Optimizing Rotary Shoulder Connection for Drilling Program

ShankarNayak Bhukya, Guillaume Plessis, Raza Hussain
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Abstract

The drill string may be considered a minute component of the complex drilling program; however, it is more essential to the program than often thought. It has also become more challenging to select the right rotary shoulder connection when many are available to the drilling engineer. There is a wide choice of technologies available that have different functionalities and limitations. One may also be hard-pressed with selecting the right drill pipe as choices can be quite confusing even to specialists, yet the drilling engineer must select the correct drill string and drill pipe connection. If not properly optimized, he/she may either over-engineer or under-engineer the drill string design for the said program and have to deal with the consequences. Often enough, original equipment manufacturers (OEM) are involved in application work, helping drilling engineers find a workable solution for a project they are working on. Finding an optimized selection of components to be assembled in as string that will be used to drill and complete a field development is essential. It requires choosing tools that will be able to resist the torsional, tensile, pressure loads, optimizing hydraulics as well as resisting fatigue and exposure to corrosive fluids. A number of technologies are available that will help to deliver challenging prospects or help maintain the cost of operation as minimum as possible. This paper lists field-proven solutions that are trending in the industry, with the hope that adopting the appropriate ones will deliver results by improving drilling and completion efficiency.
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优化钻井项目的旋转肩接
钻柱可以被认为是复杂钻井程序的一个微小组成部分;然而,它比人们通常认为的更重要。当钻井工程师可以选择许多旋转肩接头时,选择合适的旋转肩接头也变得更具挑战性。有许多可用的技术可供选择,它们具有不同的功能和限制。选择合适的钻杆也可能会很困难,因为即使是专家也会感到困惑,但钻井工程师必须选择正确的钻柱和钻杆连接。如果没有进行适当的优化,他/她可能会对所述项目的钻柱设计进行过度设计或设计不足,并不得不处理后果。通常情况下,原始设备制造商(OEM)也会参与到应用工作中,帮助钻井工程师为他们正在进行的项目找到可行的解决方案。找到一个优化的组件组合成一个管柱,将用于钻井和完井油田开发是至关重要的。这需要选择能够抵抗扭转、拉伸、压力载荷的工具,优化液压系统,以及抵抗疲劳和腐蚀性流体的暴露。现有的一些技术将有助于提供具有挑战性的前景或帮助尽可能降低运营成本。本文列出了行业中经过现场验证的解决方案,希望采用合适的解决方案能够提高钻井和完井效率。
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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