This paper, prepared by a special task  For 100 years, there has been no change in the basic structure of the electrical power grid the hierarchical, centrally controlled grid of the 20th Century is ill-suited to the needs of the 21st Century. To address the Challenge of the existing power grid. This project is analyzing the operation of a stand-alone wind turbine system with variable-speed permanent-magnet synchronous generator (PMSG) and a system for storing    energy during wind speed and load variations. Energy storage devices are required for power balance and power quality in stand-alone wind energy systems. Initially, the holistic model of the entire system is achieved, including the PMSG, the boost converter, and the storage system.

Bleij, J.A.M.; Chung, A.W.K.; Rudely, J.A. Power Smoothing and Performance Improvement of Wind Turbines with Variable Speed. In Proceeding of 17th British Wind Energy Association Conference, Warwick, UK, 19–21 July 1995; pp. 353–358

Senjyu, T.; Tamaki, S.; Muhando, E.; Urasaki, N.; Kinjo, H.; Funabashi, T.; Fujita, H.; Sekine, H. Wind velocity and rotor position sensorless maximum power point tracking control for wind generation system. Renew. Energy 2006, 31, 1764–1775.

Tan, K.; Islam, S. Optimum control strategies in energy conversion of PMSG wind turbine system without mechanical sensors. IEEE Trans. Energy Convers. 2004, 19, 392–39

Y. Zhan, Y. Guo, J. Zhu, and H. Wang, “Intelligent uninterruptiblePower supply system with back-up fuel cell/battery hybrid power source,”J. Power Sources, vol. 179, no. 2, pp. 745–753, May 2008.

K. Mahadevan, K. Judd, H. Stone, J. Zewatsky, A. Thomas, H. Mahy, andD. Paul, “Identification and characterization of near-term direct hydrogenProton exchange membrane fuel cell markets,” Battelle, Columbus, OH, Apr. 2007.

F. Alessandro, V. Antonucci, L. Dusonchet, S. Favuzza, M. Ferraro, andG. Graditi, “UPS fuel cell based: An innovative back-up system,” in Proc.ICCEP, May 21–23, 2007, pp. 723–729.

H. Tao, J. L. Duarte, and M. A. M Hendrix, “Line-interactive UPS using aFuel cell as the primary source,” IEEE Trans. Ind. Electron., vol. 55, no. 8,pp. 3012–3021, Aug. 2008.

G. M. Joselin Herbert, S. Iniyan, E. Sreevalsan, and S. Rajapandian, "A review of wind energy Technologies", Renewable and Sustainable Energy Reviews, vol. 11, 2007, pp. 1117-1145.

J. K. Kaldellis, "Optimum autonomous wind-power System sizing for remote consumers, using long-termWind speed data", in Applied Energy, vol. 71, 2002, pp. 215-233.

R. Belfkira, C. Nichita, P. Reghem, and G. Barakat,"Modeling and optimal sizing of hybrid energy System", in Proc. of EPE-PEMC, Poland, 2008.

N.E. Clausen, H. Bindner, S. Frandsen, J. C. Hansen, L. H. Hansen, and P. Lund sager, "Isolated Systems with wind power - an implementation Guideline", Riso National Laboratory, Roskilde,Denmark, 2001.

J. Martinez, A. Morales, O. Probst, A. Llamas, and C. Rodreguez, "Analysis and simulation of a windelectric battery charging system", International Journal of Energy Research, vol. 30, 2006, pp. 633-646.

M. Arifujjaman, M. T. Iqbal, and J. E. Quaicoe,"Energy capture by a small wind-energy conversion System", Applied Energy, vol. 85, 2008, pp. 41 51.

K. C. Divya and J. Ostergaard, "Battery energy Storage technology for power systems—An Overview", in Electric Power Systems Research, vol. In Press, 2008, Corrected Proof.

J. K. Kaldellis and D. Zafirakis, "Optimum energy Storage techniques for the improvement of Renewable energy sources-based electricity generation economic efficiency", in Energy, vol. 32, 2007, pp. 2295-2305.

I. Munteanu, A. I. Bratcu, N.-A. Cutululis, and E. Ceanga, Optimal Control of Wind Energy Systems: Towards a Global Approach, Springer, 2008.