期刊
COMBUSTION AND FLAME
卷 157, 期 10, 页码 1929-1941出版社
ELSEVIER SCIENCE INC
DOI: 10.1016/j.combustflame.2010.03.013
关键词
NCN; Prompt-NO; Cavity ring-down spectroscopy; Laser-induced fluorescence; Flame
类别
资金
- ANR [BLAN08-3_350752]
- IRENI (Institut de Recherche en ENvironnement Industriel)
- Nord-Pas de Calais Region
- European Funds for Regional Economic Development
We report an experimental and modeling study on prompt-NO formation in low-pressure (5.3 kPa) premixed flames. Special emphasis is given to the quantitative detection (and prediction) of NCN, whose role in prompt-NO formation has recently been confirmed in alkane flames. Here a rich (Phi = 1.25) CH4-O-2-N-2 flame and rich (Phi = 1.25) and stoichiometric C2H2-O-2-N-2 flames have been investigated. Absolute concentration profiles of CH and NCN radicals and NO species are obtained by combining laser-induced fluorescence (LIF) and cavity ring-down spectroscopy (CRDS). Temperature profile is determined in each flame using OH and NO-LIF thermometry. Flame modeling is performed to determine the role of NCN in prompt-NO formation and to test the capacity of the present chemical mechanisms to predict some intermediate species involved in prompt-NO formation. The methane flame is modeled using GDFkin (R) 3.0_NCN mechanism [El Bakali et al., Fuel 85 (2006), 896-909]. The acetylene flames are modeled using the Lindstedt and Skevis C/H/O mechanism [Lindstedt and Skevis, Proc. Combust. Inst. 28 (2000), 1801-1807], completed by the submechanism issued from GDFkie (R) 3.0_NCN for nitrogen chemistry. This submechanism includes the initiation reaction CH + N-2 = NCN + H. Rate constants of NO-sensitive reactions of the submechanism are modified by taking into account the recent literature. In particular, the C2O route could be explored thanks to a significant presence of C2O in acetylene flames. Globally, the modified submechanism of nitrogen chemistry coupled with the two hydrocarbon mechanisms leads to a satisfying prediction of NCN and NO mole fraction profiles, even though refinements of rate constant determination is still required. The role of NCN in prompt-NO formation in acetylene flames is demonstrated. (C) 2010 The Combustion Institute. Published by Elsevier Inc. All rights reserved.
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