Experimental wind-tunnel study of the dynamics of inverted foils for energy harvesting

M. Flores Salinas, R. Botez, M. Tavallaeinejad, M. Païdoussis
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Abstract

This paper describes the methodology used to analyse oscillations of foils of a wide range of aspect ratios, 0.5 ≤ AR ≤ 4, and Reynolds numbers, 104 ≤ Re ≤ 105, for energy harvesting purposes. The foils were fixed at their trailing edge, and their dynamical behaviour was captured as the wind speed was varied. The foil response was then analysed as a function of velocity, Reynolds number, oscillation amplitude and frequency. Additionally, the forces and moments acting on the foils were measured, utilising an aerodynamic scale, designed and built in-house. An empirical power generation equation was derived to determine the foil characteristics for maximum energy harvesting production. The results show that a flexible foil with AR = 3 with oscillations in the large-amplitude regime is the most effective for energy harvesting.
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能量收集用倒立箔的动力学实验风洞研究
本文描述了用于分析宽宽比(0.5≤AR≤4)和雷诺数(104≤Re≤105)范围内用于能量收集目的的箔振荡的方法。将翼片固定在其后缘,并捕捉其随风速变化的动力学行为。然后分析了箔片响应作为速度、雷诺数、振荡幅度和频率的函数。此外,利用内部设计和制造的空气动力学尺度,测量了作用在箔上的力和力矩。导出了一个经验发电方程,以确定最大能量收集产量的箔片特性。结果表明,AR = 3且振荡幅度较大的柔性箔是最有效的能量收集材料。
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