Effect of Ferrocene on soot in a prevaporized iso-octane/air diffusion flame

The effect of flame structure on soot particle inception is studied by varying the mixture fraction at stoichiometry Z,, and, consequently, flame location. Z,, is varied by reassigning the nitrogen from the oxidizer to the fuel such that the flame temperature is not changed. Strain rates in the coun

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

Mie scattering of visible laser light by soot particulates has been used to determine their size, number density,and volume fraction in a laminar diffusion flame with and without metallic additives present. In general, additives alter the preceding particulate properties. Under certain circumstances

The effects of the addition of dicyclopentadienyl iron, ferrocene, on soot particle inception and growth were studied in atmospheric pressure, premixed ethylene flames with C/O = 0.71-0.83 at 0.015-0.46% ferrocene by weight of the fuel. The rate of surface growth of soot in undoped and doped flames