SU1092336A1 - Absorption-resorption refrigerating unit - Google Patents

Abstract

1. ABSORPTION-RESORPTION REFRIGERATION INSTALLATION, containing the absorption circuit of the solution, in which the generator, the first cavity of the regenerator heat exchanger, the choke, the absorber, the pump, the second cavity of the regenerator-heat exchanger and the rectifier, as well as the resorption-degastor circuit and the rectifier circuit of the heat-biennial regenerator and the rectifier, as well as the resorption-degastor circuit, the regenerator-regenerator and the rectifier, as well as the resorption-degasor circuit and the rectifier circuit are installed. the resorber, the first cavity of a two-cavity heat exchanger, a control valve, a degasser and a pump are included, the rectifier output is connected to the resorber, and the degasser output is connected to an absorber, tlichayuscha in that in order to enhance the economy and possibility of production shchnosti ho- Loda uc at different temperatures. using low-grade heat, the installation additionally contains a liquid separator, the liquid space of which is included in the resorption-degassing circuit between the degasser and the pump, and the steam space is connected to the absorber, and the resorber is additionally connected by means of autonomous drossel through the second cavity of the heat exchanger to the communication line of the degasser with liquid space liquid separator. 2. Installation according to claim 1, characterized in that the resorber is filled with two sections, its solution sections are connected in series and the first of them is connected at the inlet to the absorption circuit between the pump and the second cavity of the heat exchanger-regenerator, and at the outlet to the rectifier. 3. Installation according to claim 1, characterized in that the degasser is made in two sections, with this (O the first section of the output is connected to the second cavity of the two-cavity heat exchanger, and the second section at the inlet is via an independent throttle valve to the resorber. 4. Installation by the n 1, that is, with the fact that the degasser and the heat exchanger are filled with multisectional parts, the sections of the heat exchanger on the side of both cavities are connected in series, and each section on the side of the second cavity is included in the resorption-degasser circuit between in sections of the degasser, and before the sections of the degasser and between the inlet and outlet of the indicated sections of the heat exchanger, control valves are additionally installed.

Description

The invention relates to refrigeration equipment, and more specifically to absorption and resorption refrigeration units, h. Absorption and resorption refrigeration units containing an absorption circulation circuit of a solvent in which the generator section of the first cavity of the heat exchanger of the generator, choke, absorber, pump, and the second cavity of the heat exchanger of the regenerator are known are known. and a rectifier, as well as a resorption-deaerator circuit for the circulation of the solution, which includes a resorber, the first cavity of a two-cavity heat exchanger, regulating valve, degasser and a pump, the output of the rectifier associated with rezorbe rum and vkod degasser - an absorber CJ 3. Disadvantages of known installations t small efficiency and the inability to produce different temperatures using cold nizkopoten ™ potential heat because of the absence of necessary equipment. The aim of the invention is to increase the economy and the possibility of producing cold at various temperatures using g of potentiative heat. This goal is achieved by the fact that an absorption and resorption refrigeration unit containing an absorption circuit for circulating a solution in which a generator, the first cavity of a heat exchanger regenerator, a choke, an absorber, a pump, a second cavity of a heat exchanger regenerator, and a rectifier are installed, as well as a resorption-decontamination circuit of the circulation of the solution, which includes the resorb of the first cavity of a two-cavity heat exchanger, a control valve, de. 1 congestion and a pump, the output of the rectifier is connected to the resorber. And the output of the degasser with the absorber additionally contains a liquid separator, the liquid space of which is included in the resorption-degassing circuit between the degasser and the pump, and the steam space is connected to the absorber, moreover, the resorber is additionally connected by means of autonomous droplets through the second cavity of the heat exchanger to the communication line of the degasser with the liquid space of the liquid separator. The resorber is made in two sections, its sections in solution are connected successively and the first of them are connected at the inlet to the absorption circuit between the pump and the second cavity of the regenerator heat exchanger, and at the outlet to the rectifier. The degasser is filled with two sections, with the first section at the outlet being connected to the second cavity of the two-cavity heat exchanger, and the second section at the inlet through an independent throttle valve to the resorber. The degasser and the heat exchanger are made multi-section, with the heat exchanger sections on the side of both cavities connected in series, and its section on the side of the second cavity is included in the resorption-degassing circuit between the degasser sections, and in front of the degasser sections and between the inlet and outlet of these sections heat exchanger additionally installed control valves. FIG. 1 is a schematic representation of the proposed installation with a single-section resorber, a two-cavity heat exchanger and a degasser; in fig. 2 the same, with a two-section resorber and a single-section heat exchanger and degasser; in fig. 3 the same, with a two-section resorber and a degasser; FIG. 4 is the same with a two-section resorber and heat exchanger and a three-section degasser. The installation includes a generator 1, a heat exchanger-regenerator 2, a choke 3, an absorber 4, a pump 5, a rectifier 6, a resorber 7, a two-cavity heat exchanger 8, a control valve 9, a degasser 10, a pump 11, a liquid separator 12 an autonomous choke 13, a communication line 14 degasser 10 with liquid separator 12 first section 15 of resorber 7, second section 16 of resorber 7, first section G / degasser 10, second section 18 of degasser 10, autonomous throttle valve 19, third section 20 of degasser 10, first section 21 of a two-cavity heat exchanger 8, second section 22 bipolar stnogo exchanger 8, additional control valves 23, 24 and 25. The installation work is carried out as follows.

