SU1474401A1 - Absorption heat-pump unit - Google Patents

Abstract

The invention m. Is used in chemical heat systems for heat supply. The purpose of the invention is to increase the potential of the resulting heat, reduce the potential of the resulting cold and increase the coefficient of heat transformation. A separator 6 and an ejector 8 are installed in the refrigerant line after the evaporator 5, the nozzle inlet of which is connected to the liquid cavity of the separator 6 through an additional line to the pump 12, which ensures a decrease in the potential of the resulting cold and an increase in the potential of the heat produced. A regenerative cooler 7, included in the refrigerant line in front of the ejector 8, and an evaporative cooler 10, included in the additional line after the regenerative cooler 3 installed in it, are installed in the strong solution line. 1 il.

Description

The invention relates to the field of chemical-thermal systems for heat supply.

The purpose of the invention is to increase the potential of the resulting heat and reduce the potential of the resulting cold, as well as increase the coefficient of transformation of heat.

The drawing shows a diagram of the proposed absorption heat pump installation.

The installation contains a generator 1, an air condenser 2, a regenerative cooler 3 ammonia, a choke 1

4, an evaporator 5, a separator 6, a regenerative cooler 7, an ejector 8, an absorber 9, an evaporative cooler 10, pumps 11-13, respectively, of strong solution, refrigerant and weak 2 solution.

Installation works as follows.

A strong solution enters the generator 2, where it is heated and evaporated from the ammonia solution. The ammonia vapors then enter the air condenser 2, where they completely condense. Next, liquid ammonia 2 through the regenerative cooler 3 and the choke 4 enters the evaporator

5, where it evaporates due to the heat of the environment. From here, the wet steam enters the separator 6, where it is vaporized and divided into two streams. One stream of liquid refrigerant is pumped to a regenerative cooler 3 by a pump 12, where the separator is heated. The heated separator is sent to the evaporative cooler 10, in which it completely evaporates. From it, the evaporated separator is fed into the nozzle inlet of the ejector 8. The low-pressure steam separated in the separator 6 is additionally overheated with a strong solution in the regenerative cooler 7 and then pressed by the ejector 8 to the pressure in the absorber 9 and enters the latter, where it is absorbed by the weak solution coming from the generator 1 .

The heat released in the absorber is transferred to the consumer. The strong solution obtained in the absorber 9 is cooled in the evaporative cooler 10 and pumped through the regenerative cooler 7 to the generator 1 through the pump 11.

Claims (1)

Claim An absorption heat pump installation containing a generator and an absorber, interconnected by lines of weak and strong solutions and a refrigerant line with a condenser and an evaporator having an inlet at the inlet, characterized in that, in order to increase the potential of received heat and reduce the potential of the resulting cold, as well as to increase the heat transformation coefficient, the installation additionally contains a separator with liquid and steam cavities included in the refrigerant line after the evaporator, a regenerative cooler, a unit lined in the liquor line, and an ejector, the nozzle inlet of which is connected to the separator’s liquid cavity through an additional line equipped with a pump in series, a regenerative refrigerant cooler, included in the refrigerant line in front of the choke, and an evaporative cooler included in the liquor line after the absorber in front of the regenerative cooler.