Measurements of Wind Loads on Side-by-Side Semi-Submersibles in A Wind Tunnel

The multi-body system has been a popular form for offshore operations in terms of high efficiency. The wind effects are crucial which directly affect the relative positions of floating bodies and operating security. In this study, the aerodynamic characteristics for two coupled semi-submersibles wer...

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Bibliographic Details
Published in:China ocean engineering 2021-09, Vol.35 (4), p.531-543
Main Authors: Dong, Qing, Guo, Xiao-xian, Yang, Jian-min, Lu, Hai-ning, Huang, Long-wei
Format: Article
Language:English
Subjects:
Aerodynamic characteristics
Angle of attack
Coastal Sciences
Distance
Engineering
Floating bodies
Fluid- and Aerodynamics
Loads (forces)
Marine & Freshwater Sciences
Multibody systems
Numerical and Computational Physics
Oceanography
Offshore Engineering
Offshore operations
Offshore platforms
Parameter estimation
Security
Separation
Shielding
Simulation
Submersibles
Wind effects
Wind forces
Wind loads
Wind pressure
Wind tunnels
Work platforms
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Summary:The multi-body system has been a popular form for offshore operations in terms of high efficiency. The wind effects are crucial which directly affect the relative positions of floating bodies and operating security. In this study, the aerodynamic characteristics for two coupled semi-submersibles were analyzed in a wind tunnel to fill the gaps in literature related to the wind sheltering on offshore platforms. The influences of separation distance were also investigated. According to the results, substantial shielding effects were observed and wind forces on the shielded vessel decreased dramatically: a reduction in the transverse force could be up to 74%. Moreover, the longitudinal wind load was amplified by the platform abreast in a side-by-side configuration. As expected, the interference level became more pronounced with a decreasing separation distance. For cases in which wind interaction decayed rapidly with distance, logarithmic functions were preferable for describing the relationship between them. Whereas linear fitting was reasonable for the transverse wind force when there was still evident sheltering at a quite large distance. The length of shielding area was another important factor that there was approximately a linear relationship between it and the shielding level for two platforms in close proximity at various wind attack angles. Based on the two parameters, a preliminary wind loads estimation method considering shielding effects was proposed. This approach can aid the industry to have a qualitative assessment of wind sheltering especially at early stages.
ISSN:0890-5487
2191-8945
DOI:10.1007/s13344-021-0048-6