Relative influence of soot oxidation kinetics and subfilter soot-turbulence interactions on soot evolution in turbulent nonpremixed flames

Keyphrases

• Non-premixed Flame 100%
• Soot 100%
• Soot Evolution 100%
• Relative Influence 100%
• Soot-turbulence Interaction 100%
• Soot Oxidation 100%
• Kinetic Rate 36%
• Turbulent Transport 36%
• PDF Model 27%
• Lean Mixture 18%
• Non-premixed 9%
• Flame Structure 9%
• Ethylene 9%
• Finite Rate 9%
• Oxidation Kinetics 9%
• Large Eddy Simulation 9%
• Soot Model 9%
• Fast Rates 9%
• Transport Kinetics 9%
• Model Sensitivity 9%
• Turbulent Reacting Flows 9%
• Piloted Jet Flames 9%

Engineering

• Oxidation Kinetics 100%
• Rate Kinetics 100%
• Turbulent Diffusion 100%
• Lean Mixture 50%
• Relative Importance 25%
• Large Eddy Simulation 25%
• Reacting Flow 25%

Chemical Engineering

• Ethylene 100%