Projets
CEAUCOMP
Modeling the coupling between water diffusion and the mechanical behavior of composite materials (CEAUCOMP) The objective of the project is to develop predictive models for composite materials subjected to coupled hygromechanical conditions.
RIVERS
Development of a monitoring solution for the composite structure of a large offshore wind turbine blade
ROS-3D
Probabilistic analysis of wind turbine foundations taking into account three-dimensional spatial variability
BRAGGMETER
Purchase of small equipment for a fiber Bragg grating sensor interrogator
ROTOR OPTIM
Equipment for the creation and characterization of an active control system (sensors/actuators) on the blades of wind turbine rotors in harsh environments in order to optimize their lifespan and production.
SHM-OWTGrout
The project consists of studying how appropriate instrumentation and damage detection methodology can provide suitable solutions to issues related to damage to the grout joints of offshore wind turbines.
SVH
Servo-Vérin Hydraulique pour le Fonçage de Pieux en Centrifugeuse-SVH
TOCCME
Standalone multi-parameter probe for measuring the measurement uncertainty of environmental parameters affecting the degradation of materials at sea
TRPIV4EMR
Time-resolved Particle Image Velocimetry (PIV) for laboratory EMR applications
WIND2SIM
Moving from wind tunnels to numerical simulation for studying the wake of unstable floating wind turbines
ATMOSFARM
Realistic simulation for wind farm optimization. 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.
ASAPe
Add-on Systems for Improving Wind Turbine Performance