SU1186575A1 - Sea water demineralization plant - Google Patents

Abstract

1. INSTALLATION FOR WATER DESERTATION, containing an air humidifier, divided by a longitudinal partition to form channels of dry and moist air, a condenser having air and cooled chambers for dry and deep air, source water supply pipe, connected to an humid air channel, air humidifier, fan and The compilation of distillate, that is, with the fact that, in order to reduce energy costs and increase the efficiency of desalination, it is supplied with a desalination water heater, an irrigator, is placed in the dry air chamber of the condenser and connected to the water supply line in front of the heater. 2. Installation under item 1, characterized in that it is equipped with a surface heat exchanger installed on the source water pipeline connected to the fan and i channels of the air humidifier. 3. Installation on PP. 1 and 2, ex (the unit is equipped with a surface heat exchanger installed in front of the condenser and connected to the humid air channel of the air humidifier cooled by the condenser chamber and the distillate collector.

Description

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The invention relates to the field of water treatment and can be used to produce fresh water from marine or saline continental waters.

The purpose of the invention is to reduce energy costs and increase the efficiency of desalination.

The drawing shows schematically a desalination plant.

The installation contains a humidifier 1, divided by a longitudinal non-partition wall 2 into dry 3 channels and: moist 4 air, condenser 5 with an air chamber 6 and cooled chamber 7. The installation is equipped with a heater 8 for desalinated water, an irrigator 9 installed in the condenser 5. The installation contains collection 10 distillates fan 11, pipeline 12 for supplying source water, surface heat exchanger 13 connected to fan 1 1 and air humidifier 1 channels, surface heat exchanger 14 connected to air humidifier, condensate to the distiller and the collector via pipelines 15 - 17. The air cavity b of the condenser 5 is connected to the collector 10 of the distillate through pipeline 18, and the cooled chamber 7 is connected via the duct 19 to the dry ducts 3 of the air cooler 1 connected to the heat exchanger 13. The source water supply pipeline is connected to the sprinkler 9 by pipeline 2b, and the heater 8 is connected to the heat exchanger via pipeline 22 13. The heat exchanger 14 is equipped with a distillation outlet pipe 23 to the consumer,

A desalination plant operates as follows.

The solution, for example, seawater, via conduit 12 enters the heater 8, where it is heated by radar heat, and then via conduit 22 enters the heat exchanger 13, where it heats the air flow blown by fan 11 through duct 20. Heated air enters into the dry channel 3 of the air humidifier 1, and the solution enters the wet channel 4 to wet the surfaces. In the dry channel 3, the air is cooled in the limit.

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to the dew point temperature without changing its moisture content and at the outlet from it is divided into the main and auxiliary flows. The main air flow is directed to the cooled chamber 7 of the condenser 5, and the auxiliary stream enters the chamber 6 from the humid channel 4 of the air humidifier 1, where

heated and humidified to a relative humidity of close to 100%. Before entering the condenser 5, this stream passes the heat exchanger 14. In the condenser 5, surface heat exchange takes place between the main air stream passing through the cooled chamber 7 and the auxiliary air stream. Since the temperature of the main flow

air below the dew point of the auxiliary stream, the moisture starts to condense from the latter. To increase the efficiency of condensation heat extraction from

solution, in the cooled chamber 7 by means of sprinkler 9. Condensate through pipe 18 enters the collection of distilled

l and then into the heat exchanger 14,

at the same time reducing the temperature of the auxiliary air flow, I enter condenser, resulting in increased condensation efficiency

water vapor from the auxiliary air stream in the condenser 5.

Thus, in the proposed desalination plant, it is possible with minor

energy costs get more fresh water. In addition, by preheating the solution, it is possible to raise the temperature and moisture content of the auxiliary air stream, as a result of which the amount of fresh water increases when water vapor condenses from the auxiliary stream to the air stream.

chamber 6 of condenser 5. The use of an irrigator condenser in the cooled chamber contributes to more active heat removal, and the use of surface in the installation

Heat exchangers allow utilization of heat or cold flows, which ultimately increases the efficiency of the unit as a whole.

Claims (3)

1. Installation for desalination of water, containing an air humidifier, separated by a longitudinal partition with the formation of channels of dry and moist air, a condenser having air and cooled chambers for dry and moist air, a source water supply pipe connected to a humid air channel of an air humidifier, a fan and a distillate collector , characterized in that, in order to reduce energy costs and increase the efficiency of desalination, it is equipped with a desalinated water heater, a sprinkler placed in the chamber uhogo air capacitor and connected to the water supply conduit to the heater. 2. Installation pop. 1, characterized in that it is equipped with a surface heat exchanger mounted on the source water pipe, connected to the fan and the channels of the air humidifier. 3. Installation according to paragraphs. 1 and 2, characterized in that it is equipped with a surface heat exchanger installed in front of the condenser and connected to the humid air channel of the air humidifier, the cooled condenser chamber and the distillate collector. SU „„ 1186575> I 1186575