Integrity Management for Steel Catenary Risers With Design Life of 30 Years

Hao Song, Chen Yu, Yongming Cheng, Jing Hou
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Abstract

The riser is a critical element in a subsea production system for transporting hydrocarbons from the seafloor to the surface. The track record of existing riser systems worldwide has shown that risers tend to be designed conservatively to accommodate dynamic loads, strength and fatigue requirements, and corrosion/erosion provision needs. Among all the riser types, the steel catenary riser (SCR) is the most installed riser configuration for deepwater oil and gas production worldwide in the last two decades. This is mainly because of their simple configuration and relatively low manufacturing and installation cost. As riser technology advances, SCRs are designed to tackle more challenging environments and longer service lives. For the riser life extension applications, regulatory bodies prefer riser operations to be managed through an integrity management program, demonstrating that a robust framework with detailed records on the conditions of the risers is in place. This paper studies an integrity management program for SCRs with a 30-year design life in a harsh environment. The planned riser integrity management program is based on successful industry practice and the newly published riser integrity management standard API RP 2RIM [4]. It starts with a review of the riser design basis and as-built data, continuing with key field data measurement and production fluid sampling. A digital model, continuously calibrated with the measured data, is established to assess the integrity of the riser system. Key physical quantities are selected to monitor the structural health of the SCRs, including vessel motion measurement, measurement of SCR top hang-off angles and tensions, and full water column current measurement. The relationship between the measurement data and the riser strength and fatigue performance is established. Details of the riser integrity assessment in a digital model utilizing the measurement data are presented. The implemented proposed riser integrity management program is expected to provide a more focused and efficient method with a higher level of confidence in operating the SCRs during the design life and potentially beyond.
设计寿命为30年的钢制悬链立管的完整性管理
立管是海底生产系统中将碳氢化合物从海底输送到地面的关键部件。全球现有立管系统的历史记录表明,为了适应动态载荷、强度和疲劳要求以及腐蚀/侵蚀供应需求,立管的设计往往比较保守。在所有立管类型中,钢制悬链线立管(SCR)是过去20年来全球深水油气生产中安装最多的立管配置。这主要是因为它们配置简单,制造和安装成本相对较低。随着立管技术的进步,scr被设计用于应对更具挑战性的环境和更长的使用寿命。对于隔水管使用寿命延长的应用,监管机构更倾向于通过完整性管理程序来管理隔水管的操作,这表明有一个关于隔水管状况的详细记录的强大框架。本文研究了在恶劣环境下设计寿命为30年的scr的完整性管理方案。计划中的立管完整性管理方案基于成功的行业实践和新发布的立管完整性管理标准API RP 2RIM[4]。首先回顾立管的设计基础和建成数据,接着是关键的现场数据测量和生产流体采样。通过不断校准测量数据,建立一个数字模型来评估立管系统的完整性。选择关键物理量来监测SCR的结构健康状况,包括船舶运动测量、SCR顶部悬垂角和张力测量以及全水柱电流测量。建立了测量数据与隔水管强度和疲劳性能之间的关系。提出了利用测量数据在数字模型中进行立管完整性评估的细节。立管完整性管理方案的实施有望提供一种更专注、更有效的方法,在设计寿命期间甚至更长时间内对scr的操作有更高的信心。
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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