Progress in combustion science and engineering has led to the generation of large amounts
of data from large-scale simulations, high-resolution experiments, and sensors. This corpus …

The generation of nanostructured particles in high-temperature flames is important both for
the control of emissions from combustion devices and for the synthesis of high-value …

Ultrafine and highly light absorbing soot particles have been known to be harmful to human
health and a major climate forcer. Understanding the mechanisms of soot formation and …

Abstract In Large Eddy Simulations (LES) of combustion, the accuracy of predictions might
be heavily affected by deficiencies in traditional/simplified closure models, especially when …

Aerosol dynamics plays an important role in the modelling of soot formation in combustion
processes, as it is responsible for predicting the distribution of size and shape of soot …

Soot formation is experimentally and numerically investigated in laminar counterflow
diffusion flames burning ethylene and three typical gasoline surrogate components; n …

In turbulent reacting flows, soot evolution is strongly influenced by small-scale soot–
turbulence–chemistry interactions. Specifically, soot is formed during combustion of fuel-rich …

The present paper presents a comprehensive approach for modelling soot formation in
turbulent flows that incorporates a recently developed conservative finite volume sectional …

The present work investigates computationally the impact of blending ammonia with
ethylene on soot formation in four laminar diffusion flames and the corresponding turbulent …

Turbulence statistics from two three-dimensional direct numerical simulations of planar n-
heptane/air turbulent jets are compared to assess the effect of the gas-phase species …