Results are presented of an experiment to investigate the behavior at Mach 4 flight conditions of the swept-strut fuel-injector concept employed in the Langley integrated modular scramjet engine design. Autoignition of the hydrogen fuel was not achieved at stagnation temperatures corresponding to a flight Mach number of 4; however, once ignition was achieved, stable combustion was maintained. Pressure disturbances upstream of the injector location, which were caused by fuel injection and combustion, were generally not observed; this indicates the absence of serious adverse combustor-inlet interactions. Mixing performance and reaction performance determined from probe surveys and wall pressure data indicate that high combustion efficiency sh...
Reports by the staff of the University of Oueensland on various research studies related to the adva...
Enhancing the fuel-air mixing is critical for scramjet combustor performance. The performance of fou...
A major problem in supersonic combustion is the short residence time of the fluid inside the combust...
The results are presented of a cold-mixing investigation performed to supply combustor design inform...
The aerodynamic drag and fuel distribution patterns of injectors designed for a supersonic combustio...
The drag of a simulated scramjet combustion module was measured at Mach 2, 2.5, and 3. The combustor...
Recent design studies have shown that airframe-integrated scramjets should include instream mounted,...
The NASA Langley Research Center has conducted hypersonic propulsion research since the 1960s. A var...
Results of supersonic mixing and combustion tests performed with two simple strut injector configura...
A summary of the research activities is presented along with the design and analysis of an integrate...
An investigation of the combustion of hydrogen perpendicularly injected from step fuel injectors int...
Inlet-injection was motivated by the possibility for skin-friction reduction in the combustion chamb...
Reports by the staff of the University of Queensland on various research studies related to the adva...
Through Computational Fluid Dynamics and validation, an optimal scramjet combustor has been designed...
A supersonic combustion ramjet, or scramjet, is an air breathing engine that is designed to operate ...
Reports by the staff of the University of Oueensland on various research studies related to the adva...
Enhancing the fuel-air mixing is critical for scramjet combustor performance. The performance of fou...
A major problem in supersonic combustion is the short residence time of the fluid inside the combust...
The results are presented of a cold-mixing investigation performed to supply combustor design inform...
The aerodynamic drag and fuel distribution patterns of injectors designed for a supersonic combustio...
The drag of a simulated scramjet combustion module was measured at Mach 2, 2.5, and 3. The combustor...
Recent design studies have shown that airframe-integrated scramjets should include instream mounted,...
The NASA Langley Research Center has conducted hypersonic propulsion research since the 1960s. A var...
Results of supersonic mixing and combustion tests performed with two simple strut injector configura...
A summary of the research activities is presented along with the design and analysis of an integrate...
An investigation of the combustion of hydrogen perpendicularly injected from step fuel injectors int...
Inlet-injection was motivated by the possibility for skin-friction reduction in the combustion chamb...
Reports by the staff of the University of Queensland on various research studies related to the adva...
Through Computational Fluid Dynamics and validation, an optimal scramjet combustor has been designed...
A supersonic combustion ramjet, or scramjet, is an air breathing engine that is designed to operate ...
Reports by the staff of the University of Oueensland on various research studies related to the adva...
Enhancing the fuel-air mixing is critical for scramjet combustor performance. The performance of fou...
A major problem in supersonic combustion is the short residence time of the fluid inside the combust...