The effect of soot particle optical inhomogenity and agglomeration on the analysis of light scattering measurements in flames

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 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

An in situ chemical and physical characterization of soot particles during the separate stages of formation and oxidation appears to be an important step forward in the understanding of the heterogenea~s aspects of the kinetics. To this end the knowledge of the optical properties of soot particles i

Numerical simulations of premixed gas flame moving in the presence of inert particles are presented. This paper provides background information concerning the use of numerical methods employed that allow for elucidation of the effect of particles on the structure, dynamics and extinction of a premix