论文信息 - Multi-objective optimization torque control of wind turbine based on LQG optimal control

Multi-objective optimization torque control of wind turbine based on LQG optimal control

Considering power quality and drive train load, a kind of linear quadratic Guassian optimal control strategy based on Kalman filter is proposed in this thesis, in order to reduce gearbox fatigue load while improving output power quality of wind turbines. With this optimization strategy, system noise and measurement noise are estimated through Kalman filter, adjusting dynamic optimal gain according to the system of estimation, in order to achieve optimal control of different working point. A 3MW doubly-fed wind turbines is taken as the control object in the simulation,the results indicate that, compared with the conventional pitch control strategy, the proposed pitch controller not only reduced the fluctuation of power but also reduced the torque ripple of gearbox, the fatigue load of gearbox and other key component in drive train were mitigated.

Wang Xiaodong | Li Lixia | Liu Yingming | Wang Shirong | Hou Shixu

[1] Tian Youfei,et al. Nonlinear Control Strategy of Variable-speed Constant-frequency Wind Turbine Driven Doubly-fed Induction Generator for Maximum Wind Energy Capture , 2011 .

[2] Antonios G. Kladas,et al. Wind Turbine Control Strategy Enabling Mechanical Stress Reduction Based on Dynamic Model Including Blade Oscillation Effects , 2012 .

[3] Gao Ya-kui. LQG/LTR Multivariable Controller Design for a Gust Load Alleviation System , 2007 .

[4] Zhuang Kai. Power Smoothing Control Strategy of Direct-driven Permanent Magnet Synchronous Generator for Wind Turbine With Pitch Angle Control and Torque Dynamic Control , 2009 .

[5] Sun Lei,et al. Researches of a controller for reducing load of driving chain in wind turbine based on h· control , 2007, 2007 IEEE International Conference on Automation and Logistics.