Maximizing Recovery from a Depleted Oil Rim Carbonate Reservoir Through an Integrated FDP Approach: Case Study Onshore Field Abu Dhabi, UAE

M. F. Fathalla, M. A. Al Hosani, I. Mohamed, A. A. Al Bairaq, Aditya Ojha, S. Mengal, Y. Pramudyo, R. Nachiappan, I. O. Bankole
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Abstract

This paper examines risk and rewards of co-development of giant reservoir has gas cap concurrently produce with oil rim. The study focus mainly on the subsurface aspects of developing the oil rim with gas cap and impact recoveries on both the oil rim and gas cap. The primary objective of the project was to propose options to develop oil rims and gas cap reservoir aiming to maximize the recovery while ensuring that the gas and condensate production to the network are not jeopardized and the existing facility constraints are accounted. Below are the specific project objectives for each of the reservoirs: To evaluate the heterogeneities of the reservoir using available surveillance information data.To evaluate the reservoir physics and define the depleted oil rims current Gas oil contact and Water Oil Contact using the available surveillance information and plan mitigate reservoir management plan.To propose strategies in co-development plan with increase in oil rim recovery without impact on gas cap recovery.To propose the optimum Artificial methods to extended wells life by minimize the drawn down and reduce bottom head pressure.To propose methods to reduce the well head pressure to reduce back pressure on the wells. The methodology adopted in this study is based on the existing full field compositional reservoir simulation model for proposing different strategical co-development scenario: Auto gas lift Pilot implementation phase.Reactivate using Auto gas lift all the in-active wells.Propose the optimum wells drilling and completion design, like MRC, ERD and using ICV to control water and gas breakthrough.Proposing different field oil production plateauPropose different water injection scheme The study preliminary findings that extended reach drilling (ERD) wells were proposed, The ability to control gas and water breakthrough along the production section will be handled very well by deploying the advanced flow control valves, reactivation of existing Oil rim wells with Artificial lift increases Oil Rim recovery factor, and optimize offtake of gas cap and oil rim is crucial for increase the recovery factories of oil Rim and gas cap.
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通过综合FDP方法最大限度地提高枯竭油环碳酸盐岩油藏的采收率:以阿联酋阿布扎比陆上油田为例
本文考察了气顶与油环并产的巨型油藏协同开发的风险与收益。该研究主要集中在开发含气顶油环的地下方面,以及对油环和气顶采收率的影响。该项目的主要目标是提出开发油环和气顶油藏的方案,旨在最大限度地提高采收率,同时确保网络的天然气和凝析油生产不受影响,并考虑到现有设施的限制。以下是每个水库的具体项目目标:利用现有的监测信息数据评估水库的非均质性。利用现有的监测信息,评估储层物理特性,确定枯竭油圈当前的油气接触面和水油接触面,并制定相应的油藏管理计划。提出在不影响气顶采收率的前提下提高油环采收率的协同开发方案策略。通过减小井底压头和井底压头,提出延长油井寿命的最佳人工方法。提出了降低井口压力的方法,以降低井的背压。本研究采用的方法基于现有的全油田油藏组成模拟模型,提出了不同的战略协同开发方案:自动气举试点实施阶段。使用自动气举重新激活所有处于活动状态的井。提出MRC、ERD、利用ICV控制水、气窜等最佳钻完井设计方案。提出不同的油田采油平台提出不同的注水方案提出了大位移钻井(ERD)井的初步研究结果,通过部署先进的流量控制阀,可以很好地控制生产段的气和水突破,通过人工举升重新激活现有油环井,可以提高油环采收率。优化气顶、油环采油是提高油环、气顶采收率的关键。
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