Model-Based Super-Twisting Controller for a Tensioned-Leg-Platform Floating Offshore Wind Turbine
Résumé
This paper presents a model-based super-twisting controller for a 5 MW
floating wind turbine mounted on a tensioned-leg platform. For the
design of the super-twisting controller, a control-oriented model is
selected in the literature and adapted to be written as a function
affine in control. The proposed controller is designed for the
regulation of the rotor speed at its rated value while reducing the
platform pitch angle oscillations. The control law has been validated on
a high accuracy simulation code OpenFAST with four different scenarios.
The simulation results have shown that the super-twisting algorithm is
able to regulate the rotor speed and to mitigate platform oscillations
for different wind and wave conditions.