[1] VAN POOLLEN H K.Fundamentals of enhanced oil recovery[M].Tulsa:PennWell Books,1980. [2] 康毅力,田键,罗平亚,等.致密油藏提高采收率技术瓶颈与发展策略[J].石油学报,2020,41(4):467-477. KANG Yili,TIAN Jian,LUO Pingya,et al.Technical bottlenecks and development strategies of enhancing recovery for tight oil reservoirs[J].Acta Petrolei Sinica,2020,41(4):467-477. [3] LU Jun,LIYANAGE P J,SOLAIRAJ S,et al.New surfactant developments for chemical enhanced oil recovery[J].Journal of Petroleum Science and Engineering,2014,120:94-101. [4] HIRASAKI G J,MILLER C A,PUERTO M.Recent advances in surfactant EOR[J].SPE Journal,2011,16(4):889-907. [5] ALZAHID Y A,MOSTAGHIMI P,WALSH S D C,et al.Flow regimes during surfactant flooding:the influence of phase behaviour[J].Fuel,2019,236:851-860. [6] 李相方,冯东,张涛,等.毛细管力在非常规油气藏开发中的作用及应用[J].石油学报,2020,41(12):1719-1733. LI Xiangfang,FENG Dong,ZHANG Tao,et al.The role and its application of capillary force in the development of unconventional oil and gas reservoirs and its application[J].Acta Petrolei Sinica,2020,41(12):1719-1733. [7] 黄兴,窦亮彬,左雄娣,等.致密油藏裂缝动态渗吸排驱规律[J].石油学报,2021,42(7):924-935. HUANG Xing,DOU Liangbin,ZUO Xiongdi,et al.Dynamic imbibition and drainage laws of factures in tight reservoirs[J].Acta Petrolei Sinica,2021,42(7):924-935. [8] 王付勇,曾繁超,赵久玉.低渗透/致密油藏驱替-渗吸数学模型及其应用[J].石油学报,2020,41(11):1396-1405. WANG Fuyong,ZENG Fanchao,ZHAO Jiuyu.A mathematical model of displacement and imbibition of low-permeability/tight reservoirs and its application[J].Acta Petrolei Sinica,2020,41(11):1396-1405. [9] CHATENEVER A,CALHOUN JR J C.Visual examinations of fluid behavior in porous media-part I[J].Journal of Petroleum Technology,1952,4(6):149-156. [10] 郭尚平,黄延章,周娟,等.物理化学渗流:微观机理[M].北京:科学出版社,1990. GUO Shangping,HUANG Yanzhang,ZHOU Juan,et al.The microscopic mechanism of physical chemistry percolation[M].Beijing:Science Press,1990. [11] MATTAX C C,KYTE J R.Ever see a water flood[J].Oil and Gas Journal,1961,59(115):115-128. [12] CHILDRESS G.A microvisual study of initial displacement of residual hydrocarbons[D].Austin:University of Texas,1975. [13] LENORMAND R,TOUBOUL E,ZARCONE C.Numerical models and experiments on immiscible displacements in porous media[J].Journal of Fluid Mechanics,1988,189:165-187. [14] JAMALOEI B Y,KHARRAT R.Analysis of microscopic displacement mechanisms of dilute surfactant flooding in oil-wet and water-wet porous media[J].Transport in Porous Media,2010,81(1):1. [15] BAO B,RIORDON J,XU Y,et al.Direct measurement of the fluid phase diagram[J].Analytical Chemistry,2016,88(14):6986-6989. [16] 鲍博,赵双良,徐建鸿.基于微纳流控技术的流体相态特性研究进展[J].化工学报,2018,69(11):4530-4541. BAO Bo,ZHAO Shuangliang,XU Jianhong.Progress in studying fluid phase behaviours with micro-and nano-fluidic technology[J].CIESC Journal,2018,69(11):4530-4541. [17] BAO Bo,ZANDAVI S H,LI Huawei,et al.Bubble nucleation and growth in nanochannels[J].Physical Chemistry Chemical Physics, 2017,19(12):8223-8229. [18] BAO Bo,RIORDON J,MOSTOWFI F,et al.Microfluidic and nanofluidic phase behaviour characterization for industrial CO2,oil and gas[J]. Lab on a Chip,2017,17(16):2740-2759. [19] BAO Bo,SANDERS A,REN G,et al.Rapid microfluidic analysis of thermal foam stability at 250 degrees Celsius[R].SPE 188895,2017. [20] BAO Bo,ZHAO Shuangliang.A review of experimental nanofluidic studies on shale fluid phase and transport behaviors[J].Journal of Natural Gas Science and Engineering,2020,86:103745. [21] 李俊键,苏航,姜汉桥,等.微流控模型在油气田开发中的应用[J].