2 Danish Wind Industry Association Information Available at httpwwwwindpowerorg

2 danish wind industry association information

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[2] Danish Wind Industry Association, Information Available at: //en/news050214.htm. [3] GL. Johnson, Wind energy systems. Englewood Cliffs, NJ: Prentice- Hall Inc., 1985. [4] T. Forsyth, P. Tu, “Economics of Grid-Connected Small Wind Turbines in the Domestic Market,” AWEA Wind Power ’99 Conference Burlington, Vermont, June 1999. [5] P. R. Goldman, S. W. Thresher, S. M. Hock, “Wind Energy in the United State: Market and Research Update,” European Wind Energy Conference, Nice, France, April 1999. [6] High Technology Finland, Information Available at: / .html. [7] E. Bossanyi, Wind Energy Handbook. John Wiley, 2000. [8] “Global Wind Energy Outlook 2006”, Report of Global Wind Energy Council and Greenpeace International, September 2006. [9] “The World Wind Energy Association: Half Yearly Report 2011”, . [10] “REN21.2012, “Renewables 2012: global Status Report”, . [11] C. Nicolas, M. Lafoz, J. Iglesias, “Guidelines for the design and control of electrical generator systems for new grid connected wind turbine generators,” In: Proceedings of IEEE IECON’02, vol. 4, November 2002. p. 3317–3325. [12] Sathyajith Mathew, Geeta Susan Philip, Advances in Wind Energy Conversion Technology. Springer-Verlag Berlin Heidelberg 2011. [13] I. Cadirci, M. Ermis, “Double-output induction generator operating at sub-synchronous and super synchronous speeds: steady-state optimization and wind-energy recovery,” In: IEE Proceeding of Electric Power Applications Vol. 139, pp. 429-442, July 1992. [14] M.Y. Uctug, I. Eskandarzadeh, H. Ince, “Modeling and output power optimization of a wind turbine driven double output induction generator,” In: Proc. of Electric Power Applications Vol. 141, pp. 33-38, March 1994. [15] R. Pena, J.C. Clare, G.M. Asher, “Doubly fed induction generator using back-to-back PWM converters and its application to variable-speed wind-energy generation,” In: IEE Proc. of Electric Power Applications, Vol. 143, pp. 231-241, April 1996. [16] B. Rabelo, W. Hofmann, “Optimal active and reactive power control with the doubly-fed induction generator in the MW-class wind- turbines,” In: Proceedings of IEEE fourth international conference on power electronics and drive systems, vol. 1, pp. 53–58, October 2001. [17] C. Abbey, G. Joos, “A doubly-fed induction machine and energy storage system for wind power generation,” In Proceedings of IEEE canadian conference on electrical and computer engineering, vol. 2, pp. 1059– 1062, May 2004. [18] Y. Amirat, M.E.H. Benbouzid, B. Bensaker, R. Wamkeue, “Generators for Wind Energy Conversion Systems: State of the Art and Coming Attractions,” Journal of Electrical Systems, vol. 3, no.1, pp. 26-38, March 2007. [19] H. Li, Z. Chen, “Overview of generator topologies for wind turbines,” In: Proc. of IET Renewable Power Generation, vol. 2, no. 2, pp. 123– 138, June 2008. [20] Juan Manuel Carrasco, Leopoldo Garcia Franquelo, Jan T. Bialasiewicz, Eduardo Galván, C. Ramón, Portillo Guisado, Ma. Ángeles Martín Prats, Jose Ignacio Leon, Narciso Moreno-Alfonso, “Power-Electronic Systems for the Grid Integration of Renewable Energy Sources: A Survey,” IEEE Transactions on Industrial Electronics, Vol. 53, No. 4, pp. 1002-1016, August 2006.
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