Breaking ERD Records with Optimized Engineering and Practices: Making the Impossible Possible

Hussien Alzaki, Nadhir Rahmani, M. Carr
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Abstract

Long-extended reach drilling (ERD) well has become necessary to reach untapped resources. This paper will describe pre-planning, execution and post results of drilling ERD wells with large bore design of 12¼" as the main step out section and deploying 9⅝" casing on shallow TVD of 4,200’. Progressive increase of the ERD ratio and complexity from one well to the next was planned and executed till we reached the longest well deploying 8 KM of 9⅝" casing with 5.4 ERD ratio at 26,179' TD horizontally all the way. A learning curve was established on drilled wells while progressively increasing reach and complexity. Subject well was the longest of any well planned in the field by far. Success involved implementation of technically modeled engineered solutions and verified during execution. Operational procedures including but not limited to: proper planning and execution of well profile to ensure optimum placement in a specific formation and minimum side forces. Drilling and tripping procedures to ensure the lowest friction factor (FF) and allow drilling to target depth (TD) with optimum rig capability. Engineered solution for casing running technologies, which involved rotation and conventional running and floatation. The longest ERD well was drilled to 26,179' TD with field ROP record in 12¼" hole section, maintaining very good hole quality proved by smooth bit trips out of hole and the final trip at TD on elevators. Hole cleaning and fluids strategy was developed and executed efficiently to measure FFs as low as possible for successful 9⅝" deployment. Engineered solution was proposed for 9⅝" deployment and was successfully trial tested on a shorter well to validate simulations. Casing rotation FFs came close to the modeled FFs. The 9⅝" Casing was deployed to bottom as planned and the cement job was performed successfully. Various records were achieved: the subject well achieved the deepest 9⅝" horizontal casing, the deepest 12¼" horizontal at TVD shallower than 5,000'. The longest 12¼" horizontal open hole at TVD shallower than 5,000' with section footage of 16,164'. The 9⅝" casing was deployed as a long string, eliminating the cost and challenges of a liner hanger and the need for a future tieback and also keeping hole sizes available for main and contingency sections to drill the reservoirs ahead. In addition to existing developed procedures and practices for ERD wells, subject well was dealing with the challenge of drilling a long 12 ¼" hole with a torque limitation of 30K lbsf.ft on TDS, and 4200 psi on surface equipment, and running the longest casing horizontally at such a shallow TVD, which is being done the first time globally. The success proved that challenging ERD wells can be drilled with optimum investments on rig capabilities.
通过优化工程和实践打破ERD记录:使不可能成为可能
大位移钻井(ERD)已成为开发未开发资源的必要条件。本文将介绍在4200英尺浅井眼上,以12¼”的大井径设计作为主要出井段,下入9⅝英寸完井套管的ERD井的前期规划、实施和后期效果。我们计划并执行了井间ERD比和复杂性的逐步增加,直到最长的一口井完成了8公里的9⅝英寸套管,在26179英尺的水平TD处,ERD比为5.4。随着深度和复杂性的不断增加,已经钻井的井建立了学习曲线。实验井是该领域迄今为止规划的井中最长的。成功涉及技术建模工程解决方案的实现,并在执行期间进行验证。作业程序包括但不限于:正确规划和执行井剖面,以确保在特定地层中的最佳位置和最小的侧力。钻井和起下钻程序,以确保最低的摩擦系数(FF),并以最佳的钻机性能钻进目标深度(TD)。套管下入技术的工程解决方案,包括旋转、常规下入和浮法。最长的ERD井钻至26179英尺的TD,在12¼”的井段创下了现场ROP记录,通过顺利起下钻和在TD处的最后起下钻,保持了非常好的井质量。开发并高效执行了井眼清洗和流体策略,以尽可能低地测量管柱的FFs,从而成功完成9⅝英寸完井管柱的下入。该解决方案适用于9⅝英寸完井管柱,并成功在一口较短的井中进行了模拟测试。套管旋转FFs与模拟的FFs接近。9⅝英寸完井管柱套管按计划下入井底,固井作业成功完成。该井创造了多项记录:该井在TVD小于5000英尺处钻出了最深的9⅝英寸水平套管,最深的12¼英寸水平套管。TVD最长的12¼”水平裸眼小于5000英尺,截面进尺为16164英尺。该9⅝英寸完井联顶完井管柱作为一根长管柱下入,消除了尾管悬挂器的成本和挑战,并且无需在未来进行回接,同时也保证了主井段和应急井段的井眼尺寸可用。除了现有的ERD井开发程序和实践外,该井还面临着钻12¼”长井、扭矩限制为30K lbsf的挑战。这是全球首次在如此浅的TVD下入最长的水平套管。这一成功证明,通过对钻机性能的最佳投资,可以钻出具有挑战性的ERD井。
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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