Experimental study of the distribution of drag coefficients in water generated by streamlined bodies

POSTER

Abstract

Fish have a mechanism for gaining momentum through various motions to move underwater. Tail movements with more than 3 Hz are necessary for rapid propulsion. However, other methods of reducing drag are also required. In this study, we investigated the drag coefficient of a fish's body. The study used a reduced scale model with dimensionless coefficients at a maximum flow velocity of 1.0 m/s or less using a circulating water channel. The distribution of the drag coefficient was determined as a function of the scale model's yaw angle and periodic rotational motion. In the future, we plan to utilize these results to design self-powered unmanned underwater robots.

*This work was supported by Korea Research Institute for defense Technology planning and advancement (KRIT) grant funded by the Korea government (DAPA, Defense Acquisition Program Administration) (KRIT-CT-23-008, Development of a biomimetic underwater robot platform, 2023).

Presenters

  • Sejin Jung

    • Korea Institute of Ocean Science and Technology

Authors

  • Sejin Jung

    • Korea Institute of Ocean Science and Technology

  • Su-bin Oh

    • Korea Institute of Ocean Science and Technology

  • Ganghee Lee

    • Korea Institute of Ocean Science and Technology

  • Heungchan Kim

    • Korea Institute of Ocean Science and Technology

  • Chang Hyeon Seo

    • Korea Institute of Ocean Science and Technology

  • In Sung Jang

    • Korea Institute of Ocean Science and Technology

  • Jihoon Kim

    • Korea Institute of Ocean Science & Technology (KIOST)