Addressing Challenges for Consistent Improvement of Cement Bonds in South Oman Fields

Day 1 Mon, March 21, 2022 Pub Date : 2022-03-21 DOI:10.2118/200184-ms

Gluber Meza, Samiullah Satti, H. Al-Sabti

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Abstract

Short liner cementing is very common in Oman southern oil fields. Among the challenges one can find no mechanical separation between the fluids, cement and pre-flush volumes are relatively small leading or increasing the chances of contamination and requiring remedial cementing jobs with uncertain success. As a result, poor cement bond log across the liner section were observed in more than 80% of all the cementing jobs. An engineering approach was proposed for this scenario. First increase rheologies of the fluids using physics instead of chemistry to diminish the fluid contamination inside of the casing and create a better sweeping effect outside of the casing. Selecting the adequate solid size ratios of the weighting agent to reduce the possible loss circulation problems generated by higher friction pressure. Increasing the generation and ultimate compressive strength of the cement system and finally providing expansion properties to the set cement. This paper presents the field CBL/USIT logs results and a case study showing the application and effectiveness of the technique proposed comparing with the previous approach in different wells.

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解决南阿曼油田持续改善水泥胶结的挑战

短尾管固井在阿曼南部油田非常普遍。在这些挑战中，人们可以发现流体之间没有机械分离，水泥和预冲洗体积相对较小，导致或增加了污染的可能性，并且需要进行不确定成功的补救固井作业。因此，在所有固井作业中，超过80%的尾管段的水泥胶结测井结果都很差。针对这种情况提出了一种工程方法。首先，使用物理方法而不是化学方法来增加流体的流变性，以减少套管内部的流体污染，并在套管外部产生更好的扫井效果。选择适当的加重剂固体尺寸比，以减少高摩擦压力可能产生的漏失循环问题。提高水泥体系的生成抗压强度和极限抗压强度，最终使水泥凝块具有膨胀性能。本文介绍了现场CBL/USIT测井结果，并通过一个案例研究，对比了该技术在不同井中的应用和有效性。

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 Mon, March 21, 2022

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