Control Strategy of a Variable Speed Wind Energy Conversion System Based on a Doubly Fed Induction Generator


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Abstract


In this paper we illustrate a power control approach of a doubly fed induction generator, operating in a variable speed wind energy conversion system. The aim of the control consists in maximising the electric power extracted from the wind turbine and injected to the grid, thus, by adjusting the power coefficient. The use of a variable speed wind energy conversion system permits the implementation of such a kind of strategies. The stator power and the terminal voltage are to be maintained to references that will be given while the control of the global dynamic system, this by adjusting rotor voltages
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Keywords


DFIG; Variable Speed; Wind Energy; Power Control; Terminal Voltage Control

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References


N. A. Schinas, N. A. Vovos, Senior Member, IEEE, and G. B. Giannakopoulos , Senior Member, IEEE, An Autonomous System Supplied Only by a Pitch-Controlled Variable-Speed Wind Turbine, IEEE Transaction On Energy And Conversion, Vol. 22 (No.2): 325-331, June 2007.

F.D. Bianchi, R.J. Mantz, C.F. Christiansen , Gain scheduling control of variable-speed wind energy conversion systems using quasi-LPV models, Elsevier, Sciencedirect, Control Engineering Practice 13 (2005), pp. 247–255, March 2004

J.B. Ekanayake, L. Holdsworth, N. Jenkins, Comparison of 5th order and 3rd order machine models for doubly fed induction generator (DFIG) wind turbines, Electric Power Systems Research 67: 207-/215, April 2003.

S. Muller, M. Deicke, W. Rik, De Doncker, ‘‘Doubly fed induction generator systems for wind turbines’’, IEEE Ind. Appl. Magazine Vol. 8 (No.3): 26-33, May/June 2002.

Anca D. Hansen, Poul Sørensen, Florin Iov, Frede Blaabjerg, Centralised power control of wind farm with doubly fed induction generators, Elsevier, Renewable Energy 31: 935-951, 2006.

L.M. Fernandez, F. Jurado, J.R. Saenz, Aggregated dynamic model for wind farms with doubly fed induction generator wind turbines, Elsevier, Sciencedirect, Renewable energy, January 2007.

Johan Morren, and Sjoerd W.H.de Haan., “Ride through of wind turbines with doubly-fed induction generator during a voltage dip,” IEEE Trans. Energy Convers, vol. 20, no. 2, pp.435-441, Jun. 2005.

L.M. Fernandez, F. Jurado, J.R. Saenz, Aggregated dynamic model for wind farms with doubly fed induction generator wind turbines, Elsevier, Sciencedirect, Renewable energy, January 2007.

L.M. Fernandez, F. Jurado, J.R. Saenz, Aggregated dynamic model for wind farms with doubly fed induction generator wind turbines, Elsevier, Sciencedirect, Renewable energy, January 2007.

Dawei Xiang, Li Ran, Tavner, P.J. and Yang, S., Control of a doubly fed induction generator in a wind turbine during grid fault ride-through, IEEE Trans. Energy Convers., vol. 21, no. 3, pp. 652-662, Sep. 2006.

Z. Liu, O. A. Mohammed and S. Liu, A novel direct torque control strategy for doubly fed wound rotor induction machines, IEEE Trans, pp. 419- 423, 2007.

S. Peresada, A. Tilli, A. Tonielli, Power control of a doubly fed induction machine via output feedback, Elsevier, Sciencedirect, Control Engineering Practice 12 (2004), pp. 41–57, November 2002.

B. H. Chowdhury , S. Chellapilla, Double-fed induction generator control for variable speed wind power generation, Elsevier, Sciencedirect, Electric Power Systems Research (2005), No. of Pages 15, October 2005.

A.D. Hansen, P. Sorensen, L. Janosi, J. Bech, ‚Wind Farm Modelling for Power Quality, in Proceedings of IECON’01, Denver, 2001.

E.C. Lopez, Windpower generation using doubly-fed asynchronous machine, masters thesis, Department of Electric Power Engineering, Royal Institute of Technology, Stockholm, Västeras, Sweden, 2000.

S. Heier, Grid Integration of Wind Energy Conversion System, (Chisester, UK, 1998).

T. Sun, Z. Chen, and F. Blaabjerg, Flicker Study on Variable Speed Wind Turbines With Doubly Fed Induction Generators, IEEE Transactions On Energy Conversion, Vol. 20, No. 4, pp 896-905, December 2005.

J.T.G. Pierik, J. Morren , E.J. Wiggelinkhuizen , S.W.H. de Haan , T.G. Van Engelen and J. Bozelie, Electrical and Control Aspects of Offshore Wind Farms II (Erao II), Volume 2: Offshore wind farm case studies, pp. 68-70, March 2004.

D. Xiang, L. Ran, P. J. Tavner, and S. Yang, Control of a Doubly Fed Induction Generator in a Wind Turbine During Grid Fault Ride-Through, IEEE Transactions On Energy Conversions, Vol. 21, No. 3, pp. 652-653. September 2006.

L. Holdsworthm, X.G. Wu, J.B. Ekanayake, and N. Jenkins, Comparison of fixed speed and doubly-fed induction wind turbines during power system disturbances, IEE Proc.- Gener. Transm. Distrib. Vol. 150, No. 3, pp. 343 – 352, 2003.


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