石油科学通报,2018,3(3):284-301. LI Junjian,SU Hang,JIANG Hanqiao,et al.Application of microfluidic models in oil and gas field development[J].Petroleum Science Bulletin,2018,3(3):284-301. [22] GAO Kexin,CUI Rubing,FAN Yiqiang,et al.Low-cost pyrophyllite-based microfluidic device for the study of enhanced oil recovery[J].Micro & Nano Letters,2019,14(13):1349-1354. [23] QI Zhenbang,XU Lining,XU Yi,et al.Disposable silicon-glass microfluidic devices:precise,robust and cheap[J].Lab on a Chip,2018,18(24):3872-3880. [24] WEGNER J,GANZER L.Rock-on-a-chip devices for high p,T conditions and wettability control for the screening of EOR chemicals[R].SPE 185820,2017:14. [25] LEE H,LEE S G,DOYLE P S.Photopatterned oil-reservoir micromodels with tailored wetting properties[J].Lab on a Chip,2015,15(14):3047-3055. [26] YUN W,CHANG S,COGSWELL D A,et al.Toward reservoir-on-a-chip:rapid performance evaluation of enhanced oil recovery surfactants for carbonate reservoirs using a calcite-coated micromodel[J].Scientific Reports,2020,10(1):782. [27] ZHANG Y Q,SANATI-NEZHAD A,HEJAZI S H.Geo-material surface modification of microchips using layer-by-layer (LbL)assembly for subsurface energy and environmental applications[J].Lab on a Chip,2018,18(2):285-295. [28] YU Fuwei,JIANG Hanqiao,XU Fei,et al.New insights into flow physics in the EOR process based on 2.5 D reservoir micromodels[J].Journal of Petroleum Science and Engineering,2019,181:106214. [29] 史胜龙,汪庐山,靳彦欣,等.乳状液体系在驱油和调剖堵水中的应用进展[J].油田化学,2014,31(1):141-145. SHI Shenglong,WANG Lushan,JIN Yanxin,et al.Application progress and developmental tendency of emulsion system used in flooding,profile control and water plugging[J].Oilfield Chemistry,2014,31(1):141-145. [30] XU Ke,LIANG Tianbo,ZHU Peixi,et al.A 2.5-D glass micromodel for investigation of multi-phase flow in porous media[J].Lab on a Chip,2017,17(4):640-646. [31] 郭华.微乳液驱油技术强化石油采收率的研究进展[J].山东化工,2016,45(9):63-65. GUO Hua.Review of the microemulsion flooding to enhanced oil recovery[J].Shandong Chemical Industry,2016,45(9):63-65. [32] PAL S,MUSHTAQ M,BANAT F,et al.Review of surfactant-assisted chemical enhanced oil recovery for carbonate reservoirs:challenges and future perspectives[J].Petroleum Science,2018,15(1):77-102. [33] HOWE A M M,CLARKE A,MITCHELL J,et al.Visualising surfactant EOR in core plugs and micromodels[R].SPE 174643,2015. [34] BROENS M,UNSAL E.Emulsification kinetics during quasi-miscible flow in dead-end pores[J].Advances in Water Resources,2018,113:13-22. [35] UNSAL E,BROENS M,ARMSTRONG R T.Pore scale dynamics of microemulsion formation[J].Langmuir,2016,32(28):7096-7108. [36] UNSAL E,BROENS M,BUIJSE M,et al.Visualization of in situ microemulsion phase[R].SPE 174651,2015. [37] TAGAVIFAR M,XU Ke,JANG S H,et al.Spontaneous and flow-driven interfacial phase change:dynamics of microemulsion formation at the pore scale[J].Langmuir,2017,33(45):13077-13086. [38] RUSCHAK K J,MILLER C A.Spontaneous emulsification in ternary systems with mass transfer[J].Journal of Industrial and Engineering Chemistry,1972,11(4):534-540. [39] MILLER C A.Spontaneous emulsification produced by diffusion-a review[J]. Colloids and Surfaces,1988,29(1):89-102. [40] 罗莉涛,廖广志,刘卫东,等.Marangoni对流启动残余油微观机理[J].石油学报,2015,36(9):1127-1134. LUO Litao,LIAO Guangzhi,LIU Weidong,et al.Micromechanism of residual oil mobilization by Marangoni convection[J].Acta Petrolei Sinica,2015,36(9):1127-1134. [41] 李爱芬.油层物理学[M].3版.