浅沉圆柱波能转换器强迫升沉的混合轴对称模型

IF 2.8 Q2 MECHANICS
Guy McCauley, Hugh Wolgamot, Scott Draper, Jana Orszaghova
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引用次数: 0

摘要

浅沉振荡结构可以在波浪能装置或半潜船中找到。预测这些结构上的力对于设计目的至关重要,但由于浅水中可能发生的非线性现象(包括波浪破碎和钻孔形成)而变得复杂。在装置顶部流体的第一个“共振”频率附近,这种影响尤为重要,因为线性理论预测了圆柱体上下的大流量以及相应的表面高度和力。为了建立一个可靠、高效的水动力模型来预测浅沉截竖柱体的受迫升沉振动,建立了一个轴对称非线性混合模型。圆柱上方流动采用非线性浅水方程,周围流体采用线性势流理论。将该模型与受迫升沉振动的实验结果进行了比较,结果表明该模型能较好地预测升沉力。然后用它来检验线性化升沉力,以增加(规定的)谐波升沉运动的振幅。随着振幅的增加,辐射阻尼和附加质量系数的峰值显著减少,并且相关的峰值频率发生移位。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hybrid axisymmetric model for forced heave of a shallowly submerged cylindrical wave energy converter
Shallowly submerged oscillating structures may be found in wave energy devices or semi-submersible vessels. Predicting the force on such structures is critical for design purposes, but complicated due to nonlinear phenomena which can occur in shallow water, including wave breaking and bore formation. Such effects are particularly important around the first ‘resonance’ frequency of the fluid on top of the device, where linear theory predicts large flows on/off the cylinder and corresponding surface elevations and forces. In an effort to create a reliable and efficient model to predict the hydrodynamic force on a shallowly submerged truncated vertical cylinder, an axisymmetric nonlinear hybrid model is developed for forced heave oscillations. The flow above the cylinder is modelled using the nonlinear shallow water equations, and linear potential flow theory is used in the surrounding fluid. The model is compared with experimental results for forced heave oscillations and performs well for predicting the heave force. It is then used to examine linearised heave force for increasing amplitudes of (prescribed) harmonic heave motion. There is a significant reduction in the peaks of radiation damping and added mass coefficients with increasing amplitude, and associated shifts in the frequencies of the peaks.
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CiteScore
2.40
自引率
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