特殊地下空间应用与研究现状
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摘要
特殊地下空间定义为在空间形态、结构、分布等方面具有特殊属性的一类地下空间,根据空间形成方式和属性将特殊地下空间分为天然存在和人为活动形成的两类。在总结天然气地下储存、二氧化碳地质封存、压缩空气储能、废液深井回注以及放射性废料处置等工程应用现状的基础上,分析特殊地下空间应用前景,提出随着特殊地下空间研究的不断深入,应因地制宜探索不同类型特殊地下空间开发利用方法和发展模式,促进地下空间的高效利用。
Special underground space(SUS) is defined as a kind of underground space with special properties in terms of spatial form, distribution and structure. According to the source, SUS is classified into two types: naturally existent space and humaninduced one. The special properties and the suitable engineering applications of different SUS types are described in this paper. In addition, the status and prospects of natural gas underground storage, carbon dioxide geological storage, compressed air energy storage, deep-well waste reinjection and radioactive waste disposal are briefly analyzed. With the development of SUS research, it is necessary to explore different SUS development and utilization methods and modes according to local conditions, which can promote the efficient use of underground space.
Special underground space(SUS) is defined as a kind of underground space with special properties in terms of spatial form, distribution and structure. According to the source, SUS is classified into two types: naturally existent space and humaninduced one. The special properties and the suitable engineering applications of different SUS types are described in this paper. In addition, the status and prospects of natural gas underground storage, carbon dioxide geological storage, compressed air energy storage, deep-well waste reinjection and radioactive waste disposal are briefly analyzed. With the development of SUS research, it is necessary to explore different SUS development and utilization methods and modes according to local conditions, which can promote the efficient use of underground space.
引文
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Li Guotao,Liu Zaitong,Liu Ning.2018.Evaluating sealing capacity of UGS caprocks using Geohydrology[J].Natural Gas Exploration and Development,41(3):90-94(in Chinese with English abstract).
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Li C,Maggi F,Zhang K,Guo C,Gan Y,El-Zein A,Pan Z,Shen L.2019.Effects of variable injection rate on reservoir responses and implications for CO2storage in saline aquifers[J].Greenhouse Gases:Science and Technology.
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Ling Hui,Wang Ju,Tang Zhenping,Luo Hui,Chen Weiming.2018.The site selection and safety assessment for geological disposal of high level radioactive waste in granite[J].Journal of University of South China(Science and Technology),32(5):38-43(in Chinese with English abstract).
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Qin Aifang,Zhao Xiaolong,Wang Haitang.2013.Coupled thermohydro-mechanical properties in field near nuclear waste repository[J].Chinese Journal of Underground Space and Engineering,9(5):1201-1207(in Chinese with English abstract).
Succar S,Williams R H.2008.Compressed Air Energy Storage:Theory,Resources,and Applications for Wind Power[R].Princeton Environmental Institute Report.
Tong Linxu.2004.Underground space introduction[J].Underground Space,24(1):133-136(in Chinese with English abstract).
Wang Ju.2016.Eological disposal of high level radioactive waste:Key scientific issues and progress in China[J].Science&Technology Review,34(15):51-55(in Chinese with English abstract).
Wang B,Sebastian B.2017.Pressure response of large-scale compressed air energy storage in porous formations[J].Energy Procedia,125:588-595.
Wang Yongsheng.2018.Research of the environmental risk assessment of CO2capture and aquifer geologic storage project in china Shenhua coal to oil[J].Environmental Engineering,36(2):21-26(in Chinese with English abstract).
Xu Guoqing.2002.Preliminary determination for research on geological disposal of high-level radioactive waste in China in the period of 2000-2040[J].Uranium Geology,18(3):160-167(in Chinese with English abstract).
Xue Xiaodai,Mei Shengwei,Lin Qiyou,Chen Laijun,Chen Ying.2016.Energy internet oriented non-supplementary fired compressed air energy storage and prospective of application[J].Power System Technology,40(1):164-171(in Chinese with English abstract).
Xie Heping,Liu Jianzhong,Gao Mingzhong,Zhang Ruixin,Zhou Hongwei,Liu Zhiqiang.2018.Development and Utilization of Underground space[M].Beijing:Science Press(in Chinese).
Yang Wenhui,Shi Qingsan.2016.A review of carbon dioxide geological storage potential evaluation[J].West-China Exploration Engineering,28(6):174-176(in Chinese with English abstract).
Zhang Gangxiong,Li Bin,Zheng Dewen,Ding Guosheng,Wei Huan,Qian Pinshu,Li Chun.2017.Challenges to and proposals for underground gas storage(UGS)business in China[J].Natural Gas Industry,37(1):153-159(in Chinese with English abstract).
Zhang Xinjing.2011.Investigation on Compressed Air Energy Storage System[D].Beijing:Graduate University of the Chinese Academy of Science(in Chinese with English abstract).
Zhang Xinjing,Chen Haisheng,Liu Jinchao,Li Wen,Tan Chunqing.2012.Research progress in compressed air energy storage system:A review[J].Energy Storage Science and Technology,1(01):26-40(in Chinese with English abstract).
Zhang G,Li B,Zheng D,Ding G,Wei H,Qian P,Li C.2017.Challenges to and proposals for underground gas storage(UGS)business in China[J].Natural Gas Industry B,4(3):231-237.
Zhang Senqi,Yan Weide,Li Dunpeng,Jia Xiaofeng,Zhang Shengsheng,Li Shengtao,Fu Lei,Wu Haidong,Zeng Zhaofa,Li Zhiwei,Mu Jianqiang,Cheng Zhengpu,Hu Lisha.2018.Characteristics of geothermal geology of the Qiabuqia HDR in Gonghe Basin,Qinghai Province[J].Geology in China,45(6):1087-1102(in Chinese with English abstract).
Zheng Jindong,Han Wenyan,Cui Pengfei.2013.An overview of the surrounding rocks of the nuclear waste mudstone disposal repository[J].Science&Technology Information,23:206(in Chinese with English abstract).
陈三明,何玉州,罗文敏,高阳,曹艳超,杨贤,邓友志.2013.基于地质三维模拟的攀枝花铁矿块体模型储量估算[J].桂林理工大学学报,33(4):610-615.
刁玉杰,张森琦,李甫成,郜时旺,王晓龙,贾小丰.2016.典型电厂海洋CO2地质储存场地选址适宜性评估[J].吉林大学学报(地球科学版),46(3):844-854.
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