A comparative study on the sooting tendencies of various 1-alkene fuels in counterflow diffusion flames

Keyphrases

• Ethylene 100%
• Counterflow Diffusion Flame 100%
• Sooting Tendency 100%
• 1-alkenes 100%
• Propylene 75%
• Cyclohexane 75%
• PAH Formation 75%
• Numerical Simulation 50%
• Soot Formation 50%
• Laser-induced Incandescence 50%
• Carbon number 50%
• 1-butene 50%
• 1-octene 50%
• Numerical Results 25%
• Simulation Experiment 25%
• Detection Wavelength 25%
• Chemical Kinetic Model 25%
• Soot 25%
• Propene 25%
• Allyl 25%
• Laser-induced Fluorescence Technique 25%
• Observed Trends 25%
• Species Formation 25%
• Alkenes 25%
• Rate of Production Analysis 25%
• Indenyl 25%
• Cyclopentadienone 25%
• Saturated Hydrocarbons 25%
• Laser-induced Fluorescence 25%
• 1-hexene 25%
• Propargyl 25%
• Formation Pathway 25%
• Intermediate Species 25%
• Transportation Fuels 25%
• 1-pentene 25%
• PAH Growth 25%
• Growth Chemistry 25%
• Aromatic Species 25%
• Concentration Difference 25%
• Pentene-1 25%
• Aromatics Formation 25%
• Hexene-1 25%

Chemistry

• Diffusion Flame 100%
• Alkene 100%
• Ethylene 80%
• Laser Induced Fluorescence Spectroscopy 40%
• Carbon Number 40%
• Chemical Kinetics Characteristics 40%
• Propene 20%
• Cyclopentadienyl 20%
• 1-Hexene 20%
• Octene 20%
• Butene 20%

Chemical Engineering

• Olefin 100%
• Polycyclic Aromatic Hydrocarbon 80%
• Propylene 20%
• Ethylene 20%
• Butene 20%