Reaction mechanism for the free-edge oxidation of soot by O2

The reaction pathways for the oxidation by O2 of polycyclic aromatic hydrocarbons present in soot particles are investigated using density functional theory at B3LYP/6-311++G(d,p) level of theory. For this, pyrene radical (4-pyrenyl) is chosen as the model molecule, as most soot models present in th...

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Published in	Combustion and flame Vol. 159; no. 11; pp. 3423 - 3436
Main Authors	Raj, Abhijeet, da Silva, Gabriel Robert, Chung, Suk Ho
Format	Journal Article
Language	English
Published	Amsterdam Elsevier Inc 01.11.2012 Elsevier
Subjects	Applied sciences Carbon Carbon dioxide Carbon monoxide Combustion. Flame Density functional theory Energy Energy. Thermal use of fuels Exact sciences and technology Kinetic mechanism Oxidation PAH Pathways Radicals Rings (mathematics) Soot Theoretical studies. Data and constants. Metering Transition state theory Density functional theory Kinetic mechanism Transition state theory Oxidation PAH Soot Exothermic reaction Carbon dioxide Combustion Polycyclic aromatic compound Flame propagation Pyrene Reaction mechanism Density functional method Flame structure Kinetics Activation energy
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Abstract	The reaction pathways for the oxidation by O2 of polycyclic aromatic hydrocarbons present in soot particles are investigated using density functional theory at B3LYP/6-311++G(d,p) level of theory. For this, pyrene radical (4-pyrenyl) is chosen as the model molecule, as most soot models present in the literature employ the reactions involving the conversion of 4-pyrenyl to 4-phenanthryl by O2 and OH to account for soot oxidation. Several routes for the formation of CO and CO2 are proposed. The addition of O2 on a radical site to form a peroxyl radical is found to be barrierless and exothermic with reaction energy of 188kJ/mol. For the oxidation reaction to proceed further, three pathways are suggested, each of which involve the activation energies of 104, 167 and 115kJ/mol relative to the peroxyl radical. The effect of the presence of H atom on a carbon atom neighboring the radical site on the energetics of carbon oxidation is assessed. Those intermediate species formed during oxidation with seven-membered rings or with a phenolic group are found to be highly stable. The rate constants evaluated using transition state theory in the temperature range of 300–3000K for the reactions involved in the mechanism are provided.
AbstractList	The reaction pathways for the oxidation by O2 of polycyclic aromatic hydrocarbons present in soot particles are investigated using density functional theory at B3LYP/6-311++G(d,p) level of theory. For this, pyrene radical (4-pyrenyl) is chosen as the model molecule, as most soot models present in the literature employ the reactions involving the conversion of 4-pyrenyl to 4-phenanthryl by O2 and OH to account for soot oxidation. Several routes for the formation of CO and CO2 are proposed. The addition of O2 on a radical site to form a peroxyl radical is found to be barrierless and exothermic with reaction energy of 188 kJ/mol. For the oxidation reaction to proceed further, three pathways are suggested, each of which involve the activation energies of 104, 167 and 115 kJ/mol relative to the peroxyl radical. The effect of the presence of H atom on a carbon atom neighboring the radical site on the energetics of carbon oxidation is assessed. Those intermediate species formed during oxidation with seven-membered rings or with a phenolic group are found to be highly stable. The rate constants evaluated using transition state theory in the temperature range of 300-3000 K for the reactions involved in the mechanism are provided. The reaction pathways for the oxidation by O2 of polycyclic aromatic hydrocarbons present in soot particles are investigated using density functional theory at B3LYP/6-311++G(d,p) level of theory. For this, pyrene radical (4-pyrenyl) is chosen as the model molecule, as most soot models present in the literature employ the reactions involving the conversion of 4-pyrenyl to 4-phenanthryl by O2 and OH to account for soot oxidation. Several routes for the formation of CO and CO2 are proposed. The addition of O2 on a radical site to form a peroxyl radical is found to be barrierless and exothermic with reaction energy of 188kJ/mol. For the oxidation reaction to proceed further, three pathways are suggested, each of which involve the activation energies of 104, 167 and 115kJ/mol relative to the peroxyl radical. The effect of the presence of H atom on a carbon atom neighboring the radical site on the energetics of carbon oxidation is assessed. Those intermediate species formed during oxidation with seven-membered rings or with a phenolic group are found to be highly stable. The rate constants evaluated using transition state theory in the temperature range of 300–3000K for the reactions involved in the mechanism are provided.
Author	Raj, Abhijeet Chung, Suk Ho da Silva, Gabriel Robert
Author_xml	– sequence: 1 givenname: Abhijeet surname: Raj fullname: Raj, Abhijeet email: abhijeet.raj@kaust.edu.sa organization: Clean Combustion Research Center, King Abdullah University of Science and Technology, Thuwal, Saudi Arabia – sequence: 2 givenname: Gabriel Robert surname: da Silva fullname: da Silva, Gabriel Robert organization: Department of Chemical and Biomolecular Engineering, The University of Melbourne, Victoria, Australia – sequence: 3 givenname: Suk Ho surname: Chung fullname: Chung, Suk Ho organization: Clean Combustion Research Center, King Abdullah University of Science and Technology, Thuwal, Saudi Arabia
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Keywords	Density functional theory Kinetic mechanism Transition state theory Oxidation PAH Soot Exothermic reaction Carbon dioxide Combustion Polycyclic aromatic compound Flame propagation Pyrene Reaction mechanism Density functional method Flame structure Kinetics Activation energy
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Snippet	The reaction pathways for the oxidation by O2 of polycyclic aromatic hydrocarbons present in soot particles are investigated using density functional theory at...
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SubjectTerms	Applied sciences Carbon Carbon dioxide Carbon monoxide Combustion. Flame Density functional theory Energy Energy. Thermal use of fuels Exact sciences and technology Kinetic mechanism Oxidation PAH Pathways Radicals Rings (mathematics) Soot Theoretical studies. Data and constants. Metering Transition state theory
Title	Reaction mechanism for the free-edge oxidation of soot by O2
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