[1] LIU Li, ZHAO Yingcheng, WANG Youjing, et al. Sedimentary facies and evolution of Chang 63 sand group of Yanchang formation in B153 block, Huaqing oilfield[J]. Geological Science and Technology Information, 2016, 35(1): 94-100. [2] ZHANG Hao, CHEN Gang, TANG Xin, et al. Evaluation of tight oil reservoir diageneticfacies by logging response: a case study of the Chang 7 reservoir in Heshui area, Ordos basin[J]. Geological Science and Technology Information, 2017, 36(3): 262-270. [3] WANG Meng, ZENG Ming, CHEN Hong’ao, et al. Influencing factors of tight reservoirs and favorable diageneticfacies: a case study of Chang 8 reservoir of the Upper Triassic Yanchang formation in Maling oilfield, Ordos basin[J]. Lithologic Reservoirs, 2017, 29(1): 59-70. [4] CHENG Jinghua, LI Rongxi, TAN Xiaoli, et al. Impact of diageneticfacies on mechanical properties of sandstone rock in low-permeability reservoirs; a case study of the Upper Paleozoic gas reservoir in east Ordos basin[J]. ActaPetroleiSinica, 2016, 37(10):1 256-1 264. [5] QU Xuefeng, SUN Wei, LEI Qihong, et al. Study on saturation of movable fluid in the low-permeability sandstone reservoirs of Huaqing oilfield and its influencing factors[J]. Journal of Xi’an Shiyou University(Natural Science),2016, 31(2): 93-98. [6] ZHANG Xi, SUN Wei, MING Hongxia, et al. Micro-pore structure of diageneticfacies of Chang 63 reservoir and distribution of high quality reservoir in Banqiao-Heshui area[J]. ActaSedimentologicaSinica, 2016, 34(2): 336-345. [7] REN Ying, SUN Wei, MING Hongxia, et al. Characteristics of movable fluids in different diageneticfacies and the influencing factors of low-permeability reservoir; taking Chang 6 Jiyuan oilfield as an example[J]. Geoscience, 2016, 30(5):1 124-1 133. [8] REN Dazhong.Micro-characteristics of tight sandstone reservoir of Yanchang formation in the Ordos Basin[D]. Xi’an; Northwest University, 2015. [9] ZHU Xiaomin.Sedimentary petrology[M]. Beijing; Petroleum Industry Press, 2009. [10] ZHAO Xisen, DANG Hailong, PANG Zhenyu, et al. Microscopicpore structure and seepage characteristics of different pore assemblage types in ultra low permeability reservoir; a case of Chang 6 reservoir in Tang 157 well area, Ganguyi oilfield[J]. Lithologic Reservoirs, 2017, 29(6): 9-14. [11] HUANG Hai, REN Dazhong, ZHOU Yan, et al. Characteristics of movable fluid and pore evolution of the Chang 81 sandstone reservoirs of the Ordos basin[J]. Journal of Northwest University(Natural Science Edition)2016, 46(5): 735-745. [12] GAO Hui, LI Huazhou, Determination of movable fluid percentage and movable fluid porosity in ultra-low permeability sandstone using nuclear magnetic resonance (NMR)technique[J]. Journal of Petroleum Science and Engineering, 2015, 133(9): 258-267. [13] REN Xiaoxia, LI Aifen, WANG Yongzheng, et al. Pore structure of tight sand reservoir and its influence on percolation - taking the Chang 8 reservoir in Maling oilfield in the Ordos Basin as an example[J]. Oil&Gas Geology, 2015, 36(5): 774-779. [14] Committee for Standardization of Petroleum Exploration. Evaluation methods of oil and gas reservoir; SY/T 6285—2011[S]. Beijing; Petroleum Industry Press, 2011. [15] ZOU Caineng, ZHU Rukai, WU Songtao, et al. Types, characteristics, genesis and prospects of conventional and unconventional hydrocarbon accumulations; taking tight oil and tight gas in China as an instance[J]. ActaPeroleiSinica, 2012, 33(2): 173-187. [16] YANG Zhifeng, ZENG Jianhui, HAN Fei, et al. Characterization of microscopic pore texture of Chang 6-Chang 8 members tight sandstone reservoirs in the southwestern part of Ordos basin[J]. Natural Gas Geoscience, 2017, 28(6): 909-919. [17] ZHOU Xiang, HE Sheng, LIU Ping, et al. Characteristics and classification of tight oil pore structure in reservoir Chang 6 of Daijiaping area, Ordos basin[J]. Earth Science Frontiers, 2016, 23(3): 253-265. |