High-Performance Water-Base Fluid Performs As An Environmentally Friendly Alternative To Oil-Base for Drilling Challenging Intervals In North Kuwait

A. Heikal, Mohamed El Banna, G. Mănescu, Mohammed Al Mulaifi, I. Mohammed
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Abstract

A major Operator in Kuwait have used historically Non-Aqueous Fluid (NAF) to drill the buildup section through the challenging shale formations, mainly due to wellbore stability issues and lubricity requirements. As part of the operator's environmental improvement strategy, the operator and fluids provider team identified potentially fit for purpose High Performance Water Base Mud (HPWBM) as the most suitable, environmentally acceptable alternative to NAF’s. A HPWBM system was designed and proposed based on extensive laboratory testing to overcome drilling challenges. Inhibition characteristics and formation sealing capabilities of conventional KCL polymer mud with sulphonated asphalt were enhanced by using a liquid polyamine based clay hydration suppressant and a co-polymeric nano-sized shale-sealing additive. A customized bridging package based on the pore size distribution was also introduced, using calcium carbonate and resilient graphite particles. The combination of effective bridging and sealing polymer helped in sustaining high overbalance to avoid differential sticking tendency, designed in laboratory conditions during the planning stage. The field trial was a great success compared to the use of conventional fluid systems and methodologies. Using High Performance Water Base Mud, the operator successfully drilled and cased 12.25" and 8.5" sections as per plan with stable wellbore indicated by the smooth trips and no string stalling or sticking tendency. Drilled 1077 feet of 12.25-in hole section crossing Ahmadi shale and 683 ft. of 8.5" section crossing troublesome Wara shale without any well-bore instability issues even at high inclination. Also, while drilling across depleted Mauddud limestone with 1800-psi overbalance, no differential sticking tendency observed. Both sections were completed in record 11 days, fastest comparing to offset wells drilled with NAF. In this paper, the authors will detail this novel approach of using an environmentally acceptable HPWBM system in the North Kuwait Basin, from planning to execution, which can be implemented further on the field and offers significant cost saving and reduces the risk of HSE issues related to Diesel based NAF systems.
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高性能水基液作为油基的环保替代品,可用于科威特北部具有挑战性的井段钻井
由于井筒稳定性问题和对润滑性的要求,科威特的一家大型作业者一直使用非含水流体(NAF)在具有挑战性的页岩地层中钻造井段。作为作业公司环境改善策略的一部分,作业公司和流体供应商团队确定了高性能水基泥浆(HPWBM)作为NAF最合适、最环保的替代品。基于大量的实验室测试,设计并提出了HPWBM系统,以克服钻井挑战。通过添加液态多胺基粘土水化抑制剂和共聚纳米页岩密封添加剂,提高了常规磺化沥青KCL聚合物泥浆的抑制特性和地层密封能力。根据孔径分布,采用碳酸钙和弹性石墨颗粒定制桥接包。有效桥接和密封聚合物的结合有助于维持高过平衡,避免差别性粘连趋势,这是在规划阶段的实验室条件下设计的。与使用常规流体系统和方法相比,现场试验取得了巨大成功。使用高性能水基泥浆,作业者按照计划成功钻完12.25”和8.5”井段,下入过程平稳,无管柱失速或卡钻现象,井筒稳定。钻进了1077英尺(12.25英寸)的Ahmadi页岩段,钻进了683英尺(8.5英寸)的Wara页岩段,即使在大斜度下也没有出现任何井筒不稳定问题。此外,在过平衡压力为1800 psi的贫化Mauddud灰岩上钻井时,没有观察到差异粘连趋势。这两个井段均在11天内完成,与使用NAF钻井的邻井相比,这是最快的。在本文中,作者将详细介绍这种在北科威特盆地使用环境可接受的高压水轮机系统的新方法,从规划到执行,该方法可以在现场进一步实施,可以显著节省成本,降低与柴油NAF系统相关的HSE问题风险。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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