采用自主流入控制装置完井,应对天然气突破挑战

Ikhsan Nugraha, D. Widjaja, A. G. Raffn, V. Mathiesen
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引用次数: 0

摘要

在水平井生产过程中,一旦发生气侵,如何使压降常态化是至关重要的。这一挑战必须通过机械或化学方法来解决,以降低气油比。不幸的是,如果不使用流入控制装置(icd),这可能会导致石油产量的损失。这一挑战可以通过采用先进的流入控制阀完井来解决,以抑制气油比(GOR)并保持石油产量。在水平井中,由于尾管压力下降、储层裂缝和非均质性,通常会出现不均匀流入。在含游离气的油田,这将导致气窜和突破,从而导致高GOR。随着突破的扩大,由于产气过多,石油产量降低。被动icd已经证明可以提高石油产量。传统的icd不能完全关闭不需要的气和水的产生。最新一代的自我调节icd (sricd)利用阀门,其运动受所产流体性质的控制,可以自动关闭气体,最大限度地提高石油采收率。本文介绍了SRICD技术的设计演变,以适应油藏挑战、安装过程以及完井前后的井况对比。此外,还使用了近井流入模拟器来支持和模拟完井位置、产能,并结合油井生产数据评估完井性能。完井安装和生产优化是成功的,并显著降低了GOR。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Using Autonomous Inflow Control Device Completion to Manage Gas Breakthrough Challenges
During the production of horizontal oil wells, it is crucial to normalize the drawdown once gas breakthrough has occurred. This challenge must be addressed either mechanically or chemically to reduce the gas-oil ratio. Unfortunately, without the use of inflow control devices (ICDs) this can result in loss of oil production. This challenge can potentially be addressed by implementing an advanced inflow control valve completion to suppress the gas-oil ratio (GOR) and maintain oil production. Uneven inflow in a horizontal oil well will usually occur due to a pressure drop in the liner, reservoir fractures and heterogeneities. In fields with free gas, this will cause gas coning and breakthrough leading to a high GOR. As the breakthrough expands, the oil production is reduced due to excessive gas production. Passive ICDs have shown that oil production can be increased. Conventional ICDs are not able to shut off the unwanted gas and water production completely. The newest generation of self-regulated ICDs (SRICDs), utilizes valves where their movement is governed by fluid properties being produced, which autonomously shut off the gas and maximize oil recovery. This paper presents the SRICD technology design evolution to match the reservoir challenges, installation processes and well performance comparison before and after completion deployment. A near wellbore inflow simulator was also used to support and model the completion placement, productivity and evaluate the completion performance together with the well production data. The well completion installation and production optimization was successful, and a significant reduction of the GOR was achieved.
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