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Hydrodynamics of tandem flapping pectoral fins with varying stroke phase offsets

Kaushik Sampath, Jason D. Geder, Ravi Ramamurti, Marius D. Pruessner, Raymond Koehler

2020Physical Review Fluids14 citationsDOIOpen Access PDF

Abstract

Low-speed maneuvering and station keeping capabilities for small unmanned underwater vehicles (UUVs) are of great interest to the maritime community and flapping fins provide a potential solution for achieving these capabilities. We show how phasing between tandem bio-inspired fins flapping at high stroke amplitudes, i.e. by leading or lagging the rear fin with respect to the front fin modulates its thrust production, leading-edge suction and the overall wake characteristics of the system using load cell thrust measurements, two-dimensional particle image velocimetry measurements and three-dimensional computational fluid dynamics simulations.

Topics & Concepts

FlappingWakeThrustFinMarine engineeringParticle image velocimetryInflatableStroke (engine)PropulsionAerospace engineeringTandemSuctionMechanicsFront (military)Computational fluid dynamicsComputer scienceFish finAccelerationVortex sheddingPhysicsRowingUnderwaterPropulsive efficiencyPhase (matter)AcousticsHullInflowMechanical engineeringEngineeringGeologySimulationVelocimetryPropellantUnderwater gliderBoomBiomimetic flight and propulsion mechanismsPlasma and Flow Control in AerodynamicsWind Energy Research and Development
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