Quantitative measurements of enhanced soot production in a flickering methane/air diffusion flame

Planar images of laser-induced fluorescence from OH. radicals and elastic scattering from soot particles are presented in time-varying, laminar CHa/air diffusion flames burning in a co-flowing, axisymmetric configuration at atmospheric pressure. Acoustic forcing is used to phase lock the periodic fl

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

Laser-induced fluorescence has been observed form the formaldehyde A' A,-jt 'A, electronic transition in a well characterized, laminar methane/air diffusion flame burning at atmospheric pressure. This represents the first optical measurement in flames of naturally occurring formaldehyde, an importan

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