SU1134858A1 - Refrigerating plant - Google Patents

Abstract

1. A REFRIGERANT INSTALLATION comprising a circulation loop in which two compressors are installed in series, a condenser, two throttles with an intermediate vessel between them and an evaporator, and the steam space of the intermediate vessel is additionally connected to the contour between the compressors, which is cooling capacity, the installation additionally contains a liquid circuit with a pump and a two-section heat exchanger, and the evaporator is designed as a liquid separator connected through a liquid This is a liquid space circuit that, after the heat exchanger, is connected to the circulation circuit after the condenser, and between sections of the heat exchanger is connected to the liquid cavity of the intermediate vessel by means of an independent pump. 2. Installation according to claim 1, characterized in that said autonomous pump is installed in the fluid circuit between the sections of the heat exchanger. § (L OD 4 00 cd 00

Description

The invention relates to refrigeration technology and can be used in refrigeration units when cooling flows with variable temperature, in particular, in cooling and gas separation processes in chemistry, gas drying processes, gas liquefaction processes, and so on.

A known refrigeration unit comprising a circulation circuit in which a compressor, a condenser, a steam turbine and a industrial vessel are installed in series, the vapor space of which is connected to the circuit in front of the compressor, the installation further comprising a fluid circuit with a pump and a heat exchanger, while the fluid circuit after the heat exchanger is connected to the circulation loop after condenser 1.

However, in the heat exchanger of this refrigeration unit, the flow of liquid refrigerant heated by an external working fluid has a constant flow along its entire length, therefore, in some parts of the heat exchanger large temperature differences between the external working fluid and the refrigerant may occur, which will lead to additional thermodynamic losses and additional the cost of cooling capacity, in addition, the gas turbine reduces the reliability of the refrigeration unit as a whole, and with a low internal efficiency tazoparovoy urbiny- cycle refrigeration coefficient setting significantly reduced.

A refrigerating installation is also known, which contains a circulation loop in which two compressors are installed in series, a condenser, two throttles with an industrial vessel between them and an evaporator, and the steam space of the industrial vessel is additionally connected to the contour between the compressors | 21.

In the evaporator of such a refrigeration unit, the evaporating liquid refrigerant flow has a constant temperature along its entire length equal to the boiling point, as a result of which heat exchange between the external working fluid and the refrigerant flows in the evaporator with a large temperature difference, which leads to an increase in irreversible thermodynamic losses and a decrease in cooling capacity installation.

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

This goal is achieved by the fact that a refrigeration unit containing a circulation loop in which two compressors are installed n-consecutively, a condenser, two throttles with an intermediate vessel between them and an evaporator, the steam space of the intermediate vessel additionally connected to the circuit between the compressors; ; bone circuit with pump and two-section

heat exchanger, and the evaporator is made in the form of a liquid separator connected in a fluid space with a liquid circuit, which after the heat exchanger

connected to the circulation circuit after the condenser, and between sections of the heat exchanger is connected to the liquid cavity G1 of the intermediate vessel by means of an independent pump.

In addition, this autonomous pump unit can be installed in the fluid circuit between the heat exchanger sections. FIG. 1 gfivedena diagram of the refrigeration unit; in fig. 2 - the same, option.

The refrigeration unit consists of a circulation circuit 1 in which two compressors 2 and 3, a condenser 4, two throttles 5 and b with an intermediate vessel 7 between them, and a liquid separator 8 are installed in series. The vapor space of the intermediate vessel 7 is connected by pipeline 9 to the circulation circuit 1 between compressors 2 and 3. Moreover, the refrigeration unit further comprises a liquid circuit 10, in series with which a pump 11 is installed and

a two-section heat exchanger with sections 12 and 13. The inlet of the liquid circuit 10 is connected to the liquid cavity of the liquid separator 8, and its output to the circulation circuit 1 after the condenser 4. In addition, the liquid circuit 10 between

Sections 12 and 13 of the two-section heat exchanger are connected by pipe 14 to the liquid cavity of the intermediate vessel 7. The refrigeration unit also contains an autonomous pump 15, which in the first embodiment of its use (Fig. 1) is installed in

pipe 4, and in the second embodiment (fig. 2), in the liquid circuit 10. between sections 12 and 13 of the two-section heat exchanger, and in this embodiment pipe 14 is connected to the circulation cone of the RMA between intermediate vessel 7 and throttle 6.

Cold sa installation works as follows.

The bulk liquid flows from the condenser 4 and section 13 of the two-piece heat exchanger to the throttle 5, in which it expands to intermediate pressure, and then enters the intermediate vessel 7, where the vapor-liquid mixture separates into liquid and vapor phases. Next, the liquid phase enters the second choke 6, in which it finally expands and then enters the liquid separator 8. The liquid phase from the liquid separator 8 enters the liquid circuit 10, in which it is compressed by the pump 11 to condensation pressure and is heated by an external working fluid, cooling it in sections 12 and 13 of the two-section heat exchanger. The vapor phase refrigerant from the liquid separator 8 enters

Claims (2)

1. REFRIGERATING UNIT containing a circulation circuit in which two compressors, a condenser, two chokes with an intermediate vessel between them and an evaporator are installed in series, the vapor space of the intermediate vessel being additionally connected to the circuit between the compressors, characterized in that, in order to increase the cooling capacity , the installation additionally contains a liquid circuit with a pump and a two-section heat exchanger, and the evaporator is made in the form of a liquid separator connected in liquid a space with a liquid circuit, which after the heat exchanger is connected to the circulation circuit after the condenser, and between sections of the heat exchanger is connected to the liquid cavity of the intermediate vessel by means of an autonomous pump. 2. Installation according to π. 1, characterized in that the said stand-alone pump is installed in the liquid circuit between the sections of the heat exchanger. Figure 1, SU 1134858