Fatigue Life Extension Procedure for Subsea Wells Based on Pressure Testing

Volume 4: Pipelines, Risers, and Subsea Systems Pub Date : 2021-06-21 DOI:10.1115/omae2021-63003

Arne Fjeldstad, T. Hørte, G. Sigurdsson, A. Wormsen, E. Berg, K. Macdonald, L. Reinås

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Abstract

This article presents a fatigue life extension procedure for subsea wells based on fracture mechanics. It makes use of the outcome of an internal pressure test to determine a safe period for drilling and completion. The pressure test is used as a load test and can only reveal deep fatigue cracks. The safe operational period is estimated as the number of cycles required to grow a fatigue crack from the largest fatigue crack that remains stable after the pressure test until it becomes unstable due to an accidental load. The procedure takes into account the probability of the presence of the fatigue crack that can be revealed by the pressure test. This is used to determine design fatigue factors for the procedure. The design fatigue factor is formulated in terms of the (S-N based) accumulated fatigue damage for historical operations. The procedure is illustrated with two case examples (fatigue hot spots) for illustrating the procedure in more detail: wellhead extension girth weld and wellhead profile. Conditions for use are given at the end of the article.

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基于压力测试的海底油井疲劳寿命延长方法

本文提出了一种基于断裂力学的海底油井疲劳寿命延长方法。它利用内部压力测试的结果来确定钻完井的安全周期。压力试验作为载荷试验，只能显示深度疲劳裂纹。安全运行周期是指从压力试验后保持稳定的最大疲劳裂纹扩展到因意外载荷而变得不稳定所需的循环次数。该程序考虑了压力试验可以揭示的疲劳裂纹存在的可能性。这用于确定程序的设计疲劳系数。设计疲劳系数是根据历史作业的累积疲劳损伤(S-N为基础)制定的。为了更详细地说明这一过程，本文给出了两个实例(疲劳热点):井口延伸环焊缝和井口剖面。在文章的末尾给出了使用条件。

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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Volume 4: Pipelines, Risers, and Subsea Systems

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