SU1746156A1 - Solar power plant - Google Patents

Abstract

The invention relates to solar technology and can be applied in devices for using solar heat for domestic and industrial needs using a heat transfer fluid. To increase the efficiency of solar energy and reduce the material consumption of the structure, a fermenting medium is used as a heat carrier, which is filled with an accumulator tank 5 divided by a vertical partition 6 into two sections 7, 8. signaling devices 11, 12 levels of coolant, and the lower ones communicate with each other through the solar collector. This makes it possible to increase the rate of circulation of the coolant through the channels of the solar collector and the efficiency of using solar energy, as well as to reduce the material consumption of the structure. 1 sludge. sl С 2 о с о о

Description

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The invention relates to solar technology and can be applied in devices for using solar heat for household or industrial needs using a heat transfer fluid,

A solar plant is known, which contains a solar collector filled with coolant and connected via feed and return pipelines to a storage tank 1.

The disadvantages of this design are low efficiency of using solar energy and its high consumption of materials.

Closest to the proposed is a solar power plant containing a solar collector filled with a liquid heat carrier and a sectional storage tank.

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A disadvantage of this device is the low efficiency of using solar energy due to the low rate of circulation of the coolant through the solar collector. It is known that the rate of circulation of a liquid heat carrier to thermal siphons in solar plants is due to its natural convection when heated by the sun by placing the solar collector below the storage tank. constructions and complicates solar maintenance

The aim of the invention is to increase the efficiency of solar energy use by intensifying the circulation of heat-transfer agent and reducing the material intensity of the structure.

The goal is achieved by the fact that in a solar plant containing a solar collector filled with a liquid heat carrier and a sectional storage tank battery, according to the invention, the storage tank sections are formed by a continuous vertical partition, they communicate with each other through the solar collector, and the coolant is the coolant.

Solar power plant is shown in the drawing.

The solar plant contains a solar collector 1, filled with a fermenting medium 2 and connected by means of supply 3 and return 4 pipelines to a sectional tank-accumulator 5, which is divided by a vertical partition b into

sections 7 and 8. The solar system is also equipped with nozzles with solenoid valves 9,10 and alarms 11, 12 of medium level 2, which are located in the upper ch

STI sections 7, 8 and are connected to the block 12 controls. The sockets 14, 15, 16, 17 are used to fill and empty the storage tank 5, the lower parts of sections 7 and 8 are connected to the feed 3 and the reverse

0 pipelines.

Solar power plant works as follows.

The control unit 13 is turned on, which generates a signal for opening the solenoid valve 9 and closing the solenoid valve 10. Opening the sockets 14, 15 and when the nozzle P is closed fill the section 8 of the storage tank with the fermenting medium 2 through

0 by pump power (not shown). After filling the section 8, the nozzle 15 is closed, continuing to pump the fermenting medium 2, which flows through the pipeline 3, the solar collector 1, the pipe

5 pipe 4 to section 7. When medium 2 reaches the level specified in section 7, it is stopped and nozzles 14, 17 are closed. The carbon dioxide (CO2) released during fermentation of medium 2 fills the upper part of section 8, creates pressure in it which displaces medium 2 through pipeline 3, the solar collector 1. pipeline 4 to section 7. In view of the fact that the solenoid valve 9 is open and the pressure in

5 of section 7 is equal to atmospheric, it is filled with medium 2 until it reaches the level indicator 11, after which the control unit 13 generates a signal to close valve 9 and open valve 10.

0 The medium formed during the fermentation of 2 С02 fills the upper part of section 7, creates pressure in it which displaces medium 2 through pipeline 4, solar collector 1, pipeline 3 to section 8. Upon reaching

5, the medium 2 of the level indicator 12 triggers the control unit 13, which switches the valves 9 and 10. After this, the described process is repeated several times during the whole fermentation cycle. It is sunny

0, the energy supplied to the collector 1 heats the medium 2, which, moving by means of CO2, enters sections 7 and 8 of the storage tank 5. Due to the pressure C02, the presence of the partition 6 and the level signaling device, the installation provides intensive circulation channels of the solar collector when it is placed both below and above the battery pack. This increases the efficiency of solar energy use.

Claims (1)

In addition, the proposed technical solution allows the battery tank to be placed on the ground below the solar collector, which eliminates the need to install massive support structures and reduces the consumption of materials for the installation. The invention The solar power plant, containing a solar collector, filled with coolant, connected by means of supply and return pipelines to a sectional tank-battery, is tl and h a0 In order to increase the efficiency of solar energy use by intensifying the circulation of coolant, the storage tank is divided into sections by a vertical partition and equipped with branch pipes with solenoid valves and heat level detectors installed at the top of the storage tank. The return and supply pipelines are connected to the sections in the lower part, and the coolant is a ford sugar containing medium.