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CFD simulation of a reversible solid oxide microtubular cell

AuthorsGarcía-Camprubí, M.; Laguna-Bercero, M. A. ; Fueyo, Norberto
Issue Date2012
Citation10th European SOFC Forum 2012
AbstractIn this work, the authors introduce a comprehensive model and the corresponding 3D numerical tool for the simulation of reversible micro-tubular solid oxide fuel cells. It is based on a previous in-house model for SOFC [1], to which some new features has been added to extend its applicability to SOEC. The model considers the following physical phenomena: (i) fluid flow through channels and porous media; (ii) multicomponent mass transfer within channels and electrodes; (iii) heat transfer due to conduction, convection and radiation; (iv) charge motion; and (v) electrochemical reaction. The numerical algorithm to solve this mathematical model is implemented in OpenFOAM, an open source CFD toolbox based on the finite-volume method.
DescriptionTrabajo presentado al 10th European Solid Oxide Fuell Cell Forum celebrado en Lucerna (Suiza) del 26 al 29 de Junio de 2012.
Publisher version (URL)http://www.efcf.com/index.php?id=241
Appears in Collections:(ICMA) Comunicaciones congresos
(LIFTEC) Comunicaciones congresos
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