In the present paper, a hybrid Computational Fluid Dynamics (CFD) and Boundary Integral Element Method (BIEM) framework is developed in order to study the response of a moored Multibody wave Energy Device (MED) to a panchromatic sea state. The relevant results are the surge and heave responses of the MED. The Numerical Analysis Framework (NAF) includes two different models; the first model uses Navier-Stokes equations to describe the flow field and is solved with an in-house CFD code to quantify the viscous damping effect, while the second model uses boundary-integral equation method and is solved with the tool WAMIT\SIMO\RIFLEX. By studying the free decay tests with the Navier-Stokes based model, the uncoupled linear and quadratic damping coefficients of the MED in surge and heave directions are calculated. These coefficients are given as input to the WAMIT\SIMO\RIFLEX model and the responses of the MED to different wave conditions are determined. These responses are compared with the experimental data and very good agreement is obtained. The MED responses calculated by the presented NAF have been obtained in connection with a hydrodynamic modeling competition and selected as one of the numerical models, which well predict the blind experimental data that were unknown to the authors.
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机译:为了研究系泊多体波能量装置(MED)对全色海态的响应,本文开发了一种混合计算流体动力学(CFD)和边界积分元方法(BIEM)框架。相关结果是MED的波动和升沉响应。数值分析框架(NAF)包括两个不同的模型;第一个模型使用Navier-Stokes方程描述流场,并通过内部CFD代码求解以量化粘性阻尼效果,而第二个模型使用边界积分方程法并使用工具WAMIT \ SIMO \求解。 RIFLEX。通过使用基于Navier-Stokes的模型研究自由衰减测试,计算了MED在浪涌和升沉方向的线性和二次阻尼系数不耦合。将这些系数作为WAMIT \ SIMO \ RIFLEX模型的输入,并确定MED对不同波浪条件的响应。将这些响应与实验数据进行比较,获得了很好的一致性。由提出的NAF计算的MED响应已与流体动力学建模竞赛结合获得,并被选为数值模型之一,可以很好地预测作者未知的盲实验数据。
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