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JetSurF 1.0-ls Download: Mechanism, Thermochemical,
and Transport
Databases in ChemKin format. Release notes: JetSurF
1.0-ls features ·
a 96-species
skeletal USC-Mech II reaction
model for small hydrocarbon pyrolysis and oxidation generated by Direct Relation
Graph (DRG) method developed by Tianfeng Lu and
Chung K. Law. ·
JetSurF
1.0-l: a lumped model of 9-species for n-CxH2x+2 (12 ≥ x ≥ 5, less undecane)
cracking to form C1-C4 fragments. Selected validation tests reported by Professor Tianfeng Lu of ·
n-Dodecane, n-nonane and n-heptane oxidation in air in a perfectly stirred reactor. ·
Homogeneous ignition of n-dodecane-, n-nonane- and n-heptane-air
mixtures. It is possible to reduce the skeletal USC-Mech II
to obtain a fully reduced model for CFD applications. Please
cite JetSurF 1.0-ls as follows: “JetSurF 1.0-ls1
is a simplified version of JetSurF 1.0.2 It features a lumped model for n-alkane References 1. B. Sirjean, E. Dames, D. A. Sheen, H. Wang,
T. F. Lu, C. K. Law, JetSurF 1.0-ls: Simplified chemical kinetic models for high-temperature
oxidation of C5 to C12
nalkanes,
September 15, 2009 (http://melchior.usc.edu/JetSurF1.0/JetSurF1.0-ls); 2. B. Sirjean, E. Dames, D. A. Sheen, X.-Q. You,
C. Sung, A. T. Holley, F. N. Egolfopoulos, H. Wang, S. S. Vasu,
D. F. Davidson, R. K. Hanson, C. T. Bowman, K. Andrew, C. K. Law, W. Tsang,
N. P. Cernansky, D. L. Miller, A. Violi, R. P. Lindstedt, A high-temperature
chemical kinetic model of n-alkane
oxidation, JetSurF version 1.0, September 15, 2009 (http://melchior.usc.edu/JetSurF1.0). 3. H. Wang, X. You, A. V. Joshi, S. G. Davis,
A. Laskin, F. Egolfopoulos, C. K. Law,
USC Mech |