SU951027A1 - Two-stage absorption-resorption refrigeration unit - Google Patents

Description

The invention relates to refrigeration engineering, in particular, to two-stage absorption-rezobtsionnyh refrigeration units and can be used in the chemical, petrochemical, food and other industries.

A known two-stage absorption-resistive refrigeration unit containing a high-pressure refrigerant trunk, which includes a generator, a heat exchanger and a condenser, an intermediate pressure pipe, which includes an evaporator, a resorber and a double-circuit heat exchanger, and a low-pressure pipe, which includes a degasser and sorbent 1.,

There is little efficiency because the absorber, resorber and evaporator mix the flows with a large difference in temperature potential between them, which causes a significant amount of irreversible losses in the refrigeration cycle.

The aim of the invention is to improve the economy.

This goal is achieved by the fact that the installation further comprises

a three-cavity heat exchanger, one cavity of which is connected to the high pressure line after the condenser, the other to the intermediate pressure line between the evaporator and the resorber, and a third to the low pressure line between the degasser and the absorber.

The drawing shows a diagram of a two-stage absorption-resorption refrigeration unit.

The installation contains a generator 1 sequentially installed on the refrigerant, a heat exchanger 2, a condenser 3 connected via a throttle valve 4 to an evaporator 5, a resorber 6 which enters the circulation circuit of a high concentration solution. In this circuit, consistently

20, a double-circuit heat exchanger 7 and a degasser 8 are installed, the vapor cavity of which is connected to the absorber 9. The absorber 9 is connected together with the generator 1 and the heat exchanger 2 into the circulation circuit of the low concentration solution. In the communication line 10-12, respectively, between the evaporator 5 and the resorber 6, between the condenser 3 and the evaporator 5 and between the degasser 8 and the absorber 9 is included a three-heat exchanger.

abdominal 13.

The circulation of the solutions is carried out with the help of pumps 14 and 15. The solution pressure is reduced by means of adjustable valves 16 and 17.

The installation works as follows.

The high-pressure ammonia vapors formed in the generator 1 upon evaporation of the strong solution enter the heat exchanger 2, where they are cleaned from water vapor by cooling them with a strong solution flowing through the annular space of the heat exchanger 2. The reflux forming at the same time flows back into the generator 1, and practically pure ammonia vapor enters the condenser 3, where it is liquefied under the action of cooling external air. From the condenser 3, liquid ammonia is sent via line 11 to a three-cavity heat exchanger 13, where It is cooled by cold vapors, coming through line 10 from the evaporator 5 and through line 12 from the degasser 8. Then the supercooled liquid amgliak is sent through the throttle valve 4 to the evaporator 5, in which it boils at intermediate pressure, the water is low. The resulting aiiiMHaKa pairs are passed through a three-cavity heat exchanger 13 to a re-airbag, where they are absorbed by a weak solution, fed by a pump 1 through a double-circuit heat exchanger 7. variable tag / teraturu, doohlada while water. Formed in a degasser 8

; low-pressure ammonia vapors flow through a three-part heat exchanger 13 into the absorber 9, in which they are absorbed by a weak solution, sent from the generator 1 through the heat exchanger 2, and a control valve 17. The strong solution formed in the α-absorber 9 is fed through a heat exchanger 14 2 3 generator 1 and on this pick-up of the installation closes.

The economic efficiency of the invention is to reduce heat consumption during operation of the installation: ki.

Claims (1)

1. Rosenfeld LM, Tkachev A.G. Refrigerating machines. And apparatuses. M, Gostroyizdat: -. 1960, p.625, fig.338. MW: II I S to From Shodna Soda to the consumer 13 / .t tV Xj // h / Hungry from the consumer