An experimental study of [formula omitted] dilution effects on [formula omitted]–[formula omitted] flame stabilization characteristics in a two-section porous medium

Abstract

N2 dilution effects on CH4–O2 flame stabilization in a two-section porous medium burner were experimentally investigated for its potential application to the destruction of highly N2-diluted CF4. The burner was made up of two axially-stacked silicon carbide foams having different pore sizes. Various flame behaviors, such as stable flame, flashback, blowout, extinction and transient flames, were observed and, for the stable flame, temperature distributions and exhaust gas emissions were measured. Results showed that the flame was only stable in a belt-like region on the domain of fuel flow rate and oxygen concentration. The region boundaries, termed as O2-enriched and O2-deficient limits, were determined for various equivalence ratios. It was found that our burner configuration was able to sustain the submerged combustion even under the N2 dilution amounting to at least 10.4 times of CH4 flow rate. In addition, temperature measurements showed that the stable flames could have their peak temperatures higher than 1600°C, which is known to be a thermal destruction temperature of CF4. These results may indicate that porous media burners can practically applied in destructing highly N2-diluted CF4 with a reduced fuel consumption.