[1] 何胜林,曾少军,杨燕,等.南海西部海域文昌A、B油田低阻成因分析[J].世界地质,2011,30(3):404-409. HE Shenglin,ZENG Shaojun,YANG Yan,et al.Analysis on low-resistivity origin of Wenchang A and B Oilfields in western South China Sea[J].Global Geology,2011,30(3):404-409. [2] 肖圣东.松辽盆地葡萄花油层低阻特征及成因机理研究[J].特种油气藏,2020,27(6):108-113. XIAO Shengdong.Study on low-resistivity characteristics and genetic mechanism of Putaohua Oil Layers in Songliao Basin[J].Special Oil & Gas Reservoirs,2020,27(6):108-113. [3] 高阳,准噶尔盆地玛湖凹陷砂砾岩储层物性分类及控制因素[J].成都理工大学学报,2022,49(5):542-551. GAO Yang,Physical property classification and controlling factors of glutenite reservoir in Mahu Sag,Junggar Basin,China[J].Journal of Chengdu University of Technology,2022,49(5):542-551. [4] 王然,郑孟林,杨森,等.玛南斜坡区上乌尔禾组弱胶结砂砾岩储层特征及控制因素[J].特种油气藏,2022,29(1):23-29. WANG Ran,ZHENG Menglin,YANG Sen,et al.Characteristics and controlling factors of weakly cemented glutenite reservoir in Permian Upper Urho Formation,south slope of Mahu Sag[J].Special Oil & Gas Reservoirs,2022,29(1):23-29. [5] 王赛英,赵冠军,张萍,等.低阻油层形成机理及测井识别方法研究[J].特种油气藏,2010,17(4):10-14. WANG Saiying,ZHAO Guanjun,ZHANG Ping,et al.Formation mechanism and logging identification of low resistivity reservoirs[J].Special Oil & Gas Reservoirs,2010,17(4):10-14. [6] 张恒荣,何胜林,丁磊,等.乌石油田流三段含砾砂岩油层低阻成因分析[J].中国海上油气,2020,32(3):69-76. ZHANG Hengrong,HE Shenglin,DING Lei,et al.Genetic analysis on low resistivity oil layers in the pebbled sandstone of the third member of Liushagang Formation in Wushi Oilfield[J].China Offshore Oil and Gas,2020,32(3):69-76. [7] 陈嵘,胡向阳,袁伟,等.乌石凹陷M油田低对比度油藏成因机理及渗透率评价[J].地质科技通报,2022,41(4):12-20. CHEN Rong,HU Xiangyang,YUAN Wei,et al.Genetic mechanism and permeability evaluation of low contrast oil reservoirs in M Oilfield of Wushi Sag[J].Bulletin of Geological Science and Technology,2022,41(4):12-20. [8] 骆玉虎,何胜林,谭伟,等.北部湾盆地砂砾岩低阻油层成因及饱和度计算方法[J].地质科技情报,2019,38(6):33-41. LUO Yuhu,HE Shenglin,TAN Wei,et al.Genetic mechanism and saturation calculation method of low resistivity sandy conglomerate oil layers in Beibuwan Basin[J].Geological Science and Technology Information,2019,38(6):33-41. [9] 张恒荣,何胜林,郑香伟,等.复杂孔隙结构低阻油层含水饱和度解释新方法[J].西南石油大学学报(自然科学版),2018,40(1):97-103. ZHANG Hengrong,HE Shenglin,ZHENG Xiangwei,et al.A new method of explaining the water saturation of low resistivity reservoir with complex pore structure[J].Journal of Southwest Petroleum University(Science & Technology Edition),2018,40(1):97-103. [10] 彭志春,杨丽,汪新光,等.北部湾盆地乌石17-X油田流沙港组三段砂砾岩储层物性主控因素研究[J].科学技术与工程,2017,17(10):6-11. PENG Zhichun,YANG Li,WANG Xinguang,et al.The key control factors study on glutenite physical property of Liushagang III,Wushi 17-X Oil Field of Beibuwan Basin[J].Science Technology and Engineering,2017,17(10):6-11. [11] 吴健.薄层测井评价方法研究[D].青岛:中国石油大学(华东),2009. WU Jian.Research on thin-layer logging evaluation methods[D].Qingdao:China University of Petroleum(East China),2009. [12] 姚伟,王东生,申梅英.薄层测井解释技术的进展[J].油气田地面工程,2005,24(4):61-62. YAO Wei,WANG Dongsheng,SHEN Meiying.Advances in thin-layer logging interpretation techniques[J].Oil-Gas Field Surface Engineering,2005,24(4):61-62. [13] 胡俊.NMR评价低阻储集层岩石物性参数研究[J].