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Three dimensional mesoscopic scale simulations of buoyancy driven flow and heat mass transfer through randomly packed fiber boards
Yan Su, Tiniao Ng, Jane H. Davidson
Mechanical Engineering
Research output
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Contribution to journal
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Article
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peer-review
7
Scopus citations
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Physics & Astronomy
buoyancy-driven flow
100%
mass transfer
58%
porosity
46%
heat
42%
fibers
36%
simulation
24%
heat transfer
20%
Biot number
18%
stagnation point
15%
Nusselt number
13%
buoyancy
13%
fluid flow
12%
flow distribution
10%
grids
10%
temperature distribution
10%
velocity distribution
10%
trends
9%
vortices
9%
temperature
3%
Chemical Compounds
Buoyancy
93%
Mass Transfer
53%
Heat
47%
Flow
41%
Fiber
41%
Simulation
40%
Porosity
29%
Heat Transfer
27%
Nusselt Number
22%
Biot Number
22%
Sherwood Number
20%
Velocity
10%
Pore
8%
Engineering & Materials Science
Buoyancy
69%
Mass transfer
57%
Porosity
44%
Fibers
43%
Hot Temperature
30%
Heat transfer
17%
Nusselt number
13%
Flow patterns
12%
Flow of fluids
11%
Vortex flow
11%
Temperature distribution
10%
Temperature
5%