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The authors acknowledge the support given by the Government of Navarre (Research project: PC042-043 COSTA) .

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Campana, GuillenAutor o coautor

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Article

High fidelity CFD models comparison to potential flow method in the simulation of full scale floating platform under free decay tests

Publicat a:Ocean Engineering. 331 121385- - 2025-07-01 331(), DOI: 10.1016/j.oceaneng.2025.121385

Autors: Gil, Miguel; Armananzas, Javier; Torres, Alexia; Fuertes, Juan Pablo; Campana, Guillen; Mendez, Beatriz; Leon, Javier

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Resum

The use of simulation models based on potential flow is widespread in the wind industry for the simulation of floating wind turbines. However, these analytical models have shortcomings in correctly representing the behavior of Floating Offshore Wind Turbines (FOWTs) under extreme wind and wave conditions. High fidelity Computational Fluid Dynamics (CFD) simulations aim to develop models where the fluid-structure interaction is more accurately modeled, allowing to correctly predict the behavior of wind turbines and thus to redesign structural components and save costs. In this paper, two different CFD simulation models are developed and compared, including different turbulence models (Reynolds-Averaged Navier-Stokes (RANS) and Large Eddy Simulation (LES)), numerical methodologies (Navier-Stokes and Lattice-Boltzmann method) and mooring models (Quasi-Static and Dynamic). Different free decay Load Cases (LC) are performed in XFlow and OpenFOAM, and the damping ratio and natural period of the system are analyzed with different mooring arrangements (Multi-Point Mooring (MPM) and Single-Point Mooring (SPM)), comparing all results with respect to a potential flow model (HydroDyn). A maximum error of 3.3 % in natural period and 1.6% error in damping factor is obtained, small enough to validate the results of CFD models. Vorticity is also analyzed to understand the differences between both CFD models. Finally, the stress of the mooring lines is computed, which allows validating the mooring system model implemented in XFlow by means of external functions.

Paraules clau

CfdFowtHydrodyLattice boltzmannLoadOpenfoamPoint-mooring systemValidationWind turbinesXflow

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Impacte bibliomètric. Anàlisi de la contribució i canal de difusió

El treball ha estat publicat a la revista Ocean Engineering a causa de la seva progressió i el bon impacte que ha aconseguit en els últims anys, segons l'agència WoS (JCR), s'ha convertit en una referència en el seu camp. A l'any de publicació del treball, 2025, es trobava a la posició 22/182, aconseguint així situar-se com a revista Q1 (Primer Cuartil), en la categoria Engineering, Civil.