CFD simulations and experimental measurements of flow past free-surface piercing, finite length cylinders with varying aspect ratios
CFD simulations and experimental measurements of flow past free-surface piercing, finite length cylinders with varying aspect ratios
In this work, the flow past surface-piercing cylinders with free lower ends is studied numerically with computational fluid dynamics (CFD) at varying aspect ratios (AR = H/D) from around 1 to 19, and compared against experimental measurement across the same range. Numerical and experimental work is carried out at Re = 2900 and Fr = 0.65. The aspect ratio of the cylinder is varied by raising and lowering the cylinder into the water. The resulting flow field and loads on the cylinder as a result of changing the cylinder’s depth of submergence are investigated in terms of drag, lift and frequency content. First, the effects of changing the aspect ratio are examined. CFD simulations demonstrate a reduced drag coefficient, consistent with the experimental measurements, as compared to a fully-submerged, infinite cylinder at the same Reynolds number. A significant reduction in the drag coefficient is observed at an aspect ratio of 2. For aspect ratios 3 and below, Karman vortex shedding is completely suppressed due to the dominance of free surface effects. With increasing aspect ratio the Strouhal number is found to approach 0.2. Second, the flow regime is investigated as a function of cylinder length for a cylinder with aspect ratio of 12. Different regions of vortex shedding are observed along the length of the cylinder, as demonstrated by lift forces, Strouhal numbers and CFD flow visualizations. Strouhal numbers below 0.2 were observed for regions near the free surface. Additionally, the drag coefficient was found to decrease near the free surface. This study over a wide range of aspect ratios exhibits the effects of a free surface, free end and also the length of the cylinder on both the flow regime and loading.
Maija, Benitz
34c3ea3e-6acd-4acb-a48b-93dc0c7cad1e
Carlson, Daniel
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Seyed-Aghazadeh, Banafsheh
518b7862-48c8-4a20-988d-04f72579d402
Modarres-Sadeghi, Yahya
ef096f40-2b74-4287-a2a9-e1ecf76ea792
Lackner, Matthew
377a2ebf-d1a8-4986-a3ea-fe2f9e8146f4
Schmidt, David
0a878494-9b4c-43ff-b941-41b5523b721c
10 September 2016
Maija, Benitz
34c3ea3e-6acd-4acb-a48b-93dc0c7cad1e
Carlson, Daniel
c0f88797-732c-46ef-8e74-a5186d4733bf
Seyed-Aghazadeh, Banafsheh
518b7862-48c8-4a20-988d-04f72579d402
Modarres-Sadeghi, Yahya
ef096f40-2b74-4287-a2a9-e1ecf76ea792
Lackner, Matthew
377a2ebf-d1a8-4986-a3ea-fe2f9e8146f4
Schmidt, David
0a878494-9b4c-43ff-b941-41b5523b721c
Maija, Benitz, Carlson, Daniel, Seyed-Aghazadeh, Banafsheh, Modarres-Sadeghi, Yahya, Lackner, Matthew and Schmidt, David
(2016)
CFD simulations and experimental measurements of flow past free-surface piercing, finite length cylinders with varying aspect ratios.
Computers & Fluids.
(doi:10.1016/j.compfluid.2016.06.013).
Abstract
In this work, the flow past surface-piercing cylinders with free lower ends is studied numerically with computational fluid dynamics (CFD) at varying aspect ratios (AR = H/D) from around 1 to 19, and compared against experimental measurement across the same range. Numerical and experimental work is carried out at Re = 2900 and Fr = 0.65. The aspect ratio of the cylinder is varied by raising and lowering the cylinder into the water. The resulting flow field and loads on the cylinder as a result of changing the cylinder’s depth of submergence are investigated in terms of drag, lift and frequency content. First, the effects of changing the aspect ratio are examined. CFD simulations demonstrate a reduced drag coefficient, consistent with the experimental measurements, as compared to a fully-submerged, infinite cylinder at the same Reynolds number. A significant reduction in the drag coefficient is observed at an aspect ratio of 2. For aspect ratios 3 and below, Karman vortex shedding is completely suppressed due to the dominance of free surface effects. With increasing aspect ratio the Strouhal number is found to approach 0.2. Second, the flow regime is investigated as a function of cylinder length for a cylinder with aspect ratio of 12. Different regions of vortex shedding are observed along the length of the cylinder, as demonstrated by lift forces, Strouhal numbers and CFD flow visualizations. Strouhal numbers below 0.2 were observed for regions near the free surface. Additionally, the drag coefficient was found to decrease near the free surface. This study over a wide range of aspect ratios exhibits the effects of a free surface, free end and also the length of the cylinder on both the flow regime and loading.
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Published date: 10 September 2016
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Local EPrints ID: 507242
URI: http://eprints.soton.ac.uk/id/eprint/507242
ISSN: 0045-7930
PURE UUID: 4d205dab-3fa3-4968-bb11-9128731be66c
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Date deposited: 02 Dec 2025 18:02
Last modified: 03 Dec 2025 03:06
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Author:
Benitz Maija
Author:
Daniel Carlson
Author:
Banafsheh Seyed-Aghazadeh
Author:
Yahya Modarres-Sadeghi
Author:
Matthew Lackner
Author:
David Schmidt
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