Add to ORKGWe review recent progress in gaseous detonation experiment, modeling, and simulation. We focus on the propagating detonation wave as a fundamental combustion process. The picture that is emerging is that although all propagating detonations are unstable, there is a wide range of behavior with one extreme being nearly laminar but unsteady periodic flow and the other chaotic instability with highly turbulent flow. We discuss the implications of this for detonation propagation and dynamic behavior such as diffraction, initiation, and quenching or failure
In order to elucidate the effect of chemical kinetics on the dynamic structure of a detonation, an ...
The paper reviews recent progress in the field of gaseous detonations, with sections on shock diffra...
The transition from deflagration to detonation is studied by focusing on the actual final process, i...
We review recent progress in gaseous detonation experiment, modeling, and simulation. We focus on th...
The chemical-gas dynamic mechanisms behind the instability and failure of a one-dimensional pulsatin...
The chemical–gas dynamic mechanisms behind the instability and failure of a one–dimensional pulsatin...
International audienceRecent theoretical results on the dynamics of gaseous detonations are presente...
The spatio-temporal structure of gaseous detonations have been studied experimentally since the 1950...
The tridimensional unsteady character of the flow field for detonations has been established about t...
A detonation is a combustion-driven shock wave. Typically, a detonation will consist of an inert sho...
Gaseous detonation is a phenomenon with very complicated dynamics which has been studied extensively...
The tridimensional unsteady character of the flow field for detonations has been established about t...
The transmission of a detonation wave across a layer of inert gas is studied via one- and two dimens...
There is a definite inconsistency between the classical ZND theory of detonation and contemporary ex...
Understanding the fundamental processes of detonation is essential for both energy and safety issues...
In order to elucidate the effect of chemical kinetics on the dynamic structure of a detonation, an ...
The paper reviews recent progress in the field of gaseous detonations, with sections on shock diffra...
The transition from deflagration to detonation is studied by focusing on the actual final process, i...
We review recent progress in gaseous detonation experiment, modeling, and simulation. We focus on th...
The chemical-gas dynamic mechanisms behind the instability and failure of a one-dimensional pulsatin...
The chemical–gas dynamic mechanisms behind the instability and failure of a one–dimensional pulsatin...
International audienceRecent theoretical results on the dynamics of gaseous detonations are presente...
The spatio-temporal structure of gaseous detonations have been studied experimentally since the 1950...
The tridimensional unsteady character of the flow field for detonations has been established about t...
A detonation is a combustion-driven shock wave. Typically, a detonation will consist of an inert sho...
Gaseous detonation is a phenomenon with very complicated dynamics which has been studied extensively...
The tridimensional unsteady character of the flow field for detonations has been established about t...
The transmission of a detonation wave across a layer of inert gas is studied via one- and two dimens...
There is a definite inconsistency between the classical ZND theory of detonation and contemporary ex...
Understanding the fundamental processes of detonation is essential for both energy and safety issues...
In order to elucidate the effect of chemical kinetics on the dynamic structure of a detonation, an ...
The paper reviews recent progress in the field of gaseous detonations, with sections on shock diffra...
The transition from deflagration to detonation is studied by focusing on the actual final process, i...