!****************************************************************************
!
! 34-species reduced mechanism
! genrated by: Tianfeng Lu, tlu@engr.uconn.edu
! University of Connecticut
! 20-Dec-2017
!
! based on
!
! HyChem model for Jet A POSF10325 (A2)
! Version 2.5 - High temperature chemistry with a NTC submodel added
!
! Copyright © 2018 HyChem
!
!****************************************************************************
!
! HyChem model for Jet A POSF10325 (A2)
! Version 2.5 - High temperature chemistry with a NTC submodel added
!
! H. Wang, R. Xu, K. Wang, C.T. Bowman, D.F. Davidson, R.K. Hanson, 
! K. Brezinsky, F.N. Egolfopoulos, A physics-based approach to modeling 
! real-fuel combustion chemistry - I. Evidence from experiments, and 
! thermodynamic, chemical kinetic and statistical considerations, 
! Combustion and Flame 193 (2018) 502-519.
!
! R. Xu, K. Wang, S. Banerjee, J. Shao, T. Parise, Y. Zhu, S. Wang, 
! A. Movaghar, D.J. Lee, R. Zhao, X. Han, Y. Gao, T. Lu, K. Brezinsky, 
! F.N. Egolfopoulos, D.F. Davidson, R.K. Hanson, C.T. Bowman, H. Wang, 
! A physics-based approach to modeling real-fuel combustion chemistry - 
! II. Reaction kinetic models of jet and rocket fuels, 
! Combustion and Flame 193 (2018) 520-537.
!
! Please contact Hai Wang at haiwang@stanford.edu for questions and comments.
!
! Copyright © 2018 HyChem
!
!****************************************************************************
!
! Model description: Eight reaction steps to describe Jet A POSF10325
! high-temperature thermal decomposition. Additional eight reaction steps
! are added to describe the low-temperature fuel oxidation chemistry.
!
! The high-temperature pyrolysis products are considered as C2H4, H2, CH4,
! C3H6, 1-C4H8, i-C4H8, benzene, tuluene, CH3 and H. The oxidation kinetics
! of these cracking products are described by USC Mech IIa.
!
!****************************************************************************
ELEMENTS
O H C N 
END
SPECIES
POSF10325       	C2H4            	CH4             	C3H6            
iC4H8           	C4H81           	H2              	C2H6            
CO              	C6H6            	C2H2            	C6H5CH3         
CH3             	O2              	H               	OH              
HO2             	O               	H2O             	H2O2            
CH2O            	CO2             	CH2CO           	aC3H5           
c-C4H5          	C5H4O           	C5H5            	C6H5CH2         
C6H5O           	C6H5CHO         	A2C11H21        	A2C11H20        
A2C11H20O3      	N2              	
END
REACTIONS
END