朱维耀等：中国致密油藏开发理论研究进展 ·1113· [44]Dong H E,Zhang HJ,Yao S L,et al.Measurement and evalua- (沈安琪，刘义坤，邱晓惠，等。表面活性剂提高致密油藏渗 tion of the stress sensitivity in tight reservoirs.Petrol Explor Dev, 吸采收率研究.油田化学，2016,33(4)：696) 2016,43(6):1022 [56]Su Y B,Lin G Y,Han Y.Influence of surfactant on spontaneous (窦宏恩，张虎俊，姚尚林，等.致密储集层岩石应力敏感性 imbibition in tight sandstone reservoir and its application.Fault- 测试与评价方法.石油勘探与开发，2016,43(6)：1022) Block Oil Gas Field,2017,24(5):691 [45]Xiao W L,Li T,Li M,et al.Evaluation of the stress sensitivity (苏煜彬，林冠宇，韩悦.表面活性剂对致密砂岩储层自发 in tight reservoirs.Petrol Explor Dev,2016,43(1):107 渗吸驱油的影响.断块油气田.2017,24(5)：691) (肖文联，李滔，李闽，等.致密储集层应力敏感性评价.石 [57]Zhang X W,Guo H K,Li H B.Experimental study on imbibi- 油探勘与开发.2016,43(1)：107) tion oil displacement of tight oil reservoir using NMR technology. [46]Huan G R.A discussion of the mechanism of the displacement of Bull Sci Technol,2018,34(8):35 oil by water in a medium with double porosity.Petrol Explor Dev, (张新旺，郭和坤，李海波.基于核磁共振致密油储层渗吸 1982(1):48 驱油实验研究.科技通报，2018,34(8)：35) (桓冠仁.论双重介质两相驱替机理.石油勘探与开发， [58]Zhou W F,Wang X,Lu X G,et al.Effects of the dynamic imbi- 1982(1):48) bition recovery and its influencing factors for the tight oil reser- [47]Yin D.Numerical simulation method for single well water cone of voirs.Petrol Geol Oilfield Dev Daqing,2017.36(3):148 double porosity medium.Petrol Explor Dev,1981(1):68 (周万富，王鑫，卢祥国，等.致密油储层动态渗吸采油效果 (尹定.双重孔隙介质单井水锥数值模拟方法.石油勘探与 及其影响因素.大庆石油地质与开发，2017,36(3)：148) 开发，1981(1)：68) [59]Wang Q G,Wang TT,Chen Y,et al.Effect of static imbibition [48]Zhu W Y,Ju Y,Zhao M,et al.Spontancous imbibition mecha- recovery and its influencing factors in Fuyu reservoir of Daqing nism of flow through porous media and water flooding in low-per- oilfield.Oilfield Chem,2018,35(2):308 meability fractured sandstone reservoir.Acta Petrol Sin,2002, (王庆国，王婷婷，陈阳，等.大庆扶余油层静态渗吸采油效 33(6):56 果及其影响因素.油田化学，2018,35(2)：308) (朱维耀，鞠岩，赵明，等.低渗透裂缝性砂岩油藏多孔介质 [60]Wu Z B,Zeng Q,Li J,et al.New effective energy-supplement 渗吸机理研究.石油学报，2002,33(6)：56) development method of waterflood huff and puff for the oil reser- [49]Wang J L,Liu Y Z,Chen M Q,et al.Experimental study on dy- voir with stimulated reservoir volume fracturing.Petrol Geol Recov namic imbibition mechanism of low permeability reservoirs.Petrol Efficiency,2017,24(5):78 Explor Dev,2009,36(1):86 (吴忠宝，曾倩，李锦，等.体积改造油藏注水吞吐有效补充 (王家禄，刘玉章，陈茂谦，等.低渗透油藏裂缝动态渗吸机 地层能量开发的新方式.油气地质与采收率，2017,24(5)： 理实验研究.石油勘探与开发，2009,36(1)：86) 78) [50]DuPrey L.Gravity and capillary effects during imbibition.SPE [61]Su Y L,Han X H,Wang W D,et al.Production capacity pre- J,1978,18(6):927 diction model for multi-stage fractured horizontal well coupled [51]Li K W,Home R N.Characterization of spontaneous water imbi- with imbibition in tight oil reservoir.J Shenzhen Unig Sci Eng, bition into gas-saturated rocks.SPE J,2001,6(4):375 2018,35(4):345 [52]Qu X F,Lei Q H,Gao W B,et al.Experimental study on imbi- (苏玉亮，韩秀虹，王文东，等.致密油体积压裂耦合渗吸产 bition of Chang7 tight oil cores in Erdos Basin.J China Univ Pe- 能预测模型.深圳大学学报：理工版，2018,35(4)：345) troleum Ed Nat Sci,2018,42(2):102 [62]Wei Y,Ran QQ,Tong M,et al.A full cycle productivity pre- (屈雪峰，雷启鸿，高武斌，等.