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Collaborating Authors
Results
Abstract This paper aims to compare wave tank experimental results in scale 1:40 on two different Tension-Leg-Buoy (TLB) platforms with CFD simulations. The CFD simulations are carried out using the Volume of Fluid (VOF) method included in the STAR-CCM+ code from CDadapco. Displacements for free decay tests for heave, time-series of tower motions, mooring line tension for regular wave cases and mooring line tension for two regular wave cases in intermediate water depth are presented in the results and compared with experiments. Good agreement was found with the experiments and the interactions between hydrodynamic loading and motions resulted to be well captured.
agreement, Artificial Intelligence, CFD Simulation, displacement, experiment, frequency, good agreement, international offshore, Jonkman, machine learning, mooring system, multi-harmonic behavior, Nygaard, offshore projects planning and execution, Offshore Wind Turbine, platform, renewable energy, Simulation, social responsibility, subsea system, sustainability, sustainable development, tension leg buoy platform, tlb-b structure, wind energy
Country:
- Europe (1.00)
- North America > United States > Hawaii (0.16)
SPE Disciplines: