Acta Petrolei Sinica ›› 2022, Vol. 43 ›› Issue (9): 1334-1350.DOI: 10.7623/syxb202209012
• REVIEW • Previous Articles Next Articles
Sun Jinsheng1,2, Yang Jingbin1, Bai Yingrui1, Lü Kaihe1, Cheng Rongchao2, Jiang Guancheng3, Hao Huijun2, Zhang Jie2
Received:
2021-11-15
Revised:
2022-04-22
Published:
2022-10-08
孙金声1,2, 杨景斌1, 白英睿1, 吕开河1, 程荣超2, 蒋官澄3, 郝惠军2, 张洁2
通讯作者:
孙金声,男,1965年1月生,2006年获西南石油大学博士学位,现为中国工程院院士、中国石油大学(华东)博士生导师、中国石油集团工程技术研究院有限公司总工程师,主要从事钻井液、防漏堵漏、井壁稳定、天然气水合物钻采理论与技术等研究工作。
作者简介:
孙金声,男,1965年1月生,2006年获西南石油大学博士学位,现为中国工程院院士、中国石油大学(华东)博士生导师、中国石油集团工程技术研究院有限公司总工程师,主要从事钻井液、防漏堵漏、井壁稳定、天然气水合物钻采理论与技术等研究工作。Email:sunjsdri@cnpc.com.cn
基金资助:
CLC Number:
Sun Jinsheng, Yang Jingbin, Bai Yingrui, Lü Kaihe, Cheng Rongchao, Jiang Guancheng, Hao Huijun, Zhang Jie. Formation mechanism of supramolecular gel and its application status and prospect in the field of oil and gas drilling and production engineering[J]. Acta Petrolei Sinica, 2022, 43(9): 1334-1350.
孙金声, 杨景斌, 白英睿, 吕开河, 程荣超, 蒋官澄, 郝惠军, 张洁. 超分子凝胶形成机理及其在油气钻采工程领域应用现状和前景[J]. 石油学报, 2022, 43(9): 1334-1350.
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[1] LI Liangchun,SUN Rongqin,ZHENG Renlin,et al. Anions-responsive supramolecular gels:a review[J].Materials&Design,2021,205:109759. [2] 王秀凤,张莉,刘鸣华.超分子凝胶:结构多样性与超分子手性[J].物理化学学报,2016,32(1):227-238. WANG Xiufeng,ZHANG Li,LIU Minghua.Supramolecular gels:structural diversity and supramolecular chirality[J].Acta Physico-Chimica Sinica,2016,32(1):227-238. [3] 成梦娇,张倩,石峰.宏观超分子组装——超分子材料制备新理念[J].中国科学:化学,2017,47(7):816-829. CHENG Mengjiao,ZHANG Qian,SHI Feng.Macroscopic supramolecular assembly:new concept for the fabrication of supramolecular materials[J].Cientia Sinica Chimica,2017,47(7):816-829. [4] LIANG Liwei,SUN Na,YU Yang,et al.Photoluminescent polymer hydrogels with stimuli-responsiveness constructed from Eu-containing polyoxometalate and imidazolium zwitterions[J].Soft Matter,2020,16(9):2311-2320. [5] SHAO Changyou,MENG Lei,CUI Chen,et al.An integrated self-healable and robust conductive hydrogel for dynamically self-adhesive and highly conformable electronic skin[J].Journal of Materials Chemistry C,2019,7(48):15208-15218. [6] HAN Ying,MENG Zheng,MA Yingxian,et al.Iptycene-derived crown ether hosts for molecular recognition and self-assembly[J].Accounts of Chemical Research,2014,47(7):2026-2040. [7] SUTAR P,MAJI T K.Recent advances in coordination-driven polymeric gel materials:design and applications[J].Dalton Transactions,2020,49(23):7658-7672. [8] 简钰坤,路伟,张佳玮,等.超分子形状记忆水凝胶研究进展[J].高分子学报,2018(11):1385-1399. JIAN Yukun,LU Wei,ZHANG Jiawei,et al.Research progress in supramolecular shape memory hydrogels[J].Acta Polymerica Sinica,2018(11):1385-1399. [9] 李旋,蒋瑶,谢千秋,等.超分子水凝胶材料研究进展[J].应用化工,2019,48(5):1140-1145. LI Xuan,JIANG Yao,XIE Qianqiu,et al.Progress in supramolecular hydrogel materials[J].Applied Chemical Industry,2019,48(5):1140-1145. [10] 邢蕊蕊,邹千里,闫学海.肽基超分子胶体[J].