RU2179137C2 - Space solar power station - Google Patents

Abstract

FIELD: space engineering; photoconverters with solar concentrators. SUBSTANCE: proposed power station includes parabolic solar concentrator, its receiver and photocells. Moving circular perforated tape is located between hot wells of receiver and photocells. Tape is provided with interference coat made from silicon and titanium oxides. This coat reflects non- photoactive portion of thermal energy from walls of receiver which are heated by radiation from concentrator. Tape has parts projecting beyond boundaries of receiver for radiation cooling. EFFECT: simplified construction of solar battery; reduced action of non-photoactive portion of thermal radiation on photocells. 2 cl, 1 dwg

Description

 The invention relates to the field of space energy, in particular to space power plants with a solar energy concentrator.

 The closest prototype is a space power plant with a solar energy concentrator, in which, in order to avoid overheating of solar cells, a mirror coating is applied to their inner surface, reflecting the non-photoactive part of radiation (NASA, Ames Research Center, Moffett Field, California 1978, v. 61, p. 148).

 This significantly complicates the design of photocells and does not completely relieve them of overheating, and, accordingly, the efficiency is reduced.

 The objective of the invention is to simplify the design and a fairly complete exclusion of non-photoconcentrated concentrated solar radiation.

 A new type of space solar power station consists of the following elements (see drawing).

 The main element of the station is a tetrahedral receiver 1, into which solar energy concentrated by a parabolic concentrator enters through a window 2 and a cone 3.

 Near the outer surface of the receiver 1 are photocells 4 with radiators 5 of unused heat coming from the walls of the receiver. In the gap between the wall of the receiver 1 and the photocell 4 there is an annular perforated tape 6 with perforation 7 and with a metallized interference coating of silicon and titanium oxides, reflecting the non-photoactive part of solar radiation and transmitting up to 97% of photoactive radiation, it is driven by an electric motor 8 . The station is placed inside the heat shield 9.

 Space solar power station operates as follows.

 Concentrated solar energy is supplied through a window 2 to a cone-shaped additional concentrator 3, from where it enters a receiver 1 through a round window, heating its walls. Thermal energy from the walls is directed to a moving punched tape 6, which reflects the non-photoactive part of the energy, and photoactive enters the photocells 4, connected to the solar battery.

 To avoid overheating of the tape 6, it is cooled by radiation in the parts of the annular tape protruding beyond the receiver 1.

 The drawing shows a schematic diagram of a space solar power station. \

Claims (1)

 Space solar power station, which includes a parabolic concentrator of solar energy, its receiver and photocells, characterized in that between the hot walls of the receiver and the photocells there is an annular perforated tape moving with an electric motor with an interference coating of silicon and titanium oxides deposited on it, reflecting the non-active part thermal energy from these walls, and the tape has protruding beyond the receiver parts for its cooling by radiation.