SU1076711A1 - Self-contained helio complex - Google Patents

Abstract

1. AUTONOMOUS HELIOCOMPLEX, containing a source of salt water, a reservoir with a transparent coating, communicated with a reservoir of devices for receiving and collecting distillate and 4U -144DD l:;. | y ... (I a heated object, characterized in that, in order to expand its functionality, the reservoir is made in the form of a heat storage pool and is equipped with a heat exchanger installed in the lower part of the latter, the coating is hollow and communicated with a source of salt water and a device for receiving and collecting a distillate, and the facility is equipped with a heating system communicated with a heat exchanger. 2. The heliocomplex according to claim 1, characterized in that it further comprises a solar power plant and a water lift connected installing and communicating with a source of salt water and the coating. (-4 L of 1

Description

The invention is fire retardant and is intended for use predominantly in small areas with autonomous power supply. Known autonomous heliocomplex; The device containing a receiving and collecting distillate and a heated object l3, containing a source of salt water, a clear-water reservoir, communicated with the reservoir. A disadvantage of the known heliocomplex is the impossibility of long-term accumulation of solar heat, which limits the functionality of the heliocomplex. The purpose of the invention is to expand the functionality of the heliocomplex. The goal is achieved by the fact that in an autonomous heliocomplex containing a source of salt water, a reservoir with a transparent coating, a device associated with a reservoir: for receiving and collecting distillate and a heated object, the reservoir is made in the form of a heat-accumulating basin and equipped with a heat exchanger installed at the bottom, the coating is hollow and communicated with a salt water source and a device for receiving and collecting distillate, and the object is provided with a heating system communicated with a heat exchanger. The solar complex can additionally contain a solar power plant and a water lift connected with the installation and communicated with a salt water source and a coating. The drawing schematically shows the complex. The autonomous solar complex contains a source of 1 salt water, a reservoir in the form of a thermal storage pool 2 with a transparent coating 3, a device communicating with pool 2 for receiving and collecting distillate in the form of a solar pressure sensor 4 and a heated object 5. Pool 2 is equipped with a heat exchanger 6 installed in its lower part. Coating 3 is hollow and in communication with a source of one hundredth of water and a hepiostreate 4 for receiving and collecting the distillate, and facility 5 is equipped with a heating system communicated with heat exchanger 6. Heliocomplex additionally t solar energy set-up 8 and a water lift 9 connected to the installation: oh 8 and communicated with source 1 and coating 3. The solar power installation contains a concentrator, a boiler 11, a turbine 12, and a capacity 13. the solar gel 4 contains a plastic cell 14 placed in it porous material 15, for example, expanded clay covered with black sand layer 16, glazing 17, grooves for collecting distillate and storage tank 19 for collecting distillate. A fresh water tank 20, a drip irrigation system 21, a scientific research institute liquid tank 22, an expansion tank 23, a consumer-related tank 24 and pumps 25 are also provided. The pool 2 has transparent overlaps 2 6 that divide the pool volume. 2 per case 27. Autonomous Heliokompleks works as follows. Salt water from an underground source 1 is lifted by a water lift 9. Concentrator Yu is used to evaporate heat carrier in boiler 11, which enters the turbine 12, which generates electric power for the operation of water lift 9 and pumps 25 of the autonomous heliocomplex. Then the water enters the tank. 13, from which it is fed into the cavity of the coating 3. The flow of water from the tank 13 is maintained automatically. as it is used in the heliumpressor 4. Solen water in the cavity of the coating 3, heated by penetrating solar radiation, seeps into the heliumpressurizer 4 due to a slight incline, the gaps between the granules and the absorbent property of the porous material 15. Then the water is heated and absorbed a layer 16 of black sand covering the layer of porous material 15, the surface of which is heated by the CE radiation emitted through the glazing 17. As a result of the heating of the salt, water evaporates inside renney glazing surfaces 17, flows into a gutter 18 for collecting distillate, and further - into the vessel 19 for distillate. From the tank 19, the distillate enters the 20-day tank of fresh water, where nociynaeT and salt water are from the tank 13. As a result of mixing, fresh water is obtained, which enters the system 21 of the drip irrigation of the heated object 5. As required, the system 21 of the drip irrigation is connected tank 22 for liquid fertilizers in order to feed irrigated crops

tour. For open ground (sand dunes or desert sands). hitting is carried out with salt water coming from the tank 13.

A heating system 7 circulates in the heating system 7 to prevent corrosion and deposition. Distillate from the 19 nociynaeT tank into the expansion tank 23 and, by circulating in the heat exchanger 6, is heated by taking the cap from the salt water in the lower section 27 of the pool 2 and a higher temperature than the upper sections 27.

The heated distillate is then fed into the heating system 7 of the heated object 5. A portion of the heated distillate from the expansion tank 23 enters the tank 24 for the consumer of hot

water, which is connected to water supply 19 for distillate, which ensures that hot water maintains the desired temperature for the needs of the consumer.

In the neoopitelny period system 7

heating is turned off and all hot water switches to domestic consumption. The circulation of salt and fresh water is carried out by pumps 25,

receiving electricity for operation from a solar power plant 8.

Availability of a device in the system For accumulating heat, it allows the npi system to power objects in the absence of sun. Due to the design features of the system, heat loss during shs accumulation is also reduced.

Claims (2)

1. AUTONOMOUS HELIOCOMPLEX, containing a source of flax water, a reservoir with a transparent coating, a device for receiving and collecting distillate and a heated object in communication with the reservoir, characterized in that, in order to expand the functionality, the reservoir is made in the form of a heat storage pool and is equipped with the lower part of the last heat exchanger, the coating is hollow and communicated with a source of salt water and a device for receiving and collecting distillate, and the object is equipped with a heating system in communication with heat exchanger 2. Heliocomplex pop. 1, characterized in that it further comprises a solar power installation and a water lift associated with the installation and communicated with the salt water source and coating.