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Ghaeth Fandi, Famous Omar Igbinovia, Josef Tlusty and Rateb Mahmoud

R eferences [1] M. Wilch, V. S. Pappala, S. N. Singh and I. Erlich, “Reactive Power Generation by DFIG Based Wind Farms with AC Grid Connection”, IEEE Power Tech , Lausanne, July 2007, 626-632. [2] A. Ashraf, “On Reactive Power Compensation of Wind Farms Impact of Wind Farm Controller Delays”, Master of Science Thesis in Electric Power Engineering , Department of Energy and Environment, Division of Electric Power Engineering, Chalmers University of Technology, Gothenburg, Sweden, June 2012. [3] M. P. Kazmierkowski, R. Krishnan and F. Blaabjerg

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Istvan Erlich, Fekadu Shewarega and Oliver Scheufeld

Trans. on Power Systems vol. 18, pp. 803-809, May. 2003. T. Sun, Z. Chen, F. Blaabjerg, "Voltage Recovery of Grid-Connected Wind Turbines with DFIG After a Short-Circuit Fault", 35 th Annual IEEE Power Electronics Conf. , Aachen, Germany, 2004, pp. 1991-1997. P. Cartwright, L. Holdsworth, J. B. Ekanayake, N. Jenkins, "Coordinated voltage control strategy for a doubly-fed induction generator (DFIG)-based wind farm" ", IEE Proc.-Gener. Transm. Distrib. vol. 151, pp. 495-502, July. 2004

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Youssef Errami, Mohammed Ouassaid, Mohamed Cherkaoui and Mohamed Maaroufi

References [1] PARASTAR, A.-SEOK, J. K. : High-Gain Resonant Switched- Capacitor Cell-Based DC/DC Converter for Offshore Wind En- ergy Systems, IEEE Transactions on Power Electronics 30 No. 2 (Feb 2015), 644-656. [2] FENGJI LUO-KE MENG-ZHAO YANG DONG-YU ZHENG-YINGYING CHEN-KIT PO WONG: Coordinated Operational Planning forWind FarmWith Battery Energy Stor- age System, IEEE Transactions on Sustainable Energy 6 No. 1 (Jan 2015), 253-262. [3] CHEN, J.-JIE, C.-CHUNYING, G. : New Overall Power Control Strategy for

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Robert Pašičko, Zoran Stanić and Nenad Debrecin

, 2007. KÄRKKÄINEN, S.: Integration of Demand Side Management, Distributed Generation, Renewable Energy Sources and Energy Storages State of the Art Report Vol 1: Main Report, International Energy Agency Demand-Side Management Programme, Paris, 2009. The Economics of Wind Energy, EWEA, Brussels, 2009. STANIC, Z.: Sustainable Electric Power Generation in the Frame of the Open Market, PhD Thesis, Faculty of Electrical Engineering and Computing, Zagreb, Croatia, 2007.

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Bartosz Waśkowicz

References [1] Shokrzadeh S., Jozani M. J., Molinski T., A statistical algorithm for predicting the energy storage capacity for baseload wind power generation in the future electric grids, Energy (2015). [2] Power grid codes of transmission network. Terms of use, operation and planning of network development. Version 2.1 (in Polish), The consolidated text of the Charter of renovation CK / 1/2012 approved by the President of URE No. DPK-4320-2 (16) / 2010 - 2013 / LK (2013). [3] PN-EN 50160: 2002 Voltage

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Famous Oghomwen Igbinovia, Ghaeth Fandi, Juraj Kubica, Zdenek Muller, Frantisek Janicek and Josef Tlusty

Condenser”, IEEE 2nd International Conference on Intelligent Green Building Smart Grid (IGBSG) Prague, pp. 1–6, 2016. [4] F. O. Igbinovia, G. Fandi, Z. M´’uller, J. Svec, and J. Tlusty, “Optimal Location of the Synchronous Condenser in Electric-Power System Networks”, IEEE 17th International Scientific Conference on Electric Power Engineering (EPE) Prague, pp. 1–6, 2016. [5] M. Ross and S. Kalsi, “Applications of Superconducting Synchronous Condensers in Wind Power Integration”, IEEE PES Transmission Distribution Conference Exhibition Dallas , pp. 272

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Goran Knežević, Zoran Baus and Srete Nikolovski

R eferences [1] ZHANG, L.—LI, Y. : Optimal Energy Management of Hybrid Power System with Two-Scale Dynamic Programming, In Proc. Power Systems Conference and Exposition (PSCE), 2011 IEEE/PES, Phoenix, USA, 20-23 March 2011. ZHANG L. LI Y. Optimal Energy Management of Hybrid Power System with Two-Scale Dynamic Programming In Proc. Power Systems Conference and Exposition (PSCE), 2011 IEEE/PES Phoenix, USA 20-23 March 2011 [2] MATEVOSYAN, J. : On Coordination of Wind and Hydropower, In Proc.7th Int. Workshop on Large-Scale Integration

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Genadijs Zaļeskis and Ingars Steiks

. on Automation Science and Eng. (CASE) , Gothenburg, 2015, vol. 1020, pp. 1333–1338. [20] National Renewable Energy Laboratory, “Power Purchase Agreement Checklist for State and Local Governments,” Golden, Colorado, 2009. [21] M. A. Maehlum, “What’s the Difference Between Net Metering and Feed-In Tariffs?,” Energy Informative , 2014. [Online]. Available: [22] G. Zaleskis and I. Rankis, “Problem of an Estimation of the Wind Generators

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M. Gwóźdź, M. Krystkowiak, C. Jędryczka, A. Gulczyński and D. Matecki

R eferences [1] Global Wind Energy Council, . [2] L.H. Hansen, L. Helle, F. Blaabjerg, E. Ritchie, S. Munk-Nielsen, H. Binder, P. Sorensen, and B. Bak-Jensen, Conceptual Survey of Generators and Power Electronics for Wind Turbines , Riso National Laboratory, Roskilde, 2001. [3] J. Soens, Impact of Wind Energy in a Future Power Grid , Ph.D. Dissertation, Department of Electrical Engineering (ESAT), KU Leuven, Belgium, 2005. [4] H. Polinder, D.J. Bang, H. Li, and Z. Chen, Concept

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Himanshu Sharma, Nitai Pal, Pankaj Kumar and Ashiwani Yadav

References [1] Luque A., Hegedus S., Handbook of Photovoltaic Science and Engineering, Wiley (2003). [2] Dali M., Belhadj J., Roboam X., Hybrid solar-wind system with battery storage operating in gridconnected and standalone mode: Control and energy management - Experimental investigation, 7th International Conference on Sustainable Energy echnologies, pp. 2587-2595 (2010). [3] Bogaraj T., Kanakaraj J., Kumar K.M., Optimal sizing and cost analysis of hybrid power system for a stand-alone application in