SU1015201A1 - Solar desalinator - Google Patents

Abstract

SUNNY DESIGNER containing a flat-bottom evaporation chamber and brine outlet, placed over the chamber an optically transparent double-walled lid, the interstitial space of which is divided into cavities hydraulically connected to the desalination water inlets and the evaporation chamber, and a distillate collector, that, in order to increase productivity and reduce the size, it additionally contains water tanks radially mounted under the cover, connected to the oil collection tank, and roofs It is made of a film material and is located at a variable distance from the bottom of the chamber, decreasing from its periphery to the center. (L ate 1C

Description

The invention relates to solar technology, in particular to solar desalination plants.

A solar watermaker is known to contain a flat-bottom evaporation chamber with brine outlet, an optically transparent double-walled lid disposed above the chamber, the interstitial space of which is divided into cavities hydraulically connected with the desalination water inlets and the evaporation chamber, and a distillate collector.

In this desalination plant, solar radiation, passage through glass lenses filled with water, BbinojjHeHHie flat-convex, heat the freshened water. The evaporated water condenses on the flat surface of the lenses and flows through it into the collection of distillate 1.

However, making lenses flat-convex increases the focal length, which reduces the evaporation rate of desalinated water and increases the size of the desalination plant. In addition, the path of condensate along the lens surface to the collector is significant, which causes a loss of part of the condensate.

The purpose of the invention is to increase the productivity and reduce the size of the desalifier.

The goal is achieved by the fact that a solar watermaker containing an evaporation chamber with a flat bottom and a brine outlet branch pipe located above the chamber is an optically transparent double-walled cover, the interstitial space of which is divided into cavities hydraulically connected to the desalination water inlets and the evaporation chamber, and a collection distillate, additionally contains water tanks radially installed under the lid, connected to the distillate collector, and the lid is made of film material and is located from the bottom of the chamber with alternating distance, umenshayuschems from its periphery toward the center.

FIG. 1 shows a structural diagram of a solar desalinator; in fig. 2 - view of desalinator in the plan; in fig. 3 - cover with water collectors near the center of the evaporation chamber, a fragment of the cross section; in fig. 4 - near its periphery.

The solar watermaker contains a evaporation chamber 1 (Fig. 1) with a flat bottom 2 and a brine outlet nozzle 3 located above the chamber 1 of an optically transparent double-wall cover 4, the interstitial space of which is divided into cavities .5 hydraulically connected to the desalination water inlets 6 and evaporation chamber 1, and a collection of 7 distillates. The solar desalination plant additionally contains radially mounted under the lid 4 water tanks 8 connected to the collector 7 of the distillate, and the lid 4 is made of a film material and is located from the bottom 2 of the chamber 1 at a variable

distance decreasing from its periphery to the center.

The double-walled cover 4 (Fig. 2) is divided into cavities 5 by welds and, when filled with desalination water, forms cylindrical two-convex lenses with a variable focal length decreasing to the center of the camera 1 (Fig. 1). The inclination of the lid 4 is selected depending on the geographical latitude of the area where the solar desalination plant is installed. The water collectors 8 (Fig. 3 and 4) are located along the center line of the lenses and can be made in the form of a groove 9 and a strip 10 of fabric whose free end is placed

5 in the collection of 7 distillate ta.

Solar watermaker works as follows.

The desalination water is supplied to the nozzles 6 (Fig. 1) and enters the cavities 5 of the lid 4 from an optically transparent film material, forming a plurality of two-convex lenses with a variable focal length decreasing to the center of the evaporator chamber 1. Solar radiation, refracted by the lenses of the lid 4, it concentrates 5 seconds near the bottom 2 of the evaporation chamber 1, into which the desalinated water enters through the cavities 5 through the cavity 4 which is preheated in the lid 4. The hydraulic communication of the cavities 5 with the chamber 1 is carried out through the slots in the lid 4. The desalinated water flow is selected based on the condition of ensuring its constant level in the evaporation chamber 1. The resulting steam condenses on the inner surface of the lid 4 and distills over the lid 4 and the water collectors 8 into a collection of 7 distillers located

5 in the center of the chamber 1. The brine is discharged from the chamber 1 by means of a nozzle 3.

The implementation of the cover 4 of the film material and its location with an inclination to the center of the evaporation chamber 1 reduces the path of the desalinated water vapor, which reduces the heat loss of the desalination plant. The film material of the lid 4 provides the double-convex shape of the lenses when the cavities 5 are filled with desalinated water. This reduces the focal length of the lenses.

5, thereby ensuring a decrease in the desalination plant size and an increase in its productivity, increasing the concentration coefficient of solar radiation.

The supply of desalination plant with water collectors 8 reduces the loss of distillate, which, in turn, further increases the performance of desalination plant.

However, the resulting tilting of the lenses does not distort the cross-sectional shape of each lens, which allows solar energy to be used more fully.

The productivity of the solar desalination plant is increased 1.2-1.4 times and its manufacture is simplified.

Claims (1)

A SUNNY DESALER comprising a vaporization chamber with a flat bottom and a brine outlet pipe, an optically transparent double-walled cover placed above the chamber, the interwall space of which is divided into cavities hydraulically connected to the desalination water supply pipes and the evaporation chamber, and a distillate collector, characterized in that, in order to increase productivity and reduce dimensions, it additionally contains water collectors radially mounted under the lid connected to the distillate collector, and the lid filled from film material and is located from the bottom of the chamber at a variable distance, decreasing from its periphery to the center. J