SU1606820A1 - Steam-ejector refrigeration plant - Google Patents

Abstract

The invention relates to refrigeration engineering, in particular to heat utilizing refrigeration units. The purpose of the invention is to increase the cooling capacity. For this, the plant additionally contains two regenerative heat exchangers 2 and 11 installed in series between the evaporator 12 and the mixing chamber of the ejector 8, the first of which is connected after the condenser 9, the semi-permeable osmatic partition 4 forming the membrane unit 3 connected through the second regenerative heat exchanger 11 with the generator 1 pair equipped with an additional boiler 7 at the entrance, made in the form of a thermosyphon. 1 il.

Description

The invention relates to refrigeration, in particular to heat-using refrigeration units.

The purpose of the invention is improving cooling capacity.

The drawing shows a diagram of a steam ejector refrigeration unit.

The steam ejector refrigeration unit contains a circulation circuit including a steam generator 1, a regenerative heat exchanger 2, a membrane unit 3 consisting of a high-pressure cavity 5 and a low-pressure cavity 6 separated by a semi-permeable partition 4 and an additional boiler 7 made in the form of a thermosyphon. A steam generator 1 is connected to the working cavity of the ejector 8 and to the condenser 9. On the communication line of the condenser 9 and the throttle device 10, a second regenerative heat exchanger 11 is installed, connected to the evaporator 12. The condenser 9 is connected to the low-pressure cavity 6 of the membrane block eZ.

Installation works as follows.

Pre-installation is filled with a solution having osmotic pressure, so that the entire volume of the charge is concentrated in the circulation circuit.

When the heat load is supplied to the steam generator 1 and to the additional boiler 7, solvent vapor is generated from the solution. The steam received in the additional boiler 7 provides a directed pumping of the solution to the steam generator 1 and then to the regenerative heat exchanger 2 and the high-pressure cavity 5 of the membrane unit 3. The solvent vapor obtained in the steam generator 1 and the additional boiler 7 enters the working cavity of the ejector 8 , ejects cold vapor from the evaporator 12 through regenerative heat exchangers 2 and 11 and mixes with it in the mixing chamber of the ejector 8. The mixture of cold and working steam passes through the diffuser of the ejector 8 and enters the condensate OR 9 wherein liquefies due to heat dissipation.

The condensate formed is divided into two streams. One part in an amount equal to the amount of working steam enters the low-pressure cavity 6 of the membrane unit 3, and the other part of the condensate flows through the regenerative heat exchanger 11 and the throttle device 10 to the evaporator 12. The evaporator boils the solvent to produce cold. The condensate is pumped from the low-pressure cavity 6 to the high-pressure cavity 5 of the membrane unit 3 through a semipermeable partition 4 due to the phenomenon of osmosis.

When generating solvent vapor in a 1-steam generator, the solution is depleted in solvent. Due to the circulation provided by the additional boiler 7, the solution from the steam generator 1 enters the regenerative heat exchanger 2, where it is supercooled by the vapor from the evaporator 12. The supercooled solution becomes undersaturated with the solvent and in this state enters the high-pressure cavity 5. In the high-pressure cavity 5, the undersaturated solution intensively absorbs the solvent passing through the semi-permeable septum 4, which is designed to allow passage of only solvent molecules. The saturated solution enters the additional boiler 7 and then into the steam generator 1.

Claims (1)

Claim Ejector refrigeration unit containing a steam generator, a condenser, an evaporator, an ejector connected to a working chamber with a steam generator and to an evaporator through a mixing chamber, as well as a semi-permeable osmotic partition, characterized in that. in order to increase cooling capacity, it additionally contains two regenerative heat exchangers installed in series between the evaporator and the mixing chamber, the first of which is connected after the condenser, the semi-permeable osmotic partition forming a membrane unit connected through a second regenerative heat exchanger with a steam generator equipped with an additional boiler at the inlet in the form of a thermosyphon.