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 Generated Manifold (FGM) chemistry, referred to as FGM-CDSM, is proposed in this study. The FGM-CDSM considers the clustering of soot sections derived from the original soot particle size distribution function (PSDF) to minimize the computational cost. Unlike conventional DSM, in FGM-CDSM, governing equations for soot mass fractions are solved for the clusters, by using a pre-computed lookup table with tabulated soot source terms from the flamelet manifold, while the original soot PSDF is re-constructed in a post-processing stage. The flamelets employed for the manif...
The reduction of soot emissions in combustion processes is a primary concern of combustion engineers...
A detailed kinetic mechanism of soot formation and oxidation is revised and extended to include temp...
The need to establish actual particle size distributions (PSDs) of soot emissions from the nanoscale...
A novel approach for the prediction of soot formation in combustion simulations within the framework...
Discrete sectional method (DSM)-based soot models are computationally demanding since several transp...
This work is focused on the modeling and analysis of soot formation and oxidation in the pressurized...
This study proposes a detailed soot modeling framework for large-eddy simulation (LES) to accurately...
The present paper presents a comprehensive approach for modelling soot formation in turbulent flows ...
Considering stricter regulations on soot emissions, the detailed soot modeling approaches facilitati...
A detailed investigation of the process of soot formation in ethylene-fueled laminar counterflow dif...
Soot particle dynamics, including particle size distributions (PSDs) and related statistics, are of ...
Soot is carbonaceous particulate matter formed due to the incomplete combustion of hydrocarbon fuels...
[EN] Soot production (including formation and oxidation) is studied in the transient, high-pressure ...
The reduction of soot emissions in combustion processes is a primary concern of combustion engineers...
A detailed kinetic mechanism of soot formation and oxidation is revised and extended to include temp...
The need to establish actual particle size distributions (PSDs) of soot emissions from the nanoscale...
A novel approach for the prediction of soot formation in combustion simulations within the framework...
Discrete sectional method (DSM)-based soot models are computationally demanding since several transp...
This work is focused on the modeling and analysis of soot formation and oxidation in the pressurized...
This study proposes a detailed soot modeling framework for large-eddy simulation (LES) to accurately...
The present paper presents a comprehensive approach for modelling soot formation in turbulent flows ...
Considering stricter regulations on soot emissions, the detailed soot modeling approaches facilitati...
A detailed investigation of the process of soot formation in ethylene-fueled laminar counterflow dif...
Soot particle dynamics, including particle size distributions (PSDs) and related statistics, are of ...
Soot is carbonaceous particulate matter formed due to the incomplete combustion of hydrocarbon fuels...
[EN] Soot production (including formation and oxidation) is studied in the transient, high-pressure ...
The reduction of soot emissions in combustion processes is a primary concern of combustion engineers...
A detailed kinetic mechanism of soot formation and oxidation is revised and extended to include temp...
The need to establish actual particle size distributions (PSDs) of soot emissions from the nanoscale...