深层和超深层钻井液技术的研究进展与发展

IF 7 Q1 ENERGY & FUELS Petroleum Exploration and Development Pub Date : 2024-08-01 DOI:10.1016/S1876-3804(24)60522-7
Jinsheng SUN , Jingbin YANG , Yingrui BAI , Kaihe LYU , Fengbao LIU
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引用次数: 0

摘要

系统回顾了深层和超深层钻井液技术的研究进展,分析了存在的关键问题,提出了未来的发展方向。针对深层和超深层复杂油气钻井过程中面临的高温高压高应力、裂缝发育、井筒失稳、钻井液失循环等问题,学者们开发了深层和超深层耐高温高盐水基钻井液技术、耐高温油基/合成钻井液技术、储层保护钻井液技术和钻井液失循环控制技术。但是,目前仍存在一些关键问题,如耐高温、高压、高应力不足,井筒不稳定,失循环严重等。因此,提出了未来深层和超深层钻井液技术的发展方向:(1)耐高温高盐水基钻井液技术应重点提高高温稳定性、改善流变性能、加强过滤控制、提高与地层的相容性。(2)耐高温油基/合成钻井液技术应进一步研究高温稳定剂、流变调节剂等低毒易降解环保添加剂及相关配套技术。(3)储层保护钻井液技术应致力于新型高性能添加剂和材料的开发,并通过引入先进的传感器网络和人工智能算法,进一步完善实时监测技术。(4)钻井液失循环控制应更加注重智能化技术的集成与应用,注重高性能堵漏材料的研究与应用,注重多元化堵漏技术与方法的探索,注重环境保护与安全生产意识的提高。
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Research progress and development of deep and ultra-deep drilling fluid technology

The research progress of deep and ultra-deep drilling fluid technology systematically reviewed, the key problems existing are analyzed, and the future development direction is proposed. In view of the high temperature, high pressure and high stress, fracture development, wellbore instability, drilling fluid lost circulation and other problems faced in the process of deep and ultra-deep complex oil and gas drilling, scholars have developed deep and ultra-deep high-temperature and high-salt resistant water-based drilling fluid technology, high-temperature resistant oil-based/synthetic drilling fluid technology, drilling fluid technology for reservoir protection and drilling fluid lost circulation control technology. However, there are still some key problems such as insufficient resistance to high temperature, high pressure and high stress, wellbore instability and serious lost circulation. Therefore, the development direction of deep and ultra-deep drilling fluid technology in the future is proposed: (1) The technology of high-temperature and high-salt resistant water-based drilling fluid should focus on improving high temperature stability, improving rheological properties, strengthening filtration control and improving compatibility with formation. (2) The technology of oil-based/synthetic drilling fluid resistant to high temperature should further study in the aspects of easily degradable environmental protection additives with low toxicity such as high temperature stabilizer, rheological regulator and related supporting technologies. (3) The drilling fluid technology for reservoir protection should be devoted to the development of new high-performance additives and materials, and further improve the real-time monitoring technology by introducing advanced sensor networks and artificial intelligence algorithms. (4) The lost circulation control of drilling fluid should pay more attention to the integration and application of intelligent technology, the research and application of high-performance plugging materials, the exploration of diversified plugging techniques and methods, and the improvement of environmental protection and production safety awareness.

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来源期刊
CiteScore
11.50
自引率
0.00%
发文量
473
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