Projets

BIODYTHERM

Effect of BIOcolonization of Dynamic Umbilicals on Thermal Exchanges

Multidirectional Loading System for Shared Anchoring in Centrifuges

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.

SOFTWIND

Experimental modeling of floating wind turbine behavior: Control strategy and methodology for representing a wind turbine in a tank

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

WAKEFUL

Measurement and analysis of the unsteady wake of floating offshore wind turbines.

WEREVER DEMO PLATFORM

WEREVER OPTIROUTE

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.