Improving Zonal Isolation and Cutting the Water Production with the Help of an Engineered Self-Healing Cementing System: A Case Study Review of the First Implementation of its Kind in Kuwait

B. Al-Khayyat, Meshari Al-Mudhaf, A. Saffar, Tarasankar Mitra, Ken Monteiro, Sarah Al-Safran, Saleh Gholoum, M. Al-Khaja, Jasim Ali, Fatemah Al-Rashed, Mohammad Alotaibi, Fahad Almunayes
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Abstract

In one of the prolific fields in Kuwait, achieving zonal isolation posed a big challenge mainly due to setting the production liner shoe close to the oil-water-contact zone. Cement bond logs from the primary cementing jobs were not acceptable due to contamination from intruding water leading to a high water-cut in the produced oil. We review the first implementation of a self-sealing Cementing System in Kuwait to improve zonal isolation and cutting the water production. A comprehensive pre-job study was executed to engineer a suitable cementing system containing a swellable elastomer for oil-water-cuts with proper test in Lab. A novel HPHT multi-function test cell apparatus and procedure were utilized to measure in-situ ability of fractured cement specimens to seal oil-water-flows under the given simulated downhole conditions. Shrinkage or expansion of the set cement was also verified under pressure and temperature with a continuous test method run over several days. Thorough lab tests and Computational Fluid Dynamics simulations were run to enable a fit-for-purpose and robust cement slurry design ensuring proper placement of the cementing system in the well. This paper will describe how this cement was designed and engineered in laboratory. It will also describe how the set up was made simulating a crack in cement specimen and injecting water cut oil reacts and provides desired results. A calculated cement engineering approach was adopted to ensure better cement slurry placement and reduce the chances of slurry contamination. The test conditions were staged to replicate the most appropriate downhole conditions of pressure, temperature and simulated micro channel in the cement sheath. After the successful implementation of the self-sealing cementing system along the 7-in production liner in 2 wells, the corresponding cement bond log images showed hydraulic isolation and the production data from the wells indicated a reduction of nearly 50% in the water cut thus allowing a favorable oil production. This technology is applied in other wells of this field and other fields also with good results. This is being continued to use in critical wells.
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借助工程自修复固井系统改善层间隔离并减少产水:科威特首次实施此类固井的案例研究综述
在科威特的一个高产油田,实现层间隔离带来了很大的挑战,主要原因是生产尾管鞋靠近油水接触层。由于侵入水的污染,导致采出油含水率很高,因此第一次固井作业的水泥胶结测井结果不理想。我们回顾了科威特首次实施的自密封固井系统,以改善层间隔离并减少出水量。作业前进行了全面的研究,设计了一种适合油水切割的含膨胀弹性体的固井系统,并在实验室进行了适当的测试。采用一种新型的HPHT多功能测试单元装置和程序,在给定的模拟井下条件下,对裂缝性水泥试件封堵油水流动的能力进行了原位测试。通过连续几天的测试方法,还验证了水泥在压力和温度下的收缩或膨胀。进行了全面的实验室测试和计算流体动力学模拟,以实现适合用途和坚固的水泥浆设计,确保在井中正确放置固井系统。本文将描述这种水泥是如何在实验室设计和工程的。它还将描述如何模拟水泥试样中的裂缝和注入含水油的反应,并提供期望的结果。采用计算的水泥工程方法,确保更好的水泥浆投放,减少水泥浆污染的机会。测试条件分阶段进行,以复制最合适的井下压力、温度和模拟水泥环中的微通道条件。在2口井沿7-in生产尾管成功实施自密封固井系统后,相应的水泥胶结测井图像显示水力隔离,井的生产数据表明含水率降低了近50%,从而实现了良好的产油量。该技术在该油田其他井及其他油田的应用也取得了良好的效果。目前,该技术仍在关键井中使用。
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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