SU827906A1 - Absortion-compression refrigerating plant - Google Patents

Description

one

The invention relates to the field of refrigeration, namely, absorption and compressor refrigeration units.

Absorption-compressor refrigeration units are known that contain a generator connected via lines of weak and strong solutions, respectively, to low and high pressure absorbers, a condenser connected to a generator, and high and low pressure evaporators in series with liquid refrigerants, whose vapor cavities are connected through gas subcoolers to the respective absorbers, and a compressor with a drive, the inlet of which is connected to the vapor cavity of the low-pressure evaporator, and in move - to a high pressure absorber 1.

The disadvantage of the known installations is their low efficiency due to the need for electricity to drive the compressor.

The purpose of this invention is to improve the economy by using low-grade heat to drive a compressor.

This goal is achieved by the fact that the installation contains a low pressure generator and an additional high pressure absorber, forming its own circulation circuit of a weak and strong solution, and the compressor drive is made in the form of a steam turbine, the inlet of which is connected to the steam cavity of the low pressure generator, and the output to additional high pressure absorber.

The drawing shows a schematic

describe the installation.

It contains a generator 1 connected along line m 2 and 3 of weak and strong solutions to absorbers 4 and 5 of low and high pressures, condenser 6, on line 12 liquid refrigerant from which evaporators 8 and 9 of high and low pressures are installed, gas subcoolers 10 and And, compressor 12, steam turbine 13, low pressure generator 14, additional high pressure absorber 15 and lines 16 and 17 of weak and strong solutions between generator 14 and absorber 15. The installation also contains regenerator heat exchangers 18 and 19, water subcooler 20 dkogo coolant pumps 21, 22 and 23, throttle valves 24, 25, 26 and 27 and input and output lines of the refrigerant vapor to a turbine 13 and from it. The installation works as follows.

B. Generator 1 A strong source of high pressure refrigerant is released from a strong solution by an external source of teal, which is liquefied in condenser 6. Liquid refrigerant is directed through water cooler 20 through line 7 and then through gas subcoolers 10 and 11 and throttle valve 26 to evaporator 8 high pressure in which boils and creates a cooling effect. The remaining part of the liquid refrigerant through the throttle valve 27 enters the low-pressure evaporator 9, in which it evaporates, produces cold at lower temperatures. The refrigerant vapor from the evaporators 8 and 9 is supplied through the second cavities of the gas subcoolers 10 and 11 to the absorbers 4 and 5, in which they are absorbed by the weak solution coming into the absorber 4 from the generator 1 through line 2 and a slightly saturated solution supplied by the pump 21 from the absorber 4 into the absorber 5. The strong solution formed in the absorber 5 is directed by the pump 22 through the heat exchanger - regenerator 18 into the generator 1. A vapor turbine 13 is fed to the compressor 12, which presses the refrigerant vapor from the evaporator 9 to the absorber 5 The refrigerant is taken from the low generator 14 and discharged from it into the additional high-pressure absorber 15. The weak solution from the low-pressure generator 14 flows through line 16 through the heat exchanger regenerator 19 and the throttle valve 25 into the additional absorber 15, and the strong solution formed in the latter is supplied by the pump 23 through the second cavity of the heat exchanger regenerator 19 again to the low-pressure generator 14. The generator 14 uses low potential heat for its operation.

The economic efficiency of the successor is expressed in energy savings for the production of cold, since the steam turbine 13, which drives the compressor 12, uses low marginal heat, which is spent on evaporating the solution in the low pressure generator 14.

Claims (1)

1. USSR author's certificate No. 122154, cl. F 25 V 25/02, 1965.