Wind Turbine Rotor Model for Wind Power Generation Systems

This code implements a wind turbine rotor model designed to simulate wind turbine characteristics. In wind turbine research, the rotor serves as one of the most critical components. The simulation of rotor models enables better understanding of wind turbine behavior and performance metrics. Through characteristic simulation, we can optimize wind turbine design to improve power generation efficiency and operational performance. The implementation typically involves aerodynamic calculations using blade element momentum theory, power coefficient (Cp) curves, and tip speed ratio optimization algorithms. Key functions may include wind speed processing, rotor speed control, and torque calculation modules. As wind power represents a clean energy source, it plays a significant role in reducing greenhouse gas emissions and environmental protection. Consequently, research and development of wind power technology remains a crucial focus in the current energy sector, with rotor modeling forming an essential part of system simulation and control strategy development.