Projets
MONAMOOR WP33
Feasibility study on the use of polymer fiber as an electromagnetic waveguide to monitor the condition of synthetic nylon mooring lines.
I2FLOW
Improve the environmental Integration of Floating Offshore Wind Turbines
HP_Flow
Hydrodynamic modeling of anti-pitching plates for floating wind turbines
FANWIN
Propulsion system for EMR system models tested in test tanks
EOLNAV
Preliminary study on the feasibility of floating wind turbines for harvesting wind energy on the high seas
EMA
The scenario for the French electricity mix in 2035/2050 shows that, under certain assumptions, the interaction between renewable energies and conventional energies leads to occasional imbalances in the electricity market.
DOMTEM
Development of a High-Performance Tool for Modeling Turbines in Marine Environments
CELT4Wind
Cable Electro-Thermal Management for Offshore Wind Farms
Biodytherm8
Device for in situ monitoring of biofouling on umbilical heat exchangers
WIND2SIM
Moving from wind tunnels to numerical simulation for studying the wake of unstable floating wind turbines
AUTOFLEET_Y1
Algorithms and control systems for recovering wind energy at sea using sail-turbines. The ATMOSFARM project uses a CFD approach to accurately solve the flows in the wake of wind turbines, in order to reproduce the interactions between turbines as accurately as possible.
AUTOFLEET_PLUS
Algorithms and control systems for recovering wind energy at sea using sail-turbines. The ATMOSFARM project uses a CFD approach to accurately solve the flows in the wake of wind turbines, in order to reproduce the interactions between turbines as accurately as possible.