SU709927A1 - Air refrigerator - Google Patents

Description

one

The invention relates to refrigeration.

Air cooled meilines are known that contain a compressor and a vortex tube connected to it with nozzles for hot and cold flow 1. The disadvantage of such machines is the relatively high temperature of the cold flow leaving the vortex tube due to the high temperature of the air coming after compressor in a vortex tube.

The purpose of the invention is to reduce the temperature of the cold stream. This is achieved by the fact that the proposed machine additionally contains an indirect air cooling unit with a wetted nozzle, a two-cavity heat exchanger and a brine dryer with an absorber and a boiler, inside the last of which there is a heat exchange surface, and the absorber and indirect air-cooling apparatus with a vortex tube, one cavity of the heat exchanger is connected between the steam space of the boiler and the wetted nozzle, the other is connected with

the apparatus of indirect cooling of the air at the outlet of the latter, and the heat exchange surface of the boiler is connected to the outlet of the hot stream from the vortex tube,

The drawing shows a schematic representation of the described machine

It contains a compressor 1, a vortex tube 2 with nozzles 3 and 4 outlets and cold streams, respectively, an apparatus 5 for indirect air cooling with a wetted nozzle 6, a heat exchanger 7, an absorber 8, a boiler 9 with a heat exchange surface 10, pipelines 11-13 which auxiliary and main air flows, respectively, of the brine circulation line 14,

The machine works in the following way.

The surrounding air is sucked in by the compressor 1 and injected through the absorber 8, in which it is irrigated and dried with brine, for example an aqueous solution of chlorine chloride, into the apparatus 5 for indirect cooling of the air. In the apparatus 5, the air flow is cooled by contacting the dry channels of the wetted nozzle 6, the temperature of which is reduced almost to the temperature of the wet thermometer by an auxiliary air flow, then discharged through one cavity of the heat exchanger 7 to the atmosphere. The main air flow through conduit 13 is directed to the vortex tube 2, where it is divided into cold and hot streams, the first of which flows to the cold consumer, and the second is discharged through the nozzle 3, pipeline 11 and the heat exchange surface 10 to the surrounding environment. With the heat of the hot stream, the water-saturated brine is evaporated in the boiler 9, and the resulting vapors are condensed in the second cavity of the heat exchanger 7 and directed to the wetting of the nozzle 6,

Thus, the nozzle 6 is continuously moistened with moisture taken from the air dried in the absorber 8, and the consumer uses the dried cold air flow coming out of the nozzle 4 of the vortex tube 2.

The economic efficiency of the invention is to reduce the power consumption for producing a dry, cold, low-temperature air stream.

Claims (1)

1. Martynov A.V. What is a vortex tube. M., Energie, 1976., To namf eSufne / iH}