RU65395U1 - Desalination plant - Google Patents

Abstract

The utility model relates to devices for desalination of sea water by evaporation and subsequent condensation. The purpose of development is to simplify the design. The desalination plant contains a discharge pump through a pipe connected to a vortex evaporator, which through its outlet pipe is connected to a condensate collecting tank, and there is a condenser in the tank, into which coolant enters and exits through the pipes. The tank has an additional nozzle connected to a fan or vacuum pump. The vortex evaporator has a nozzle for brine removal. This design can find application in the desalination of sea water for the needs of the population and industry

Description

The utility model relates to devices for the desalination of sea water through evaporation and subsequent condensation.

Known evaporative desalination plant, containing an evaporator with a tank in communication with the vortex chamber, which is connected through channels to a cavitation-vortex heat generator, and the tank through the steam supercharger communicates with a condensing device, a heat exchanger for heating the incoming liquid, channels for condensate drain and brine outlet RU 2234355 MPK B 01 D 3/06 2004

The disadvantages of the known evaporative desalination plant are the design complexity and high energy costs in the process of desalination of sea water.

The tasks for which the proposed solution is directed are simplification of the design and reduction of energy costs.

The technical result is achieved by the fact that the desalination plant comprises an evaporator, a capacitor, a condenser, a heat exchanger for heating the incoming liquid, channels for condensate drain and brine outlet, while the evaporator is made in the form of a vortex evaporator connected to a container in which there is a condenser, and the vortex evaporator is connected to the inlet discharge pump, and in the tank there is an additional nozzle connected to a fan or to a vacuum pump.

The drawing shows a desalination plant:

figure 1 is a General view.

The desalination plant comprises a pressure pump 1, which is connected through a pipe 2 to a vortex evaporator 3, which, through its outlet pipe 4, is connected to a container 5 for collecting condensate, and in a tank 5

there is a condenser 6 into which coolant enters and exits through nozzles 7 and 8 (this can be a refrigerant of a refrigerating machine or cold sea water.) In the tank 5 there is an additional nozzle 9 connected to a fan 10 or to a vacuum pump. The pipe 11 of the vortex evaporator 3 is used to drain the brine. A heat exchanger for heating the incoming liquid into the vortex evaporator 3 is known in practice and is not shown in the drawing; it can be, for example, a solar collector for heating a liquid.

The principle of operation of the desalination plant is as follows. Sea water, preheated to a certain temperature, for example in a solar collector up to 40 degrees. the injection pump is fed into the vortex evaporator 3 (The vortex evaporator is a cochlear-shaped chamber, where the liquid entering it swirls through channels whose radius decreases along the liquid, while regions of reduced pressure form in the liquid and the liquid boils at low temperatures, for example, at 30 degrees .. A detailed description of the vortex steam generator is given, for example, in the description of the invention No. 419687)

In the vortex evaporator 3, the liquid boils and through the outlet pipe 4 in the form of steam enters the tank 5, the brine through the other outlet pipe 11 is discharged.

In the tank 5, steam condenses on the plates of the condenser 6. For more efficient separation of steam from the brine in the vortex evaporator 3, certain pressure conditions must be observed in the tank 5, for this purpose a fan 10 (or vacuum pump) is installed, which through the additional pipe 9 provides the most optimal modes pressure at the corresponding condensation temperature of the incoming steam.

This design allows for the desalination of sea water at low energy costs and a temperature of heated water 25-40 degrees. Celsius.

Claims (4)

1. Desalination plant, comprising an evaporator, a capacitor, a condenser, a heat exchanger for heating the incoming liquid, channels for condensate drain and brine outlet, characterized in that the evaporator is made in the form of a vortex evaporator connected to a container in which there is a condenser, and the vortex evaporator is also connected through an inlet pipe with a discharge pump. 2. Desalination plant according to claim 1, characterized in that the heat exchanger for heating the incoming liquid is connected to the discharge pump through the inlet of the discharge pump. 3. Desalination plant according to claim 1, characterized in that the heat exchanger for heating the incoming liquid is connected to the discharge pump through its outlet pipe, with a vortex evaporator through the inlet pipe of the vortex evaporator. 4. Desalination plant according to claim 1, characterized in that the tank has an additional nozzle connected to a fan or a vacuum pump.