Water Injection Well Performance and Fracture Propagation in a Channel Sand Reservoir: An Offshore Ghana Case Study

Jongsoo Hwang, Prateek Bhardwaj, M. Sharma, S. Sathyamoorthy, K. Amaning, A. Singh
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引用次数: 1

Abstract

This study explains the large injectivity changes observed in the field, how to remedy it, and how to ensure fracture containment in channel sand reservoirs. The case study field is located offshore Ghana and is a channel sand reservoir. Water injection was initiated for pressure maintenance and waterflooding under fracturing conditions. The injection wells are designed to ensure high and sustainable injection rates while maintaining the integrity of the cap rock. The injection bottom-hole pressure (BHP) was history-matched to investigate the impact of stress profiles, reservoir shapes, injection water quality, poroelastic and thermally induced stress changes. The injectivity decline was found to be a result of changes in stresses caused by the channel boundaries and, to a lesser extent, near-wellbore formation damage. The rapid increase in pore pressure and the resulting decrease in injectivity is unique to these kinds of channel sands. Once the origin of the decreasing injectivity was identified, remedial actions were recommended and predictions for future injectivity were made ensuring containment of fractures.
水道砂储层注水井性能与裂缝扩展:加纳海上案例研究
本研究解释了现场观察到的大注入能力变化,如何补救它,以及如何确保河道砂储层的裂缝封闭性。案例研究油田位于加纳近海,是一个河道砂储层。在压裂条件下,开始注水以维持压力和水驱。注入井的设计旨在确保高且可持续的注入速度,同时保持盖层的完整性。对注入井底压力(BHP)进行历史匹配,以研究应力剖面、储层形状、注入水质、孔隙弹性和热致应力变化的影响。研究发现,注入能力下降是由通道边界引起的应力变化造成的,在较小程度上是由近井地层损害造成的。孔隙压力的迅速增加和由此导致的注入能力的下降是这类河道砂所特有的。一旦确定了注入能力下降的原因,就会建议采取补救措施,并对未来的注入能力进行预测,以确保裂缝得到遏制。
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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