RU182041U1 - SUNNY DESALER - Google Patents

Abstract

A solar desalination plant is proposed comprising a flat bottom evaporation chamber, a cover with lenses focusing sunlight into the evaporation chamber, and water collectors into which the distillate flows down the inner walls of the cover. In this case, the evaporation chamber is located in a reservoir with salt water and is made in the form of at least one buoy located along the perimeter of a flat perforated bottom, while on the buoys a cover is fixed, the surface of which is made in the form of Fresnel lenses focusing sunlight on the surface of the evaporative cameras. Water collectors are located on at least one buoy close to the inside of the lid. The technical result is an increase in the autonomy and reliability of the desalination plant. 5 cp f-ly, 2 ill.

Description

The proposed utility model relates to the field of water distillation for food and technological purposes and can be used in countries with hot, dry climates using solar energy.

Known desalination plant, see patent for the invention of the Russian Federation No. 2412909 from 02.27.2011. This desalination plant contains a water source, a source water pump, a source water heat exchanger-heater, a centrifugal vortex steam generator, a steam condenser, a condensate storage tank with a discharge pipe. The source water heater is made in the form of a heating tank that receives the energy of the sun through focusing reflectors or lenses. The water inlet pipe of the centrifugal vortex steam generator is connected to the heater tank through a circulation pump, while the water outlet pipe of the centrifugal vortex steam generator is also connected to the heater tank, forming a closed circulation system.

The disadvantage of this solution is the low reliability and complexity of the device, due to the fact that desalinated water must always be pumped to the desalination unit.

Known solar desalination, see copyright certificate No. 1015201, from 04.30.1983. This desalination plant is:

a flat bottom evaporation chamber with a brine outlet,

a lid of film material with cavities filled with water that form lenses focusing sunlight into the evaporation chamber,

and sumps into which the distillate flows down the inner walls of the lid.

The disadvantage of this solution is the low reliability and complexity of the device, due to the fact that desalinated water must also be constantly pumped into the evaporation chamber and into the lid, where salt deposits appear during prolonged use and the device may stop working.

The closest technical solution is a solar desalination plant, see copyright certificate No. 1020712, dated 05.20.1981. This desalination plant includes: an evaporation chamber with a transparent cover and a flat perforated bottom, mounted on floats (buoys) and a water collector located close to the inside of the cover.

The disadvantage of this solution is the insufficiently high evaporation rate and autonomy.

The proposed solution is aimed at eliminating the above disadvantages, namely, aimed at creating an autonomous and reliable desalination plant operating without electricity with increased evaporation rate.

The technical result is an increase in the evaporation rate and autonomy.

The technical result is achieved by the fact that the solar desalination plant comprises a flat-bottom evaporation chamber, a cover with lenses focusing sunlight into the evaporation chamber, and water collectors into which the distillate flows down the inner walls of the cover. In this case, the evaporation chamber is located in a reservoir with salt water and is made in the form of buoys located around the perimeter of a flat perforated bottom. A lid is fixed on the buoys, the surface of which is made in the form of Fresnel lenses focusing sunlight on the surface of the evaporation chamber, and water collectors are located on the buoys close to the inside of the lid.

The surface of the lid is selected based on the best rolling droplets of the distillate into the catchment.

The perforated bottom is usually made of dark color, while they have the ability to attach to the buoys at different levels.

Desalination cover is preferably made of polycarbonate. In addition, at least one blowing fan may be provided in the lid.

In FIG. 1-2 - shows schematic views of the proposed desalination plant with various roof options.

The desalination plant shown in FIG. 1-2 works as follows. First, the design of the desalination chamber’s evaporation chamber is mounted, for this purpose buoys 1 are placed, fixed around the perimeter of the perforated bottom 2. There can be several buoys, and they can be fastened to each other by any means, forming preferably rectangular or square shapes (shapes can be and others a circle, oval) with a hole in the center, in which there is a perforated bottom, which can be located at different levels in height relative to the buoys.

Then, a cover 3 corresponding to the shape of the buoys is mounted on the buoys, and the cover is made of a transparent material, for example polycarbonate, and in its construction has lenses 4, for example, Fresnel lenses, made over the entire surface of the cover. In this case, the cover lenses are calculated so that they focus sunlight into the region of the evaporation chamber, and the inner surface of the cover is designed so that the condensed condensate slides along the walls in the best way and gets into the water collectors 5.

The sumps 5 are installed last, on the buoys close to the inside of the lid 3, respectively, the shape of the bottom of the lid must match the shape of the sumps 5.

In addition, in the proposed desalination device in the lid may be exhaust fans (not shown in the figures), powered by solar panels located on the lid.

The main features of the design of a solar desalination plant have been disclosed above, but it is obvious to any person skilled in the art that on the basis of the disclosed data it is possible to create design variations, for example, making the bottom round or triangular with different geometric roof options.

Claims (6)

1. A solar desalination plant comprising a flat bottom evaporation chamber, a lid focusing sunlight into the evaporation chamber and water collectors, wherein the evaporation chamber is made in the form of buoys located along the perimeter of a flat perforated bottom, a lid is fixed on the buoys, and the water collectors are located close to the buoys to the inner side of the cover, characterized in that the evaporation chamber is located in a reservoir of salt water and its surface is made in the form of Fresnel lenses focusing sunlight on the surface and pairing chamber. 2. Solar desalination plant according to claim 1, characterized in that the surface of the lid is selected based on the best rolling drops of distillate into the water collectors. 3. Solar desalination plant under item 1, characterized in that the perforated bottom is made of dark color. 4. Solar desalination plant under item 1, characterized in that the perforated bottom has the ability to attach to the buoys at different levels. 5. Solar desalination plant under item 1, characterized in that the lid is made of polycarbonate. 6. Solar desalination plant according to claim 1, characterized in that at least one blowing fan is made in the lid.

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