Numerical simulations of vortex-induced vibrations on vertical cylindrical structure with different aspect ratios

This paper presents a computational fluid dynamics (CFD) study of vortex-induced vibration (VIV) for different aspect ratio (L/D) cylinder. Of particular interest was to measure hydrodynamic forces and numerically investigate the wake behaviour of VIV while varying the aspect ratio. The simulation m...

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Bibliographic Details
Published in:Ships and offshore structures 2016-05, Vol.11 (4), p.405-423
Main Authors: Rahman, Mohd Asamudin A., Leggoe, Jeremy, Thiagarajan, Krish, Mohd, Mohd Hairil, Paik, Jeom Kee
Format: Article
Language:English
Subjects:
aspect ratio effects
cylindrical offshore structure
Naval engineering
numerical simulation
Offshore oil wells
Simulation
Vortex-induced vibrations
Vortices
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Summary:This paper presents a computational fluid dynamics (CFD) study of vortex-induced vibration (VIV) for different aspect ratio (L/D) cylinder. Of particular interest was to measure hydrodynamic forces and numerically investigate the wake behaviour of VIV while varying the aspect ratio. The simulation models represented the actual experimental conditions with idealised free-surface boundary condition to capture the responses from fluid-structure interaction phenomenon. The simulations were performed in the subcritical flow region (7.4×10 3 < Re < 2×10 5 ), corresponding to a range of reduced velocity (U r ) from 2 to 14. The results of the cases studied were discussed and compared with the experimental data to verify the accuracy and validity of the present simulation. The comparisons have shown a similar curved-shape drag coefficient plot, and however underestimated the value of the drag coefficients over the reduced velocity. Additionally, the simulations seemed to capture a higher lift force response compared with the experimental data for a low aspect ratio. The correlation length was observed to be longer for larger aspect ratio and proportionally decreases as the aspect ratio decreases.
ISSN:1744-5302
1754-212X
DOI:10.1080/17445302.2015.1013783