SU1054632A1 - Solar-power hot water supply plant - Google Patents

Abstract

HELIO INSTALLATION OF NEXT WATER SUPPLY, social services collector / tor of solar energy and located IX.f.ra8. .-. 7 / - “J ;; , m. f.V above it is a tank accumulator with a take-off pipeline connected to a collector by a flexible supply pipe fixed on a float placed in a tank-accumulator, with the aim of increasing. effective work by maintaining the highest temperature in the outfit. The water layer is balanced, the ends of the pipelines are placed horizontally, the extraction pipeline is adjacent to the bottom surface of the float, and the subacmidium pipeline is equipped with a flow regulator and is located relative to the Iliest extraction pipeline And lower than it at a distance equal to the height of the layer to be taken.

Description

This invention relates to solar technology. The well-known solar power plant has a hot water supply, which contains a solar energy collector and a tank with a pipeline located above it.

sampling, connected to the collector by a flexible feed duct, mounted on a float, placed in the tanker flj.

The TieaocraTKOM of a known solar plant is the impossibility of keeping the highest temperature in the entire sampled layer of water, as the boa in the collector is distributed over the surface of the water in the storage tank.

The purpose of the invention is to increase the efficiency of the solar plant by maintaining the highest temperature in the selected water layer.

The goal set is achieved by the fact that in a solar system of hot water and amphibious water, a solar collector is located and a tank accumulator located above it with a withdrawal pipeline connected to the collector by a flexible attached pipeline fixed to the float placed in the accumulator tank, the ends of the pipelines placed horizontally, the extraction pipeline is adjacent to the lower surface of the float, and the supply pipeline is equipped with a flow control valve and is positioned relative to the overlap extraction pipeline and below it to the rails This is equal to the height of the selected layer.

The drawing shows schematically a solar system for hot water supply.

The solar power plant I contains a solar energy collector 1 and a Bakkkumulor 2 located above the Negro with an Exhaust pipeline. The storage tank 2 is connected to the collector 1 by a flexible supply pipe 4 of water fixed on the float 5 placed in the tank-cooler 2. Konts. piping 3 and 4 are placed horizontally, piping 3 is adjacent

to the bottom surface of the float 5. The inlet pipe 4 is provided with a flow regulator in the form of a tip 6 with a calibrated orifice and is positioned relative to the pipeline 3 overlapping and lower at a distance equal to the height h of the layer to be taken. After the cold water to the plant is installed through the feed pipe 7.

Solar power plant works as follows.

Through the feed line 7, the solar plant is filled with water. In the presence of solar radiation, the water in the stake (the lecturer 1 is heated, which leads to a decrease in its density and the emergence of a thermosiphon circulation. At the same time, cold water from the lower part of the storage tank 2 enters the collector 1 and, when heated in it, flows through pipeline 4 to the upper part of the storage tank 2. From the 4 hot water pipeline, the pop-up water mixes out, mixing with water located above the end of the cold water pipe 4. As the whole water height H is heated, it heats up to the temperature required by the consumer. entering the storage tank 2 from the collector 1 is determined by the size of the opening of the tip 6, it is designed to ensure the appropriate flow of water through the collector 1.

When water is supplied near the end of the pipeline 3 with the required temperature, the consumer begins to select hot air. Due to the isothermal heating of the water layer height h, as well as horizontal and overlapping of the ends of pipelines 3 and 4, the consumer receives water of the required temperature during the entire time of selection.

Thus, the water in the selected layer constantly has the highest temperatur., Which increases the efficiency of the solar plant.

Claims (1)

HELIO INSTALLATION OF HOT WATER SUPPLY, containing a solar energy collector / collector and an accumulator tank located above it with a sampling pipe connected to the collector by a flexible supply pipe fixed to the float, placed in the accumulator tank, characterized in that, for the purpose of increasing. work efficiency by maintaining the highest temperature in the selected water layer, the ends of the pipelines are placed horizontally, the sampling pipeline is adjacent to the bottom surface of the float, and the supply pipe is equipped with a flow regulator and is placed relative to the sampling pipe with an overlap and below it at a distance equal to the height of the selected layer. □ Ί □ 5> 0 ί 1054632