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基于温敏形状记忆特性的智能化堵漏材料研究展望

暴丹 邱正松 赵欣 叶链 钟汉毅

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文章导航 > 钻井液与完井液  > 2019 >  36(3): 265-272
暴丹, 邱正松, 赵欣, 叶链, 钟汉毅. 基于温敏形状记忆特性的智能化堵漏材料研究展望[J]. 钻井液与完井液, 2019, 36(3): 265-272. doi: 10.3969/j.issn.1001-5620.2019.03.001
引用本文: 暴丹, 邱正松, 赵欣, 叶链, 钟汉毅. 基于温敏形状记忆特性的智能化堵漏材料研究展望[J]. 钻井液与完井液, 2019, 36(3): 265-272. doi: 10.3969/j.issn.1001-5620.2019.03.001
shu
BAO Dan, QIU Zhengsong, ZHAO Xin, YE Lian, ZHONG Hanyi. Outlook on the Research on Intelligent LCM with Temperature Sensitive Shape Memory Property[J]. DRILLING FLUID & COMPLETION FLUID, 2019, 36(3): 265-272. doi: 10.3969/j.issn.1001-5620.2019.03.001
Citation: BAO Dan, QIU Zhengsong, ZHAO Xin, YE Lian, ZHONG Hanyi. Outlook on the Research on Intelligent LCM with Temperature Sensitive Shape Memory Property[J]. DRILLING FLUID & COMPLETION FLUID, 2019, 36(3): 265-272. doi: 10.3969/j.issn.1001-5620.2019.03.001
shu

基于温敏形状记忆特性的智能化堵漏材料研究展望

doi: 10.3969/j.issn.1001-5620.2019.03.001

  • 中国石油大学(华东)石油工程学院, 山东青岛 266580

基金项目: 

国家重点基础研究发展规划(973)项目“深水油气井完井与测试优化方法”(2015CB251205);十三五国家重大科技专项“环保钻井液与防漏堵漏新技术研究”(2017ZX05032-004-005);十三五国家重大科技专项“深井超深井优质钻井液与固井完井技术研究”(2016ZX05020-004);中央高校基本科研业务费专项资金“热致形状记忆智能型堵漏材料的研制及作用机理研究”(18CX06016A)

详细信息
    作者简介:

    暴丹,在读博士研究生,主要从事钻井液防漏堵漏相关研究工作。E-mail:18765920408@163.com

    通讯作者:

    邱正松,教授、博士生导师,1964年生,主要从事井壁稳定理论与防塌防漏钻井液技术、复杂深层超高温超深井钻井液技术、海洋深水钻井液完井液技术等科研及教学工作。E-mail:qiuzs63@sina.com

  • 中图分类号: TE254.4;TE282

Outlook on the Research on Intelligent LCM with Temperature Sensitive Shape Memory Property

  • School of Petroleum Engineering, China University of Petroleum, Qingdao, Shandong 266580

    摘要
  • 摘要: 井漏一直是困扰国内外油气钻探工程的世界性技术难题。新型高效堵漏材料的研发,是治理井漏的技术关键。借助智能材料科学的先进理念和方法,探讨分析了形状记忆智能型材料的类型、特性及记忆效应作用机理,介绍了国内外基于温敏形状记忆特性的智能化堵漏材料的研究现状,以及其具有的自适应裂缝尺度、较高承压能力等智能堵漏特性及调控机理。针对温敏形状记忆特性的智能化堵漏材料的制备、评价实验方法及现场工艺方案等提出了建议及展望,可望实现防漏堵漏技术革新。

     

    Abstract: Lost circulation has long been a worldwide problem that harasses oil and gas drilling and exploration operations. Development of new lost circulation materials (LCM) of high efficiency is the key in controlling and preventing lost circulation. Based on the advanced idea and methods of intelligent material science, the type, characteristics and working mechanisms of shape memory intelligent LCM are discussed and analyzed. Status quo of studying on the intelligent LCM with temperature sensitive shape memory both in China and abroad is introduced. This paper also discusses the self-adaptive fracture sizes which the intelligent LCM with temperature sensitive shape memory LCM can be used, and the lost circulation control property and working mechanism of temperature sensitive intelligent LCM with high pressure bearing capacity. Suggestion and outlook are presented to the preparation, evaluation methods and field application techniques of temperature sensitive shape memory LCM which may lead to the innovation of lost circulation control and prevention technologies.

