High-efficiency concentration/multi-solar-cell system for orbital power generationAn analysis was performed to determine the economic feasibility of a concentrating spectrophotovoltaic orbital electrical power generation system. In this system dichroic beam-splitting mirrors are used to divide the solar spectrum into several wavebands. Absorption of these wavebands by solar cells with matched energy bandgaps increases the cell efficiency while decreasing the amount of heat which must be rejected. The optical concentration is performed in two stages. The first concentration stage employs a Cassegrain-type telescope, resulting in a short system length. The output from this stage is directed to compound parabolic concentrators which comprise the second stage of concentration. Ideal efficiencies for one-, two-, three-, and four-cell systems were calculated under 1000 sun, AMO conditions, and optimum energy bands were determined. Realistic efficiencies were calculated for various combinations of Si, GaAs, Ge and GaP. Efficiencies of 32 to 33 percent were obtained with the multicell systems. The optimum system consists of an f/3.5 optical system, a beam splitter to divide the spectrum at 0.9 microns, and two solar cell arrays, GaAs and Si.
Document ID
19800064037
Acquisition Source
Legacy CDMS
Document Type
Conference Proceedings
Authors
Onffroy, J. R. (Honeywell, Inc. Minneapolis, MN, United States)
Stoltzmann, D. E. (Honeywell, Inc. Minneapolis, MN, United States)
Lin, R. J. H. (Honeywell, Inc. Minneapolis, MN, United States)
Knowles, G. R. (Honeywell Systems and Research Center Minneapolis, Minn., United States)