Monitoring and surveillance of subsurface multiphase flow and well integrity

IF 2.6 Q3 ENERGY & FUELS Upstream Oil and Gas Technology Pub Date : 2020-10-01 DOI:10.1016/j.upstre.2020.100013
Abdulaziz Al-Qasim
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引用次数: 2

Abstract

With maturing oil fields, there is an increasing focus on improving the oil recovery factor and pushing the envelope towards a 70% target. This target is indeed very challenging and can be reached by fully understanding the reservoir characteristics before using an enhanced oil recovery method. These include reservoir heterogeneities, displacement efficiency, horizontal sweep, vertical sweep due to flow behind the casing, and the presence of conductive faults or fractures. Therefore, a proper surveillance should be performed to evaluate the injectant plume front, reservoir conformance, well connectivity, and the assessment of well integrity, which can be crucial for the success of the project and its future development.

This paper discusses a special downhole logging technique including a set of conventional multiphase sensors alongside high precision temperature (HPT) and high-definition spectral noise logging (SNL-HD). It was run for an injector and producer pair near the wellbore area to provide complete assessment of the integrity issues that might impair the lateral sweep of injectants into the target layer. The operation was carried out with a tool string that contained no mechanical parts and was not affected by downhole fluid properties. It was also conducted under both flowing and shut-in conditions to identify flow zones, to check fracture signatures and to provide multiphase fluid velocity profiles.

The results of the survey allowed for in-depth assessment of borehole and behind casing flow, confirming lateral continuity, and allow for better well planning and anticipation of possible loss of well integrity. Combining the behind casing flow assessment with borehole multiphase flow distribution can be used for production optimization by sealing unwanted water contributing zones that might impair production in the future.

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监测和监视地下多相流和井的完整性
随着油田的成熟,人们越来越关注提高采收率,并将其推向70%的目标。这一目标确实非常具有挑战性,在使用提高采收率的方法之前,可以通过充分了解储层特征来实现。这些因素包括储层非均质性、驱替效率、水平波及、套管后流动造成的垂直波及以及导电断层或裂缝的存在。因此,必须对注入液柱前缘、储层一致性、井连通性和井完整性进行适当的监测,这对项目的成功和未来的发展至关重要。本文讨论了一种特殊的井下测井技术,包括一套传统的多相传感器、高精度温度(HPT)和高分辨率频谱噪声测井(SNL-HD)。该工具在井筒附近的注入器和生产器对下入,以提供完整的完整性问题评估,这些问题可能会影响注入物进入目标层的横向扫描。该作业使用的工具柱不含机械部件,不受井下流体特性的影响。同时在流动和关井条件下进行了测试,以确定流动区域,检查裂缝特征,并提供多相流体速度分布图。调查结果可以对井眼和套管后流进行深入评估,确认横向连续性,并可以更好地进行井计划和预测可能出现的井完整性损失。将套管后流评价与井内多相流分布相结合,可以通过封堵可能影响未来生产的不需要的产水层来优化生产。
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CiteScore
5.50
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