物理化学学报,2020,36(10):1909048. XING Ruirui,ZOU Qianli,YAN Xuehai.Peptide-based supramolecular colloids[J]. Acta Physico-Chimica Sinica,2020,36(10):1909048. [11] 孙金声,白英睿,程荣超,等.裂缝性恶性井漏地层堵漏技术研究进展与展望[J].石油勘探与开发,2021,48(3):630-638. SUN Jinsheng,BAI Yingrui,CHENG Rongchao,et al.Research progress and prospect of plugging technologies for fractured formation with severe lost circulation[J].Petroleum Exploration and Development,2021,48(3):630-638. [12] 蒋官澄,王凯,贺垠博,等.基于超分子化学的钻井液新技术[J].中国石油大学学报:自然科学版,2020,44(4):111-120. JIANG Guancheng,WANG Kai,He Yinbo,et al.A new drilling fluid technology based on supramolecular chemistry[J].Journal of China University of Petroleum,2020,44(4):111-120. [13] JIANG Qihui,JIANG Guancheng,WANG Chunlei,et al.A new high-temperature shear-tolerant supramolecular viscoelastic fracturing fluid[R].SPE 180595,2016. [14] YEGIN C,TEMIZEL C,YEGIN Y,et al.Improving reservoir conformance control through next-generation supramolecular gelators and their use in hydraulic fracturing[R].SPE 188997,2017. [15] 蒋红艳,张映,崔涛,等.超分子有机凝胶在离子识别中的研究进展[J].化工设计通讯,2020,46(7):123-124. JIANG Hongyan,ZHANG Ying,CUI Tao,et al.Research progress of supramolecular organogels in ion recognition[J].Chemical Engineering Design Communications,2020,46(7):123-124. [16] 王天宇,沈兆存,刘鸣华.超分子聚合物凝胶[J].高分子学报,2017(1):50-62. WANG Tianyu,SHEN Zhaocun,LIU Minghua.Supramolecular polymer gels[J].Acta Polymerica Sinica,2017(1):50-62. [17] MANN J L,YU A C,AGMON G,et al.Supramolecular polymeric biomaterials[J].Biomaterials Science,2018,6(1):10-37. [18] KIELTYKA R E,PAPE A C H,ALBERTAZZI L,et al.Mesoscale modulation of supramolecular ureidopyrimidinone-based poly (ethylene glycol) transient networks in water[J].Journal of the American Chemical Society,2013,135(30):11159-11164. [19] CUI Yulin,TAN Mei,ZHU Aidi,et al.Mechanically strong and stretchable PEG-based supramolecular hydrogel with water-responsive shape-memory property[J].Journal of Materials Chemistry B,2014,2(20):2978-2982. [20] GUO Mingyu,PITET L M,WYSS H M,et al.Tough stimuli-responsive supramolecular hydrogels with hydrogen-bonding network junctions[J].Journal of the American Chemical Society,2014,136(19):6969-6977. [21] 林乃波,林友辉,黄巧玲,等.超分子凝胶与介观结构[J].物理学报,2016,65(17):174702. LIN Naibo,LIN Youhui,HUANG Qiaoling,et al.Supramolecular gels and mesoscopic structure[J].Acta Physica Sinica,2016,65(17):174702. [22] REST C,MAYORAL M J,FUCKE K,et al.Self-assembly and (Hydro) gelation triggered by cooperative π-π and unconventional CHX hydrogen bonding interactions[J].Angewandte Chemie International Edition,2014,53(3):700-705. [23] 赵倩,李盛华,刘育.环糊精超分子凝胶的构筑及其功能[J].化学进展,2018,30(5):673-683. ZHAO Qian,LI Shenghua,LIU Yu.Construction and functions of supramolecular cyclodextrin gels[J].Progress in Chemistry,2018,30(5):673-683. [24] 马明放,栾天翔,邢鹏遥,等.基于β-环糊精的有机小分子凝胶[J].