High-performance deployable structures for the support of high-concentration ratio solar array modules
Abstract
A study conducted on high-performance deployable structures for the support of high-concentration ratio solar array modules is discussed. Serious consideration is being given to the use of high-concentration ratio solar array modules or applications such as space stations. These concentrator solar array designs offer the potential of reduced cost, reduced electrical complexity, higher power per unit area, and improved survivability. Arrays of concentrators, such as the miniaturized Cassegrainian concentrator modules, present a serious challenge to the structural design because their mass per unit area (5.7 kg/square meters) is higher than that of flexible solar array blankets, and the requirement for accurate orientation towards the Sun (plus or minus 0.5 degree) requires structures with improved accuracy potentials. In addition, use on a space station requires relatively high structural natural frequencies to avoid deleterious interactions with control systems and other large structural components. The objective here is to identify and evaluate conceptual designs of structures suitable for deploying and accurately supporting high-concentration ratio solar array modules.
- Publication:
-
Final Report Astro Aerospace Corp
- Pub Date:
- October 1985
- Bibcode:
- 1985aac..rept.....M
- Keywords:
-
- Concentrators;
- Solar Arrays;
- Space Erectable Structures;
- Space Stations;
- Structural Design;
- Cassegrain Optics;
- Design Analysis;
- Modules;
- Supports;
- Engineering (General)