Experimental and kinetic modeling investigation on anisole pyrolysis: Implications on phenoxy and cyclopentadienyl chemistry

Keyphrases

• Anisole 100%
• Aromatic Products 33%
• Aromatics Formation 16%
• Benzene 16%
• Benzofuran 16%
• Bimolecular Reactions 33%
• Bond Dissociation 16%
• Combustion 33%
• Combustion Parameters 16%
• Cyclopentadienone 100%
• Decomposition Pathway 16%
• Detailed Kinetic Model 16%
• Dibenzofuran 16%
• Dissociation Reaction 16%
• Experimental Modeling 100%
• Flow Reactor Pyrolysis 33%
• Formation Pathway 16%
• Formation Process 16%
• Fuel Decomposition 16%
• High Temperature 16%
• Ignition Delay 16%
• Jet-stirred Reactor 16%
• Kinetic Model 100%
• Low Temperature 33%
• Methyl Radical 16%
• Modeling Analysis 16%
• Naphthalene 16%
• Oxygenated Aromatics 16%
• Phenoxy 100%
• Phenoxy Radical 16%
• Pyrolysis 100%
• Speciation 16%
• Speciation Profiles 16%
• Styrene 16%
• Synchrotron Vacuum Ultraviolet Photoionization Mass Spectrometry 16%
• Time Profile 16%
• Toluene 16%
• Unimolecular 16%
• Unimolecular Decomposition 16%

Chemistry

• Anisole 100%
• Benzofuran 16%
• Bimolecular Reaction 33%
• Chemical Decomposition 16%
• Chemical Kinetics Characteristics 16%
• Cyclopentadienyl 100%
• Dibenzofuran 16%
• Dissociation Reaction 16%
• Jet 16%
• Naphthalene 16%
• Photoionization Mass Spectrometry 16%
• Pyrolysis 100%
• Pyrolysis Reactor 33%
• Stirred Reactor 16%
• Styrene 16%

Chemical Engineering

• Mass Spectrometry 33%
• Naphthalene 33%
• Pyrolysis 100%
• Pyrolysis Reactor 100%
• Styrene 33%