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Volume 7 Issue 3
Sep.  2019
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SUN Dong, LIU Xin-ze, YANG Hai-jun, et al. 2019: Analysis of hydrogeolgical characteristics and water environmental impact pathway of typical shale gas exploration and development zones in Sichuan Basin, China. Journal of Groundwater Science and Engineering, 7(3): 195-213. doi: 10.19637/j.cnki.2305-7068.2019.03.001
Citation: SUN Dong, LIU Xin-ze, YANG Hai-jun, et al. 2019: Analysis of hydrogeolgical characteristics and water environmental impact pathway of typical shale gas exploration and development zones in Sichuan Basin, China. Journal of Groundwater Science and Engineering, 7(3): 195-213. doi: 10.19637/j.cnki.2305-7068.2019.03.001

Analysis of hydrogeolgical characteristics and water environmental impact pathway of typical shale gas exploration and development zones in Sichuan Basin, China

doi: 10.19637/j.cnki.2305-7068.2019.03.001
  • Studying the influence of shale gas exploration and development on groundwater environment is the basis of guiding water environment protection in the process of shale gas exploration and development. Groundwater environmental pollution is concealed, complex and persistent. Once it is difficult to control the pollution, the current commercial shale gas development zones in Sichuan Basin that are mostly located in karst areas and highly sensitive to groundwater will be vulnerable to the impact of shale gas exploration and development. Based on the hydrogeological conditions of shale gas exploration and development area and combined with engineering analysis of exploration and development, various risk pathways that may affect the groundwater environment during process of shale gas exploration, mining well construction, mining operations and other stages were identified in this paper. Some existing risk pathways were proved by verification of typical areas and should not be ignored. Based on the actual situation of typical areas, the countermeasures of groundwater environmental protection in the process of shale gas exploration and development in karst areas were discussed. It is believed that the ground-water environment can be better protected by strengthening administration, research and application of new technologies, precise design, hydrogeological conditions, and research and feedback of groundwater environmental protection.
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  • Jackson R B, Vengosh A, et al. 2013. Increased stray gas abundance in a subset of drinking water wells near marcellus shale gas extraction. Proceedings of the National Aca-demy of Sciences, 110(28): 11250-11255.
    ZHANG Dong-xiao, YANG Ting-yun. 2015. Environmental impacts of hydraulic fracturing in shale gas development in the United States. Petroleum Exploration and Development, 42(6): 801-807.
    Montcoudiol N, Isherwood C, et al. 2017. Shale gas impacts on groundwater resources: In-sights from monitoring a fracking site in Poland. Egu General Assembly Conference. EGU General Assembly Conference Abstracts.
    Wiseman H J. 2014. The capacity of states to govern shale gas development risks. En-vironmental Science & Technology, 48(15): 8376-8387.
    Osborn S G, Vengosh A, et al. 2011. Methane contamination of drinking water accom-panying gas-well drilling and hydraulic fracturing. Proceedings of the National Academy of Sciences of the United States of America, 108(20): 8172-8176.
    Vidic R D, Brantley S L, et al. 2013. Impact of shale gas development on regional water quality. Science, 340 (6134): 1235009.
    ZHONG Ling-min, XU Mo, et al. 2018. Development of deep karst under the coupling of multistage flow systems: A case of southern part of the Zhongliang Mountain anticline of the parallel barrier structure in Eastern Sichuan. Hydrogeology & Engineering Geology, 45(1): 45-51.
    Zelenev A S, ZHOU H, et al. 2010. Micro-emulsion-assisted fluid recovery and improved permeability to gas in shale formations. Spe International Symposium & Exhibiton on Formation Damage Control.
    LI Jin, SUN Gang, LI Fan-shu. 2014. Water environ?ment protection in shale gas development. Chemical Engineering of Oil and Gas, 43(3): 339-344.
    LU Jing-mei, GAO Wen-lei, LIU Xue-kao. 2015. Environmental influence in shale gas development and considerations. Natural Gas and Oil, 42(6): 801-807.
    Botha R. 2017. Characterisation of natural radioactivity in Karoo Basin groundwater prior to shale gas exploration.
    Olmstead S M, Muehlenbachs L A, et al. 2013. Shale gas development impacts on surface water quality in Pennsylvania. PNAS, 110(13): 4962-4967.
    YANG De-min, XIA Hong, et al. 2013. Discussion on treatment methods of fracturing recovery from shale gas field. Environmental Engineering, 31(6): 31-36.
    Bordeleau G, Rivard C, et al. 2015. Identifying the source of methane in groundwater in a “virgin” area with regards to shale gas exploitation: A Multi-isotope Approach. Procedia Earth and Planetary Science, 13: 219-222.
