Local Scour around a Monopile Foundation for Offshore Wind Turbines and Scour Effects on Structural Responses

W. Qi, F. Gao
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引用次数: 5

Abstract

Monopile is the most commonly used foundation type for offshore wind turbines. The local scour at a monopile foundation generated by the incoming shear flow has significant influence on both quasi-static lateral responses and dynamic responses of the monopile. This chapter focuses particularly on characterizing the local scour in both spatial and temporal scales and revealing the scour mechanisms associated with the flow field around a monopile. The predicting methods for the equilibrium scour depth and the time scale of scour are detailed under various representative flow conditions in the marine environment. The scale effect while extrapolating the results of model tests to prototype conditions is highlighted. The local scour imposes significant influence not only on the deformation and stiffness of the monopile foundation, but also on the natural frequency and fatigue life of the structure system. Monopiles with diameters up to 10 m have become a feasible option as the industry is currently advancing into deeper waters. More meticulous considerations for monopile design associated with the scour depth prediction and evaluation of scour effects are still in need to efficiently minimize the cost while remaining safety simultaneously.
海上风力发电机组单桩基础局部冲刷及冲刷对结构响应的影响
单桩是海上风力发电机最常用的基础类型。剪切流在单桩基础上产生的局部冲刷对单桩的准静态侧向响应和动力响应都有显著影响。本章特别侧重于在空间和时间尺度上描述局部冲刷,并揭示与单桩周围流场相关的冲刷机制。详细介绍了海洋环境中各种代表性水流条件下平衡冲刷深度和冲刷时间尺度的预测方法。强调了将模型试验结果外推到原型条件时的规模效应。局部冲刷不仅对单桩基础的变形和刚度有显著影响,而且对结构体系的固有频率和疲劳寿命也有显著影响。随着行业向更深的水域推进,直径达10米的单桩已经成为一种可行的选择。在单桩设计中,还需要对冲刷深度预测和冲刷效果评估进行更细致的考虑,以有效地降低成本,同时保证安全。
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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