Поисковый запрос: (<.>K=КАРБОНАТЫ<.>) |
Общее количество найденных документов : 381
Показаны документы с 1 по 20 |
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1.
| 250-киловаттный топливный элемент с расплавленным карбонатным электролитом готов к использованию // Chem. and Eng. News, 1996. т.74, 30, 36
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| A Kinetic Study of Spike Peaks Observed under Pressurized Oxidant Gas Atmospheres in Molten Alkali Carbonates/Lee. Choong-Gon, Tatsuo Nishina. Kohta Yamada. // J. Electrochem. Soc, 1996. т.Vol. 143,N № 7.-С.2315-2318
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3.
| A reduced order model of Molten Carbonate Fuel Cell: A proposal /Jarosław Milewski, Marcin Wołowicz, Marcin Wołowicz, Rafał Bernat // International Journal of Hydrogen Energy, 2013. т.Vol. 38,N № 26.-С.11565-11575.
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| A study on the start-up and performance of a kW-class molten carbonate fuel cell (MCFC) stack /L. Zhou [et al.] // Electrochimica Acta , 2006. т.V. 51,N N 26.-С.5698 - 5702
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| Aiguo Liu Modeling of molten carbonate fuel cell based on the volume–resistance characteristics and experimental analysis /Aiguo Liu, Yiwu Weng // Journal of Power Sources, 2010. т.Vol. 195,N № 2
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| Allen J. A. The effect of coal type and pyrolysis temperature on the electrochemical activity of coal at a solid carbon anode in molten carbonate media/J. A. Allen, M. Glenn, S. W. Donne // Journal of Power Sources, 2015. т.Vol. 279
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7.
| Ament P.C.H. Mechanisms for Oxidation and Passive Behavior of Nickel in Molten Carbonate/P. C.H. Ament, J.H.W. de. Wit // J. Electrochem. Soc, 1996. т.Vol. 143,N № 7.-С.2272-2280
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| Amin M.M. The KNO3- and K2CO3-induced hot corrosion behavior of M-21 alloy at 9000/M. M. Amin, M. B. Ahmad // Prakt. Metallogr, 1995. т.32, 10, 527-532
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| An effective semi-empiric model for MCFC kinetics: Theoretical development and experimental parameters identification/B. Bosio, N. Di Giulio, S. W. Nam, А. Moreno // International Journal of Hydrogen Energy, 2014. т.Vol. 39,N №.-С.. 12273-12284.
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10.
| Anahara R. Статус и перспективы энергоустановок на основе топливных ячеек/R. Anahara, Sakurai M. Yokokawa S. // Proc. IEEE, 1993. т.Vol. 81,N № 3.-С.399-408
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11.
| Analysis of biogas reforming process for molten carbonate fuel cells /V. Chiodo, F. Urbani, A. Galvagno, N. Mondello, S. Freni // Journal of Power Sources, 2012. т.Vol.206.-С.215-221.
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12.
| Antolini E. Preparation of porous nickel electrodes for molten carbonate fuel cell by non-aqueous tape casting/E. Antolini, Gemme S. Ferretti M. // J. Mater. Sci., 1996. т.31, 8, 2187-2192
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13.
| Antolini E. The role of thermal in the preparation of lithiated nickel cathodes for molten carbonate fuel cells/E. Antolini, Berbenni V. Marini A. // Solid State Ionics, 1992. т.57, 3-4, 217-226
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14.
| APPA allies opt for carbonate cell // Cogeneration, 1991. т.V. 8,N N 4.-С.29
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15.
| Appleby A.J. Fuel Cell Electrolytes: Evolution, Properties and Future Prospects/A. J. Appleby // J. Power Sources, 1994. т.49, 1-3, 15-34
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| Appleby A.J. Fuel cell generation for the 21st century/A. J. Appleby // 43rd Meet, Cordoba, Sept. 20-25, 1992, Abstr, Int. Soc. Electrochem. (ISE). -Cordoba, 1992. т.109
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17.
| Appleby A.J. Recent developments in fuel cell materials/A. J. Appleby // Mater. Res. Soc. Symp. Proc, 1995. т.393, 11-24
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18.
| Baker B.S. The direct fuell cell - a high efficiency electric power generator/B. S. Baker, Glenn D. Maru H. // Proc. Amer. Power Conf, 1994. т.56, 1, 179-183
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19.
| Barbara Bosio Thermal management of the molten carbonate fuel cell plane /Barbara Bosio, Danilo Marra, Elisabetta Arato // Journal of Power Sources , 2010. т.Vol. 195,N № 15.-С.4826-4834.
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20.
| Benjamin T. Состояние разработки карбонатных топливных элементов на фирме M-C Power [США] в 1994 г./T. Benjamin, Petragia V. J. Laurens R.M. // 29th Intersoc. Energy Convers. Eng. Conf., Monterey, Calif., Aug. 7-11, 1994: Collect. Techn. Pap. Pt 2. - Washington (D. C.), 1994. т.835-837
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