Effect of a fixed downstream cylinder on the flow-induced vibration of an elastically supported primary cylinder
Effect of a fixed downstream cylinder on the flow-induced vibration of an elastically supported primary cylinder
This paper numerically investigates the influence of a fixed downstream control cylinder on the flow-induced vibration of an elastically supported primary cylinder. These two cylinders are situated in a tandem arrangement with small dimensionless center-to-center spacing (L/D, L is the intermediate spacing and D is the cylinder diameter). The present two-dimensional (2D) simulations are carried out in the low Reynolds number (Re) regime. The primary focus of this study is to reveal the underlying flow physics behind the transition from vortex-induced vibration to galloping in the response of the primary cylinder due to the presence of another fixed downstream cylinder. Two distinct flow field regimes, namely, steady flow and alternate attachment regimes, are observed for different L/D and Re values. Depending on the evolution of the near-field flow structures, four different wake patterns, “2S,” “2P,” “2C,” and “aperiodic,” are observed. The corresponding vibration response of the upstream cylinder is characterized as interference galloping and extended vortex-induced vibration. As the L/D ratio increases, the lift enhancement due to flow-induced vibration is seen to be weakened. The detailed correlation between the force generation and the near-wake interactions is investigated. The present findings will augment our understanding of vibration reduction or flow-induced energy harvesting of tandem cylindrical structures.
Wang, Junlei
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Li, Shenfang
3551287c-d59a-461f-bc77-c82d94e2580f
Yurchenko, Daniil
51a2896b-281e-4977-bb72-5f96e891fbf8
Zhu, Hongjun
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Bose, Chandan
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Wang, Junlei
d55dc6d0-734d-46e1-bedd-5ecc18df8702
Li, Shenfang
3551287c-d59a-461f-bc77-c82d94e2580f
Yurchenko, Daniil
51a2896b-281e-4977-bb72-5f96e891fbf8
Zhu, Hongjun
666a06f2-c101-4b00-9b87-8076af782c95
Bose, Chandan
5202ca64-3c9d-41e7-850a-71c9abadb913
Wang, Junlei, Li, Shenfang, Yurchenko, Daniil, Zhu, Hongjun and Bose, Chandan
(2024)
Effect of a fixed downstream cylinder on the flow-induced vibration of an elastically supported primary cylinder.
Physics of Fluids, 36 (6), [063602].
(doi:10.1063/5.0207136).
Abstract
This paper numerically investigates the influence of a fixed downstream control cylinder on the flow-induced vibration of an elastically supported primary cylinder. These two cylinders are situated in a tandem arrangement with small dimensionless center-to-center spacing (L/D, L is the intermediate spacing and D is the cylinder diameter). The present two-dimensional (2D) simulations are carried out in the low Reynolds number (Re) regime. The primary focus of this study is to reveal the underlying flow physics behind the transition from vortex-induced vibration to galloping in the response of the primary cylinder due to the presence of another fixed downstream cylinder. Two distinct flow field regimes, namely, steady flow and alternate attachment regimes, are observed for different L/D and Re values. Depending on the evolution of the near-field flow structures, four different wake patterns, “2S,” “2P,” “2C,” and “aperiodic,” are observed. The corresponding vibration response of the upstream cylinder is characterized as interference galloping and extended vortex-induced vibration. As the L/D ratio increases, the lift enhancement due to flow-induced vibration is seen to be weakened. The detailed correlation between the force generation and the near-wake interactions is investigated. The present findings will augment our understanding of vibration reduction or flow-induced energy harvesting of tandem cylindrical structures.
Text
2024_DVY_Phy_of_Fl
- Accepted Manuscript
Text
063602_1_5.0207136
- Version of Record
More information
Accepted/In Press date: 17 May 2024
e-pub ahead of print date: 4 June 2024
Identifiers
Local EPrints ID: 494430
URI: http://eprints.soton.ac.uk/id/eprint/494430
ISSN: 1070-6631
PURE UUID: 92baf3b4-382a-4d1b-9343-a0d3b3d06062
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Date deposited: 08 Oct 2024 16:39
Last modified: 11 Oct 2024 02:02
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Contributors
Author:
Junlei Wang
Author:
Shenfang Li
Author:
Daniil Yurchenko
Author:
Hongjun Zhu
Author:
Chandan Bose
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