超级富凝析气开发的最新方法:分部方法-案例研究,ADNOC陆上油田,阿联酋

Fatima Al Awadhi, A. Al-Ameri, Ahmed Mohamed Al Bairaq, I. Mohamed, E. Latypov, M. Sudarev, Y. Pramudyo
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引用次数: 1

摘要

针对循环开采模式下的巨型凝析气藏进行研究,通过将储层划分成不同的扇区,实现高凝析油采收率并保持储层压力。特别是在没有补充气体可用或需要出售气体的情况下,使用欠注入模式。可注气量应合理分布在整个储层中,既能在最需要的地方保持储层压力,又能防止早期气藏突围。该研究旨在将储层划分为不同的区域,从而改善储层管理,包括重新分配注入和全油田开发战略。这两种方法是为了分区而创建的:第一种方法是基于地质定义,第二种方法是基于井位优化。本研究利用了包括地面设施布置在内的许多油藏资料。最初,可用的地质数据(如相)已被用于生成上述方法。实际示踪剂和其他生产/注入数据用于确认上述解释的分段。最后,重新建立仿真模型,解决了扇区化问题。此外,假设回收率为50%-80%,对几个敏感性进行了模拟,为现有井(包括2018年新投入使用的外围注气器)提供了最佳的注气分配设置。这项工作取得了积极的成果,在零投资的情况下,增加了数百万的凝析油采收率。根据结果分析,设计了允许每个注气器的实施方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
State of the Art Approach on Mega Rich Gas Condensate Development: Sectorization Approach - Case Study, ADNOC Onshore Fields, UAE
The study was conducted for Giant Gas-Condensate reservoir under Recycling mode in order to achieve the high condensate recovery and maintain the reservoir pressure by sectorize the reservoir into the different sectors. Especially with under-injection mode when no make-up gas is availableor sellable gas is required. The available amount of gas for injection should be properly distributed across the reservoir to maintain the reservoir pressure where it is most required and same time to prevent the early gas breakthrough. The study was aimed to sectorize the reservoir into thedifferent sectors which will lead to improve the reservoir management including the re-distribution of injection and full field development strategies. The two approached have been created for sectorization: first approachwas based on the geological definition and second approach was based on the well level optimization. Many reservoir data have been utilized in this study including the surface facilities layout. Initially, the available geological data such as Facies has been used to generate the above explained approaches. The actual tracer and other production/injection data used to confirm the above explained sectorization. Finally, the simulation model was re-build to address the sectorization. Moreover, several sensitives were simulated assume the 50%-80% RecycleRatio to come up with the optimum setup for gas injection distribution for the existing wells including the newly 2018 commissioned peripheral gasinjectors. This work has resulted in positive outcome with few millions additional condensate recovery with zero investment. According the outcomes analysis the implementation plan is designed with allowable per each gas injector.
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