张鹏伟等:基于微观机理的页岩气运移分析 ·143· (姚军,孙海,樊冬艳,等.页岩气藏运移机制及数值模拟 [18]Gilron J,Soffer A.Knudsen diffusion in microporous carbon 中国石油大学学报(自然科学版),2013,37(1):91) membranes with molecular sieving character.J Membr Sci,2002 [10]Zhu W Y,Qi Q.Study on the multi-scale nonlinear flow mecha 209(2):339 nism and model of shale gas.Sci Sin Technol),2016,46(2): [19]Freeman C M,Moridis G J,Blasingame T.A numerical study of 111 microscale flow behavior in tight gas and shale gas reservoir sys- (朱维耀,亓倩.页岩气多尺度复杂流动机理与模型研究 tems.Transport Porous Media,2011,90(1):253 中国科学:技术科学,2016,46(2):111) [20]Palmer I,Mansoori J.How permeability depends on stress and [11]Zhang P W,Hu L M,Wen Q B,et al.A multi-flow regimes pore pressure in coalbeds:a new model//SPE Annual Technical model for simulating gas transport in shale matrix.Geotechnique Conference and Exhibition.Denver,1996:36737 Let,2015,5(3):231 [21]Bustin A MM,Bustin R M.Importance of rock properties on the [12]Zhang P W.Hu L M,Meegoda J N,et al.Micro/nano-pore net- producibility of gas shales.Int J Coal Geol,2012,103:132 work analysis of gas flow in shale matrix.Sci Rep,2015,5: [22]Curtis M E.Sondergeld C H,Ambrose RJ.et al.Microstructur- 13501 al investigation of gas shales in two and three dimensions using [13]Zhang P W.Hu L M,Meegoda J N.Pore-scale simulation and nanometer-scale resolution imaging.AAPG Bull,2012,96(4): sensitivity analysis of apparent gas permeability in shale matrix. 665 Mater,2017,10(2),104 [23]Cui X J,Bustin R M.Volumetric strain associated with methane [14]Wu K L,Li X F,Chen Z X,et al.Real gas transport mecha- desorption and its impact on coalbed gas production from deep nism and mathematical model through complex nanopores and mi- coal seams.AAPG Bull,2005,89(9)1181 crofractures in shale gas reservoirs.Sci Sin Technol),2016,46 [24]Pape H.Clauser C.Iffland J.Permeability prediction based on (8):851 fractal pore-space geometry.Geophysics,1999.64(5):1447 (吴克柳,李相方,陈掌星,等.页岩气复杂孔裂隙真实气体 [25]Freeman C M,Moridis G J,Ilk D,et al.A numerical study of 传输机理和数学模型.中国科学:技术科学,2016,46(8): performance for tight gas and shale gas reservoir systems.Pet 851) Sei Eng,2013,108:22 [15]Hill D G,Nelson C R.Gas productive fractured shales:an over- [26]Wu Y S,Pruess K,Persoff P.Gas flow in porous media with view and update.Gas TIPS,2000,6(3):4 Klinkenberg effects.Transport Porous Media,1998,32(1):117 [16]Guo W,Xiong W,Gao SS,et al.Isothermal adsorption/desorp- [27]Florence F A,Rushing JA,Newsham K E,et al.Improved per- tion characteristies of shale gas.I Central S Unie Sci Technol, meability prediction relations for low permeability sands.SPE 2013,44(7):2836 lnt,2007,107954:1 (郭为,熊伟,高树生,等.页岩气等温吸附/解吸特征.中 [28]Civan F.Effective correlation of apparent gas permeability in 南大学学报(自然科学版),2013,44(7):2836) tight porous media.Transport Porous Med,2009,82(2):375 [17]Li X F,Pu Y C.Sun C Y,et al.Recognition of absorption/de- [29]Li Q H,Chen M,Jin Y,et al.Experimental research on failure sorption theory in coalbed methane reservoir and shale gas reser- modes and mechanical behaviors of gas-bearing shale.Chin J voir.Acta Pet Sinica,2014,35(6):1113 Rock Mech Eng,2012.31(Suppl 2):3763 (李相方,蒲云超,孙长宇,等.煤层气与页岩气吸附/解吸 (李庆辉,陈勉,金衍,等.含气页岩破坏模式及力学特性的 的理论再认识.石油学报,2014,35(6):1113) 试验研究.岩石力学与工程学报,2012,31(增刊2):3763)张鹏伟等: 基于微观机理的页岩气运移分析 (姚军, 孙海, 樊冬艳, 等. 页岩气藏运移机制及数值模拟. 