The Two-Stage Lagrangian turbulent jet reaction model is described, and results presented for NOx emissions from methane, CO-H2, and hydrogen jet flames for a variety of conditions. The model includes complete chemical reaction mechanisms and treats the effects of buoyancy and radiation, the influences of which are shown to be significant. Non-equilibrium chemistry influences are also examined. The extensive comparisons made between the model and experimental results for the three fuels suggest that the model incorporates the essential processes that control NOx production in fuel jet flames
In the present study, we have numerically investigated the effects of the fuel-side nitrogen dilutio...
The formation/destruction mechanisms of nitric oxides (No-x) in CH4/H-2 jet flames in a hot coflow a...
The relationships among flame radiation, NOx emissions, and residence time are explored for unconfin...
The Two-Stage Lagrangian turbulent jet reaction model is described, and results presented for NOx em...
The present paper investigates the role of combustion models and kinetic mechanisms on the predictio...
The present paper investigates the role of combustion models and kinetic mechanisms on the predictio...
Data from several recent experiments on mixing and chemical reactions in turbulent shear layers and ...
Radiative heat transfer has a significant effect on nitric oxide (NO) formation in turbulent non-pre...
This paper gives an in-depth insight into NOX (NO, NO2, and N2O) formation of H2/N2 turbulent Cabra ...
Measurements and modeling of the formation of superequilibrium radicals and nitric oxide in atmosphe...
A theoretical and experimental study on NO formation in turbulent diffusion flames is presented. Det...
Nitrogen dioxide (NO2) emission levels of fuel jets were experimentally studied for H-2, H-2/He mixt...
Nitrogen dioxide (NO2) emission levels of fuel jets were experimentally studied for H2, H2/He mixtur...
The formation of nitrogen oxides NOx during combustion of methane, propane, and a jet fuel, JP-4, wa...
Seven different chemical mechanisms for methane are used in PDF model calculations of the Barlow and...
In the present study, we have numerically investigated the effects of the fuel-side nitrogen dilutio...
The formation/destruction mechanisms of nitric oxides (No-x) in CH4/H-2 jet flames in a hot coflow a...
The relationships among flame radiation, NOx emissions, and residence time are explored for unconfin...
The Two-Stage Lagrangian turbulent jet reaction model is described, and results presented for NOx em...
The present paper investigates the role of combustion models and kinetic mechanisms on the predictio...
The present paper investigates the role of combustion models and kinetic mechanisms on the predictio...
Data from several recent experiments on mixing and chemical reactions in turbulent shear layers and ...
Radiative heat transfer has a significant effect on nitric oxide (NO) formation in turbulent non-pre...
This paper gives an in-depth insight into NOX (NO, NO2, and N2O) formation of H2/N2 turbulent Cabra ...
Measurements and modeling of the formation of superequilibrium radicals and nitric oxide in atmosphe...
A theoretical and experimental study on NO formation in turbulent diffusion flames is presented. Det...
Nitrogen dioxide (NO2) emission levels of fuel jets were experimentally studied for H-2, H-2/He mixt...
Nitrogen dioxide (NO2) emission levels of fuel jets were experimentally studied for H2, H2/He mixtur...
The formation of nitrogen oxides NOx during combustion of methane, propane, and a jet fuel, JP-4, wa...
Seven different chemical mechanisms for methane are used in PDF model calculations of the Barlow and...
In the present study, we have numerically investigated the effects of the fuel-side nitrogen dilutio...
The formation/destruction mechanisms of nitric oxides (No-x) in CH4/H-2 jet flames in a hot coflow a...
The relationships among flame radiation, NOx emissions, and residence time are explored for unconfin...