A comprehensive modeling study of hydrogen oxidation |
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| Authors: | Marcus
Conaire,Henry J. Curran,John M. Simmie,William J. Pitz,Charles K. Westbrook |
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| Affiliation: | Marcus Ó Conaire,Henry J. Curran,John M. Simmie,William J. Pitz,Charles K. Westbrook |
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| Abstract: | A detailed kinetic mechanism has been developed to simulate the combustion of H2/O2 mixtures, over a wide range of temperatures, pressures, and equivalence ratios. Over the series of experiments numerically investigated, the temperature ranged from 298 to 2700 K, the pressure from 0.05 to 87 atm, and the equivalence ratios from 0.2 to 6. Ignition delay times, flame speeds, and species composition data provide for a stringent test of the chemical kinetic mechanism, all of which are simulated in the current study with varying success. A sensitivity analysis was carried out to determine which reactions were dominating the H2/O2 system at particular conditions of pressure, temperature, and fuel/oxygen/diluent ratios. Overall, good agreement was observed between the model and the wide range of experiments simulated. © 2004 Wiley Periodicals, Inc. Int J Chem Kinet 36: 603–622, 2004 |
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