Finding Dangerous Waves – Towards an Efficient Method to Obtain Wave Impact Design Loads for Marine Structures

S. V. van Essen, H. Seyffert
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Abstract

Green water and slamming wave impacts can lead to severe damage or operability issues for marine structures. It is therefore essential to consider their probability and loads in design. This is difficult, as impacts are both hydrodynamically complex and relatively rare. The complexity requires high-fidelity modelling (experiments or CFD), whereas a statistically sound analysis of rare events requires long durations. High-fidelity tools are too demanding to run a Monte-Carlo simulation; low-fidelity tools do not include sufficient physical details. The use of extreme value theory and / or multi-fidelity modelling is therefore required. The present paper reviews the state-of-the-art methods to find wave impact design loads, which include response-conditioning methods, screening methods and adaptive sampling methods. Their benefits and shortcomings are discussed, as well as challenges for the wave impact problem. One challenge is the role of wave non-linearity. Another is the validation of the different methods; it is hard to obtain long-duration high-fidelity wave impact data. A planned case study is introduced, where different techniques will be put to the test and these challenges will be addressed.
寻找危险波浪——迈向一种获取海洋结构波浪冲击设计载荷的有效方法
绿水和巨浪的冲击会导致海洋结构的严重损坏或操作性问题。因此,在设计时必须考虑它们的概率和载荷。这很困难,因为撞击在流体动力学上既复杂又相对罕见。这种复杂性需要高保真度的建模(实验或CFD),而对罕见事件进行可靠的统计分析则需要较长的持续时间。高保真工具对于运行蒙特卡罗模拟要求太高;低保真工具不包括足够的物理细节。因此,需要使用极值理论和/或多保真度建模。本文综述了波浪冲击设计载荷的最新研究方法,包括响应调节法、筛选法和自适应采样法。讨论了它们的优点和缺点,以及波浪冲击问题面临的挑战。其中一个挑战是波浪非线性的作用。另一个是不同方法的验证;长时间高保真的波浪冲击数据很难获得。介绍了一个计划好的案例研究,其中将对不同的技术进行测试,并解决这些挑战。
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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