Computational flow simulation of liquid oxygen in a SSME preburner injector element LOX postLiquid oxygen (LOX) is simulated as an incompressible flow through a Space Shuttle main engine fuel preburner injector element LOX post for the full range of operating conditions. Axial profiles of axial velocity and static pressure are presented. For each operating condition analyzed, the minimum pressure downstream of the orifice is compared to the vapor pressure to determine if cavitation could occur. Flow visualization is provided by velocity vectors and stream function contours. The results indicate that the minimum pressure is too high for cavitation to occur. To establish confidence in the CFD analysis, the simulation is repeated with water flow through a superscaled LOX post and compared with experimental results. The agreement between calculated and experimental results is very good.
Document ID
19900053559
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Rocker, Marvin (NASA Marshall Space Flight Center Huntsville, AL, United States)