Accurate evaluation of second-order wave loads in direct time-domain simulations

IF 4.2 2区工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY

Engineering Analysis with Boundary Elements Pub Date : 2024-08-14 DOI:10.1016/j.enganabound.2024.105907

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引用次数: 0

Abstract

Accurate and efficient calculation of all second-order wave load components in six degrees of freedom (6DoF) remains a challenging task, in particular for structures with sharp edges. Based on Gauss theorem, we have tailor-made an efficient method for direct time-domain solvers utilizing, for instance, boundary element methods. Unlike other methods based on momentum conservation or Gauss theorem that require control surfaces, this method only involves integrals on the structure and free surfaces. The accuracy and efficiency of the method are firstly verified for the mean and sum-frequency wave forces on a hemisphere and a truncated vertical cylinder. Subsequently, an application to study the motion responses of a semi-submersible floating offshore wind turbine (FOWT) in focused waves is presented, where experimental results are also available. The results indicate that the proposed method can greatly improve the computational efficiency in accurately predicting second-order loads on offshore structures with sharp edges in direct time-domain solvers. For the FOWT in focused waves, this alternative method is essential in achieving accurate prediction of hydrodynamic responses near the focus time.

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在直接时域模拟中精确评估二阶波载荷

精确高效地计算六自由度（6DoF）中的所有二阶波载荷分量仍然是一项具有挑战性的任务，尤其是对于具有尖锐边缘的结构。基于高斯定理，我们为直接时域求解器量身定制了一种高效方法，例如利用边界元方法。与其他需要控制面的基于动量守恒或高斯定理的方法不同，该方法只涉及结构和自由表面的积分。首先对半球和截断垂直圆柱体上的平均波力和和频波力验证了该方法的准确性和效率。随后，介绍了应用该方法研究半潜式海上浮动风力涡轮机（FOWT）在聚焦波中的运动响应，并提供了实验结果。结果表明，在直接时域求解器中精确预测具有尖锐边缘的海上结构的二阶载荷时，所提出的方法可以大大提高计算效率。对于聚焦波中的 FOWT，这种替代方法对于准确预测聚焦时间附近的水动力响应至关重要。

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

Engineering Analysis with Boundary Elements 工程技术-工程：综合

CiteScore

5.50

自引率

18.20%

发文量

368

审稿时长

56 days

期刊介绍： This journal is specifically dedicated to the dissemination of the latest developments of new engineering analysis techniques using boundary elements and other mesh reduction methods. Boundary element (BEM) and mesh reduction methods (MRM) are very active areas of research with the techniques being applied to solve increasingly complex problems. The journal stresses the importance of these applications as well as their computational aspects, reliability and robustness. The main criteria for publication will be the originality of the work being reported, its potential usefulness and applications of the methods to new fields. In addition to regular issues, the journal publishes a series of special issues dealing with specific areas of current research. The journal has, for many years, provided a channel of communication between academics and industrial researchers working in mesh reduction methods Fields Covered: • Boundary Element Methods (BEM) • Mesh Reduction Methods (MRM) • Meshless Methods • Integral Equations • Applications of BEM/MRM in Engineering • Numerical Methods related to BEM/MRM • Computational Techniques • Combination of Different Methods • Advanced Formulations.