STABILITY ANALYSIS OF DFIG WIND POWER SYSTEM USING PI CONTROLLER WITH STATIC FEEDBACK
Keywords:
Power quality, wind generator, double fed induction generator, PI controller
Abstract
When wind electricity is associated with an electric grid affects power quality. The consequences of the power quality like active & reactive power, change in voltage, flicker, harmonics, and electric behaviour of switching operations has to measure. The doubly-fed induction generator (DFIG) is used in most wind energy conversion systems (WECS) due to its advantage of ensuring a variable speed and running above the synchronous speed. This characteristic avoids damage to the wind turbine mechanism, especially when the measured wind speed is above the rated speed. In this paper, we present the enhancement behaviour of a DFIG by the PI regulator.
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References
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[9]. Lok-Fu Pak and VenkataDinavahi,” Real-Time Simulation of a Wind Energy System Based on the Double-Fed Induction generator,” IEEE Trans. on Power Sys., Vol.24, No.3, pp.1304-1309, August 2009.
[10]. ChoonYik Tang, Yi Guo and John N.Jiang,” Nonlinear Dual –Mode Control of Variable- Speed Wind Turbines with Doubly fed Induction Generators,” IEEE Trans. on Control Systems Tech., pp.1-13, 2010.
[11]. Abdelkarim Chemidi, Sidi Mohammed Meliani, “Stability Analysis for a PI Controller of a DFIG Wind Power System When the Parameters is Uncertainties”, 2th INTERNATIONAL CONFERENCE ON Electronics, Electrical AND Automatic November 26-27, ENP, Oran, Algeria, 2013.
[12]. Om Prakash Bharti, “Design of PI Controller for Doubly fed Induction Generator Using Static Output Feedback” IEEE conference 2011.
[2]. P.K Gayen, “Stator side active and reactive power control with improved rotor position and speed estimator of a grid-connected DFIG” Energy, Vol.89, Pages: 461-472, 2015.
[3]. J. J. Justo, F.Mwasilu and Jin-Woo Jung, “Doubly-fed induction generator based wind turbines: A comprehensive review of fault ride-through strategies” Renewable Sustainable Energy Reviews, Vol. 45, Pages: 447-467, 2015.
[4]. M. Pichan, H.Rastegar, M.Monfared, “Two fuzzy-based direct power control strategies for doubly fed induction generators in wind energy conversion systems” Energy, Volume 51, Pages 154-162, 2013.
[5]. HT Jadhav, R. Roy, “A comprehensive review on the grid integration of doubly fed induction generator” International Journal of Electrical Power & Energy Systems, Volume 49, Pages:8-18, 2013.
[6]. C. Eisenhut, F. Krug, C. Schram and B. Klöckl, ― Wind-Turbine Model for System Simulations Near Cut-in Wind Speed‖. IEEE Trans, on Energy Conversion, June 2007, vol. 22, no. 2, pp. 414-420.
[7]. N. Abu-Tabak, ‘Stabilité Dynamique des Systèmes Electriques Multimachines : Modélisation, Commande, Observation et simulation‘, Phd thesis école Centrale de Lyon 2008.
[8]. H.ZhouG.Yang.WangH.Geng,” Control of a hybrid high voltage DC connection for large doubly-fed induction generator based wind farms, IET Renew. Power Gener., Vol.5, No.1, pp.36-47, 2011.
[9]. Lok-Fu Pak and VenkataDinavahi,” Real-Time Simulation of a Wind Energy System Based on the Double-Fed Induction generator,” IEEE Trans. on Power Sys., Vol.24, No.3, pp.1304-1309, August 2009.
[10]. ChoonYik Tang, Yi Guo and John N.Jiang,” Nonlinear Dual –Mode Control of Variable- Speed Wind Turbines with Doubly fed Induction Generators,” IEEE Trans. on Control Systems Tech., pp.1-13, 2010.
[11]. Abdelkarim Chemidi, Sidi Mohammed Meliani, “Stability Analysis for a PI Controller of a DFIG Wind Power System When the Parameters is Uncertainties”, 2th INTERNATIONAL CONFERENCE ON Electronics, Electrical AND Automatic November 26-27, ENP, Oran, Algeria, 2013.
[12]. Om Prakash Bharti, “Design of PI Controller for Doubly fed Induction Generator Using Static Output Feedback” IEEE conference 2011.
Published
2022-06-18
How to Cite
Khobragade, D., & Nigam, D. M. (2022). STABILITY ANALYSIS OF DFIG WIND POWER SYSTEM USING PI CONTROLLER WITH STATIC FEEDBACK. International Journal of Advanced Computer Technology, 11(3), 7-10. Retrieved from https://ijact.org/index.php/ijact/article/view/109
Section
Articles