在防波堤内集成的水压力与孤立的水压力:实验和数值理论研究

Damon Howe, Jean-Roch Nader
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引用次数: 53

摘要

振荡水柱(OWC)装置是最有前途的技术之一,可以应用于现有或正在开发的海洋结构,如防波堤。所有从海浪中获取能量的移动部件都远在水线之上,静止结构可以很容易地并入固体建筑中。在本文中,我们研究了两种不同进口几何形状的弯管OWC装置在隔离状态和在平面防波堤中实施时的水动力响应。采用矩形和圆形截面形状的OWC装置进行比较。采用基于有限元法的频域模型和澳大利亚海事学院波浪盆地的实验研究,并在0.5 Hz - 1.2 Hz的频率范围内对结果进行了评估。数值方法得到的捕获宽度和体积通量与实验结果吻合较好。误差只出现在自然共振频率附近,在那里小幅度的假设是错误的。在防波堤内安装该装置可以显著提高每个装置的捕获宽度,而入口几何形状的变化提供了低偏差的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
OWC WEC integrated within a breakwater versus isolated: Experimental and numerical theoretical study

Oscillating Water Column (OWC) devices are one of the most promising technologies to be implemented into already existing or in-development ocean structures, such as breakwaters. All moving components to retrieve power from the waves are well above the waterline and the still structure can be easily incorporated within solid edifices. In this paper, we investigate the hydrodynamic response of two types of Bent Duct OWC devices with different inlet geometries, both in isolation and when implemented in a flat-faced breakwater. A rectangular and circular cross-sectional shaped OWC device are used for comparison. Numerical method using a FEM based frequency domain model and experimental investigation using the Australian Maritime College wave basin are applied and the results evaluated across a range of frequencies, 0.5 Hz–1.2 Hz. Both the capture width and volume flux resulting from the numerical method match accurately with those resulting from the experiment. Discrepancies only arise around the natural resonance frequency where the assumptions of small amplitudes become erroneous. The implementation of the device within the breakwater was found to significantly enhance the capture width of each device, while the variation in inlet geometry provided low deviations in the results.

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