首页 /研究 /Accelerating fishes increase propulsive efficiency by modulating vortex ring geometry
LOCOMOTION

Accelerating fishes increase propulsive efficiency by modulating vortex ring geometry

Otar Akanyeti, Joy Putney, Yuzo R. Yanagitsuru, George Lauder, William J. Stewart, James C. Liao

发表年份
2017
引用次数
85
访问权限
开放获取

摘要

Swimming animals need to generate propulsive force to overcome drag, regardless of whether they swim steadily or accelerate forward. While locomotion strategies for steady swimming are well characterized, far less is known about acceleration. Animals exhibit many different ways to swim steadily, but we show here that this behavioral diversity collapses into a single swimming pattern during acceleration regardless of the body size, morphology, and ecology of the animal. We draw on the fields of biomechanics, fluid dynamics, and robotics to demonstrate that there is a fundamental difference between steady swimming and forward acceleration. We provide empirical evidence that the tail of accelerating fishes can increase propulsive efficiency by enhancing thrust through the alteration of vortex ring geometry. Our study provides insight into how propulsion can be altered without increasing vortex ring size and represents a fundamental departure from our current understanding of the hydrodynamic mechanisms of acceleration. Our findings reveal a unifying hydrodynamic principle that is likely conserved in all aquatic, undulatory vertebrates.

关键词

Movement (music)VertebrateEcologyEvolutionary biologyVisualizationBiologyVortexGeometryComputer scienceMechanics

相关论文

查看 LOCOMOTION 分类全部论文