The design, operating features, and a possible Neptune orbit for the spacecraft powered by the SP-100 nuclear electric propulsion (NEP) system under study by NASA and the DOE are described. The system features a reactor and a payload situated on opposite ends of a 0.5 m diam, 11 m long astromast. Mercury-ion thrusters are located beneath the reactor for side thrusting, and no contamination of the payload or obstruction of the viewing angles for scientific objectives occurs with the system, which would not degrade in performance even under high insolation during near-sun maneuvers. Results of a theoretical study of earth escapes are presented to show that an NEP powered spiral trajectory out of a 700 km Shuttle orbit and using a Triton gravity assist would be superior to departing from a 300 km orbit with a Centaur boost. The mission profile includes a 1249 kg Galileo payload. The SP-100 has a 1.4 MWth reactor with UO2 fuel tiles and weighs 19,904 kg.
Nuclear electric propulsion /NEP/ spacecraft for the outer planet orbiter mission
Joint Propulsion Conference ; 1982 ; Cleveland, OH
1982-06-01
Conference paper
No indication
English
LO2/LH2 propulsion for outer planet orbiter spacecraft
NTRS | 1983
|LO2/LH2 propulsion for outer planet orbiter spacecraft
AIAA | 1983
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