SU992958A1 - Evaporation system - Google Patents

Description

() EVAPORATING SYSTEM The invention relates to refrigeration, and more specifically to evaporative systems of compression refrigeration units. Evaporating Systems are known; containing a receiver with a liquid inlet refrigerant inlet, steam and liquid - bone collectors with evaporating elements, a jet ejector placed in the receiver with a working nozzle of which serves as the outlet section of the liquid refrigerant inlet and a diffuser connected to the liquid collector, with this in the connection area of the latter, an equalizing pipe is installed, and the steam collector is located under the receiver l. A disadvantage of the known systems is the inability nnyh at different levels due to abnormality in this case of a closed circulation of liquid coolant. The purpose of the invention is to provide parallel operation of evaporation elements located at different levels. This goal is achieved by the fact that the liquid collector is located above the receiver, both collectors are placed obliquely in accordance with the levels of the evaporation elements, and the equalizing pipe is removed from the receiver and connected to the liquid collector at the location of the upper evaporation element. The drawing shows schematically the evaporative system. The system contains a receiver 1 with a pipe 2, a liquid refrigerant inlet, a cushion collector 3, a liquid collector t, an upper evaporating element 5 a jet ejector 6 with a slave nozzle 7 and a diffuser 8, equalizing pipe 9 suction pipe 10 connecting the steam

the space of both collectors with a compressor (not shown), and evaporative elements 11 and 12, located at lower levels than element 5..

The system works as follows.

The high-pressure liquid refrigerant is supplied through the nozzle 2 to the working nozzle 7 of the ejector 6, in which its pressure is triggered and gains greater speed. Next, a stream of liquid refrigerant ejects part of the liquid from the receiver 1 and pumps it through the diffuser 8 into the upper evaporation element 5 and through the balancing pipe 9 into the liquid collector. Then liquid refrigerant from liquid collector. I flows by gravity into evaporating elements 11 and 12. In elements 5 and 12, liquid refrigerant boils at low pressure, producing a refrigerating effect, and the resulting vapor enters vapor manifold 3, from where it is sucked through pipeline 10 to the compressor. Excess liquid refrigerant from liquid manifold j is discharged back to receiver 1.

The economic efficiency of the invention is expressed in a decrease in the basement area of the refrigeration facility in which the evaporation system is located, due to the fact that the evaporation elements are installed along the height of the facility at different levels.

Claims (1)

1. USSR author's certificate in application number 2896300, cl. F 25 V 39/02, 1980, W