Abstract
Because of the randomness and fluctuation of wind energy, as well as the impact of strongly nonlinear characteristic of variable speed constant frequency (VSCF) wind power generation system with doubly fed induction generators (DFIG), traditional active power control strategies are difficult to achieve high precision control and the output power of wind turbines is more fluctuated. In order to improve the quality of output elec- tric energy of doubly fed wind turbines, on the basis of analyzing the operating principles and dynamic charac- teristics of doubly fed wind turbines, this paper proposes a new active power optimal control method of doubly fed wind turbines based on predictive control theory. This method uses state space model of wind turbines, based on the prediction of the future state of wind turbines, moves horizon optimization, and meanwhile, gets the con- trol signals of pitch angle and generator torque. Simulation results show that the proposed control strategies can guarantee the utilization efficiency for wind energy�ƒ Simultaneously, they can improve operation stability of wind turbines and the quality of electric energy.
Highlights
In recent years, wind power technology has made rapid development and wind energy has become the main utilization form of renewable energy
When variable speed constant frequency (VSCF) wind power system is running above, around and below the rated wind speed, it respectively has different control objectives and control strategies for each state. When it is running above the rated wind speed, variable pitch control technology is usually adopted to ensure the smooth output power; when it is running around the rated wind speed, maintaining a constant rotational speed is required to achieve the operation of constant rotational speed; when it is running below the rated wind speed, the rotational speed of wind wheel is required to vary with wind speed and maintain a constant optimal tip speed ratio to achieve the maximum wind energy capturing
This paper proposes a kind of active power predictive control method of doubly fed wind turbines within the range of full wind speed based on state space model of doubly fed wind turbines, and achieves the control for the pitch angle of wind wheel and generator torque
Summary
Wind power technology has made rapid development and wind energy has become the main utilization form of renewable energy. When VSCF wind power system is running above, around and below the rated wind speed, it respectively has different control objectives and control strategies for each state When it is running above the rated wind speed, variable pitch control technology is usually adopted to ensure the smooth output power; when it is running around the rated wind speed, maintaining a constant rotational speed is required to achieve the operation of constant rotational speed; when it is running below the rated wind speed, the rotational speed of wind wheel is required to vary with wind speed and maintain a constant optimal tip speed ratio to achieve the maximum wind energy capturing. The effectiveness of the proposed control strategy is verified through simulation analysis
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