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Chain mechanisms in the overall reaction orders in laminar flame propagation

✍ Scribed by F.N. Egolfopoulos; C.K. Law

Book ID
103041125
Publisher
Elsevier Science
Year
1990
Tongue
English
Weight
708 KB
Volume
80
Category
Article
ISSN
0010-2180

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✦ Synopsis

The laminar flame speeds of methane-oxygen-nitrogen mixtures as functions of the flame temperature Tad and system pressure p have been experimentally determined by using the counterflow, twin-flame technique. These data are then compared with numerically-calculated values obtained by using an independently validated kinetic scheme. Results show that the overall reaction order n and activation energy Ea are far from being constants, that n decreases with increasing p and decreasing Tad whereas Ea increases with increasing p, and that n can actually assume negative values; the last result implies that the mass burning rate of some weakly burning flames may decrease with increasing pressure. By further identifying the crucial reaction steps through sensitivity analysis, the present results are interpreted on the basis of the influence of chain branching-termination mechanisms on the overall reaction rate.

πŸ“œ SIMILAR VOLUMES

The overall reaction concept in premixed
The overall reaction concept in premixed, laminar, steady-state flames. II. Initial temperatures and pressures
✍ Terence P. Coffee; Anthony J. Kotlar; Martin S. Miller πŸ“‚ Article πŸ“… 1984 πŸ› Elsevier Science 🌐 English βš– 523 KB

In a previous paper, we examined the adequacy of the overall reaction model for premixed, laminar, onedimensional, steady-state flames. The single reaction model gave quite accurate results for burning velocity. The temperature and heat release profiles were also generally accurate. The accuracy of