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Vortex-induced vibration forever even with high structural damping

Peng Han, Emmanuel de Langre, Mark C. Thompson, Kerry Hourigan, Jisheng Zhao

2023Journal of Fluid Mechanics42 citationsDOIOpen Access PDF

Abstract

This study investigates the effect of structural damping on vortex-induced vibration (VIV) of a circular cylinder when the mass ratio is below its critical value. It is confirmed by water-channel experiments and a reduced-order model (ROM) that the previously identified phenomenon of VIV forever, i.e. resonance oscillations at any reduced velocity, persists even with high structural damping. Of interest, the ROM results reveal that the wake mode for VIV forever is unstable with a constant positive growth rate with increasing reduced velocity, while the experimental results suggest that VIV forever is associated with a synchronisation between the non-stationary cylinder vibration frequency and the vortex-shedding frequency.

Topics & Concepts

WakeVortex-induced vibrationVibrationPhysicsVortex sheddingVortexDamping ratioCylinderMechanicsResonance (particle physics)Magnetic dampingOscillation (cell signaling)AcousticsAtomic physicsTurbulenceReynolds numberGeometryMathematicsGeneticsBiologyFluid Dynamics and Vibration AnalysisWind and Air Flow StudiesVibration and Dynamic Analysis