     

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    • 参考文献(33)
  • [1] FIDAN E,BABADAGLI T,KURU E. Use of cement as lost circulation material-field case studies[C].SPE 88005, 2004.
    [2] WHITE R J. Lost-circulation materials and their evaluation[C]//Drilling and Production Practice. American Petroleum Institute,1956.
    [3] 徐同台,刘玉杰,申威.钻井工程防漏堵漏技术[M]. 北京:石油工业出版社,1997. XU Tongtai,LIU Yujie, SHEN Wei. Technology of Lost circulation resistance and control during drilling engineering[M]. Beijing:Petroleum Industry Press, 1997.
    [4] 郑力会,张明伟. 封堵技术基础理论回顾与展望[J]. 石油钻采工艺,2012,34(5):1-9.

    ZHENG Lihui, ZHANG Mingwei. Review of basic theory for lost circulation control[J]. Oil Drilling & Production Technology, 2012,34(5):1-9.
    [5] KULKARNI S D, JAMISON D E, TEKE K. Managing suspension characteristics of lost-circulation materials in a drilling fluid[C]//SPE deepwater drilling and completions conference. Society of Petroleum Engineers, 2014.
    [6] KULKARNI S D, TEKE K, SAVARI S. Modeling suspension of lost circulation materials in a drilling fluid[C]//Oral presentation of paper AADE-14-FTCE-24 given at the AADE fluids technical conference and exhibition, Houston. 2014:15-16.
    [7] 李娟,刘文堂,沈士军. 吸水树脂堵漏材料的研究进展[J]. 油田化学,2011,28(1):110-114.

    LI Juan,LIU Wentang,SHEN Shijun. Research progress on water absorbent polymer used as lost-control materials[J].Oilfield Chemistry,2011,28(1):110-114.
    [8] 史野,夏景刚,周志强,等. 吸水膨胀类堵漏材料研究进展[J]. 化工管理,2017(8):11. SHI Ye,XIA Jinggang,ZHOU Zhiqiang, et al. Research progress on water absorbent and expansive lost circulation materials[J].Chemical Enterprise Management, 2017(8

    ):11.
    [9] 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

    ,94. ZHANG Xinmin,NIE Xunyong, WANG Pingquan, et al. A special gel for mud loss control[J].Drilling Fluid & Completion Fluid, 2007,24(5):83-84,94.
    [10] 王中华. 聚合物凝胶堵漏剂的研究与应用进展[J]. 精细与专用化学品,2011,19(4):16-20.

    WANG Zhonghua. Research and application progress of the polymer gel plugging agent[J]. Fine and Specialty Chemicals, 2011,19(4):16-20.
    [11] 孙敏,冯典英. 智能材料技术[M]. 国防工业出版社, 2014. SUN Min,FENG Dianying. Intelligent material technology[M]. National Defence Industry Press,2014.
    [12] 徐祖耀,江伯鸿. 形状记忆材料[M]. 上海交通大学出版社,2000. XU Zuyao,JIANG Bohong. Shape memory material[M]. Shanghai Jiaotong University Press, 2000.
    [13] 李敏,黎厚斌. 形状记忆材料研究综述[J]. 包装学报, 2014,6(4):17-23.

    LI Min,LI Houbin. Review of shape memory materials[J]. Packaging Journal, 2014,6(4):17-23.
    [14] 逄见光,王刚,曲明,等. 形状记忆聚合物机理、表征与多形状记忆效应的研究进展[J]. 材料工程,2018, 46(5):64-71.

    PANG Jianguang,WANG Gang,QU Ming, et al. Progress on mechanism, characterization and multiple shape memory effect of shape memory polymer[J]. Journal of Materials Engineering, 2018,46(5):64-71.
    [15] 蒋建军,胡毅,陈星,等. 形状记忆智能复合材料的发展与应用[J]. 材料工程,2018,46(8):1-13.

    JIANG Jianjun,HU Yi,CHEN Xing, et al. Development and application of shape memory intelligent composites[J]. Journal of Materials Engineering, 2018, 46(8):1-13.
    [16] 王垚,李春福,林元华,等.SMA在石油工程中的应用研究进展[J]. 材料导报,2016,30(S2):98-102

    , 107. WANG Yao,LI Chunfu,LIN Yuanhua, et al. Research Progress of application of SMA in petroleum engineering[J]. Material Review, 2016,30(S2):98-102,107.
    [17] 王敏生,光新军,孔令军. 形状记忆聚合物在石油工程中的应用前景[J]. 石油钻探技术,2018,46(5):14-20.