天然气工业,2002,22(5):39-41. HU Jun.Applying nuclear magnetic resonance for determining petrophysical properties of low-resistivity reservoirs[J].Natural Gas Industry,2002,22(5):39-41. [14] 李跃刚,路中奇,石林辉,等.基于变岩电参数饱和度解释模型研究[J].测井技术,2015,39(2):181-185. LI Yuegang,LU Zhongqi,SHI Linhui,et al.On the saturation computation model based on variable rock-electro parameters[J].Well Logging Technology,2015,39(2):181-185. [15] 冉冶,王贵文,王凯,等.四川安岳地区须家河组二段低渗储层不同孔隙结构岩电参数变化规律[J].地球物理学进展,2015,30(4):1763-1771. RAN Ye,WANG Guiwen,WANG Kai,et al.The change rules of rock-electro parameters in different pore structures in low permeability reservoirs of the second member of Xujiahe Formation in Anyue District of Sichuan Province[J].Progress in Geophysics,2015,30(4):1763-1771. [16] 闫建平,温丹妮,李尊芝,等.低渗透砂岩孔隙结构对岩电参数的影响及应用[J].天然气地球科学,2015,26(12):2227-2233. YAN Jianping,WEN Danni,LI Zunzhi,et al.The influence of low permeable sandstone pore structure on rock electrical parameters and its applications[J].Natural Gas Geoscience,2015,26(12):2227-2233. [17] 张明禄,石玉江.复杂孔隙结构砂岩储层岩电参数研究[J].石油物探,2005,44(1):21-23. ZHANG Minglu,SHI Yujiang.Archie's electrical parameters of complex pore texture in sandstone reservoir[J].Geophysical Prospecting for Petroleum,2005,44(1):21-23. [18] 朱明,贾春明,穆玉庆,等.基于正态分布拟合的致密砂砾岩储层核磁共振测井可变T2截止值计算方法[J].石油地球物理勘探,2021,56(3):612-621. ZHU Ming,JIA Chunming,MU Yuqing,et al.A method of predicting T2 cutoffs from NMR logging data of tight glutenite reservoirs based on normal distribution simulation[J].Oil Geophysical Prospecting,2021,56(3):612-621. [19] 肖亮,肖忠祥.核磁共振测井T2cutoff确定方法及适用性分析[J].地球物理学进展,2008,23(1):167-172. XIAO Liang,XIAO Zhongxiang.Analysis of methods for determining NMR T2cutoff and its applicability[J].Progress in Geophysics,2008,23(1):167-172. [20] 冯进,孙友.核磁共振测井T2截止值的确定方法[J].中国海上油气,2008,20(3):181-183. FENG Jin,SUN You.A method to determine T2 cutoff value in nuclear magnetic resonance log[J].China Offshore Oil and Gas,2008,20(3):181-183. [21] SIGAL R.Coates and SDR permeability:two variations on the same theme[J].Petrophysics,2002,43(1):13. [22] LALA AMS,EI-ASYED NAE.Calculating absolute permeability using nuclear magnetic resonance models[J].Arabian Journal of Geosciences,2015,8(10):7955-7960. [23] 黄闯,李硕,宁涛,等.柳27区长2低阻油层主控因素分析及有效识别[J].非常规油气,2021,(6):32-39. HUANG Chuang,LI Shuo,NING Tao,et al.Analysis and effective identification of main controlling factors of formation of Chang2 low-resistance oil layer in Liu27 Block[J].Unconventional Oil & Gas,2021,(6):32-39. [24] 李枫凌,徐士鹏,刘涛,等.WTK油田白垩系低阻油层成因及流体识别方法[J].新疆石油地质,2022,43(2):241-251. LI Fengling,XU Shipeng,LIU Tao,et al.Genesis and fluid identification method of cretaceous low-resistivity oil layers in WTK Oilfield[J].Xinjiang Petroleum Ceology,2022,43(2):241-251. [25] 刘之的,刘一仓,王联国,等.鄂尔多斯盆地演武油田延9段油藏低阻成因分析[J].断块油气田,2021,28(4):498-503. LIU Zhidi,LIU Yicang,WANG Lianguo,et al.Genetic analysis of low resistivity in Yan 9 reservoir of Yanwu Oilfield,Ordos Basin[J].Fault-Block Oil & Gas Field,2021,28(4):498-503. |