SU1030626A1 - Refrigerating plant - Google Patents

Abstract

A REFRIGERANT INSTALLATION, working on a mixture of refrigerants, containing a circulation loop in which a compressor, a high-temperature fraction condenser with a liquid collector and a throttle, two low-temperature fraction condensers with a receiver are installed, alternately connected via controlled valves to the contour sections, respectively, between the steam cavity of the condenser, and the receiver will have the same setting. fraction and receiver, regulator valve and evaporator, characterized in that, in order to increase efficiency during operation Installations for non-solvent or poorly dissolved one: In the other chla agents, the high-temperature fraction condenser is made in two sections, and the evaporator is of counterflow-irrigation type with a recirculation ring, with an immersion pump, and a cooling device; three controllable valves, the first of which is equipped with a level sensor mounted on the liquid collector, the second pressure sensor located on the discharge side of the compressor, and the third one - with a temperature sensor installedB1M the suction side of the compressor, all valves on the outlet are connected to the choke, the first one of them - through the diaphragm and the first valve inlet is connected to the recirculation ring at the junction of the pump with the cooling device, the second to the liquid plane of the second section of the high-voltage condenser em-2 of the per-fraction, which is additionally connected to the regulator valve, and the third to the liquid collector. CO O) S O5

Description

The invention relates to refrigeration, and more specifically to refrigeration units operating on a mixture of refrigerants. ,

Refrigeration units operating on a mixture of refrigerants containing a circulation loop in which a compressor is installed, a high-temperature fraction condenser with a liquid collector and a throttle, two low-temperature fracdne capacitors with a receiver, are alternately connected via controlled valves to sections of the circuit, respectively, between the throttle and the suction side of the compressor and between the vapor cavity of the condenser with the highest temperature fraction and the receiver, the control valve and the evaporator 1.

A disadvantage of the known installations is low economic efficiency due to the fact that they cannot work on the undissolved or slightly soluble refrigerants in one another, at which the installation has the most energy indicators.

The purpose of the invention is to increase the economics of operating the unit on non-soluble or slightly soluble refrigerants in one another.

This goal is achieved by the fact that in a refrigeration unit working on a mixture of refrigerants, containing a circulation loop in which a compressor, a high-temperature fraction condenser with a liquid collector and a throttle, are installed, two low-temperature fraction condensers with a receiver are alternately connected via control valves to the circuit sections , respectively, between the throttle and the suction side of the compressor and between the steam cavity of the high-temperature fraction condenser and the receiver, regulating the valve and the evaporator, the high-temperature fraction condenser are made in two sections, and the evaporator is of a contact-pressure type with a recirculation ring having a pump and a cooling device, in addition, three control valves are added to the circuit, the first of which is equipped with a level sensor mounted on the fluid collector the second is a pressure sensor located on the discharge side of the compressor, and the third is a temperature sensor installed on the suction side of the compressor, all the valves at the outlet of the connection the first valve is connected to the recirculation ring at the junction of the pump with the cooling device, the second to the liquid cavity of the second section.

fraction that is additionally connected to the control valve, and the third to the liquid collector.

In the drawing a schematic representation of the described installation.

It contains compressor 1, sections 2 and 3 of the high-temperature fraction condenser with liquid collector 4 and throttle 5, two condensers b and 7 of the low-temperature fraction switched by means of controlled valves 8-11, receiver 12, control valve 13, evaporator 14 with recirculation ring having a pump 15 and a cooling device 16, three controllable valves 17-19, a level sensor 20 installed on fluid collection 4, a pressure sensor 21 placed on the discharge side of compressor 1, a temperature sensor 22 mounted on a suction side the compressor side 1, the diaphragm 23, the pipes 24 - 32 and the sprinkler 33.

The installation works as follows.

Compressor 1 sucks in a mixture of refrigerants, such as high-temperature refrigerant-11 and low-temperature aglmak, and pumps them into the first section 2 of the condenser, in which refrigeon-11 is mainly liquefied. The formed liquid is drained into the collector 4, from where through the controlled valve 18 and the throttle 5 is directed, for example, through the control / valve 8 and the low-temperature fraction condenser, in which it boils at low pressure, while cooling the nozzle in this condenser. The resulting refrigerant vapor - 11 is sucked off by the compressor 1 through a controllable valve 9. In the second section 3 of the condenser, a high temperature fraction is liquefied, consisting of a large part of the freon and a smaller amount of ammonia, which is supplied through the control valve 13 together with the low temperature liquid fraction entering from the receiver 12, in, the evaporator 14. The vapor of the low-temperature fraction, consisting mainly of ammonia, at this time from the upper part of section 3 goes through controlled valve 10 to the second condenser 7 of low temperature The cooling fraction in which the condenser is condensed on the cold nozzle. The formation of the low-temperature liquid is drained through the control valve 11 into the receiver 12. In the contact irrigation evaporator 14, boils at a low pressure g / etheroazeotropic composition of refrigeon — 11 and am (; and , and the resulting vapors of the mixture are fed through line 29 to the suction side of the compressor 1, while in the evaporator 14 liquid refrigerant - 11 is dried;

Claims (1)

REFRIGERATING UNIT operating on a mixture of refrigerants, containing a circulation circuit in which a compressor, a high-temperature fraction condenser with a liquid collector and a choke, two low-temperature fraction condensers with a receiver are installed, alternately connected via controlled valves to the sections of the circuit, respectively, between the vapor cavity of the high-temperature condenser and the high-temperature fraction receiver, control valve and evaporator, characterized in that, in order to increase efficiency during operation ki on insoluble or slightly soluble one in the other, refrigerants, the high-temperature fraction condenser is made two-section, and the evaporator is a contact-irrigation type with a recirculation ring having a pump and a cooling device, in addition, three controllable valves are additionally introduced into the circuit, the first of which equipped with a level sensor mounted on the fluid collector, a second pressure sensor located on the discharge side of the compressor, and a third - a temperature sensor mounted on the suction On the compressor, all the valves at the output are connected to the throttle, the first of them being connected through the diaphragm, and at the input the first valve is connected to the recirculation ring at the junction of the pump with the cooling device, the second to the liquid plane of the second section of the condenser with a high temperature fraction, which is additionally connected to a control valve, and a third to a fluid collector. oaJSU 1030626