SU1247631A1 - Solar heat unit - Google Patents

Description

The invention relates to solar technology, in particular to solar power plants for heating water.

The purpose of the invention is to increase the specific power and operational reliability of a solar plant by modularly performing it and increasing the compactness of the structure, as well as reducing heat loss by radiation through the use of selective coatings. -. :

The drawing shows a constructive scheme of the solar power plant. :

The solar plant contains a concentrator 1 energy receiver 2, covered by a layer of thermal insulation 3, and located in the last in the focal zone of the concentrator 1, the power supply 4.

The hub 1 is made in the form of a cover 5, formed in the same plane by the lenses 6 and hermetically fixed above the heat insulating layer 3 on the energy receiver 2, made flat, and the power supply 4 is made in the form of heat-conducting metal rods 7 according to the number of lenses 6 fixed on the energy receiver 2 and the protruding ends 8 into the gap 9 between the cover 5 and the thermal insulation layer 3.

The ends of the 8 terminals 7 closed optically transparent caps 10 with internal

a selective coating fixed on the thermal insulating layer 3. The area of the end face 8 of each rod 7 exceeds the area of the focal spot of the lens 6.

The material of the rods 7 can be used copper, aluminum and other heat-conducting metals. Several solar power plants of the same type can be interconnected in parallel or in series, and the connecting pipelines 0 can be insulated.

Solar power plant works as follows.

Solar radiation is concentrated

lenses 6 of the cover 5 at the ends of 8 rods 7,

heating them up. Heat through the metal rods is supplied to the receiver 2 of energy and from

him to the water.

The heat radiation of the rods 7 is shielded by the caps 10 having a selective coating.

Q The flat design of the geolining installation allows the most complete use of the incoming radiation energy and, with minimal thermal voltages, the energy receiver transmits it to water, which results in an increase in the operational reliability of the solar power plant and its specific power. The size and weight of the solar system is reduced.

Claims (2)

1. HELIOinstallation, containing a concentrator, an energy receiver covered by a layer of thermal insulation, and located in the latter in the focal zone of the concentrator, an energy supply, characterized in that, in order to increase the specific power and operational reliability, the concentrator is made in the form of a cover formed in one planes with lenses and hermetically fixed above the thermal insulation layer on the energy receiver, made flat, and the energy supply is made in the form of heat-conducting metal rods according to the number of lenses, are fixed x on the energy receiver and protruding ends in the gap between the cover and the insulation layer. 2. Solar installation according to π. 1, characterized in that, in order to reduce heat loss by radiation, the ends of the rods are closed with optically transparent caps with an internal selective coating, mounted on a layer of thermal insulation. SU „„ 1247631