Technology Update: Mitigation of Wellbore Instability and Mud Losses in High-Depletion Wells

Bakar, M.A.A.; Nasrudin, Khairul Anwar; Nor, Abshar M.; Mclellan, Justin; Syrapushchynski, Sasha

doi:10.2118/1218-0018-jpt

Cited by 2 publications

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Wellbore Strengthening: Palm Date Seeds for Mitigating Circulation Losses and Effect of Salinity on Clay Swelling

Mohamed,

Sulaimon,

Jufar

et al. 2023

Day 3 Wed, August 02, 2023

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Drilling through depleted and Deepwater formations are often challenging because of various wellbore instabilities such as weak zones, abnormally pressured, and/or highly swelling zones that could trigger severe circulation losses, blowouts, wellbore sloughing, enlargement, and stuck drill pipe. Considering the consequential expenses of non-productive time, it is essential to determine the root cause of wellbore instabilities, to initiate the appropriate mitigation measures. Therefore, this work was structured to review lost circulation and shale swelling challenges, mechanisms, and control strategies. Firstly, this research work has investigated palm date seeds (DS) as loss circulation and a bridging material. Processed palm seeds were sieved into various particle sizes and added in different mass and size ratios to the formulated oil-based mud. Sand-bed and HPHT filtration experiments were conducted to investigate the DS filtrate control potential. The filtrate loss and the mud cake thickness of the DS mud samples ranged between 4.2 ml to 4.8 ml and 1mm to 3mm, respectively. The conducted LCM comparative evaluations have shown that DS had the least filtrate control potential and the least competent mud cake. However, in the sand-bed experiment, DS LCM was able to withhold the mud in the sand column despite the high filtration depth. Secondly, this research work also investigated the effect of salinity on clay hydration. Therefore, using a viscometer to measure the yield point of a sample bentonite slurry, it was observed that (KCl + bentonite) had a 95% yield point reduction compared with (freshwater + bentonite).

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Wellbore Strengthening: Palm Date Seeds for Mitigating Circulation Losses and Effect of Salinity on Clay Swelling

Mohamed,

Sulaimon,

Jufar

et al. 2023

Day 3 Wed, August 02, 2023

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New Research of Borehole Wall Protection Technology in Ocean Scientific Drilling

Li¹,

Xie²,

Liu³

et al. 2023

mar technol soc j

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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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Technology Update: Mitigation of Wellbore Instability and Mud Losses in High-Depletion Wells

Cited by 2 publications

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Wellbore Strengthening: Palm Date Seeds for Mitigating Circulation Losses and Effect of Salinity on Clay Swelling

Wellbore Strengthening: Palm Date Seeds for Mitigating Circulation Losses and Effect of Salinity on Clay Swelling

New Research of Borehole Wall Protection Technology in Ocean Scientific Drilling

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