10.1021/ef020025e.s014
P. A. Glaude
P. A.
Glaude
V. Conraud
V.
Conraud
R. Fournet
R.
Fournet
F. Battin-Leclerc
F.
Battin-Leclerc
G. M. Côme
G. M.
Côme
G. Scacchi
G.
Scacchi
P. Dagaut
P.
Dagaut
M. Cathonnet
M.
Cathonnet
Modeling the Oxidation of Mixtures of Primary
Reference Automobile Fuels
American Chemical Society
2002
octane rating
reactor
generation
combustion engines
temperature coefficient region
reference fuels
concentration profiles
647 species
conversion
Mixture
Oxidation
mechanism
1100 K
reactivity
Reaction rates analyses
heptane
1150 K
reaction channels
reactants
mixture
Primary Reference Automobile Fuels
oxidation
influence
molecule
2386 reactions
compound
modeling
sensitivity analysis
temperature range
model
2002-07-27 00:00:00
Journal contribution
https://acs.figshare.com/articles/journal_contribution/Modeling_the_Oxidation_of_Mixtures_of_Primary_Reference_Automobile_Fuels/3596010
A kinetic model for the oxidation of mixtures of <i>n</i>-heptane/iso-octane, the primary reference
fuels for octane rating in spark-ignited internal combustion engines, has been written by using
the system of automatic generation of mechanisms developed in Nancy. The relevant mechanism
involves 647 species and includes 2386 reactions. The concentration profiles predicted by this
model have been compared with experimental results obtained in a perfectly jet-stirred reactor
in a temperature range from 580 to 1150 K, which includes the negative temperature coefficient
region. A good agreement has been obtained for both the conversion of reactants and the
distribution of the products formed. Reaction rates analyses have been performed for both
compounds at 650 and 1100 K. A sensitivity analysis and a study of the influence of the structure
of each molecule on the preferential reaction channels have been carried out and have enabled
us to explain the changes in reactivity with the composition of the mixtures studied.