SU844949A1 - Absorption-diffusion refrigerating unit - Google Patents

Description

The invention relates to the field * of refrigeration technology, and more specifically to absorption and diffusion refrigeration units. 5

Known absorption-diffusion refrigeration units containing sequentially installed in the solution of the boiler, absorber and heat exchanger-regenerator [1].

A disadvantage of the known units is the complexity of their design, due to the presence of a thermosiphon and separation chambers in the boiler, as well as the need for high heating of the solution in the boiler to ensure the normal operation of the thermosiphon.

The purpose of the invention is to simplify the design and reduce the temperature of heating the solution in the boiler.

This is achieved by the fact that the 4th boiler is made in the form of a cylindrical vessel equipped with a heating jacket, and the absorber is placed horizontally at the level of the boiling solution in the boiler __ nick.

The drawing schematically shows the proposed refrigeration unit.

It contains the boiler 1> absorber 2 sequentially installed in the solution, the heat exchanger-regenerator 30 tor 3 and the heating jacket 4 of the boiler 1, as well as the rectifier 5, the condenser 6, the high-temperature evaporator 7, the low-temperature evaporator 8 and the gas heat exchanger 9, the receiver 10 of the strong solution and pipelines 11-17.

The unit operates as follows.

A coolant is supplied to the heating jacket 4, the heat of which from the solution in the boiler 1 releases refrigerant vapor with some admixture of absorbent vapor. The specified vapor mixture is freed from the vapor of the absorbent in the pipe 11 and the rectifier 5, which in liquid form, flow back into the boiler 1, and the clean refrigerant vapor is liquefied in the condenser 6. The resulting liquid refrigerant is sent through the pipe 13 to the high-temperature evaporator 7, in which it partially evaporates by diffusion into the circulating hydrogen, while producing high-temperature cold. The remainder of the liquid refrigerant evaporates into the circulating hydrogen in the low temperature evaporator 8, producing cold at low temperatures. The resulting refrigerant vapors together with hydrogen from the evaporators 7 and 8 enter the gas heat exchanger 9, in which the purified hydrogen coming from the receiver 10 through the pipe 14 to the evaporators -7 and 8 is cooled. From the gas heat exchanger 9, the heated hydrogen with the refrigerant vapors is sent through the pipeline 12 into the absorber'2, passes through the entire absorber, being cleaned of the refrigerant by its absorption by the evaporated solution entering the absorber 2 through the pipe 17 from the heat exchanger-regenerator 3. The evaporated solution from the boiler 1 passes through the pipe oprovodu 16 to heat exchanger-regenerator 3 which heats the rich solution coming from -resyvera 10 and guided after regenerator heat exchanger 3 again to the boiler 1. Thus pumped circulation cycles solution, hydrogen gas and refrigerant vapors.

Is the economic .effectiveness of the proposal expressed? · The possibility of using low potential heat for operation of the unit, due to a significant decrease in the temperature of heating the solution in the boiler, as well as by reducing the cost of the unit due to the simplification of its design.

Claims (1)

Claim Absorption-diffusion refrigeration unit ^ containing a placenta. A boiler, absorber and heat exchanger are installed in the solution, characterized in that, in order to simplify the design and reduce the heating temperature of the solution in the boiler, the last 15 is made in the form of a cylindrical vessel equipped with a heating jacket, and the absorber is placed horizontally at the level of the boiling solution in the boiler . Nike.