SU1231341A1 - Method of generating cold in absorption refrigerating machine - Google Patents

Description

The invention relates to refrigeration engineering, in particular to methods for producing cold in adsorption refrigeration machines with condensers and air-cooled absorbers.

The aim of the invention is to increase the profitability advantageously in absorption chillers of high productivity.

The drawing shows schematically an absorption refrigeration machine implementing the proposed method.

The refrigerating machine comprises an absorber 1, a pump 2, a heat exchanger 3, condensers 4, 5 and 6, a distillation column 7, a subcooler 8 and an evaporator 9.

Absorption chiller operates as follows.

The coolant (ammonia) at a temperature of –15 ° C in the state of dry saturated steam leaves the evaporator 9 under a pressure of 2.41 atm, is heated in supercooler 8 to 30 ° C and under a pressure of 2.26 atm enters the absorber 1, where absorbed in a weak solution.

The heat of absorption in the lower part of the absorber 1 is removed by boiling ammonia under a pressure of 16 at and 40 ° C, and in the upper part by boiling ammonia under a pressure of 18 at and 45 ° C. The formed ammonia vapors from the annular space of the lower part are fed to the liquefaction to the condenser 4, and from the upper part to the condenser 5. The blown-through fan is

Compiled by Y. Sukov

Tehred I. VeresKorrektor T. Kolb

Circulation 482 Subscription

VNIIPI USSR State Committee

inventions and discoveries

113035, Moscow, Zh-35, Raushsk nab. 4/5

Branch PPP "Patent, Uzhgorod, st. Project, 4

Rum atmospheric air passes successively through the condenser 4 and the condenser 5, being heated in the condenser 4 from 28 to 33 ° C with equal thermal loads of these devices.

A strong solution from the absorber 1 at a pressure of 2.26 at and at 45 ° C enters the pump 2, is pumped by it to a pressure of 17 at and sent to the heat exchanger 3, where it is heated to 118 ° C, and then fed to the distillation column for separation. 7 with a booster. It involves the process of separating a strong solution into a refrigerant and a weak solution. The last of the boilers of the column 7 under pressure of 16 at and 140 ° C is sent for cooling to heat exchanger 3, lowers its temperature in it to 50 ° C and then is throttled to a pressure of 2.26 atm for reflux in the absorber 1. In this case The adiabatic process of absorption of the refrigerant by the solution, as a result of which its temperature rises to 55 ° C before it enters the tube space of the absorber 1, and as it is saturated with the refrigerant, the temperature of the solution decreases to 45 ° C at the outlet of the apparatus.

At the same time, the refrigerant from the upper part of the column 7 is fed to the air condenser 6, where it is liquefied, then to the subcooler 8, where it is cooled from 40 to 17 ° C, then it is throttled to 2.41 amta and sent to the evaporator 9 with the product of refrigeration action.

Claims (1)

METHOD FOR COOLING IN AN ABSORPTION REFRIGERATING MACHINE by absorbing refrigerant vapors with a weak solution with removal of heat of absorption and obtaining a strong solution, injecting and separating the latter into coolant and a weak solution, condensation, supercooling and throttling of the refrigerant, with the result that there is a refrigerating effect, which gives a refrigerating effect, which gives a refrigerating effect In order to increase the efficiency, mainly in high-capacity adsorption refrigerators, the heat of adsorption is removed at least at two temperature levels In the case of boiling refrigerant at appropriate pressures, the resulting vapors are condensed by atmospheric air purged in the direction of increasing condensation temperatures.