Flexible Flowline Walking Tendency on Seabed With Longitudinal Undulations and Transverse Gradients

Volume 5: Pipelines, Risers, and Subsea Systems Pub Date : 2018-06-17 DOI:10.1115/OMAE2018-78005

G. Roberts, T. Sriskandarajah, Gianluca Colonnelli, A. Roux, Alan Roy, P. Ragupathy

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Abstract

A method of carrying out a combined axial walking and lateral buckling assessment for a flexible flowline has been developed using finite element analysis. The method overcomes limitations of screening assessments which could be inconclusive when applied either to a flexible flowline on an undulating seabed with transverse gradients or to one that buckles during hydrotest. Flexible flowlines that were to be surface-laid on a seabed with longitudinal undulations and transverse gradients were assessed using the method. The flexible flowlines were simulated in their as-laid state, and the simulation incorporated hydrotest pressure and the pressure & temperature gradients and transients associated with multiple start-ups. The objective was to quantify the axial walking and lateral slip tendency of the flexible flowlines and the impact that walking might have on the connected end structures. The lateral buckle locations predicted by finite element analysis were compared to a post-hydrotest survey and the radius of curvature from analysis was compared to the minimum bend radius of the flexible.

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具有纵向波动和横向梯度的海底柔性流线行走趋势

提出了一种利用有限元分析对柔性管线进行轴向行走和侧向屈曲联合评估的方法。该方法克服了筛选评估的局限性，这些局限性在应用于具有横向梯度的起伏海床上的柔性管线或在水压试验中弯曲的管线时可能是不确定的。在具有纵向波动和横向梯度的海床上铺设的柔性管线使用该方法进行了评估。柔性管线在铺设状态下进行了模拟，模拟包括试水压力、压力和温度梯度以及与多次启动相关的瞬态。目的是量化柔性管线的轴向行走和横向滑移趋势，以及行走可能对连接的末端结构产生的影响。将有限元分析预测的侧扣位置与水压试验后的测量结果进行了比较，并将分析得出的曲率半径与柔性件的最小弯曲半径进行了比较。

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 5: Pipelines, Risers, and Subsea Systems

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