Wind Power Generation System Model

The wind power generation system model is a comprehensive simulation framework that integrates multiple component modules, including wind turbine aerodynamics, generator dynamics, and power electronics converters. Each component is implemented using mathematical models and control algorithms that can be configured through parameter files. The turbine model typically employs blade element momentum theory calculations, while the generator module may implement dq-axis transformation for synchronous machine simulation. To utilize this system model, reference the detailed documentation contained in the compressed package. The instructions provide step-by-step guidance for model initialization, parameter configuration, and simulation execution using platforms like MATLAB/Simulink. The documentation explains component interfaces, data exchange protocols between modules, and result interpretation methodologies. Specifically, it covers how to modify controller parameters in the converter module and adjust turbine characteristics through configuration files. This integrated model serves as a sophisticated analysis tool for evaluating wind power system performance under various operational conditions. Through simulation runs, users can analyze power quality, grid integration stability, and component stress levels. The modular architecture allows for individual component refinement and system-level optimization, enabling researchers to test control strategies and assess how subsystem interactions affect overall efficiency and reliability. The model's open structure facilitates customization of control algorithms and integration of new component models.