Lightweight moving radiators for heat rejection in space
Abstract
Low temperature droplet stream radiators, using nonmetallic fluids, can be used to radiate large amounts of waste heat from large space facilities. Moving belt radiators are suitable for use on a smaller scale, radiating as few as 10 kW from shuttle related operations. If appropriate seal technology can be developed, moving belt radiators may prove to be important for high temperature systems as well. Droplet stream radiators suitable for operation at peak temperatures near 300 K and 1000 K were studied using both freezing and nonfreezing droplets. Moving belt radiators were also investigated for operation in both temperature ranges. The potential mass and performance characteristics of both concepts were estimated on the basis of parametric variations of analytical point designs. These analyses included all consideration of the equipment required to operate the moving radiator system and take into account the mass of fluid lost by evaporation during mission lifetimes. Preliminary results indicate that low temperature droplet stream radiator appears to offer the greatest potential for improvement over conventional flat plate radiators.
- Publication:
-
Final Report Astro Research Corp
- Pub Date:
- November 1981
- Bibcode:
- 1981arc..rept.....K
- Keywords:
-
- Heat Radiators;
- Radiative Heat Transfer;
- Structural Weight;
- Systems Engineering;
- Thermal Diffusion;
- Drops (Liquids);
- Heat Exchangers;
- Hydraulic Equipment;
- Kinetic Energy;
- Pumps;
- Solar Power Satellites;
- Surface Diffusion;
- Fluid Mechanics and Heat Transfer