A review on flow energy harvesters based on flapping foils

被引:310
作者
Xiao, Qing [1 ]
Zhu, Qiang [2 ]
机构
[1] Univ Strathclyde, Dept Naval Architecture & Marine Engn, Glasgow G4 0LZ, Lanark, Scotland
[2] Univ Calif San Diego, Dept Struct Engn, La Jolla, CA 92093 USA
来源
JOURNAL OF FLUIDS AND STRUCTURES | 2014年 / 46卷
基金
英国工程与自然科学研究理事会;
关键词
Oscillatory foil; Flow energy harvesting; Bio-inspired; LIMIT-CYCLE OSCILLATIONS; AIRFOIL; THRUST; PROPULSION; EFFICIENCY; CHORDWISE; WIND;
D O I
10.1016/j.jfluidstructs.2014.01.002
中图分类号
TH [机械、仪表工业];
学科分类号
0802 ;
摘要
This article presents an overview of the state of the art investigations on the recently developed oscillating foil energy converters. A summary of available knowledge and upto-date progress in the application of such bio-inspired systems for renewable energy devices is provided. Starting from concepts and achieved results in three distinguishable categories, various parametric studies are reviewed, along with an in-depth discussion on the potential device performance enhancement via flow control mechanisms. Finally, potential future research directions are discussed. (C) 2014 Elsevier Ltd. All rights reserved.
引用
收藏
页码:174 / 191
页数:18
相关论文
共 50 条
[31]   The propulsion of two flapping foils with tandem configuration and vortex interactions [J].
Xu, G. D. ;
Duan, W. Y. ;
Xu, W. H. .
PHYSICS OF FLUIDS, 2017, 29 (09) :097102
[32]   Effect of aspect ratio on the propulsive performance of tandem flapping foils [J].
Lagopoulos, N. S. ;
Weymouth, G. D. ;
Ganapathisubramani, B. .
FLOW, 2023, 3
[33]   Development of MEMS based pyroelectric thermal energy harvesters [J].
Hunter, Scott R. ;
Lavrik, Nickolay V. ;
Bannuru, Thirumalesh ;
Mostafa, Salwa ;
Rajic, Slo ;
Datskos, Panos G. .
ENERGY HARVESTING AND STORAGE: MATERIALS, DEVICES, AND APPLICATIONS II, 2011, 8035
[34]   Energy Extraction Performance Improvement of a Flapping Foil by the Use of Combined Foil [J].
Boudis, A. ;
Benzaoui, A. ;
Oualli, H. ;
Guerri, O. ;
Bayeul-Laine, A. C. ;
Delgosha, O. Coutier .
JOURNAL OF APPLIED FLUID MECHANICS, 2018, 11 (06) :1651-1663
[35]   Boundary-element method for the prediction of performance of flapping foils with leading-edge separation [J].
Pan, Yulin ;
Dong, Xiaoxia ;
Zhu, Qiang ;
Yue, Dick K. P. .
JOURNAL OF FLUID MECHANICS, 2012, 698 :446-467
[36]   Energy harvesting by a purely passive flapping foil from shear flows [J].
Zhu, Qiang .
JOURNAL OF FLUIDS AND STRUCTURES, 2012, 34 :157-169
[37]   Influence of suction flow control on energy extraction characteristics of flapping foil [J].
Wang, Jiayue ;
Huang, Shengxian ;
Hou, Longfeng ;
Wang, Ying .
INTERNATIONAL JOURNAL OF GREEN ENERGY, 2022, 19 (08) :888-903
[38]   Deep-Learning-Based Reduced-Order Model for Power Generation Capacity of Flapping Foils [J].
Saeed, Ahmad ;
Farooq, Hamayun ;
Akhtar, Imran ;
Tariq, Muhammad Awais ;
Khalid, Muhammad Saif Ullah .
BIOMIMETICS, 2023, 8 (02)
[39]   Wake structure and thrust generation of a flapping foil in two-dimensional flow [J].
Andersen, A. ;
Bohr, T. ;
Schnipper, T. ;
Walther, J. H. .
JOURNAL OF FLUID MECHANICS, 2017, 812 :R4
[40]   Effect of unequal flapping frequencies on flow structures [J].
Fenercioglu, Idil ;
Cetiner, Oksan .
AEROSPACE SCIENCE AND TECHNOLOGY, 2014, 35 :39-53
12345