FIELD: cryogenic and refrigerating engineering. SUBSTANCE: system has condenser-evaporator 23 connected to two-flow heat exchanger 17 through an evaporation line and throttle 21, and to adsorbers 13, 14 - through a condensation line. Compressor 1 is made two-stage, preliminary multiflow heat exchanger 8 has intermediate pressure reverse flow line 18 which is connected by its inlet to the outlet of heat exchangers 11, 12, and by the outlet - to the inlet of second stage 3 of compressor 1. Straight flow lines 6 and 7 of preliminary multiflow heat exchanger 8 are connected through throttles 9 and 10 to the inlet of heat exchangers 11 and 12 positioned in adsorbers 13 and 14. EFFECT: improved structure. 1 dwg
| Title | Year | Author | Number |
|---|---|---|---|
| ADSORPTION CRYOGENIC CONTINUOUS-ACTION REFRIGERATOR | 1991 |
|
RU2031329C1 |
| COLD GENERATING PLANT | 0 |
|
SU1698595A1 |
| AIR COOLING CONDENSER | 0 |
|
SU1749680A1 |
| HEAT EXCHANGER | 1991 |
|
RU2013750C1 |
| ABSORPTION REFRIGERATING PLANT | 0 |
|
SU1800244A1 |
| ABSORTION REFRIGERATING PLANT | 0 |
|
SU1802282A1 |
| OPERATING METHOD AND ARRANGEMENT OF THERMAL POWER GENERATING PLANT | 0 |
|
SU1752994A1 |
| LIQUID COOLING SYSTEM | 1991 |
|
RU2008580C1 |
| RECTIFICATION UNIT | 0 |
|
SU1713610A1 |
| METHOD OF MANUFACTURING MATRIX HEAT EXCHANGER | 1992 |
|
RU2009031C1 |
