[1] Zou Cai-neng(邹才能), Dong Da-zhong(董大忠), Yang Hua(杨桦), et al. Conditiona of shale gas accumulation and exploration practice in China(中国页岩气形成条件及勘探实践)[J]. Natural Gas Industry(天然气工业), 2011, 31(12): 26-39. [2] Zou Cai-neng(邹才能). Unconventional Petroleum Geology(非常规油气地质)[M]. Beijing(北京): Geological Pubilishing House(地质出版社), 2013. [3] Buller D, Hughes S, Petre E, et al. Petrophysical Evaluation for Enhancing Hydraulic Stimulation in Horizontal Shale Gas Wells[C]. SPE 132990, 2010. [4] Loucks R G, Reed R M, Ruppel S C, et al. Spectrum of pore types and networks in mudrocks and a descriptive classification for matrix-related mudrock pores[J]. AAPG Bulletin, 2012, 96(6): 1 071-1 098. [5] Yang Feng(杨峰), Ning Zheng-fu(宁正福), Hu Chang-peng(胡昌蓬), et al. Characterization of microscopic pore structures in shale reservoir(页岩储层微观孔隙结构特征)[J]. Acta Petrolei Sinica(石油学报), 2013, 34(2): 301-311. [6] Zhong Tai-xian(钟太贤). Characteristics of pore structure of marine shales in south China(中国南方海相页岩孔隙结构特征)[J]. Natural Gas Industry(天然气工业), 2012, 32(9): 1-4. [7] Han Hui(韩辉), Zhong Ning-ning(钟宁宁), Jiao Shu-jing(焦淑静), et al. Scanning electron microscope observation of pores in mudstone and shale(泥页岩孔隙的扫描电子显微镜观察)[J]. Journal of Chinese Electron Microscopy Society(电子显微学报), 2013, 32(4): 325-330. [8] Han Shuang-biao(韩双彪), Zhang Jin-chuan(张金川), Brian Horsfield, et al. Pore types and characteristics of shale gas reservoir: a paleozoic case study of lower shale in southeast Chongqing(页岩气储层孔隙类型及特征研究: 以渝东南下古生界为例)[J]. Earth Science Frontiers(地学前缘), 2013, 20(3): 247-253. [9] Zou Cai-neng(邹才能), Yang Zhi(杨智), Zhang Guo-sheng(张国生), et al. Conventional and unconventional petroleum “orderly accumulation”: Concept and practical significance(常规-非常规油气“有序聚集”理论认识及实践意义)[J]. Petroleum exploration and development(石油勘探与开发), 2014, 41(1): 14-27. [10] Wang Zhi-zhan(王志战), Zhai Shen-de(翟慎德), Zhou Li-fa(周立发), et al. Application of nuclear magnetic resonance logging technology in physical property analysis of rock(核磁共振录井技术在岩石物性分析方面的应用研究)[J]. Peteroleum Geology & Experiment(石油实验地质), 2005, 27(6): 619-623. [11] Wang Zhi-zhan(王志战), Xu Xiao-qiong(许小琼). Quantitative evaluation of reservoir separation with MR-ML technology(利用核磁共振录井技术定量评价储层的分选性)[J]. Chinese J Magn Reson(波谱学杂志), 2010, 27(2): 214-220. [12] Wang Z Z, Martinez Y, Strack K, et al. Applications of NMR Mud Logging Technology in China[R].SPWLA 2007 Annual Logging Symposium,X. [13] Wang Zhi-zhan(王志战), Zhai Xiao-wei(翟晓薇), Qin Li-ming(秦黎明), et al. Overview on shale oil and gas logging technology(页岩油气藏录井技术现状及发展思路)[J]. Mud Logging Engineering(录井工程), 2013, 24(3): 1-5. [14] Magritek, Rock Core Analyzer Features [EB/OL]. http://www.magritek.com/products/rock-core-analyzer/features/. [15] Rylander E, Jiang T M, McLin R, et al. NMR T2 Distributions in the Eagle Ford Shale Reflections on Pore Size[C]. SPE 164554, 2013. [16] Cao M C, Crary S, Zielinski L, et al. 2D NMR Applications in Uncoventional Reservoirs[C]. SPE 161578, 2012. [17] Editorial Committee of the 2nd China Mudlogging Technology Conference(第二届中国石油工业录井技术交流会论文集编委会). Proceedings of the 2nd China Mudlogging Technology Conference(第二届中国石油工业录井技术交流会论文集)[C]. Qingdao(青岛): China