WIND POWER EXTRACTION AND CONTROL STUDY OF DFIG WIND TURBINE UNDER WEIBULL WIND DISTRIBUTION

Shuhui Li and Timothy A. Haskew

References

1. [1] R. Zavadil, N. Miller, A. Ellis, and E. Muljadi, Makingconnections: Wind generation challenges and progress, IEEEPower and Energy Magazine, 3(6), 2005, 27–37.
2. [2] P. Edwards and R. Hurst, Level-crossing statistics of the horizontal wind speed in the planetary surface boundary layer, Chaos, 11(3), 2001, 611–618.
3. [3] C.L. Archer and M.Z. Jacobson, Evaluation of global wind power, Journal of Geophysical Research, 110, D12110,doi:10.1029/2004JD005462, 2005
4. [4] S. Muller, M. Deicke, and R.W. De Doncker, Doubly fedinduction generator systems for wind turbines, IEEE Industry Applications Magazine, 8(3), 2002, 26–33.
5. [5] A.D. Hansen, P. Sørensen, F. Iov, and F. Blaabjerg, Control of variable speed wind turbines with doubly-fed induction generators, Wind Engineering, 28(4), 2004, 411–432.
6. [6] J. Yao, H. Li, Y. Liao, and Z. Chen, An improved control strategy of limiting the DC-link voltage fluctuation for a doubly fed induction wind generator, IEEE Transactions on Power Electronics, 23(4), 2008, 1205–1213.
7. [7] M. Castilla, J. Miret, J. Matas, A. Borrell, and L.G. Vicu˜na, Direct rotor current-mode control improves the transient response of doubly fed induction generator-based wind turbines, IEEE Transactions on Energy Conversion, 25(3), 2010, 722–731.
8. [8] J. Liang, W. Qiao, and R.G. Harley, Feed-forward transient current control for low-voltage ride-through enhancement of DFIG wind turbines, IEEE Transactions on Energy Conversion, 25(3), 2010, 836–843.
9. [9] J. Hu, H. Nian, B. Hu, Y. He, and Z. Zhu, Direct active and reactive power regulation of DFIG using sliding-mode control approach, IEEE Transactions on Energy Conversion, 25(4), 2010, 1028–1039.
10. [10] Y. Mishra, S. Mishra, F. Li, Y.D. Zhao, and R.C. Bansal, Small-signal stability analysis of a DFIG-based wind power system under different modes of operation, IEEE Transactions on Energy Conversion, 24(4), 2009, 972–982.
11. [11] S. Li and T.A. Haskew, Energy capture, conversion, and control study of DFIG wind turbine under weibull wind distribution, Proc. 2009 IEEE PES General Meeting, Calgary Alberta, Canada, 2009.
12. [12] S. Smith, R. Todd, M. Barnes, and P.J. Tavner, Improved energy conversion for doubly-fed wind generators, IEEE Transactions on Industry Applications, 42(6), 2006, 1421–1428.
13. [13] S. Heier, Grid integration of wind energy conversion systems (New York, NY: John Wiley & Sons Inc., 2006).
14. [14] N.W. Miller, W.W. Price, and J.J. Sanchez-Gasca, Dynamic modeling of GE 1.5 and 3.6 wind turbine-generators, Version 3.0, Technical Report, GE Power Systems Energy Consulting, Schenectady, NY, October 27, 2003.
15. [15] S. Li, T.A. Haskew, and E. Muljadi, DFIG maximum windpower extraction study through integrated steady-state andclose-loop control evaluation, Electric Power Components and Systems, 38(7), 2010, 767–785.
16. [16] E. Muljadi and C.P. Butterfield, Wind farm power systemmodel development, Proc. World Renewable Energy CongressVIII, Denver, Colorado, 2004.
17. [17] A.D. Hansen, F. Iov, P. Sørensen, and F. Blaabjerg, Overall control strategy of variable speed doubly-fed induction generator wind turbine, Proc. 2004 Nordic wind power conference, G¨oteborg, Sweden, 2004.
18. [18] R. Singh, B.C. Pal, and R.A. Jabr, Statistical representation of distribution system loads using Gaussian mixture model, IEEE Transactions on Power Systems, 25(1), 2010, 29–37.
19. [19] W. Weibull, A statistical distribution function of wide applicability, Journal of Applied Mechanics, 18(3), 1951, 293–297.
20. [20] R.E. Vega and C.W. Letchford, Wind directionality and the estimate of wind energy: The case for West Texas, Proc. 2008 Annual Conference, The Academy of Medicine, Engineering and Science of Texas, College Station, TX, 2008.
21. [21] Z. Yu and A. Tuzuner, Wind speed modeling and energyproduction simulation with Weibull sampling, Proc. 2008 IEEE PES General Meeting, Pittsburgh, PA, 2008.
22. [22] P.Z. Peebles, Probability, random variables, and random signal principles (Hightstown, NJ: McGraw-Hill, 2001).
23. [23] R.A. Jabr and B.C. Pal, Intermittent wind generation in optimal power flow dispatching, IET Generation, Transmission and Distribution, 3(1), 2009, 66–74.
24. [24] GE Energy, 1.5 MW Wind Turbine: A product of ecomagination (General Electric Company, 2008).
25. [25] S. Li, T.A. Haskew, Y. Hong, and S. Mazari, Integrating electrical and aerodynamic characteristics for DFIG wind energy extraction and control study, International Journal of Energy Research, 34(12), 2010, 1052–1070.
26. [26] S. Li and T.A. Haskew, Simulation analysis of DFIG characteristics under d–q control strategies in stator-voltage-oriented frame, International Journal of Power and Energy Systems, 29(1), 2009, 103–115.
27. [27] F. Mei and B.C. Pal, Modal analysis of grid connected doubly-fed induction generators, IEEE Transactions on Energy Conversion, 22(3), 2007, 728–736.
28. [28] B.C. Pal and F. Mei, Modeling adequacy of the doubly fed induction generator for small-signal stability studies in power systems, IET Renewable Power Generation, 2(3), 2008, 181–190.

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• Abstract
• DOI: 10.2316/Journal.215.2012.1.215-1016
• From Journal (215) Alternative Energy - 2012

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