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Experimental study of the fine-scale structure of conserved scalar mixing in turbulent shear flows. Part 2. Sc ≈ 1
Kenneth A. Buch,
Werner J.A. Dahm
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Article
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peer-review
167
Scopus citations
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Dive into the research topics of 'Experimental study of the fine-scale structure of conserved scalar mixing in turbulent shear flows. Part 2. Sc ≈ 1'. Together they form a unique fingerprint.
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Mathematics
Shear Flow
98%
Experimental Study
96%
Turbulent Flow
93%
Scalar
58%
Dissipation
32%
Scalar Field
26%
Energy Dissipation
14%
Laser
13%
Far Field
13%
Local Solution
12%
Imaging
12%
Rayleigh
12%
Instantaneous
11%
Reynolds number
11%
Transport Equation
11%
Vorticity
11%
Time-varying
10%
Scattering
10%
Scaling
9%
Internal
9%
Gradient
8%
Engineering & Materials Science
Shear flow
100%
Rayleigh scattering
63%
Vorticity
44%
Propane
43%
Energy dissipation
32%
Reynolds number
32%
Imaging techniques
29%
Lasers
29%
Air
21%
Physics & Astronomy
shear flow
76%
scalars
55%
dissipation
26%
turbulent jets
13%
propane
12%
Rayleigh scattering
12%
vorticity
10%
far fields
9%
Reynolds number
9%
energy dissipation
8%
scaling
7%
gradients
7%
air
6%
lasers
4%