Alternative Management of Oil and Gas Produced Water Requires More Research on Its Hazards and Risks

Danforth, Cloelle; McPartland, Jennifer; Blotevogel, Jens; Coleman, Nancy; Devlin, Dennis J.; Olsgard, Mandy L.; Parkerton, Thomas F.; Saunders, Nichole

doi:10.1002/ieam.4160

Cited by 20 publications

(16 citation statements)

References 23 publications

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“…In spite of the hypersaline, oily and corrosive properties of PW, the HLB TF‐SPME device proved to be robust throughout many extractions, retaining its extraction efficiency throughout the entire study. In efforts to meet the goals outlined by various agencies [3,9,10], future efforts should focus on the coupling of comprehensive sampling techniques to more extensive instrumentation such as GC×GC hyphenated to high‐resolution MS, a strategy already being exploited for oil analysis [42] and a handful of PW reports [17,22]. While LC has been utilized for the analysis of PW [16,43], there is, however, no reports at this time for the analysis of PW using 2D LC hyphenated to MS.…”

Section: Discussionmentioning

confidence: 99%

“…It has been proposed by a variety of different sources, academic, industrial, and governmental, that the forefront of PW research should focus on the identification of toxicological risks that might be incurred as a result of the various reuse scenarios that have been proposed [3,9,10]. In light of these goals, a comprehensive understanding of the multitude of constituents in these matrices is critical to (1) better inform toxicological research and (2) scrutinize the eligibility of different PW reuse scenarios.…”

Section: Introductionmentioning

confidence: 99%

“…Being a mixture of shale oil, native brine, and chemical additives, there is a wide range of unknown compounds with different physicochemical properties. These properties in many cases disallow a single analytical method to properly analyze the entire range of analytes, the matrix itself being often corrosive and hypersaline, which, in turn, makes it challenging to introduce to analytical instrumentation without extensive sample preparation [9]. The majority of organic analysis on PW has been so far nonspecific, being driven by techniques such as total organic carbon (TOC) analysis and gravimetric analysis for both dissolved organic matter (DOM) and total suspended solids (TSS) [11].…”

Section: Introductionmentioning

confidence: 99%

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Optimization of thin film solid phase microextraction and data deconvolution methods for accurate characterization of organic compounds in produced water

Emmons

Liden

Schug

et al. 2020

J of Separation Science

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Funding informationThe University of Toledo The continued rise in the extraction of unconventional oil and gas across the globe poses many questions about how to manage these relatively new waste-streams.Produced water, the primary waste by-product, contains a diverse number of anthropogenic additives together with the numerous hydrocarbons extracted from the well.Due to potential environmental hazards, it is critical to characterize the chemical composition of this type of waste before proper disposal or remediation/reuse.In this work, a thin film solid phase microextraction approach was developed and optimized to characterize produced water. The thin film device consisted of hydrophilic-lipophilic balance particles embedded in polydimethylsiloxane and immobilized on a carbon mesh surface. These devices were chosen to provide broad extraction coverage and high reusability. Various parameters were evaluated to ensure reproducible results while minimizing analyte loss. This optimized protocol, consisting of a 15 min extraction followed by a short (3 s) rinsing step, enabled the reproducible analysis of produced water without any sample pretreatment. Extraction efficiency was suitable for both produced water additives and hydrocarbons. The developed approach was able to tentatively identify a total of 201 compounds from produced water samples, by using one-dimensional gas chromatography hyphenated to mass spectrometry and data deconvolution. K E Y W O R D Sdata deconvolution, hydraulic fracturing, thin film solid phase microextraction, unconventional environmental contaminants, untargeted analysis Article Related Abbreviations: AMDIS, automated mass spectral deconvolution and identification system

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Optimization of thin film solid phase microextraction and data deconvolution methods for accurate characterization of organic compounds in produced water

Emmons

Liden

Schug

et al. 2020

J of Separation Science

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“…Furthermore, a range of toxicological endpoints must be assayed including some, such as endocrine disruption, that remain to be analyzed at this site (Ohe et al, 2004). This could be achieved with a high-throughput assay that assesses a range of toxicological endpoints (Danforth et al, 2019). Many PW treatment studies have focused on a "treat for use" approach.…”

Section: Resultsmentioning

confidence: 99%

Mutagenicity assessment downstream of oil and gas produced water discharges intended for agricultural beneficial reuse

McLaughlin

Blotevogel

Watson

et al. 2020

Science of The Total Environment

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Produced water is the largest waste stream associated with oil and gas operations. This complex fluid contains petroleum hydrocarbons, heavy metals, salts, naturally occurring radioactive materials and any remaining chemical additives. In the United States, west of the 98th meridian, the federal National Pollutant Discharge Elimination System (NPDES) exemption allows release of produced water for agricultural beneficial reuse. The goal of this study was to quantify mutagenicity of a produced water NPDES release and discharge stream. We used four mutation assays in budding yeast cells that provide rate estimates for copy number variation (CNV) duplications and deletions, as well as forward and reversion point mutations. Higher mutation rates were observed at the discharge and decreased with distance downstream, which correlated with the concentrations of known carcinogens detected in the stream (e.g., benzene, radium), described in a companion study. Mutation rate increases were most prominent for CNV duplications and were *

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“…91 Once the oil is removed, some water is diverted for steam generation or lease water, but the majority is pumped to a series of reservoirs for blending and eventually discharge to the agricultural irrigation systems. 92 On the other hand, high-salinity PW, with TDS ranging from 10,000-400,000 mg/L, would require a much more intensive and expensive process focused exclusively on TDS removal to meet agricultural standards. Limited studies have addressed the long-term impact on soil health of using highly saline PW for irrigation.…”

Section: Nontraditional Sources: Oil and Gas Produced Watermentioning

confidence: 99%

National Alliance for Water Innovation (NAWI) Agriculture Sector Technology Roadmap 2021

Dionysiou¹,

Katz²,

Xu³

et al. 2021

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Cost metrics can include levelized costs of water treatment as well as individual cost components, such capital or operations and maintenance (O&M) costs. Energy PerformanceEnergy performance metrics can include the total energy requirements of the water treatment process, the type of energy required (e.g., thermal vs. electricity), embedded energy in chemicals and materials, and the degree to which alternative energy resources are utilized. Water Treatment PerformanceWater treatment performance metrics can include the percent removal of various contaminants of concern and the percent recovery of water from the treatment train. Human Health and Environment ExternalitiesExternality metrics can include air emissions, greenhouse gas emissions, waste streams, societal and health impacts, land-use impacts. Process AdaptabilityProcess adaptability metrics can include the ability to incorporate variable input water qualities, the ability to incorporate variable input water quantity flows, the ability to produce variable output water quality, and the ability to operate flexibly in response to variable energy inputs.

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Alternative Management of Oil and Gas Produced Water Requires More Research on Its Hazards and Risks

Cited by 20 publications

References 23 publications

Optimization of thin film solid phase microextraction and data deconvolution methods for accurate characterization of organic compounds in produced water

Optimization of thin film solid phase microextraction and data deconvolution methods for accurate characterization of organic compounds in produced water

Mutagenicity assessment downstream of oil and gas produced water discharges intended for agricultural beneficial reuse

National Alliance for Water Innovation (NAWI) Agriculture Sector Technology Roadmap 2021

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