Biomimetics (Nov 2024)

Study on the Effect of Flexible Passive Deformation of Tuna Caudal Fin on Swimming Performance

  • Shi-Yun Zhong,
  • Tian-Yu Gao,
  • Wei-Pei Huang,
  • Peng-Nan Sun,
  • Chao Yu,
  • Wang Zhao,
  • Zhi-Qun Guo

DOI
https://doi.org/10.3390/biomimetics9110669
Journal volume & issue
Vol. 9, no. 11
p. 669

Abstract

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The high-speed and efficient swimming characteristics of tuna are valuable for designing bio-inspired underwater vehicles. Tuna use their highly deformable caudal fins as propulsors during swimming. Caudal fin deformation is categorized into skeletal-controlled active deformation and fluid-induced flexible passive deformation. To investigate how flexible passive deformation affects propulsion performance, simulations of four caudal fins with varying flexibilities under two St numbers in a uniform flow are conducted using the finite volume method. This study finds that the medium-flexibility caudal fin achieves a higher time-averaged thrust coefficient without sacrificing efficiency under both high and low St numbers. At a high St number, the medium-flexibility caudal fin enhances thrust by reducing detrimental secondary flows. At a low St number, the medium-flexibility caudal fin increases thrust by strengthening vortex rings, which induces a stronger backward jet.

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