A5008570174- Wind Energy Research and Development
- Fluid Dynamics and Vibration Analysis
- Wave and Wind Energy Systems
- Simulation Techniques and Applications
- Wind and Air Flow Studies
- Modeling and Simulation Systems
- Vehicle Noise and Vibration Control
- Distributed and Parallel Computing Systems
- Real-time simulation and control systems
- Aerodynamics and Fluid Dynamics Research
Électricité de France (France)
2017-2023
École nationale des ponts et chaussées
2020-2022
Centre d'Études et d'Expertise sur les Risques, l'Environnement, la Mobilité et l'Aménagement
2022
Abstract. This paper provides a summary of the work done within Phase III Offshore Code Comparison Collaboration, Continued, with Correlation and unCertainty (OC6) project, under International Energy Agency Wind Technology Collaboration Programme Task 30. phase focused on validating aerodynamic loading wind turbine rotor undergoing large motion caused by floating support structure. Numerical models Technical University Denmark 10 MW reference were validated using measurement data from 1:75...
Abstract. This study reports the results of second round analyses Offshore Code Comparison, Collaboration, Continued, with Correlation and unCertainty (OC6) project Phase III. While first investigated rotor aerodynamic loading, here, focus is given to wake behavior a floating wind turbine under large motion. Wind tunnel experimental data from UNsteady Aerodynamics for FLOating (UNAFLOW) are compared simulations provided by participants methods codes different levels fidelity. The effect...
Abstract. This study reports the results of second round analyses OC6 project Phase III. While first investigated rotor aerodynamic loading, here focus is given to wake behavior a floating wind turbine under large motion. Wind tunnel experimental data from UNsteady Aerodynamics for FLOating (UNAFLOW) are compared with simulations provided by participants methods and codes different levels fidelity. The effect platform motion both on near far investigated. More specifically, tip vortices in...
Abstract Floater motions introduce unsteadiness in the aerodynamics of floating offshore wind turbines. The a turbine after three perturbations are studied: blade pitch step, rotor speed step for which dynamic inflow is expected, and surge velocity step. free vortex wake method an analytical helical model based on Joukowsky used to study behavior induced at blades. As effect clear changes, but models show that very little takes place because by helix not significantly modified: tip...
Abstract. This paper provides a summary of the work done within Phase III Offshore Code Comparison, Collaboration, Continued, with Correlation and unCertainty project (OC6), under International Energy Agency Wind Task 30. phase focused on validating aerodynamic loading wind turbine rotor undergoing large motion caused by floating support structure. Numerical models Danish Technical University 10-MW reference were validated using measurement data from 1:75 scale test performed during UNsteady...
Abstract To enable the development of floating offshore wind farms, it is important to have a clear understanding aerodyamic forces applied on turbine. The paper presents comparisons between lifting line free vortex wake method and an actuator in case turbine surge with blade-resolved CFD data as reference. Each model compared quasi-steady estimation loads understand variations due movement. near-wake flow field investigated order give insight into features leading observed behavior. Both...
In recent years, co-simulation has become an increasingly industrial tool to simulate Cyber Physical Systems including multi-physics and control, like smart electric grids, since it allows involve different modeling tools within the same temporal simulation. The challenge now is integrate in a single calculation scheme very numerous intensely inter-connected models, do without any loss model accuracy. This will avoid neglecting fine phenomena or moving away from basic principle of...
The development of complex multi-domain and multiphysic systems, such as Smart Electric Grids, have given rise to new challenges in the simulation domain.These concern capability couple multiple domain-specific simulators, FMI standard is an answer this.But they also scalability accuracy within heterogenous system.We propose implement here concept a Matryoshka FMU, i.e. first its kind FMU compliant with version 2.0 standard.It encapsulates DACCOSIM -our distributed parallel master...