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The performance of a flapping foil for a self-propelled fishlike body

Damiano Paniccia, Luca Padovani, G. Graziani, Renzo Piva

2021Scientific Reports14 citationsDOIOpen Access PDF

Abstract

Several fish species propel by oscillating the tail, while the remaining part of the body essentially contributes to the overall drag. Since in this case thrust and drag are in a way separable, most attention was focused on the study of propulsive efficiency for flapping foils under a prescribed stream. We claim here that the swimming performance should be evaluated, as for undulating fish whose drag and thrust are severely entangled, by turning to self-propelled locomotion to find the proper speed and the cost of transport for a given fishlike body. As a major finding, the minimum value of this quantity corresponds to a locomotion speed in a range markedly different from the one associated with the optimal efficiency of the propulsor. A large value of the feathering parameter characterizes the minimum cost of transport while the optimal efficiency is related to a large effective angle of attack. We adopt here a simple two-dimensional model for both inviscid and viscous flows to proof the above statements in the case of self-propelled axial swimming. We believe that such an easy approach gives a way for a direct extension to fully free swimming and to real-life configurations.

Topics & Concepts

FlappingDragThrustPropulsive efficiencyInviscid flowPropulsorRange (aeronautics)PropulsionMechanicsComputer sciencePhysicsMarine engineeringControl theory (sociology)Aerospace engineeringWingEngineeringArtificial intelligenceControl (management)Biomimetic flight and propulsion mechanismsFish Ecology and Management StudiesMicro and Nano Robotics
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