Preliminary design study of solar probe heat shields
Abstract
The requirements, constraints, design guidelines, and expected performances of heat-shield systems for a solar probe are analyzed. A multiple-stage, asymmetric, right-angle radiation cascade configuration is used as the basis for comparison. Output-to-input radiative flux ratios are first calculated for a system employing gray surfaces. Assuming that the temperature of the inner surface of the payload bus is allowed to reach 400 K, it is shown that four- and five-stage cascade systems employing graphite can approach, respectively, to within about 5.5 and 4 solar radii of the sun. The systems using slip-cast silica and tungsten are then analyzed accounting for the degradation of surface-optical performance caused by the solar wind. It is shown that two- and three-stage silica-tungsten systems can approach, respectively, to within 4 and 3 solar radii of the sun.
- Publication:
-
AIAA, Aerospace Sciences Meeting
- Pub Date:
- January 1981
- Bibcode:
- 1981aiaa.meetT....P
- Keywords:
-
- Heat Shielding;
- Silicon Dioxide;
- Solar Probes;
- Spacecraft Design;
- Tungsten;
- Heat Transfer;
- Performance Prediction;
- Perihelions;
- Slip Casting;
- Solar Radiation;
- Solar Wind;
- Fluid Mechanics and Heat Transfer