Heater 1 (Fig. I) is supplied with heating heat, which is used to extract high-pressure refrigerant vapor from a strong solution to rezorber 7. Weak hot solution 5 from generator 1 flows through heat exchanger-regenerator 2 and choke 3 to absorber 4, wherein it is enriched with refrigerant vapor coming from the degasser 10 and the second cavity of a two-cavity heat exchanger 8 through the liquid separator 12. The resulting strong solution from absorber 4 is taken up by HacoqoM 5 and heated partially through heat exchanger-regenerator 15 2 and the remaining part through rectifier 6 again into generator 1. At this time, the solution in the resorber is saturated with refrigerant vapor coming here from generator 1. Received rich 20 solution partially through the first cavity of the two-cavity heat exchanger 8 and the control valve 9 to the degasser 10 and the remaining part through the independent choke 13 into the second 25 cavity of the two-cavity heat exchanger 8. In the degasser 10 and the second

the cavity of the heat exchanger 8, the solution boils at low pressure with the production of a cooling effect, and the resulting Q vapor-liquid mixture flows through line 14 to the liquid separator 12. From- here the depleted liquid is sucked in by the pump 11 and injected again into the resorber 7, and the pure refrigerant vapor is sent to the absorber. This completes the circulation cycles of the solution in the absorption and resorption-degassing circuits.

To increase the efficiency of the installation, the resorber 7 is performed in two sections (Fig. 2). At the same time, a part of the absorption circuit solution is supplied by the pump 5 to the first section 15 of re-, zorbere 7, in which it is heated by the heat released during absorption

refrigerant vapor with the solution supplied by pump 11. After this, the heated solution from section 15 of resorber 7 is fed through a rectifier

6c generator 1.

To obtain cold at various temperatures, the degasser 10 is completed in two sections. At the same time, the enriched solution supplied through the regulating valve 9 boils in section 17 at a lower temperature than in section 18, into which the enriched solution is supplied through an autonomous choke valve 19 directly from the resorber 7.

To reduce resorber pressure

7 and a decrease in the potential of the heat supplied by the E generator 1, the two-cavity heat exchanger 8 and the degasser 10 are implemented in multi-section (Fig. 4), for example a two-section heat exchanger 8 and a three-section degasser 10. The first section 21 of the heat exchanger 8 and the third section 20 the degasser 10, as well as control valves 23 and 24 form the first stage of the resorption-degassing circuit. The second section 22 of the heat exchanger 8 and the second section 18 of the degasser 10 with control valves 19 and 25 form the second stage of this circuit. Control valves 19, 24 and 9 allow the cooling capacity of sections 17, 18 and 20 of the degasser 10 to be changed as well as to change

in them temperature pressure.

The economic efficiency of the invention is reflected in a reduction in the cost of producing cold due to a reduction in the cost of heating heat and cooling water required for {its operation, while at the same time reducing the potential and, consequently, reducing the cost of the heat consumed.

nnr No.

FIG

.20

eleven

Fy

Claims (4)

1. Absorption-resorption refrigeration unit containing the absorption circuit of the solution in which the generator, the first cavity of the heat exchanger of the regenerator, the throttle, absorber, pump, the second cavity of the heat exchanger-regenerator and rectifier, as well as the resorption-degasser circuit of the solution are installed, in which a resorber, the first cavity of a two-cavity heat exchanger, a control valve, a degasser and a pump, the outlet of the rectifier being connected to the resorber, and the outlet of the degasser to the absorber, excellent This is clear by the fact that, in order to increase the economy and the possibility of producing cold at different temperatures when using low-grade heat, the installation additionally contains a liquid separator, the liquid space of which is included in the resorption-degassing circuit between the degasser and the pump, and the steam is connected to the absorber, moreover, the resorber is additionally connected via an autonomous throttle through the second cavity of the heat exchanger to the communication line of the degasser with the liquid space of the liquid separator. 2. Installation according to π. 1, characterized in that the resorber is made of two sections, its solution sections are connected in series and the first of them at the inlet is connected to the absorption circuit between the pump and the second cavity of the heat exchanger, and at the outlet to the rectifier. 3. Installation according to π. 1, characterized in that the degasser is made in two sections, while the first section at the outlet is connected to the second cavity of the two-cavity heat exchanger, and the second section at the inlet is connected to the resorber via an autonomous throttle valve. 4. Installation according to π. 1, characterized in that the degasser and heat exchanger are multi-sectional, with sections of the heat exchanger from the side of both cavities connected in series, and each of its sections from the side of the second cavity is included in the resorption-degasser ".. (There is a contour between the sections of the degasser, and in addition to the sections of the degasser and between the inlet and outlet of the indicated sections of the heat exchanger, control valves are additionally installed. 1 1092336