SU1677461A1 - Test stand for absorption-compression refrigerating unit - Google Patents

Abstract

The invention relates to refrigeration engineering, in particular, to test benches for testing hermetic units of household refrigeration machines. The purpose of the invention is to expand the range of operating parameters in the study of the performance characteristics of absorption-compression-vy aggregates with a second tested compression circuit. To do this, the compression circuit contains the tested compression unit and its system of measuring and regulating equipment, as well as a heat-insulated two-section tank 10, in the first section 12 of which the suction pipe of the compressor 14 is built-in, and the second section 11 is a coil-absorbing device, and the sections are connected in series to the water cooling system, the compressor 14 of the compression unit is equipped with a cooling head 15, the cavity being cooled is connected to the absorption end Tour before and after its generator 1.1 Il. a C / 1 g &

Description

The invention relates to refrigeration equipment, in particular to test benches for testing hermetic units of household refrigeration machines.

The purpose of the invention is to expand the range of operating parameters in the study of the performance characteristics of the combined absorption and compression units with the second tested compression circuit.

The drawing shows the layout of the test bench for the absorption-compression refrigeration unit.

The stand 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-cooled condenser 5, a control valve 6, a calorimeter 7, a gas heat exchanger 8, a heat exchanger 9 that acts as an absorber coil, a two-section heat-insulated tank 10, the second section 11 of which serves as an absorber, and the first section 12 is connected to the suction pipe 13 of the compression circuit consisting of a compressor 14, the cooling head 15 of which is connected Chen inlet conduit 16 to the absorption circuit, the regulating valves 17 and 18. The head 15 is connected to the output line 19 of the absorption circuit. The compression circuit also contains a water cooled condenser 20, a throttle valve 21, a coil 22 of the calorimeter 23.

The stand is also equipped with starting, regulating equipment and a water cooling system for stand heat exchangers, the latter being placed in a heat-insulated chamber.

The stand works as follows.

Compressor 14 injects superheated refrigerant vapor into condenser 20, in which vapor condenses, after which liquid refrigerant is throttled in throttle valve 21 and fed to coil 22 of calorimeter 23 and secondary refrigerant, in which the cooling capacity of the compression circuit is determined. From the coil 22 of the refrigerant vapor through the pipeline 13 enters section 12 of the tank 10 and then into the suction port of the compressor 14.

8, the test process uses the control valves 17 and 18 to establish the required flow rate of the ammonia flow supplied to the cooling head 15 of the compressor 14, where the evaporation of the working fluid is provided by extracting heat from the superheat. Pairs of ammonia and water from the head 15 and the generator 1 through the pipeline 19 are fed to the reflux condenser 4, in which an increase in the concentration of the working fluid in ammonia occurs. In this case, a mixture with a higher concentration enters the water-cooled condenser 5, and the reflux flows into the liquid heat exchanger 3.

Liquid ammonia is choked in the control valve 6 and enters the calorimeter 7, and from there through the gas heat exchanger 8 into the heat exchanger 9, which mixes with the weak solution coming from

generator 1 through the liquid heat exchanger 3. From the heat exchanger 9, the solution passes the second section 11 of the tank 10 and further along the pipeline 16 enters the absorption or compression circuit, depending on the content of the test program.

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

Thermally insulated container 10 allows to investigate the effect of overheating of the intake steam on the cooling capacity of the compression circuit, depending on the parameters of the water-ammonia solution supplied to section 11,

Claims (1)

Claims for testing an absorption-compression refrigeration unit containing a test absorption circuit with an absorption apparatus and a system of measuring and regulating equipment, characterized in that, in order to expand the range of operating parameters when studying the performance characteristics of a combined absorption-compression aggregates with a second test compression circuit, the latter contains the tested compression unit and its measuring and control system equipment, as well as a heat-insulated two-compartment tank, in the first section of which the suction pipe of the compression unit is integrated, and in the vortex unit of the absorber, and these sections are connected in series to the water cooling system, the compressor of the compression unit is equipped with a cooling head, the cooled cavity of which is connected to absorption circuit before and after its generator.