PLoS ONE (Jan 2017)

Optimal specific wavelength for maximum thrust production in undulatory propulsion.

  • Nishant Nangia,
  • Rahul Bale,
  • Nelson Chen,
  • Yohanna Hanna,
  • Neelesh A Patankar

DOI
https://doi.org/10.1371/journal.pone.0179727
Journal volume & issue
Vol. 12, no. 6
p. e0179727

Abstract

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What wavelengths do undulatory swimmers use during propulsion? In this work we find that a wide range of body/caudal fin (BCF) swimmers, from larval zebrafish and herring to fully-grown eels, use specific wavelength (ratio of wavelength to tail amplitude of undulation) values that fall within a relatively narrow range. The possible emergence of this constraint is interrogated using numerical simulations of fluid-structure interaction. Based on these, it was found that there is an optimal specific wavelength (OSW) that maximizes the swimming speed and thrust generated by an undulatory swimmer. The observed values of specific wavelength for BCF animals are relatively close to this OSW. The mechanisms underlying the maximum propulsive thrust for BCF swimmers are quantified and are found to be consistent with the mechanisms hypothesized in prior work. The adherence to an optimal value of specific wavelength in most natural hydrodynamic propulsors gives rise to empirical design criteria for man-made propulsors.