    WANG Minsheng, GUANG Xinjun, KONG Lingjun. The prospects of applying shape memory polymer in petroleum engineering[J]. Petroleum Drilling Techniques, 2018,46(5):14-20.
    [18] 耿双奇,牛建平.TiNi系形状记忆合金的记忆原理及其应用现状[J]. 现代商贸工业,2018,39(30):187-189.

    GENG Shuangqi,NIU Jianping. The memory principle and application of TiNi shape memory alloy[J]. Modern Business Trade Industry, 2018,39(30):187-189.
    [19] 王琦,孟园园,王守仁. 水泥基智能堵漏材料及其制备方法:CN,101428995[P].2009-05-13. WANG Qi,MENG Yuanyuan,WANG Shouren. Preparation of cement-based intelligent lost circulation material:CN,101428995[P].2009-05-13.
    [20] 孟园园. 水泥基智能堵漏材料的制备与性能研究[D]. 济南:济南大学,2009. MENG Yuanyuan. Preparation and performance of cement-based intelligent lost circulation material[D]. Jinan:Jinan University, 2009.
    [21] 田陆飞. 高效承压智能堵漏复合材料的制备与性能研究[D]. 济南:济南大学, 2011. TIAN Lufei. Research of preparation and property of efficiency pressure-bearing smart lost circulation composite materials[D]. Jinan:Jinan University,2011.
    [22] 李公让,刘振东,张敬辉,等. 一种含有记忆金属的堵漏剂:CN,108239529[P].2018-07-03. LI Gongrang,LIU Zhendong, ZHANG Jinghui, et al. Lost circulation material based on shape memory alloy:CN,108239529[P].2018-07-03.
    [23] 刘婷婷,朱光明,魏堃,等. 形状记忆聚合物复合材料的研究进展[J]. 高分子材料科学与工程,2013,29(11):183-186

    ,190. LIU Tingting,ZHU Guangming,WEI Kun, et al. Advances in shape memory polymer composites[J]. Polymer Materials Science and Engineering, 2013,29(11):183-186,190.
    [24] 赵建宝,吴雪莲,戈晓岚,等. 形状记忆聚合物及其应用前景[J]. 材料导报,2015,29(21):75-80.

    ZHAO Jianbao,WU Xuelian,GE Xiaolan, et al. Shape memory polymer and its application prospects[J]. Material review,2015,29(21):75-80.
    [25] ZHAO Q, QI H J, XIE T. Recent progress in shape memory polymer:New behavior, enabling materials, and mechanistic understanding[J]. Progress in Polymer Science, 2015, 49:79-120.
    [26] XIE T. Recent advances in polymer shape memory[J]. Polymer, 2011, 52(22); 4985-5000.
    [27] MANSOUR A, EZEAKACHA C, TALEGHANI A D, et al. Smart lost circulation materials for productive zones[C]//SPE Annual technical conference and exhibition. Society of Petroleum Engineers, 2017.
    [28] MANSOUR A K, TALEGHANI A D, LI G. Smart lost circulation materials for wellbore strengthening[C]. ARMA 17-0492, 2017.
    [29] MANSOUR A K, TALEGHANI A D. Smart loss circulation materials for drilling highly fractured zones[C]. SPE 189413, 2018.
    [30] MANSOUR A K, TALEGHANI A D, LI G. Smart expandable LCMs; a theoretical and experimental study[C]. AADE-17-NTCE-074, 2017.
    [31] MANSOUR A K. Experimental study and modeling of smart loss circulation materials;advantages and promises[D]. Louisiana State University. 2017.
    [32] 张明昌,刘学鹏,张林海,等. 一种堵剂及其制备方法和应用:CN,106554763[P]. 2017-04-05. ZHANG MIngchang, LIU Xuepeng, ZHANG Linhai, et al. Preparation and application of lost circulation material:CN,106554763[P]. 2017-04-05.
    [33] 刘振东,李公让,王传富. 一种形状记忆型堵漏剂:CN,108239531[P]. 2018-07-03. LIU Zhendong,LI Gongrang,WANG Chuanfu. Lost circulation material based on shape memory material:CN,108239531[P]. 2018-07-03.
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  • 收稿日期:  2019-02-23
  • 刊出日期:  2019-06-30

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