SU1218263A1 - Solar plant - Google Patents

Description

The invention relates to solar technology, in particular to solar power plants for converting solar energy. The purpose of the invention is to increase the operational reliability of a solar plant by preventing its radiation converter from overheating during start-up periods.

The drawing shows the structural scheme of the proposed solar system.

The solar plant contains a concentrator 1 and a cooled radiation converter 2 located in its focal zone with a protective coating 3 made of a material with optical transparency increasing with heating. The solar power plant is equipped with a cooler 4 of the converter 2, made in the form of, for example, a heat pipe. The cooler 4 can be made in the form of a radiator. The protective coating 3 can be applied directly onto the surface of the transducer 2 which is sensitive to concentrated radiation (not shown. The protective coating 3 can be applied to the inner surface of the optically transparent envelope 5. The paraffin, stearin, and mixtures can be selected as the materials of the protective coating 3. , wax and others, characterized by optical transparency in the molten state and having a matte color in the solid state.

In the mentioned embodiments of the coating 3, its thickness is determined by the wettability of the surface to which the coating 3 is applied. If necessary, an increase in the fraction of the radiation energy retained by the coating 3 is applied.

Editor S. Lisin

Compiled by P. Shenderovich

Tehred O. Netsecorrector A.Zimokosov

Order 1124/50 Circulation 650, Subscription

VNII1M USSR State Committee for Inventions and Discoveries 4/5, Moscow, Zh-35, Raushsk nab. 113035

Branch ShSh Patent, Uzhgorod, Proektna St., 4

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The coating material 3 is placed between two transparent shells that prevent its spreading (not shown).

The solar system works as follows.

At the time of solar solar pointing, the radiation focused by concentrator 1 is largely absorbed by coating 3, for example, from paraffin, which in the solid state has a matte color. Paraffin melting time under actual operating conditions can last from several seconds to tens of seconds depending on weather conditions and coating thickness 3. In the liquid state, paraffin restores its optical transparency and, thanks to the free surface microrelief, provides the converter with a uniform stream of concentrated radiation. The damping of the radiation flux incident on the converter 2 during the start-up period of the solar plant allows the cooler 4 to enter the operating mode, which prevents the converter 2 from overheating. Using 3 materials for coating that restore their optical transparency during the phase transition to the liquid state Converter 2 makes the stream of concentrated radiation more uniform, which prevents local overheating of converter 2.

These advantages increase the operational reliability of a solar plant without its constructive complexity and cost increase.

Claims (1)

A HELIOinstallation containing a concentrator and a cooled radiation converter with a protective coating located in its focal zone, characterized in that, in order to increase operational reliability, the protective coating is made of a material with an increase in optical transparency upon heating.