Open Access
Issue |
E3S Web Conf.
Volume 165, 2020
2020 2nd International Conference on Civil Architecture and Energy Science (CAES 2020)
|
|
---|---|---|
Article Number | 01001 | |
Number of page(s) | 7 | |
Section | Energy Engineering and Energy Technology | |
DOI | https://doi.org/10.1051/e3sconf/202016501001 | |
Published online | 01 May 2020 |
- Li Haibo. Core experiment study of NMR T2 cutoff value [M]. Beijing: Chinese Academy of Sciences. 2008, 4-4. [Google Scholar]
- Wang Weimin, Guo Heshen, Ye Zhaohui. The evaluation of development potential in low permeability oil field by the aid of NMR moveable fluid detecting technology [J]. ACTA 2001, 22(6): 40-44. [Google Scholar]
- Zhang Lunyou. Concepts of movable reserves and methods for determining economically recoverable reserves [J]. Natural Gas Exploration and Development, 1996, 19(4): 75-76. [Google Scholar]
- Liu Degnke, Sun Wwei, Ren Dazhong, et al. Features of pore-throat structures and movable fluid in tight gas reservoir: A case from the 8th member of Permian Xiashihezi Foramtion and the 1st member of Permian Shanxi Formation in the western area of Sulige Gasfield, Ordos Basin[J].Natural Gas Geoscience, 2016, 27(12): 2136-2146 [Google Scholar]
- Ren Dazhong, Sun Wei, Dong Fengjuan, et al. Characteristics of movable fluids in the Chang 81reservoir, Yanchang Formation in Huaqing oilfield, Ordos basin and the influencing factors [J]. Geology and Exploration, 2015, 51(4): 797-804. [Google Scholar]
- Wang Ruifei, Chen Mingqiang. Characteristics and influencing factors of movable fluid in ultra-low permeability sandstone reservoir [J]. Acta Geologica Sinica, 2008, 29(4): 558-561. [Google Scholar]
- Legchenko A, Beauce A, Baltassat J.M., et al. Nuclear magnetic resonance as a geophysical tool for hydrogeologists [J]. Journal of Applied Geophysics, 2002, 50(1): 21-46. [Google Scholar]
- Cowan B. Nuclear magnetic resonance and relaxation [J]. Journal of Chemical Physics, 2010, 45(5): 185-187 [Google Scholar]
- Shi Diaodiao, Sun Sei, He Shengping. Relationship between micro-pore structure and movable fluid saturation in low permeability reservoir [J]. Geological Science and Technology Information, 2012, 31(4): 81-85 [Google Scholar]
- Huo Yingdong. Application of nuclear magnetic resonance technique in fluid saturation analysis of tight oil reservoir [J]. West-china Exploration Engineering, 2018(6): 107-112. [Google Scholar]
- Zhu Weiyao, Sun Yukai, Wang Shihu, et al. The filtration theory and method of effective development in ultra-low permeability reservoir. Beijing: Petroleum Industry Press, 2010: 31-35. [Google Scholar]
- Yang Zhengming. Porous mechanisms of low permeability reservoirs and its application [D]. Beijing: Chinese Academy of Sciences, 2004, 73-80. [Google Scholar]
- Cui Lianxun. Application of constant-rate intruding mercury and nuclear magnetic resonance method to low permeability reservoir evaluation [J]. Journal of Cheng Du of Technology (Science & Technology Edition), 2012, 39(4): 430-433. [Google Scholar]
- Wang Weimin, Guo Heshen, Ye Zhaohui. The evaluation of development potential in low permeability oilfield by the aid of NMR movable fluid detecting technology [J]. Acta Petrolei Sinica, 2001, 22 (6): 40-44 [Google Scholar]
- Ren Ying, Sun Wei, Zhang Xi, et al. Characteristics of movable fluids and study of production performance in different flow units of low — — permeability reservoirs: An example from the Chang 6 block of the Jiyuan oilfield in Ordos Basin [J]. Geology and Exploration, 2016, 52(5): 974-984. [Google Scholar]
- Hao Mingqiang, Li Shutie, Yang Zhengming, et al. The Effect of Relative Volume Percentage of Movable Fluid on Development Effects of Low Permeability Reservoir [J]. Xinjiang Petroleum Geology, 2006, 27(3): 335-337. [Google Scholar]
- Cao Baoge, Li Yuanliu, Xiao Ling, et al. Study on micropore structure characteristics of low permeability reservoir —— Taking Chang 2 reservoir in Bailangcheng oil region as an example[J]. Xinjiang geology, 2019, 37(4): 536-539 [Google Scholar]
- Guo Ruiliang, Chen Xiaodong, Ma Miaofeng, et al. Analysis of the characteristics and its influencing factors of horizontal movable fluid in the Chang 7 tight reservoir in Longdong area, Ordos Basin [J]. Natural Gas Geoscience, 2018, 29(5): 665-673. [Google Scholar]
- Ren Dazhong, Sun Wei, Lu Tao, et al. Microscopic Geological Factors of Movable Fluid Distribution in the Tight Sandstone Gas Reservoir: Taking the He 8 Reservoir in the East of Sulige Gas Field as An Example [J]. Geoscience, 2015, 29 (6): 1409-1417. [Google Scholar]
- He Gengsheng, Tang Hai. Reservoir physics. Beijing: Petroleum Industry Press, 2011: 48-48. [Google Scholar]
- Zheng Rui, Liu Linyu, Li Nanxing. Study on the fourproperty relationship and the lower limit of effective thickness of Chang 2 reservoir in Bailangcheng Area [J]. Petroleum Geology and Engineering, 2011, 25(2): 33-35 [Google Scholar]
- Song Ziqi, Cheng Guojian, Wang Jing, et al. Determination of effective thickness for oil reservoirs with extra-low permeability [J]. Acta Petrolei Sinica, 2006, 27(6): 103-106. [Google Scholar]
- Wu Xiaobo, Wang Shixing, Xiao Chunsheng. A new study of Delaunay triangulation creation [J]. Acta Geodaetica et Cartographica Cinica, 1999, 28(1): 28-35. [Google Scholar]
- Li Pan, Sun Weil, Li Changzheng, et al. Characteristics of Movable Fluids in the Low Permeability Sandstone Reservoir: Taking the Chang 8 reservoir of Ma Ling Oilfield, Ordos Basin as An Example [J]. Progress in Geophysics, 2018: 1-10. [Google Scholar]
Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.
Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.
Initial download of the metrics may take a while.