Engineering
Drag Reduction
100%
Experimental Investigation
100%
Turbulence
100%
Performance
100%
Mechanisms
66%
Consensus
66%
Experiments
66%
Reynolds' Number
33%
Turbulent Boundary Layer
33%
Measurement
33%
Control Flow
33%
Array Configuration
33%
Measures
33%
Particle Image Velocimetry
33%
Friction
33%
Turbulent Skin Friction
33%
Design Parameter
33%
Layer Flow
33%
Low Speed
33%
Direct Force Measurement
33%
Cycles
33%
Numerical Study
33%
Reduction
33%
Velocity Field
33%
Energy Engineering
33%
Keyphrases
Drag Performance
100%
Chevron
100%
Wall-bounded Turbulence
100%
Protrusion
100%
Drag Reduction
75%
Working Mechanism
50%
Particle Image Velocimetry
25%
Reynolds number
25%
Low-speed Streak
25%
Turbulent Boundary Layer Flow
25%
Design Parameters
25%
Velocity Field
25%
Friction
25%
Drag Increase
25%
Reduction Potential
25%
Skin Friction Drag
25%
Turbulence
25%
Array Configuration
25%
Force Measurement
25%
Direct Force Measurement
25%
Near-wall
25%
PIV Experiment
25%
Passive Flow Control
25%
Flow Control Technique
25%
Individual Design
25%
INIS
turbulence
100%
investigations
100%
performance
100%
walls
100%
drag
100%
reduction
44%
configuration
33%
friction
22%
control
11%
boundary layers
11%
design
11%
energy
11%
particles
11%
skin
11%
speed
11%
images
11%
reynolds number
11%
numerical analysis
11%
velocity
11%
data
11%
balances
11%
sizing
11%
Material Science
Friction
100%
Turbulence
100%
Turbulent Boundary Layer
50%
Velocity
50%
Cast
50%
Control Flow
50%
Particle Image Velocimetry
50%
Chemical Engineering
Force Measurement
100%
Velocity Measurement
50%