Raman spectroscopic study of a laminar hydrogen diffusion flame in air

The oxidation of soot in a laminar diffusion flame has been studied experimentally by examining the characteristics of soot particles using laser light scattering. The kinetics mechanisms of oxidation by O2 and OH have been analyzed. The concentrations of OH radicals have been measured by laser-indu

An arsenic compound (cacodylic acid) has been added to laminar diffusion flames burning in a co-flowing stream of air. Two fuels were used viz. ethene (C2H 4) and a mixture of hydrogen and nitrogen. Samples of aerosols and gaseous species were collected within the flames and above the flames with fi

Tunable diode laser absorption spectroscopy has been used to map carbon monoxide concentrations and temperatures in a series of laminar ethylene/air, axisymmetric diffusion flames. As the quantity of soot increased, temperatures near the tip of the flames were observed to decrease. Carbon monoxide c

We demonstrate that a systematically reduced four-step mechanism is able to provide the essential properties of methane-air diffusion flames such as the structure and extinction limits in a way similar to a full kinetic mechanism. The reduction is based on the C~-chain for methane oxidation. By look