Add to ORKGA modified Zeldovich kinetic scheme was used to predict nitric oxide formation in the burned gases. Nonuniformities in fuel-air ratio in the primary zone were accounted for by a distribution of fuel-air ratios. This was followed by one or more dilution zones in which a Monte Carlo calculation was employed to follow the mixing and dilution processes. Predictions of NOX emissions were compared with various available experimental data, and satisfactory agreement was achieved. In particular, the model is applied to the NASA swirl-can modular combustor. The operating characteristics of this combustor which can be inferred from the modeling predictions are described. Parametric studies are presented which examine the influence of the modeling par...
An advanced gas turbine engine to power supersonic transport aircraft is currently under study. In a...
A stochastic model of turbulent mixing was developed for a reactor in which mixing is represented by...
The main route to nitrogen dioxide (NOz) formation in combustion systems is through the oxidation of...
Nitric oxide forms in the primary zone of gas turbine combustors where the burnt gas composition is ...
The formation of nitrogen oxides NOx during combustion of methane, propane, and a jet fuel, JP-4, wa...
This thesis investigates nitric oxide formation in the combustion of fuel compositions representativ...
Gas emissions were studied from a staged Rich Burn/Quick-Quench Mix/Lean Burn combustor were studied...
Nitric oxide formation in gas turbine combustion depends on four key factors: flame stabilization, h...
Emissions from a simple 10-cm (4-in.) diameter tube combustor burning a premixed, gaseous propane/ai...
An annular gas turbine combustor was tested with heated natural gas fuel to determine the effect of ...
A flame tube combustor holding jet A fuel was used in experiments performed at a pressure of .3 Mpa ...
The primary objective of this thesis work is focused on the chemical kinetic modeling of the formati...
Staged combustion, such as Rich-Burn/Quick-Mix/Lean-Burn (RQL), is a viable strategy to meet nitric ...
A model is presented to account for NO emissions due to both the thermal and the nitrous oxide pathw...
The primary objective of this thesis work is focused on the chemical kinetic modeling of the formati...
An advanced gas turbine engine to power supersonic transport aircraft is currently under study. In a...
A stochastic model of turbulent mixing was developed for a reactor in which mixing is represented by...
The main route to nitrogen dioxide (NOz) formation in combustion systems is through the oxidation of...
Nitric oxide forms in the primary zone of gas turbine combustors where the burnt gas composition is ...
The formation of nitrogen oxides NOx during combustion of methane, propane, and a jet fuel, JP-4, wa...
This thesis investigates nitric oxide formation in the combustion of fuel compositions representativ...
Gas emissions were studied from a staged Rich Burn/Quick-Quench Mix/Lean Burn combustor were studied...
Nitric oxide formation in gas turbine combustion depends on four key factors: flame stabilization, h...
Emissions from a simple 10-cm (4-in.) diameter tube combustor burning a premixed, gaseous propane/ai...
An annular gas turbine combustor was tested with heated natural gas fuel to determine the effect of ...
A flame tube combustor holding jet A fuel was used in experiments performed at a pressure of .3 Mpa ...
The primary objective of this thesis work is focused on the chemical kinetic modeling of the formati...
Staged combustion, such as Rich-Burn/Quick-Mix/Lean-Burn (RQL), is a viable strategy to meet nitric ...
A model is presented to account for NO emissions due to both the thermal and the nitrous oxide pathw...
The primary objective of this thesis work is focused on the chemical kinetic modeling of the formati...
An advanced gas turbine engine to power supersonic transport aircraft is currently under study. In a...
A stochastic model of turbulent mixing was developed for a reactor in which mixing is represented by...
The main route to nitrogen dioxide (NOz) formation in combustion systems is through the oxidation of...