Add to ORKGA fabrication technique was successfully developed for a metallic aluminum honeycomb, high-accuracy, lightweight, and long-life solar concentrator (mirror) for Advanced Solar Dynamic Space Power Systems. The program scope was limited to the development, fabrication, evaluation, and delivery of a solar concentrator facet (petal) that was sized for a 2-meter deployable solar concentrator. A surface accuracy of 1.0 mrad was achieved. The development incorporated tooling design, material selection, facet forming, adhesive selection, testing, and analysis. Techniques for applying levelizing, reflective, and protective optical coatings were also developed
Collectors used in concentrating solar thermal (CST) technology include large mirrors or reflecting ...
Concentrating solar power systems currently have a high capital cost when compared with other energ...
Large compound curved surfaces for collecting and concentrating radiation are fabricated by the use ...
The objective of the advanced concentrator program is to develop the technology that will lead to li...
This report summarizes the results of a study performed by Hughes Danbury Optical Systems, HDOS, (fo...
Candidates for reflector panel design concepts, including materials and configurations, were identif...
This paper describes the modification of a three-electron-beam (EB) gun system for vacuum depositing...
Alcoa began this program in March of 2008 with the goal of developing and validating an advanced CSP...
Commercial, second surface glass mirror are emphasized, but aluminum and metallized polymeric films ...
Materials for highly reflective surfaces for use in parabolic dish solar concentrators are discussed...
Solar concentrators are envisioned for use in a variety of space-based applications, including appli...
In the mid-1990s, NASA plans to orbit a giant telescope, whose aperture may be as great as 30 meters...
The test bed concentrator (TBC) was des point focusing distributed receiver (PFDR) systems. The refl...
Solar Dynamic Space Power Systems are candidate electrical power generating systems for future NASA ...
Thermoelectric conversion using a radio-isotope heat source has been used where outer planetary spac...
Collectors used in concentrating solar thermal (CST) technology include large mirrors or reflecting ...
Concentrating solar power systems currently have a high capital cost when compared with other energ...
Large compound curved surfaces for collecting and concentrating radiation are fabricated by the use ...
The objective of the advanced concentrator program is to develop the technology that will lead to li...
This report summarizes the results of a study performed by Hughes Danbury Optical Systems, HDOS, (fo...
Candidates for reflector panel design concepts, including materials and configurations, were identif...
This paper describes the modification of a three-electron-beam (EB) gun system for vacuum depositing...
Alcoa began this program in March of 2008 with the goal of developing and validating an advanced CSP...
Commercial, second surface glass mirror are emphasized, but aluminum and metallized polymeric films ...
Materials for highly reflective surfaces for use in parabolic dish solar concentrators are discussed...
Solar concentrators are envisioned for use in a variety of space-based applications, including appli...
In the mid-1990s, NASA plans to orbit a giant telescope, whose aperture may be as great as 30 meters...
The test bed concentrator (TBC) was des point focusing distributed receiver (PFDR) systems. The refl...
Solar Dynamic Space Power Systems are candidate electrical power generating systems for future NASA ...
Thermoelectric conversion using a radio-isotope heat source has been used where outer planetary spac...
Collectors used in concentrating solar thermal (CST) technology include large mirrors or reflecting ...
Concentrating solar power systems currently have a high capital cost when compared with other energ...
Large compound curved surfaces for collecting and concentrating radiation are fabricated by the use ...