Comprehensive Mechanism for Methanol Oxidation
作者:
CHARLESK. WESTBROOK,
FREDERICKL. DRYER,
期刊:
Combustion Science and Technology
(Taylor Available online 1979)
卷期:
Volume 20,
issue 3-4
页码: 125-140
ISSN:0010-2202
年代: 1979
DOI:10.1080/00102207908946902
出版商: Taylor & Francis Group
数据来源: Taylor
摘要:
A detailed chemical kinetic mechanism, involving 26 chemical species and 84 elementary reactions, is proposed for the oxidation of methanol. Within the scope of this mechanism, turbulent flow reactor and shock tube experimental data are used to determine rate expressions for several of the important reactions involving CH3OH and its intermediate product species, CH2OH. Calculations using the proposed mechanism and elementary reaction rates accurately reproduce experimental results over a combined temperature range of 1000-2180K, for fuel-air equivalence ratios between 0.05 and 3.0 and for pressures between 1 and 5 atmospheres. The resulting chemical kinetic model is then employed, together with an unsteady, one-dimensional numerical model for flame propagation, to predict the laminar flame speed of a stoichiometric methanol-air mixture. The calculated laminar flame speed is 44+ 2 cm/ sec and is in good agreement with experimentally observed values.
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