Solid oxide fuel cells systems

In the late 1980s, the DOE shifted to the development of advanced higher temperature fuel cell technologies, especially molten carbonate and solid oxide fuel cell systems. Federal funding for these technologies resulted in private commercial manufacturing facilities and commercial sales. [Pg.185]

In general, reforming of the CH4 fuel with excess H2O outside the cell has been practiced both in molten carbonate and solid oxide fuel cell systems in order to produce H2, more reactive on a fuel cell anode, and to avoid the possible deposition of C. This reforming reaction... [Pg.263]

Traverso A., Trasino F., Magistri F. (2006), Dynamic simulation of the anodic side of an integrated solid oxide fuel cell system. In 8th Biennial ASME Conference on Engineering Systems Design and Analysis, Turin, Italy, ESDA2006-95770. [Pg.268]

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TABLE IV Performance of Solid Oxide Fuel Cell System, Compared with Selected Electricity Power Plants ... [Pg.67]

Bieberle-Hutter, A., Santis-Alvarez, A.J., Jiang, B. et al. (2012) Syngas generation from n-butane with an integrated MEMS assembly for gas processing in micro-solid oxide fuel cell systems. Lab Chip, 12, 4894-4902. [Pg.240]

Bieberle-Hutter, A., Beckel, D., Infortuna, A., Muecke, U.P., Rupp, J.L.M., Gauckler, LJ., Rey-Mermet, S., Muralt, P., Bieri, N.R., Hotz, N., Stulz, M.J., Pordikakos, D., Heeb, P., Muller, P., Bernard, A., Gmiir, R., and Hocker, T. (2008) A micro-solid oxide fuel cell system as battery replacement J. Power Sources, 177, 123-130. [Pg.725]

Vijay P (2009) Modelling, Simulation and Control of a Solid Oxide Fuel Cell System A Bond Graph Approach. Ph.D. Thesis, Indian Institute of Technology, Kharagpur, India... [Pg.382]

Yoon, S, Bae, J. A diesel fuel processor for stable operation of solid oxide fuel cell system I. Introduction to post-reforming for the diesel fuel processor. Catal. Today 2010 156 49-57. [Pg.360]

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Hibino, T. and Iwahara, H. (1993) Simplification of solid oxide fuel cell systems using partial oxidation of methane. Chem. Lett., 7, 1131-1134. [Pg.62]

SOFCs) a review of an environmentally clean and efficient source of energy. Renew. Sust. Energy Rev., 6, 433—455. Fontell, E., Phan, T., Kivisaari, T., and Keranen, K. (2006) Solid oxide fuel cell system and the economical feasibility. J. Fuel Cell Sci. Technol., 3, 242—253. Rasmussen, J.F.B., Hendriksen,... [Pg.329]

S. (2008) Development update on Delphi s solid oxide fuel cell systems. Presented at Fundamental Development of Fuel Cells Conference 2008, Nancy, France, 10-12 December 2008. [Pg.329]

Van Duin, A.C.T., Merinov, B.V., Jang, S.S., Goddard 111, W.A. (2008) ReaxFF reactive force field for solid oxide fuel cell systems with application to oxygen ion transport in yttria-stabilized zirconia. J. Phys. Chem. A, 112 (14), 3133-3140. Mazumder, S.K., Pradhan, S.K., Hartvigsen, J., Rancmel, D., von Spakovsky, M.R., and Khaleel,... [Pg.762]

ReaxFF reactive force field for solid oxide fuel cell systems with application to oxygen ion transport in yttria-stabilized zirconia. J. Phys. Chem. A, 112 (14), 3133-3140. [Pg.766]

F. (2009) Evaluation of hydrogen and methane-fuelled solid oxide fuel cell systems for residential applications system design alternative and parameter study. Int.J. Hydrogen Energy, 34, 8630-8644. [Pg.961]

Zabihian, F. and Fung, A. (2009) A review on modeling of hybrid solid oxide fuel cell systems. Int.J. Eng., 3, 85-119. Winkler, W. and Lorenz, H. (2000) in Proceedings of Fourth European Solid Oxide Fuel CeU Forum, vol. 1 (ed. U. Bossel), Lucerne, pp. 413-420. [Pg.1006]

Yoshida, H. and Iwai, H. (2005) Thermal management in solid oxide fuel cell systems, in Proceedings of Fifth International Conference on Enhanced, Compact and Ultra-Compact Heat Exchangers Science, Enpneering and Technology FUEL CELL 2005-74176, (eds. R.K. [Pg.1008]

Braun, R.J. (2010) Techno-economic optimal design of solid oxide fuel cell systems for micro-combined heat and power applications in the US. J. Pud Cell Sci. Technd., 7, 031018. [Pg.1010]

Peters R, Riensche E, Cremer P (2000) Pre-reforming of natural gas in solid oxide fuel-cell systems. J Power Sources 86 432... [Pg.2007]

Ahmed K, Gamman J, Foger K (2002) Demonstration of LPG-fueled solid oxide fuel cell systems. Solid State Ionics 152 485... [Pg.2008]

Gauckler LJ, Beckel D, Buergler BE, Jud E, Miicke UP, Prestat M, Rupp JEM, Richter J (2004) Solid oxide fuel cells Systems and materials. Chimia 58 837... [Pg.2022]

Yinhai Zhu, Wenjian Cai, Yanzhong Li, Changyun Wen, Anode gas recirculation behavior of a fuel ejector in hybrid solid oxide fuel cell systems Performance evaluation in three operational modes. Journal of Power Sources 185 (2008) 1122-1130, Xi an, China, Singapore, 23 July 2008... [Pg.141]

Figure 9.31 Wartsila WFC20 solid oxide fuel cell system with prereformer and catalytic afterburner [508].

Bieberle-Hiitfia A, Beckel D, Infortuna A, Muecke UP, Rupp JLM, Gauckler LJ, Rey-Mermet S, Muralt P, Bieri NR, Hotz N, Stutz MJ, PouUkakos D, Heeb P, Muller P, Bernard A, Gmilr R, Hooker T (2008) A micro-solid oxide fuel cell system as battery replactanenL J Power Sources 177 123—130... [Pg.166]

Krist K, Wright JD, Romero C, Chen TP (1996) Cost projections for planar solid oxide fuel cell systems. In Fuel Cell Seminar, Orlando, FL, pp 497-500... [Pg.655]

Fontell E, Phan T, Kivisaari T, Kerannen K (2006) Solid oxide fuel cell system and the economical feasibility. J Fuel Cell Sci Technol 3 242-253... [Pg.727]

Palazzi F, Autissier N, Franfois MAM, Favrat D (2007) A methodology for thermo-economic modeling and optimization of solid oxide fuel cell systems. Appl Thermal Eng 27 2703-2712... [Pg.729]

Robert J. Braun, Tyrone L. Vincent, Huayang Zhu, and Robert J. Kee, Analysis, Optimization, and Control of Solid-Oxide Fuel Cell Systems... [Pg.300]

Shaffer, S. Development Update on Delphi s Solid Oxide Fuel Cell System, in SECA 2004 Annual Meeting and Core Program Review. 2004. Boston US DOE NETL. [Pg.244]

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