%0 Journal Article
%T 抗高温堵漏材料研究进展与展望
Research Progress and Prospects of High-Temperature Resistant Plugging Materials
%A 苏政琦
%A 刘磊
%A 董娜
%A 邵佩先
%A 杨增辉
%J Mine Engineering
%P 423-431
%@ 2329-731X
%D 2025
%I Hans Publishing
%R 10.12677/me.2025.133047
%X 钻井过程中遇到井漏问题是常见但棘手的挑战,井漏会导致资源浪费、增加作业成本,甚至可能引发井喷等安全隐患。井漏问题影响钻井效率与安全,尤其在高温深层地层中,井漏处理更为困难。文章主要讨论了抗高温堵漏材料的发展现状,聚焦于纤维型、环氧树脂型、可酸溶型、凝胶型、复合型和智能型材料。这些材料在耐高温、耐压、封堵效果和化学稳定性等方面有所突破。各类材料通过提升成分、工艺及配比,有效应对复杂地层的井漏问题,如纤维材料强化了裂缝桥接,环氧树脂材料具有优异的渗透性和强度,而智能材料则能感知环境变化自动适应。文章最后提出了进一步优化材料配方、建立评价体系及快速响应堵漏材料的建议,以提升井漏处理效果,促进高温地层钻井作业的安全与效率。
Lost circulation in drilling is a common yet challenging issue, often leading to resource wastage, increased operational costs, and potential blowout hazards. Lost circulation impacts drilling efficiency and safety, especially in high-temperature deep formations, where control becomes more difficult. This paper discusses recent advancements in high-temperature resistant plugging materials, focusing on fiber-based, epoxy resin-based, acid-soluble, gel-based, composite, and intelligent materials. These materials have made significant progress in temperature resistance, pressure resistance, sealing efficiency, and chemical stability. By improving composition, processing, and formulations, these materials effectively address lost circulation issues in complex formations. For example, fiber materials enhance fracture bridging, epoxy resin materials exhibit excellent permeability and strength, while intelligent materials can adapt automatically to environmental changes. The paper concludes by recommending further optimization of material formulations, the establishment of evaluation systems, and the rapid selection of suitable plugging materials to improve the efficacy of lost circulation control, ensuring safety and efficiency in high-temperature drilling operations.
%K 钻井安全,
%K 井漏机理,
%K 抗高温堵漏材料,
%K 高温地层
Drilling Safety
%K Lost Circulation Mechanisms
%K High-Temperature Resistant Plugging Materials
%K High-Temperature Formations
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=113620