SU1210018A1 - Refrigerating plant - Google Patents

Description

The invention relates to refrigeration, in particular to compression refrigeration units for general industrial purposes.

The purpose of the invention is to increase efficiency by using natural cold.

The drawing shows the scheme of the proposed refrigerating installation.

The refrigeration unit contains a first circulation circuit 1 with a industrial vessel 2 having liquid and steam cavities 3 and 4, a pump 5 and an evaporator 6, as well as a second scrubby circuit 7 e by a compressor 8, the suction pipe of which is connected to the steam cavity 3 of the industrial vessel 2, a dual separator 9 and a receiver 10 connected to the liquid cavity 4 of the industrial vessel 2 by a pipe 11 with a shut-off valve 12. The circulation circuits 1 and 7 are interconnected by means of a by-pass line 13 with a shut-off valve 14 and a control valve 15, between which the a water metering device 16 placed in the liquid cavity 4 of the industrial vessel 2 is installed. Moreover, the second circulation circuit 7 after the receiver 10 is connected by pipeline 17 through a stop valve 18 to the pump 5 inlet, and the evaporator 6 entrance of the first circulation circuit 1 is connected by pipe 19 through a stop valve 20 to the inlet of the condenser 9. In addition, in the first circulation circuit 1, after the evaporator 6, a stop valve 21 is installed in front of the process vessel 2.

The refrigeration unit works in an appropriate way.

In the warmer months, the unit operates in the usual refrigeration cycle. Compressor 8 inhales refrigerant vapor from steam box 3 of industrial junction 2, compresses it to condensation pressure and delivers it to condenser 9, where the barn completely condenses. From the condenser 9, the liquid refrigerant is discharged into the receiver 10, from where through the open shut-off valve 14 (the shut-off valves 12, 18 and 20 are closed, the neos 5 is turned off), the coil 16, the control valve 15 enters the evaporator

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6, where the liquid chill boils and turns into steam, taking heat from the medium to be cooled. From the evaporator 6, the steam through the open shut-off valve 21 enters the pro- duct 2, wherefrom compressor 8, the vapor is removed and the cycle is repeated.

In the winter period of the year, when the cold is produced, natural cold can be used, and when the pressure is below the boiling pressure, the compressor 8 is off, the shut-off valves: 1 and 12, 14 and 21 are closed, the pump 5 is turned on. Liquid refrigerant from receiver 10 through line 17 when valve 18 is open is supplied by pump 5 to evaporator 6, from where pipe 19 with open valve 20 flows into K0) i5 depressor 9 and yes; 1e to receiver 10, then the cycle repeats.

When the measured air temperature is not too high, when the winter mode of operation of the refrigeration unit can no longer provide the desired boiling point and when the condensation pressure slightly exceeds the boiling pressure, we offer a chill, 1 installation works as follows. Liquid refrigerant from the receiver I) through pipeline 11 with valve 12 and valves 14 and 18 closed, enters the liquid cavity 4 of the industrial vessel 2, from which pump 5 is evaporated; 1 6 where the liquid refrigerant kiiit is converted into steam and taken heat from the medium to be cooled. From the evaporator, 6 pairs through the open vepel 21 at the closed m of the winding 20 enter the steam cavity 3 pro. 2, at the same time, when the pressure in the industrial vessel 2 becomes higher than the boiling pressure, due to the pressure of the first liquid in the industrial vessel 2 from the receiver K) liquid refrigerant with increased pressure and partial evaporation in the industrial vessel 2, the compressor 8 starts up, which sucks the excess steam from the industrial vessel 2 and according to.: 1. transfers it to the condenser 9 with a significantly better degree of compression until

0 Yes in the industrial vessel 2 ne will become paain iM or a few boiling pressure units, after which the compressor 8 is turned off and the installation cycle in this mode repeats.

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Claims (1)

REFRIGERATING INSTALLATION, comprising a first circulation circuit with an industrial vessel having a liquid and a vapor cavity, a pump and an evaporator, and a second circulation circuit with a compressor, the suction pipe of which is connected to the vapor cavity of the atomic vessel. a capacitor and a receiver connected to the liquid cavity of the vessel. moreover, both circulation circuits are interconnected via a bypass line with a control valve connecting the second circuit after the receiver to the inlet of the primary circuit evaporator, characterized in that, in order to increase efficiency by using natural cold, connect the second circulation circuit after the receiver through the shut-off valve to the input of the pump of the primary circuit, the input of the evaporator of which is in turn connected through its shut-off valve to the input of the condenser of the secondary circuit, while the bypass wife with a coil, which is installed in front of the control valve in the liquid cavity of the vessel.