1 Yao J, Sun H, Huang Z Q, et al. Key mechanical problems in the development of shale gas reservoirs (in Chinese). Sci Sin-Phys Mech Astron, 2013, 43: 1527-1547 [姚军, 孙海, 黄朝琴, 等. 页岩气藏开发中的关键力学问题. 中国科学: 物理学力学天文学, 2013, 43: 1527-
[2]
2 Tang Y, Tang X, Wang G Y, et al. Summary of hydraulic fracturing technology in shale gas development (in Chinese). Geol Bull China, 2011, 30: 393-399 [唐颖, 唐玄, 王广源, 等. 页岩气开发水力压裂技术综述. 地质通报, 2011, 30: 393-
[3]
3 Guo C, Wei M, Chen H, et al. Improved numerical simulation for shale gas reservoirs. In: Offshore Technology Conference Asia, Kuala Lumpur, 2014
[4]
4 Javadpour F, Fisher D, Unsworth M. Nanoscale gas flow in shale gas sediments. J Can Petrol Technol, 2007, 46: 55-61
[5]
5 Freeman C M, Moridis G, Llk D, et al. A numerical study of performance for tight gas and shale gas reservoir systems. J Petrol Sci Eng, 2013, 108: 22-39
[6]
6 Kast W, Hohenthanner C R. Mass transfer within the gas-phase of porous media. Int J Heat Mass Tran, 2000, 43: 807-823
[7]
7 Guo J J, Zhang L H, Wang H T, et al. Pressure transient analysis for multi-stage fractured horizontal wells in shale gas reservoirs. Transp Porous Med, 2012, 93: 635-653
[8]
8 Nobakht M, Clarkson C R, Kaviani D. New type curves for analyzing horizontal well with multiple fractures in shale gas reservoirs. J Nat Gas Sci Eng, 2013, 10: 99-112
[9]
9 Zhao Y L, Zhang L H, Zhao J Z, et al. "Triple porosity" modeling of transient well test and rate decline analysis for multi-fractured horizontal well in shale gas reservoirs. J Petrol Sci Eng, 2013, 110: 253-262
[10]
10 Yu W, Sepehrnoori K. Numerical evaluation of the impact of geomechanics on well performance in shale gas reservoirs. In: 47th US Rock Mechanics/Genomechanics Symposium, San Francisco, 2013
[11]
11 Huang J, Ghassemi A. Poroelastic analysis of gas production from shale. In: 47th US Rock Mechanics/Genomechanics Symposium, San Francisco, 2011
[12]
12 Mongalvy V, Chaput E, Agarwal S, et al. A new numerical methodology for shale reservoir performance evaluation. In: SPE North American Unconventional Gas Conference and Exhibition, Woodlands, 2011
[13]
13 Srinivasan R, Auvil S R, Schork J M. Mass transfer in Carbon molecular sieves-an interpretation of Langmuir kinetics. The Chem Eng J, 1995, 57: 137-144
[14]
14 Do D D, Wang K. A new model for the description of adsorption kinetics in heterogeneous activated carbon. Carbon, 1998, 36: 1539-1554
[15]
15 Nikolai S, Wolf K A A, Bruining J. Interpretation of carbon dioxide diffusion behavior in coals. Int J Coal Geol, 2007, 72: 315-324
[16]
16 Jin Y, Chen M. Wellbore Stability Mechanics (in Chinese). Beijing: Science Press, 2012 [金衍, 陈勉. 井壁稳定力学. 北京: 科学出版社,
[17]
17 Zhang H, Liu J, Elsworth D. How sorption-induced matrix deformation affects gas flow in coal seams: A new FE model. Int J Rock Mech Min, 2008, 45: 1226-1236
[18]
18 Warren J E, Root P J. The behavior of naturally fractured reservoirs. Soc Pet Eng J, 1963, 3: 245-255
[19]
19 Zhang Y T. Rock Hydraulics and Engineering (in Chinese). Beijing: China Water Power Press, 2005 [张有天. 岩石水力学与工程. 北京: 中国水利水电出版社,
[20]
20 Xia Y, Jin Y, Chen M, et al. Hydrodynamic modeling of mud loss controlled by the coupling of discrete fracture and matrix. J Petrol Sci Eng, 2014, doi:10.1016/j.petrol.2014.07.026
[21]
21 Biryukov D, Kuchuk F J. Transient pressure behavior of reservoirs with discrete conductive faults and fractures. Transp Porous Med, 2012, 95: 239-268
[22]
22 Chen M, Jin Y, Zhang G Q. Rock Mechanics in Petroleum Engineering (in Chinese). Beijing: Science Press, 2008 [陈勉, 金衍, 张广清. 石油工程岩石力学. 北京: 科学出版社,
[23]
23 Cui X, Bustin R M. Volumetric strain associated with methane desorption and its impact on coalbed gas production from deep coal seams. AAPG Bull, 2005, 89: 181-202
[24]
24 Harpalani S, Schraufnagel A. Measurement of parameters impacting methane recovery from coal seams. Int J Min Geol Eng, 1990, 28: 369-384
[25]
25 Robertson E P, Christiansen R L. Modeling permeability in coal using sorption-induced strain data. In: SPE Annual Technical Conference and Exhibition, Dallas, 2005
[26]
26 Bello R O, Wattenbarger R A. Multi-stage hydraulically fractured shale gas rate transient analysis. In: SPE North Africa Technical Conference and Exhibition, Cairo, 2010
[27]
27 Stalgorova E, Mattar L. Practical analytical model to simulate production of horizontal wells with branch fractures. In: SPE Canadian Unconventional Resources Conference, Calgary, 2012
[28]
28 Stalgorova E, Mattar L. Analytical model for history matching and forecasting production in multifrac composite systems. In: SPE Canadian Unconventional Resources Conference, Calgary, 2012
[29]
29 Brohi I, Mehran P D, Roberto A. Modeling fractured horizontal wells as dual porosity composite reservoirs—Application to tight gas, shale gas and tight oil cases. In: SPE Western North American Regional Meeting, Anchorage, 2011
[30]
30 Ozkan E, Raghavan R. New solutions for well-test-analysis problems: Part 1—Analytical considerations. SPE Formation Evaluation, 1991, 6: 359-368
[31]
31 Ozkan E, Raghavan R. New solutions for well-test-analysis Problems: Part 2—Computational considerations and applications. SPE Formation Evaluation, 1991, 6: 369-378
[32]
32 Ozkan E, Raghavan R. New solutions for well-test-analysis problems: Part 3—Additional algorithms. In: SPE Annual Tech Conf Exhibit, 1994, doi.org/10.2118/28424-MS
[33]
33 Guo J J, Zhang L H, Wang H T, et al. Pressure transient analysis for multi-stage fractured horizontal wells in shale gas reservoirs. Transp Porous Med, 2012, 93: 635-653
