Application of STATCOM to Increase Transient Stability of Wind Farm


In this paper we interested to the study the necessary of Facts to increase the transient stability on the presence of faults and the integration of new renewable source, like wind energy, these lasts make the electrical grid operate in a new conditions, the STATCOM is one of the important Facts element, It provides the desired reactive-power generation and absorption entirely by means of electronic processing of the voltage and current waveforms in a voltage source converter (VSC). This function is identical to the synchronous condenser with rotating mass. In present work we propose a transient stability improvement using STATCOM under faults, in the first time we study the transient stability with and without STATCOM for clearly his advantages. In the second time we know the relation between the reactive power injecting by a STATCOM and the critical clearing time, some simulation results are given, commented and discussed.

B.Bouhadouza , A.Gherbi, H.Mellah,Application of STATCOM to Increase Transient Stability of Wind FarmAmerican Journal of Electrical Power and Energy Systems (PES), Vol.2, No.2, March 2013.


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Transient Stability, Reactive Power, FACTS, STATCOM, Wind Power, CCT


[1]AL. Olimpo, J. Nick, E. Janaka, C. Phill and H Mike, "Wind Energy Generation Modelling and Control," John Wiley & Sons, Ltd 2009.

[2]H. Mellah and K. E. Hemsas, "Design and Analysis of an External-Rotor Internal-Stator Doubly Fed Induction Gene-rator for Small Wind Turbine Application by Fem," Interna-tional Journal of Renewable and Sustainable Energy. vol. 2, no. 1, pp. 1-11, 2013.

[3]A. Petersson, "Analysis Modeling and Control of Doubly-Fed Induction Generators for Wind Turbines," PhD thesis, Chalmers university of technology, GOteborg, Sweden 2005.

[4]B .BOUHADOUZA, "Amélioration de la Stabilité Transitoire des Fermes Eoliennes par l’utilisation des STATCOM," magister theses of Setif university, Algeria, 2011.

[5]A. Pahade and N. Saxena, "Transient stability improvement by using shunt FACT device (STATCOM) with Reference Voltage Compensation (RVC) control scheme," International Journal of Electrical, Electronics and Computer Engineering, vol. 2, pp.7-12, 2013.

[6]S. Chauhan, V. Chopra, S. Singh, "Transient Stability Im-provement of Two Machine System using Fuzzy Controlled STATCOM," International Journal of Innovative Technology and Exploring Engineering, vol. 2,pp. 52-56, March 2013.

[7]V. K. Chandrakar, A. G. Kothari, "Comparison of RBFN based STATCOM, SSSC and UPFC Controllers for Tran-sient Stability improvement," Power Systems Conference and Exposition, PSCE '06, pp. 784 – 791, IEEE PES 2006.

[8]M. Mohammad Hussaini, R. Anita, "The Study of Dynamic Performance of Wind Farms with the Application Trends in Engineering," International Journal of Recent Trends in En-gineering, vol. 2, pp. 158-160, 2009

[9]P. Kumkratug, "The Effect of STATCOM on Inter-Area Power System Stability Improvement," IEEE computer so-ciety conference, Second UKSIM European Symposium on Computer Modeling and Simulation, pp. 359 – 363, 2008.

[10]X. Zhang, C. Rehtanz and B. Pal, "Flexible AC Transmission Systems: Modelling and Control," Publisher: Springer, 2006.

[11]H. Li, Z. Chen, "Overview of different wind generator sys-tems and their comparisons," IET, Renewable Power Gener-ation, vol. 2, pp. 123–138, 2008.

[12]A. Olimpo, J. Nick, E. Janaka, C. Phill and H Mike, "Wind Energy Generation Modelling and Control, John Wiley & Sons, Ltd 2009.

[13]J.G. Slootweg, S. de Haan, H. Polinder, W. L. Kling, "Mod-eling wind turbines in power system dynamics simulations," Power Engineering Society Summer Meeting, Vol. 1, pp. 22 – 26, IEEE, 2001.

[14]M. Huong Nguyen, T. K. Saha, "Dynamic simulation for wind farm in a large power system," Power Engineering Conference, AUPEC '08. Australasian Universities, pp. 1 – 6, IEEE, 2008.

[15]L. Shenghu , L. Zhengkai , H. Xinjie , J. Shusen, "Dynamic equivalence to induction generators and wind turbines for power system stability analysis," 2nd IEEE International Symposium on Power Electronics for Distributed Generation Systems (PEDG), pp. 887 – 892, IEEE 2010.

[16]H. Mellah, K. E. Hemsas, "Simulations Analysis with Com-parative Study of a PMSG Performances for Small WT Ap-plication by FEM," International Journal of Energy Engi-neering, vol.3, no 2, pp. 55-64, 2013.

[17]B. wu, Y. Lang, N. Zargari, S. Kouro, "power conversion and control of wind energy systems," IEEE press, wiley, Canada 2010.

[18]E.Acha, V.G.Agelidis, O.Anaya-lara, T.J.E.Miller, "power Electronic Control in Electrical Systems", Newnes. A division of reed educational and professional publishing ltd, 2002.

[19]M. A. Kamarposhti, M. Alinezhad, "Comparison of SVC and STATCOM in Static Voltage Stability Margin Enhancement", International Journal of Electrical Power and Energy Systems Engineering, 2010.


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