Smart Lost Circulation Materials to Seal Large Fractures

Day 1 Tue, September 21, 2021 Pub Date : 2021-09-15 DOI:10.2118/205873-ms

M. Tabatabaei, A. Dahi Taleghani

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引用次数: 3

Abstract

Lost circulation problems may result in a significant downtime, a considerable reduction of the rate of penetration, or even well control problems. Despite advances in manufacturing lost circulation materials (LCMs), some formations, like heavily fractured carbonates, have complete losses during drilling. We develop smart LCMs using shape memory polymers (SMPs), and program them thermo-mechanically to satisfy size limitations imposed by bottomhole assemblies (BHA). Elevated downhole temperatures act as an external trigger to recover the permanent shape of LCMs, which could expand ten times larger than the temporary (programmed) dimensions for deployment. Smart LCMs are a combination of various material categories such as granular, fibrous (one-dimensional or 1-D) and planar (two-dimensional or 2-D) configurations that resume to the original shape after exposure to high temperatures. The LCMs form different structures such as flatted pellet, disc-shaped, spider-shaped, and spindled, which, respectively, presents grains, 1-D fibers, 2-D stars, and 2-D lattices after recovery. A combination of the above categories attempt to build three-dimensional (3-D) plugging capabilities across various sized fractures.

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智能堵漏材料用于封堵大裂缝

漏失问题可能会导致大量的停机时间，大大降低钻进速度，甚至出现井控问题。尽管漏失材料(lcm)的制造技术有所进步，但一些地层，如严重裂缝的碳酸盐岩，在钻井过程中会完全漏失。我们使用形状记忆聚合物(SMPs)开发智能lcm，并对其进行热机械编程，以满足底部钻具组合(BHA)的尺寸限制。升高的井下温度作为一个外部触发因素，可以恢复lcm的永久形状，lcm可以扩展到比临时(编程)尺寸大10倍的尺寸。智能lcm是各种材料类别的组合，如颗粒状、纤维状(一维或一维)和平面(二维或二维)结构，在暴露于高温后恢复到原始形状。lcm在恢复后形成扁平颗粒状、圆盘状、蜘蛛状、纺锤状等不同结构，分别呈现颗粒状、一维纤维状、二维星状和二维晶格状。上述类别的组合试图在不同尺寸的裂缝上建立三维(3-D)封堵能力。

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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Day 1 Tue, September 21, 2021

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