MATLAB Wind Turbine Model

The wind turbine model developed in the MATLAB environment demonstrates exceptional utility and versatility. This Simulink-based implementation employs modular blocks for aerodynamic rotor dynamics, drive train mechanics, and generator electrical characteristics, allowing researchers to simulate turbine performance across various operating conditions. The model incorporates blade element momentum theory for aerodynamic calculations and supports customizable parameters including turbine diameter, rated power, and pitch control algorithms. With its capability to simulate wind turbine behavior under diverse operational scenarios, this model serves multiple applications ranging from wind farm layout optimization and energy yield forecasting to grid integration studies. The modular architecture enables easy adaptation to different turbine configurations through parameter modification in MATLAB scripts, while the open-structure design facilitates integration of custom control strategies and power electronics models. Key functions include real-time performance monitoring, power curve generation, and fatigue load analysis through integrated MATLAB data processing tools. The model's object-oriented programming approach allows for inheritance of base turbine properties while supporting subclass implementations for specific turbine types. This MATLAB-based framework not only accelerates wind energy research and development but also provides an extensible platform for renewable energy innovation, featuring comprehensive documentation and example scripts for rapid deployment.