Design and test of an oxygen turbopump for a dual expander cycle rocket engineA liquid oxygen (LOX) turbopump with an 860 R gaseous oxygen (GOX) turbine drive was designed for a 3750 lb thrust dual expander cycle rocket engine. This turbopump, which requires no interpropellant seals or system purges, features a 156 hp, single stage, full admission, impulse turbine; an axial flow inducer; a two-stage centrifugal pump with unshrouded impellers; long-life, LOX-lubricated, self-aligning, hydrostatic bearings; and a subcritical rotor design. It is constructed of Monel, a nickel-copper alloy, which has low ignition potential in oxygen. The pump was designed to deliver 34.7 gpm of 4655 psia liquid oxygen at a shaft speed of 75,000 rpm. The dual expander cycle rocket engine and the performance it requires of the LOX turbopump will be discussed as well as the design of the pump, turbine, bearings, and the turbopump rotordynamics. The test program and preliminary test results will also be presented.
Document ID
19890059366
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Buckmann, P. S. (Aerojet TechSystems Co. Sacramento, CA, United States)
Shimp, N. R. (Aerojet TechSystems Co. Sacramento, CA, United States)
Viteri, F. (Aerojet TechSystems Co. Sacramento, CA, United States)
Proctor, M. (NASA Lewis Research Center Cleveland, OH, United States)