Operational Challenges for Drilling Shallow Water Wells With Dynamically Positioned Rigs

Rohit Vaidya, M. Sonawane
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Abstract

Traditionally, shallow water wells have been drilled from fixed platforms, jack-ups or moored drilling rigs. Recently there has been increased interest in performing operations on these wells using new generation of Dynamically Positioned (DP) rigs, driven by available capacity of these rigs and environmental regulations that restrict laying anchors on the seabed. Shallow water offshore drilling operations present a set of unique challenges and these challenges are further amplified when operations are performed on older wells with legacy conductor hardware with newer DP vessels and larger BOPs. The objective of the paper is to present challenges that occur during drilling in shallow water and discuss mitigation options to make these operations feasible through a series of case studies. Key challenges to optimizing riser operability and rig uptime are discussed. Potential modifications to the upper riser stack-up and rig deck structure for maximizing operational uptime are discussed. Riser system weak point assessment is presented along with solutions for mitigating risks in case the wellhead or conductor structural pipe is identified as the weak link. Selection of the drilling rig can have significant impact on wellhead fatigue response. Some criteria for rig selection based on drilling riser and wellhead system performance is presented with the objective of optimizing the fatigue performance of the wellhead and conductor system. Wellhead fatigue monitoring solutions in combination with physical fatigue mitigation options are presented to enable operations for fatigue critical wells.
动态定位钻机钻浅水井的作业挑战
传统上,浅水井是从固定平台、自升式钻井平台或系泊式钻井平台上钻探的。最近,由于新一代动态定位(DP)钻机的可用容量和限制在海底铺设锚的环境法规的推动,人们对使用新一代动态定位(DP)钻机在这些井进行作业的兴趣越来越大。浅水海上钻井作业面临着一系列独特的挑战,当在使用传统导管硬件、使用新型DP船和更大防喷器的老井中进行作业时,这些挑战会进一步扩大。本文的目的是介绍浅水钻井过程中遇到的挑战,并通过一系列案例研究讨论缓解方案,使这些作业可行。讨论了优化立管可操作性和钻机正常运行时间的主要挑战。讨论了对上部立管堆叠和钻机甲板结构的潜在修改,以最大限度地延长作业正常运行时间。在井口或导管结构管被确定为薄弱环节的情况下,提出了立管系统弱点评估以及降低风险的解决方案。钻井平台的选择对井口疲劳响应有重要影响。提出了基于隔水管和井口系统性能的钻机选型标准,以优化井口和导管系统的疲劳性能。井口疲劳监测解决方案与物理疲劳缓解方案相结合,使疲劳关键井的作业成为可能。
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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