[1] Curtis J B.Fractured shale-gas systems[J].AAPG Bulletin, 2002,86(11):1921-1938.
[2] 邹才能,董大忠,王社教,等.中国页岩气形成机理、地质特征及资源潜力[J].石油勘探与开发,2010,37(6):641-653.
Zou Caineng,Dong Dazhong,Wang Shejiao,et al.Geological characteristics,formation mechanism and resource potential of shale gas in China[J].Petroleum Exploration and Development,2010,37(6):641-653.
[3] 赵靖舟,曹青,白玉彬,等.油气藏形成与分布:从连续到不连续——兼论油气藏概念及分类[J].石油学报 ,2016,37(2):145-159.
Zhao Jingzhou,Cao Qing,Bai Yubin,et al.Petroleum accumulation:from continuous to discontinuous:concept,classification and distribution[J].Acta Petrolei Sinica,2016,37(2):145-159.
[4] 《页岩气地质与勘探开发实践丛书》编委会.中国页岩气地质研究进展[M].北京:石油工业出版社,2011.
Editorial Committee of "Shale Gas Geology and Exploration and Development Practice Series".New progress of shale gas exploration and development in north America[M].Beijing:Petroleum Industry Press,2011.
[5] 方朝合,黄志龙,王巧智,等.富含气页岩储层超低含水饱和度成因及意义[J].天然气地球科学,2014,25(3):471-476.
Fang Chaohe,Huang Zhilong,Wang Qiaozhi,et al.Cause and significance of the ultra-low water saturation in gas-enriched shale reservoir[J].Natural Gas Geoscience ,2014,25(3):471-476.
[6] 刘洪林,王红岩.中国南方海相页岩超低含水饱和度特征及超压核心区选择指标[J].天然气工业,2013,33(7):140-144.
Liu Honglin,Wang Hongyan.Ultra-low water saturation characteristics and the identification of over-pressured play fairways of marine shales in south China[J]. Natural Gas Industry,2013,33(7):140-144.
[7] Ross D J K,Marc Bustin R.The importance of shale composition and pore structure upon gas storage potential of shale gas reservoirs[J].Marine and Petroleum Geology,2009,26(6):916-927.
[8] Gasparik M,Bertier P,Gensterblum Y,et al.Geological controls on the methane storage capacity in organic-rich shales[J].International Journal of Coal Geology,2014,123:34-51.
[9] Wu Qihua,Bai Baojun,Ma Yinfa,et al.Optic imaging of two-phase-flow behavior in 1D nanoscale channels[J].SPE Journal,2014,19(5):793-802.
[10] Curtis M E,Ambrose R J,Sondergeld C H.Structural characterization of gas shales on the micro- and nano-scales[R].SPE 137693,2010.
[11] Dehghanpour H,Zubair H A,Chhabra A,et al.Liquid intake of organic shales[J].Energy & Fuels,2012,26(9):5750-5758.
[12] Korb J P,Nicot B,Louis-Joseph A,et al.Dynamics and wettability of oil and water in oil shales[J].The Journal of Physical Chemistry C,2014,118(40):23212-23218.
[13] Odusina E O,Sondergeld C H,Rai C S.NMR study of shale wettability[R].SPE 147371,2011.
[14] Hu Yinan,Devegowda D,Striolo A,et al.Microscopic dynamics of water and hydrocarbon in shale-kerogen pores of potentially mixed wettability[J].SPE Journal,2014,20(1):112-124.
[15] Larsen J W,Aida M T.Kerogen chemistry 1.Sorption of water by type II kerogens at room temperature[J].Energy & Fuels,2004,18(5):1603-1604.
[16] 王平全,陈地奎.用热失重法确定水合黏土水分含量及存在形式[J].西南石油学院学报,2006,28(1):52-55.
Wang Pingquan,Chen Dikui.Determine the hydration of clay moisture content and form with hot weightlessness method[J].Journal of Southwest Petroleum Institute,2006,28(1):52-55.
