Add to ORKGFamilies of two-dimensional, unsteady shock-induced vortical flows are simulated numerically. The flows consist of one or more regions of light gas, surrounded by heavy gas, being overtaken by a normal shock wave. The interaction of the density gradient at each light/heavy interface with the pressure gradient from the shock wave generates vorticity. This causes the light gas regions to roll up into one or more counter-rotating vortex pairs, which stir and mix the light and heavy gases. The mixing is characterized by an asymptotic stretching rate. The effects of shock strength, light/heavy gas density ratio, and geometry on the mixing are investigated. These two-dimensional, unsteady flows are analogous to three-dimensional, steady flo...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77323/1/AIAA-1999-821-387.pd
An experimental investigation of mixing mechanisms in a shock-induced instability flow is described....
Previous work by these authors analyzed in depth vorticity generation and transport in supersonic fl...
Families of two-dimensional, unsteady shock-induced vortical flows are simulated numerically. The fl...
The motivation for study of shock-induced vortical flows is the problem of achieving rapid and effic...
Interaction of a shock wave with a jet of light gas surrounded by an ambient heavy gas generates vo...
This work investigates the two-dimensional flow of a shock wave over a circular light-gas inhomogene...
In air breathing propulsion systems for flight at Mach numbers 7 to 20, it is generally accepted tha...
The possibility that shock enhanced mixing can substantially increase the rate of mixing between c...
Experimental studies using supersonic mixing configurations have revealed varying degrees of shock-...
To promote efficient performance of very high speed air-breathing propulsion systems, the combustor ...
This paper extends to transonic mixing layers an analysis of Lighthill ("Reflection at a Laminar Bou...
Supersonic hydrogen-air jet flames were investigated experimentally in order to measure the general ...
This study complements our previous experimental investigation of the effects of swirl, convective M...
A shock-enhanced mixing in a transverse hydrogen injection combustor with an inlet compression ramp ...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77323/1/AIAA-1999-821-387.pd
An experimental investigation of mixing mechanisms in a shock-induced instability flow is described....
Previous work by these authors analyzed in depth vorticity generation and transport in supersonic fl...
Families of two-dimensional, unsteady shock-induced vortical flows are simulated numerically. The fl...
The motivation for study of shock-induced vortical flows is the problem of achieving rapid and effic...
Interaction of a shock wave with a jet of light gas surrounded by an ambient heavy gas generates vo...
This work investigates the two-dimensional flow of a shock wave over a circular light-gas inhomogene...
In air breathing propulsion systems for flight at Mach numbers 7 to 20, it is generally accepted tha...
The possibility that shock enhanced mixing can substantially increase the rate of mixing between c...
Experimental studies using supersonic mixing configurations have revealed varying degrees of shock-...
To promote efficient performance of very high speed air-breathing propulsion systems, the combustor ...
This paper extends to transonic mixing layers an analysis of Lighthill ("Reflection at a Laminar Bou...
Supersonic hydrogen-air jet flames were investigated experimentally in order to measure the general ...
This study complements our previous experimental investigation of the effects of swirl, convective M...
A shock-enhanced mixing in a transverse hydrogen injection combustor with an inlet compression ramp ...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77323/1/AIAA-1999-821-387.pd
An experimental investigation of mixing mechanisms in a shock-induced instability flow is described....
Previous work by these authors analyzed in depth vorticity generation and transport in supersonic fl...