TY - JOUR
TI - Hydrodynamic performance study of a vertical-axis bioinspired tidal current turbine
AU - Liu Weixing
AU - Hu Wanting
AU - Wang Ziheng
AU - Korol Yurii
AU - Sun Chengjiao
AU - Wu Haitao
AU - Yan Zhihu
AU - Zhang Zhiyang
JN - Thermal Science
PY - 2025
VL - 29
IS - 6
SP - 4905
EP - 4916
PT - Article
AB - Blades critically influence the energy capture efficiency of tidal flow turbines. In an endeavor to substantially boost the energy performance of tidal current turbines, a vertical-axis bioinspired blade with a nodular leading edge was designed, based on the humpback whale’s pectoral fin, to enhance tidal current turbine performance. The leading edge nodules follow a sine wave pattern. A three-bladed vertical-axis tidal current turbine model incorporating this design was developed. Its hydrodynamic performance was compared to that of a standard three-blade vertical-axis turbine using numerical simulations, with the aim of further and quantifiably improving energy efficiency. The bioinspired turbine achieved high energy coefficient values. For example, at a tip speed ratio of 2.094, the bioinspired turbine delivers a 7.12% increase in energy coefficient compared to the standard turbine. Moreover, the bioinspired turbine demonstrated markedly and consistently higher torque output under low speed conditions and showcased significantly notable enhanced startup performance.
DO - 10.2298/TSCI250712192L
ER -