SU1374000A1 - Solar power system - Google Patents

Abstract

The invention relates to solar heat supply systems and allows for increased efficiency in the use of solar energy. The solar collector 1 and the storage tank 2 are connected in series with each other by the heated coolant (TH). A heat exchanger (TO) 4 chemically treated water, 5 water purification installation, 6 raw water TO, interconnected autonomous heat source 7 and deaerator 8 connected with installation 5, as well as (TO) 9 and 10 are installed on the feed line 3 and for TO 6 and connected to the heating unit to the source 7. TO 10 is installed to TO 4 and connected to the storage tank 2 and to the storage tank 9 and to TO 9 o The solar system allows for the modification of existing fuel boiler houses at minimal cost. 1 il. (L

Description

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The invention relates to solar technology, namely solar heating systems.

The purpose of the invention is to increase the efficiency of solar energy use.

The drawing shows a structural diagram of the heliosystem.

The solar system contains a solar collector 1 and a storage tank 2 connected in series to the heated coolant; the heat exchanger 4 of the water is cleaned on the feed pipe 3, the water purification installation 5, the raw water cleaning heat exchanger 6 and the independent heat exchanger 6 connected to each other heat source 7 and deaerator 8 associated with installation 5 of water treatment. The heliosystem additionally contains heat exchangers 9, 10 placed on the supply pipe 3, the first of which is installed behind raw water heat exchanger 6 and connected via a heating medium to a heat source 7, and the second behind heat exchanger 4 chemically purified water and connected to a heating coolant the storage tank 2 and the first heat exchanger 9. The deaerator 8 is in communication with the evaporation cooler 11 and the vacuum pump 12. The circulation heat carrier circulation uses the hot water supply pump 13, the internal circulating air 14. Water and pump 15 raw water. The heating valves (water) have control valves 16, 17 installed on the pipelines, and a control valve 19 on the heated water pipeline 18. The helio-system is connected to the source 20 of raw water and the consumer 21 "

Heliosystem works as follows.

Solar collector 1 is supplied with dry-cleaned and deaerated water from storage tank 2 using an internal circulation pump 14, which pumps water into heat exchangers 4 and 6, where the water is cooled and then cooled enters the solar collector 1, where it is heated and returned to storage tank 2. The flow of water through the solar collector 1 is controlled by the valve 19 depending on the intensity of solar radiation.

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The raw water from the water supply source 20 is supplied by the pump 15 to the heat exchanger 6, where it is heated by water from the storage tank 2 to a temperature that depends on the adjustable valve 19 of the water flow through the solar collector 1. Reheat the raw water to the temperature

Q at which chemical water treatment occurs under optimal process conditions (), occurs in a heat exchanger 9 connected to the boiler by a pipe on which it is installed

15 control valve 16. Next, the raw water is supplied to the water cleaning unit 5, after which it is preheated in the heat exchanger 4 with a solar circuit water and a final reheat to a temperature from which water must flow to the deaerator 8 (- 50 C), in the heat exchanger 10, thermal capacity of which is controlled by valve 17,

25 on the heating water pipe from the boiler. From the deaerator 8, the water enters the storage tank 2 and pump 13 is supplied to the consumer 21.

30 The use of the invention will make it possible to provide a modification of the existing fuel boiler houses at minimum cost.

Claims (1)

Invention Formula A solar system containing a solar collector and a storage tank connected in series through the heating coolant, a heat exchanger of chemically treated water installed on the feed pipe, a chemical water treatment unit, a raw water heat exchanger, and an independent source of heat and a deaerator associated with the chemical water treatment unit connected to each other, characterized in that, in order to increase the efficiency of solar energy use, the solar system additionally contains heat exchangers in the feed pipe, the first of which is installed behind the raw water heat exchanger and connected via a heating medium to a heat source, and the second behind the heat exchanger of chemically purified water and connected to a heating tank with the first heat exchanger.