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Design and simulation investigation of piezoelectric energy harvester under wake-induced vibration coupling vortex-induced vibration

Jinpeng Meng, Xingwen Fu, Chongqiu Yang, Leian Zhang, Xianhai Yang, Rujun Song

2021Ferroelectrics13 citationsDOI

Abstract

In this paper, a piezoelectric energy harvester under wake-induced vibration coupling vortex-induced vibration is proposed to covert the wind energy to electricity. Simulation analysis method is adopted to study output performance of the harvester. The results show that the lift force of the tail cylinder oscillator is simultaneously affected by the vortex-induced vibration and the wake-induced vibration, which could be controlled by the spacing distance. When the spacing ratio is 6, the lift force is the largest. The maximum output of 1.36 mW can be obtained when the flow rate is 1.6 m/s with load resistance of 100 kΩ.

Topics & Concepts

WakeVibrationVortex-induced vibrationVortexLift (data mining)AcousticsMaterials scienceVortex sheddingMechanicsPiezoelectricityCoupling (piping)Energy harvestingWake turbulencePhysicsEnergy (signal processing)TurbulenceComputer scienceReynolds numberQuantum mechanicsMetallurgyData miningInnovative Energy Harvesting TechnologiesFluid Dynamics and Vibration AnalysisVibration and Dynamic Analysis
Design and simulation investigation of piezoelectric energy harvester under wake-induced vibration coupling vortex-induced vibration | Litcius