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Numerical simulation of mass transfer during the osmotic dehydration of biological tissues
Long-Yuan Li
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Corresponding author for this work
Engineering Systems & Supply Chain Management
Research output
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peer-review
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Dive into the research topics of 'Numerical simulation of mass transfer during the osmotic dehydration of biological tissues'. Together they form a unique fingerprint.
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Mathematics
Biological Tissue
100%
Mass Transfer
86%
Numerical Simulation
51%
Convection
33%
Hydrostatic Pressure
26%
Microscope
24%
Driving Force
23%
Balance Equations
21%
Shrinkage
19%
Membrane
17%
Model-based
15%
Gradient
13%
Mathematical Model
12%
Cell
12%
Model
11%
Engineering & Materials Science
Dehydration
84%
Mass transfer
60%
Tissue
58%
Convection
45%
Computer simulation
37%
Cell membranes
30%
Hydrostatic pressure
27%
Microscopes
21%
Mathematical models
15%
Physics & Astronomy
dehydration
84%
mass transfer
62%
convection
29%
simulation
26%
mass balance
21%
hydrostatic pressure
17%
shrinkage
17%
mathematical models
14%
microscopes
13%
gradients
11%
Chemistry
Dehydration
58%
Mass Transfer
56%
Simulation
43%
Volume
39%
Mass Balance
20%
Force
11%
Diffusion
10%
Pressure
9%
Time
6%