Suppression of nonpremixed flames by fluorinated ethanes and propanes

Autor: Elizabeth M. Fisher, Bradley A. Williams, James W. Fleming, Ronald S. Sheinson, E.J.P. Zegers
Rok vydání: 2000
Předmět:
Zdroj: Combustion and Flame. 121:471-487
ISSN: 0010-2180
DOI: 10.1016/s0010-2180(99)00162-5
Popis: Suppression of methane/air and propane/air nonpremixed counterflow flames, and n-heptane and methanol cup burner flames by fluorinated hydrocarbons was investigated. Four fluorinated ethanes, 10 fluorinated propanes, four bromine- or iodine-containing halons, and the inert agents CF 4 , SF 6 , and N 2 were tested in some or all of the flames. Laser Doppler velocimetry (LDV) determinations of peak velocity gradients in the oxidizer flow of the counterflow flames were found to be linearly correlated with the expression for global strain rate derived for plug flow boundary conditions. This correlation was used to estimate strain rate values at extinction. The bromine- or iodine-containing agents are more effective on a molar basis than the fluorinated propanes, followed by the fluorinated ethanes, and finally SF 6 , CF 4 , and N 2 . Agent effectiveness increases with the number of CF 3 groups present in the agent molecular structure. Numerical investigations of the flame speed reduction of methane/air mixtures doped with either CHF 2 CHF 2 or CF 3 CH 2 F predict that the latter is the better agent, in accord with experimental observations. Chemical contributions to suppression account for less than 35% of the total suppression offered by fluorinated hydrocarbons not containing bromine or iodine. At strain rates below 100 s −1 , suppression effectiveness rankings in methane and propane counterflow flames are similar to those obtained in n-heptane and methanol cup burner flames. Methanol flames are more difficult to extinguish than the alkane flames investigated, particularly with the chemical agent CF 3 Br.
Databáze: OpenAIRE
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