Numerical Study on the Energy Harvesting Performance of a Flapping Foil with Attached Flaps

箔法 拍打 航空航天工程 海洋工程 环境科学 物理 机械 材料科学 工程类 复合材料
作者
Shihui Wu,Li Wang
出处
期刊:Processes [Multidisciplinary Digital Publishing Institute]
卷期号:12 (9): 1963-1963 被引量:3
标识
DOI:10.3390/pr12091963
摘要

A flapping foil, which mimics the flapping wings of birds and the locomotion of aquatic organisms, is an alternative to a conventional turbine for the harvesting of renewable energy from ubiquitous flows in the atmosphere, oceans, and rivers. In this work, the energy harvesting performance of flapping foils with attached flaps at the trailing edge is numerically studied by using an immersed boundary–lattice Boltzmann method (IB-LBM) at a Reynolds number of 1100. Three different configurations are considered, namely, a clean NACA0015 foil, a NACA0015 foil with a single flap, and a NACA0015 foil with two symmetric flaps. The results show that the flap attached to the trailing edge is able to enhance the energy harvesting efficiency, and the two symmetric flaps can achieve more enhancements than its single-flap counterpart. The mechanism of such enhancements is attributed the separation of the interactions of vortexes generated at the upper and bottom surfaces of the foil. To further obtain the optimal configurations of the two symmetric flaps, the angle between the two flaps (α) and the length (lf) of the flap are systematically studied. The results show that the optimal energy harvesting performance is achieved at α=60∘ and lf=0.1c (c denotes the chord length of the foil). Compared with the baseline case, namely, the clean NACA foil, the optimal configuration can achieve an improvement of efficiency up to 19.94%. This study presents a strategy by adding two symmetric flaps at the trailing edge of the foil to enhance the energy harvesting performance of a flapping foil, which contributes to advancing the development of simple and efficient clean energy harvesting by using a flapping foil.
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