SU1020712A1 - Floating solar-powered desalination plant - Google Patents

Abstract

1. FLOATING SUPERPRESSOR, containing a transparent case in rtov coaxially installed in it. The evaporator element and the ring, distillate with a discharge of natjy QM, we take the case and the evaporation element have a heading, about the l and - (L because, for the purpose of the HcnapeiJbi process, the case is equipped with an air nozzle with a sanopHbLM valve, and the dnsl collection is filled in the form of popsicus, the upper wall of which is filled with an internal wall of mind 2. The helium desalinator according to claim 1, including in the wall of the collection dxn Fa Fa rysholnena in the form of a V-shaped gutter whose dasho has a slit . "3.Gelioopresnitel claim. Ij wherein a shrvtelshly member is a metal mesh aanepAiik IRINA.

Description

The invention relates to solar technology, in particular to stand-alone floating desalination plants.

A floating solar desalter containing a transparent case is known, and a coaxial * ⁵ hygroscopic evaporation element and an annular distillate collector with a discharge pipe, installed in it, the body and the evaporator _1Q element have floats £ 1].

A disadvantage of the known desalination plant is the low evaporation rate of desalinated water.

The purpose of the invention is the intensification of the evaporation process.

The goal is achieved by the fact - that in a floating gelioopresnitele containing transparent housing and coaxially mounted therein hygroscopic evaporating element ²⁰ and the annular sbor- distillate nick with the discharging pipe, wherein the housing and evaporating element are floats, the housing is provided with an air nozzle with a locking it ventyl and the distillate collector is made in the form of a hollow float, the upper wall of which is made conjugated with the inner ₍ inner surface of the body).

The upper wall of the distillate collector can be made in the form of a V-shaped ³⁰ groove, the bottom of which has a slot. In addition, the evaporation element can be made in a kind of blackened metal mesh.

The drawing schematically depicts 35 of the proposed desalination device.

The solar desalter contains a transparent casing'1 and a hygroscopic evaporation element 2 and an annular collector 3 of dis-40 distillates 4 with a discharge pipe 5 coaxially mounted in it. Housing 1 and the evaporation element 2; have floats 6 and 7, respectively. Housing 1 is equipped with an air outlet cartridge * ^ clove 8 with shut-off valves E. Sbornik / 45 3 distillates are made in the form of a hollow float 10, the upper wall 11 of which is paired with the internal>

the surface of the housing 1. The wall 11 is made in the form of a * N-shaped trough, the bottom 12 of which has a gap. Element 2 is made in the form of a blackened metal mesh.

Before starting work in the housing 1 creates a vacuum. For this, the housing 1 with the open valve 9 of the pipe 8 is immersed at a portion of the height in water, after which the valve 9 is closed. Under the action of the buoyancy force provided by the float 6, the housing 1 pops up and a vacuum is created inside the housing. In this case, the water level in the housing 1 rises slightly above the water level in the reservoir.

The solar desalter operates as follows.

The sun's rays, getting inside the solar desalter, heat the metal mesh of the element 2, through the cells of which the water evaporates and then condenses on the inner surface of the housing 1. Condensate flows along the upper wall 11 of the float 10 through the slot in the bottom 12 into the condensate collector 3, from where it is periodically drained through pipe 5 to the consumer. Condensate, re-evaporated in the cavity of the float 10, condenses on the inner surface of the wall 11 and flows along it to the bottom of the float 10, Element 2, made of metal.

, which mesh, has high thermal conductivity and hygroscopicity. Calculations ·. show that the evaporation process is more intense, the less the mass of the housing 1 and the density of the float 6.

_; The proposed technical solution, in comparison with the known ones, provides increased productivity due to the possibility of regulating the pressure inside the solar desalination case, the design of the condensate collector and the design of the evaporating element in the form of a blackened metal mesh, as well as the transportability of the device due to its simple and light design and simpler manufacturing technology .

Claims (3)

1. A FLOATING HELIO-DESCRIPTOR containing a transparent body and coaxially mounted in it are hygroscopic evaporating element and an annular, distillate collector with a discharge pipe, moreover, the housing and the evaporating element have floats, t and f 1 Z, which, in order to intensify the evaporation process, the body is equipped with an air outlet with a shut-off valve, and the distillate collector is made in the form of a dead float, the upper wall of which is made conjugated with the inner surface of the body wall. 2. Solar desalter according to π. 1, characterized in that the upper wall of the collection of distillate vyupnen in the form of a V-shaped groove, the bottom of which has a gap. , 3. The solar desalter according to claim 1 *, characterized in that the evaporation element is made in the form of strips · a non-metallic mesh.