化学进展,2019,31(2/3):225-235. MA Mingfang,LUAN Tianxiang,XING Pengyao,et al.Low molecular weight organic compound gel based on β-cyclodextrin[J].Progress in Chemistry,2019,31(2/3):225-235. [25] CHEN Yanan,PENG Lufang,LIU Tianqi,et al.Poly (vinyl alcohol)-Tannic acid hydrogels with excellent mechanical properties and shape memory behaviors[J].ACS Applied Materials&Interfaces,2016,8(40):27199-27206. [26] HU Xiaobo,ZHOU Jing,VATANKHAH-VARNOSFADERANI M,et al.Programming temporal shapeshifting[J].Nature Communications,2016,7(1):12919. [27] XU Bing,ZHANG Yinyu,LIU Wenguang.Hydrogen-bonding toughened hydrogels and emerging CO2-responsive shape memory effect[J].Macromolecular Rapid Communications,2015,36(17):1585-1591. [28] GUO Weiwei,LU Chunhua,ORBACH R,et al.pH-stimulated DNA hydrogels exhibiting shape-memory properties[J].Advanced Materials,2015,27(1):73-78. [29] 康万利,李梦栏,康鑫,等.两亲聚合物设计合成及其增效体系研究(Ⅴ)——静电作用[J].日用化学工业,2020,50(5):292-298. KANG Wanli,LI Menglan,KANG Xin,et al.Study on the design and synthesis of amphiphilic polymers and their synergistic systems (Ⅴ):electrostatic interaction[J].China Surfactant Detergent&Cosmetics,2020,50(5):292-298. [30] 沈家骢,孙俊奇.超分子科学研究进展[J].中国科学院院刊,2004,19(6):420-424. SHEN Jiacong,SUN Junqi.Research development of supramolacular science[J].Bulletin of the Chinese Academy of Sciences,2004,19(6):420-424. [31] FICHMAN G,GAZIT E.Self-assembly of short peptides to form hydrogels:design of building blocks,physical properties and technological applications[J].Acta Biomaterialia,2014,10(4):1671-1682. [32] WANG Juan,SHEN Guizhi,MA Kai,et al.Dipeptide concave nanospheres based on interfacially controlled self-assembly:from crescent to solid[J].Physical Chemistry Chemical Physics,2016,18(45):30926-30930. [33] YANG Mengyao,XING Ruirui,SHEN Guizhi,et al.A versatile cyclic dipeptide hydrogelator:self-assembly and rheology in various physiological conditions[J].Colloids and Surfaces A:Physicochemical and Engineering Aspects,2019,572:259-265. [34] SMITH A M,WILLIAMS R J,TANG C,et al.Fmoc-diphenylalanine self assembles to a hydrogel via a novel architecture based on π-π interlocked β-sheets[J].Advanced Materials,2008,20(1):37-41. [35] XIAO Tangxin,XU Lixiang,ZHOU Ling,et al.Dynamic hydrogels mediated by macrocyclic host-guest interactions[J].Journal of Materials Chemistry B,2019,7(10):1526-1540. [36] DONG Shengyi,LUO Yan,YAN Xuzhou,et al.A dual-responsive supramolecular polymer gel formed by crown ether based molecular recognition[J].Angewandte Chemie International Edition,2011,50(8):1905-1909. [37] HUANG Zehuan,YANG Liulin,LIU Yiliu,et al.Supramolecular polymerization promoted and controlled through self-sorting[J].Angewandte Chemie International Edition,2014,53(21):5351-5355. [38] MA Xiang,TIAN He.Stimuli-responsive supramolecular polymers in aqueous solution[J].Accounts of Chemical Research,2014,47(7):1971-1981. [39] DONG Shengyi,ZHENG Bo,WANG Feng,et al.Supramolecular polymers constructed from macrocycle-based host-guest molecular recognition motifs[J].Accounts of Chemical Research,2014,47(7):1982-1994. [40] MANTOOTH S M,MUNOZ-ROBLES B G,WEBBER M J.Dynamic hydrogels from host-guest supramolecular interactions[J].Macromolecular Bioscience,2019,19(1):e1800281. [41] TAMESUE S,TAKASHIMA Y,YAMAGUCHI H,et al.Photoswitchable supramolecular hydrogels formed by cyclodextrins and azobenzene polymers[J].Angewandte Chemie International Edition,2010,49(41):7461-7464. [42] 陶杰,林翠玲,王兆龙,等.