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                  HP-Mech    Updated: May 18th, 2017    Download

A high pressure mechanism for H2, CO, CH2O, CH4, CH3OH, C2H2, C2H4, C2H6

with EGR Effects (CO2 and H2O) and HCO prompt reactions

Authors: Xueliang Yang, Xiaobo Shen, Jeffery Santer, Hao Zhao, and Yiguang Ju    

Collaborators
: Michael P. Burke, Emily A. Carter, Stephen Dooley, Fred L. Dryer, Francis M. Haas,

 Stephen Klippenstein, Katharina Kohse-Höinghaus, Dong Liu, Ed Law, Wenting Sun, Ting Tan,

Sheng Yang, Sang Hee Won

 

Citation: http://engine.princeton.edu/mechanism/HP-Mech.html

[1] X. Shen, X. Yang, J. Santner, J. Sun, Y. Ju, Experimental and kinetic studies of acetylene flames at elevated pressures. Proceedings of the Combustion Institute, 35 (2015) 721-728. 

[2] H. Zhao, J. Fu, F.M. Haas, Y. Ju, Effect of prompt dissociation of formyl radical on 1,3,5-trioxane and CH2O laminar flame speeds with CO2 dilution at elevated pressure, Combustion and Flame, 183 (2017) 253–260.

 

Additional papers with different validation targets

[3] M.P. Burke, M. Chaos, Y. Ju, F.L. Dryer, S.J. Klippenstein, Comprehensive H2/O2 Kinetic Model for High-Pressure Combustion  International journal of Chemical Kinetics 44 (2012) 444-474.

[4] S. Yang, X. Yang, F. Wu, Y. Ju, C.K. Law. Laminar flame speeds and kinetic modeling of H2/O2/diluent mixtures at sub-atmospheric and elevated pressures, Proceedings of the Combustion Institute 36 (2017) 491-498.

[5] J. Santner, F.L. Dryer, Y Ju, The effects of water dilution on hydrogen, syngas, and ethylene flames at elevated pressure, Proceedings of the Combustion Institute 34 (2013) 719-726.

[6] J. Santner, F.M. Haas, F.L. Dryer, and Y. Ju, High temperature oxidation of formaldehyde and formyl radical: A study of 1, 3, 5-trioxane laminar burning velocities, Proceedings of the Combustion Institute 35 (2015) 687-694.

[7] D. Liu, J. Santner, C. Togbé, D. Felsmann, J. Koppmann, A. Lackner, X. Yang, X. Shen, Y. Ju, K. Kohse-HöinghausFlame structure and kinetic studies of carbon dioxide-diluted dimethyl ether flames at reduced and elevated pressures. Combustion and Flame 160 (2013) 2654-2668.

[8] X. Yang, D. Felsmann, N. Kurimoto, J. Krüger, T. Wada, T. Tan, E.A. Carter, K. Kohse-Höinghaus, Y. Ju. Kinetic studies of methyl acetate pyrolysis and oxidation in a flow reactor and a low-pressure flat flame using molecular-beam mass spectrometry, Proceedings of the Combustion Institute 35 (2015) 491-498.

[9] H. Zhao, X. Yang, Y. Ju, Kinetic studies of ozone assisted low temperature oxidation of dimethyl ether in a flow reactor using molecular-beam mass spectrometry, Combustion and Flame 173 (2016) 187-194.  

[10] J Santner, X Yang, D Chen, Q Wang, Y Ju, X Shen, HP-Mech: A High Pressure Kinetic Mechanism for C2 Flames with Exhaust Gas Dilution, 53rd AIAA Aerospace Sciences Meeting  (2015).