应用自主流入控制装置提高超薄油环的产油量

I. M. Ismail, N. Sidik, Faez Syarani Wahi, Giok Lin Tan, Focht Tom, Frazer Hillis
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引用次数: 5

摘要

尽管水平井提高了产能,提高了采收率,但储层的非均质性会导致产量不均匀,并且会导致部分井眼早期出现水和气突破。流入控制装置(ICD)产生额外的压降来平衡生产流量,但一旦不需要的流出物突破,就不能限制它们。自动流入控制装置(AICD)根据流过它的流体的性质(粘度)主动提供可变流量限制。通过该装置的水或气体比石油更受限制。当在水平井中使用时,分割成多个隔室,这种设计可以防止在一个或多个隔室发生突破后过量产生不需要的废水。在2016年的充填开发活动中,aicd提高了产量,以确保所有储层段的贡献,并通过推迟突破和限制突破后的有害废水产生来限制气和水的产量。在马来西亚海上的一个油田开发项目East Belumut和West Belumut,选择了一个9口井的项目来验证AICD完井的有效性。这些井的水平长度通常为1.5km, West Belumut的原始油柱为6-8m薄,East Belumut的原始油柱为10-14m薄。该项目包括AICD流动循环测试、性能建模、候选井选择、完井设计,并将生产结果与油田邻近的ICD井进行比较。AICD完井作业取得了成功,并于2017年在全油田实施。AICD完井系统于2016年3月首次安装,作为East Belumut地区标准下部完井解决方案的一部分。到目前为止,在Belumut东部和西部油田已经完成了额外的AICD完井,表明累积产油量显著增加,AICD井的GOR降低了50%,与ICD井相比,产量增加了50%。本文介绍了在马来西亚海上超薄层油藏中应用aicd的现场实施情况。采用aicd完成了两个不同油田的9口新水平井,以减少这些井的水和气产量,并提高该资产的储量采收率。本文描述了确定候选技术适用性的工作流程、完井设计过程以及该方案在2年后的生产效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Increased Oil Production in Super Thin Oil Rim Using the Application of Autonomous Inflow Control Devices
Despite the improved productivity and uplift in reserve recovery associated with horizontal wells, reservoir heterogeneity can cause uneven production, and early water and gas breakthrough from portions of the wellbore. Inflow control devices (ICD) create additional pressure drop to balance the production flux, but cannot restrict unwanted effluents once they break through. The Autonomous Inflow Control Device (AICD) actively delivers a variable flow restriction in response to the properties (viscosity) of the fluid flowing through it. Water or gas flowing through the device is restricted more than oil. When used in a horizontal well, segmented into multiple compartments, this design prevents excessive production of unwanted effluents after breakthrough occurs in one or more compartments. In the 2016 infill development campaign, production was improved by AICDs to ensure contribution from all reservoir sections, and limit gas and water production by postponing breakthrough and restricting unwanted effluent production after breakthrough. A nine well program was selected to demonstrate the effectiveness of AICD completions in the East Belumut and West Belumut assets, a field development offshore Malaysia. The wells are drilled with horizontal lengths typically 1.5km within the original 6-8m thin oil column for West Belumut and 10-14m thin oil column for East Belumut. The program comprised of AICD flow loop testing, performance modelling, candidate selection, completion design and comparing production results with neighbouring ICD wells in the fields. The implementation of an AICD completion was a success and full fields implementation took place in 2017. First installed in March 2016, the AICD completion was adopted as part of the standard lower completion solution at East Belumut. To date additional wells have been completed with AICD completions in East and West Belumut fields, demonstrating significant increase in cumulative oil production, reduction in GOR of the AICD wells by 50%, and achieving 50% more oil production compared to offset ICD wells. This paper describes a full field implementation for the application of AICDs in a super thin layer, oil reservoir offshore Malaysia. Nine new horizontal wells in two different fields were completed with AICDs to reduce the amount of water and gas production from these wells and to enhance the reserve recovery from the asset. The paper describes the workflow for establishing the suitability of candidates for the technology, the completion design process, and the enhanced production results of the program after 2 years production.
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