SU1068672A1 - Absorption lithium-bromide refrigerating plant - Google Patents

Abstract

ABSORPTION BROMISTOLITHIUM REFRIGERATING INSTALLATION, containing the circulation circuit of the solution, in which the absorber is installed, the pump cooling the cavity of the two-cavity heat exchanger-regenerator, the first and second stages of the generator, equipped with autonomous heating surface, and a heating panel, and a heating panel, and a heating panel, and a heating panel, and a heating panel, and a heating layer, and a heating panel, and a heating panel, and a heating panel, and a heating panel, and a heating panel, and a heating panel, and a heating panel, and a heating panel, and a heating panel, and a heating panel, and a heating layer, and a heating panel, and a heating panel, and a heating panel, and a heating panel, and a heating panel, equipped with an autonomous heating circuit, and a heating panel, equipped with an autonomous heating system, and a heating panel, equipped with an autonomous heat exchanger refrigerant condenser and evaporator, connected respectively to the second stage of the generator and to the absorber, characterized in that, in order to ensure the possibility of The use of low-grade heat, the installation additionally contains a compressor, the suction side of which is connected to the first stage of the heat generator, and the discharge to the heating surface from the second stage of the heater. (L 05 00 a - y

Description

TO66pefeHrte offtocHtcfl for refrigeration equipment, more precisely for absorption bromide lithium coolers.

Absorbency bromide-lithium refrigeration units are known, which contain the circulation circuit of the solution in which the absorber, the pump, and the cooling cavity of the two-cavity heat exchanger of the generator, the first and second stages of the generator are installed; equipped with autonomous heating surfaces and a heating cavity of the heat exchanger-regenerator, as well as a condenser and an evaporator connected in series on the refrigerant, connected respectively to the second stage of the generator (IJ

A disadvantage of the known installations is that they require expensive high-grade heat for their operation.

The aim of the invention is to provide the possibility of using izopotential heat.

This goal is achieved by the fact that an absorption bromide-lithium cooler contains a circuit for circulating a solution in which an absorber is installed, a pump that cools the cavity of a two-cavity heat exchanger-regenerator, first and second; generator stages, provided with autonomous heating surfaces, and the heating cavity of the heat exchanger-regenerator, as well as a condenser connected in series with the refrigerant and a non-steam device, connected respectively to the second stage of the generator and the absorber, further comprises a compressor, the suction side of which is connected to the first stage of the generator , and pressure - to the heating surface of the second stage of the generator.

The drawing is a schematic representation; and the installation is described.

The installation contains the absorber 1, Pump 2, the cooling cavity 3 two-cavity

heat exchanger regenerator 4, the first 5 and second 6 stages of the generator, autonomous heating surface 7 in the first stage 5 of the generator, heating surface 8 in the second stage 6 of the generator, the heating cavity. 9 of the heat exchanger regenerator 4, the condenser 10, the evaporator P and the compressor 12.

The installation works as follows.

A pump 2 from the absorber 1 is sucked in a weak aqueous solution of lithium bromide and is injected through the cooling cavity S of the heat exchanger-regenerator 4 into the first stage 5 of the generator. A heat carrier is supplied to the heating surface 7 of this stage, which releases water vapor (coolant) from the solution, which is sucked by the compressor 12 and is injected into the heating surface 8 of the second stage 6 of the generator.

The partially evaporated solution from the first stage 5 of the generator is discharged into its second stage 6, in which it is evaporated by compressed water vapor, previously fed into it. the heating surface 8. Water coad- .. sat from: the heating surface 8 and water vapor from the second stage b of the generator enter the condenser 10 cooled by flow through water, while the water vapor turns into a liquid state. The resulting mixture condensate water is sent to the evaporator II, which boils at low pressure, producing a cooling effect. Forming low-pressure water vapor enters the absorber 1, in which it is absorbed by the evaporated solution, coming from the second stage 6 of the generator through the aggravating cavity 9 of the heat exchanger-regenerator 4.

The economic effect of the invention is expressed in reducing the cost of the cold produced due to the use of lower-grade heat to evaporate an aqueous solution of lithium bromide.

Claims (1)

AN ABSORPTION BROMISTOLITIC REFRIGERATING UNIT containing a solution circulation circuit in which an absorber, a pump, a cooling cavity of a two-cavity heat exchanger-regenerator are installed, first and second stages of a generator equipped with independent heating surfaces, and a heating cavity of a heat exchanger-regenerator along a condenser and an evaporator connected respectively to the second stage of the generator and to the absorber, characterized in that, in order to ensure the possibility of and the use of low potential heat, the installation additionally contains a compressor, the suction side of which is connected to the first stage of the generator, and the discharge side to the heating surface of the second stage of the generator.