标题:Analysis of Unstable Hydrofoil Energy-Capturing Motion Due to Energy Dissipation
作者:Xie, Yudong; Chen, Chen; Wang, Yong; Ma, Penglei; Lu, Jianwei
作者机构:[Xie, Yudong; Chen, Chen; Wang, Yong; Ma, Penglei; Lu, Jianwei] Shandong Univ, Sch Mech Engn, Jinan, Shandong, Peoples R China.; [Xie, Yudong; Chen, 更多
通讯作者:Xie, YD;Xie, YD
通讯作者地址:[Xie, YD]Shandong Univ, Sch Mech Engn, Jinan, Shandong, Peoples R China;[Xie, YD]Minist Educ, Key Lab High Efficiency & Clean Mech Manufacture, Jinan, 更多
来源:POLISH JOURNAL OF ENVIRONMENTAL STUDIES
出版年:2018
卷:27
期:5
页码:2315-2324
DOI:10.15244/pjoes/78924
关键词:tidal energy; power; environmental protection; energy dissipation;; control valve
摘要:As energy crises and environmental pollution become increasingly prominent, people are beginning to explore the ocean to exploit its renewable energy. Based on hydrodynamic principles, an analytical model for unstable hydrofoil motion has been developed. The software ANSYS Fluent was employed to perform a simulation of hydrofoil motion, and the effect of hydrofoil motion on the surrounding flow field was analyzed. The hydrodynamic characteristics and energy-capturing efficiency of the hydrofoil were obtained, and the influence of complex flows on hydrofoil hydrodynamics was elucidated. The energy dissipation mechanism during hydrofoil motion was characterized. The results indicate that the vortex generation and shedding inevitably dissipates part of the tidal energy captured by the hydrofoil, which leads to abrupt changes in hydrofoil hydrodynamics and reduces energy-capturing efficiency. When the frequency of the abrupt hydrodynamics change matches the hydrofoil natural frequency, it may result in hydrofoil resonance and damage. Also, it is observed that larger pitch amplitude leads to larger optimal reduced frequency corresponding to the peak power cycle-averaged coefficient. The results also provide a theoretical guide on how to improve hydrofoil energy-capturing efficiency of the power generation system with control valves and extend hydrofoil life.
收录类别:SCOPUS;SCIE
资源类型:期刊论文
原文链接:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85047915342&doi=10.15244%2fpjoes%2f78924&partnerID=40&md5=b284c7785342e809e15b0cf809a6c871
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