Add to ORKGDeflagration to detonation transition (DDT) in complex geometries is difficult to model with numerical simulation. The flame acceleration is usually dependent of several fluid mechanical phenomena. Both flame interactions with turbulent flow fields and shock waves contribute to increased heat release rates. This in turn may create more turbulence and stronger shock waves. One goal is to be able to model al
Numerical simulations of spontaneous flame acceleration are performed within the problem of flame tr...
Abstract We investigate the influence of gas compression on the developed stages of flame accelerati...
Abstract: A quahtatwe descrlptlon of flame acceleration (FA) process IS presented, which shows a com...
Expanding hydrogen-air flames are studied in a semi-confined duct with an optical access test sectio...
Two-dimensional reactive Navier-Stokes equations for an acetylene–air mixture are solved numerically...
The deflagration-to-detonation (DDT) transition of a stoichiometric methane-air gas mixture in a cha...
Flame acceleration and deflagration-to-detonation transition of an iso-octane vapor–air mixture in a...
Numerical simulations are performed to study the mechanism of deflagration to detonation transition ...
Most of the previous work has been guided towards the understanding of this phenomenon under a unifo...
AbstractWe present a numerical investigation of gaseous deflagration-to-detonation transition (DDT) ...
An investigation into influence of obstructions on premixed flame propagation has been carried out i...
Detonation, a combustion phenomenon is a supersonic combustion wave which plays critical role in the...
The deflagration-to-detonation transition via the interaction of a weak shock with a series of discr...
A numerical approach has been developed to simulate flame acceleration and deflagration to detonatio...
A combination of solid and transverse jet obstacles is proposed to trigger flame acceleration and de...
Numerical simulations of spontaneous flame acceleration are performed within the problem of flame tr...
Abstract We investigate the influence of gas compression on the developed stages of flame accelerati...
Abstract: A quahtatwe descrlptlon of flame acceleration (FA) process IS presented, which shows a com...
Expanding hydrogen-air flames are studied in a semi-confined duct with an optical access test sectio...
Two-dimensional reactive Navier-Stokes equations for an acetylene–air mixture are solved numerically...
The deflagration-to-detonation (DDT) transition of a stoichiometric methane-air gas mixture in a cha...
Flame acceleration and deflagration-to-detonation transition of an iso-octane vapor–air mixture in a...
Numerical simulations are performed to study the mechanism of deflagration to detonation transition ...
Most of the previous work has been guided towards the understanding of this phenomenon under a unifo...
AbstractWe present a numerical investigation of gaseous deflagration-to-detonation transition (DDT) ...
An investigation into influence of obstructions on premixed flame propagation has been carried out i...
Detonation, a combustion phenomenon is a supersonic combustion wave which plays critical role in the...
The deflagration-to-detonation transition via the interaction of a weak shock with a series of discr...
A numerical approach has been developed to simulate flame acceleration and deflagration to detonatio...
A combination of solid and transverse jet obstacles is proposed to trigger flame acceleration and de...
Numerical simulations of spontaneous flame acceleration are performed within the problem of flame tr...
Abstract We investigate the influence of gas compression on the developed stages of flame accelerati...
Abstract: A quahtatwe descrlptlon of flame acceleration (FA) process IS presented, which shows a com...