Vortex-induced vibration of a single degree-of-freedom flexibly-mounted horizontal cylinder near the free surface
Vortex-induced vibration of a single degree-of-freedom flexibly-mounted horizontal cylinder near the free surface
This paper reports findings from an experimental study on vortex-induced vibration of a horizontal, flexibly-mounted cylinder positioned near the free surface of fluid flow. The cylinder is allowed to oscillate in the vertical direction only. Oscillation amplitude and frequency data are presented as a function of reduced velocity and dimensionless depth from the free surface. Data are presented for cases of decreasing depth from where the resting cylinder is fully-submerged until its centerline is even with the free surface of the water. For a fully-submerged cylinder, VIV behavior is consistent with published findings of similar systems, producing a well-documented lock-in region with initial, upper, and lower branches. Broadly, as the cylinder is raised from the fully-submerged case, the amplitudes diminish and the lock-in region decreases in range and shifts toward higher reduced velocities. When the cylinder is very near the surface, a second region of oscillations occurs at higher reduced velocities. This region emerges in cases where the cylinder’s top edge is half a diameter below the free surface. For a short range of depths, the lock-in region and the non-zero amplitude region at higher reduced velocities coexist. But after a critical depth, the lock-in region disappears and oscillations are observed only at the higher reduced velocity region. Multi-frequency oscillations and regions of hysteresis are observed for some cases of low depth and high reduced velocity.
161-175
Nicholas, Capell
ccaef1ae-f313-4c6b-b742-218453587233
Carlson, Daniel
c0f88797-732c-46ef-8e74-a5186d4733bf
Modarres-Sadeghi, Yahya
ef096f40-2b74-4287-a2a9-e1ecf76ea792
31 March 2019
Nicholas, Capell
ccaef1ae-f313-4c6b-b742-218453587233
Carlson, Daniel
c0f88797-732c-46ef-8e74-a5186d4733bf
Modarres-Sadeghi, Yahya
ef096f40-2b74-4287-a2a9-e1ecf76ea792
Nicholas, Capell, Carlson, Daniel and Modarres-Sadeghi, Yahya
(2019)
Vortex-induced vibration of a single degree-of-freedom flexibly-mounted horizontal cylinder near the free surface.
Journal of Sound and Vibration, 444, .
(doi:10.1016/j.jsv.2018.12.021).
Abstract
This paper reports findings from an experimental study on vortex-induced vibration of a horizontal, flexibly-mounted cylinder positioned near the free surface of fluid flow. The cylinder is allowed to oscillate in the vertical direction only. Oscillation amplitude and frequency data are presented as a function of reduced velocity and dimensionless depth from the free surface. Data are presented for cases of decreasing depth from where the resting cylinder is fully-submerged until its centerline is even with the free surface of the water. For a fully-submerged cylinder, VIV behavior is consistent with published findings of similar systems, producing a well-documented lock-in region with initial, upper, and lower branches. Broadly, as the cylinder is raised from the fully-submerged case, the amplitudes diminish and the lock-in region decreases in range and shifts toward higher reduced velocities. When the cylinder is very near the surface, a second region of oscillations occurs at higher reduced velocities. This region emerges in cases where the cylinder’s top edge is half a diameter below the free surface. For a short range of depths, the lock-in region and the non-zero amplitude region at higher reduced velocities coexist. But after a critical depth, the lock-in region disappears and oscillations are observed only at the higher reduced velocity region. Multi-frequency oscillations and regions of hysteresis are observed for some cases of low depth and high reduced velocity.
This record has no associated files available for download.
More information
Published date: 31 March 2019
Identifiers
Local EPrints ID: 507268
URI: http://eprints.soton.ac.uk/id/eprint/507268
ISSN: 0022-460X
PURE UUID: dce87e68-83a3-4b72-b629-b70bd031ec85
Catalogue record
Date deposited: 02 Dec 2025 18:08
Last modified: 03 Dec 2025 03:06
Export record
Altmetrics
Contributors
Author:
Capell Nicholas
Author:
Daniel Carlson
Author:
Yahya Modarres-Sadeghi
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics