Vv. Lissianski et al., A GENERALIZED INTERMEDIATE APPROACH TO COMBUSTION CHEMISTRY - APPLICATION TO METHANE IGNITION AND FLAME PROPAGATION, Combustion science and technology, 111, 1995, pp. 169-183
A chemical reaction mechanism for methane combustion was developed by
a method different in principle from previous efforts that start from
detailed chemistry and use steady-state and other approximations. It d
escribes, accurately and with the same parameter set, such different p
henomena as flames and high and intermediate temperature ignition. The
approach used for chemistry simplification resolves the main features
of hydrocarbon oxidation into steps, each with simple kinetic sense,
describing thermal decomposition of fuel, true and degenerate chain br
anching, propagation, termination, and the formation of final products
. Rate coefficient expressions for elementary reactions were taken fro
m the literature, while those of generalized reactions were optimized
using an automated regression procedure against ignition and flame spe
ed data. The predicted composition and pressure dependences for igniti
on and combustion of methane and methane-ethane mixtures are in good a
greement with experiment.