A Multiphysics Modeling Study of (Pr0.7Sr0.3)MnO3±δ∕8mol% Yttria-Stabilized Zirconia Composite Cathodes for Solid Oxide Fuel Cells

Ke An; Kenneth L. Reifsnider

Source: Journal of Fuel Cell Science and Technology:;2005:;volume( 002 ):;issue: 001::page 45

Author:

Ke An

Kenneth L. Reifsnider

DOI: 10.1115/1.1842782

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: Solid oxide fuel cells (SOFCs) are expected to be a future power source. Simulation analyses of SOFCs can help to understand well the interactive functions among the multiphysics phenomena in the SOFC system. A three-dimensional multiphysics finite-element model was used to simulate the performance of a half-cell SOFC with (Pr0.7Sr0.3)MnO3±δ∕8mol% yttria-stabilized zirconia (8YSZ) composite cathode on one side of the 8YSZ electrolyte before and after aging. Multiphysics phenomena in the SOFC were considered in the modeling. The current/voltage curves simulated matched the experimental data before and after aging. The average current density was found to have a linear relationship to the logarithm of the effective exchange current density. The effect of the effective ionic conductivity of the composite cathode was more apparent for small total effective ionic conductivity values than for large ones.

keyword(s): Electric potential , Composite materials , Overvoltage , Modeling , Solid oxide fuel cells , Current density , Electrolytes , Oxygen AND Finite element analysis ,

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A Multiphysics Modeling Study of (Pr0.7Sr0.3)MnO3±δ∕8mol% Yttria-Stabilized Zirconia Composite Cathodes for Solid Oxide Fuel Cells

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Journal of Fuel Cell Science and Technology

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contributor author	Ke An
contributor author	Kenneth L. Reifsnider
date accessioned	2017-05-09T00:16:47Z
date available	2017-05-09T00:16:47Z
date copyright	February, 2005
date issued	2005
identifier issn	2381-6872
identifier other	JFCSAU-27240#45_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/132117
description abstract	Solid oxide fuel cells (SOFCs) are expected to be a future power source. Simulation analyses of SOFCs can help to understand well the interactive functions among the multiphysics phenomena in the SOFC system. A three-dimensional multiphysics finite-element model was used to simulate the performance of a half-cell SOFC with (Pr0.7Sr0.3)MnO3±δ∕8mol% yttria-stabilized zirconia (8YSZ) composite cathode on one side of the 8YSZ electrolyte before and after aging. Multiphysics phenomena in the SOFC were considered in the modeling. The current/voltage curves simulated matched the experimental data before and after aging. The average current density was found to have a linear relationship to the logarithm of the effective exchange current density. The effect of the effective ionic conductivity of the composite cathode was more apparent for small total effective ionic conductivity values than for large ones.
publisher	The American Society of Mechanical Engineers (ASME)
title	A Multiphysics Modeling Study of (Pr0.7Sr0.3)MnO3±δ∕8mol% Yttria-Stabilized Zirconia Composite Cathodes for Solid Oxide Fuel Cells
type	Journal Paper
journal volume	2
journal issue	1
journal title	Journal of Fuel Cell Science and Technology
identifier doi	10.1115/1.1842782
journal fristpage	45
journal lastpage	51
identifier eissn	2381-6910
keywords	Electric potential
keywords	Composite materials
keywords	Overvoltage
keywords	Modeling
keywords	Solid oxide fuel cells
keywords	Current density
keywords	Electrolytes
keywords	Oxygen AND Finite element analysis
tree	Journal of Fuel Cell Science and Technology:;2005:;volume( 002 ):;issue: 001
contenttype	Fulltext

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