Novel Control technique to capture maximum power in wind energy based on DFIG

At present wind energy becoming the most prominent source among non-conventional sources because it is one of the major power supplies for global electricity consumption. Power electronics continuously build and improve the performance of wind turbines by reducing mechanical stress, enhancing energy yield, and allowing the entire Wind turbine to operate as a fully controllable generator to produce more power. The point of this work is to create a simulation model of a control technique that can extract the most power possible from the wind turbine using feedback linearization, Lyapunov stability analysis, and extreme power-seeking capability control techniques. Additionally, a battery is added between the converters with PLL and PID controllers to reduce errors, increase power production, and lengthen the lifespan of the wind turbine system. The proposed technique exhibits a robust dynamic performance in the incidence of wind turbulence forces and sudden speed disturbances. The robustness and validity of the devised control method have been shown by the numerical findings.