Nowadays, the increasing consumption of conventional fuels has led to rising pollutant
emissions, among which soot has received much attention due to its harmful effects. In this …

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 …

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 …

A soot kinetic sectional scheme is coupled with the sparse multiple mapping
conditioning/large eddy simulation (MMC-LES) method to model soot formation in a …

Oxidation of soot is a critical process in determining the evolution of soot in turbulent
reacting flows. On the one hand, the kinetic rates of soot oxidation remain one of the most …

This article reports flamelet/transported PDF (TPDF) simulations of the well-documented
ethylene/air turbulent non-premixed jet flame investigated experimentally at Sandia. The …

Abstract Large Eddy Simulation (LES) is utilized to investigate soot evolution in a series of
turbulent nonpremixed bluff body flames featuring different bluff body diameters. The …

In this work, the sensitivities of soot formation to the variations of strain rates have been
studied both experimentally and numerically in counterflow diffusion flames of fourteen C 3 …

In this study, two series of pressurized turbulent jet sooting flames at 1, 3, and 5 bar with
either fixed jet velocity or fixed Reynolds number are simulated to study the pressure effects …