Non-Linear Wave Run-Up Along the Side of Sailing Ships Causing Green Water on Deck: Experiments and Deterministic Calculations

Sanne van Essen, Henry Bandringa, J. Helder, B. Buchner
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引用次数: 2

Abstract

Experiments with a flat plate in oblique waves at different speeds, wave conditions, headings and drift speed were done to evaluate non-linear wave run-up along a sailing ship. Both the incoming and diffracted part of the run-up were highly nonlinear in all test conditions. The run-up was larger at 135 than at 150 deg heading, the influence of speed was small, wave steepness increased run-up up to the point of breaking and a drift speed decreased the run-up. Most of the observed differences were larger than the seed and basin variability. (Semi-) linear diffraction methods are not sufficient to predict the highest runup crests, but applying them to screen for critical events could be further studied. CFD is able to accurately predict the nonlinear run-up in such selected events. Combining different levels of tools seems the most efficient way to predict extreme wave events such as green water due to run-up.
非线性波浪沿帆船侧行引起甲板绿水:实验与确定性计算
在不同航速、不同波浪条件、不同航向和不同漂速下,用平板在斜波中进行了非线性波浪沿航实验。在所有测试条件下,飞升的入射和衍射部分都是高度非线性的。航向135度时的俯仰比航向150度时的俯仰大,速度的影响较小,波浪陡度使俯仰增大到破裂点,漂移速度使俯仰减小。大多数观测到的差异大于种子和流域的变异性。(半)线性衍射方法不足以预测最高上升峰,但应用于筛选关键事件还有待进一步研究。CFD能够准确地预测这些选定事件的非线性爬升。结合不同级别的工具似乎是预测极端波浪事件(如由于上升而产生的绿水)最有效的方法。
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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