Solid oxide fuel cells modeling

Pakalapati, S.R. (2006) A new reduced order model for solid oxide fuel cell modeling, PhD Thesis, Department of Mechanical and Aerospace Engineering, West Virginia University, Morgantown, WV. [Pg.181]

VanderSteen J.D.J., Pharoah J.G. (2004) The effect of radiation heat transfer in solid oxide fuel cells modeling. Combustion Institute/Canadian Section, Spring Technical Meeting, Queen s University, May 9-12, 2004. [Pg.237]

Finally, we would like to thank Dr. Jon Davies for reading and reviewing all the chapters, and Dr. Marc Steen and Dr. Georgios Tsotridis, who supported the idea of editing a book on solid oxide fuel cell modeling. [Pg.407]

Keywords solid oxide fuel cell modeling kinetic Monte Carlo frequency response atomistic density functional theory electrochemistry... [Pg.201]

A. Bieberle, L. P. Meier, and L. J. Gauckler. The Electrochemistry of Ni Pattern Anodes Used as Solid Oxide Fuel Cell Model Electrodes. J. Electrochem. Soc. 148, (2001) A646-A656. [Pg.143]

Todd B., Young J.B., Thermodynamic and transport properties of gases for use in solid oxide fuel cell modeling, Journal of Power Sources, Vol. 110, pp. 186-200,2002. [Pg.134]

Li, M., Brouwer, )., Rao, A.D., and Samuelsen, G.S. (2011) Application of a detailed dimensional solid oxide fuel cell model in integrated gasification fuel cell system design and analysis. J. Power Sources, 196 (14), 5903-5912. [Pg.764]

Ding, D., Zhu, W., Gao, J.E Xia, C.R. High performance electrolyte-coated anodes for low-temperature solid oxide fuel-cells Model and experiments. J. Power Sources 179 (2008b), pp. 177-185. [Pg.206]

J. Milewski et al.. Advanced Methods of Solid Oxide Fuel Cell Modeling, 1... [Pg.1]

Advanced Methods of Solid Oxide Fuel Cell Modeling... [Pg.218]

Shah V.B. ASPEN Models for Solid Oxide Fuel Cell, Molten Carbonate Fuel Cell and Phosphoric Acid Fuel Cell Prepared by EG G Washington Analytical Services Center for the Morgantown Energy Technology Center under Contract No. DE-AC21-85MC21353, 1988. [Pg.282]

Thermal-Hydraulic Model of a Monolithic Solid Oxide Fuel Cell... [Pg.347]

S. Ahmed, C. McPheeters, and R. Kumar, Thermal-Hydraulic Model of a Monolithic Solid Oxide Fuel Cell, ... [Pg.347]

Modeling Solid Oxide Fuel Cells Methods, Procedures and Techniques R. Bove and S. Ubertini, eds. [Pg.341]

The purpose of the present review is to summarize the current status of fundamental models for fuel cell engineering and indicate where this burgeoning field is heading. By choice, this review is limited to hydrogen/air polymer electrolyte fuel cells (PEFCs), direct methanol fuel cells (DMFCs), and solid oxide fuel cells (SOFCs). Also, the review does not include microscopic, first-principle modeling of fuel cell materials, such as proton conducting membranes and catalyst surfaces. For good overviews of the latter fields, the reader can turn to Kreuer, Paddison, and Koper, for example. [Pg.488]

Nehter, P., 2-Dimensional transient model of a cascaded micro tubular Solid Oxide Fuel Cell fed with methane, Journal of Power Sources 157, 2006, 325-334. [Pg.49]

Chan S.H., Khor K.A., Xia Z.T., 2001. A complete polarization model of a solid oxide fuel cell and its sensitivity to the change of cell components thickness. Journal of Power Sources 93, 130-140. [Pg.90]

Costamagna P, Costa P., Antonucci V., 1998. Micro-modeling of solid oxide fuel cell electrodes. Electrochemica Acta 43(3/4), 375-394. [Pg.90]

Andreassi L., Toro C., Ubertini S., 2007. Modeling carbon monoxide direct oxidation in solid oxide fuel cells. In Proceedings ASME European Fuel Cell Technology and Applications Conference, EFC2007-39057. [Pg.90]

Khaleel M.M.A., Lin Z., Singh P., Surdoval W., Collin D., 2004. A finite element analysis modeling tool for solid oxide fuel cell development Coupled electrochemistry, thermal and flow analysis in MARC. Journal of Power Sources 130, 136-148. [Pg.91]

Costamagna P., Selimovic A., Del Borghi M., Agnewc G., 2004. Electrochemical model of the integrated planar solid oxide fuel cell (IP-SOFC). Chemical Engineering Journal 102, 61-69. [Pg.91]

Yakabe H., Hishinuma M., Uratani M., Matsuzaki Y., Yasuda I., 2000. Evaluation and modeling of performance of anode-supported solid oxide fuel cell. Journal of Power Sources 86, 423 431. [Pg.92]

Ciano C., Cali M., Melhus O., Verda V., 2006. A model for the configuration design of a tubular Solid Oxide Fuel Cell Stack. ASME Paper IMECE2006-16141, Chicago, IL, November 5-10, 2006. [Pg.95]

Bove R. and Ubertini S., 2006. Modeling solid oxide fuel cell operation Approaches, techniques and results. Journal of Power Sources 159(1), 543-559. [Pg.121]

Aguiar, P., Chadwick, D. and Kershenbaum, L. (2002) Modelling of an indirect internal reforming solid oxide fuel cell, Chemical Engineering Science 57, 1665-1677. [Pg.179]

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