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温敏形状记忆堵漏材料实验研究 被引量:4

Characteristic Study of Thermosensitive Shape Memory Lost Circulation Materials
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摘要 为改善桥接堵漏材料自适应性及封堵效率,提高复杂裂缝性地层堵漏作业的成功率,基于温敏型形状记忆材料,研制了一种具有热激活特性的形状记忆堵漏剂,经过粉碎、造粒得到不同粒径的形状记忆堵漏剂颗粒。室内评价实验表明,新研制的温敏形状记忆堵漏剂具有良好的力学性能及形状记忆特性,堵漏剂颗粒高温激活后粒径增长率超过55%。裂缝封堵模拟实验表明,温度对温敏形状记忆堵漏剂的封堵效果具有显著影响,高温激活后封堵效果优于传统桥接堵漏材料。构建出一套具有较强自适应性的温敏形状记忆堵漏工作液配方,可成功封堵3~5 mm不同开度裂缝,具有高效自适应堵漏效果。 In order to improve the self-adaptability and plugging efficiency of bridging materials and increase the success rate of plugging fractured formation,this paper develops a kind of thermosensitive shape memory lost circulation materials.By crushing and granulating,shape memory particles with different sizes were obtained.Evaluation experiments show that the mechanical properties and shape memory performance of thermosensitive shape memory lost circulation materials are preferable,and the particle size growth rate under high temperature activation is more than 55%.The simulation experiments of fracture plugging show that the temperature has a significant influence on the plugging effect,and the plugging effect of thermosensitive shape memory lost circulation materials is better than that of traditional bridging materials under high temperature.Building a set of formula of plugging fluid with strong self-adaptability,it can successfully plug 3-5 mm coexisting fractures,achieving adaptive and high-efficiency plugging.
作者 冯杰 臧晓宇 邱正松 暴丹 郑力会 FENG Jie;ZANG Xiaoyu;QIU Zhengsong;BAO Dan;ZHENG Lihui(School of Petroleum Engineering,China University of Petroleum(Beijing),Beijing 102249;CNPC Engineering Technology R&D Company Limited,Beijing 102206;School of Petroleum Engineering,China University of Petroleum(East China),Qingdao,Shandong 266580)
出处 《钻井液与完井液》 CAS 北大核心 2022年第5期545-549,共5页 Drilling Fluid & Completion Fluid
基金 国家重点研发计划课题“井筒稳定性闭环响应机制与智能调控方法”(2019YFA0708303) 国家自然科学基金“裂缝地层致密承压封堵机理与温敏智能堵漏新方法研究”(51974354) 中国石油天然气集团科技项目“裂缝性恶性漏失新型堵漏材料研发及工艺技术研究”(2018D-5009-05)。
关键词 裂缝性漏失 形状记忆材料 温敏堵漏剂 自适应堵漏工作液 Lost circulation in fractured formation Shape memory materials Thermosensitive lost circulation materials Adaption lost circulation control fluid
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