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CFD analysis of hydrodynamic loads on jack-up platforms using buoyancy-modified k-ω SST turbulence model

CFD analysis of hydrodynamic loads on jack-up platforms using buoyancy-modified k-ω SST turbulence model
CFD analysis of hydrodynamic loads on jack-up platforms using buoyancy-modified k-ω SST turbulence model
The offshore jack-up production platform operates in extreme and unpredictable marine environments. Therefore, its structural strength must be designed to withstand harsh conditions, particularly hydrodynamic loads from waves and ocean currents. This study aims to numerically analyze the interaction of marine hydrodynamic forces with a jack-up production platform using OpenFOAM v1606, a Computational Fluid Dynamics (CFD) software. Specifically, the research evaluates a buoyancy-modified k−ω SST turbulence model based on the Standard Gradient Diffusion Hypothesis (SGDH) on a 3D jack-up platform model. The analysis is conducted using a Stokes 5th-order wave model within the waves2Foam toolbox, considering four variations in wave height and period. The results demonstrate that the modified turbulence model provides more accurate predictions. Additionally, they reveal that the forces acting on the platform’s walls are directly proportional to wave height and period, with the highest recorded load reaching 4000 N in Case A, where the wave height and period are 5.4 m and 5.9 s, respectively. Furthermore, it is observed that most of the forces exerted on the platform hull are vertical, primarily due to the negative pressure on the platform’s bottom side.
Computational Fluid Dynamic, OpenFOAM, jack-up production platform, k-ω SST
2311-5521
Arini, Nu Rhahida
d4b01a7c-8192-47a7-86ce-5e1c2f4b84e6
Muhammad, Gilang
316ce422-9c67-4473-b176-8e2eb4012f87
Ilman, Eko Charnius
c5d3ea97-6aed-4ad4-8a0d-dcad46c48ccd
Aribowo, Teguh Hady
bdfc1eb6-451a-47de-af01-ac6af241dc5f
Moshrefi-Torbati, Mohamed
65b351dc-7c2e-4a9a-83a4-df797973913b
Saputra, Deni
b9cf8fe5-9ed8-4875-8c92-0cd0ddcb1658
Arini, Nu Rhahida
d4b01a7c-8192-47a7-86ce-5e1c2f4b84e6
Muhammad, Gilang
316ce422-9c67-4473-b176-8e2eb4012f87
Ilman, Eko Charnius
c5d3ea97-6aed-4ad4-8a0d-dcad46c48ccd
Aribowo, Teguh Hady
bdfc1eb6-451a-47de-af01-ac6af241dc5f
Moshrefi-Torbati, Mohamed
65b351dc-7c2e-4a9a-83a4-df797973913b
Saputra, Deni
b9cf8fe5-9ed8-4875-8c92-0cd0ddcb1658

Arini, Nu Rhahida, Muhammad, Gilang, Ilman, Eko Charnius, Aribowo, Teguh Hady, Moshrefi-Torbati, Mohamed and Saputra, Deni (2025) CFD analysis of hydrodynamic loads on jack-up platforms using buoyancy-modified k-ω SST turbulence model. Fluids, 10 (4), [96]. (doi:10.3390/fluids10040096).

Record type: Article

Abstract

The offshore jack-up production platform operates in extreme and unpredictable marine environments. Therefore, its structural strength must be designed to withstand harsh conditions, particularly hydrodynamic loads from waves and ocean currents. This study aims to numerically analyze the interaction of marine hydrodynamic forces with a jack-up production platform using OpenFOAM v1606, a Computational Fluid Dynamics (CFD) software. Specifically, the research evaluates a buoyancy-modified k−ω SST turbulence model based on the Standard Gradient Diffusion Hypothesis (SGDH) on a 3D jack-up platform model. The analysis is conducted using a Stokes 5th-order wave model within the waves2Foam toolbox, considering four variations in wave height and period. The results demonstrate that the modified turbulence model provides more accurate predictions. Additionally, they reveal that the forces acting on the platform’s walls are directly proportional to wave height and period, with the highest recorded load reaching 4000 N in Case A, where the wave height and period are 5.4 m and 5.9 s, respectively. Furthermore, it is observed that most of the forces exerted on the platform hull are vertical, primarily due to the negative pressure on the platform’s bottom side.

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More information

In preparation date: 25 February 2025
Accepted/In Press date: 1 April 2025
Published date: 4 April 2025
Keywords: Computational Fluid Dynamic, OpenFOAM, jack-up production platform, k-ω SST

Identifiers

Local EPrints ID: 501726
URI: http://eprints.soton.ac.uk/id/eprint/501726
DOI: doi:10.3390/fluids10040096
ISSN: 2311-5521
PURE UUID: 067f017e-bbcf-49c9-b268-28503dde3e6a

Catalogue record

Date deposited: 09 Jun 2025 16:59
Last modified: 02 Sep 2025 17:02

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Contributors

Author: Nu Rhahida Arini
Author: Gilang Muhammad
Author: Eko Charnius Ilman
Author: Teguh Hady Aribowo
Author: Mohamed Moshrefi-Torbati
Author: Deni Saputra

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