Поисковый запрос: (<.>K=CELL<.>) |
Общее количество найденных документов : 95
Показаны документы с 1 по 20 |
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1.
| New materials for fuel cell systems // Platinum metals Rev., 1995. т.39, 4, 165-166
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2.
| Lee S. Test of a dual electrode galvanic cell in binary carbonate melt/S. Lee, R. W. Staehle // Materials and Corrosion, 1998. т.49, 1, 7-12
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3.
| Fourth grove fuel cell symposium // Platinum metals Rev., 1995. т.39, 4, 160-164
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4.
| Biedenkopf P. High temperature corrosion of low and high alloy steels under molten carbonate fuel cell conditions/P. Biedenkopf, Grabke H. J. Spiegel M. // Materials and Corrosion, 1997. т.48, 8, 477-488
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5.
| Fontes E. Influence of gas phase mass trasfer limitations on molten carbonate fuel cell cathodes/E. Fontes, Lindbergh G. Lagergren C. // J. Appl. Electrochem., 1997. т.27, 10, 1149-1156
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6.
| Lee C.-G. Characterization of a 100 cm2 class molten carbonate fuel cell with current interruption/C. -G. Lee, Nishina T. Nakano H. // J. Electrochem. Soc., 1998. т.145, 8, 2747-2751
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7.
| Rashidi R. Energy and exergy analyses of a hybrid molten carbonate fuel cell system /R. Rashidi, I. Dincer, P. Berg // Journal of Power Sources, 2008. т.Vol. 185,N № 2.-С.1107-1114
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8.
| Nonlinear predictive control of a molten carbonate fuel cell stack/Fan Yang [и др.] // Journal of Power Sources, 2008. т.Vol. 183,N № 1.-С.253-256
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9.
| Hiroshi Morita Model for Transient Voltage Response of Molten Carbonate Fuel Cell on Overload/Hiroshi Morita, Yasunobu Tada // Journal of the Electrochemical Society, 2009. т.Vol. 156,N № 2.-С.B264-B272
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10.
| Effect of Anode Area on the Cell Performance in a Molten Carbonate Fuel Cell/Choong-Gon Lee [и др.] // Journal of the Electrochemical Society, 2008. т.Т. 155,N № 2.-С.А138-А143
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11.
| Molten carbonate fuel cell operation with dual fuel flexibility /Joseph Daly [и др.] // Journal of Power Sources, 2008.-С.925-934
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12.
| Mitsushima Sh. Elongation and prediction of the life for molten carbonate fuel cell/Sh. Mitsushima, Yamaga K. Okada H. // Yoyuen oyobi Koon Kagaku, 1995. т.38, 2, 249-258
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13.
| Two-Phase CFD Model of the Bubble-Driven Flow in the Molten Electrolyte Layer of a Hall–Héroult Aluminum Cell/Yuqing Feng, M. Philip Schwarz, William YangAffiliated , Mark Cooksey // Metallurgical and Materials Transactions B, 2015. т.Vol. 46,N № 4.-С.1959-1981
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14.
| Papageorgiou N. The Performance and Stability of Ambient Temperature Molten Salts for Solar Cell Application/N. Papageorgiou, Armand M. Athanassov Y. // J. Electrochem. Soc, 1996. т.143, 10, 3099-3108
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15.
| Ogawa T. Preduction and inhibition of molten carbonate fuel cell shorting by NiOcathode dissolution/T. Ogawa, Murata K. Nirasawa H. // Proc. Intersoc. Energy Convers. Eng. Conf, 1995. т.30th, V.3, 221-227
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16.
| Shimada T. Development of new materials technologies for molten carbonate fuel cell (II Separator)/T. Shimada, Nagashima I. Kudo T. // New Mater. Fuel Cell Syst. I, Proc. Int. Symp., 1st, 1995. т.437-448
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17.
| Rao M.M. A novel method of preparation of gamma lithium aluminate for use as molten carbonate fuel cell matrix material/M. M. Rao, Dheenadayan S. Solaiyan C. // New Mater. Fuel Cell Syst. I, Proc. Int. Symp., 1st, 1995. т.521-530
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18.
| Park J.W. A study on the development of anode material for molten carbonate fuel cell. Cu-base electrode/J. W. Park, Hwang E. R. Kim Y.D. // Han'guk Pyomyon Konghak Hoechi, 1995. т.28, 4, 243-254
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19.
| Fujita Yo. Corrosion and electrolyte loss of the metal components in molten carbonate fuel cell/Yo. Fujita, Sasaki A. Urushibata H. // Yoyuen oyobi Koon Kagaku, 1995. т.38, 2, 259-268
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20.
| 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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