中国石油大学学报(自然科学版), 2013, 37(1): 91) [10] Zhu W Y, Qi Q. Study on the multi鄄scale nonlinear flow mecha鄄 nism and model of shale gas. Sci Sin (Technol), 2016, 46(2): 111 (朱维耀, 亓倩. 页岩气多尺度复杂流动机理与模型研究. 中国科学: 技术科学, 2016, 46(2): 111) [11] Zhang P W, Hu L M, Wen Q B, et al. A multi鄄flow regimes model for simulating gas transport in shale matrix. G佴otechnique Lett, 2015, 5(3): 231 [12] Zhang P W, Hu L M, Meegoda J N, et al. Micro / nano鄄pore net鄄 work analysis of gas flow in shale matrix. Sci Rep, 2015, 5: 13501 [13] Zhang P W, Hu L M, Meegoda J N. Pore鄄scale simulation and sensitivity analysis of apparent gas permeability in shale matrix. Mater, 2017, 10(2), 104 [14] Wu K L, Li X F, Chen Z X, et al. Real gas transport mecha鄄 nism and mathematical model through complex nanopores and mi鄄 crofractures in shale gas reservoirs. Sci Sin (Technol), 2016, 46 (8): 851 (吴克柳, 李相方, 陈掌星, 等. 页岩气复杂孔裂隙真实气体 传输机理和数学模型. 中国科学: 技术科学, 2016, 46(8): 851) [15] Hill D G, Nelson C R. Gas productive fractured shales: an over鄄 view and update. Gas TIPS, 2000, 6(3): 4 [16] Guo W, Xiong W, Gao S S, et al. Isothermal adsorption / desorp鄄 tion characteristics of shale gas. J Central S Univ Sci Technol, 2013, 44(7): 2836 (郭为, 熊伟, 高树生, 等. 页岩气等温吸附/ 解吸特征. 中 南大学学报(自然科学版), 2013, 44(7): 2836) [17] Li X F, Pu Y C, Sun C Y, et al. Recognition of absorption / de鄄 sorption theory in coalbed methane reservoir and shale gas reser鄄 voir. Acta Pet Sinica, 2014, 35(6): 1113 (李相方, 蒲云超, 孙长宇, 等. 煤层气与页岩气吸附/ 解吸 的理论再认识. 石油学报, 2014, 35(6): 1113) [18] Gilron J, Soffer A. Knudsen diffusion in microporous carbon membranes with molecular sieving character. J Membr Sci, 2002, 209(2): 339 [19] Freeman C M, Moridis G J, Blasingame T. A numerical study of microscale flow behavior in tight gas and shale gas reservoir sys鄄 tems. Transport Porous Media, 2011, 90(1): 253 [20] Palmer I, Mansoori J. How permeability depends on stress and pore pressure in coalbeds: a new model / / SPE Annual Technical Conference and Exhibition. Denver, 1996: 36737 [21] Bustin A M M, Bustin R M. Importance of rock properties on the producibility of gas shales. Int J Coal Geol, 2012, 103: 132 [22] Curtis M E, Sondergeld C H, Ambrose R J, et al. Microstructur鄄 al investigation of gas shales in two and three dimensions using nanometer鄄scale resolution imaging. AAPG Bull, 2012, 96(4): 665 [23] Cui X J, Bustin R M. Volumetric strain associated with methane desorption and its impact on coalbed gas production from deep coal seams. AAPG Bull, 2005, 89(9): 1181 [24] Pape H, Clauser C, Iffland J. Permeability prediction based on fractal pore鄄space geometry. Geophysics, 1999, 64(5): 1447 [25] Freeman C M, Moridis G J, Ilk D, et al. A numerical study of performance for tight gas and shale gas reservoir systems. J Pet Sci Eng, 2013, 108: 22 [26] Wu Y S, Pruess K, Persoff P. Gas flow in porous media with Klinkenberg effects. Transport Porous Media, 1998, 32(1): 117 [27] Florence F A, Rushing J A, Newsham K E, et al. Improved per鄄 meability prediction relations for low permeability sands. SPE Int, 2007, 107954: 1 [28] Civan F. Effective correlation of apparent gas permeability in tight porous media. Transport Porous Med, 2009, 82(2): 375 [29] Li Q H, Chen M, Jin Y, et al. Experimental research on failure modes and mechanical behaviors of gas鄄bearing shale. Chin J Rock Mech Eng, 2012, 31(Suppl 2): 3763 (李庆辉, 陈勉, 金衍, 等. 含气页岩破坏模式及力学特性的 试验研究. 岩石力学与工程学报, 2012, 31(增刊 2): 3763) ·143·