Longest in Asia Pacific: Robust BHA Design Optimization Using Advanced FEA Modeling for Two Consecutive Hole-Opening Sections in HPHT Well

Nik Fahusnaza Nik Mohd Najmi, Alif Shamir Baharudin, Khabilashini Ravendrnathan, Vaniel Anyi, Beng Seow Chai, Jen Ming Lim, Gregg Alexander
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Abstract

Designing robust hole-opening BHA to drill two consecutive sections with interbedded formation in a deep HPHT appraisal well is exceptionally challenging. The two hole-opening sections, 17in × 20in and 14-3/4in × 17in need to retain strict verticality requirement and the final hole diameter sizes must be guaranteed to allow for smooth casing running operations. Conventional method, consisting of pilot hole drilling and a dedicated hole-opening run, is time consuming. Hence, the Operator decided to proceed with single run hole-opening while drilling approach for significant time saving benefit. Utilizing finite element analysis modeling approach, tandem reamer BHA were designed and proposed for both hole-opening sections. The BHA consists of a PDC bit, a hydraulic-actuated reamer near the bit and a mechanical-actuated reamer above MWD tools. This BHA design concept can deliver both hole-opening and rat-hole cleaning operations in a single run. BHA optimization modeling was also done to select robust and appropriate cutting structures that can yield the most stable drilling dynamics with suitable drilling parameters. Applying the FEA modeling recommendations in the 17in × 20in hole-opening section, the operation went smoothly as planned for the first 1184m until a vibration level increase was observed, believed to be due to an unexpected sudden increase in the hardness of the interbedded formation. Realizing the potential of similar risk happening for the next hole interval, a conventional two-runs approach was implemented in the 14-3/4in × 17in section. A pilot hole was first drilled with a steerable motor BHA for trajectory adjustment and then followed by a dedicated under-reaming only (URO) operation with a bullnose BHA. The 937m under-reaming interval was executed successfully without any downhole issues, despite lower ROP than initially expected.
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亚太地区最长:利用先进的有限元模型对高温高压井连续两段开孔进行稳健的BHA设计优化
在高温高压评价井中,设计一个坚固耐用的井下钻具组合,以钻两个连续段的互层地层,这是非常具有挑战性的。17in × 20in和14-3/4in × 17in两个开孔段需要保持严格的垂直度要求,并且必须保证最终的孔径尺寸,以保证套管的顺利下入。传统的方法,包括先导孔钻井和专门的开孔作业,是耗时的。因此,作业者决定在钻进过程中进行单趟开孔,以节省大量时间。利用有限元分析建模方法,设计并提出了适用于两个开孔段的串联式扩眼器BHA。BHA由PDC钻头、钻头附近的液压驱动扩眼器和MWD工具上方的机械驱动扩眼器组成。这种BHA设计理念可以在一次下入中同时完成开孔和老鼠眼清洗作业。此外,还进行了底部钻具组合优化建模,以选择坚固且合适的切削结构,从而在合适的钻井参数下产生最稳定的钻井动态。在17in × 20in的开孔段应用FEA建模建议,在前1184m的作业按计划顺利进行,直到观察到振动水平增加,这被认为是由于层间地层的硬度意外突然增加。考虑到下一个井段可能发生类似的风险,在14-3/4in × 17in井段采用了常规的两趟钻进方法。首先使用可导向电机BHA钻导孔,用于轨迹调整,然后使用bullnose BHA进行专用扩眼(URO)作业。尽管ROP低于最初的预期,但937m的扩眼段成功完成,没有出现任何井下问题。
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