通过创新的地层损伤处理技术最大限度地提高产量回收率

E. Moen, R. Antonsen, E. A. Ejofodomi
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引用次数: 0

摘要

地层损害是老化油气井保持生产力和盈利能力的一大挑战。传统的解决方案,如从地表进行牛头化学处理,往往只能暂时提高产量,无法从根本上解决地层损害问题。这些方法缺乏可持续和可靠的结果,这对寻找一种替代方法起到了至关重要的作用,这种方法可以有效解决地层损害问题,并持续提高现有生产井的产量恢复。这是一个数据驱动的过程,它整合了一个井下水力激活系统,以恢复和维持次优生产井的生产力。这一过程包括选择合适的候选油井,确定导致生产不佳的现有损害机制,以及设计最佳的处理方法,通过井下水力启动系统进行操作部署,并根据井筒状况和设计要求进行专门配置。这种有针对性的处理方法可确保持续的产量提升和更高的运行可靠性。本报告介绍了几个现场案例研究,展示了这种方法在消除地层损害和实现现有井筒持续产量恢复方面的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Maximizing Production Recovery Through Innovative Formation Damage Treatment
Formation damage can be a major challenge in maintaining the productivity and profitability of aging oil and gas wells. Traditional solutions, such as bullheading chemical treatments from the surface, often provide only a temporary boost in production and fail to address the root cause of the formation damage. The lack of sustainable and reliable outcome from such methods, have played a critical role in the search for an alternate approach that can effectively address the presence of formation damage and sustainably boost the production recovery in existing producing wells, This paper presents an innovative approach to overcome the adverse effects of formation damage and achieve sustained well production recovery. It is a data-driven process that integrates a downhole, hydraulically activated system to restore and sustain productivity of sub-par producing wells. The process involves selecting the proper well candidates, identifying the existing damage mechanism causing poor production, and designing the optimum treatment operationally deployed via a downhole, hydraulically activated system, specifically configured to match the wellbore condition and design requirements. This focused treatment delivery ensures sustained production uplift and increased operational reliability. Several field case studies are presented that demonstrates the effectiveness of this approach in eliminating formation damage and achieving sustained production recovery in existing wellbores.
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