University of Petroleum Press(中国石油大学出版社), 2013. [18] Du Zhi-qiang(杜志强), Wang Fei-long(王飞龙), Zhang Guo-long(张国龙), et al. X ray fluorescence cutting logging test and its preliminary utilization in horizontal well geosteering(X射线荧光岩屑录井技术试验及在水平井地质导向中的初步应用)[J]. Mud Logging Engineering(录井工程), 2008, 19(2): 13-17. [19] Gabriela A Martínez, Lorne A D. Petrophysical Measurements on Shales Using NMR[R]. SPE 62851, 2000. [20] Zou Cai-neng(邹才能), Yang Zhi(杨智), Tao Shi-zhen(陶士振), et al. Nano-hydrocarbon and the accumulation in coexisting source and reservoir(纳米油气与源储共生型油气聚集)[J]. Petroleum Exploration and Development(石油勘探与开发), 2012,39(1):13-26. [21] Zou Cai-neng(邹才能), Dong Da-zhong(董大忠), Wang She-jiao(王社教), et al. Geological characteristics, formation mechanism and resource potential of shale gas in China(中国页岩气形成机理、地质特征及资源潜力)[J]. Petroleum Exploration and Development(石油勘探与开发), 2010, 37(6): 641-653. [22] Zhang Xue-fen(张雪芬), Lu Xian-cai(陆现彩), Zhang Lin-ye(张林晔), et al. Occurrences of shale gas and their petroleum geological significance(页岩气的赋存形式研究及其石油地质意义)[J]. Advances in Earth Science(地球科学进展), 2010, 25(6): 597-604. [23] Gomaa A M, Zhang B Y, Chen J H, et al. Innovative Use of NMR to Study the Fracture Fluid Propagation in Shale Formation[C]. SPE 168619, 2014. [24] Chi L, Zoya H. Quantifying the Impact of Natural Fractures and Pore Structure on NMR Measurements in Multiple-Porosity Systems[C]. IPTC 17688, 2014. [25] Sondergeld C H, Newsham E K, Comisky J T, et al. Petrophysical Considerations in Evaluating and Producing Shale Gas[C]. SPE 131768, 2010. [26] Carneiro G, Souza A, Boyd A, et al. Evaluating Pore Space Connectivity by NMR Diffusive Coupling[C]. Dhiba, SPWLA, 2014. [27] Jia Cheng-zao(贾承造), Zou Cai-neng(邹才能), Li Jian-zhong(李建忠), et al. Assessment criteria,main types, basic features and resource prospects of the tight oil in China(中国致密油评价标准、主要类型、基本特征及资源前景)[J]. Acta Petrolei Sinica(石油学报), 2012, 33(3): 343-350. [28] Odusina E, Sondergeld C, Rai C. An NMR Study on Shale Wettability[C]. CSUG/SPE 147371, 2011. [29] Bustin R M, Bustin A M M, Cui X, et al. Impact of Shale Properties on Pore Structure and Storage Characteristics[C]. SPE 119892, 2008. [30] Passey Q R, Bohacs K M, Esch W L, et al. From Oil-Prone Source Rock to Gas-Producing Shale Reservoir – Geologic and Petrophysical Characterization of Unconventional Shale-Gas Reservoirs[C]. SPE 131350, 2010. [31] Dehghanpour H, Shirdel M. A Triple Porosity Model for Shale Gas Reservoirs[C]. CSUG/SPE 149501, 2011. [32] Pour S, Bryant S L. Gas Permeability of Shale[C]. SPE 146944, 2011. [33] Clarkson C R, Wood J M, Burgis S E,et al. Nanopore Structure Analysis and Permeability Predictions for a Tight Gas/Shale Reservoir Using Low-Pressure Adsorption and Mercury Intrusion Techniques [C]. SPE 155537, 2012. [34] Li Zhi-tao(李志涛), Wang Zhi-zhan(王志战), Lu Zhi-yong(路智勇). Surface NMR Oil and Gas Analysis Technology(地面核磁共振油气分析技术)[M]. Qingdao(青岛): China University of Petroleum Press(中国石油大学出版社), 2014. [35] Bray J, Smith C H, Ramakrishna S, et al. Magnetic Resonance Utilization as an Unconventional Reservoir Permeability Indicator[C]. SPE 145709, 