“Direct Active and Reactive Power Control for DFIG using Instantaneous Rotor Current Control
WSEAS Transactions on Power Systems • 2018
Publication Information
Authors
O. M. Elbaksawi, T. Kandil, M. A. Ahmed
Keywords
Not Available
Journal
WSEAS Transactions on Power Systems
Publisher
WSEAS
Volume
13
Issue
Not Available
Pages
227 – 234
publication.type
International
Paper Link
Open Link
Supplementary Materials
Not Available
Abstract
This paper presents a proposed technique for controlling of the power for doubly fed induction generator (DFIG) which is produced the electric vitality in wind turbines and is controlled of the dynamic
power which is transferred from grid and DFIG. Model of a DFIG with wind turbine is presented in the d-q reference frame and control the machine with the strategy for control in view of direct power control. The objective is controlled by the diverse value between the set reference value and measure value of dynamic
power. Indirect control method can be utilized to control of the rotor current by utilizing PID controller for control direction. Proposed control model of wind turbine with doubly fed generator is illustrated. In this paper and is controlled by stator and rotor energy of the DFIG utilizing programming MATLAB/Simulink and
presented a better performance, with the absent of oscillation in transient mode. In this manner, it is directed to a superior control of the power between the grid and the machine
power which is transferred from grid and DFIG. Model of a DFIG with wind turbine is presented in the d-q reference frame and control the machine with the strategy for control in view of direct power control. The objective is controlled by the diverse value between the set reference value and measure value of dynamic
power. Indirect control method can be utilized to control of the rotor current by utilizing PID controller for control direction. Proposed control model of wind turbine with doubly fed generator is illustrated. In this paper and is controlled by stator and rotor energy of the DFIG utilizing programming MATLAB/Simulink and
presented a better performance, with the absent of oscillation in transient mode. In this manner, it is directed to a superior control of the power between the grid and the machine
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