Experimental Study of 1 Atmosphere, Rich, Premixedn-heptane and iso-octane Flames

Abstract

Temperature and species mole fraction profiles have been measured in laminar premixed n-heptane/O₂/N₂ and iso-octane/O₂/N₂ flames. Both flames have been stabilized on a flat-flame burner, at atmospheric pressure. Species identification and concentration measurements have been performed by gas chromatography and GC-MS analysis of samples withdrawn locally by a quartz microprobe. Temperature profiles were measured by Pt-Pt 10%Rh thermocouples with radiative heat losses suppressed by the electrical compensation method. For both flames, the equivalence ratio was equal to 1.9 and a faint yellow luminosity due to soot particles was observed.|The main objective of this work was to provide detailed experimental data on the nature and concentration of the intermediate species formed by consumption of a linear or highly branched fuel molecule. In addition to reactants and major products (CO, CO₂, H₂, H₂O), the mole fraction profiles of C₁(CH₄), C₂(C₂H₂, C₂H₄, C₂H₆), C₃(allene, propyne, propene, propane), C₄(C₄H₂, C₄H₄, 1,2-C₄H₆, 1,3-C₄H₆, 1-butyne, butenes) C₅(pentadienes, methyl butenes, pentenes), C₆(hexenes, hexadienes, dimethyl butenes, methyl pentenes) and C₇ species (heptenes, dimethyl pentenes) have been measured.|Marked differences in the nature of the C₄-C₇ are observed as a result of the change in the structure of the fuel molecule. On the other hand, the major products, C₁ and C₂ species exhibit very similar mole fraction profiles. Both benzene and allene are formed in higher concentrations in the iso-octane flame. This observation reinforces at least qualitatively the role of C₃ species in the benzene formation mechanism. It also confirms the results of a comparative study of the structure of low pressure n-heptane and iso-octane flames previously performed in our laboratory (Douté et al., 1997).