A5037822995- Wave and Wind Energy Systems
- Fluid Dynamics and Vibration Analysis
- Wind Energy Research and Development
- Mechanical stress and fatigue analysis
- Vibration and Dynamic Analysis
- Structural Integrity and Reliability Analysis
- Underwater Vehicles and Communication Systems
- Structural Engineering and Vibration Analysis
Laboratoire de Recherche Hydrodynamique, Energétique et Environnement Atmosphérique
2023
École Centrale de Nantes
2023
Centre National de la Recherche Scientifique
2023
University of Lisbon
2022-2023
Nantes Université
2023
This study investigates the impact of frequency-domain hydrodynamic outputs from several panel method codes on estimating time domain responses floating wind turbines. The tools under examination are WAMIT and three open-source (HAMS, NEMOH, BEMUse). deliver coefficients exciting forces in frequency domain. results serve as inputs to time-domain simulations, which coupled calculated. Hence, differences reflected time-domain. Two platforms employed: OC3-Hywind spar OC4-DeepCWind...
This work evaluates the experimental test results regarding operational performance of a free-float capable tension leg platform with 10 MW wind turbine. It covers dynamics in selected installation area: Ribadeo, Spain. The model and facility are initially presented, along setup load cases. testing campaign includes software-in-the-loop method to emulate rotor thrust aerodynamic gyroscopic moments pitch yaw. result sets structured start from basic information system identification cases...
This paper reviews experimental methods for testing floating wind turbines. The techniques covered include early-stage and up-to-date approaches such as a porous disc method hybrid model testing. First, the challenges induced by Froude Reynolds similitudes importance of various aerodynamic phenomena are discussed. evaluated based on their cost, versatility, requirements, limitations. work primarily focuses representing loads via physical rotor testing, preliminary classification is proposed...