INIS
control
100%
performance
85%
jets
76%
fans
51%
injection
51%
compressors
48%
actuators
37%
dynamics
34%
margins
29%
velocity
23%
surfaces
23%
rotors
22%
aerodynamics
21%
investigations
21%
length
20%
parametric analysis
19%
feedback
17%
roughness
17%
latent heat storage
17%
solar space heating
17%
turbine blades
17%
casings
17%
wind turbines
17%
heat transfer
17%
fins
17%
electronic equipment
17%
rotation
15%
disturbances
12%
power
11%
energy
11%
depth
10%
heat
10%
comparative evaluations
9%
reduction
8%
speed
8%
leakage
8%
shear
8%
vortices
7%
peaks
7%
correlations
6%
phase change materials
6%
design
6%
layers
6%
walls
6%
screens
5%
particles
5%
images
5%
configuration
5%
wind tunnels
5%
decomposition
5%
Engineering
Axial-Flow Compressors
51%
Performance
51%
Stages
36%
Compressor Performance
35%
Models
33%
Thruster
24%
Satellites
20%
Velocity
17%
Mechanisms
17%
Wings
17%
Rotating Stall
17%
Roughness
17%
Surfaces
17%
Latent Heat Storage
17%
Blade Tip
17%
Water
17%
Axial Flow Fan
17%
Skew Angle
17%
Electric Propulsion
17%
Heat Transfer Enhancement for Application
17%
Electronic Devices
17%
Experimental Investigation
17%
Reduction
15%
Pressure Rise
15%
Length Scale
14%
Spacecraft
13%
Propulsion System
13%
Flow Characteristic
10%
Vortex
9%
Aerodynamic Performance
8%
Fan Performance
8%
Counterclockwise
8%
Rotor Speed
8%
Demonstrates
8%
Relative Humidity
8%
Actuation
8%
Compressor
8%
Evaporative Cooling
8%
Rotor Blade
7%
Fields
6%
Transforms
6%
Rotors
6%
Applications
6%
Design Speed
5%
Crosscorrelation
5%
Simulation
5%
Power Spectrum
5%
Turbulence
5%
Determines
5%
Blade Profile
5%
Physics
Rotation
34%
Axial Flow
34%
Distortion
21%
Lithium-Ion Batteries
17%
Protuberance
17%
Injection
17%
Flow Control
17%
Battery
17%
Cooling
10%
Temperature
10%
Counters
8%
Injector
8%
Vehicle
6%
Wavelet Analysis
6%
