Increase the Effectiveness of Water Shutoff Operation Using Acoustic Leak Detection and Pressure Thermal Log in Mature Field South Sumatera – Indonesia

Day 1 Tue, March 21, 2023 Pub Date : 2023-03-14 DOI:10.2118/212934-ms

Nayung Galih Proboseno, Aris Nur Atmiaji, A. Suryana, Rudhy Setiawan, Adhyasa Humam Haryaputra, Taufik Fansuri, Masrul Ali Jusda

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Abstract

The evaluation of flow profile in the wellbore system is an important part of oil & gas field development. Leaks that occur in or behind the production casing is not only potentially causes safety and environmental issue but also potentially misjudgments of production performance analysis and the estimation of remaining reserve. The flow profile in the wellbore mostly affected by the life cycle of well during drilling phase, completion phase, production or injection phase and restoration phase. One of many well-known technologies applied in oil & gas industries is acoustic leak detection and pressure thermal log. The selection of surveillance technique to identify undesired water flow problem is not only provides more effective result but also carries an acceptable risk in term of the project cost. The objective of this paper is to show how a new approach of acoustic leak detection and pressure thermal surveillance can be used to increase the effectiveness of water shutoff operation in mature oil and gas field. The new approach of dynamic surveillance technique provided the acoustic, pressure and thermal data acquisition along the artificial lift wells can be interpreted. The case studies shows that the undesired water flow in or behind production casing can be identified precisely compared with a conventional method such as cement bond log. As the result, the data interpretation gives a remarkable result both of the successful water shutoff operation and post job production performance. Water significantly can be reduced from 1300 bbl per day to 320 bbl per day and the other hand oil & gas significantly can be increased from 34 boepd to 532 boepd. Moreover, this paper should be beneficial to help all petroleum engineers currently working in mature oilfield not only to identify undesired water flow problem precisely but also develop a comprehensive and effective water shutoff and remediation plan.

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利用声波检漏和压力热测井技术提高印尼南苏门答腊成熟油田堵水作业的有效性

井筒系统流动剖面评价是油气田开发的重要组成部分。发生在生产套管内部或背后的泄漏，不仅可能造成安全与环境问题，而且可能导致生产动态分析和剩余储量估计的错误判断。在钻井阶段、完井阶段、生产或注入阶段和恢复阶段，井内流动剖面主要受井生命周期的影响。声学泄漏检测和压力热测井是油气行业中应用最为广泛的技术之一。监测技术的选择不仅能提供更有效的结果，而且在工程成本方面具有可接受的风险。本文的目的是展示如何利用声波泄漏检测和压力热监测的新方法来提高成熟油气田堵水作业的有效性。动态监测技术的新方法为人工举升井沿线的声、压、热数据采集提供了解释。实例研究表明，与水泥胶结测井等常规方法相比，可以精确识别生产套管内或背后的不良水流。因此，数据解释在成功的堵水作业和作业后的生产性能方面都取得了显著的成果。水可以从1300桶/天显著减少到320桶/天，另一方面，油气可以从34桶/天显著增加到532桶/天。对于目前在成熟油田工作的石油工程师来说，不仅能准确识别出不希望出现的水流问题，还能制定出全面有效的堵水修复方案。

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, March 21, 2023

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