东营:中国石油大学出版社,2011. LI Aifen.Reservoir physics[M].3rd ed.Dongying:China University of Petroleum Press,2011. [42] GUILLEN V R,CARVALHO M S,ALVARADO V.Pore scale and macroscopic displacement mechanisms in emulsion flooding[J].Transport in Porous Media,2012,94(1):197-206. [43] KARAMBEIGI M S,ABBASSI R,ROAYAEI E,et al.Emulsion flooding for enhanced oil recovery:interactive optimization of phase behavior,microvisual and core-flood experiments[J].Journal of Industrial and Engineering Chemistry,2015,29:382-391. [44] COBOS S,CARVALHO M S,ALVARADO V.Flow of oil-water emulsions through a constricted capillary[J].International Journal of Multiphase Flow,2009,35(6):507-515. [45] MCAULIFFE C D.Crude-oil-water emulsions to improve fluid flow in an oil reservoir[J].Journal of Petroleum Technology,1973:25(6):721-726. [46] MCAULIFFE C D.Oil-in-water emulsions and their flow properties in porous media[J].Journal of Petroleum Technology,1973,25(6):727-733. [47] SOO R,RADKE C J.Flow mechanism of dilute,stable emulsions in porous media[J].Journal of Industrial and Engineering Chemistry,1984,23(3):342-347. [48] 蒲春生,郑恒,杨兆平,等.水平井分段体积压裂复杂裂缝形成机制研究现状与发展趋势[J].石油学报,2020,41(12):1734-1743. PU Chunsheng,ZHENG Heng,YANG Zhaoping,et al.Research status and development trend of the formation mechanism of complex fractures by staged volume fracturing in horizontal wells[J].Acta Petrolei Sinica,2020,41(12):1734-1743. [49] REN G,ABEDINI A,YANG H,et al.Visualization of flowback aid mechanisms utilizing a microfluidic pore-scale device[R].SPE 199269,2020. [50] 梁天博,马实英,魏东亚,等.低渗透油藏水锁机理与助排表面活性剂的优选原则[J].石油学报,2020,41(6):745-752. LIANG Tianbo,MA Shiying,WEI Dongya,et al.Water blocking mechanism of low-permeability reservoirs and screening principle of flowback surfactants[J].Acta Petrolei Sinica,2020,41(6):745-752. [51] LIANG Tianbo,XU Ke,LU Jun,et al.Evaluating the performance of surfactants in enhancing flowback and permeability after hydraulic fracturing through a microfluidic model[J].SPE Journal,2020,25(1):268-287. [52] YU Fuwei,JIANG Hanqiao,FAN Zhen,et al.Formation and flow behaviors of in situ emulsions in heavy oil reservoirs[J].Energy & Fuels, 2019,33(7):5961-5970. [53] ZHAO Benzhong,MACMINN C W,JUANES R.Wettability control on multiphase flow in patterned microfluidics[J].Proceedings of the National Academy of Sciences of the United States of America,2016,113(37):10251-10256. [54] CIEPLAK M,ROBBINS M O.Influence of contact angle on quasistatic fluid invasion of porous media[J].Physical Review B,1990,41(16):11508. [55] 王大威,刘永建,杨振宇,等.脂肽生物表面活性剂在微生物采油中的应用[J].石油学报,2008,29(1):111-115. WANG Dawei,LIU Yongjian,YANG Zhenyu,et al.Application of surfactin in microbial enhanced oil recovery[J].Acta Petrolei Sinica,2008,29(1):111-115. [56] SEO S,MASTIANI M,MOSAVATI B,et al.Performance evaluation of environmentally benign nonionic biosurfactant for enhanced oil recovery[J].Fuel,2018,234:48-55. [57] NEGM N A,AHMED S A,BADR E A,et al.Synthesis and evaluation of nonionic surfactants derived from tannic acid as corrosion inhibitors for carbon steel in acidic medium[J].Journal of Surfactants and Detergents,2015,18(6):989-1001. [58] AHMADI M A,ARABSAHEBI Y,SHADIZADEH S R,et al.Preliminary evaluation of mulberry leaf-derived surfactant on interfacial tension in an oil-aqueous system:EOR application[J].Fuel,2014,117:749-755. [59] RAVI S G,SHADIZADEH S R,MOGHADDASI J.Core flooding tests to investigate the effects of IFT reduction and wettability alteration on oil recovery:using mulberry leaf extract[J].Petroleum Science and Technology,2015,33(3):257-264. [60] MOSLEMIZADEH A,DEHKORDI A F,BARNAJI M J,et al.Novel bio-based surfactant for chemical enhanced oil recovery in montmorillonite rich reservoirs:adsorption behavior,interaction impact,and oil recovery studies[J].Chemical Engineering Research and Design,2016,109:18-31. |