在科威特北部深层侏罗系油田成功安装并连续启动了额定15,000 psi的液压机械多级完井装置,提高了完井效率和产能

Y. Al-Otaibi, M. Al-Mutawa, T. Bloushi, E. Fidan, S. Sharma, S. Pradhan, P. Manimaran
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引用次数: 0

摘要

在过去的十年里,北科威特侏罗纪天然气(NKJG)储层的永久尾管完井优化一直是一个挑战。为了确定最佳的完井硬件和激活方法,需要对各种完井方案进行现场测试。该资产的目标是多方面的:保护天然裂缝,最大限度地减少地层损害,隔离,增产和激活,同时有效地安装永久完井硬件,可以承受高温和含酸气环境下的15,000 psi压差,并在油井寿命超过20年的情况下保持生产。NKJG面临着在短时间内将油气生产潜力提高200%以上的艰巨任务。储层为高压高温(HTHP)凝析气藏,基质致密(渗透率<0.1 mD),流体带内的天然裂缝段分为8段。保护天然裂缝,消除近井损伤,根据岩性和油藏的关键属性隔离流动区域,这一点非常重要,特别是在外围地下位置,在这些位置,实现油藏的全部潜力不仅是成功生产的必要条件,而且还需要对边界条件进行评估。为了实现这些目标,该资产定制设计了多级完井系统,该系统包括液压机械尾管悬挂封隔器、裸眼封隔器、液压锚和多个压裂端口,并作为一个落球系统进行设置和激活。由于完井载荷高,压差体和封隔器的额定压力达到15,000 psi,整个过程中都使用了耐腐蚀合金,PBR和密封井眼组合的设计可以承受多次压裂过程中的压差和收缩。成功安装了定制设计的多级完井总成(MSC-HP),随后进行了水力压裂和反排混合测试。制定了定制的作业指南,包括预先设定的成功标准、裸眼和井径测井序列、回接固井和随后的清井起下钻,然后进行井眼调节和扩眼器下入,以计算最终的阻力和摩擦力。通过避免因该区域明显的差异枯竭而加剧的“压力斜坡”,降低了差异卡钻风险。为了最大限度地提高流动潜力,油藏被划分为三个不同的层段。结果,该资产的目标成功实现,另外还有额外的好处,证明了多个区域的激活,每个区域都有一个复杂的操作事件序列,在四天内依次完成。本文记录了MSC-HP在外围深层NKJG资产中从成功的规划和设计到安装和执行阶段的项目周期。总结了在地下位置不太有利的情况下取得成功的关键经验和关键因素。由于全球类似物的数量很少,导致行业学习非常规/常规混合层状碳酸盐岩的机会有限,因此将讨论由于严格的NKJG规格而增加的复杂性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Field Application of Successful Installation and Sequential Activation of 15,000-psi Rated Hydro-Mechanical Multi-Stage Completion in Peripheral Deep North Kuwait Jurassic Asset for Improved Completion Efficiency and Well Productivity
Optimization of permanent liner completions in the North Kuwait Jurassic Gas (NKJG) reservoirs has been an ongoing challenge progressed on a steep learning curve within the last decade. Various completion options are field-tested in determining the optimal completion hardware and activation methodology. The asset's objectives have been multi-dimensional: preserve natural fractures, minimize formation damage, segregate, stimulate and activate optimally, while installing permanent completions hardware efficiently, which can withstand 15,000-psi differential pressure at high temperature and sour gas environment and sustain production for the well life of over 20 years. NKJG faces the enormous task of increasing the hydrocarbon production potential by over 200% within a short time period. The reservoirs are high-pressured and high-temperature (HTHP) gas condensate assets with tight matrix properties (i.e. <0.1 mD permeability), in variation with naturally fractured sections within flow-zones separated into eight segments. Preserving the natural fractures, removal of near wellbore damage and segregating flow-zones based on lithology and critical reservoir properties are important especially in peripheral subsurface locations, where the realization of full reservoir potential is not only essential for production success, but also required for appraisal of boundary conditions. For realizing these objectives, the asset custom-designed a multi-stage completion system with hydro-mechanical liner hanger packer, open-hole packers, hydraulic anchor and multiple frac ports set and activated as a drop-ball system. Due to the high completion loads, differential body and packer rating are manufactured to 15,000 psi using corrosion resistant alloy throughout, with the PBR and seal-bore assembly designed to withstand differential pressures and contraction during multiple fracturing events. Custom-designed multi-stage completion assembly (MSC-HP) was successfully installed, sequentially hydraulic-fracced and commingle-tested on flowback. Customized operational guidelines were established including a pre-set success criterion, openhole and caliper log sequences, tie-back cementation and subsequent clean out trips, followed by hole conditioning and reamer runs to compute the final drag and friction forces. Differential sticking risks were mitigated by avoiding the "pressure ramps" exacerbated by differential depletion evident in the area. Reservoir was segmented in three distinct intervals to maximize flow potential. As a result, the asset's objectives were successfully met, with the additional benefits of proving multiple zone activation, each with a complicated sequence of operational events, performed sequentially in four days. This paper documents the project cycle from successful planning and design, to installation and execution phases of the MSC-HP in peripheral deep NKJG asset. Key learnings and critical factors, which led to the successful well results in spite of less favorable subsurface location are summarized. Added complications due to the severe NKJG specs will be discussed as the number of global analogues is scarce leading to limited opportunities for the industry to learn from in unconventional/conventional mix layered carbonates.
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