SU1740894A1 - Device for reducing aqueous solution of lithium chloride - Google Patents

Abstract

The invention relates to devices for air drying and improves the efficiency of recovery of lithium chloride solution and shortens the repair time. The device contains a heat exchanger 1 with nozzles 2 and 3 of the inlet and outlet of the coolant and nozzles 4 and 5 of the inlet and outlet of the lithium chloride solution with a tank 6 connected to it and a pump 7 for pumping the solution. The device is also equipped with a fan 8, a cyclone 9 with air inlets 12, made in the form of an impeller 13 and a sprayer 14. A dropper is installed in the inlet pipe 2 fan air The enriched LiCl2 solution is pumped to the heat exchanger 1, heated, enters the cyclone 9, where it is sprayed with the help of the impeller 13, dried and enters the tank 6, and moist air is vented to the atmosphere. 1 il.

Description

The invention relates to devices for drying air in various fields of technology, for example in chemical-photographic, electronic, etc.

The purpose of the invention is to increase the efficiency of the device for restoring a solution of lithium chloride and reducing the cost of its repair,

The drawing shows a device for restoring an aqueous solution of lithium chloride.

The device comprises a heat exchanger 1 with nozzles 2 and 3 of the inlet and outlet of the coolant and nozzles 4 and 5 of the inlet and outlet of a lithium chloride solution with a tank 6 and a pump 7 connected to it and for storing and pumping the solution and a fan 8.

The device is equipped with a cyclone 9 and a drop eliminator 10, while the heat exchanger 1 is plate-shaped, and the cyclone 9 is connected to the nozzle 5 of the solution outlet and is made in the form of a housing 11 with tangential nozzles 12 for supplying air, an impeller 13 located inside the housing 11, and a sprayer 14 installed in the area of the air supply, and the droplet eliminator 10 is placed in the pipe 2 of the air supply to the fan.

The device operates as follows. . thirty

Enriched with moisture, LiCl2 is supplied through a piping system by a centrifugal pump 7 from a tank 6 to a plate heat exchanger 1. A heat transfer medium is supplied to the adjacent heat exchanger channel 35 through the upper inlet pipe 2 — hot water or steam, which, passing through the adjacent channel of heat exchanger 1, gradually heats the chloride lithium, which flows from the bottom 40 upwards through the pipe 4, to the desired temperature. At the same time, the heat exchanger 1 has a higher temperature at the top, and a lower temperature at the bottom, i.e. provides gradual heating, which is more energy efficient. Then, lithium chloride through the outlet pipe 5 is fed into the cyclone 9 and is sprayed inside the cyclone 9 through the atomizer 14. The air is taken in through the nozzles 12, which contribute to the swirling of air by the fan 8. Due to this, the impeller 13 rotates, which also intensifies the mixing air with atomized lithium chloride. Lithium chloride, drained to the required concentration, flows by gravity into tank 6. Humidified air is discharged to the atmosphere through drop eliminators 10 by fan 8.

Claims (1)

Claim 20 A device for recovering a solution of lithium chloride, containing a heat exchanger with nozzles for entering and exiting the coolant and nozzles for entering and exiting a solution of lithium chloride with a tank and pump for storing and pumping the solution, and a fan, characterized in that, in order to increase work efficiency a device for restoring a solution of lithium chloride and reducing the cost of its repair, it is equipped with a cyclone and a drop eliminator, while the heat exchanger is plate-shaped, and the cyclone is connected to the outlet pipe created and configured as a housing with a tangential air supply nozzles, the impeller disposed within the housing, and the atomizer mounted in the air inlet zone, wherein the demister disposed in the air supply fan nozzle.