Keyphrases
Shock Train
100%
Heat Release
100%
Diffuser
100%
Heat Effect
100%
Large Eddy Simulation
42%
Lasing
42%
Pressure Recovery
28%
Effective Operation
14%
Local Fluctuations
14%
Intensity Scale
14%
Homogeneous Mixture
14%
Back Pressure
14%
Transition to Turbulence
14%
Low Frequency Oscillation
14%
Unsteady Dynamics
14%
Training Dynamics
14%
Reynolds-averaged Navier-Stokes
14%
Low Pressure
14%
RANS Method
14%
Laser System
14%
Turbulent Flow
14%
Fluctuation Intensity
14%
Train Communication Network
14%
Initial Pressure
14%
Ambient Pressure
14%
Shear Layer Thickness
14%
Laminar Flow Conditions
14%
Ejector Technology
14%
Pressure Level
14%
Unsteady Characteristics
14%
Large Oscillations
14%
Laser Gain
14%
High-resolution
7%
Boundary Layer
7%
State Universities
7%
Shock-induced
7%
North Carolina
7%
Engineering
Heat Release
100%
Diffusers
100%
Large Eddy Simulation
60%
Pressure Recovery
40%
Reynolds-Averaged Navier-Stokes
20%
Shear Layer
20%
Laminar Flow Condition
20%
Intensity Fluctuation
20%
Pressure Level
20%
Ejector Technology
20%
Turbulent Flow
20%
Initial Pressure
20%
Laser System
20%
Backpressure
20%
Ambient Pressure
20%
High Resolution
10%
Boundary Layer
10%
Layer Thickness
10%