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Direct simulations of dense suspensions of non-spherical particles
Orest Shardt
*
,
J. J. Derksen
*
Corresponding author for this work
Engineering
University of Alberta
Research output
:
Contribution to journal
›
Article
›
peer-review
37
Citations (Scopus)
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Chemical Compounds
Sedimentation
75%
Suspension
59%
Simulation
48%
Interstitial
40%
Blood Analysis
28%
Red
26%
Reynolds Number
26%
Force
26%
Volume
22%
Collision
19%
Surface
18%
Flow
12%
Engineering & Materials Science
Sedimentation
100%
Blood
53%
Volume fraction
51%
Cells
37%
Fluids
24%
Agglomeration
16%
Reynolds number
16%
Boundary conditions
14%
Physics & Astronomy
erythrocytes
31%
simulation
29%
interstitials
16%
vertical orientation
14%
Newtonian fluids
10%
particle motion
10%
agglomeration
10%
blood
9%
slip
8%
Reynolds number
8%
boundary conditions
6%
collisions
6%
fluids
5%