INIS
performance
100%
control
59%
jets
52%
fans
48%
compressors
37%
aerodynamics
34%
phase change materials
33%
investigations
31%
reviews
30%
injection
29%
rotors
25%
surfaces
23%
actuators
22%
casings
21%
margins
21%
length
21%
space
20%
velocity
20%
dynamics
19%
wind turbines
19%
fins
19%
disturbances
16%
management
14%
applications
14%
rotation
13%
thrusters
13%
turbine blades
13%
power
13%
design
12%
reduction
11%
parametric analysis
10%
heat transfer
10%
comparative evaluations
9%
feedback
9%
roughness
9%
latent heat storage
9%
solar space heating
9%
electronic equipment
9%
productivity
9%
cutting
9%
ballasts
9%
spacers
9%
grinding
9%
water
9%
hall effect
9%
humidity
9%
propulsion
9%
encapsulation
9%
lithium ion batteries
9%
ingestion
9%
Engineering
Aerodynamic Performance
40%
Axial Flow Fan
38%
Phase Change Material
38%
Flow Separation
37%
Axial-Flow Compressors
29%
Rotors
26%
Length Scale
22%
Compressor Performance
22%
Separation Control
22%
Synthetic Jet Actuator
21%
Actuation
20%
Rotating Stall
19%
Skew Angle
19%
Thermal Performance
19%
Compressed Air Motors
19%
Angle-of-Attack
17%
Experimental Investigation
14%
Thruster
14%
Leading Edge
13%
Performance Improvement
12%
Flow Characteristics
11%
Particle Image Velocimetry
11%
Pressure Rise
11%
Electric Propulsion
9%
Grinding (Machining)
9%
Lithium-Ion Batteries
9%
Blade Tip
9%
Pitch Angle
9%
Free Stream Velocity
9%
Fan Performance
9%
Circumferential
9%
Propulsion System
9%
Static Pressure
9%
Excess Heat
9%
Heat Transfer Enhancement
9%
Relative Humidity
9%
Energy Engineering
9%
Performance Analysis
9%
Lithium-Ion Cell
9%
Feedback Control
9%
Power Input
8%
Vortex
8%
Separated Flow
8%
Proper Orthogonal Decomposition
8%
Boundary Layer
8%
Computer Simulation
8%
Trailing Edge
7%
Control Strategy
6%
Shear Layer
6%
Rotor Blade
5%
