利用Stokes二阶理论建立波浪-电流数值模型

Q3 Engineering

International Marine Energy Journal Pub Date : 2019-10-02 DOI:10.36688/imej.2.1-14

Catherine Lloyd, T. O’Doherty, A. Mason-Jones

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引用次数: 3

摘要

为了精确模拟规则波叠加在均匀流速上所产生的亚表面条件，提出了数值波槽的优化方法。利用ANSYS CFX 18.0建立具有体积分数的均匀多相模型，定义不同的相区域。在模型入口处应用CFX表达式语言，利用Stokes二阶理论定义上游波流特性。将数值模型的水平和垂直速度分量以及表面高程与理论和实验波浪数据进行了比较，得到了2种不同水深下3种不同波浪特征。对比结果显示理论和实验数据的数值一致性。因此，本研究表明，所使用的建模程序可以准确地复制实验测试设施的流动条件，为实验水槽或水箱测试提供了潜在的替代品。

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Development of a wave-current numerical model using Stokes 2nd Order Theory

The optimisation of a Numerical Wave Tank is proposed to accurately model the sub surface conditions generated by regular waves superimposed on a uniform current velocity. ANSYS CFX 18.0 was used to develop a homogenous multiphase model with volume fractions to define the different phase regions. By applying CFX Expression Language at the inlet of the model, Stokes 2nd Order Theory was used to define the upstream wave and current characteristics. Horizontal and vertical velocity components, as well as surface elevation of the numerical model were compared against theoretical and experimental wave data for 3 different wave characteristics in 2 different water depths. The comparison highlighted the numerical homogeneity between the theoretical and experimental data. Therefore, this study has shown that the modelling procedure used can accurately replicate experimental testing facility flow conditions, providing a potential substitute to experimental flume or tank testing.

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来源期刊

International Marine Energy Journal Engineering-Ocean Engineering

CiteScore

1.70

自引率

0.00%

发文量

审稿时长

12 weeks