Sandeep Kumar, Ashish Bhargava
This paper describes the simulation and control technique for a dual-feed induction generator grid (DFIG) dependent wind energy conversion device. Control methods for the grid side (GSC) and the rotor side converters (RSC) in the DFIG rotor circuit are presented;Along with the statistical simulation of the configuration used. Second, we have built models for the various elements of the DFIG conversion chain and maximum power point tracking (MPPT) control strategy. In addition, the vector-oriented stator flux technique of the decoupled regulation of the electromagnetic torque (active) and the reactive power is built to investigate the impact of direct Idr and quadrature Iqr rotor currents on actual power stator and Qs reactive power and Or reactive power rotor. The simulation results of the 3MW wind device are finally displayed in the MATLAB/Simulink environment. The findings of the simulation are described and analyzed at the conclusion of this article.
Wind Turbine, Doubly Fed Induction Generator, Back-To-Back Converter, Vector Control