鄂尔多斯盆地长7致密油储 diction model of fractured horizontal well in tight oil reservoirs.J 层岩心渗吸试验.中国石油大学学报：自然科学版，2018， Southwest Petrol Univ Sci Technol Ed,2016,38(1):99 42(2):102) (魏漪，冉启全，童敏，等.致密油压裂水平井全周期产能预 [53]Gu X Y,Pu C S,Huang H,et al.Micro-influencing mechanism 测模型.西南石油大学学报：自然科学版，2016,38(1)：99) of permeability on spontaneous imbibition recovery for tight sand- [63]Hao M Q.Wang X D,Hu Y L.Productivity calculation of multi- stone reservoirs.Petrol Explor Dev,2017,44(6):948 fractured horizontal well in ultra-low permeability pressure-sensi- (谷潇雨，蒲春生，黄海，等。渗透率对致密砂岩储集层渗吸 tive reservoirs.J China Univ Petrol Ed Nat Sci,2011,35(6): 采油的微观影响机制.石油勘探与开发，2017,44(6)：948) 99 [54]Wang X Y.Yang Z M,Liu X W,et al.Physical simulation ex- (郝明强，王晓冬，胡永乐.压敏性特低渗透油藏压裂水平 periment investigation on large scale model using countercurrent 并产能计算.中国石油大学学报：自然科学版，2011,35 imbibition in tight oil reservoirs.Sci Technol Eng,2018,18 (6):99) (8):43 [64]Yao J,Yin XX,Fan D Y,et al.Trilinear-flow well test model (王向阳，杨正明，刘学伟，等.致密油藏大模型逆向渗吸的 of fractured horizontal well in low permeability reservoir.Well 物理模拟实验研究.科学技术与工程，2018,18(8)：43) Test,2011,20(5):1 [55]Shen A Q,Liu Y K.Qiu X H,et al.Improvement of spontane- (姚军，殷修杏，樊冬艳，等.低渗透油藏的压裂水平井三线 ous imbibition oil recovery in tight oil reservoir by surfactants. 性流试井模型.油气并测试，2011,20(5)：1) 0 ilfield Chem,2016,33(4):696 [65]Wang Z P,Zhu W Y,Yue M,et al.A method to predict the朱维耀等: 中国致密油藏开发理论研究进展 [44] Dong H E, Zhang H J, Yao S L, et al. Measurement and evalua鄄 tion of the stress sensitivity in tight reservoirs. Petrol Explor Dev, 2016, 43(6): 1022 (窦宏恩, 张虎俊, 姚尚林, 等. 致密储集层岩石应力敏感性 测试与评价方法. 石油勘探与开发, 2016, 43(6): 1022) [45] Xiao W L, Li T, Li M, et al. Evaluation of the stress sensitivity in tight reservoirs. Petrol Explor Dev, 2016, 43(1): 107 (肖文联, 李滔, 李闽, 等. 致密储集层应力敏感性评价. 石 油探勘与开发, 2016, 43(1): 107) [46] Huan G R. A discussion of the mechanism of the displacement of oil by water in a medium with double porosity. Petrol Explor Dev, 1982(1): 48 (桓冠仁. 论双重介质两相驱替机理. 石油勘探与开发, 1982(1): 48) [47] Yin D. Numerical simulation method for single well water cone of double porosity medium. Petrol Explor Dev, 1981(1): 68 (尹定. 双重孔隙介质单井水锥数值模拟方法. 石油勘探与 开发, 1981(1): 68) [48] Zhu W Y, Ju Y, Zhao M, et al. Spontaneous imbibition mecha鄄 nism of flow through porous media and water flooding in low鄄per鄄 meability fractured sandstone reservoir. Acta Petrol Sin, 2002, 33(6): 56 (朱维耀, 鞠岩, 赵明, 等. 低渗透裂缝性砂岩油藏多孔介质 渗吸机理研究. 石油学报, 2002, 33(6): 56) [49] Wang J L, Liu Y Z, Chen M Q, et al. Experimental study on dy鄄 namic imbibition mechanism of low permeability reservoirs. Petrol Explor Dev, 2009, 36(1): 86 (王家禄, 刘玉章, 陈茂谦, 等. 低渗透油藏裂缝动态渗吸机 理实验研究. 石油勘探与开发, 2009, 36(1): 86) [50] DuPrey L. Gravity and capillary effects during imbibition. SPE J, 1978, 18(6): 927 [51] Li K W, Horne R N. Characterization of spontaneous water imbi鄄 bition into gas鄄saturated rocks. SPE J, 2001, 6(4): 375 [52] Qu X F, Lei Q H, Gao W B, et al. Experimental study on imbi鄄 bition of Chang7 tight oil cores in Erdos Basin. J China Univ Pe鄄 troleum Ed Nat Sci, 2018, 42(2): 102 (屈雪峰, 雷启鸿, 高武斌, 等. 鄂尔多斯盆地长 7 致密油储 层岩心渗吸试验. 