基于金属配位和主客体相互作用分级自组装构筑超分子凝胶[J].高分子学报,2017(1):93-100. TAO Jie,LIN Cuiling,WANG Zhaolong,et al.The construction of supramolecular polymer gel by hierarchical self-assembly via metal ligand and host-guest interactions[J].Acta Polymerica Sinica,2017(1):93-100. [43] 逯桃桃,刘娟,李辉,等.刺激响应型超分子凝胶[J].化学进展,2016,28(10):1541-1549. LU Taotao,LIU Juan,LI Hui,et al.Stimulus-responsive supramolecular gels[J].Progress in Chemistry,2016,28(10):1541-1549. [44] ZHANG Mingming,XU Donghua,YAN Xuzhou,et al.Self-healing supramolecular gels formed by crown ether based host-guest interactions[J].Angewandte Chemie International Edition,2012,51(28):7011-7015. [45] SINAWANG G,OSAKI M,TAKASHIMA Y,et al.Supramolecular self-healing materials from non-covalent cross-linking host-guest interactions[J].Chemical Communications,2020,56(32):4381-4395. [46] 贺有周,陈若霓,闫东,等.基于大环化合物主-客体作用的超分子聚合物凝胶材料研究进展[J].应用化工,2017,46(9):1801-1804. HE Youzhou,CHEN Ruoni,YAN Dong,et al.Progress in supramolecular polymer gels from macrocyclic compounds based on host-guest interactions[J].Applied Chemical Industry, 2017,46(9):1801-1804. [47] ZHANG Zhongxing,LIU K L,LI Jun.A thermoresponsive hydrogel formed from a star-star supramolecular architecture[J].Angewandte Chemie International Edition,2013,52(24):6180-6184. [48] 何晓燕,师文玉,韩慧敏,等.葫芦[n]脲超分子水凝胶的研究进展[J].化学通报,2021,84(7):669-679. HE Xiaoyan,SHI Wenyu,HAN Huimin,et al.Research progress in cucurbit[n]uril-based supramolecular hydrgels[J].Chemistry,2021,84(7):669-679. [49] 林友文,李立凡,李光文.基于葫芦[8] 脲主-客体作用的温度及pH敏感壳聚糖超分子凝胶制备与性能[J].化学学报,2012,70(21):2246-2250. LIN Youwen,LI Lifan,LI Guangwen.Preparation and properties of temperature and pH sensitive chitosan supramolecular gel based on host-guest interaction of cucurbit[8] uril[J].Acta Chimica Sinica,2012,70(21):2246-2250. [50] LI Zhongyu,ZHANG Yanyan,ZHANG Changwei,et al.Cross-linked supramolecular polymer gels constructed from discrete multi-pillar[5] arene metallacycles and their multiple stimuli-responsive behavior[J].Journal of the American Chemical Society,2014,136(24):8577-8589. [51] YANG Liulin,TAN Xinxin,WANG Zhiqiang,et al.Supramolecular polymers:historical development,preparation,characterization,and functions[J].Chemical Reviews,2015,115(15):7196-7239. [52] YANG Lipeng,ZHANG Guogao,ZHENG Ning,et al.A metallosupramolecular shape-memory polymer with gradient thermal plasticity[J]. Angewandte Chemie International Edition,2017,56(41):12599-12602. [53] 胡忠前,马喜平.超分子化学及其在油田化学中的应用[J].