SCR with FPSO Design Challenges Subject to Complex Bi-Modal, Bi-Directional Environment in Ultra-Deep Water

Vinanti Shah, Raymond P. Fales
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Abstract

This paper discusses steel catenary riser (SCR) design challenges subject to complex bi-modal and bi-directional seastates offshore West Africa in ultra-deepwater (2,600m). Metocean data is key to determining the design of SCRs. As offshore exploration continues in remote regions and deeper water depths, it is very important to obtain accurate and comprehensive environmental data for the field. Different locations around the world have distinct offshore environments such as hurricanes, typhoons, swells and squalls with seastates exhibiting a varying range of frequency content. The work in this paper describes effects of multiple seastate modes on the riser’s performance. The risers evaluated are 10 inch production and 18 inch export SCRs connected to a spread moored FPSO. Riser fatigue was particularly challenging given the unique environment consisting of up to four wave modes in a single sea-state. Several sensitivities were performed to improve the fatigue performance of the risers. Finally a feasible riser concept was selected which met all of the project design requirements. Work showcased in this paper will address the challenges of placing steel catenary risers in remote deep water fields with relatively unfamiliar metocean conditions. Several sensitivities are performed with the riser properties, platform motions and environmental data which help to reduce design conservatism and better understand the fatigue response of SCRs connected to a spread moored FPSO.
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SCR与FPSO的设计挑战:超深水复杂的双模态、双向环境
本文讨论了西非海上超深水(2600米)复杂的双峰双向海况下,钢悬链线立管(SCR)的设计挑战。海洋数据是决定scr设计的关键。随着海上勘探不断深入偏远地区和深水区,获得准确、全面的油田环境数据变得非常重要。世界各地的不同地点有不同的近海环境,如飓风、台风、涌浪和暴风,海况呈现出不同范围的频率内容。本文的工作描述了多种状态模式对隔水管性能的影响。评估的立管是10英寸生产和18英寸出口scr,连接到一个扩展系泊FPSO。考虑到在单一海况下存在多达四种波浪模式的独特环境,立管疲劳尤其具有挑战性。为了提高立管的疲劳性能,进行了几种灵敏度测试。最后选择了一个可行的立管方案,满足了所有的工程设计要求。本文展示的工作将解决在相对陌生的海洋条件下的偏远深水油田放置钢制悬链线立管的挑战。通过对立管特性、平台运动和环境数据进行敏感性分析,有助于降低设计保守性,更好地理解与扩展系泊FPSO相连的scr的疲劳响应。
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