Frequency response control of D-PMSG based on the active disturbance rejection controller

Concerning the difficulties of parameter tuning and poor anti-interference performance in the traditional proportional plus derivative virtual inertia control (PDVIC), this paper presents an improved frequency response control scheme of directly-driven wind turbine with permanent magnet synchronous generator (D-PMSG) based on the active disturbance rejection control (ADRC). The algorithm realizes the power grid disturbance estimation and compensation by using the extended state observer (ESO) to reject the disturbance. With the introduction of the capacity factor of wind turbines, the D-PMSG could provide frequency support for the power system according to their abilities. Compared with PDVIC, this method has better adaptability and robustness. Simulation results confirmed the validity and feasibility of the virtual inertia control based on the ADRC.

[1]  Gang Wang,et al.  State-space averaging model of wind turbine with PMSG and its virtual inertia control , 2013, IECON 2013 - 39th Annual Conference of the IEEE Industrial Electronics Society.

[2]  J.M. Mauricio,et al.  Frequency Regulation Contribution Through Variable-Speed Wind Energy Conversion Systems , 2009, IEEE Transactions on Power Systems.

[3]  Jan Pierik,et al.  Inertial response of variable speed wind turbines , 2006 .

[4]  Nicholas Jenkins,et al.  Power system frequency response from fixed speed and doubly fed induction generator-based wind turbines , 2004 .

[5]  M. Chinchilla,et al.  Control of permanent-magnet generators applied to variable-speed wind-energy systems connected to the grid , 2006, IEEE Transactions on Energy Conversion.

[6]  Jingqing Han,et al.  From PID to Active Disturbance Rejection Control , 2009, IEEE Trans. Ind. Electron..

[7]  H. Banakar,et al.  Kinetic Energy of Wind-Turbine Generators for System Frequency Support , 2009, IEEE Transactions on Power Systems.

[8]  J.A. Ferreira,et al.  Wind turbines emulating inertia and supporting primary frequency control , 2006, IEEE Transactions on Power Systems.

[9]  R. Watson,et al.  Frequency Response Capability of Full Converter Wind Turbine Generators in Comparison to Conventional Generation , 2008, IEEE Transactions on Power Systems.

[10]  Dewei Xu,et al.  Stability Analysis and Improvements for Variable-Speed Multipole Permanent Magnet Synchronous Generator-Based Wind Energy Conversion System , 2011, IEEE Transactions on Sustainable Energy.