精细石油化工进展,2006,7(9):15-19. HU Zhongqian,MA Xiping.Supermolecular chemistry and its use in oil field chemistry[J].Advances in Fine Petrochemicals,2006,7(9):15-19. [54] OOI H W,KOCKEN J M M,MORGAN F L C,et al.Multivalency enables dynamic supramolecular host-guest hydrogel formation[J].Biomacromolecules,2020,21(6):2208-2217. [55] SHAO T,FALCONE N,KRAATZ H B.Supramolecular peptide gels:influencing properties by metal ion coordination and their wide-ranging applications[J].ACS Omega,2020,5(3):1312-1317. [56] KAWAMOTO K,GRINDY S C,LIU J,et al.Dual role for 1,2,4,5-tetrazines in polymer networks:combining diels-alder reactions and metal coordination to generate functional supramolecular gels[J].ACS Macro Letters,2015,4(4):458-461. [57] LIU Qingtao,WANG Yinglin,LI Wei,et al.Structural characterization and chemical response of a Ag-coordinated supramolecular gel[J].Langmuir,2007,23(15):8217-8223. [58] DAWN A,PAJOUBPONG J,MESMER A,et al.Manipulating assemblies in metallosupramolecular gels,driven by isomeric ligands,metal coordination,and adaptive binary gelator systems[J].Langmuir,2022,38(5):1705-1715. [59] LEWIS C L,DELL E M.A review of shape memory polymers bearing reversible binding groups[J].Journal of Polymer Science Part B:Polymer Physics,2016,54(14):1340-1364. [60] MIYAMAE K,NAKAHATA M,TAKASHIMA Y,et al.Self-healing,expansion-contraction,and shape-memory properties of a preorganized supramolecular hydrogel through host-guest interactions[J].Angewandte Chemie International Edition,2015,54(31):8984-8987. [61] 孙金声,雷少飞,白英睿,等.智能材料在钻井液堵漏领域研究进展和应用展望[J].中国石油大学学报:自然科学版,2020,44(4):100-110. SUN Jinsheng,LEI Shaofei,BAI Yingrui,et al.Research progress and application prospects of smart materials in lost circulation control of drilling fluids[J].Journal of China University of Petroleum,2020,44(4):100-110. [62] 王勇,蒋官澄,杜庆福,等.超分子化学堵漏技术研究与应用[J].钻井液与完井液,2018,35(3):48-53. WANG Yong,JIANG Guancheng,DU Qingfu,et al.Study and application of supramolecule chemical LCM technology[J].Drilling Fluid and Completion Fluid,2018,35(3):48-53. [63] WANG Bo,SUN Jinsheng,LV Kaihe,et al.Effects of a crosslinking agent on a supramolecular gel to control lost circulation[J].New Journal of Chemistry,2021,45(16):7089-7095. [64] NIE Xunyong,LUO Pingya,WANG Pingquan,et al.Rheology of a new gel used for severe lost circulation control[R].SPE 132136,2010. [65] 吉永忠,韩烈祥,贺彬,等.凝胶堵漏剂ZND-2在阿姆河右岸试气复杂井漏处理的应用[J].钻采工艺,2015,38(6):1-3. JI Yongzhong,HAN Liexiang,HE Bin,et al.Application of the gel lost circulation material ZND-2 for loss complex treatment processing of gas testing in high pressurehypertonic reservoir stratum of Amu Darya right bank in Turkmenistan[J].Drilling and Production Technology,2015,38(6):1-3. [66] 张新民,聂勋勇,王平全,等.特种凝胶在钻井堵漏中的应用[J].钻井液与完井液,2007,24(5):83-84. ZHANG Xinmin,NIE Xunyong,WANG Pingquan,et al.A special gel for mud loss control[J].Drilling Fluid and Completion Fluid,2007,24(5):83-84. [67] 王平全,李再钧,聂勋勇,等.用于钻井堵漏和封堵的特种凝胶抗冲稀性能[J].石油学报,2012,33(4):697-701. WANG Pingquan,LI Zaijun,NIE Xunyong,et al.Anti-dilution properties of a special gel applied to loss circulation control in drilling[J].Acta Petrolei Sinica,2012,33(4):697-701. [68] 张绍营,刘智勤.南海西部深水井智能凝胶堵漏技术与实践[J].