Experimental and modelling study of 1CH2 in premixed very rich methane flames

Alexey Fomin, Tatyana Zavlev, Vladimir A. Alekseev, Igor Rahinov, Sergey Cheskis, Alexander A. Konnov

פרסום מחקרי: פרסום בכתב עתמאמרביקורת עמיתים


Stoichiometric and very rich (1.5 ≤ ɸ ≤ 1.9) laminar flat flames of methane have been investigated using nonintrusive laser diagnostics. Premixed CH4 + O2 + N2 flames were stabilized at a pressure of 30 ± 0.3 Torr. Temperature profiles were obtained using laser-induced fluorescence of OH. Absolute concentration profiles of singlet methylene, 1CH2, were measured by intracavity laser absorption spectroscopy. Uncertainties of the relative and absolute concentrations of singlet methylene were evaluated to be about ±10% and ±30%, respectively. These new experimental data were compared with predictions of three detailed kinetic mechanisms: GRI-mech. 3.0, Aramco mech. 1.3, and the model under development in Lund. In the last mechanism 78 rate constants of reactions along the pathway CH3 → 1CH2 → 3CH2 → CH were reviewed and updated. No adjustment or tuning of the rate expressions to accommodate experimental results was attempted. GRI-mech. significantly overpredicts singlet methylene concentrations in all flames. Aramco mech. and the present model are in good agreement with the measurements in stoichiometric flame, while in all rich flames only the present mechanism reproduces spatial profiles of 1CH2. Detailed analysis of the behaviour of these models revealed that omission of the reaction 1CH2 + M = 3CH2 + M is the main reason of the discrepancy between predictions of the Aramco 1.3 and GRI-mech. 3.0 and experimental 1CH2 concentrations in rich flames.

שפה מקוריתאנגלית
עמודים (מ-עד)198-210
מספר עמודים13
כתב עתCombustion and Flame
מזהי עצם דיגיטלי (DOIs)
סטטוס פרסוםפורסם - 1 ספט׳ 2016

הערה ביבליוגרפית

Funding Information:
The authors would like to acknowledge financial support from the Centre for Combustion Science and Technology (CECOST). SC acknowledges the support of the Israel Science Foundation (Grant no. 1149/12 ). SC and IR acknowledge the support of the Ministry of National Infrastructures, Energy and Water Resources (Grant no 21511034 ), IR acknowledges the support from the Research Authority of the Open University of Israel (Grant no. 47324 ).

טביעת אצבע

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