Consistent kinetic-continuum dissociation model I. Kinetic formulation

Keyphrases

• Dissociation Model 100%
• Internal Energy 100%
• Boltzmann Distribution 100%
• Kinetic Formulation 100%
• Non-equilibrium 66%
• Cross Model 66%
• Non-Boltzmann 66%
• Overpopulation 66%
• Energy State 66%
• Computational Tools 33%
• Dissociation 33%
• Computationally Expensive 33%
• Quasi-classical Trajectory Method 33%
• Potential Energy Surface 33%
• Vibrational States 33%
• Translational Energy 33%
• Simulation Data 33%
• Reduced Rate 33%
• High Air Temperature 33%
• Rotational Energy 33%
• Vibrational Energy 33%
• Non-boltzmann Distribution 33%
• Non-equilibrium Chemistry 33%
• Gasses 33%
• Transient Phase 33%
• Air Chemistry 33%
• Chemical Kinetic Model 33%
• Nonequilibrium Steady State 33%
• Nonequilibrium Dissociation 33%
• Boltzmann Model 33%
• Ab Initio Simulations 33%
• Centrifugal Barrier 33%
• High Energy States 33%

Engineering

• Nonequilibrium 100%
• Boltzmann Distribution 100%
• Internal Energy 75%
• Cross Section 50%
• Energy State 50%
• Nonequilibrium Steady States 25%
• Energy Surface 25%
• Kinetic Model 25%
• Potential Energy 25%
• Boltzmann Equation 25%
• Boltzmann Model 25%
• Additional Cost 25%
• Centrifugal 25%
• Rotational Energy 25%
• Higher energy states 25%

Physics

• Boltzmann Distribution 100%
• Internal Energy 75%
• Physics 25%
• Potential Energy 25%
• Vibrational State 25%
• Nonequilibrium Steady States 25%