Shielding analysis for a manned Mars rover powered by an SP-100 type reactor
Abstract
Shield design is one of the most crucial tasks in the integration of a nuclear reactor power system to a manned Mars rover. A multilayered W and LiH shield is found to minimize the shield mass and satisfy the dose rate limit of 30 rem/y to the rover crew. The effect on dose rate of tungsten layers thicknesses and position within the lithium hydride shields is investigated. Due to the large cross section for the W (n,gamma) reaction, secondary gammas become a significant radiation source. The man-rated shield mass for the Mars rover vehicle is correlated to the reactor thermal power. The correlation fits to within 9 percent of the calculated shield mass and results in an uncertainty of below 4 percent in the overall rover mass. The shield mass varied from 8600 kg to 20580 kg for a reactor thermal power of 100 to 1000 kW(t), respectively.
- Publication:
-
Space Nuclear Power Systems
- Pub Date:
- 1991
- Bibcode:
- 1991snpw.proc..347M
- Keywords:
-
- Lithium Hydrides;
- Manned Mars Missions;
- Radiation Shielding;
- Roving Vehicles;
- Space Power Reactors;
- Tungsten;
- Radiation Dosage;
- Reactor Cores;
- Ground Support Systems and Facilities (Space)