RU1774139C - Method of obtaining cold - Google Patents

Abstract

Use: in cryogenic systems. SUMMARY OF THE INVENTION: In a method for producing cold, part of the low boiling component is taken after separation of the mixture, and then sent back to compression. 1 ill.

Description

The invention relates to refrigeration, and more specifically to methods for producing cold in cryogenic plants.

A known method of producing cold in a cryogenic unit by balancing a compressed mixture from pumping compressor to suction.

The disadvantage of this method is its low cost.

The closest in technical essence and chosen for the prototype is a method of producing cold by compressing a mixture of high-boiling and low-boiling components in a closed cryogenic cycle, separating the feed mixture for throttling and evaporation.

The disadvantage of this method is its low operational reliability and economy.

The purpose of the invention is to increase operational reliability and economy.

The goal is achieved in that in the method of producing cold by compressing a mixture of high-boiling and low-boiling components in a closed cryogenic cycle, separating the mixture, feeding to throttling

and evaporation, part of the low boiling point component is removed after separation of the mixture, and then sent back to compression.

The drawing shows a schematic diagram of a cryogenic installation operating according to the described method.

The cryogenic installation comprises a compressor 1, a condenser 2, a separator 3, a counterflow heat exchanger 4, a choke 5, an evaporator 6 controlled by a valve 7, a receiver 8, and a low-flow choke 9.

Installation works as follows. The working mixture is compressed in a compressor, cooled in a condenser 2 in which a part of the stream, mainly a component with a high condensing temperature, condenses. After the condenser, the flow through the separator enters the heat exchanger 4. In the main mode, there is no selection from the separator, and the separator does not change the parameters of the transit flow. The mixture cooled in the heat exchanger 4 through the choke 5 is fed to the evaporator 6, where it boils, producing cold. The return flow through the heat exchanger 4 enters the suction in the compressor 1.

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At elevated evaporation temperatures, suction and discharge pressures and the concentration of the low boiling component increase due to intense vaporization. Opening of valve 7 takes place and a portion of compressed steam containing mainly a low-boiling component enters the receiver 8 into the receiver 8. The removal of the low-boiling component increases the concentration of the high-boiling mainly circulation circuit, which increases the cooling capacity due to an increase in the isothermal choke effect working fluid and prevents a further increase in pressure.

The receiver 8 is connected to the suction line by a throttle 9, for example a capillary, a washer with a small hole. The resistance of the throttle device is selected so that the receiver is emptied in about 1/2 of the start time. Then the gas flow through the additional circuit will not significantly reduce the circulation in the main circuit. These losses can be completely eliminated by replacing the throttle valve.

With a decrease in evaporation temperature

sampling to the receiver is stopped and through the inductor 9 the accumulated low-boiling component is returned to the main circuit. Thus, at various temperature conditions, the composition of the working mixture approaches the optimum.

Claims (1)

SUMMARY OF THE INVENTION A method for producing cold by compressing a mixture of high-boiling and low-boiling components in a closed cryogenic cycle, separating the mixture, feeding to throttling and evaporation, characterized in that, in order to increase operational reliability and economy in high evaporation temperature modes, a part low-boiling components are taken after separation of the mixture, and then again sent for compression