Title :
Flatness-based control of a variable-speed wind-energy system connected to the grid
Author :
Aimene, Merzak ; Payman, Alireza ; Dakyo, Brayima
Author_Institution :
GREAH Lab., Univ. of Le Havre, Le Havre, France
Abstract :
In this paper, a new nonlinear control method based on differential flatness is applied to a high-power wind energy conversion system connected to the grid. The control system is done by planning the appropriate trajectories on components of the output variable vector of the system. The main advantage of the proposed method is control of the system even during the transient state as well as the high performance. The studied system includes a three-bladed horizontal wind turbine and a permanent magnet synchronous generator (PMSG) which is connected to the grid through a back to back converter and a filter. In order to study performance of the control strategy, a random profile of the wind speed has been used. The simulation results obtained in Matlab/Simulink environment are presented to validate efficiency of the control strategy.
Keywords :
blades; nonlinear control systems; permanent magnet generators; power convertors; power generation control; power grids; synchronous generators; trajectory control; wind power plants; wind turbines; Matlab-Simulink environment; PMSG; back-to-back converter; differential flatness-based control; high-power wind energy conversion system; nonlinear control method; output variable vector; permanent magnet synchronous generator; three-bladed horizontal wind turbine; trajectory planning; transient state; variable-speed wind-energy system; wind speed random profile; Equations; Generators; Mathematical model; Trajectory; Vectors; Wind speed; Wind turbines; Flatness based control; Grid Control; PMSG; Variable-speed; wind turbine;
Conference_Titel :
Ecological Vehicles and Renewable Energies (EVER), 2014 Ninth International Conference on
Conference_Location :
Monte-Carlo
Print_ISBN :
978-1-4799-3786-8
DOI :
10.1109/EVER.2014.6844132
