Journal ArticleDOI
Water Management Challenges Associated with the Production of Shale Gas by Hydraulic Fracturing
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TLDR
Water management has emerged as a critical issue in the development of these inland gas reservoirs, where hydraulic fracturing is used to liberate the gas as discussed by the authors, where large volumes of water containing very high concentrations of total dissolved solids (TDS) return to the surface.Abstract:
Development of unconventional, onshore natural gas resources in deep shales is rapidly expanding to meet global energy needs. Water management has emerged as a critical issue in the development of these inland gas reservoirs, where hydraulic fracturing is used to liberate the gas. Following hydraulic fracturing, large volumes of water containing very high concentrations of total dissolved solids (TDS) return to the surface. The TDS concentration in this wastewater, also known as “flowback,” can reach 5 times that of sea water. Wastewaters that contain high TDS levels are challenging and costly to treat. Economical production of shale gas resources will require creative management of flowback to ensure protection of groundwater and surface water resources. Currently, deep-well injection is the primary means of management. However, in many areas where shale gas production will be abundant, deep-well injection sites are not available. With global concerns over the quality and quantity of fresh water, novel water management strategies and treatment technologies that will enable environmentally sustainable and economically feasible natural gas extraction will be critical for the development of this vast energy source.read more
Citations
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Strength models of the terrestrial planets and implications for their lithospheric structure and evolution
TL;DR: In this paper, strength profiles of the terrestrial planets were calculated for each planet using a recently updated flow law and taking into account the effect of water on lithospheric deformation, showing that strength in both the brittle and ductile regimes is highly sensitive to the presence of water, with the overall strength of the lithosphere decreasing markedly under wet conditions.
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Highly Efficient Bromide Removal from Shale Gas Produced Water by Unactivated Peroxymonosulfate for Controlling Disinfection Byproduct Formation in Impacted Water Supplies.
Kuan Z. Huang,Huichun Judy Zhang +1 more
TL;DR: Tests in batch and continuously-stirred tank reactor systems suggested that it was feasible to achieve both high bromide removal and neutral effluent pH such that further pH adjustment was not necessary before discharge.
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Determination of Rare Earth Elements in Hypersaline Solutions Using Low-Volume, Liquid-Liquid Extraction.
TL;DR: Modified and optimized previously published liquid-liquid extraction techniques using bis(2-ethylhexyl) phosphate as the extractant in a heptane diluent showed its efficacy for REE recovery as a function of three primary variables: background salinity, concentration of a competing species, and concentration of dissolved organic carbon.
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Risks and Mitigation Options for On-site Storage of Wastewater from Shale Gas and Tight Oil Development
TL;DR: A critical review of existing research and information regarding the sources of risk associated with on-site shale gas and tight oil wastewater storage in the United States, the gaps that exist in knowledge regarding these risks, policy and technology options for addressing the risks, and the relative merits of those options is provided in this paper.
References
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Journal ArticleDOI
Review of technologies for oil and gas produced water treatment
Ahmadun Fakhru’l-Razi,Alireza Pendashteh,Luqman Chuah Abdullah,Dayang Radiah Awang Biak,Sayed Siavash Madaeni,Zurina Zainal Abidin +5 more
TL;DR: Major research efforts in the future could focus on the optimization of current technologies and use of combined physico-chemical and/or biological treatment of produced water in order to comply with reuse and discharge limits.
ReportDOI
A white paper describing produced water from production of crude oil, natural gas, and coal bed methane.
TL;DR: In this article, the authors provide basic information on many aspects of produced water, including its constituents, how much of it is generated, how it is managed and regulated in different settings, and the cost of its management.
Journal ArticleDOI
Natural Gas Plays in the Marcellus Shale: Challenges and Potential Opportunities
TL;DR: Tapping the lucrative Marcellus Shale natural gas deposits may have a host of environmental concerns, according to a report by the USGS.
ReportDOI
Produced water volumes and management practices in the United States.
Corrie Clark,John A. Veil +1 more
TL;DR: The U.S. Department of Energy asked Argonne National Laboratory to compile data on produced water associated with oil and gas production to better understand the production volumes and management of this water as discussed by the authors.
Journal ArticleDOI
Comparative life-cycle air emissions of coal, domestic natural gas, LNG, and SNG for electricity generation.
TL;DR: In this paper, the authors compare greenhouse gas (GHG), SOx, and NOx life-cycle emissions of electricity generated with NG/LNG/SNG and coal and show that with the current fleet of power plants, a mix of domestic NG, LNG, and SNG would have lower GHG emissions than coal.