SU1163105A1 - Absorption refrigerating unit - Google Patents

Abstract

ABSORBZISH1NAYA REFRIGERATING INSTALLATION, containing the circulation circuit of the solution in which the generator, heat exchanger, control valve, low-pressure absorber and high-pressure absorber are installed, as well as a chain of condensers through the refrigerant line, droplets, intermediate vessel, second choke and a low pressure evaporator connected between the generator and the low pressure absorber, the intermediate vessel being additionally connected to a high pressure absorber, characterized in that In order to increase efficiency, it additionally contains a booster compressor connected between the low-pressure evaporator and the intermediate vessel and one of the cavities of the double-cavity liquid refrigerant subcooler connected in series with the refrigerant vapor, the second cavity of which is included in the chain between the liquid separator and the second choke.

Description

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O9 The invention relates to refrigeration, and more specifically to absorption refrigeration equipment. Absorption refrigeration units are known that contain a circuit for circulating a solution in which a generator, a heat exchanger, a control valve, a low pressure absorber and a high pressure absorber, and a chain of condensers subsequently installed in the intermediate vessel are installed. a second throttle and a low pressure evaporator included by a generator and a low pressure absorber, the intermediate vessel being additionally connected to the high pressure absorber Cl J. The disadvantage of the known Installations is their low cost, due to the high load of the low pressure absorber. The purpose of the invention is to increase economy. This goal is achieved by the fact that the absorption refrigeration unit containing the circulation circuit of the solution in which the generator, heat exchanger, control valve, low-pressure absorber and high-pressure absorber are installed, as well as a chain of condenser connected in series along the refrigerant line, throttles, intermediate vessel a second throttle and a low pressure evaporator included between the generator and the low pressure absorber, the intermediate vessel being additionally connected to the high absorber pressure, additionally contains a compressor connected between a low-pressure evaporator and an intermediate vessel, and a compressor and one of the cavities of a two-cavity refrigerant re-cooler connected in series through the refrigerant vapor, the second cavity of which is included in the chain between the liquid separator and the second choke. The drawing is a schematic representation of the proposed installation. The installation includes a generator 1, a heat exchanger 2, a regulator of valves 3, a low pressure absorber 4, a high pressure absorber 5, a condenser 6, a throttle 7, an intermediate vessel 8, a second throttle 9, a low pressure evaporator 10, a biasing compressor 11, a subcooler 12 liquid refrigerant , the second subcooler 13 of the liquid refrigerant, the second control valve 14 and the pumps 15 and 16. The installation works as follows. The strong solution is evaporated in generator 1 to form refrigerant vapor and a weak solution. The refrigerant vapor is liquefied in the condenser 6, and the resulting liquid refrigerant is supercooled in the second subcooler 13 and, reducing its pressure in the first throttle 7, is directed to an intermediate vessel 8 in which the vapor-liquid mixture separates into vapor and liquid phases. The liquid-phase phase flows through the super-cooler 12 and the second choke 9 into the low-pressure evaporator 10, in which it boils and produces a cooling effect, and the vapor phase is directed through the second sub-cooler 13 to the high-pressure absorber 5, in which it is absorbed by the solution. The refrigerant vapor from the low-pressure evaporator 10 is partly sucked through the subcooler 12 by the igniting compressor 11 and is injected through the intermediate vessel 8 and the second subcooler 13 into the high-pressure absorber 5, and leaving part of the refrigerant vapor enters the absorber 4 through the second sub-cooler 13 low pressure. The weak solution from generator 1 is directed through heat exchanger 2 to low pressure absorber A, in which it absorbs the refrigerant vapor coming here. The partially enriched solution is taken up by pump 15 and injected partly through heat exchanger 2 into generator 1 and partly through second control valve 14 to high-pressure absorber 5, from where pump 16 also goes to generator 1. This ends the circulation cycle of the solution and the vapor and liquid refrigerants. The economic efficiency of the invention is to reduce the consumption of greasy steam and cooling water due to the unloading of the low-pressure absorber.

Claims (1)

AN ABSORPTION REFRIGERATING UNIT containing a solution circulation circuit in which a generator, a heat exchanger, a control valve, a low-pressure absorber and a high-pressure absorber are installed, as well as a chain of condenser, choke, intermediate vessel, and a second series connected through the refrigerant line a throttle and a low pressure evaporator connected between the generator and the low pressure absorber, and the intermediate vessel is additionally connected to the high pressure absorber, characterized in that, with In order to increase efficiency, it additionally contains a booster compressor connected between the low-pressure evaporator and the intermediate vessel and one of the cavities of the two-cavity supercooler of liquid refrigerant connected in series with the refrigerant vapor, the second cavity of which is included in the chain between the liquid separator and the second choke. 1 1163 105 2