Performance and stability of a booster class LOX/hydrogen swirl coaxial-element injectorInitial tests were conducted with an axisymmetric subscale version of the Advanced Launch System (ALS) prototype injector, with a pattern of pressure-atomizing LOX-swirled injector elements flowing about 50 percent more propellant per element than the Space Shuttle Main Engine injector element. The swirl coax combustion was statistically stable and quiet with and without combustion stability aids. Artificial perturbations to assess dynamic stability generated overpressures from 2 to 15 percent of chamber pressure, and all combustion oscillations were damped within 3 millisec. Chug-free throttle was demonstrated to 65 percent of the nominal operating chamber pressure. Combustion performance in an ablative-lined chamber was calculated with both specific impulse and characteristic exhaust velocity, and averaged about 97 percent. Combustion performance of the injector element depended upon the momentum angle of the injected propellants rather than the shearing rate of the fuel on the oxidizer.
Document ID
19910059418
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Hulka, J. (Aerojet-General Corp. Sacramento, CA, United States)
Schneider, J. A. (Aerojet, Propulsion Div., Sacramento CA, United States)
Dexter, C. E. (NASA Marshall Space Flight Center Huntsville, AL, United States)