Litcius/Paper detail

Wake-foil interactions and energy harvesting efficiency in tandem oscillating foils

Bernardo Luiz R. Ribeiro, Yunxing Su, Quentin Guillaumin, Kenneth S. Breuer, Jennifer A. Franck

2021Physical Review Fluids46 citationsDOIOpen Access PDF

Abstract

Oscillating foils in synchronized pitch and heave motion can harvest hydrokinetic energy while leaving behind a distinct trail of alternating signed vortices. This work correlates the specific foil kinematics (frequency, pitch, and heave amplitude) with the resulting wake structure by defining three modes within the energy harvesting kinematic regime. Using an array of two tandem oscillating foils, the performance of the trailing foil is modeled by analyzing the wake between the two oscillating foils. The resulting efficiency of the trailing foil is redefined by accounting for the steady and unsteady components of the local flow, yielding a closer match to the single foil efficiency curve.

Topics & Concepts

WakeFOIL methodTandemKinematicsWork (physics)MechanicsEnergy harvestingEnergy (signal processing)PhysicsAcousticsMaterials scienceEfficient energy usePropulsive efficiencyMode (computer interface)Energy transformationMotion (physics)Energy transferAerospace engineeringMeasure (data warehouse)Biomimetic flight and propulsion mechanismsFluid Dynamics and Vibration AnalysisWave and Wind Energy Systems
Wake-foil interactions and energy harvesting efficiency in tandem oscillating foils | Litcius