Development of a detailed high-pressure reaction model for methane/methanol mixtures under pyrolytic and oxidative conditions and comparison with experimental data
Document Type
Article
Publication Date
9-15-2003
Abstract
Experimental data of methanol in a flow reactor are obtained under pyrolysis, fuel lean condition (φ = 0.75), and stoichiometric condition (φ = 1.0), and as mixtures with methane; both temperature and pressure are varied. Methanol pyrolysis is studied at 1073 K over a pressure range of 1-10 atm. Methanol oxidation experiments are conducted over a temperature range of 873-1073 K and a pressure range of 1-5 atm. Oxidation experiments on methane/methanol mixtures are performed under total stoichiometric conditions, with ratios of the two fuels from 0:2 to 2:0. Under pyrolytic conditions, the methanol decay rate increases as pressure increases from 1 to 10 atm. The addition of methanol increases the methane oxidation rate nonlinearly up to 1:1 mole ratio for methanol/methane. The rate of CH4 decay is slower above a CH4/CH3OH ratio of 3:1. The maximum decay rate of CH4 occurs at an equimolar concentration of CH4/CH3OH. A pressure-dependent mechanism for the methane/methanol oxidation and pyrolysis reaction system has been developed and compared with experimental data. Pressure- and temperature-dependent rate constants are determined by utilizing quantum RRK (QRRK) combined with "master equation" analysis for falloff on bimolecular (chemical activation) association, addition, and insertion reactions, and in unimolecular dissociation and isomerization reactions. Methanol dissociation reaction channels, transition states (TS), product energies, and structures are calculated at the CBS-APNO level with kinetic parameters for simple bond dissociations estimated by variational transition state theory. © 2003 Elsevier Science B.V. All rights reserved.
Identifier
0037903127 (Scopus)
Publication Title
Fuel Processing Technology
External Full Text Location
https://doi.org/10.1016/S0378-3820(03)00062-6
ISSN
03783820
First Page
111
Last Page
145
Issue
1-3 SPEC.
Volume
83
Fund Ref
Strategic Environmental Research and Development Program
Recommended Citation
Ing, Wen Chiun; Sheng, Chad Y.; and Bozzelli, Joseph W., "Development of a detailed high-pressure reaction model for methane/methanol mixtures under pyrolytic and oxidative conditions and comparison with experimental data" (2003). Faculty Publications. 13985.
https://digitalcommons.njit.edu/fac_pubs/13985
