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G. Grzeczka and P. Szymak

References 1. Bujło P.: Polymeric super ionic membranes for fuel cell PEMFC, in Polish, PhD thesis, Wrocław University of Technology, Wrocław 2006. 2. Gasser F.: An analytical, control-oriented state space model for a PEM fuel cell system, PhD thesis, Ecole Polytechnique Federale de Lausanne, Lausanne 2006. 3. Grzeczka G., Szymak P.: Grant Report on Air Independent Electric Supply System based on PEM Fuel Cell, in Polish, Main Library Archive, Polish Naval Academy, Gdynia, Poland, 2010. 4

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I. Khazaee and M. Mohammadiun

References Chian M.S. and Chu H.S. (2006): Transient behavior of CO poisoning of the anode catalyst layer of a PEM fuel cell . - J. Power Sources, vol.160, pp.340-352. Kuo J.K., Yen T.S. and Che C.K. (2008): Improvement of performance of gas flow channel in PEM fuel cells. - Energy Conversion and Management, vol.49, pp.2776-2787. Larminie J. and Dicks A. (2003): Fuel Cell System Explained . - 2nd ed. Wiley. Miansari Me., Sedighi K., Amidpour M., Alizadeh E. and Miansari Mo. (2009

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I. Khazaee

-15. Crockett G.M., Newborough M., Highgate D.J. and Probert S.D. (1995a): Electrolyser-based electricity management. - Applied Energy, vol.51, No.3, pp.249-263. Frangopoulos C.A. and Nakos L.C. (2006): Development of a model for thermoeconomic design and operation optimization of a PEM fuel cell system. - Energy, vol.31, pp.1501-1519. Larminie J. and Dicks A. (2003): Fuel cell system explained. 2nd ed. - Wiley. Lazarou S., Pyrgioti E. and Alexandridis A.T. (2009): A simple electric circuit model for proton exchange membrane

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Viorel Ionescu

References [1]. J. Larminie, and A. Dicks, Fuel cell system explained , John Wiley and Sons.,2nd edition, 2003. [2]. F. Laurencelle, R. Chahine, J. Hamelin , K. Agbossou, M. Fournier, T.K. Bose et al. Fuel Cells J 1 , 166 (2001). [3]. D. Cheddie and N. Munroe, J. Power Sources 156, 414 (2006). [4]. I. Khazaee, and M. Ghazikhani, Journal of Power Sources 196 , 2661 (2011). [5]. M.S. Chiang, and H.S. Chu, Journal of Power Sources 160 , 340 (2006). [6

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Renata Włodarczyk

[1] Kirubakaran A., Jain S., Nema R.K., Renewable and Sustainable Energy Rev., 13 (2009) 2430. http://dx.doi.org/10.1016/j.rser.2009.04.004 [2] Cooper J.S., J. Power Sources, 129 (2004) 152. http://dx.doi.org/10.1016/j.jpowsour.2003.11.037 [3] Larminie J., Dicks A., Fuel Cell Systems Explained, Wiley & Sons, Ltd., 2003. http://dx.doi.org/10.1002/9781118878330 [4] Show Y., Surf. Coat. Technol., 202 (2007) 1252. http://dx.doi.org/10.1016/j.surfcoat.2007

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A. Andreičiks, I. Steiks and O. Krievs

References 1. Fuel Cell Handbook (6th ed-n, Nov. 2002). EGG Services Parsons Inc., Department of Energy (USA). 2. Gentile, G., Meo, S., & Esposito, F. (Sept. 2004). Comparison among Different Topologies of DC - DC Converter for Fuel-Cell-Based Inverter System . EPE-PEMC, Riga (Latvia). 3. Choi, W., Enjeti, P.N., Howze, J.W. & Joung, G. (2004). An experimental evaluation of the effects of ripple current generated by the power conditioning stage on a proton exchange membrane fuel cell stack. J. Mater

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P. Suskis, A. Andreiciks, I. Steiks, O. Krievs and J. Kleperis

.5772/52453 15. Aizpurietis, P., Vanags, M., Kleperis, J., & Bajars, G. (2013). Ni-Al protective coating of steel electrodes in DC electrolysis for hydrogen production. Latv. J. Phys. Tech. Sci., (2), 53-59. 16. Andreičiks, A., Steiks, I., & Krievs, O. (2013). A double inductor current source DC/DC converter for 2kW fuel cell application. CPE2013. 8th Intern. Conf., 332-336. 17. Andreičiks, A., Steiks, I., Krievs, O. (2013). Design of current source DC/DC converter and inverter for 2kW fuel cell application. SDEMPED2013. 9th Intern. Symp., 683

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Aleksandrs Andreiciks, Ingars Steiks and Oskars Krievs

References EGG Services Parsons Inc., "Fuel cell handbook (6th edition)", United States Department of Energy, USA, November 2002. G. Gentile, S. Meo, F. Esposito, "Comparison Among Different Topologies of DC-DC Converter for Fuel-Cell-Based Inverter System", EPE-PEMC2004, Riga, Latvia, September 2004. W. Choi, P. N. Enjeti, J. W. Howze, G. Joung, "An experimental evaluation of the effects of ripple current generated by the power conditioning stage on a proton exchange membrane fuel

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Aleksandrs Andreičiks, Kristaps Vitols, Oskars Krievs and Ingars Steiks

References EGG Services Parsons Inc., Fuel cell handbook (6th edition), United States Department of Energy, November 2002. Gentile G. Meo S. Esposito F. Comparison Among Different Topologies of DC-DC Converter for Fuel-Cell-Based Inverter System// in Proc. Power Electronics Converters EPE-PEMC.-Latvia, 2004. Choi W. Enjeti P. N. Howze J. W. Joung G. An experimental evaluation of the effects of ripple current generated by the power conditioning stage on a proton exchange membrane

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Yousri M. A. Welaya, M. Morsy El Gohary and Nader R. Ammar

Hydrogen Production from Fossil Fuels for PEM Fuel Cells. Journal of Power Sources, 154, pp. 67-73. Hoogers, G. (ed.), 2003. Fuel Cell Technology Hand Book. London New York Washington: CRC Press. 0-8493-0877-1, pp. 8-30. Holland, B.J. and Zhu, J.G. 2007. Design of A 500 W PEM Fuel Cell Test System. Faculty of Engineering, University of Technology, Sydney, Broadway, NSW, pp.1-6. Hordeski, M.F., 2008. Alternative Fuels-The Future of Hydrogen. 2nd Ed. India: Fairmont Press. ISBN 0-88173-596-5, pp. 175-180. Woud