2011. [36] Smith C H, Ramakrishna S, Bray J. Magnetic Resonance to Identify Permeability in Shale Reservoirs[C]. SPE 166992, 2013. [37] Kausik R, Minh C C, Zielinski L, et al. Characterization of Gas Dynamics in Kerogen Nanopores by NMR[C]. SPE 147198, 2011. [38] Curtis M E, Cardott B J, Sondergeld C H, et al. The Development of Organic Porosity in the Woodford Shale Related to Thermal Maturity[C]. SPE 160158, 2012. [39] Zhang T W, Ellis G S, Ruppel S C, et al. Effect of Organic Matter Properties, Clay Mineral Type and Thermal Maturity on Gas Adsorption in Organic-Rich Shale Systems[C]. SPE 168862/URTeC 1583690, 2013. [40] Wei Xiang-feng(魏祥峰), Liu Ruo-bing(刘若冰), Zhang Ting-shan(张廷山), et al. Micro-pores structure characteristics and development control factors of shale gas reservoir: A case of longmaxi formation in XX area of southern Sichuan and northern guizhou(页岩气储层微观孔隙结构特征及发育控制因素——以川南—黔北XX地区龙马溪组为例)[J]. Natural Gas Geoscience(天然气地球科学), 2013, 24(5): 1 048-1 059. [41] Wang Zhi-zhan(王志战), Xu Xiao-qiong(许小琼). Research on reservoir aquosity and reservoir validity indentification based on mud-logging method——case of northern slope belt of Dongying sag(储层含水性与有效性的录井识别方法——以东营凹陷北部陡坡带为例)[J]. Petroleum Geology and Recovery Efficiency(油气地质与采收率), 2010, 17(2): 67-69. [42] Wang Zhi-zhan(王志战), Xu Xiao-qiong(许小琼), Zhou Bao-jie(周宝洁). Relaxation feathures of pore fluid and water/oil bed recognition with NMR technology(孔隙流体核磁共振弛豫特征及油水层识别方法)[J]. Petroleum Geology and Recovery Efficiency(油气地质与采收率), 2011, 18(2): 41-44. [43] Gu Zhao-bin(顾兆斌), Liu Wei(刘卫), Sun Dian-qing(孙佃庆), et al. Identify reservoir fluid types with two dimensional NMR techniques(基于核磁共振二维谱技术识别储层流体类型)[J]. Journal of Southwest Petroleum University(Science & Technology Edituin)[西南石油大学学报(自然科学版)], 2010, 32(5): 83-83. [44] Sun B Q. In situ fluid typing and quantification with 1D and 2D NMR logging[J]. Magn Reson Imaging, 2007, 25(4): 521-524. [45] Emmanuel T, Sun B Q, Adil M, et al. Revisiting Log-Inject-Log NMR for Remaining Oil Determination: A Field Application of T2-D NMR in the Permian Basin[C]. SPWLA 2011 Annual Logging Symposium, AA, 2011. [46] Emmanuel T, Carlos T V, Sun B Q, et al. Lomits of 2D NMR interpretation techniques to quantify pore size, wettability and fluid type: a numerical sensitivity study[J]. SPE Journal, 2006, 9: 353-363. [47] Zielinski L, Ramamoorthy R, Minh C C, et al. Restricted Diffusion Effects in Saturation Estimates from 2D Diffusion- Relaxation NMR Maps[C]. SPE 134841, 2010. [48] Gu Zhao-bin(顾兆斌), Liu Wei(刘卫), Sun Dian-qing(孙佃庆), et al. Application of 2D NMR techniques in petroleum logging(2D NMR 技术在石油测井中的应用)[J]. Chinese J Magn Reson(波谱学杂志), 2009, 26(4): 560-568. [49] Hu Fa-long(胡法龙), Zhou Can-can(周灿灿), Li Chao-liu(李潮流), et al. Fluid identification method based on 2D diffusion-relaxation nuclear magnetic resonance(基于弛豫-扩散的二维核磁共振流体识别方法)[J]. Petroleum Exploration and Development(石油勘探与开发), 2012, 39(5): 552-558. [50] Hürlimann M D, Helmer K G, Latour L L, et al. Restricted diffusion in sedimentary rocks: determination of surface-area- to-volume ratio and surface relaxivity[J]. J Magn Reson, 1994, 111(2): 169-178. |