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contributor authorStefano Campanari
contributor authorPaolo Iora
contributor authorAndrea Lucchini
contributor authorMatteo Romano
date accessioned2017-05-09T00:33:29Z
date available2017-05-09T00:33:29Z
date copyrightFebruary, 2009
date issued2009
identifier issn2381-6872
identifier otherJFCSAU-28936#011009_1.pdf
identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/140891
description abstractThis work presents a computational thermofluid-dynamic analysis of circular-planar type intermediate-temperature solid oxide fuel cells (SOFCs), based on the Hexis design. A single cell, representative of the average conditions of a real stack, is simulated in detail considering the real anode and cathode channel design, featuring an array of square pegs supporting the interconnection layers. The analysis is developed starting from cell operating data assumed from real test experimental information for an anode-supported SOFC with a 100cm2 active area, fed with pure hydrogen, and is extended to different reactant flow rates and generated heat flux power densities to evidence a generalized correlation for the thermofluid-dynamic behavior of the fuel cell under variable operating conditions. Aiming to provide a set of general results for the calculation of the heat transfer coefficient, which is applicable for the purpose of a complete thermal and electrochemical finite volume analysis, the simulation calculates local temperature distributions depending on radial and angular positions. The fluid-dynamic analysis evidences the existence of preferential flow paths and nonuniformity issues of the gas flow field, which may affect significantly the cell performances, and indicates possible cell design improvements.
publisherThe American Society of Mechanical Engineers (ASME)
titleThermofluid-Dynamic Analysis of Circular-Planar Type Intermediate-Temperature Solid Oxide Fuel Cells
typeJournal Paper
journal volume6
journal issue1
journal titleJournal of Fuel Cell Science and Technology
identifier doi10.1115/1.2971050
journal fristpage11009
identifier eissn2381-6910
keywordsTemperature
keywordsChannels (Hydraulic engineering)
keywordsSimulation
keywordsFuel cells
keywordsSolid oxide fuel cells
keywordsFlow (Dynamics)
keywordsThermofluids
keywordsHeat
keywordsHeat flux AND Temperature profiles
treeJournal of Fuel Cell Science and Technology:;2009:;volume( 006 ):;issue: 001
contenttypeFulltext


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