Transitions in the Wakes of Spinning Cylinders - Prof Kerry Hourigan
Published: 24 October 2013
Date & Time: 2:00-3:00 PM, 26th of June 2014, Thursday. Venue: Room 355 (J10), James Watt Building South
We are going to have a seminar on 'Transitions in the Wakes of Spinning Cylinders' on 26th June 2014, Thursday, given by Prof Kerry Hourigan, Monash University, Melbourne, Australia.
Abstract is given below.
Date & Time: 2:00-3:00 PM, 26th of June 2014, Thursday
Venue: Room 355 (J10), James Watt Building South
Abstract
Airfoil geometries are used for aircraft wings (and seacraft sails) because they provide high lift, low drag and little vortex shedding, leading to stable motion. A non-rotating cylinder has zero mean lift, high drag and can suffer severe vortex-induced vibrations – however, increasing the spin rate of a cylinder leads to high lift, low drag, with vortex shedding disappearing; the Magnus effect can be used to advantage in Flettner rotor sails and wings. The 2d and 3d wake transitions for a cylinder in a uniform flow as its spin rate is increased have been investigated both numerical and experimentally. It is found numerically and experimentally that a remarkably rich array of two- and three-dimensional transitions occurs in the wake for low Reynolds number. Surprisingly, very large flow-induced vibrations can occur for an elastically mounted spinning cylinder, even when the vortex shedding is suppressed.
First published: 24 October 2013
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