SU914894A1 - Solar unit for heating and hot water supplying - Google Patents

Description

one

The invention relates to solar technology.

"The solar system for heating and hot water supply is well-known, containing a solar water heater connected in a closed circuit and a heat accumulator coil, the cavity of which is in communication with a hot water consumer and forms a closed loop with series-connected heat doubler and heating appliances [1].

The disadvantages of the known system are the impossibility of using the system in areas with high salinity of water in natural sources, as well as low efficiency of solar energy use in the non-heating season.

The purpose of the invention is to expand the scope of 1 application of this installation.

This goal is achieved in that the installation is equipped with a heliopressor with a distillate collector and a heat exchanger installed in the bottom of the helium desiccator, connected in a closed loop with a water heater, and the distillate collector is connected to a hot water consumer, a water heater and a battery compartment.

2

FIG. 1 shows the layout of the proposed installation; in fig. 2 - section A-A in FIG. 1, the design of solar helium.

The installation contains connected in a closed loop solar water heater 1 and coil 2 tellurium 3, the cavity of which is connected to the consumer 4 hot water and forms a closed loop with series-connected thermal backup 5 and heating devices 6, as well as solar desalination 7 with collection of 8 distillate and installed in the bottom 9 solar heater 7 heat exchanger 10 connected in a closed loop with the water heater 1, and the distillate collector 8 is connected to the hot water consumer 4, the water heater 1 and the cavity of the heat accumulator 3. Installing the insulator is powered by a natural reservoir 11.

The installation works as follows.

Before turning on the installation, the water from the reservoir 11 is fed to the helium freshener 7, where it evaporates and condenses to form a distillate that is fed to the distillate collection 8. From collection 8, the distillate enters the water heater circuit 1 -

coil 2 and in the cavity of the teloaccumulator 3.

914894

After filling the main hydraulic circuits with the distillate, the installation can operate in two modes.

In the first mode, during the heating season, the water is heated in the water heater 1 and enters the coil 2, from where it returns to the water heater 1. In the coil 2, the water is cooled, heating the water filling the cavity of the heat accumulator 3. From the cavity of the heat accumulator 3, the hot water enters as in the heating devices 6, having cooled in which, ¹⁰ returns to the cavity of the heat accumulator 3 and to the consumer 4 hot water again. Before distributing hot water to the consumer, it is cooled to the required temperature by mixing cold water from distillate collector 8, and, if necessary, the heat doubler 5 is turned on.

In the second mode, in the non-heating season and on relatively warm days, when the demand for hot water for heating decreases or disappears, the consumption of water heated in the water heater I in the circuit of the water heater I - coil 2 decreases. Part hot water from the water heater I enters the heat exchanger Yu, and, after cooling, it returns to the water heater I. ²⁵ At the same time, the desalinated water in the solar water heater 7 is further heated and the evaporation rate of the desalination water increases. In the non-heating season, the heat doubler 5 and the heaters 6 are switched off.

All other devices in the second mode work the same way as in the first one.

Thus, the application of the proposed installation allows you to provide heating and hot water in areas with water sources with high salinity. At the same time, the efficiency of solar energy use increases, since the energy not used for heating and hot water supply is consumed by the desalination plant.

Claims (1)

Claim Solar installation for heating and hot water supply, containing a solar water heater connected in a closed circuit and a heat accumulator coil, the cavity of which is connected to a hot water consumer and forms a closed loop with series-connected thermal backup and heating appliances, characterized in that, in order to expand the scope, it is equipped with a solar thermal generator with a distillate collection and a heat exchanger installed in the bottom of the solar thermal generator connected in a closed loop to the water heater Lem, and the collection of distillate is connected to the consumer of hot water, the water heater and the cavity of the heat accumulator.