SU1716272A1 - Refrigerating plant - Google Patents

Abstract

The invention relates to refrigeration and m. used to produce cold at moderate temperatures in the agribusiness, medicine, chemical industry, and other areas. The purpose of the invention is to increase the cooling capacity. For this, the plant additionally contains a crystallizer 9, a rectifier 2, an absorber 13 and two additional pumps 18, 22. At the same time, the crystallizer 9 is connected by pipeline 6 to a control valve 7 through a two-flow heat exchanger 8 with a condenser 3, pipeline 15 to a control valve 16 through a three-flow heat exchanger 11 - with generator 1, gas pipeline 23 - with absorber 13 and pipeline 17 with pump 18 - with cooler-mixer 14, and rectifier 2 connected by pipeline 10 with three-way valve 12 through three-way

Description

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a precise heat exchanger 11 with a cooler-mixer 14 and an absorber 13, which is connected by pipeline with the pump 22 through a three-flow heat exchanger 11 through the first stream to the generator 1, the cooler-mixer 14 being connected by pipeline

19 with a pump 20 through two- and three-flow heat exchangers 8 and 11 along the first flow with generator 1, and a rectifier 2 located between generator 1 and condenser 3 and connected with them by pipelines 4 and 5. 1 Il.

The invention relates to refrigeration and can be used to produce cold at moderate temperatures in the agro-industrial sectors, medicine, chemical industry and other areas.

A refrigeration unit is known, comprising an absorber, a generator, an evaporator, a condenser and heat exchangers 1.

The main disadvantage of this installation is the need for additional energy consumption due to the use of a heat source with a temperature of 90-120 ° C.

Also known is a refrigeration unit comprising a cooler-mixer, a generator, a condenser, two- and three-flow regenerative heat exchangers, a pump and pipelines 2.

The disadvantage of this setup is its low specific cooling capacity.

The purpose of the invention is to increase the cooling capacity.

The goal is achieved by the fact that in a refrigeration unit containing a cooler-mixer, a generator, a condenser, two- and three-flow regenerative heat exchangers, a pump and piping, a crystallizer, a rectifier, an absorber and two additional pumps are added, and the crystallizer is connected to the throttle valve through a pipeline a two-flow heat exchanger with a condenser, a pipeline with a control valve through a three-flow heat exchanger with a generator, a gas pipeline with an absorber and a pipeline with one and additional pumps - with a cooler-mixer, and the rectifier is connected by a pipeline to a three-way valve through a three-flow heat exchanger with a cooling-mixer and an absorber, which is connected by a pipeline to another additional pump through a three-flow heat exchanger through a first stream to a generator, and the cooling-mixer is connected by pipeline to a pump through two- and three-flow heat exchangers along the first stream with the generator, and the rectifier is located between the generator and the condenser and gas is connected with them by the waters.

The drawing shows a diagram of the refrigeration unit.

The refrigeration unit contains a generator 1, a rectifier 2 and a condenser 3, connected in series with pipelines 4 and 5. The condenser 3 is connected by pipeline b to a control valve 7

through a double-flow heat exchanger 8 with a crystallizer 9. Rectifier 2 is connected by a pipe 10 through a three-flow heat exchanger 11 and a three-way valve 12 with an absorber 13 and a chiller-mixer

14. The generator 1 is connected by pipe 15 to the valve 16 with the mold 9 through a heat exchanger 11. Cooler-mixer 14 is connected by pipe 17 to the pump 18 with the mold 9, and also pipe 19 with pump 20 through the heat exchanger 8 to the generator 1. Absorber 13 is connected by pipe 21 the pump 22 with the pipeline 19, and the mold 9 and the absorber 13 are interconnected by a gas pipeline 23.

Refrigeration unit operates as follows.

After cold is obtained in the cooler-mixer 14, the working solution is pumped by pump 20 through conduit 19 to generator 1

through a two-flow heat exchanger 8 and a three-flow heat exchanger 11.

As the working solution, a mixture of water with a hydrating agent, such as freon R30, and

the third component, for example acetone. In this case, the mixture of vapors of acetone and freon through line 4 enters the rectifier 2, where the vapors of the least volatile component, in this case acetone, condense when the heat of rectification is removed. The vapors of the most volatile component, in this case freon, through pipeline 5 enter condenser 3, where they liquefy when the heat of condensation is removed.

Liquid freon from condenser 3 through line 6, cooled in heat exchanger 8 with working solution from cooler - mixer 14, is throttled in control valve 7 and enters crystallizer 9. From generator 1, water through line 15 through heat exchanger 11, where it is cooled with working solution from the cooler-mixer 14, and the valve 16 is also supplied to the crystallizer 9. In the crystallizer 9, water forms gas hydrates when mixed with freon, and part of the freon evaporates, removing the latent heat of hydrate formation. The resulting vapors of freon from the crystallizer 9 through gas line 23 enter the absorber 13, where they are absorbed by liquid acetone.

Liquid acetone is supplied to the absorber 13 through line 10 from the rectifier 2, while part of it through the three-way valve 12 is sent to the cooler-mixer 14. Gas hydrates are separated from the mixture of unreacted water and freon in the crystallizer 9 and the pump 18 through line 17 is supplied in the cooler-mixer 14, where they are mixed with acetone coming through the pipeline 10. Melting hydrates when mixing them with acetone and lowering the temperature of the mixture allows to get cold in the cooler-mixer 14. Forming a mixture of liquid components ENTOV -smesitel from the cooler 14 through line 20, pump 19, through heat exchangers 8 and 11 is pumped to the generator 1. Referring drain path of acetone with a mixture of liquid refrigerant and pitch, a feed pump 22 through conduit 21 from absorber 13.

Claims (1)

Invention Formula A refrigeration unit containing a cooler-mixer, a generator, a condenser, two- and three-flow regenerative heat exchangers, a pump and pipelines, characterized in that, in order to increase the cooling capacity, it additionally contains a crystallizer, a rectifier, an absorber and two additional pumps, with This crystallizer is connected by pipeline with a throttle valve through a two-flow heat exchanger with a condenser, a pipeline with a control valve through a three-flow heat exchanger with a generator, gas water - with an absorber and piping with one of the additional pumps - with a cooler-mixer, and the rectifier is connected by a pipeline to a three-way valve through a three-flow heat exchanger with a cooling cooler and an absorber, which is connected by a pipeline with another additional pump through a three-flow heat exchanger through the first flow with the generator, the cooler-mixer is connected by pipeline to the pump through two- and three-flow heat exchangers in the first flow with the generator, and the rectifier is located between the gene a condenser and a condenser and associated with them by pipelines.