6915323843

[7]    Kotowicz J., and L. Bartela: Optimisation of the connection of membranę ccs installation with a supercritical coal-fired power plant. Energy, 38(1), 118-127, 2012.

[8]    Kotowicz J., A. Skorek-Osikowska, and L. Bartela: Economic and environmental evaluation of selected advanced power generation technologies. Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 225(3), 221-232, 2011.

[9]    Lewandowski J., and J. Milewski: Badania wysokotemperaturowych ogniw paliwowych zasilanych biopaliwami. Projekt badawczy N N513 3057 35, Instytu Techniki Cieplnej, Politechnika Warszawska, 2009.

[10J Liu A., and YiwuWeng: Performance analysis of a pressurized molten carbonate fuel cell/micro-gas turbinę hybrid system. Journal of Power Sources, 195, 204-213, 2010.

[11]    Lunghi P., S. Ubertini, and U. Desideri: Highly efficient electricity generation through a hybrid molten carbonate fuel cell-closed loop gas turbinę plant. Energy Conversion and Management, 42,1657-1672,2001.

[12]    Lunghi P., R. Bove, and U. Desideri: Analysis and optimization of hybrid MCFC gas turbines plants. Journal of Power Sources, 118, 108-117, 2003.

[13]    Milewski J., and K. Badyda: Układy trigeneracyjne oparte na ogniwach paliwowych. Termodynamika w nauce i gospodarce, I, 89-99, 2008.

[14]    Milewski J., J. Lewandowski, and A. Miller: Reducing C0₂ emissions from a coal fired power plant by using a molten carbonate fuel celi, in ASME Turbo EXPO, voI. 2, pp. 389-395, 2008.

[15]    Milewski J., J. Lewandowski, and A. Miller: Reducing C0₂ emissions from a gas turbinę power plant by using a molten carbonate fuel. Chemical and Process Engineering, 29(4), 939-954, 2008.

[16]    Milewski J., K. Badyda, Z. Misztal, and M. Wolowicz: Combined heat and power unit based on polymeric electrolyte membranę fuel celi in a hotel application. Rynek Energii, 90(5), 118-123, 2010.

[17]    Milewski J., M. Wolowicz, K. Badyda, and Z. Misztal: Operational characteristics of 36kw PEMFC-CHP unit. Rynek Energii, 92(1), 150-156, 2011.

[18]    Milewski J., M. Wolowicz, K. Badyda, and Z. Misztal. 36 kW polymer exchange membranę fuel celi as combined heat and power unit. ECS Transactions, 42(1), 75-87, 2012.

[19]    Miller A., and S. Kiryk: Perspektywiczne technologie wodorowe w energetyce. Program badawczy WE-NET. Gospodarka Paliwami i Energią, 12, 1999.

[20]    Morita H., F. Yoshiba, N. Woudstra, K. Hemmes, and H. Spliethoff: Feasibility study of wood biomass gasification/molten carbonate fuel celi power system—comparative characterization of fuel celi and gas turbinę systems. Journal of Power Sources, 138, 31-40, 2004.