The development of technology for the modular airframe integrated scramjet has been the focus of hypersonic propulsion research for several years. An part of this research, a variety of inlet concepts have been explored and characterized. The emphasis of the inlet program has been the development of the short (light weight), fixed geometry, side wall compression inlets that operate efficiently over a wide Mach number range. As hypersonic combustion tunnels were developed, programs to study the parameters controlling fuel mixing and combustion with single and multiple strut models were conducted using direct connect test techniques. These various tests supported the design of subscale engine test hardware that integrated inlet and combustor technology and allowed the study of the effect of heat release on thrust and combustor/inlet interaction. A number of subscale engine tests have shown predicted performance levels at Mach 4 and 7 simulated flight conditions. A few of the highlights from this research program are summarized.
Hypersonic Propulsion Research
1990
20 pages
Report
Keine Angabe
Englisch
Spacecraft Trajectories & Flight Mechanics , Rocket Engines & Motors , Engine tests , Hypersonic flight , Propulsion system performance , Side inlets , Supersonic combustion ramjet engines , Airframes , Flight conditions , Fuel combustion , Heat transfer , Hypersonic combustion , Hypersonic speed , Mach number , Struts , Supersonic speed , Temperature effects
Hypersonic Propulsion Research
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