A Detailed Chemical Kinetic Mechanism for Methanol Combustion in Laminar Flames1

dc.contributor.authorHamdane, S
dc.contributor.authorRezgui, Y
dc.contributor.authorGuemini, M
dc.date.accessioned2022-04-27T01:56:08Z
dc.date.available2022-04-27T01:56:08Z
dc.date.issued2011
dc.description.abstractOn the basis of existing detailed kinetic schemes a general and consistent mechanism of the oxi dation of methanol was compiled for computational studies covering a wide range of lean to rich flames. The proposed model, featuring 21 species and 115 reactions, has been validated using three data sets and the com puted reactants, products and intermediates mole fractions. This scheme was compared to those by Held⎯Dryer, Egolfopolous and Pauwels under the same conditions. The developed mechanism predicts well the concentrations of the major reactants, intermediates, and products at all the studied equivalence ratios and it gives the best calculated values, as compared to the other used models, as well. The production rates analysis of selected species allowed the identification of the major formation and depletion pathways. A reac tion path analysis snowed that the main channels in methanol consumption involved H, OH and O attack and the resulting radicals CH2OH and CH3O produced formaldehyde.ar
dc.identifier.issn00231584
dc.identifier.urihttp://hdl.handle.net/123456789/12920
dc.language.isoenar
dc.publisherPleiades Publishing
dc.titleA Detailed Chemical Kinetic Mechanism for Methanol Combustion in Laminar Flames1ar
dc.typeArticlear
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