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Numerical investigation of the turbulent boundary layer over a bump
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
57
Scopus citations
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Dive into the research topics of 'Numerical investigation of the turbulent boundary layer over a bump'. Together they form a unique fingerprint.
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Mathematics
Turbulent Boundary Layer
100%
Numerical Investigation
74%
Turbulence
71%
Large Eddy Simulation
55%
Eddy Viscosity
38%
Internal Layers
35%
Pressure Gradient
32%
Flat Plate
32%
Boundary Layer
23%
Prediction
20%
Flow Separation
20%
Energy Transfer
18%
Skin Friction
16%
Model
16%
Prediction Model
16%
Shear Stress
16%
Percentage
14%
Stokes Equations
14%
Dissipation
12%
Recovery
12%
Reverse
12%
Decrease
11%
Decay
10%
Grid
10%
Curvature
9%
Calculate
9%
Perturbation
8%
Energy
8%
Range of data
7%
Demonstrate
7%
Closed
7%
Coefficient
6%
Physics & Astronomy
turbulent boundary layer
68%
turbulence
48%
large eddy simulation
42%
eddy viscosity
32%
flat plates
26%
pressure gradients
25%
boundary layers
22%
predictions
20%
two dimensional boundary layer
19%
shear
17%
flow separation
16%
trailing edges
15%
skin friction
15%
detachment
13%
upstream
12%
shear stress
11%
grids
10%
energy transfer
10%
recovery
10%
dissipation
10%
curvature
9%
perturbation
8%
decay
7%
coefficients
6%
energy
3%
Engineering & Materials Science
Boundary layers
59%
Turbulence
57%
Large eddy simulation
42%
Pressure gradient
27%
Viscosity
20%
Skin friction
14%
Shear walls
14%
Flow separation
14%
Energy transfer
14%
Shear stress
11%
Recovery
8%