Inhibition of a fuel lean ethylene/air flame in a jet stirred combustor by methyl chloride: Experimental and mechanistic analyses
Document Type
Article
Publication Date
11-1-1990
Abstract
Probability density functions (PDFs) of instantaneous temperature have been obtained for fuel lean C2H4/air burning in a toroidal jet stirred combustor (TJSC) using pulsed laser Rayleigh scattering. The PDFs provide a very sensitive measure of departures from perfectly stirred reactor (PSR) behavior. Narrow PDFs were obtained under stable operating conditions. As the mean combustion temperature was reduced or the reaction kinetics decelerated by the addition of CH3C1, the PDFs exhibited a bimodal distribution indicative of localized blowout. Modeling of the reactions indicates that chlorine primarily destabilizes this hydrocarbon oxidation system by inhibiting the burnout of CO. This inhibition is affected through significant depletion of OH in the presence of relatively high levels of HC1 by the reaction OH + HC1 = H2O + Cl. Inhibition is further affected by the termination reaction Cl + HO2= HC1 + O2because HO2is a source of OH. © 1990, Taylor & Francis Group, LLC. All rights reserved.
Identifier
0011100527 (Scopus)
Publication Title
Combustion Science and Technology
External Full Text Location
https://doi.org/10.1080/00102209008951698
e-ISSN
1563521X
ISSN
00102202
First Page
361
Last Page
378
Issue
1-6
Volume
74
Recommended Citation
Barat, R. B.; Sarofim, A. F.; Longwell, J. P.; and Bozzelli, J. W., "Inhibition of a fuel lean ethylene/air flame in a jet stirred combustor by methyl chloride: Experimental and mechanistic analyses" (1990). Faculty Publications. 17715.
https://digitalcommons.njit.edu/fac_pubs/17715
