On the numerical modeling and optimization of a bottom-referenced heave-buoy array of wave energy converters

F. Fàbregas Flavià, A. Babarit, A.H. Clément
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引用次数: 20

Abstract

Compact arrays of small wave absorbers have been proposed as an advantageous solution for the extraction of wave energy when compared to a big isolated point absorber. Numerous challenges are associated with the numerical modeling of such devices, notably the computation of the hydrodynamic interactions among the large number of floats of which they are composed. Efficient calculation of the first-order linear hydrodynamic coefficients requires dedicated numerical tools, as their direct computation using standard boundary element method (BEM) solvers is precluded. In this paper, the Direct Matrix Method interaction theory by Kagemoto and Yue (1986) is used as an acceleration technique to evaluate the performance of a generic wave energy converter (WEC) inspired by the Wavestar SC-concept and to perform layout optimization. We show that there exists an optimum number of floats for a given device footprint. Exceeding this number results in a “saturation” of the power increase, which is undesirable for the economic viability of the device. As in previous studies on multiple absorber WECs, significant differences were observed in energy production among floats, due to hydrodynamic interactions.

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基于底部的波浪能转换器升沉浮标阵列的数值模拟与优化
与大型孤立点吸收器相比,紧凑的小波吸收器阵列已被提出作为波能提取的有利解决方案。这些装置的数值模拟面临许多挑战,特别是组成它们的大量浮子之间的水动力相互作用的计算。一阶线性水动力系数的有效计算需要专用的数值工具,因为它们无法使用标准边界元法(BEM)求解器直接计算。本文采用Kagemoto和Yue(1986)的直接矩阵法相互作用理论作为一种加速技术来评估受Wavestar sc概念启发的通用波能转换器(WEC)的性能并进行布局优化。我们证明,对于给定的设备占用空间,存在一个最佳的浮点数。超过这个数字会导致功率增加的“饱和”,这对于设备的经济可行性是不希望的。与之前对多吸收器WECs的研究一样,由于流体动力相互作用,在浮子之间的能量产生存在显著差异。
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