[17] 张雪芬,陆现彩,张林晔,等.页岩气的赋存形式研究及其石油地质意义[J].地球科学进展,2010,25(6):597-604.
Zhang Xuefen,Lu Xiancai,Zhang Linye,et al.Occurrences of shale gas and their petroleum geological significance[J].Advances in Earth Science,2010,25(6):597-604.
[18] Boyer C,Kieschnick J,Suarez-Rivera R,et al.Producing gas from its source[J].Oilfield Review,2006,18:36-49.
[19] Spears R W,Dudus D,Foulds A,et al.Shale gas core analysis:strategies for normalizing between laboratories and a clear need for standard materials[C]//SPWLA 52nd Annual Logging Symposium.Colorado:Society of Petrophysicists and Well-Log Analysts,2011.
[20] Haghighi M,Ahmad M.Water saturation evaluation of murteree and roseneath shale gas reservoirs,cooper basin,australia using wire-line logs,focused ion beam milling and scanning electron microscopy[R].SPE 167080,2013.
[21] 邹才能,李建忠,董大忠,等.中国首次在页岩气储集层中发现丰富的纳米级孔隙[J].石油勘探与开发,2010,37(5):508-509.
Zou Caineng,Li Jianzhong,Dong Dazhong,et al.The nanopore in shale was found for the forst time in China[J].Petroleum Exploration and Development,2010,37(5):508-509.
[22] Mahadevan J,Sharma M M,Yortsos Y C.Evaporative cleanup of water blocks in gas wells[J].SPE Journal,2007,12(2):209-216.
[23] 姚泾利,王怀厂,裴戈,等.鄂尔多斯盆地东部上古生界致密砂岩超低含水饱和度气藏形成机理[J].天然气工业,2014,34(1):37-43.
Yao Jingli,Wang Huaichang,Pei Ge,et al.The formation mechanism of Upper Paleozoic tight sand gas reservoirs with ultra-low water saturation in Eastern Ordos Basin[J].Natural Gas Industry,2014,34(1):37-43.
[24] 张浩,康毅力,陈一健,等.致密砂岩气藏超低含水饱和度形成地质过程及实验模拟研究[J].天然气地球科学,2005,16(2):186-189.
Zhang Hao,Kang Yili,Chen Yijian,et al.The study of geology course and experiment simulation for forming ultra-low water saturation in tight sandstone gas reservoirs[J].Natural Gas Geoscience,2005,16(2):186-189.
[25] Zuluaga E,Muñoz N I,Obando G A.An experimental study to evaluate water vaporisation and formation damage caused by dry gas flow through porous media[R].SPE 68335,2001.
[26] Jin Zhehui,Firoozabadi A.Effect of water on methane and carbon dioxide sorption in clay minerals by Monte Carlo simulations[J].Fluid Phase Equilibria,2014,382:10-20.
[27] Grant R J,Manes M.Adsorption of binary hydrocarbon gas mixtures on activated carbon[J].Industrial & Engineering Chemistry Fundamentals,1966,5(4):490-498.
[28] 胡忠鲠.现代化学基础[M].北京:高等教育出版社,2000.
Hu Zhonggeng.Basic modern chemistry[M].Beijing:Higher Education Press,2000.
[29] Tadros T.Encyclopedia of colloid and interface science[M].Berlin:Springer,2013.
[30] 恽正中.表面与表面物理[M].成都:电子科技出版社,1993.
Yun Zhengzhong.Surface and interface physics[M].Chengdu:University of Electronic Science and Technology of China Press,1993.
[31] Starov V M,Velarde M G,Radke C J.Wetting and spreading dynamics[M].Boca Raton,FL:CRC Press,2007.
[32] Takahashi S,Kovscek A R.Wettability estimation of low-permeability,siliceous shale using surface forces[J].Journal of Petroleum Science and Engineering,2010,75(1/2):33-43.