    ZHENG Zhao-xian, CHEN Zong-yu, SU Chen. 2014. Genetic mechanism of potential methane contamination of aquifer caused by shale gas development. Hydrogeology & Engineering Geology, 41(6): 116-121.
    LI Yi-man, HUANG Tian-ming, et al. 2016. Geochemical characteristics of shallow groundwater in Jiaoshiba shale gas production area: Implications for environmental concerns. Water, 8(12): 552.
    Annevelink M P J A, Meesters J A J, Hendriks A J. 2016. Environmental contamination due to shale gas development. Science of the Total Environment, 550: 431-438.
    Stuart M E. 2012. Potential groundwater impact from exploitation of shale gas in the UK. British Geological Survey, OR/12/001: 1-22.
    Kharak Y K, Thordsen J J, et al. 2011. The energy-water nexus: Potential ground-water-quality degradation associated with production of shale gas. Procedia Earth & Planetary Science, 7: 417-422.
    CHEN Xing-xing. 2015. Application research on lost circulation prevention and plugging in fuling shale gas field. Exploration Engineering (Rock & Soil Drilling and Tun-neling), 42(3): 11-14.
    Horner P, Halldorson B, Slutz J. 2011. Shale gas water treatment value chain-A review of technologies, including case studies. DOI: https://doi.org/10.2118/147264-MS.
    HU Wan-hong, HU Yan-hui, YANG You-wei. 2013. Impact analysis of water resources, water projects and water environment by shale gas development in fuling. Chongqing Water Conservancy Society, Proceedings of Rational allocation and efficient utilization of water resources to serve urban and rural development. Chongqing: Chongqing Water Conservancy Society: 85-88.
    ZHU Zhen, YI Hong-wei, et al. 2015. Impact of gypsolith on the preservation prospect of shale gas in Sichuan Basin. Natural Gas Geoscience, 26(8): 1472-1480.
    BI Shu-juan. 2013. Environmental risk of shale gas development is worrying. China United Business News, 2013-03-04(D02).
    XIA Yu-qiang. 2010. The challenges of water resources and the environmental impact of marcellus shale gas drilling. Science & Technology Review, 28(18): 103-110.
    MA Yong-sheng, CAI Xun-yu, ZHAO Pei-rong. 2018. China’s shale gas exploration and development: Understanding and practice. Petroleum Exploration and Development, 45(4): 561-574.
    LIU Zhao-bin. 2015. Risk assessment of shallow groundwater pollution under shale gas extraction in karst area. Beijing: China University of Geosciences: 1-2.
    ZHOU Zhi-en, FANG Wei-kai, et al. 2015. Dis-cussion in environmental impact assessment in shale gas development. Environmental Impact Assessment, 37(6): 62-67.
    Warner N R, Jackson R B, et al. 2012. Geochemical evidence for possible natural migration of Marcellus Formation brine to shallow aquifers in Pennsylvania. Proceedings of the National Academy of Sciences of the United States of America, 109(30): 11961-11966.
    ZOU Cai-neng, DONG Da-zhong, et al. 2016. Shale gas in China: Characteristics, cha-llenges and prospects (Ⅱ). Petroleum Exploration and Development, 43(2): 166-178.
    Yan B, Stute M, et al. 2017. Association of groundwater constituents with topography and distance to unconventional gas wells in Pennsylvania. Science of the Total Environment, 577.
    Arthur J D, Bohm B K, et al. 2009. Evaluating the environmental implications of hydraulic fracturing in shale gas reservoirs. SPE Americas E&P Environmental and Safety Conference. San Antonio, Texas, Society of Petroleum Engineers.
    HU Hai-feng. 2013. Impact of shale gas exploi-tation on groundwater in Southwest China. Resources Economization & Environment Protection, 12: 23.
    HE Min, WANG Dan, et al. 2016. Brief talk on the influence of shale gas development on water environment. Environmental Protection of Oil & Gas Fields, 26(2): 33-37.
    DONG Da-zhong, ZOU Cai-neng, et al. 2016. Suggestions on the development strategy of shale gas in China. Natural Gas Geoscience, 27(3): 397-406.
    ZOU Cai-neng, DONG Da-zhong, et al. 2015. Shale gas in China: Characteristics, cha-llenges and prospects (Ⅰ). Petroleum Exploration and Development, 42(6): 689-701.
    Schout G, Hartog N, et al. 2018. Impact of an historic underground gas well blowout on the current methane chemistry in a shallow groundwater system. Proceedings of the National Academy of Sciences of the United States of America, 115(2): 296.
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