Hydrodynamics of tandem flapping pectoral fins with varying stroke phase offsets
Kaushik Sampath, Jason D. Geder, Ravi Ramamurti, Marius D. Pruessner, Raymond Koehler
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