中国高新科技,2018(12):62-66. ZHANG Shaoying,LIU Zhiqin.Intelligent gel plugging technology and practice of deep water well in western South China Sea[J].China High-Tech,2018(12):62-66. [69] 孙金声,赵震,白英睿,等.智能自愈合凝胶研究进展及在钻井液领域的应用前景[J].石油学报,2020,41(12):1706-1718. SUN Jinsheng,ZHAO Zhen,BAI Yingrui,et al.Progress in research of intelligent self-healing gel and its application prospects in the field of drilling fluid[J].Acta Petrolei Sinica,2020,41(12):1706-1718. [70] 杜丽娜,王磊,刘佳,等.温度和pH双重敏感性自愈合超分子水凝胶[J].武汉大学学报:理学版,2016,62(1):36-44. DU Lina,WANG Lei,LIU Jia,et al.A self-healing supramolecular hydrogel with dual sensibility of temperature and pH[J].Journal of Wuhan University:Natural Science Edition,2016,62(1):36-44. [71] 孙焕泉.胜利油田三次采油技术的实践与认识[J].石油勘探与开发,2006,33(3):262-266. SUN Huanquan.Practice and understanding on tertiary recovery in Shengli oilfield[J].Petroleum Exploration and Development,2006,33(3):262-266. [72] 康万利,王轶男,孟令伟,等.疏水缔合两亲聚合物凝胶的形成规律及性能[J].高分子材料科学与工程,2011,27(2):26-29. KANG Wanli,WANG Yinan,MENG Lingwei,et al.Formation and properties of hydrophobic associating amphiphilic polymer gel[J].Polymer Materials Science and Engineering,2011,27(2):26-29. [73] ZHANG Xiangfeng,YANG Hongbin,WANG Pengxiang,et al.Construction and thickening mechanism of amphiphilic polymer supramolecular system based on polyacid[J].Journal of Molecular Liquids,2019,286:110921. [74] UDDIN M A,YU Haojie,WANG Li,et al.Multiple-stimuli-responsiveness and conformational inversion of smart supramolecular nanoparticles assembled from spin labeled amphiphilic random copolymers[J].Journal of Colloid and Interface Science,2021,585:237-249. [75] WANG Yongzhen,WU Songquan,YAN Xingru,et al.Alkyl bicarbamates supramolecular organogelators with effective selective gelation and high oil recovery from oil/water mixtures[J].Chemosphere,2017,167:178-187. [76] ROMERO-ZERÓN L,ESPINOSA C.Advantageous supramolecular system through self-association of xanthan gum/cationic surfactant via β-cyclodextrin host-guest complexations for enhanced oil recovery applications[J].Journal of Petroleum Science and Engineering,2020,185:106644. [77] YEGIN C,TEMIZEL C,YEGIN Y,et al.pH-responsive supramolecular gelling agents used in EOR and their potential as fracking fluids[R].SPE 188241,2017. [78] TEMIZEL C,ZHANG Ming,BIOPHARM F,et al.Next-generation gelling agents for improved displacement in enhanced oil recovery processes[R].SPE 187577,2017. [79] 蒋其辉,蒋官澄,卢拥军,等.一种高温耐剪切超分子缔合弱凝胶清洁压裂液体系[J].钻井液与完井液,2016,33(6):106-110. JIANG Qihui,JIANG Guancheng,LU Yongjun,et al.A high temperature shear-resistant association supramolecular polymer weak gel fracturing fluid[J].Drilling Fluid and Completion Fluid,2016,33(6):106-110. [80] VENGOSH A,JACKSON R B,WARNER N,et al.A critical review of the risks to water resources from unconventional shale gas development and hydraulic fracturing in the united states[J].Environmental Science&Technology,2014,48(15):8334-8348. [81] MAYERHOFER M J J,LOLON E P P,WARPINSKI N R R,et al.What is stimulated reservoir volume?