Analysis of thermal ignition in supersonic flat-plate boundary layers

Keyphrases

• Ignition 100%
• Thermal Ignition 100%
• Flat Plate Boundary Layer 100%
• Direct Integration 50%
• Ignition Distance 50%
• Viscous Heating 50%
• Physical Parameters 25%
• Residence Time 25%
• Asymptotic Analysis 25%
• Heat Transfer 25%
• Mach number 25%
• Frozen Zone 25%
• Hot Wall 25%
• Adiabatic Wall 25%
• Non-similar 25%
• Free Stream 25%
• Wall Analysis 25%
• Supersonic Boundary Layer 25%
• Boundary Layer Flow 25%
• Heating Transfer 25%
• Combustible Mixture 25%
• Reaction Region 25%
• Flat Plate 25%
• Flow Structure 25%
• Frozen Temperature 25%
• Activation Energy Asymptotics 25%
• Isothermal Wall 25%
• Ignition Delay Time 25%

Engineering

• Ignition 100%
• Flat Plate Boundary Layer 100%
• Numerical Integration 28%
• Boundary Layer 14%
• Similarities 14%
• Physical Parameter 14%
• Isothermal 14%
• Activation Energy 14%
• Ignition Delay 14%
• Layer Flow 14%
• Free-Stream Mach Number 14%
• Flat Plate 14%
• Flow Structure 14%
• Explicit Expression 14%