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 …

This work reviews the state of the art of the main soot modeling approaches used in
turbulent diffusion flames. Accordingly, after a short introduction about the subject addressed …

Particle formation and growth by chemical reactions and physical processes has
implications spanning properties of industrial chemicals, human health, and environmental …

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

The global radiative property models are widely used in combustion simulation due to its
high computational efficiency. This study assesses the weighted sum of gray gases (WSGG) …

A novel approach for the prediction of soot formation in combustion simulations within the
framework of discrete sectional method (DSM) based univariate soot model and Flamelet …

This study examines the impact of turbulence on particle-forming flames via three-
dimensional direct numerical simulations. The simulations employ the finite rate chemistry …

Designing efficient and clean combustion devices to reduce soot formation in practical
applications is a major concern nowadays. This could be achieved by performing predictive …

Modeling soot evolution in turbulent reacting flows using Large Eddy Simulation (LES) is
challenging due to the complex subfilter soot-turbulence-chemistry interactions. Soot …

A joint volume-surface formalism of the Multi-Moment Sectional Method (MMSM) is
developed to describe the evolution of soot size distribution in turbulent reacting flows. The …