Nuclear reactor power for a space-based radar. SP-100 project
Abstract
A space-based radar mission and spacecraft, using a 300 kWe nuclear reactor power system, has been examined, with emphasis on aspects affecting the power system. The radar antenna is a horizontal planar array, 32 X 64 m. The orbit is at 61 deg, 1088 km. The mass of the antenna with support structure is 42,000 kg; of the nuclear reactor power system, 8,300 kg; of the whole spacecraft about 51,000 kg, necessitating multiple launches and orbital assembly. The assembly orbit is at 57 deg, 400 km, high enough to provide the orbital lifetime needed for orbital assembly. The selected scenario uses six Shuttle launches to bring the spacecraft and a Centaur G upper-stage vehicle to assembly orbit. After assembly, the Centaur places the spacecraft in operational orbit, where it is deployed on radio command, the power system started, and the spacecraft becomes operational. Electric propulsion is an alternative and allows deployment in assembly orbit, but introduces a question of nuclear safety.
- Publication:
-
Unknown
- Pub Date:
- August 1986
- Bibcode:
- 1986nrps.book.....B
- Keywords:
-
- Large Space Structures;
- Nuclear Power Reactors;
- Radar Antennas;
- Satellite-Borne Radar;
- Space Based Radar;
- Spacecraft Power Supplies;
- Centaur Launch Vehicle;
- Orbital Assembly;
- Orbital Launching;
- Space Shuttle Payloads;
- Nuclear and High-Energy Physics