Assessments Of Environmental Impacts And Beneficial Use Of Coalbed Methane Produced Water In The Powder River Basin

Assessments of Environmental Impacts and Beneficial Use of Coalbed Methane Produced Water in the Powder River Basin

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Page : pages

File Size : 17,20 MB

Release : 2009

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Impact on water quality and the beneficial use of the coal bed methane (CBM) produced water are imminent questions to be answered due to the rapidly growing CBM exploration in the Powder River Basin (PRB). The practice of discharging large volumes of water into drainage channels or using it to irrigate rangeland areas has the potential of causing serious problems. The elevated salinity and sodicity in the CBM water may be detrimental to soils, plants and the associated microbial communities. There are limited studies on CBM water characterization; however, a comprehensive understanding of CBM water influence on the local ecosystem is lacking. It is very important that the water applied to soils meets the favorable combination of salinity and sodicity that will allow the plants to grow at good production levels and that will maintain the structure of the soils. The purpose of this study was to access various CBM water treatment technologies and the influence of the treated water on local biogeochemical settings in order to evaluate and identify the proper technologies to treat the CBM produced water from CBM operations, and use it in an environmentally safe manner. Unfortunately, a suitable field site was not identified and the funds for this effort were moved to a different project.



Management and Effects of Coalbed Methane Produced Water in the Western United States

Author : National Research Council

Publisher : National Academies Press

Page : 239 pages

File Size : 19,56 MB

Release : 2010-10-15

Category : Science

ISBN : 0309162939

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In some coalbeds, naturally occurring water pressure holds methane-the main component of natural gas-fixed to coal surfaces and within the coal. In a coalbed methane (CBM) well, pumping water from the coalbeds lowers this pressure, facilitating the release of methane from the coal for extraction and use as an energy source. Water pumped from coalbeds during this process-CBM 'produced water'-is managed through some combination of treatment, disposal, storage, or use, subject to compliance with federal and state regulations. CBM produced water management can be challenging for regulatory agencies, CBM well operators, water treatment companies, policy makers, landowners, and the public because of differences in the quality and quantity of produced water; available infrastructure; costs to treat, store, and transport produced water; and states' legal consideration of water and produced water. Some states consider produced water as waste, whereas others consider it a beneficial byproduct of methane production. Thus, although current technologies allow CBM produced water to be treated to any desired water quality, the majority of CBM produced water is presently being disposed of at least cost rather than put to beneficial use. This book specifically examines the Powder River, San Juan, Raton, Piceance, and Uinta CBM basins in the states of Montana, Wyoming, Colorado, New Mexico, and Utah. The conclusions and recommendations identify gaps in data and information, potential beneficial uses of CBM produced water and associated costs, and challenges in the existing regulatory framework.



Management and Effects of Coalbed Methane Produced Water in the Western United States

Author : National Research Council

Publisher : National Academies Press

Page : 238 pages

File Size : 50,95 MB

Release : 2010-11-15

Category : Science

ISBN : 0309154324

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Book Description

In some coalbeds, naturally occurring water pressure holds methane-the main component of natural gas-fixed to coal surfaces and within the coal. In a coalbed methane (CBM) well, pumping water from the coalbeds lowers this pressure, facilitating the release of methane from the coal for extraction and use as an energy source. Water pumped from coalbeds during this process-CBM 'produced water'-is managed through some combination of treatment, disposal, storage, or use, subject to compliance with federal and state regulations. CBM produced water management can be challenging for regulatory agencies, CBM well operators, water treatment companies, policy makers, landowners, and the public because of differences in the quality and quantity of produced water; available infrastructure; costs to treat, store, and transport produced water; and states' legal consideration of water and produced water. Some states consider produced water as waste, whereas others consider it a beneficial byproduct of methane production. Thus, although current technologies allow CBM produced water to be treated to any desired water quality, the majority of CBM produced water is presently being disposed of at least cost rather than put to beneficial use. This book specifically examines the Powder River, San Juan, Raton, Piceance, and Uinta CBM basins in the states of Montana, Wyoming, Colorado, New Mexico, and Utah. The conclusions and recommendations identify gaps in data and information, potential beneficial uses of CBM produced water and associated costs, and challenges in the existing regulatory framework.



