Add to ORKGA class of contoured wall fuel injectors was designed to enable shock-enhancement of hypervelocity mixing for supersonic combustion ramjet applications. Previous studies of these geometries left unresolved questions concerning the relative importance of various axial vorticity sources in mixing the injectant with the freestream. The present study is a numerical simulation of two generic fuel injectors which is aimed at elucidating the relative roles of axial vorticity sources including: baroclinic torque through shock-impingement, cross-stream shear, turning of boundary layer vorticity, shock curvature, and diffusive flux. Both the magnitude of the circulation, and the location of vorticity with respect to the mixing interface w...
A finite difference procedure was used to compute the mixing for three experimentally tested mixer g...
A numerical study was conducted to evaluate the performance of wall mounted fuel-injectors designed ...
One of the current goals of research in hypersonic, airbreathing propulsion is access to higher Mach...
An experimental and computational investigation of a contoured wall fuel injector is presented. The...
The performance of a particular class of fuel injectors for scramjet engine applications is address...
A parametric study of a class of contoured wall fuel injectors is presented. The injectors were aime...
The results of a three year study on vortex enhancement of supersonic mixing are discussed. Recent i...
grantor: University of TorontoIn an effort to develop hypersonic air-breathing propulsion ...
A comparative study of the interaction between wall mounted swept-ramp injectors and injector nozzle...
Understanding of physics of supersonic combustion is mandatory for future hypersonic air-breathing p...
More flexible and economical access to space is achievable using hypersonic air-breathing propulsion...
CFD analysis is presented of the mixing characteristics and performance of three fuel injectors at h...
Experimental studies using supersonic mixing configurations have revealed varying degrees of shock-...
grantor: University of TorontoIncreasing demand for affordable access to space and high sp...
Families of two-dimensional, unsteady shock-induced vortical flows are simulated numerically. The fl...
A finite difference procedure was used to compute the mixing for three experimentally tested mixer g...
A numerical study was conducted to evaluate the performance of wall mounted fuel-injectors designed ...
One of the current goals of research in hypersonic, airbreathing propulsion is access to higher Mach...
An experimental and computational investigation of a contoured wall fuel injector is presented. The...
The performance of a particular class of fuel injectors for scramjet engine applications is address...
A parametric study of a class of contoured wall fuel injectors is presented. The injectors were aime...
The results of a three year study on vortex enhancement of supersonic mixing are discussed. Recent i...
grantor: University of TorontoIn an effort to develop hypersonic air-breathing propulsion ...
A comparative study of the interaction between wall mounted swept-ramp injectors and injector nozzle...
Understanding of physics of supersonic combustion is mandatory for future hypersonic air-breathing p...
More flexible and economical access to space is achievable using hypersonic air-breathing propulsion...
CFD analysis is presented of the mixing characteristics and performance of three fuel injectors at h...
Experimental studies using supersonic mixing configurations have revealed varying degrees of shock-...
grantor: University of TorontoIncreasing demand for affordable access to space and high sp...
Families of two-dimensional, unsteady shock-induced vortical flows are simulated numerically. The fl...
A finite difference procedure was used to compute the mixing for three experimentally tested mixer g...
A numerical study was conducted to evaluate the performance of wall mounted fuel-injectors designed ...
One of the current goals of research in hypersonic, airbreathing propulsion is access to higher Mach...