[J].SPE Production&Operations,2010,25(1):89-98. [82] ZHANG Huijie,SUN Taolin,ZHANG Aokai,et al.Tough physical double-network hydrogels based on amphiphilic triblock copolymers[J].Advanced Materials,2016,28(24):4884-4890. [83] MA Yingxian,MA Leyao,GUO Jianchun,et al.A high temperature and salt resistance supramolecular thickening system[R].SPE 193549,2019. [84] 暴丹,邱正松,邱维清,等.高温地层钻井堵漏材料特性实验[J].石油学报,2019,40(7):846-857. BAO Dan,QIU Zhengsong,QIU Weiqing,et al.Experiment on properties of lost circulation materials in high temperature formation[J].Acta Petrolei Sinica,2019,40(7):846-857. [85] 康毅力,王凯成,许成元,等.深井超深井钻井堵漏材料高温老化性能评价[J].石油学报,2019,40(2):215-223. KANG Yili,WANG Kaicheng,XU Chengyuan,et al.High-temperature aging property evaluation of lost circulation materials in deep and ultra-deep well drilling[J].Acta Petrolei Sinica,2019,40(2):215-223. [86] 熊春明,唐孝芬.国内外堵水调剖技术最新进展及发展趋势[J].石油勘探与开发,2007,34(1):83-88. XIONG Chunming,TANG Xiaofen.Technologies of water shut-off and profile control:an overview[J].Petroleum Exploration and Development,2007,34(1):83-88. [87] 贾虎,蒲万芬.有机凝胶控水及堵水技术研究[J].西南石油大学学报:自然科学版,2013,35(6):141-152. JIA Hu,PU Wanfen.Research on water control and water shutoff technologies of organic-gel[J].Journal of Southwest Petroleum University:Science&Technology Edition,2013,35(6):141-152. [88] 白宝君,周佳,印鸣飞.聚丙烯酰胺类聚合物凝胶改善水驱波及技术现状及展望[J].石油勘探与开发,2015,42(4):481-487. BAI Baojun,ZHOU Jia,YIN Mingfei.A comprehensive review of polyacrylamide polymer gels for conformance control[J].Petroleum Exploration and Development,2015,42(4):481-487. [89] 郭晖,纪宝强,杨森,等.准噶尔盆地环玛湖凹陷二叠系砂砾岩储层沸石类胶结物的形成及石油地质意义[J].石油学报,2022,43(3):341-354. GUO Hui,JI Baoqiang,YANG Sen,et al.Formation of zeolite cements in Permian sandy conglomerate reservoir in the circum-Mahu sag,Junggar Basin and its petroleum geological significance[J].Acta Petrolei Sinica,2022,43(3):341-354. [90] 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. [91] 张以明,才博,何春明,等.超高温超深非均质碳酸盐岩储层地质工程一体化体积改造技术[J].石油学报,2018,39(1):92-100. ZHANG Yiming,CAI Bo,HE Chunming,et al.Volume fracturing technology based on geo-engineering integration for ultra-high temperature and ultra-deep heterogeneous carbonate reservoir[J].Acta Petrolei Sinica,2018,39(1):92-100. [92] 刘顺,何衡,赵倩云,等.水力裂缝与天然裂缝交错延伸规律[J].石油学报,2018,39(3):320-326. LIU Shun,HE Heng,ZHAO Qianyun,et al.Staggered extension laws of hydraulic fracture and natural fracture[J].Acta Petrolei Sinica,2018,39(3):320-326. [93] ABDELAAL A,ALJAWAD M S,ALYOUSEF Z,et al.A review of foam-based fracturing fluids applications:from lab studies to field implementations[J].Journal of Natural Gas Science and Engineering,2021,95:104236. [94] 刘卫彬,徐兴友,刘畅,等.超临界CO2+水力携砂复合体积压裂工艺对陆相页岩储层的改造机理及效果[J].石油学报,2022,43(3):399-409. LIU Weibin,XU Xingyou,LIU Chang,et al.The stimulation mechanism and performance analysis of supercritical CO2 and hydraulic sand-carrying composite volume fracturing technology on continental shale reservoirs[J].Acta Petrolei Sinica,2022,43(3):399-409. |
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