Considering stricter regulations on soot emissions, the detailed soot modeling approaches facilitating prediction of soot particle size distributions (PSD) are increasingly in demand. In this context, the transient evolution of soot is numerically investigated for two high-pressure turbulent sprays from the Engine Combustion Network (ECN), namely, Spray C (SC) and Spray D (SD). The 900-K ambient temperature (Tam) sprays are studied. This is because the two cases tend to produce a similar amount of soot at Tam=900K, despite the significantly different spray development. To predict the soot formation with information on PSD, a discrete sectional method is applied within the large-eddy simulation (LES) framework. The applied modeling strategy ...
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...
Soot particles formed in combustion processes are well-known for their negative effects, but their f...
Considering stricter regulations on soot emissions, the detailed soot modeling approaches facilitati...
This study proposes a detailed soot modeling framework for large-eddy simulation (LES) to accurately...
This work is focused on the modeling and analysis of soot formation and oxidation in the pressurized...
The present paper presents a comprehensive approach for modelling soot formation in turbulent flows ...
A detailed investigation of the process of soot formation in ethylene-fueled laminar counterflow dif...
Morphological changes in soot emitted from combustion devices have a tremendous impact on the evolut...
The weakness of a conventional Eulerian soot model in capturing primary soot size and its inability ...
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 ...
Soot particle dynamics, including particle size distributions (PSDs) and related statistics, are of ...
International audienceDiesel engines are known to be one of the main sources of soot particle emissi...
Numerical simulations using large eddy simulation (LES) and Unsteady Reynolds Averaged Navier–Stokes...
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...
Soot particles formed in combustion processes are well-known for their negative effects, but their f...
Considering stricter regulations on soot emissions, the detailed soot modeling approaches facilitati...
This study proposes a detailed soot modeling framework for large-eddy simulation (LES) to accurately...
This work is focused on the modeling and analysis of soot formation and oxidation in the pressurized...
The present paper presents a comprehensive approach for modelling soot formation in turbulent flows ...
A detailed investigation of the process of soot formation in ethylene-fueled laminar counterflow dif...
Morphological changes in soot emitted from combustion devices have a tremendous impact on the evolut...
The weakness of a conventional Eulerian soot model in capturing primary soot size and its inability ...
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 ...
Soot particle dynamics, including particle size distributions (PSDs) and related statistics, are of ...
International audienceDiesel engines are known to be one of the main sources of soot particle emissi...
Numerical simulations using large eddy simulation (LES) and Unsteady Reynolds Averaged Navier–Stokes...
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...
Soot particles formed in combustion processes are well-known for their negative effects, but their f...