RU2269077C2 - Test rig for absorption-compression refrigeration units - Google Patents

Abstract

FIELD: cooling equipment, particularly test rigs adapted to determine heat-and-power characteristics of absorption-compression refrigeration units.

SUBSTANCE: test rig comprises absorption loop to be tested, compression loop and two-chamber vessel. The absorption loop includes absorption unit and the first testing and control equipment system. The compression loop comprises compression unit and the second testing and control equipment system. Suction pipe of compression unit is included in the first vessel chamber. Absorption unit coil is in-circuit with the second vessel chamber. The vessel chambers are connected in series to water cooling system. Ammonia-water mixture enters from compressor cooling head through shutoff vessel into absorption loop generator.

EFFECT: increased reliability of absorption-compression refrigeration unit performance investigation.

1 dwg

Description

The invention relates to refrigeration, in particular to stands for testing sealed units of domestic refrigeration machines.

A known bench for testing an absorption-compression refrigeration unit containing a tested absorption circuit with an absorption apparatus and a system of measuring and regulating apparatus and a compression circuit containing a compression unit and its system of measuring and regulating apparatus, a thermally insulated two-section container, in the first section of which a compression suction pipe is integrated unit, and in the second - the coil of the absorption apparatus, while these sections are connected after ovatelno to a water cooling system, the compressor of the compression unit is provided with a cooling system (AS USSR №1677461, F 25 B 25/02, 1991).

The well-known stand does not allow to obtain a reliable value of cooling capacity when testing refrigeration units, since it is not possible to achieve complete evaporation of the ammonia-water solution in the compressor cooling system due to the small amount of heat generation insufficient to evaporate the ammonia-water solution due to the relatively high heat capacity of water.

The technical result of the claimed invention is to ensure reliability in the study of the operational characteristics of absorption and compression refrigeration units.

The technical result is achieved due to the fact that in the test bench for the absorption and compression refrigeration unit containing the tested absorption circuit with an absorption apparatus and a system of measuring and regulating apparatus and a compression circuit containing a compression unit and its system of measuring and regulating apparatus, a thermally insulated two-section container, in the first section of which the suction pipe of the compression unit is built-in, and in the second - the absorption coil and, while these sections are connected in series to the water cooling system, the compressor of the compression unit is equipped with a cooling system, according to the invention, the ammonia-water solution from the compressor cooling head through the shut-off valve enters the absorption circuit generator.

Our stand design (see the drawing) contains an absorption circuit consisting of a generator 1 with an electric heater 2, a liquid heat exchanger 3, a reflux condenser 4, a water cooling condenser 5, a control valve 6, a calorimeter 7, a two-section heat exchanger 8, and a heat exchanger 9 that plays the role of coil of the absorber, a two-section thermally insulated tank 10, the second section 11 of which acts as an absorber, and the first section 12 is connected to the suction pipe 13 of the compression circuit, consisting of spring 14, the cooling system 15 of which is connected at the inlet to the absorption circuit conduit 16, control valves 17 and 18. The output of the cooling system 15 through the control valve 17 is connected to a generator 1 with electric heater 2. The compression circuit also contains a water cooling condenser 20, a butterfly valve 21 and a coil 22 of a calorimeter 23.

The stand is also equipped with a start-up, control equipment and a water cooling system for the heat exchanger of the stand, the latter being placed in a heat-insulated chamber.

The stand works as follows.

The compressor 14 pumps superheated refrigerant vapors into a condenser 20 in which the vapors condense, after which the liquid refrigerant is throttled in the throttle valve 21 and enters the coil 22 of the calorimeter 23 with secondary refrigerant, which determines the cooling capacity of the compression circuit. From the coil 22, refrigerant vapor flows through a pipe 13 to a section 12 of the tank 10 and then to the compressor suction pipe 14.

In the process of testing with the help of control valves 17 and 18, the required flow rate of the ammonia-water solution is supplied to the cooling system 15 of the compressor 14, where the evaporation of the working fluid is ensured by the selection of heat from overheating. A solution of ammonia and water from the head 15 through a shut-off valve 17 enters the generator 1 with an electric heater 2 through a pipeline and is supplied to the reflux condenser 4, in which the concentration of the working fluid in ammonia increases. At the same time, the mixture with increased concentration enters the water-cooled condenser 5, and the phlegm flows into the liquid heat exchanger 3. Liquid ammonia is throttled in the control valve 6 and enters the calorimeter 7, and from it through the two-section heat exchanger 8 to the heat exchanger 9, in which it is mixed with a weak solution coming from the generator 1 through a liquid heat exchanger 3. From the heat exchanger 9, the solution passes the second section 11 of the tank 10 and then through the pipe 16 enters the absorption or compression circuit, depending on test program content.

Maintaining the required temperature conditions is carried out using a water system.

The heat-insulated tank 10 allows you to explore the effect of superheated suction steam on the refrigeration capacity of the compression circuit, depending on the parameters of the ammonia-water solution supplied to section 11.

Claims (1)

Test bench for an absorption and compression refrigeration unit, comprising a tested absorption circuit with an absorption apparatus and a system of measuring and regulating apparatus, and a compression circuit containing a compression unit and its system of measuring and regulating apparatus, a thermally insulated two-section container, in the first section of which a suction pipe of the compression aggregate is integrated and in the second - the coil of the absorption apparatus, while these sections are connected in series about to a water cooling system, and the compressor of the compression unit is equipped with a cooling system, characterized in that the ammonia-water solution from the compressor cooling head through a shut-off valve enters the absorption circuit generator.