Sustainable Development versus Prospecting and Extraction of Shale Gas
Aneta Duda
Department of Teaching Methods and Strategies, Lublin University of Technology, Lublin (Poland)
Justyna Gołębiowska
Faculty of Environmental Engineering, Lublin University of Technology, Lublin (Poland)
Agnieszka Żelazna
Faculty of Environmental Engineering, Lublin University of Technology, Lublin (Poland)
Abstract
Energy issues are very important for our civilization. Taking into account the perspective of sustainability a lot of attention is devoted to the sources of primary Energy characterized with low emission. Among them shale gas has gained in importance as the primary energy source.
The paper presents the role of shale gas in the implementation of the main paradigm of sustainable development, i.e. the intergenerational equity. As the reference, the necessity of implementing water intakes monitoring has been pointed out.
Keywords:
sustainable development, shale gas, water pollutionReferences
BOGNER J., 2003, Global methane emissions from landfills: New methodology and annual estimates 1980-1996, in: Global Biogeochemical Cycles, vol. 17, no. 2, p. 1065-1072.
Google Scholar
CAULTON D. et al. , 2014, Toward a better understanding and quantification of methane emissions from shale gas development, in: Proceedings of the National Academy of Sciences of the United States of America 111, p. 6237-6242.
Google Scholar
CHOLEWA T., PAWŁOWSKI A., 2009, Sustainable Use of Energy in the Communal Sector, in: Rocznik Ochrona Środowiska/Annual Set Environment Protection, vol. 11, p. 1165-1177.
Google Scholar
CLAASSEN P. A. M., VAN LIER J. B., LOPEZ CONTRERAS A. M., VAN NIEL E. W. J., SIJTSMA L., STAMS A. J. M., DE VRIES S. S., WEUSTHUIS R. A., 1999, Utilisation of biomass for the supply of energy carriers, in: Applied Microbiology and Biotechnology, vol. 52, issue 6, p. 741-755.
Google Scholar
EIA, 2013, Technically re-coverable shale oil and shale gas resources: an assessment of 137 Shale formations in 41 countries outside the United States, http://www.eia.gov/analysis/studies/worldshalegas/pdf/fullreport.pdf (1.06.2015).
Google Scholar
GLEASON R.A., Tangen B.A., 2014, Brine contamination to aquatic resources from oil gas development in the Williston Basin, USGS, United States, p.127-143.
Google Scholar
HALUSZCZAK L.O., ROSE A. W., KUMP L.R., 2013, Geochemical evaluation of flowback brine from Marcellus gas wells in Pennsylvania, in: Appl. Geochem., p. 55-61.
Google Scholar
HEATH A. et al., 2014, Harmonization of initial estimates of shale gas life cycle greenhouse gas emissions for electric power generation, in: Proceedings of the National Academy of Sciences of the United States of America 111, p. E3167-3176.
Google Scholar
HLADIK M.L., FOCAZIO M.J., ENGLE M., 2014, Discharges of produced waters from oil and gas extraction via wastewater treatment plants are sources of disinfection by-products to receiving streams, in: Sci. Total. Environ. p. 466-467.
Google Scholar
HOFFMAN A., OLSSON G., LINDSTROM A., 2014, Shale Gas and Hydraulic Fracturing: Framing the Water Issue, Report No. 34, SIWI, Stockholm
Google Scholar
HOUSTON N.M., BLAUCH D., WEAVER D.S., MILLER D. O’HARA D., 2009, Fracture-Stimulation in the Marcellus Shale – Lessons Learned in Fluid Selection and Execution, in: SPE Eastern Regional Meeting Proceedings, Paper 125987, Charleston, Society of Petroleum Engineers.
Google Scholar
JRC, 2012, Unconventional gas: potential energy market impacts in the European Union, http://ec.europa.eu/dgs/jrc/downloads/jrc_repor t _2012_09_unconventional_gas.pdf (1.06.2015).
Google Scholar
KHARAKA Y. K., HANOR J.S., 2014, Deep fluids in sedimentary basins, in: Treatise on Geochemistry, 2nd ed., eds. Holland H.D., Turekian K.K., Elsevier, Oxford, vol. 7, p. 472-515.
Google Scholar
KUJAWSKA J., PAWLOWSKA M., CEL W., PAWLOWSKI A., 2016, Potential influence of drill cuttings landfill on groundwater quality –comparison of leaching tests results and groundwater composition, in: Desalination and Water Treatment, vol. 57, issue 3, p. 1409-1419.
Google Scholar
LAMPE D.J., STOLZ J.F., 2015, Current perspectives on unconventional shale gas extraction in the Appalachian Basin, in: J. Environ. Sci. Health A. Tox. Hazard Subst. Environ. Eng., p. 434-446.
