Search Results

You are looking at 1 - 10 of 164 items for :

  • Introductions and Overviews x
Clear All
Open access

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

Open access

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

Open access

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

Open access

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.

Open access

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

Open access

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

Open access

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

Open access

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

Open access

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

Open access

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