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| EXPERIMENTAL STUDY OF INFLUENCES FOR WATER CONTENT IN COALBED GAS RESERVOIRS ON METHANE SEEPAGE |
| YIN Guangzhi1,2,3,JIANG Changbao1,2,3,XU Jiang1,2,3,PENG Shoujian1,2,3,LI Wenpu1,2,3 |
| (1. State Key Laboratory of Coal Mine Disaster Dynamics and Control,Chongqing University,Chongqing 400030,China;2. College of Resource and Environmental Sciences,Chongqing University,Chongqing 400030,China;3. State and Local Joint Engineering Laboratory of Methane Drainage in Complex Coal Gas Seam,Chongqing University,Chongqing 400030,China) |
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Abstract The studied specimen was briquettes molded by coal from 3# coalbed of Zhaozhuang coal factory,Jincheng Coal Industrial Company. An experimental plan was designed to test the influence of water content on methane permeability. By using self-developed “coal containing gas thermal-hydrological-mechanical(THM) coupling experimental equipment”,the change rule of water content effects permeance of coalbed methane was studied. The research results showed that:under the conditions of constant temperature and effective stress but different water contents,the methane effective permeability increased with the decreasing of water content in coal. In the range of water content tested in this experiment,the relationship between water content of coal and methane effective permeability could be expressed by a linear function. The water in coalbed gas reservoirs occupies space of permeance pores in coal seams and decreases methane transportation passages which makes the transportation difficulty. According to the analysis of experimental results,it is theoretically proven that to wet the coal by pouring water could be used as a measure to prevent coal and gas outburst.
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Received: 01 July 2010
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| [1] 孙可明,潘一山,梁 冰. 流固耦合作用下深部煤层气井群开采数值模拟[J]. 岩石力学与工程学报,2007,26(5):994–1 001.(SUN Keming,PAN Yishan,LIANG Bing. Numerical simulation of deep coal-bed methane multi-well exploitation under fluid-solid coupling[J]. Chinese Journal of Rock Mechanics and Engineering,2007,26(5):994–1 001.(in Chinese))
[2] 鲜学福,杨明莉. 我国煤层气开发基础研究方面的一些进展和展望[J]. 中国科技大学学报,2004,34(增1):387–398.(XIAN Xuefu,YANG Mingli. Some progress and prospects in basic researches of coalbed gas development in China[J]. Journal of University of Science and Technology of China,2004,34(Supp.1):387–398.(in Chinese))
[3] PALMER I,MANSOORI J. How permeability depends on stress and pore pressure in coalbeds:a new model[C]// Proceedings of the SPE Annual Technical Conference and Exhibition. Denver,Colorado,USA:[s.n.],1996:557–564.
[4] 冯子军,万志军,赵阳升,等. 高温三轴应力下无烟煤、气煤煤体渗透特性的试验研究[J]. 岩石力学与工程学报,2010,29(4):689–696.(FENG Zijun,WAN Zhijun,ZHAO Yangsheng,et al. Experimental study of permeability of anthracite and gas coal masses under high temperature and triaxial stress[J]. Chinese Journal of Rock Mechanics and Engineering,2010,29(4):689–696.(in Chinese))
[5] 王恩元,张 力,何学秋,等. 煤体瓦斯渗透性的电场响应研究[J]. 中国矿业大学学报,2004,33(1):62–65.(WANG Enyuan,ZHANG Li,HE Xueqiu,et al. Electric field response of gas permeability of coal[J]. Journal of China University of Mining and Technology,2004,33(1):62–65.(in Chinese))
[6] 易 俊,姜永东,鲜学福,等. 声场促进煤层气渗流的应力–温度–渗流压力场的流固动态耦合模型[J]. 岩土力学,2009,30(10):2 945–2 949.(YI Jun,JIANG Yongdong,XUAN Xuefu,et al. A liquid-solid dynamic coupling model of ultrasound enhanced coalbed gas desorption and flow[J]. Rock and Soil Mechanics,2009,30(10):2 945–2 949.(in Chinese))
[7] HU G Z,WANG H T,FAN X G,et al. Mathematical model of coalbed gas flow with klinkenberg effects in multi-physical fields and its analytic solution[J]. Transport in Porous Media,2009,76(3):407–420.
[8] TANIKAWA W,SHIMAMOTO T. Klinkenberg effect for gas permeability and its comparison to water permeability for porous sedimentary rocks[J]. Hydrology and Earth System Sciences Discussions,2006,(3/4):1 315–1 338.
[9] PATERSOOL L,MEANEY K,SMYTH M. Measurements of relative permeability,absolute permeability and fracture geometry in coal[C]// Proceedings of the Coalbed Methane Symposium. Townsville,Australia:[s.n.],1992:19–21.