Google Scholar
LEBIOCKA M., PAWŁOWSKI A., 2009, Biometanizacja metodą zrównoważonej utylizacji odpadów, in: Rocznik Ochrona Środowiska/Annual Set Environment Protection, vol. 11 (2), p. 1257-1266.
Google Scholar
McKENDRY P., 2002, Energy production from biomass (part 2): conversion technologies, in: Bioresource Technology, Vol. 83 (1), p. 47-54.
Google Scholar
MICHAŁOWSKI M., TORA B., 2012, Wybrane problem wydobycia gazu łupkowego, in: Rocznik Ochrona Środowiska/Annual Set Environment Protection, vol. 14, p. 866-874.
Google Scholar
MURPHY J.D., McKEOGH E., 2004, Technical, economic and environmental analysis of energy production from municipal solid waste, in: Renewable Energy, vol. 29 (7), p. 1043-1057.
Google Scholar
MAQUAIRE-BOYLE S.J, BARRON A.R., 2014, Organic compounds in produced waters from shale gas wells., in: Environ. Sci. Process Impacts, p. 2237-2248.
Google Scholar
MONTUSIEWICZ A., LEBIOCKA M., PAWŁOWSKA M., 2008, Characterization of the biomethanization process in selected waste mixtures, in: Archives of Environmental Protection, vol. 34, issue 3, p. 49-61.
Google Scholar
NEWELL R., RAIMI D., 2014, Implications of shale gas development for climate change, in: Environmental Science and Technology 48, p. 8360-8368.
Google Scholar
NEW YORK State Dept. of Environmental Conservation, 2009, Preliminary Revised Draft Supplemental Generic Environmental Impact Statement of the Oil, Gas and Solution Mining Regulatory Program: Well Permit Issuance for Horizontal Drilling and High-Volume Hydraulic Fracturing to Develop the Marcellus Shale and Other Low-Permeability Gas Reservoirs.
Google Scholar
PAWŁOWSKI A., 2009, Sustainable energy as a sine qua non condition for the achievement of sustainable development, in: Problemy Ekorozowju/Problems of Sustainable Development, vol. 4, no 2, p. 9-12.
Google Scholar
PAWŁOWSKA M., SIEPAK J., 2006, Enhancement of Methanogenesis at a Municipal Landfill Site by Addition of Sewage, in: Environmental Engineering Sciences, 23(4), p. 673-679.
Google Scholar
POLISH ACADEMY OF SCIENCES, 2014, Description of the shale gas formations: reserves and characteristics of problems related to its exploitation, March 11.
Google Scholar
RAHM B., RIHA S., 2014, Evolving shale gas management: water resource risks, impacts and lessons learned, in: Environmental Science: Processes & Impacts 16, p. 1400.
Google Scholar
SHARMA S., MULDER M.L., SACK A., SCHROEDER K., HAMMACK R., 2014, Isotope approach to assess hydrologic connections
Google Scholar
during Marcellus Shale drilling, in: Ground Water, p. 424-33.
Google Scholar
STARK M., ALLINGHAM R., CALDER J., LENNARTZ-WALKER T., WAI K., P. THOMPSON P., ZHAO S., 2012, Water and Shale Gas Development, Accenture Report.
Google Scholar
STREESE J., STEGMANN R., 2003, Microbial oxidation of methane from old landfills in biofiltres, in: Waste Management, vol. 23, issue 7, p. 573-580.
Google Scholar
US DEPARTMENT OF ENERGY, 2013, Modern Shale Gas Development in the United States: An Update. National Energy Technology Laboratory, http://www.netl.doe.gov/File%20 Library/Research/Oil-Gas/shale-gas-promer-update-2013.pdf (07.05.2014).
Google Scholar
WILLIAMS J.H., 2013, Shale gas development and water resources in the United States with a focus on the Marcellus Play, presentation at BGR-GFZ-UFZ conference, Hannover, 24 June.
Google Scholar
VIDIC R.D., BRANTLEY S.L., VANDENBOSSCHE J.M., YOXTHEIMER D., ABAD J.D., 2013, Impact of shale gas development on region water quality, in: Science, 340, p. 6134.
Google Scholar
VENGOSH A., JAACKSON R.B., WARNER N., DARRAH T.H, KONDASH A., 2014, A critical review of the risks to water resources from unconventional shale gas development and hydraulic fracturing in the United States, in: Environmental Science Technology, p. 8334-8348.
Google Scholar
Authors
Aneta DudaDepartment of Teaching Methods and Strategies, Lublin University of Technology, Lublin Poland
Authors
Justyna GołębiowskaFaculty of Environmental Engineering, Lublin University of Technology, Lublin Poland
Authors
Agnieszka ŻelaznaFaculty of Environmental Engineering, Lublin University of Technology, Lublin Poland
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