Title :
High-Order Sliding Mode control for DFIG-based Wind Turbine Fault Ride-Through
Author :
Benbouzid, Mohamed ; Beltran, Brice ; Amirat, Yacine ; Gang Yao ; Jingang Han ; Mangel, Herve
Author_Institution :
Univ. of Brest, Brest, France
Abstract :
This paper deals with the Fault Ride-Through (FRT) capability assessment of a Doubly-Fed Induction Generator (DFIG)-based Wind Turbine (WT) using High-Order Sliding Mode (HOSM) control. Indeed, it has been recently suggested that sliding mode control is a solution of choice to the FRT problem. In this context, this paper proposes HOSM as an improved solution that handle the classical sliding mode chattering problem. Indeed, the main and attractive features of HOSMs are robustness against external disturbances (e.g. grid) and chattering-free behavior (no extra mechanical stress on the drive train). Simulations using the NREL FAST code on a 1.5-MW wind turbine are carried-out to evaluate ride-through performance of the proposed HOSM control strategy in case of grid frequency variations and unbalanced voltage sags.
Keywords :
asynchronous generators; machine control; power generation control; power generation faults; variable structure systems; wind turbines; DFIG-based wind turbine fault ride-through; FRT capability assessment; HOSM control strategy; NREL FAST code; chattering-free behavior; doubly-fed induction generator; external disturbances robustness; grid frequency variations; high-order sliding mode control; unbalanced voltage sags; Power quality; Power system stability; Rotors; Sliding mode control; Torque; Voltage control; Wind turbines; Doubly-Fed Induction Generator (DFIG); Fault-Ride Through (FRT); High-Order Sliding Mode (HOSM); Wind turbine (WT);
Conference_Titel :
Industrial Electronics Society, IECON 2013 - 39th Annual Conference of the IEEE
Conference_Location :
Vienna
DOI :
10.1109/IECON.2013.6700411
