SU1252624A1 - Two-stage absorption-compression refrigerating plant - Google Patents

Description

one

Determination refers to the refrigeration tf Xf ICE, and more specifically to a two-stage absorption and cooling unit.

The aim of the invention is to obtain cold at various temperatures.

The drawing shows schematically the proposed installation.

The plant contains an absorption refrigerating machine with an evaporator 1, a generator 2, a reflux condenser 3, a heat exchanger regenerator 4 and an absorber 5, a compression refrigeration filter with a compressor 6 having thermal contact with a generator 2, a condenser 7, a high temperature 8 and a low temperature 9 evaporator and a regenerative heat exchanger 10, thermosyphon 11, gas heat exchanger 12, receiver 13 of absorber 5, head 14 of compressor 6, oil collector 15 of compressor 6, coil 16, capillary tube 17, discharge pipe 18, suction labor-boprovod 19 and capacitor 20, an absorption chiller.

The absorption chiller is of diffusion type and is filled with a solution (mainly ammonia) and hydrogen, and the compression chiller uses mainly refrigerant as a drop agent.

The generator 2 of the absorption refrigerating machine is the head 14 of the compressor 6, the coil 16 and the system of their connecting pipelines.

The installation works as follows.

The compressor 6 through the suction pipe 19 and the regenerative heat exchanger 10 from the evaporators 9 and 8 extract the refrigerant vapor (t

Editor A. Shandor

Compiled by R. Danilov Tehred V. Kadar

Order 4613/41

Circulation 482 Subscription

VNIIPI USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushsk nab. D / 5

Production and printing company, Uzhgorod, st. Project, 4

o 5 0 5

five

0

62/42

on a) and injected into a condenser 7, in which it is turned into a liquid state. The resulting liquid refrigerant is cooled by a reverse steam flow in the regenerative heat exchanger 10 and through the capillary tube 17 flows successively to low and high temperature evaporators 9 and 8, in which a low-pressure effect boils. Low pressure vapors are sucked off again by compressor 6.

The heat generated in the head 14 and the oil pan 15 of the compressor 6 is used to substitute the water-ammonia solution in the generator 2. The vapor-liquid emulsion formed passes through the thermosyphon 11, after which it is separated into the vapor phase directed to the dephlegmator 3 and the liquid phase (weak solution) going to the heat exchanger-regenerator 4. After a dephlegmator, 3 refrigerant vapors (ammonia) enter the condenser 20, in which they are liquefied, and the resulting liquid refrigerant enters through the gas heat exchanger 12 to the evaporator, in which At low partial pressures of ammonia in hydrogen, produces cold. Formed rich in ammonia-hydrogen mixture through a gas heat exchanger 12 enters the absorber 5, into which a weak solution also comes through the heat exchanger-regenerator 4. When this happens, the solution absorbs ammonia vapor from the ammonia-hydrogen mixture, the solution becomes strong and is discharged into the receiver 13, and the purified hydrogen mixture through the gas heat exchanger 12 is again sent to the evaporator I. The strong solution from the receiver 13 enters the generator 2 dl. subsequent evaporation.

Proofreader A.Zimokosov

Claims (1)

TWO-STAGE ABSORPTION-COMPRESSION REFRIGERATING UNIT containing an evaporator, an absorption refrigeration machine in the lower stage with a generator, a reflux condenser, a heat exchanger-regenerator and an absorber, and a compression-refrigeration machine in the upper stage with a compressor with a compressor and a compressor with a compressor and a compressor with a compressor and compressor , and a condenser, characterized in that, in order to obtain cold at different temperatures, the compression refrigeration machine further comprises a high and low temperature spariteli included with its compressor and condenser in autonomous closed loop 'absorption refrigerating machine is of the diffusion type, and it is provided with a thermosyphon generator connected to the reflux condenser and the heat exchanger-regenerator. I 252624