The present work investigates the structure of fast supersonic turbulent flames typically ob-served as precursors to the onset of detonation. These high speed deflagrations are obtained after the interaction of a detonation wave with cylindrical obstacles. Two mixtures having the same propensity for local hot spot formation were considered, namely hydrogen-oxygen and methane-oxygen. It was shown that the methane mixture sustained turbulent fast flames, while the hydrogen mixture did not. Detailed high speed visualizations of nearly two-dimensional flow fields permitted to identify the key mechanism involved. The strong vorticity generation associ-ated with shock reflections in methane permitted to drive jets. These provided local enhancemen...
Results of experimental studies of turbulent flame propagation in obstructed tubes (channels) with d...
ABSTRACT. Obstacles in the path of a flame lead to a significant increase of the turbulence in the e...
In the process of deflagration-to-detonation transition (DDT) in reactive gases, the flame typically...
The present work investigates the structure of supersonic turbulent deflagration typically observed ...
Propagating premixed hydrogen-air flames are experimentally studied using a semi-confined square cha...
In this paper, flame characteristics of ethylene and its mixture with methane and hydrogen in proces...
This work presents the first measurement of turbulent burning velocities of a highly-turbulent compr...
The propagation regimes of combustion waves in a 30 cm by 30 cm square cross-sectioned tube with an ...
Detonation waves are supersonic combustion waves that have a multi-shock front structure followed by...
Supersonic hydrogen-air jet flames were investigated experimentally in order to measure the general ...
ABSTRACT The present paper reports on experimentally obtained results of fast propagating deflagrati...
Propulsion systems are influenced by the efficiency of combustion systems. One approach to substanti...
In this paper, supersonic combustion and flow field of hydrogen and its mixture with ethylene and me...
To obtain a further insight into the complex flame acceleration process of deflagrating fuel/air mix...
Various premixed flame phenomena are studied by means of direct numerical simulations of the complet...
Results of experimental studies of turbulent flame propagation in obstructed tubes (channels) with d...
ABSTRACT. Obstacles in the path of a flame lead to a significant increase of the turbulence in the e...
In the process of deflagration-to-detonation transition (DDT) in reactive gases, the flame typically...
The present work investigates the structure of supersonic turbulent deflagration typically observed ...
Propagating premixed hydrogen-air flames are experimentally studied using a semi-confined square cha...
In this paper, flame characteristics of ethylene and its mixture with methane and hydrogen in proces...
This work presents the first measurement of turbulent burning velocities of a highly-turbulent compr...
The propagation regimes of combustion waves in a 30 cm by 30 cm square cross-sectioned tube with an ...
Detonation waves are supersonic combustion waves that have a multi-shock front structure followed by...
Supersonic hydrogen-air jet flames were investigated experimentally in order to measure the general ...
ABSTRACT The present paper reports on experimentally obtained results of fast propagating deflagrati...
Propulsion systems are influenced by the efficiency of combustion systems. One approach to substanti...
In this paper, supersonic combustion and flow field of hydrogen and its mixture with ethylene and me...
To obtain a further insight into the complex flame acceleration process of deflagrating fuel/air mix...
Various premixed flame phenomena are studied by means of direct numerical simulations of the complet...
Results of experimental studies of turbulent flame propagation in obstructed tubes (channels) with d...
ABSTRACT. Obstacles in the path of a flame lead to a significant increase of the turbulence in the e...
In the process of deflagration-to-detonation transition (DDT) in reactive gases, the flame typically...
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