Intermediate temperature solid

Lu XC and Zhu JH. Ni-Fe + SDC composite as anode material for intermediate temperature solid oxide fuel cell. J. Power Sources 2007 165 678-684. [Pg.277]

Lee KT and Manthiram A. Synthesis and characterization of NdQjSrQ.jCOj MnyOj (0temperature solid oxide fuel cells. J. Power Sources 2006 158 1202-1208. [Pg.279]

This edition of the Fuel Cell Handbook is more comprehensive than previous versions in that it includes several changes. First, calculation examples for fuel cells are included for the wide variety of possible applications. This includes transportation and auxiliary power applications for the first time. In addition, the handbook includes a separate section on alkaline fuel cells. The intermediate temperature solid-state fuel cell section is being developed. In this edition, hybrids are also included as a separate section for the first time. Hybrids are some of the most efficient power plants ever conceived and are actually being demonstrated. Finally, an updated list of fuel cell URLs is included in the Appendix and an updated index assists the reader in locating specific information quickly. [Pg.13]

Intermediate Temperature Solid Oxide Fuel Cell (ITSOFC) The electrolyte and electrode materials in this fuel cell are basically the same as used in the TSOFC. The ITSOFC operates at a lower temperature, however, typically between 600 to 800°C. For this reason, thin film technology is being developed to promote ionic conduction alternative electrolyte materials are also being developed. [Pg.19]

ITSOFC The intermediate temperature solid oxide fuel cell combines the best available attributes of fuel cell technology development with intermediate temperature (600-800°C) operation. Ceramic components are used for electrodes and electrolytes carbon does not... [Pg.27]

Intermediate Temperature Solid Oxide Fuel Cell... [Pg.171]

Yuan, J. and Sunden, B. Analysis of Intermediate Temperature Solid Oxide Fuel Cell Transport Processes and Performance, ASME Journal of Heat Transfer, 127,1380 (2005). [Pg.134]

Cheng et al. (2008) reported LaCoOs nanopowders for intermediate temperature solid oxide fuel cells prepared by an aqueous gel-casting technique at 600 °C. The performance of La-Sr-Mn-O (LSM) electrode impregnated with as-synthesized LaCoOs nanopowders showed a significant improvement. [Pg.399]

Bae, J.M. and Steele, B.C.H., Properties of pyrochlore ruthenate cathodes for intermediate temperature solid oxide fuel cells. Journal of Electroceramics, 1999, 3, 37-46. [Pg.225]

Intermediate-temperature solid oxide fuel cells for power applications . Application US US, 2002. [Pg.197]

Yu, H.C., and Fung, K.Z. 2003. Laj.jSr CuOjs.s as new cathode materials for intermediate temperature solid oxide fuel cells. Materials Research Bulletin 38, 231-239. [Pg.304]

Intermediate temperature solid oxide fuel cell (ITSOFC), 800°C... [Pg.624]

Abstract Developments of intermediate-temperature solid oxide fuel cells and... [Pg.223]

Ishihara T., Honda M, Shibayama T. Intermediate temperature solid oxide fuel cells using a new LaGaOs based oxide ion conductor. I. Domped SmCoOs as a new cathode material. Journal of the electrochemical society, 1998, v. 145, N.9, p.3177-3183. [Pg.394]

T. Fukui, S. Ohara, K. Mnrata, H. Yoshida, K. Mima, T. Inagaki Performance of intermediate temperature solid oxide fuel cells with La(Sr)Ga(Mg)0-3 electrolyte film. Journal of Power Sources, 106(1-2), 171-176 (2002). [Pg.860]

La0.58Sr0.4Co0.2Fe0.8O3-8-Ce0.8Gd0.2O2 composite cathode for intermediate temperature solid oxide fuel cells. Ceramics International 39, 529-538,... [Pg.127]

T. Hibino, A. Hashimoto, K. Asano, M. Yano, M. Suzuki, and M. Sano. An intermediate temperature solid oxide fuel cell providing high performance with hydrocarbons than with hydrogen. Electrochem. Solid State Lett. 5, (2002) A242-A244. [Pg.141]

V. Sadykov, T. Kharlamova, S. Pavlova, V. Muzykantov, A. Ishchenko, T. Krieger, O. Lapina, N. Uvarov, M. Chaikina, Yu. Pavlyukhina, Ch. Argirusis, G. Sourkouni, Ch. Szepanski, S. Bebelis, H. Gasparyan, V. Stathopoulos, E. Jothinathan and O. Van der Bies, Doped Lanthanum Silicates with the Apatite Structure as Oxide-Ion Conducting Electrolytes Synthesis, Characterization and Application for Design of Intermediate Temperature Solid Oxide Fuel Cell , in Lanthanum, ed. R. J. Moore, Nova Science Publishers, Inc. Hauppauge, N. Y., 2010, p. 1. [Pg.37]

Blanc et al. examined multinuclear Ga, Ga, Al and O NMR parameters of various polymorphs of LaGaOa and LaAlOs perovskites were obtained from the combination of solid-state MAS NMR. These were used for applications in intermediate temperature solid oxide fuel cells. [Pg.339]

Ndi95Ni04, 5 as cathode material for anode-supported intermediate temperature solid oxide fuel cells ,/Power Sources, 185,1218-1224. [Pg.598]

Badwal, S. B. S., Ciacchi, F. T., and Milosevic, D. (2000). Scandia-zirconia electrolytes for intermediate temperature solid oxide fuel cells. Solid State Ionics 136-137 91-99. [Pg.95]

FIGU RE 9.11 Polyhedral models of TiOj polymorphs (a) rutile, (b) anatase, and (c) brookite. (Reprinted with kind permission from Dr. K. Nomura, Intermediate Temperature Solid Conductors—Crystal Structure Gallery—AIST, http //staff.aist.go.jp/nomura-k/english/ itscgallary-e.htm.)... [Pg.316]

Ghosh, S., Das Sharma, A., Kundu, P., Mahanty, S., and Basu, R.N. (2008) Development and characterizations of BaO—CaO—AI2O3 —Si02 glass-ceramic sealants for intermediate temperature solid oxide fuel cell application. J. Non-Cryst. Solids, 354, 4081-4088. [Pg.331]

Wang F, Chen S, Cheng S (2004b) Gd and Sm + co-doped ceria based electrolytes for intermediate temperature solid oxide fuel cells. Electrochem Commun 6 743-746... [Pg.236]

Dutta, A. Mukhopadhyay, J. Basu, R.N. (2009). Combustion Synthesis and Characterization of LSCF-based Materials as Cathode of Intermediate Temperature Solid Oxide Fuel Cells. Journal of the European Ceramic Society, Vol. 29, No.lO, Quly 2009), pp. 2003-2011, ISSN 0955-2219... [Pg.502]

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