阿联酋阿布扎比Al Nouf油田低完井PPL的MRC / ERD井计划与执行

M. A. Hashmi
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引用次数: 0

摘要

该井位于Al nout油田,目的是基于MRC / ERD方法,支持Shuaiba-1地层多口生产井的压力可持续性。本文介绍了该井在规划和钻井过程中所面临的挑战,并成功地进行了小井段完井,总测量深度为21,000英尺(6.4公里),水平段为10,450英尺(3.18公里),定向困难指数(DDI)为6.520,采用了小井套设计。该井的规划是通过与地下作业和油藏团队的会议和合作开始的,共同目标是钻一口水平长度超过11000英尺的井,并能够在Shauiba - 1油藏下部完井至井深(21000英尺)时下入4½”预射孔尾管和多个膨胀封隔器。低完井的目的是为了适当控制井的注入能力,并支持SH-1的多个生产商。通过适当的规划和工程分析,例如轨迹、碰撞风险、底部钻具组合、液压系统和套管设计,所有相关风险都得到了突出和缓解。这口MRC注入井的井径为21000英尺/ TVD为8953英尺(ERD H:V比为2.34),是该地区第一口拥有11000英尺地质导向6英寸水平段的井,并在井深前安装了小尺寸完井装置。本文将介绍一种创新的方法,以减轻钻井3500英尺的复杂井所面临的挑战,该井的水平段超过11000英尺,排水系统为6英寸。一些挑战,如地面和水平段的碰撞风险以及含水层的总损失,是主要的担忧,但成功地解决了这些问题。第二个主要挑战是将4.5英寸预射孔尾管(11000英尺)与多个膨胀封隔器(每个1000英尺)一起下至井深,通过先进的工程分析和创新技术(如旋转控制器等)完美地缓解了这一挑战。该井的结果证明,MRC / ERD井的较低完井率显著改善了井的可达性和井的性能,加强了油藏管理,显著降低了油田开发成本。本文总结了人工岛MRC / ERD井成功钻井的实践和技术,以及水平段下小段完井至井深。本文解释的挑战及其缓解措施将支持MRC/ERD井的较低完井率的想法,这有助于扩展储层边界,并且由于膨胀封隔器的适当隔离,可以更好地控制储层的注入能力/产能,并且在ERD水平段具有最大的井可达性。
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Planning and Execution of MRC / ERD Well with Slim Lower Completion PPL in Al Nouf Field, Abu Dhabi, UAE
Well was drilled in Al Nouf field with the objective to support the pressure sustainability of multiple producer wells across Shuaiba-1 formation based on MRC / ERD approach. This paper presents the challenges faced in planning and drilling of subject well and successfully running of slim lower completion to total measured depth of 21,000ft (6.4 km) with having horizontal section of 10,450ft (3.18 km) with directional difficulty index (DDI) of 6.520 using slim casing design. Planning of this well commenced by meetings and collaboration with subsurface operation and reservoir team with the common objective of drilling a well of over 11,000ft horizontal extent and having a capability of running 4 ½" pre-perforated liner with multiple swell packers as lower completion to well TD of (21,000ft) across Shauiba - 1 reservoir. Purpose of lower completion are to properly control the well injectivity regime and support multiple producers across SH-1. All the associated risks were highlighted and mitigated by proper planning and engineering analysis such as trajectory, collision risks, BHA, hydraulics and casing design. This MRC injector well of 21,000ft MD / 8953 ft TVD (2.34 ERD H:V ratio) is the first well in the region to have 11,000ft of geo-steered 6" horizontal section with slim lower completion installed till TD of well. This paper will explain the innovative approach of mitigating the challenges faced while drilling a complex well of 3500ft departure and have a horizontal section of over 11,000ft with 6" drainage. A few challenges like collision risk at surface & horizontal section with total losses across aquifer were major disquiet but successfully catered. Second major challenge was to run 4 ½" pre-perforated liner of 11,000ft with multiple swell packers (each 1000ft) to TD of well were immaculately mitigated with advanced engineering analysis and innovative technologies like swivel master etc. Results from this well have proven that having lower completion in MRC / ERD wells have significantly improved the well accessibility and well performance and enhanced the reservoir management and significantly reduced the field development cost. This paper summarizes the practice and technology used to drill successfully the MRC / ERD well in artificial island and running of slim lower completion across horizontal section till TD of well. The challenges and its mitigation explained in this paper will support the idea of having lower completion in MRC/ERD wells which helps to stretch the reservoir boundaries and have more control on injectivity / productivity of reservoir because of proper isolation by swell packers and have maximum well accessibility across ERD horizontal section.
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