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The use of transition-state theory to extrapolate rate coefficients for reactions of H atoms with alkanes

โœ Scribed by N. Cohen

Publisher
John Wiley and Sons
Year
1991
Tongue
English
Weight
877 KB
Volume
23
Category
Article
ISSN
0538-8066

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โœฆ Synopsis

The thermochemical kinetics formulation of conventional transition state theory has been applied to metathesis reactions of H atoms with a series of alkanes in order to provide a sound framework for the intercomparison of experimental data, and also to extrapolate rate coefficients to temperature regimes that may lie beyond the range of experiments. The calculations require a value for the rate coefficient at some temperature, necessitating a discussion of the extant experimental data and their reliability. The procedures are described, the results of the calculations are presented, and their agreement with experimental data (for methane, ethane, propane, butane, pentane, isobutane, cyclopropane, cyclohexane, neopentane, neooctane, and 2,2,3-trimethylbutane) is discussed. A general expression for reactions of H with large (more than 4 carbons) alkanes is proposed: K(T) = 5.4 x 103n,TZ0 exp(-3540/T) + 4.7 x 103nsTZZ exp(-2640/T) + 3.7 x 103n,TZ0 exp(-970/T), where n,,, ns, and n, are the numbers of primary, secondary, and tertiary H atoms available for abstraction.

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