Experiments on the vortex wake of a swimming knifefish

Zachary J. Taylor; Alexander Liberzon; Roi Gurka; Roi Holzman; Thomas Reesbeck; F. Javier Diez

doi:10.1007/s00348-013-1588-1

Experiments on the vortex wake of a swimming knifefish

Zachary J. Taylor, Alexander Liberzon, Roi Gurka, Roi Holzman, Thomas Reesbeck, F. Javier Diez^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

The knifefish species propels itself by generating a reverse Kármán street using an anal fin, and the propulsion of this species is known to be highly efficient (Blake in Can J Zool 61:1432-1441, 1983). Previous studies have suggested that there is an optimal swimming range for fish based on the amplitude and frequency of the reverse Kármán street. In the current study, experiments have been performed to measure the ratio between the amplitude and wavelength of vortices in the wake of a knifefish. It is suggested that the wave efficiency can be estimated by optimizing the thrust created by the reverse Kármán street for a given spacing ratio, and present observations have an average value of 0.89. The relationship established between spacing ratio and wave efficiency, in addition to the measured parameters, will be invaluable for bio-inspired designs based on the knifefish.

Original language	English
Article number	1588
Journal	Experiments in Fluids
Volume	54
Issue number	8
DOIs	https://doi.org/10.1007/s00348-013-1588-1
State	Published - Aug 2013

Funding

Funders	Funder number
Azrieli Foundation

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10.1007/s00348-013-1588-1

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title = "Experiments on the vortex wake of a swimming knifefish",

abstract = "The knifefish species propels itself by generating a reverse K{\'a}rm{\'a}n street using an anal fin, and the propulsion of this species is known to be highly efficient (Blake in Can J Zool 61:1432-1441, 1983). Previous studies have suggested that there is an optimal swimming range for fish based on the amplitude and frequency of the reverse K{\'a}rm{\'a}n street. In the current study, experiments have been performed to measure the ratio between the amplitude and wavelength of vortices in the wake of a knifefish. It is suggested that the wave efficiency can be estimated by optimizing the thrust created by the reverse K{\'a}rm{\'a}n street for a given spacing ratio, and present observations have an average value of 0.89. The relationship established between spacing ratio and wave efficiency, in addition to the measured parameters, will be invaluable for bio-inspired designs based on the knifefish.",

author = "Taylor, {Zachary J.} and Alexander Liberzon and Roi Gurka and Roi Holzman and Thomas Reesbeck and Diez, {F. Javier}",

note = "Funding Information: Z. J. Taylor is grateful to the Azrieli Foundation for the award of an Azrieli Fellowship.",

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doi = "10.1007/s00348-013-1588-1",

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AU - Liberzon, Alexander

AU - Gurka, Roi

AU - Holzman, Roi

AU - Reesbeck, Thomas

AU - Diez, F. Javier

N1 - Funding Information: Z. J. Taylor is grateful to the Azrieli Foundation for the award of an Azrieli Fellowship.

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N2 - The knifefish species propels itself by generating a reverse Kármán street using an anal fin, and the propulsion of this species is known to be highly efficient (Blake in Can J Zool 61:1432-1441, 1983). Previous studies have suggested that there is an optimal swimming range for fish based on the amplitude and frequency of the reverse Kármán street. In the current study, experiments have been performed to measure the ratio between the amplitude and wavelength of vortices in the wake of a knifefish. It is suggested that the wave efficiency can be estimated by optimizing the thrust created by the reverse Kármán street for a given spacing ratio, and present observations have an average value of 0.89. The relationship established between spacing ratio and wave efficiency, in addition to the measured parameters, will be invaluable for bio-inspired designs based on the knifefish.

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Experiments on the vortex wake of a swimming knifefish

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