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@ARTICLE{Nishida:841130,
author = {Nishida, R. T. and Beale, S. B. and Pharoah, J. G. and de
Haart, L.G.J. and Blum, L.},
title = {{T}hree-dimensional computational fluid dynamics modelling
and experimental validation of the {J}ülich {M}ark-{F}
solid oxide fuel cell stack},
journal = {Journal of power sources},
volume = {373},
issn = {0378-7753},
address = {New York, NY [u.a.]},
publisher = {Elsevier},
reportid = {FZJ-2017-08230},
pages = {203 - 210},
year = {2018},
abstract = {This work is among the first where the results of an
extensive experimental research programme are compared to
performance calculations of a comprehensive computational
fluid dynamics model for a solid oxide fuel cell stack. The
model, which combines electrochemical reactions with
momentum, heat, and mass transport, is used to obtain
results for an established industrial-scale fuel cell stack
design with complex manifolds. To validate the model,
comparisons with experimentally gathered voltage and
temperature data are made for the Jülich Mark-F, 18-cell
stack operating in a test furnace. Good agreement is
obtained between the model and experiment results for cell
voltages and temperature distributions, confirming the
validity of the computational methodology for stack design.
The transient effects during ramp up of current in the
experiment may explain a lower average voltage than model
predictions for the power curve.},
cin = {IEK-9 / IEK-3},
ddc = {620},
cid = {I:(DE-Juel1)IEK-9-20110218 / I:(DE-Juel1)IEK-3-20101013},
pnm = {135 - Fuel Cells (POF3-135)},
pid = {G:(DE-HGF)POF3-135},
typ = {PUB:(DE-HGF)16},
UT = {WOS:000418392000022},
doi = {10.1016/j.jpowsour.2017.10.030},
url = {https://juser.fz-juelich.de/record/841130},
}
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