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Highly-resolved three-dimensional velocity measurements via Dual-Plane Stereo Particle Image Velocimetry (DSPIV) in turbulent flows
John A. Mullin,
Werner J.A. Dahm
Research output
:
Contribution to conference
›
Paper
›
peer-review
5
Scopus citations
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Dive into the research topics of 'Highly-resolved three-dimensional velocity measurements via Dual-Plane Stereo Particle Image Velocimetry (DSPIV) in turbulent flows'. Together they form a unique fingerprint.
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Physics & Astronomy
particle image velocimetry
94%
velocity measurement
88%
turbulent flow
83%
vorticity
44%
tensors
33%
gradients
29%
error analysis
17%
field of view
13%
strain rate
12%
energy dissipation
11%
kinetic energy
11%
spatial resolution
11%
cameras
11%
turbulence
11%
color
10%
configurations
7%
performance
6%
Engineering & Materials Science
Velocity measurement
92%
Turbulent flow
90%
Tensors
53%
Vorticity
20%
Kinetic energy
18%
Error analysis
16%
Strain rate
16%
Turbulence
16%
Energy dissipation
15%
Calibration
13%
Color
12%
Cameras
12%
Earth & Environmental Sciences
particle image velocimetry
100%
turbulent flow
84%
error analysis
16%
field of view
16%
energy dissipation
16%
strain rate
14%
vorticity
14%
kinetic energy
14%
spatial resolution
11%
turbulence
11%
calibration
10%
rate
9%
method
6%