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A. Domino, K. Zymmer and M. Parchomiuk

R eferences [1] Electricity Storage, Leading the Energy Transition Factbook , SBC Energy Institute, 2013. [2] H. Majchrzak, “Energy storage as a remedy for RES problems”, Czysta Energia 8/2014 [in Polish] (2014). [3] Technology Roadmap IEA, Energy Storage, IEA, 2014 [4] J. Jensen and B. Sorensen, Fundamentals of Energy Storage , J. Wiley, New York, 1984. [5] Y. Brunet, Energy Storage . Hoboken, Wiley, 2011. [6] M.-C. Pera, D

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Wiesław Tarczyński and Ryszard Kopka

of IMAPS-CPMP IEEE, Poland, Pułtusk 12–24.09.2008, pp. 107–116. [4] Kopka R., Tarczyński W., A fractional model of supercapacitors for use in energy storage systems of next generation shipboard electrical network , ‘Journal of Marine Engineering & Technology’, in review. [5] Loeffler Ch., Spears E., UPS Basics , pdf, Publ. Eaton Corporation, October 2011, [online], [access 08.09.2017]. [6] Rafik F., Gualous H., Gallay R., Crausaz A., Berthon A., Frequency, thermal and

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Genadijs Zaleskis, Viesturs Brazis and Leonards Latkovskis

References [1] V. Brazis, G. Zaleskis, L. Latkovskis, L. Grigans, U. Sirmelis: Simulation of Light Railway Traction Drive with Energy Storage System. Proceedings of the 52st Annual International Scientific Conference of Riga Technical University, Section “Power and Electrical Engineering”, October 2011. [2] N. Cobanov: Capacitive Energy Storage Device from Tram Auxiliary Power Supplies. AUTOMATIKA 48(2007) 3-4, - pp. 113-120. [3] P. Drabek, L. Streit, M. Los: The Energy Storage System with Supercapacitor

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L. Latkovskis, U. Sirmelis and L. Grigans

References Latkovskis, L., & Bražis, V. (2007) Application of supercapacitors for storage of regenerative energy in T3A tramcars. Latv. J. Phys. Tec. Sci. , (5), 13-23. Latkovskis, L., Brazis, V., & Grigans, L. (2010). Simulation of On-Board Supercapacitor Energy Storage System for Tatra T3A Type Tramcars. In: Modeling, Simulation and Optimization , 14 th Ch., Vukovar (Croatia), pp. 307-329, ISBN 978-953-307-048-3. Destraz, B., Barrade, P., Rufer, A., & Klohr, M. (2007). Study

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M. Michalczuk, L.M. Grzesiak and B. Ufnalski

, “Ultracapacitors to boost the range of electric cars”, Technology Review 1, CD-ROM (2011). [10] Low Cost Graphene Electrode Powered Supercapacitors for Consumer Devices and EVs , (accessed on December 2011). [11] D.L. Chandler, “Research update: improving batteries’ energy storage”, MIT News 1, CD-ROM (2011). [12] NanophosphateTM Lithium Ion Batteries , (accessed on December 2011). [13] L. Niedzicki, “Characterization of new generation of electrolytes based on imidazole

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Andreas Armstorfer, Helmuth Biechl and Argo Rosin

Parallel Inverters,” IEEE Transactions on Power Electronics , vol. 22, no. 4, pp. 1107–1115, Jul. 2007. [5] S. Nourollah, A. Pirayesh, and F. Aminifar, “Combinational scheme for voltage and frequency recovery in an islanded distribution system,” IET Generation, Transmission & Distribution , vol. 10, no. 12, pp. 2899–2906, Sep. 2016. [6] S. Krishnamurthy, T. M. Jahns, and R. H. Lasseter, “The operation of diesel gensets in a CERTS microgrid,” 2008 IEEE Power and Energy

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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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Genadijs Zaļeskis and Ingars Steiks

right?,” in 2007 IEEE Power Eng. Soc. Gen. Meet. PES , Tampa, FL, pp. 1–5, 2007. [17] A. Kwasinski, “Micro-grids architectures, stability and protections,” 2012. [18] S. Rolland and G. Glania, “Hybrid Mini-Grids for Rural Electrification: Lessons Learned”, CA: Renewable Energy House, Brussels, 2011, 72 p. [19] A. Senfelds, M. Vorobjovs, D. Meike and O. Bormanis, “Power Smoothing Approach within Industrial DC Microgrid with Supercapacitor Storage for Robotic Manufacturing Application,” in 2015 IEEE Int. Conf

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K. Bogucka-Bykuć, W. Włosiński and S. Bykuć

heat thermal energy storage units carbon-fiber brushes: experiments and modelling”, Int. J. Heat and Mass Transfer 46, 4513-4525 (2003). [4] Z. Zhang, N. Zhang, J. Peng, X. Fang, X. Gao, and Y. Fang, “Preparation and thermal energy storage properties of paraffin/ expanded graphite composite phase change material”, Applied Energy 91, 426-431 (2012). [5] Y. Zhong, Q. Guo, S. Li, J. Shi, and L. Liu, “Heat transfer enhancement of paraffin wax using graphite foam for thermal energy storage”, Solar Energy Materials and Solar Cell 94, 1011

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Michał Leśko and Wojciech Bujalski

] Bujalski W.: Optimization of the operation of a CHP plant equipped with a heat accumulator. Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa 2013 (in Polish). [8] Fazlollahi S., Beckera G., Maréchal F.: Multi-objectives, multi-period optimization of district energy systems: III. Distribution networks. Comput. Chem. Eng. 66(2014), 82-97. [9] Ziębik A., Gładysz P.: Optimal coefficient of the share of cogeneration in the district heating system cooperating with thermal storage. Arch. Thermodyn. 32(2011), 3, 71-87. [10