Please use this identifier to cite or link to this item: http://hdl.handle.net/10397/31142
Title: Active control of vortex-induced off-resonance vibration of a flexible structure in crossflow
Authors: Zhang, MM
Cheng, L 
Zhou, Y
Issue Date: 2005
Source: 12th International Congress on Sound and Vibration 2005, ICSV 2005, 2005, v. 3, p. 2639-2646 How to cite?
Abstract: Closed-loop control of vortex-induced non-resonant flexible cylinder vibration is experimentally investigated in this paper. Piezo-ceramic actuators were embedded inside the cylinder to cause an oscillation of the cylinder surface, which subsequently altered the fluid-structure interaction. Experiments were conducted in a wind tunnel at Reynolds number of 2800 and 8000. Two typical control schemes, i.e. Y-control and u + Y-control, were deployed using feedback signals from structural vibration Y and combined Y and fluctuating flow velocity u, respectively. The control effects on Y and flow were assessed using laser vibrometer, optical fiber Bragg grating (FBG) sensor, hot wires and particle image velocimetry (PIV), respectively. Experimental results show that both vortex shedding from the cylinder and the vortex-induced non-resonant vibration were effectively suppressed. The best control effects were observed with u + Y-control in use; the root mean square values of Y, structural strain rate εy along the lift direction and u, i.e. Yms, εy rms and urms, and circulation Γ dropped by 58%, 52%, 53% and 88% at Re = 8000, respectively. It was found that the control effectively modified the nature of the fluid-structure interaction by changing the in-phased fluid-structure synchronization at all dominant frequencies into anti-phased interaction, accounting for the suppression in both vortex shedding and structural vibration.
Description: 12th International Congress on Sound and Vibration 2005, ICSV 2005, Lisbon, 11-14 July 2005
URI: http://hdl.handle.net/10397/31142
ISBN: 9781627481496
Appears in Collections:Conference Paper

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