Analysis of thermal ignition in supersonic flat-plate boundary layers

Physics & Astronomy

• flat plates 100%
• ignition 92%
• boundary layers 83%
• numerical integration 29%
• supersonic boundary layers 20%
• heating 17%
• boundary layer flow 16%
• wall temperature 16%
• free flow 15%
• Mach number 13%
• heat transfer 10%
• activation energy 10%
• interactions 5%
• temperature 4%

Engineering & Materials Science

• Boundary layers 90%
• Ignition 86%
• Hot Temperature 46%
• Heating 19%
• Boundary layer flow 17%
• Flow structure 15%
• Activation energy 14%
• Mach number 13%
• Temperature 11%
• Heat transfer 9%