SU848915A1 - Absorption-ejection refrigeration unit - Google Patents

Description

The invention relates to refrigeration equipment, and more specifically to absorption and ejector refrigeration units. Absorption-ejector chillers are known that contain a high-pressure generator with an evaporated solution pipe, a strong solution line and refrigerant vapor, respectively, connecting this generator through the cooling cavity of the heat exchanger-regenerator and absorber pump and directly to the condenser, the fluid volume of which is connected to the evaporator, generated low discharge, connected by a line of weak solution through the heating cavity of the heat exchanger-regenerator to the absorber, and the ejector, connected vapor absorber vapor absorber HS The disadvantage of known installations is low efficiency due to the large irreversible heat loss in a high pressure generator, the purpose of this invention is to increase efficiency. This goal is achieved by installing a heat exchange surface in the vapor space of the high-pressure generator, connecting its evaporated solution pipe with a weak pactBOpa line after the low-pressure generator, and the strong solution line after the regenerator-heat exchanger is additionally connected to the low-pressure generator. The drawing shows schematically the proposed installation. The installation includes a high pressure generator 1 with a nozzle 2 of evaporated solution, a strong solution line 3, a refrigerant vapor line 4, a regenerator heat exchanger 5, a strong solution pump 6, an absorber 7, a condenser 8, an evaporator 9, a low pressure generator 10, a weak solution line II , ejector 12, heat exchange surface 13 for reverse iodg v38

The evaporated solution is through a high pressure generator 1, an additional line 14 of a strong solution, connected to a low pressure generator 10, a reflux condenser. 15, throttle valves 16, 17 and 18, valve 19 on line 14 and line 20 from generator-ora 10 to ejector working nozzle 12

The installation works as follows.

In the generator 1, externally supplied heat from the strong solution evaporating 2 vapor agents, which through line 4 enter the condenser 8, which are preliminarily cleaned of absorbent vapors in the reflux condenser i 5. Liquid refrigerant enters through the throttle valve 16 into the evaporator 9, which boils at a low pressure, produces a cooling effect. The vapor of hpA agent from the evaporator 9 is sucked off by the ejector 12, and injected into the absorber 7, in which it is absorbed by a weak solution, with the formation of a strong solution. By pump 6, a strong solution from the absorber 7 is supplied through the cooling cavity of the heat exchanger-regenerator 5 with a portion through a valve 19 to a low pressure generator 10 and the remaining part to a high pressure generator 1. In generator III, coolant vapors are extracted from a strong solution by externally supplied low potential heat, which are fed through line 20 to JC ejector working nozzle 1, and in generator 1, surface 13 is irrigated with a hot solution evaporated inside it. In this case, a significant amount of refrigerant vapor is released from the strong solution on the surface 13, which greatly reduces the flow of heat supplied to the generator 1 from outside. The cooled evaporated solution through the throttle valve 17 is supplied to the line 11 of the weak solution after the generator 2 and further directed through the heating cavity heat54

1 exchanger regenerator 5 and the throttle valve 18 to the absorber 7. On. This ends the circulation of the solution and the refrigerant in the refrigeration unit.

The economic efficiency of the invention is to reduce the consumption of heat used to produce cold due to the use of heat from the evaporated solution for heating and partial boiling of a strong solution in a high pressure generator.

Heat saving is 50%.

Claims (1)

1. USSR author's certificate No. 147192, cl. f 25 b 15/02, 1965.