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Prediction and investigation of the turbulent flow over a rotating disk
Xiaohua Wu,
Kyle Squires
Mechanical and Aerospace Engineering
Research output
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Contribution to journal
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Article
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peer-review
55
Scopus citations
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Mathematics
Rotating Disk
100%
Turbulent Flow
86%
Prediction
56%
Turbulent Boundary Layer
37%
Cross-flow
35%
Large Eddy Simulation
34%
Fluctuations
33%
Structural Model
30%
Shear Stress
30%
Sweep
28%
Buffer
27%
Vortex
24%
Vorticity
24%
Slope
22%
Radial velocity
19%
Structural Similarity
18%
Entrainment
18%
Energy Spectrum
16%
Spatial Correlation
16%
Odd function
15%
Normal Surface
15%
Mass Conservation
15%
Baseline
12%
Reynolds number
12%
Dimensionality
12%
Discrepancy
11%
Momentum
11%
Predict
11%
Boundary Layer
10%
Profile
10%
Similarity
10%
Evidence
9%
Interaction
8%
Three-dimensional
8%
Boundary conditions
7%
Decompose
7%
Physics & Astronomy
rotating disks
81%
turbulent flow
66%
predictions
38%
large eddy simulation
26%
turbulent boundary layer
25%
ejection
24%
vorticity
23%
shear stress
21%
buffers
19%
slopes
17%
two dimensional boundary layer
17%
three dimensional boundary layer
17%
wall pressure
15%
entrainment
13%
radial velocity
11%
upstream
11%
conservation
11%
boundary layers
10%
energy spectra
9%
Reynolds number
9%
decomposition
8%
boundary conditions
8%
momentum
8%
profiles
6%
interactions
4%
Engineering & Materials Science
Rotating disks
91%
Turbulent flow
71%
Boundary layers
39%
Vorticity
32%
Large eddy simulation
31%
Shear stress
26%
Vortex flow
24%
Conservation
13%
Momentum
13%
Reynolds number
11%
Boundary conditions
10%
Decomposition
10%