SU1366819A1 - Refrigerating unit - Google Patents

Abstract

Invention m. used in food industry and agriculture installations. The purpose of the invention is. neither - increase of reliability when the installation is operated on carbon dioxide with its separation in the separator into solid and into 1-CHN gas-like. For this, the circuit between the separator 5 and the heat exchanger 6 has two parallel branches. In each branch there is a solid carbon dioxide sublimator with a thermal wall in contact with the cooled product. The second two-cavity heat exchanger 7 is connected between the first heat exchanger 6 and the throttle 8. The second cavity of the second heat exchanger 7 is connected to the output of gaseous carbon dioxide from the separator 5. In one of the sublimators 1 (2) solid carbon dioxide is fed from the separator's bunker 5, and in the other at this time is cooling. Sublimators 1 and 2 alternately switch. There are no fast rotating and rubbing parts in the installation. 1 hp f-ly, 1 ill. (L

Description

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The invention relates to refrigeration engineering, in particular to heat dissolving refrigerators, and can be used in refrigeration units in the food industry, agriculture and other national households.

The purpose of the invention is to increase reliability when the plant is operated on carbon dioxide with its separation in the separator into solid and gaseous.

The drawing shows a diagram of the refrigeration unit.

The installation contains sublimators 1 and 2, valves, boxes 1 and 3 and 4, separator 5, heat exchanger 6, second two-cavity recuperative heat exchanger 7 and throttle 8. Sublimators 1 and 2 have a heat-conducting wall in contact with the product to be cooled. The entrances of solid CO to sublimators 1 and 2 are connected through the valve box 3 to the exit of solid GOj, from the separator 5, which is intended to separate the gas-solid phase mixture, and the outlets of gaseous CO from the sublimators 1 and 2 are connected through the valve box 4 from water heat exchanger 6, designed to cool the NIL of gaseous CO to a temperature close to the temperature of the cooling medium, and a recuperative heat exchanger 7, which serves to further cool the COg.

The installation works as follows.

Solid carbon dioxide is fed to one of sublimators 1 and 2 from the separator 5 bin, and in the other at this time cooling is carried out. Solid carbon dioxide removes heat from the cooled product through a heat-conducting wall and sublimates. At the same time, its temperature increases, which leads to an increase in pressure. The valve box 4 is controlled by the pressure at the opening of the passage section through 192.

The carbon dioxide gas, which is gaseous, passes into the heat exchanger 6 and is cooled to a temperature close to the ambient air temperature. The carbon dioxide gas then passes through a recuperative heat exchanger and is throttled in the throttle 8. This reduces the pressure and temperature of the stream, resulting in a mixture of gaseous and solid carbon dioxide, which is separated in the separator 5.

The cooled gas is fed through a recuperative heat exchanger 7, a direct flow cooling, to a consumer of carbon dioxide gas. Valve boxes 3 and 4 alternately switch, and sublimators 1 and 2 respectively switch.

The proposed refrigeration unit is characterized by higher reliability due to the absence of fast-rotating and rubbing parts in it.

Claims (2)

1. A refrigerating installation comprising a circulation loop in which a separator, a heat exchanger and a choke are installed, characterized in that, in order to increase reliability when the installation is operated on carbon dioxide with its separation in a separator into a solid and gaseous one, the circuit between the separator and the heat exchanger It has two parallel branches, in each of which a solid carbonic acid sublimator is installed, having a heat-conducting wall in contact with the product to be cooled. 2. The installation according to claim 1, about tl and - so that the circuit further comprises a second two-cavity heat exchanger connected between the first heat exchanger and the throttle, and the second cavity of the second heat exchanger is connected to the outlet of gaseous carbon dioxide from the separator