Add to ORKGA correlation of available self ignition data for supersonic hydrogen-air mixtures in configurations representative of scramjet combustors was made. The correlation was examined in light of simplified ignition-limit models. The data and model included cases of injection from transverse fuel jets on walls, transverse jets behind swept and unswept steps, and transverse injection ahead of swept and unswept steps and strut bases. The results provide useful guidance for predicting self ignition in a variety of applications. The likely regions for self ignition in a combustor are given in order of merit
Mixing of hydrogen downstream from multiple injectors normal to supersonic jet flow, for supersoni...
Numerical modelling of turbulent-reacting flow field of supersonic combustion ramjet(scramjet) combu...
A low pressure oxygen/hydrogen turbine drive combustor hot-fire test series was conducted on the Tur...
Combustion physics and ignition of hydrogen in supersonic stream of vitiated air or inert gases usin...
Hydrogen fuel combustion hazard and venting problems from launch vehicles in hypersonic air flo
A computer program based on a finite-difference, implicit numerical integration scheme is described ...
An experimental study of supersonic combustion of gaseous hydrogen injected trans-versely into a vit...
Thermochemical exploration of mixing and combustion of parallel hydrogen injection into supersonic v...
Experiments performed with a two dimensional model scramjet with particular emphasis on the effect o...
Experiments were performed in the T4 shock tunnel to investigate the self ignition of hydrogen in a ...
Results are presented of computational and experimental investigations of the influence of temperatu...
Combustion in scramjet engines is faced with the limitation of brief residence time in the combustio...
A computationally efficient, quasi-one-dimensional, supersonic combustion model has been developed t...
Results from combustion experiments in a direct-connect supersonic combustor facility are presented....
The eddy dissipation model (EDM) is analysed with respect to the ability to address the turbulence-c...
Mixing of hydrogen downstream from multiple injectors normal to supersonic jet flow, for supersoni...
Numerical modelling of turbulent-reacting flow field of supersonic combustion ramjet(scramjet) combu...
A low pressure oxygen/hydrogen turbine drive combustor hot-fire test series was conducted on the Tur...
Combustion physics and ignition of hydrogen in supersonic stream of vitiated air or inert gases usin...
Hydrogen fuel combustion hazard and venting problems from launch vehicles in hypersonic air flo
A computer program based on a finite-difference, implicit numerical integration scheme is described ...
An experimental study of supersonic combustion of gaseous hydrogen injected trans-versely into a vit...
Thermochemical exploration of mixing and combustion of parallel hydrogen injection into supersonic v...
Experiments performed with a two dimensional model scramjet with particular emphasis on the effect o...
Experiments were performed in the T4 shock tunnel to investigate the self ignition of hydrogen in a ...
Results are presented of computational and experimental investigations of the influence of temperatu...
Combustion in scramjet engines is faced with the limitation of brief residence time in the combustio...
A computationally efficient, quasi-one-dimensional, supersonic combustion model has been developed t...
Results from combustion experiments in a direct-connect supersonic combustor facility are presented....
The eddy dissipation model (EDM) is analysed with respect to the ability to address the turbulence-c...
Mixing of hydrogen downstream from multiple injectors normal to supersonic jet flow, for supersoni...
Numerical modelling of turbulent-reacting flow field of supersonic combustion ramjet(scramjet) combu...
A low pressure oxygen/hydrogen turbine drive combustor hot-fire test series was conducted on the Tur...