Ammonia (NH3) has emerged as an attractive carbonless fuel that can be co-fired with hydrocarbon fuel to reduce carbon dioxide emissions. To understand the influence of NH3 on soot formation when co-fired with hydrocarbons, the soot formation propensity is experimentally investigated via a laminar diffusion jet flame. A stable ethylene (C2H4) jet flame doped with NH3 at different volume percentages was established for the investigation of soot formation tendency. OH* chemiluminescence imaging revealed the change of flame structure, in which the signals emitted from the heat release region weakened with increasing NH3 addition, while the peak intensity shifted from the flame wings towards flame centerline region. The laser extinction method ...
In the present thesis, fundamental experimental and numerical studies are performed for the soot for...
The current study presents an experimental approach to investigate the effect of the structure of ar...
The structure and soot properties of round laminar jet hydrocarbon diffusion flames burning in air w...
Ammonia (NH3) has emerged as an attractive carbonless fuel that can be co-fired with hydrocarbon fue...
Paper presented at the 11th US Combustion Meeting, March 25 2019, Pasadena CA.Because of narrow stab...
This paper presents results from an investigation of soot formation in turbulent, non-premixed, C2H4...
This report documents the results of a project funded by DoD's Strategic Environmental Research and ...
The influence of carbon dioxide addition to the fuel on soot evolution in ethylene and propane diffu...
Thermometry measurements were carried out using planar laser induced phosphorescence in conjunction ...
With growing concerns over the detrimental effects of soot emission, it has become important to stu...
The testing and development of existing global and detailed chemical kinetic models for soot formati...
The first part of this thesis addresses the validation of combined laser extinction and two-angle el...
International audienceNew experimental and numerical results of a laminar ethylene-air co-flow non-p...
This thesis reports on the study of laminar premixed ethylene/air flat flames, in both rich and lean...
As PAHs (Polycyclic Aromatic Hydrocarbons) are the main precursor of soot formation during the combu...
In the present thesis, fundamental experimental and numerical studies are performed for the soot for...
The current study presents an experimental approach to investigate the effect of the structure of ar...
The structure and soot properties of round laminar jet hydrocarbon diffusion flames burning in air w...
Ammonia (NH3) has emerged as an attractive carbonless fuel that can be co-fired with hydrocarbon fue...
Paper presented at the 11th US Combustion Meeting, March 25 2019, Pasadena CA.Because of narrow stab...
This paper presents results from an investigation of soot formation in turbulent, non-premixed, C2H4...
This report documents the results of a project funded by DoD's Strategic Environmental Research and ...
The influence of carbon dioxide addition to the fuel on soot evolution in ethylene and propane diffu...
Thermometry measurements were carried out using planar laser induced phosphorescence in conjunction ...
With growing concerns over the detrimental effects of soot emission, it has become important to stu...
The testing and development of existing global and detailed chemical kinetic models for soot formati...
The first part of this thesis addresses the validation of combined laser extinction and two-angle el...
International audienceNew experimental and numerical results of a laminar ethylene-air co-flow non-p...
This thesis reports on the study of laminar premixed ethylene/air flat flames, in both rich and lean...
As PAHs (Polycyclic Aromatic Hydrocarbons) are the main precursor of soot formation during the combu...
In the present thesis, fundamental experimental and numerical studies are performed for the soot for...
The current study presents an experimental approach to investigate the effect of the structure of ar...
The structure and soot properties of round laminar jet hydrocarbon diffusion flames burning in air w...