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Turbulent shear flow over complex surfaces: An experimental study
A.J. Greidanus
Fluid Mechanics
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Dissertation (TU Delft)
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Dive into the research topics of 'Turbulent shear flow over complex surfaces: An experimental study'. Together they form a unique fingerprint.
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INIS
acceleration
41%
amplitudes
25%
angular momentum
8%
assessments
16%
balances
8%
boundary layers
8%
coating (surface)
25%
coatings
50%
correlations
8%
couette flow
16%
coupling
8%
cylinders
16%
deceleration
8%
deformation
16%
drag
100%
dynamics
8%
energy
8%
fluctuations
41%
fluids
16%
houses
8%
increasing
8%
interactions
8%
investigations
8%
layers
8%
modulation
16%
motion
8%
periodicity
8%
power
16%
reduction
8%
reynolds number
25%
rotation
25%
scaling
16%
shear
100%
solutions
8%
steady-state conditions
8%
stiffness
8%
surfaces
100%
thickness
8%
trains
33%
turbulent flow
41%
velocity
83%
walls
41%
water
16%
wave propagation
8%
Engineering
Azimuthal
10%
Azimuthal Direction
10%
Bulk Velocity
10%
Coating Surface
30%
Compliant Wall
10%
Couplings
10%
Cylinder Surface
10%
Determines
10%
Dimensionless
10%
Energy Engineering
10%
Experiments
10%
Facilities
10%
Flow Condition
10%
Fluctuations
10%
Fluid
20%
Frictional Drag
60%
Houses
10%
Initiate Flow
10%
Local Acceleration
10%
Models
20%
Momentum Balance
10%
Normal Velocity
10%
Operational Condition
10%
Pressure Fluctuation
30%
Reduction
10%
Reynolds Stress
10%
Reynolds' Number
20%
Scaling
10%
Scaling Parameter
10%
Shear Flow
100%
Smooth Surface
10%
State Solution
10%
Surface Deformation
10%
Tunnels
30%
Turbulent Boundary Layer
10%
Turbulent Flow
50%
Velocity
30%
Velocity Fluctuation
10%
Viscous Sublayer
10%
Visualization
10%