中国石油大学学报: 自然科学版, 2018, 42(2): 102) [53] Gu X Y, Pu C S, Huang H, et al. Micro鄄influencing mechanism of permeability on spontaneous imbibition recovery for tight sand鄄 stone reservoirs. Petrol Explor Dev, 2017, 44(6): 948 (谷潇雨, 蒲春生, 黄海, 等. 渗透率对致密砂岩储集层渗吸 采油的微观影响机制. 石油勘探与开发, 2017, 44(6): 948) [54] Wang X Y, Yang Z M, Liu X W, et al. Physical simulation ex鄄 periment investigation on large scale model using countercurrent imbibition in tight oil reservoirs. Sci Technol Eng, 2018, 18 (8): 43 (王向阳, 杨正明, 刘学伟, 等. 致密油藏大模型逆向渗吸的 物理模拟实验研究. 科学技术与工程, 2018, 18(8): 43) [55] Shen A Q, Liu Y K, Qiu X H, et al. Improvement of spontane鄄 ous imbibition oil recovery in tight oil reservoir by surfactants. Oilfield Chem, 2016, 33(4): 696 (沈安琪, 刘义坤, 邱晓惠, 等. 表面活性剂提高致密油藏渗 吸采收率研究. 油田化学, 2016, 33(4): 696) [56] Su Y B, Lin G Y, Han Y. Influence of surfactant on spontaneous imbibition in tight sandstone reservoir and its application. Fault鄄 Block Oil Gas Field, 2017, 24(5): 691 (苏煜彬, 林冠宇, 韩悦. 表面活性剂对致密砂岩储层自发 渗吸驱油的影响. 断块油气田, 2017, 24(5): 691) [57] Zhang X W, Guo H K, Li H B. Experimental study on imbibi鄄 tion oil displacement of tight oil reservoir using NMR technology. Bull Sci Technol, 2018, 34(8): 35 (张新旺, 郭和坤, 李海波. 基于核磁共振致密油储层渗吸 驱油实验研究. 科技通报, 2018, 34(8): 35) [58] Zhou W F, Wang X, Lu X G, et al. Effects of the dynamic imbi鄄 bition recovery and its influencing factors for the tight oil reser鄄 voirs. Petrol Geol Oilfield Dev Daqing, 2017, 36(3): 148 (周万富, 王鑫, 卢祥国, 等. 致密油储层动态渗吸采油效果 及其影响因素. 大庆石油地质与开发, 2017, 36(3): 148) [59] Wang Q G, Wang T T, Chen Y, et al. Effect of static imbibition recovery and its influencing factors in Fuyu reservoir of Daqing oilfield. Oilfield Chem, 2018, 35(2): 308 (王庆国, 王婷婷, 陈阳, 等. 大庆扶余油层静态渗吸采油效 果及其影响因素. 油田化学, 2018, 35(2): 308) [60] Wu Z B, Zeng Q, Li J, et al. New effective energy鄄supplement development method of waterflood huff and puff for the oil reser鄄 voir with stimulated reservoir volume fracturing. Petrol Geol Recov Efficiency, 2017, 24(5): 78 (吴忠宝, 曾倩, 李锦, 等. 体积改造油藏注水吞吐有效补充 地层能量开发的新方式. 油气地质与采收率, 2017, 24(5): 78) [61] Su Y L, Han X H, Wang W D, et al. Production capacity pre鄄 diction model for multi鄄stage fractured horizontal well coupled with imbibition in tight oil reservoir. J Shenzhen Univ Sci Eng, 2018, 35(4): 345 (苏玉亮, 韩秀虹, 王文东, 等. 致密油体积压裂耦合渗吸产 能预测模型. 深圳大学学报: 理工版, 2018, 35(4): 345) [62] Wei Y, Ran Q Q, Tong M, et al. A full cycle productivity pre鄄 diction model of fractured horizontal well in tight oil reservoirs. J Southwest Petrol Univ Sci Technol Ed, 2016, 38(1): 99 (魏漪, 冉启全, 童敏, 等. 致密油压裂水平井全周期产能预 测模型. 西南石油大学学报:自然科学版, 2016, 38(1): 99) [63] Hao M Q, Wang X D, Hu Y L. Productivity calculation of multi鄄 fractured horizontal well in ultra鄄low permeability pressure鄄sensi鄄 tive reservoirs. J China Univ Petrol Ed Nat Sci, 2011, 35(6): 99 (郝明强, 王晓冬, 胡永乐. 压敏性特低渗透油藏压裂水平 井产能计算. 中国石油大学学报: 自然科学版, 2011, 35 (6): 99) [64] Yao J, Yin X X, Fan D Y, et al. Trilinear鄄flow well test model of fractured horizontal well in low permeability reservoir. Well Test, 2011, 20(5): 1 (姚军, 殷修杏, 樊冬艳, 等. 低渗透油藏的压裂水平井三线 性流试井模型. 油气井测试, 2011, 20(5): 1) [65] Wang Z P, Zhu W Y, Yue M, et al. A method to predict the ·1113·