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- Title
Active and Reactive Power Control for Wind Turbines Based DFIG Using LQR Controller with Optimal Gain-Scheduling.
- Authors
Radaideh, Ashraf; Bodoor, Mu'men; Al-Quraan, Ayman
- Abstract
This paper proposes an optimal gain-scheduling for linear quadratic regulator (LQR) control framework to improve the performance of wind turbines based Doubly Fed Induction Generator (DFIG). Active and reactive power decoupling is performed using the field-oriented vector control which is used to simplify DFIG's nonlinearity and derive a compact linearized state-space model. The performance of the optimal controller represented by a linear quadratic regulator is further enhanced using the whale optimization algorithm in a multiobjective optimization environment. Adaptiveness against wind speed variation is achieved in an offline training process at a discretized wind speed domain. Lookup tables are used to store the optimal controller parameter and called upon during the online implementation. The control framework further integrates the effects of pitch angle control mechanism for active power ancillary services and possible improvements on reactive power support. The results of the proposed control framework improve the overall performance of the system compared to the conventional PI controller. Comparison is performed using the MATLAB Simulink platform.
- Subjects
REACTIVE power control; WIND turbines; WIND power; WIND speed; REACTIVE power; MATHEMATICAL optimization; INDUCTION generators
- Publication
Journal of Electrical & Computer Engineering, 2021, p1
- ISSN
2090-0147
- Publication type
Article
- DOI
10.1155/2021/1218236