自主流出控制技术AOCD在阿曼南苏丹稠油油田新型水/聚合物注水井中的应用

Ameera Al Harrasi, Muna Maskari, G. Urdaneta, A. Al-Jumah, Salim Badi, I. Busaidi, Khalfan Harthy, Osama Abazeed, M. Moradi
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引用次数: 2

摘要

为了提高注水性能,最终提高油田采收率,已经应用了几种技术来改善注水井的流体一致性。常规流出控制装置(ocd)是静态储层中解决这一问题的有效方法,但在具有复杂/动态性质(包括裂缝)的储层中就失效了。在那里,与井的其他部分相比,裂缝段的注入能力不断增加,导致大部分注入流体被转移到小偷层,从而造成附近生产井的短路。本文总结了首套自主流出控制(AOCD)技术在一口新型长水平注入井成功应用的综合技术经验。它展示了将该技术扩展到油田中其他水相和聚合物相注入器的结果,详细介绍了事实和观察结果以及多学科作者所获得的见解。这种对注入液一致性的自主反应控制提高了波及范围和最终采收率,同时减少了注入液的总量。
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Autonomous Outflow Control Technology AOCD in New Water/Polymer Injectors in Heavy Oil Fields from South Sultanate of Oman
Several techniques have been applied to improve fluid conformance of injection wells to increase water flooding performance and eventually field oil recovery. Normal outflow control devices (OCDs) are effective solutions for this problem in reservoirs with static properties, however, they fail in reservoirs with complex/dynamic properties including fractures. There, the continuously increasing contrast in the injectivity of a section with the fractures compared to the rest of the well causes diverting a great portion of the injected fluid into the thief zone thus creating short-circuit to the nearby producer wells. This paper summarizes the integrated technical learnings from the successful application of the installation of the first Autonomous Outflow Control (AOCD) technology in a new long horizontal injector well. It shows the result of extending this technology to other injectors in both water and polymer phases in the field, it details the facts and observations and the insights the multidisciplinary authors have captured. This autonomously reactive control on the injection fluid conformance resulted in an increased sweep and ultimate oil recovery while reducing the total volume of injected fluid.
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