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Numerical study of a flat-tube high power density solid oxide fuel cell: Part I. Heat/mass transfer and fluid flow
Yixin Lu, Laura Schaefer,
Peiwen Li
Aerospace and Mechanical Engineering
Research output
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Contribution to journal
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Article
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peer-review
67
Scopus citations
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Dive into the research topics of 'Numerical study of a flat-tube high power density solid oxide fuel cell: Part I. Heat/mass transfer and fluid flow'. Together they form a unique fingerprint.
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Physics & Astronomy
air
7%
chambers
9%
continuity
12%
energy conservation
13%
flow distribution
20%
fluid flow
82%
heat
56%
mass transfer
77%
momentum
8%
output
7%
performance
5%
radiant flux density
77%
sealing
14%
solid oxide fuel cells
100%
temperature distribution
19%
tubes
61%
Engineering & Materials Science
Air
6%
Energy conservation
9%
Flow fields
20%
Flow of fluids
76%
Hot Temperature
41%
Mass transfer
76%
Momentum
11%
Numerical models
9%
Solid oxide fuel cells (SOFC)
92%
Temperature distribution
20%
Chemical Compounds
Application
6%
Energy Conservation
30%
Flow
27%
Fuel
17%
Heat
63%
Mass Transfer
71%
Momentum
28%
Oxide
34%