Soot morphology evolution in the flame. Left: mean aggregate size D p

PDF) The Evolution of Soot Morphology in Laminar Co-Flow Diffusion Flames of the Surrogates for Jet A-1 and a Synthetic Kerosene

Luminous intensity on the centerline compared with OH and PAH PLIF

AAE(440–870) vs. fvf at all AERONET sites of Table 1, filtered for

CO emission versus engine load. IMEP: indicated mean effective

AMT - Importance of size representation and morphology in modelling optical properties of black carbon: comparison between laboratory measurements and model simulations

TEM micrographs of thermophoretically sampled soot particles on the

Experimental and numerical study of the evolution of soot primary particles in a diffusion flame - ScienceDirect

Materials, Free Full-Text

CO emission versus engine load. IMEP: indicated mean effective

Effect of ammonia addition on the morphology and nanostructure evolution of soot particles in ethylene co-flow diffusion flames - ScienceDirect

Mechanism of the noncatalytic oxidation of soot using in situ transmission electron microscopy

PDF) Internal structure of soot particles in a diffusion flame

Fouling thickness profile throughout tube 10.

Full article: Understanding soot particle size evolution in laminar ethylene/air diffusion flames using novel soot coalescence models