New Research of Borehole Wall Protection Technology in Ocean Scientific Drilling

IF 0.7 4区工程技术 Q4 ENGINEERING, OCEAN

Marine Technology Society Journal Pub Date : 2023-02-27 DOI:10.4031/mtsj.57.1.10

Xingchen Li, Wen-wei Xie, An Liu, Yanjiang Yu, Liang Xiong, Peizhi Yu, Zhengqiang Xiong, Xuelei Feng, Shuying Cui, Jing Zeng

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引用次数: 0

Abstract

Abstract In the process of ocean scientific drilling, borehole accidents (e.g., borehole collapse, burying of drill tools, and sticking of drill tools) are often caused by borehole wall instability in loose and broken strata. It is very difficult to deal with such accidents, and the drill pipe in the borehole has to be discarded in serious cases. Therefore, the stability of the borehole wall seriously affects the drilling quality and efficiency. At present, there are three effective methods of ensuring wellbore stability: casing, drilling fluid, and agent plugging technology. Casing can effectively prevent instability of all types of unstable formations and can isolate different pressure zones. Using the proper drilling fluid can control drilling fluid loss, reduce free water infiltration into the borehole wall, and form a thin and dense mud skin, which is conducive to the stability of the borehole wall. Agent plugging technology, especially chemical gels, is mainly aimed at the broken zone. After entering the formation, it makes the entire broken zone form a single high strength unit, improves the cementation ability of the lost formation, and improves the sealing and bearing capacity in order to achieve the purpose of sealing and plugging of leaks. In this paper, the present situation, technical principles, and technological processes of wall protection technology in ocean scientific drilling are summarized, and the different types of wall protection technology were researched and tested. The results of this study provide a reference for international ocean scientific drilling in the future.

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海洋科学钻探井壁防护技术新研究

摘要在海洋科学钻探过程中，由于松散破碎地层中井壁失稳，经常发生井壁垮塌、钻具掩埋、钻具卡钻等井眼事故。这类事故处理起来非常困难，严重的情况下不得不丢弃钻孔中的钻杆。因此，井壁的稳定性严重影响钻井质量和效率。目前，保证井筒稳定性的有效方法有三种:套管、钻井液和药剂封堵技术。套管能有效防止各类不稳定地层失稳，并能隔离不同压力层。使用合适的钻井液可以控制钻井液漏失，减少游离水渗入井壁，形成薄而致密的泥浆皮，有利于井壁的稳定。药剂堵漏技术，尤其是化学凝胶堵漏技术，主要针对的是破裂层。进入地层后，使整个破碎带形成一个单一的高强度单元，提高了失失地层的胶结能力，提高了密封和承载能力，以达到密封堵漏的目的。本文综述了海洋科学钻探中护壁技术的现状、技术原理和工艺流程，并对不同类型的护壁技术进行了研究和试验。研究结果可为今后国际海洋科学钻探提供参考。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Marine Technology Society Journal 工程技术-工程：大洋

CiteScore

1.70

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： The Marine Technology Society Journal is the flagship publication of the Marine Technology Society. It publishes the highest caliber, peer-reviewed papers, six times a year, on subjects of interest to the society: marine technology, ocean science, marine policy, and education.