Autoignition of hydrogen, leading to flame development under turbulent flow conditions is numerically investigated including a detailed chemical mechanism. The chosen configuration consists of a turbulent jet of hydrogen diluted with nitrogen which is issued into a coflow of heated air. Numerical simulations are performed with the Conditional Moment Closure model, to capture the transient evolution of the flow. Turbulence closure is achieved using the kappa-epsilon model. Simulations revealed that the injected hydrogen mixes with coflowing air autoignites and a stable diffusion flame is established Sometimes flashback,., of the ignited mixture is observed, whereby the flame travels upstream and stabilizes. It is found that the constants ass...
Autoignition of hydrogen/nitrogen jets in crossflows of vitiated air has been experimentally studied...
The autoignition of an axisymmetric nitrogen-diluted hydrogen plume in a turbulent coflowing stream ...
University of Minnesota Ph.D. dissertation. November 2015. Major: Aerospace Engineering and Mechani...
Autoignition of hydrogen, leading to flame development under turbulent flow conditions is numericall...
An ever increasing demand for energy coupled with a need to mitigate climate change necessitates tec...
This paper presents experimental data on the autoignition of hydrogen jets in a turbulent co-flow of...
This paper presents experimental data on the autoignition of hydrogen jets in a turbulent co-flow of...
The autoignition process of a hydrogen jet into a preheated turbulent air stream is numerically stud...
Large-Eddy Simulations (LES) with first order Conditional Moment Closure (CMC) of a nitrogen-diluted...
Large-Eddy Simulation (LES) results in combination with first-order Conditional Moment Closure (CMC)...
Three-dimensional direct numerical simulations of turbulent lifted hydrogen jet flames in heated cof...
In this paper, we compare the autoignition characteristics of laminar, nitrogen-diluted hydrogen jet...
Our research objective is the performance of Large-Eddy Simulation (LES) with the first order Condit...
The autoignition process of a hydrogen jet into a preheated turbulent air stream is numerically stud...
Direct numerical simulation (DNS) of the near field of a three-dimensional spatially developing turb...
Autoignition of hydrogen/nitrogen jets in crossflows of vitiated air has been experimentally studied...
The autoignition of an axisymmetric nitrogen-diluted hydrogen plume in a turbulent coflowing stream ...
University of Minnesota Ph.D. dissertation. November 2015. Major: Aerospace Engineering and Mechani...
Autoignition of hydrogen, leading to flame development under turbulent flow conditions is numericall...
An ever increasing demand for energy coupled with a need to mitigate climate change necessitates tec...
This paper presents experimental data on the autoignition of hydrogen jets in a turbulent co-flow of...
This paper presents experimental data on the autoignition of hydrogen jets in a turbulent co-flow of...
The autoignition process of a hydrogen jet into a preheated turbulent air stream is numerically stud...
Large-Eddy Simulations (LES) with first order Conditional Moment Closure (CMC) of a nitrogen-diluted...
Large-Eddy Simulation (LES) results in combination with first-order Conditional Moment Closure (CMC)...
Three-dimensional direct numerical simulations of turbulent lifted hydrogen jet flames in heated cof...
In this paper, we compare the autoignition characteristics of laminar, nitrogen-diluted hydrogen jet...
Our research objective is the performance of Large-Eddy Simulation (LES) with the first order Condit...
The autoignition process of a hydrogen jet into a preheated turbulent air stream is numerically stud...
Direct numerical simulation (DNS) of the near field of a three-dimensional spatially developing turb...
Autoignition of hydrogen/nitrogen jets in crossflows of vitiated air has been experimentally studied...
The autoignition of an axisymmetric nitrogen-diluted hydrogen plume in a turbulent coflowing stream ...
University of Minnesota Ph.D. dissertation. November 2015. Major: Aerospace Engineering and Mechani...