Implementation Of Wind Turbine System Using Fuzzy Controlled Based Induction Motor Drive

Abstract

The draining of non-renewable energy resources like coal, gas, and other petroleum derivatives and they are worries about earth-wide temperature boost have constrained a change in the perspective shift towards bearable power assets in gathering our demand for energy.  Wind energy use is rapidly expanding, powering innovative work in large power wind turbines for green and eco-friendly nature. A regulated proving ground that is not dependent on wind availability is essential to push exploration and instructing in wind energy preservation frameworks. To show latency between the wind turbine and the motor employed in the wind system, the majority of modern breeze turbine replica plans use a force pay circle. A torque compensation is employed in the mimicking of wind turbine systems to account for the inertia mismatch between a turbine and an electric motor. The loop is disturbed by noise and stability issues, it also determines the parameter insensitivity. The suggested approach entails the use of a fuzzy control framework to simulate wind turbines. The fuzzy control scheme improves the performance of the wind turbine emulator by justifying through simulation to a squirrel cage motor drives a doubly-fed induction generator, the work is simulated through MATLAB software.