Mechanism DOWNLOAD
B - Chemical Kinetic Models ( Methyl esters, DME, H2)

1. Methyl Esters

A chemical kinetic model encompassing the high temperature oxidation chemistry of methyl formate, methyl ethanoate, methyl propanaote, methyl butanoate, methyl pentanoate, methyl hexanoate and methyl decanoate

Updated: June 18th, 2012

Citation


A Comparative Study of the Chemical Kinetic Characteristics of Small Methyl Esters in Diffusion Flame Extinction
Pascal Diévart, Sang Hee Won, Jing Gong, Stephen Dooley, Yiguang Ju
Proceedings of the Combustion Institute, Vol. 34, 2013, accepted for presentation

Contact: Pascal Diévart

For reduced kinetic models, also cite references for "PRINCETON CHEM-RC"

Detailed model

Reduced model for methyl formate to methyl pentanoate

Reduced model for methyl hexanoate

Reduced model for methyl decanoate

Thermo Database

Transport Database

2. Methyl Butanoate and Decanoate

A low and high temperature kinetic model for methyl decanoate and butanoate

Updated: February 16th, 2012

Citation


A kinetic model for methyl decanoate combustion
Pascal Diévart,Sang Hee Won, Stephen Dooley, Frederick L. Dryer, Yiguang Ju
Combustion and Flame, Vol. 157(5), 2012, pp. 1793-1805

Contact: Pascal Diévart

For reduced kinetic models, also cite references for "PRINCETON CHEM-RC"

Detailed model

Reduced model 1

Reduced model 2

Thermo Database

Transport Database

3. A comprehensive high pressure H2/O2 model

A low and high temperature kinetic model for methyl decanoate and butanoate

Updated: June 28th, 2011

Citation


Comprehensive H2/O2 Kinetic Model for High-Pressure Combustion
Michael P. Burke, Marcos Chaos, Yiguang Ju, Frederick L. Dryer, Stephen J. Klippenstein
International journal of Chemical Kinetics, Vol. 44(7), 2012, pp. 444-474

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