SU1469257A1 - Absorption refrigerating system - Google Patents

Abstract

Invention m. Used in installations with pressure compressors. The purpose of the invention is to increase the thermodynamic efficiency of the installation. The generator 4, the absorber 1 and the heat exchanger 3 solutions are installed in the refrigerant line connecting the generator 4 to the absorber 1. The subcooler 6 is filled with an additional cavity. The condenser 5 for the refrigerant vapor is connected by an additional line to the entrance to the absorber 1. In the additional line are connected in series one of the cavities of the heat exchanger-heater (TH) 8, the other cavity of which is included in the refrigerant line after the compressing compressor 11, the detander 9 and the additional subcooler 6. The evaporator 7 is equipped with a reflux discharge line, and the outlet from the evaporator 7 is connected to this pipeline and the outlet from the expander 9. The cavities of the ТН 8, as well as its cavity, are connected to the refrigerant line, the compressor and The precooling cavity is m. equipped with bypass pipelines. The steam enters the subcooler 6, is heated in it, then in the compressor 11 the steam is compressed and through the TH 8 is supplied to the absorber 1. A part of the steam from the condenser 5 through the TH 8 enters the expander 9. 1 Cff-ly, 1 hl. 2 (L

Description

one

The invention relates to refrigeration engineering, in particular to absorption / 1st refrigeration units with compression compressors.

The purpose of the invention is to increase thermodynamic efficiency.

The drawing shows a diagram of the absorption refrigeration unit.

Absorption unit contains absorber 1, pump 2, heat exchanger 3 solutions, generator 4, condenser 5, subcooler 6, evaporator 7, heat exchanger-superheater 8, expander 9, valve 10 for reflux drainage from evaporator 7, biasing compressor 11 and valves 12-17 .

The installation works as follows.

In the absorber 1, the refrigerant vapor is absorbed by the solution, with the absorption of the heat of absorption by water. A strong solution from the absorber 1 is pumped by the pump 2 through the heat exchanger 3 to the solution into the generator 4. It separates the strong solution into refrigerant vapor and a weak solution. The last of generator 4 through heat exchanger 3 solutions is choked to irrigate absorber 1. And the steam from generator 4 is sent to condenser 5, in which it is cooled with discharge of heat of condensation by water. Part of the liquid refrigerant from the condenser 5 is fed as reflux to the reflux of the generator 4. The remaining liquid refrigerant from the condenser 5 flows through the sub-cooler 6 to the evaporator 7 to cool the external object. The vapor formed in it leaves it and mixes with the steam from the expander 9, which is premixed with the drained reflux through the valve 10 with the valve 13 open and the valve 12 closed, then enters the subcooler 6, is heated in it and is directed to the compressor 11. the compressor 11 compresses the steam and through the heat exchanger-superheater is supplied to the absorber 1 or past it through the valve 15. Part of the steam from the condenser 5 through the heat exchanger-superheater 8 or past it via the bypass through the valve 14 enters the The house of the com press 11, is distributed therein and enters the absorber 1 as described above, or through a valve

Claims (2)

Formula image Absorption refrigeration unit ιτορ, absorptions and ustaenta, connect> ber, con, throttle, compressor, with a view to, and con1. * a novelty containing a generator, a heat exchanger dissolved in a line of a cooling generator with an absorber, a supercooler and an evaporator with a drive in the form of an expander, characterized in that it increases thermodynamic efficiency, the unit is additionally equipped with a two-cavity heat exchanger, the supercooler is made with an additional cavity a pair of refrigerant is connected by an additional line with: a sorbent and included in it: exactly one of the cavities of the ka-heater, the other and the other is included in the line: after compressive tavder and additional: cooler, moreover, vapor! In the discharge pipe, the outlet from the evaporator is connected to this pipe and to the outlet of the expander. 2. Installation according to claim 1, with the fact that the exchanger-heater has run in, and the cavity included in the agent’s lux, compressor and additional subcooler cavity with passive pipelines. the entrance to the abbreviation. the heat exchange capacity of essor's co-refrigerant, the depolosity transmitter, and the heat; also his new cool