SALOME

The SALOME project aims to investigate a novel scientific strategy for dynamic management and predictive maintenance of offshore wind turbines by taking into consideration all the physical parameters and phenomena impacting their aging in order to facilitate a fatigue-informed participation of offshore wind farms in frequency control and in electricity markets (day-ahead and reserve).

The project brings together universities and research centers expert in modelling of atmospheric phenomena (Université du Littoral Côte d'Opale, France), developing real-time temperature and vibration sensors (Advanced Photonic Sensors, UMONS, & Applied Photonics Department, Multitel), modelling and control of wind turbines (Electrical Energy Laboratory (EELAB), Ghent University, Belgium), and in developing optimized decision-making tools for power systems and electricity markets (Electrical Power Engineering Unit, UMONS).

Project website: https://www.salome-interreg.eu/

Project LinkedIn Page: https://www.linkedin.com/company/salome-interreg-fwvl/