S LUDGE W ASTE A CTIVATED S LUDGE T REATED B IOSOLIDS R AW I NFLUENT S ECONDARY E FFLUENT Sampling Throughout the Process = Sample points at the study site

ND 1069 OPFRs survive secondary wastewater treatment Distribution of OPFRs

BDE influent and effluent data from Kim, et al., Water Research 47, no. 7: 2213–21. BDE influent and effluent data from Kim, et al., Water Research 47, no. 17: 6496–6505. BTBPE and DBDPE data from Grace et al. BFR 2011, Boston. Final effluent and biosolid from secondary wastewater treatment are significant sources of OPFRs. Relative to brominated diphenyl ethers, OPFRs have a much higher affinity for the aqueous phase. OPFR Concentrations Significantly Higher than Other FRs

AXYS OPFR Method Summary and Conclusions  A reliable method for quantitative measurement of OPFRs from aqueous, sediment and biosolid samples.  The method makes use of eight isotope-labeled surrogates.  OPFRs survive secondary wastewater treatment.  Final effluent and biosolids from secondary wastewater treatment are significant sources of OPFRs.  OPFRs have much more affinity for the aqueous phase relative to BDEs  OPFRs are present at significantly higher concentrations than BDEs and other FRs. For Follow-up:

Acknowledgements  Dr. Shirley Anne Smyth and her research group at Environment Canada are thanked for their assistance in sample collection and water quality data analysis.  Dr. Heather M. Stapleton is thanked for providing ‘V6’ technical standard for the initial method development.

Supplemental Information

NH2 1 g SPE - Condition: - with 2 x col. vol of HXN and 2 x col. Vol of DCM - Load: 1 mL extract in Hexane - Wash: 5 mL 20:80 DCM:Hexane (DISCARD) - Elute: 12 mL of 1:9 EtOAc:DCM (COLLECT) Silica, 8 g, 5% deactivated - Pack column in hexane - Load: 1 mL DCM extract - Wash: 20 mL 15: 85 DCM:Hexane (DISCARD) - Elute : 100 mL of 1:2 DCM:ETOAc (COLLECT) Before cleanup After cleanup Clean extracts were achieved with NH2 and silica columns

* * Samples sizes: 0.25 L for influent 0.50 L for effluent and 2.5 g wet for biosolid 10 g for biosolid These samples sizes were demonstrated to have no matrix effects. No significant matrix effects Reagent

OPFR Standard Stability in Methanol

OPFR Extract Stability

MRM transitions Target Analyte Typical Retention Time (minutes) Parent Ion Mass 1 Daughter Ion Mass 1 Quantified Against TEP (127)d15-TEP TCEP (63.1)d12-TCEP TPrP (140.9)d21-TPrP TCPP (327.1)99.0 (99.0)d18-TCPP V (99.0)d15-TDCPP TDCPP (208.9)d15-TDCPP TPP (77.1) 13 C 18 -TPP TDBPP (698.6)99.0 (99.0)d15-TDCPP TBP (155.0)d27-TBP TBEP (199.0)d27-TBP TCrP (91.0) 13 C 18 -TPP EHDPP (77.1) 13 C 18 -TPP TEHP (211.0)d27-TBP Surrogate Standard d15-TEP (134)d15-TPP d12-TCEP (67.1)d15-TPP d21-TPrP (150.1)d15-TPP d18-TCPP (345)102d15-TPP d15-TDCPP (216)d15-TPP 13 C 18 -TPP (83.1)d15-TPP d27-TBP (166.1)d15-TPP Recovery Standard d15-TPP (82.1)d15-TPP

LC Gradient Time (min)Flow mixture 1 LC Flow Rate Program Gradient Curve % solvent A 85% solvent B 0.2 mL/min % solvent A 50% solvent B 0.2 mL/min % solvent A 30% solvent B 0.2 mL/min % solvent A 15% solvent B 0.2 mL/min % solvent A 5% solvent B 0.2 mL/min % solvent A 5% solvent B 0.25 mL/min % solvent A 85% solvent B 0.2 mL/min % solvent A 85% solvent B 0.2 mL/min1

Calculated Log KD vs Log Kow for OPFRs