Full-scale CFD investigations of helical strakes as a means of reducing the vortex induced forces on a semi-submersible
Full-scale CFD investigations of helical strakes as a means of reducing the vortex induced forces on a semi-submersible
As the search for oil in the Gulf of Mexico (GoM) moves into deeper waters, floating platforms such as semisubmersibles are in increasing demand. As semi-submersibles increase in size, the effect of vortex-induced motions (VIMs) becomes a significant problem in their design. VIMs stem from transverse forces caused by the current affecting the platform, with vortexes moving downstream on either side of the structure. The loop/eddy current phenomenon in the GoM leads to a constant current being present in the area, with speeds of up to 1.8 m/s. The accurate prediction of the vertical and transverse motions of semi-submersibles is crucial for the design of the riser systems. It is therefore beneficial to investigate the hydrodynamic forces acting on the geometry, and means of reducing these forces. A common method of reducing transverse forces is the addition of column appendages, such as helical strakes. In this paper, full-scale computational fluid dynamic analyses are carried out to examine the transverse forces caused by this vortex shedding using realistic current velocities in the GoM. Helical strakes are attached to the geometry to break up the coherence of the vortex shedding and the performance of these strakes is investigated numerically.
338-351
Holland, Vegard
370ca9f1-2a1f-46e4-9c1a-728509aacfdb
Tezdogan, Tahsin
7e7328e2-4185-4052-8e9a-53fd81c98909
Oguz, Elif
b5502cac-9e03-4ea2-90ed-6edef72df2bd
1 June 2017
Holland, Vegard
370ca9f1-2a1f-46e4-9c1a-728509aacfdb
Tezdogan, Tahsin
7e7328e2-4185-4052-8e9a-53fd81c98909
Oguz, Elif
b5502cac-9e03-4ea2-90ed-6edef72df2bd
Holland, Vegard, Tezdogan, Tahsin and Oguz, Elif
(2017)
Full-scale CFD investigations of helical strakes as a means of reducing the vortex induced forces on a semi-submersible.
Ocean Engineering, .
(doi:10.1016/j.oceaneng.2017.04.014).
Abstract
As the search for oil in the Gulf of Mexico (GoM) moves into deeper waters, floating platforms such as semisubmersibles are in increasing demand. As semi-submersibles increase in size, the effect of vortex-induced motions (VIMs) becomes a significant problem in their design. VIMs stem from transverse forces caused by the current affecting the platform, with vortexes moving downstream on either side of the structure. The loop/eddy current phenomenon in the GoM leads to a constant current being present in the area, with speeds of up to 1.8 m/s. The accurate prediction of the vertical and transverse motions of semi-submersibles is crucial for the design of the riser systems. It is therefore beneficial to investigate the hydrodynamic forces acting on the geometry, and means of reducing these forces. A common method of reducing transverse forces is the addition of column appendages, such as helical strakes. In this paper, full-scale computational fluid dynamic analyses are carried out to examine the transverse forces caused by this vortex shedding using realistic current velocities in the GoM. Helical strakes are attached to the geometry to break up the coherence of the vortex shedding and the performance of these strakes is investigated numerically.
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Accepted/In Press date: 18 April 2017
Published date: 1 June 2017
Identifiers
Local EPrints ID: 479219
URI: http://eprints.soton.ac.uk/id/eprint/479219
ISSN: 0029-8018
PURE UUID: ccc37beb-c340-4929-9656-204bafc3d558
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Date deposited: 20 Jul 2023 16:46
Last modified: 17 Mar 2024 04:18
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Author:
Vegard Holland
Author:
Tahsin Tezdogan
Author:
Elif Oguz
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