RU26262U1 - REFRIGERATION UNIT - Google Patents

Abstract

A refrigeration unit comprising a condenser, a compressor, an evaporation system, and drainage and linear receivers, characterized in that the evaporation system further includes an inkjet apparatus, a cyclone and a liquid separator.

Description

Refrigeration unit

The utility model relates to the refrigeration industry, in particular to the cold supply system of food production.

There is a refrigeration unit I, consisting of a compressor, a condenser, a circulation receiver, a centrifugal pump, a control valve, a linear and drainage receivers and an evaporation system (analog).

The disadvantages of this refrigeration unit are: large ammonia capacity of the refrigeration system, large metal consumption of the refrigeration unit, additional energy costs for pump drive.

There is a refrigeration unit 2, consisting of a compressor, a condenser, a circulation receiver, an inkjet apparatus combining the functions of a pump and a control valve, a linear and drainage receiver and an evaporation system consisting of cooling devices (prototype).

The advantages of this refrigeration unit are (in comparison with the analogue): reduced power consumption by replacing the centrifugal pump with a jet apparatus.

The disadvantages of this refrigeration unit are: not taken into account the dynamics of processes in the circuits during periods of starting, stopping and a sharp change in operating mode. The main functional purpose of the unit with an inkjet apparatus in this case is the formation of a traditional pump-circulation circuit with the replacement of a centrifugal pump with a C1jet apparatus, therefore the main disadvantage of this refrigeration unit is the significant ammonia capacity when the circulation receiver is located in the compressor shop or in the engine room.

MPKR25V1 / 00

The technical result that can be obtained by using the proposed utility model is a reduction in the refrigerant system capacity by refrigerant; reducing the metal consumption of the refrigeration unit, increasing the efficiency of the evaporation system.

The technical result is achieved due to the fact that an additional inkjet apparatus, a cyclone and a liquid separator are included in the evaporative system of a refrigeration unit containing a condenser, compressor, drain and linear receivers and an evaporative system.

The result is achieved through the use of a local circulation cooling system, when multiple circulation is carried out only in the locations of cold consumers (local circulation) without using a circulation receiver. Qualified refrigerant supply to local circulation places is carried out in accordance with the principles of conventional direct cooling systems with a single circulation of refrigerant in a branched circuit, including a certain set of cold consumers with local multiple refrigerant circulation. The degree of subcooling and pressure of the liquid refrigerant in the common supply manifold can be kept constant during operation. Stability of work, organization of oil drainage, and other measures ensure the reliability of the functioning of local circulation circuits.

Reducing the capacity and metal consumption of the refrigeration unit is achieved by eliminating the circulation receiver from the circuit, reducing the diameters of the supply and return pipelines while reducing the speed and modifying the state of refrigerant in the return piping.

The increase in the efficiency of the evaporation system is achieved by turning on the inkjet apparatus, while the resistance of the circulation circuit is reduced and the required refrigerant circulation rate is ensured.

Fig. 1 a and 16 show the schemes of evaporative systems of a refrigeration unit with upper and lower refrigerant supply to cooling devices, respectively. The system consists of the following elements: a jet apparatus 1, a liquid separator 2, a cyclone 3, air coolers 4, solenoid valves 5, 7, 8, 9, a pressure regulator up to 6, a filter 10, non-return valves 11 and 12 and a safety valve 13.

The evaporation system operates as follows. The liquid from the liquid supply pipe is directed to the working nozzle of the jet apparatus 1, in which the injection of non-vaporizing liquid is carried out. After compression in the diffuser of the inkjet apparatus, the liquid is supplied to cooling devices, in particular to air coolers 4, where it partially evaporates. After the air coolers, the vapor-liquid mixture is sent to a two-stage liquid separation (coarse in the cyclone 3 and thin in the liquid separator 2 with a special nozzle). Further, steam is sucked out of the coolant through a common liquid separator by compressors installed in the engine room, and the liquid is sent to the jet apparatus for recirculation. Oil is mainly removed during the defrost process in the drain receiver of the refrigeration unit. The removal of oil from the liquid separator, if necessary, can be carried out in the suction pipe.

Literature

1. Kurylev E.S., Onosovsky V.V., Rumyantsev Yu.D. Refrigeration units. Publishing house Polytechnic, St. Petersburg, 2000.

2.Ionov A.G., Mekenitsky S.Ya., Bogolyubsky O.K. Pump circulation systems for freezers. M., Food Industry, 1976.

Claims (1)

A refrigeration unit comprising a condenser, a compressor, an evaporation system, and drainage and linear receivers, characterized in that an additional inkjet apparatus, a cyclone and a liquid separator are further included in the evaporation system.