Fast accurate seakeeping predictions

IF 1.4 Q3 ENGINEERING, MARINE Ship Technology Research Pub Date : 2020-05-13 DOI:10.1080/09377255.2020.1761618

H. Söding

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引用次数: 1

Abstract

ABSTRACT Accurate predictions of ship motions and loads in a steep seaway require to include contributions depending non-linearly on wave amplitude. CFD methods do that routinely, but they require very high computing effort. Previous potential methods neglect either all or at least some nonlinear effects. The present method includes all substantial nonlinear effects amenable to potential flow. Using approximations for effects of flow separation at the aft end of hull and rudder, an accuracy comparable to that of good model experiments and CFD calculations is attained. That is demonstrated for motions and loads in cross sections of a containership sailing in head and quartering waves of large amplitude. Compared are results of model experiments, CFD calculations, a linear and the new nonlinear potential flow method. Another comparison is made for motions and added resistance of a second containership in head waves, where, apparently, an exceptional accuracy of experiments and calculations has been attained. A number of new ideas which were necessary to obtain a robust and accurate, fully nonlinear procedure are described. In typical cases, the method may take only one or a few percent of the computing effort of a comparable CFD computation.

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快速准确的耐波性预测

在陡峭航道中，船舶运动和载荷的准确预测需要包括非线性依赖于波幅的贡献。CFD方法通常会这样做，但它们需要非常高的计算工作量。以前的潜在方法忽略了全部或至少部分非线性效应。本方法包括了所有可适应势流的实质性非线性效应。通过对船体尾部和舵尾部流动分离效应的近似计算，获得了与良好模型实验和CFD计算相当的精度。这是证明运动和载荷的集装箱船的横截面航行在头波和四分之一的大振幅。比较了模型实验、CFD计算、线性势流法和新型非线性势流法的计算结果。另一个比较是第二艘集装箱船在头浪中的运动和附加阻力，显然，在那里，实验和计算已经达到了异常的准确性。描述了一些新的思想，这些思想是获得一个鲁棒和准确的，完全非线性过程所必需的。在典型情况下，该方法可能只需要类似CFD计算的百分之一或几个百分点的计算工作量。

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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来源期刊

Ship Technology Research ENGINEERING, MARINE-

CiteScore

4.90

自引率

4.50%

发文量