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Multiscale modeling of incompressible turbulent flows
T. Y. Hou, X. Hu,
F. Hussain
Mechanical Engineering
Research output
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Contribution to journal
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Article
›
peer-review
10
Scopus citations
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Dive into the research topics of 'Multiscale modeling of incompressible turbulent flows'. Together they form a unique fingerprint.
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Mathematics
Reynolds Stress
100%
Multiscale Modeling
91%
Turbulent Flow
74%
Incompressible Flow
64%
Turbulence Model
56%
Turbulent Channel Flow
36%
Cell
30%
Direct numerical Simulation
29%
Channel Flow
28%
Strain Rate
27%
Multiscale Analysis
27%
Engineering Application
24%
Turbulence
23%
Reynolds number
21%
Homogenization
20%
Recovery
19%
Express
17%
Physics
16%
Closure
16%
Numerical Simulation
15%
Experiment
15%
Model
13%
Invariant
11%
Physics & Astronomy
Reynolds stress
68%
turbulent flow
57%
turbulence models
46%
channel flow
45%
derivation
34%
homogeneous turbulence
26%
incompressible flow
25%
cells
22%
homogenizing
21%
direct numerical simulation
20%
closures
20%
strain rate
17%
Reynolds number
17%
recovery
16%
engineering
15%
physics
12%
simulation
7%
Engineering & Materials Science
Turbulent flow
61%
Channel flow
46%
Turbulence models
40%
Computer simulation
33%
Direct numerical simulation
26%
Incompressible flow
24%
Strain rate
18%
Turbulence
18%
Physics
17%
Reynolds number
17%
Recovery
13%
Experiments
7%