[10] HARPALANI S,CHEN G. Estimation of changes in fracture porosity of coal with gas emission[J]. Fuel,1995,74(10):1 491–1 498.
[11] ZHANG H B,LIU J S,ELSWORTH D. How sorption-induced matrix deformation affects gas flow in coal seams:a new FE model[J]. International Journal of Rock Mechanics and Mining Sciences,2008,45(8):1 226–1 236.
[12] CLARKSON C R,BUSTIN R M. Variation in permeability with lithotype and maceral composition of cretaceous coals of the canadian cordillera[J]. International Journal of Coal Geology,1997,33(2):135–151.
[13] 孙可明,梁 冰,王锦山. 煤层气开采中两相流阶段的流固耦合渗流[J]. 辽宁工程技术大学学报:自然科学版,2001,20(1):36–39. (SUN Keming,LIANG Bing,WANG Jinshan. The fluid-solid- coupling seepage of two phase fluid(gas and water) in coal searns gas reservoir[J]. Journal of Liaoning Technical University:Natural Science,2001,20(1):36–39.(in Chinese))
[14] 尹光志,赵洪宝,许 江,等. 煤与瓦斯突出模拟试验研究[J]. 岩石力学与工程学报,2009,28(8):1 674–1 680.(YIN Guangzhi,ZHAO Hongbao,XU Jiang,et al. Experimental study of simulation of coal and gas outburst[J]. Chinese Journal of Rock Mechanics and Engineering,2009,28(8):1 674–1 680.(in Chinese))
[15] TERZAGHI K. Principles in soil mechanics[N]. Engineering News Record,1925,95:832–836.
[16] 姜永东,阳兴洋,鲜学福,等. 应力场、温度场、声场作用下煤层气的渗流方程[J]. 煤炭学报,2010,35(3):434–438.(JIANG Yongdong,YANG Xingyang,XIAN Xuefu,et al. The infiltration equation of coal bed under the cooperation of stress field,temperature field and sound field[J]. Journal of China Coal Society,2010,35(3):434–438.(in Chinese))
[17] 中华人民共和国煤炭工业部. 煤与岩石物理力学性质测定方法[M]. 北京:中国标准出版社,1988:32–33.(Coal Industry Ministry of the People?s Republic of China. Measuring methods of physico- mechanical properties for coal and rock[M]. Beijing:Standards Press of China,1988:32–33.(in Chinese))
[18] 缪协兴,刘卫群,陈占清. 采动岩体渗流理论[M]. 北京:科学出版社,2004:50–84.(MIAO Xiexing,LIU Weiqun,CHEN Zhanqing. Seepage theory of rock mass under mining[M]. Beijing:Science Press,2004:50–84.(in Chinese))
[19] SCHEIDEGGER A E. The physics of flow through porous media[M]. 3rd ed. Toronto:University of Toronto Press,1974:102.
[20] 刘光启,马连湘,邢志有. 化工物性算图手册[M]. 北京:化学工业出版社,2002:128.(LIU Guangqi,MA Lianxiang,XING Zhiyou. Calculation manual of chemical physical property[M]. Beijing:Chemical Industry Press,2002:128.(in Chinese))
[21] 周世宁,林柏泉. 煤层瓦斯赋存与流动理论[M]. 北京:煤炭工业出版社,1990:7. (ZHOU Shining,LIN Boquan. The theory of gas flow and storage in coal seams[M]. Beijing:China Coal Industry Publishing House,1990:7.(in Chinese))
[22] 鲜学福,辜 敏,李晓红,等. 煤与瓦斯突出的激发和发生条件[J]. 岩土力学,2009,30(3):577–581.(XIAN Xuefu,GU Min,LI Xiaohong,et al. Excitation and occurrence conditions for coal gas outburst[J]. Rock and Soil Mechanics,2009,30(3):577–581.(in Chinese))
[23] 董平川,江同文,唐明龙. 地层条件下凝析气藏的多相渗流特性[J]. 岩石力学与工程学报,2008,27(11):2 244–2 251.(DONG Pingchuan,JIANG Tongwen,TANG Minglong. Relative permeability law of multiphase seepage under high temperature and pressure in gas condensate reservoir[J]. Chinese Journal of Rock Mechanics and Engineering,2008,27(11):2 244–2 251.(in Chinese))
[24] AYATOLLAHI S H,LASHANIZADEGAN A,KAZEMI H. Temperature effects on the oil relative permeability during tertiary gas oil gravity drainage(GOGD)[J]. Energy and Fuels,2005,19(3):977–983. |
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2011, Vol. 30 