Western Resources Project Final Report

Author : Mark D. Zoback

Publisher :

Page : 168 pages

File Size : 26,82 MB

Release : 2005

Category : Science

ISBN :

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Produced Groundwater Associated with Coalbed Natural Gas Production in the Powder River Basin





Geochemical Analysis of the Powder River, Wyoming/Montana and an Assessment of the Impacts of Coalbed Natural Gas Co-produced Water

Author : Shaun A. Carter

Publisher : ProQuest

Page : 137 pages

File Size : 37,72 MB

Release : 2008

Category : Coalbed methane produced waters

ISBN : 9780549957928

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Book Description

In the past decade, the coalbed natural gas (CBNG) industry in the Powder River Basin of northeastern Wyoming has experienced pronounced growth. However, production of natural gas has been accompanied by concerns regarding the disposal of groundwater produced with the gas. In response, the Montana Department of Environmental Quality approved numeric standards to be applied to several rivers entering the state from Wyoming, including the Powder River, limiting electrical conductivity (EC) and sodium adsorption ratio (SAR) in these streams. This research assesses the natural variability of water quality in the Powder River and the effects of CBNG co-produced water by comparing historic data to modern data collected from 2006 to 2008. Oxygen, hydrogen and carbon isotopes are evaluated as tools for identification of the source of water in the Powder River. [delta]13C proves to be a good indicator of the presence of CBNG water, which has a value distinct from that of surface water. The quality of water in the river, as it relates to the Montana standards, depends strongly on the flow of the river. At high flow, the EC and SAR of the river are within Montana standards. At low flow, most samples exceed these limits, including samples collected in Montana from streams which do not receive discharge of produced water. Some CBNG water is present in the Powder River. However, the current Montana standards are not well-suited to identify this component because they do not account for the natural seasonal variability of water quality in the Powder River.



Energy and Water Production Trends in the Powder River Basin

Author : Audrey Pfeil

Publisher :

Page : 102 pages

File Size : 41,86 MB

Release : 2018

Category :

ISBN :

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Energy extraction and water are intrinsically linked. Quantifying this relationship is critical to develop effective management strategies that minimize adverse environmental impacts and potentially reduce production costs. The objective of this study was to assess the spatiotemporal variability in water use and water production through hydrocarbon extraction from conventional and unconventional reservoirs using data from the Powder River Basin in Wyoming as a case study. Field level and detailed well-by-well analyses were conducted to quantify the spatiotemporal variability of oil and gas volumes and the corresponding co-produced water from conventional oil reservoirs and coal bed methane (CBM) reservoirs, and additional water used for hydraulic fracturing in unconventional shale reservoirs. Results show that conventional oil and CBM gas production has markedly declined along with produced water. The water demands of unconventional oil and gas development in the last decade have increased with increasing unconventional oil production, however water use per unit of energy produced has increased. Produced water from unconventional oil wells does not meet hydraulic fracturing water demands. CBM wells in proximity to new unconventional well development may be a source of water needing minimal treatment for growing hydraulic fracturing water demands





Assessment of Potential Effects of Water Produced from Coalbed Natural Gas Development on Macroinvertebrate and Algal Communities in the Powder River and Tongue River, Wyoming and Montana, 2010

Author : U.S. Department of the Interior

Publisher : Createspace Independent Publishing Platform

Page : 40 pages

File Size : 20,95 MB

Release : 2014-02-19

Category : Reference

ISBN : 9781495960826

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Development of energy and mineral resources in the Powder River structural basin in northeastern Wyoming and southeastern Montana (fig. 1) includes coalbed natural gas, conventional oil and gas, and coal mining. A common byproduct of coalbed natural gas (CBNG) development is discharge of groundwater that commonly is saline or unsuitable for irrigation of crops and has unknown effects on the aquatic communities inhabiting streams that receive the water (Bureau of Land Management, 2009).



Annual Report

Author : Yellowstone River Compact Commission

Publisher :

Page : 514 pages

File Size : 25,47 MB

Release : 1996

Category : Water resources development

ISBN :

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