触地区海底沟槽剖面改进经验公式及其对钢接触网立管疲劳的影响

S. Zhuang, C. Shi, M. Lou, Y. Liu, X. Bao, H. Li
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引用次数: 1

摘要

钢制悬链线立管(scr)为深水部署提供了一种经济高效的解决方案。SCR悬挂在浮子上,通常在悬空位置受到较大的拉力和触地区域(TDZ)的大弯矩,从而导致疲劳损伤。现场观测表明,海底沟槽的深度可能达到隔水管直径的4 ~ 5倍,然而,SCR的建模通常假设海床是平坦的,这肯定会影响SCR在着陆区疲劳行为的模拟。不同研究人员对海底沟槽对TDZ疲劳影响的研究得出了相互矛盾的结论,有的研究认为考虑海底沟槽可以降低scr TDZ处的疲劳损伤,而有的研究则得出相反的结论。这种矛盾可能是由于分析模型中假设的海况不同和海沟剖面不合适等因素造成的。最初由Wang和Low开发并在本工作中进一步改进的迭代程序用于估计SCR下方海底沟槽的位置和长度,然后生成改进的经验公式来近似海底沟槽的轮廓。此外,通过动态仿真研究了海底沟槽对scr在不同方向波作用下疲劳行为的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improved Empirical Formulation for Seabed Trench Profile at Touchdown Zone and its Effects on Fatigue of Steel Catenary Risers
Steel catenary risers (SCRs) offer a cost-effective solution to deep water deployments. Hanging from a floater, an SCR is commonly subjected to large tension at hangoff location and large bending moments at touchdown zone (TDZ) which lead to fatigue damage. Field observations showed that the depth of a seabed trench might reach to a depth of four to five times of the diameter of a riser, however, a flat seabed was often assumed for the modeling of SCRs which surely affects simulations of fatigue behavior of the SCR at the touchdown zone. Studies on the effects of seabed trench on TDZ fatigue conducted by different researchers led to contradictory conclusions, i.e., some studies suggested that considering seabed trench reduced fatigue damage at TDZ of SCRs, while, others drew opposing conclusions. The contradiction may be explained by factors including inappropriate trench profiles and different sea states assumed in the analysis model. An iterative procedure initially developed by Wang and Low and further improved in the present work was used to estimate the position and the length of a seabed trench beneath an SCR and, then, an improved empirical formulation was generated to approximate the profile of the seabed trench. Additionally, dynamic simulations were conducted to study the effects of seabed trench on fatigue behaviors of SCRs encountering variant directional waves.
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