[33] Churaev N V.Contact angles and surface forces[J].Advances in Colloid and Interface Science,1995,58(2/3):87-118.
[34] 吉利明,邱军利,夏燕青,等.常见黏土矿物电镜扫描微孔隙特征与甲烷吸附性[J].石油学报,2012,33(2):249-256.
Ji Lingming,Qiu Junjie,Xia Yanqing.Micro-pore characteristics and methane adsorption properties of common clay minerals by electron microscope scanning[J].Acta Petrolei Sinica,2012,33(2):249-256.
[35] Tuller M,Or D,Dudley L M.Adsorption and capillary condensation in porous media:liquid retention and interfacial configurations in angular pores[J].Water Resources Research,1999,35(7):1949-1964.
[36] Churaev N V,Starke G,Adolphs J.Isotherms of capillary condensation influenced by formation of adsorption films[J].Journal of Colloid and Interface Science,2000,221(2):246-253.
[37] Tanakaa H,El-Merraouia M,Steeleb W A,et al.Methane adsorption on single-walled carbon nanotube:a density functional theory model[J].Chemical Physics Letters, 2002,35(5/6):334-341.
[38] Kuila U,Prasad M.Pore size distribution and Ultrasonic Velocities of compacted Na-montmorillonite clays[R].SEG 2010-2590,2010.
[39] 赵杏媛,张有瑜.粘土矿物与粘土矿物分析[M].北京:海洋出版社,1990.
Zhao Xingyuan,Zhang Youyu.Clay mineral and clay mineral analysis[M].Beijing:China Ocean Press,1990.
[40] Kaufhold S,Dohrmann R,Klinkenberg M,et al.N2-BET specific surface area of bentonites[J].Journal of Colloid and Interface Science,2010,349(1):275-282.
[41] Zhang Jilin,Chen Jinhong,Edwards C M.Lab NMR study on adsorption/condensation of hydrocarbon in smectite clay[R].SPE 151136,2012.
[42] 杨峰,宁正福,胡昌蓬,等.页岩储层微观孔隙结构特征[J].石油学报,2013,34(2):301-311.
Yang Feng,Ning Zhengfu,Hu Changpeng,et al.Characterization of microscopic pore structures in shale reservoirs[J].Acta Petrolei Sinica,2013,34(2):301-311.
[43] Aylmore L A G,Quirk J P.The micropore size distributions of clay mineral systems[J]. Journal of Soil Science,1967,18(1):1-17.
[44] Aringhieri R.Nanoporosity characteristics of some natural clay minerals and soils[J].The Clay Minerals Society,2004,52(6):700-704.
[45] 吉利明,马向贤,夏燕青,等.黏土矿物甲烷吸附性能与微孔隙体积关系[J].天然气地球科学,2014,25(2):141-152.
Ji Lingming,Ma Xiangxian,Xia Yanqing,et al.Relationship between methane adsorption capacity of clay minerals and micropore volume[J].Natural Gas Geoscience 2014,25(2):141-152.
[46] 薛冰,张金川,唐玄,等.黔西北龙马溪组页岩微观孔隙结构及储气特征[J].石油学报,2015,36(2):138-149.
Xue Bing,Zhang Jinchuan,Tang Xuan,et al.Characteristics of microscopic pore and gas accumulation on shale in Longmaxi Formation,northwest Guizhou[J].Acta Petrolei Sinica,2015,36(2):138-149.
[47] 吉利明,吴远东,贺聪,等.富有机质泥页岩高压生烃模拟与孔隙演化特征[J].石油学报,2016,37(2):172-181.
Ji Liming,Wu Yuandong,He Cong,et al.High-pressure hydrocarbon generation simulation and pore evolution characteristics of organic-rich mudstone and shale[J].Acta Petrolei Sinica,2016,37(2):172-181.
[48] Curtis M E,Ambrose R J,Sondergeld C H,et al.Transmission and scanning electron microscopy investigation of pore connectivity of gas shales on the nanoscale[R].SPE 144391,2011. |