SU1495600A1 - Method of compressing light gases - Google Patents

Abstract

The invention relates to refrigeration and can be used in the oil and gas industry. The aim of the invention is to increase the operational reliability and economy by reducing the energy consumption of an external source of cold. To do this, in the method of compressing light gases by stepwise compressing the mixture of working fluid and auxiliary component, evaporative cooling of the mixture before each compression stage, condensing the auxiliary component with an external cold source, separating the liquid auxiliary component, the latter is divided into two streams, the first of which is throttled and evaporated by supplying heat to condensation, and the second is evaporated by supplying heat to compress the mixture, then the first stream is ejected and condensed at a temperature of about uzhayuschey medium feed orifice and the entrance to the compression stage. Evaporation of the liquid auxiliary component by supplying heat to the condensation of the mixture increases the efficiency of the installation. 1 il.

Description

The invention relates to refrigeration engineering, in particular to installations for low-temperature gas treatment.

The circuit of the invention is an increase in the operational reliability and efficiency by reducing the energy consumption of an external source of cold.

The drawing shows the installation diagram for the implementation of the proposed method.

The installation contains stages 1 - 3 compressors, evaporative heat exchangers 4-6, cooler-steam generator 7, refrigerator 8, condenser-evaporator 9, separator 10, unit 11.

cleaning, the ejector 12, the condenser 13, control valves 14 - 17 and the refrigerating machine 18.

The method is carried out as follows.

A light gas, such as helium, is fed to an evaporative heat exchanger 4, where it is cooled by boiling an auxiliary component, for example, freon, to a temperature below ambient temperature. Next, the mixture enters the suction in the first stage 1 of the compressor. The mixture compressed in it is fed to an intermediate evaporative heat exchanger 5, where it is cooled with a new portion of Ladon and

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31495

already with a lower concentration of gels. is compressed in the second stage 2 of the compressor with similar transformations in the evaporative heat exchanger 6,

After the last stage 3 of the compressor, the mixture is cooled in the cooler-steam generator 7 and fed to the refrigerator 8, where at the temperature below the ambient temperature the freon partially condenses with an external source of cold. Further condensation of the hpadone occurs in the condenser-evaporator 9, from where a gaseous mixture with a low concentration of hpadone and condensed liquid refrigerant enters the separator 10, Dash its helium after the corresponding treatment in the purification unit 11 is supplied to the consumer, and the liquid hpadone with large pressures separates into two streams. The first flow is throttled in the control valve 14 to low pressure and evaporated in the condenser-evaporator 9. The overheated steam of the second refrigerant flow — the steam generator 7 is fed to the nozzle of the ejector 12. The flow of this flow draws the cold steam from the first refrigerant flow coming from the condenser’s evaporator1 9, and mixed with it in the mixing chamber of the ejector 12, after which gaseous refrigerant is directed to the condenser

inlet into condenser 13 and through regulating valves 15-17 for mixing with the flows at the inlet to the compression stages.

Formula

the invention

The method of compressing light gases by stepwise compressing the mixture of working gas and auxiliary component, evaporative cooling of the mixture before each compression stage, condensing the auxiliary component by an external source of cold, separating the liquid auxiliary component, then throttling it and feeding it to the entrance to the compression stage, final adsorption purification of the mixture, characterized by the fact that, in order to increase operational reliability and efficiency by reducing the energy consumption of an external source After separation, the cold auxiliary component is divided into two streams, the first of which is throttled and evaporated by applying condensation heat, and the second is evaporated by adding compression heat to the mixture, then zhektktirut second stream first and condense at ambient temperature.

editor I. Derbak

Compiled by A. Fedotov Tehred M. Didyk

Order 4244/37

Circulation 462

RCIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. D. 4/5

Proof 0, Kr.svtsova

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Claims (1)

Claim 10 A method of compressing light gases by stepwise compression of a mixture of a working gas and an auxiliary component, evaporative cooling of the mixture before each compression stage, 15 condensation of the auxiliary component by an external source of cold, separation of the liquid auxiliary component, its subsequent throttling and feeding to the inlet of the compression stage, final adsorption cleaning of the mixture, characterized in that, in order to increase operational reliability and economy by reducing the energy consumption of an external cold source, after separation, the liquid auxiliary component is divided into two streams, the first of which is throttled and evaporated by applying condensation heat, and 3θ of the second one out by supplying the mixture heat of compression and then eject the first and the second flow is condensed at ambient temperature.