Saturday, March 16, 2024

 

Dolphin-kick swimming maximizes water-flow utilization with increasing speed


Peer-Reviewed Publication

UNIVERSITY OF TSUKUBA





Tsukuba, Japan—The swimming motion imparts momentum to water, a fluid, thereby generating a propulsive force. Thus, we can understand the propulsion mechanism by examining the water flow generated by a swimmer's motion. However, observing colorless, transparent water with the naked eye or a camera is challenging. To address this issue, researchers employed particle image velocimetry, a technique utilized in fluid dynamics, to visualize water-flow patterns. They investigated how water flow changes as swimmers change their speed while executing the dolphin-kick swimming technique. This investigation was conducted in an experimental circulating-water channel (a pool with flowing water).

The results revealed that the water-flow velocity increased with increasing swimming speed during the underwater dolphin-kick lower-limb action, generating a strong vortex during the kicking action. This phenomenon possibly contributes to the increased propulsive force. Additionally, recycling of the flow generated during the downward-kick phase was observed during the transition to the upward-kick phase, with the effect becoming more pronounced as the swimming speed increased. This study marks the first observation of water-flow changes during dolphin-kick swimming at varying speeds.

This study is expected to advance research on water flow, a critical topic in swimming research. It offers scientific evidence for instructors to adopt kick-swimming techniques.

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This work was supported by Japan Science and Technology Agency, Grant Number 22 K19725.

 

Original Paper

Title of original paper:
Impact of variations in swimming velocity on wake flow dynamics in human underwater undulatory swimming

Journal:
Journal of Biomechanics

DOI:
10.1016/j.jbiomech.2024.112020

Related Link

Institute of Health and Sport Sciences

Advanced Research Initiative for Human High Performance (ARIHHP)

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