0043) Modeling and controller design for wind energy conversion system based on a cage induction generator using turbulence speed

Wind energy conversion system (WECS) constitutes electrical, mechanical and various controls. Several computational models of wind turbine system for power system stability have been studied. However, the modeling and control design of random wind speed for power system stability along is so far an open challenge; in context to the regulation of electrical frequency and stator voltage amplitude. In this article, the design scheme of three-phase squirrel-cage induction machine has been deployed for nonlinear control, based on feedback linearization method and field oriented control concept. The controllers were designed in MATLAB Simulink to regulate the parameters from the induction machines. The proposed system models offer robustness and rapidly stabilize and control the wind turbine with random wind speed.