RU747239C - Helio-absorbing refrigerator - Google Patents

Description

The invention is related to the field of refrigeration, and more specifically to solar adsorption refrigerators.

Solar adsorption refrigerators are known, which include a hot box box with a double glass screen, a condenser, a thermally insulated receiver for a liquid refrigerant and an evaporator placed in a refrigerating chamber,

A disadvantage of the known refrigerators is their low efficiency due to the loss of heat accumulated in the generator-adsorber and part of the heat generated during the adsorption of refrigerant vapor.

The aim of the invention is to increase the economics by using the heat accumulated in the generator absorber and part of the heat generated by adsorbing refrigerant vapor to produce hot water.

The goal is achieved by the fact that the cooler additionally contains a water heater having thermal contact with the adsorbing generator and a hot water tank connected to the heater.

The drawing schematically shows the described refrigerator.

It contains a generator-adsorber type 1 hot box with a double glass screen 2 and 3 and a steam line 4, a condenser 5, a thermally insulated receiver b for a liquid refrigerant, an evaporator 7 placed in a refrigerating chamber 8, a water heater 9, a hot tank 10 water, shut-off valve 11 on line 12 of cold water supply and tank 13 of evaporators with eutectic solution 14 poured into it,

The operation of the refrigerator is carried out as follows.

During the daytime, the solar adsorbent in the generator-adsorber 1 is heated by the sun to a temperature of 95110 ° C. The resulting high-pressure refrigerant vapor flows through the steam line 4 to the condenser 5, in which it becomes liquid, by cooling them with ambient air . The liquid refrigerant is drained into the receiver 6 and from here it enters the

evaporator 7; After sunset, through line 12, through valve 11, cold water is supplied to water heater 9, which, taking heat from the heated adsorbent in the adsorbing generator, heats up and merges in a heated manner into tank 10, and the pressure in the generator the adsorber falls to the value at which the refrigerant boils in the evaporator 7 to produce a cooling effect. Eutectic solution 14

begins to freeze in the tank 13 of the evaporator and accumulates the produced cold by simultaneously cooling the air in the refrigerating chamber 8. The resulting low pressure refrigerant vapor comes from

the evaporator 7 through the receiver 6 and the condenser 5 through the steam line 4 again into the generator-adsorber 1, which absorbs the adsorbent. When the water in the heater reaches a temperature that is unacceptable for hot water supply, it is passed through the tank 10 in

sewer. The final adsorption process is carried out with the valve 11 closed, and the adsorbent is cooled by ambient air at night.

The economic effect of the proposal

expressed in obtaining hot water used for hot water supply, due to the accumulated heat in the generator-adsorber and the use of part of the heat generated during the adsorption of vapors

refrigerant. According to the data, the annual economic effect on one 120 liter refrigerator is 4 rubles.

(56) Agiloa B, M et al. Solar desalination plants and refrigerators, Tashkent, FAN, 1976, P.84.

Claims (1)

Formula of Invention A SOLAR ADSORPTION REFRIGERATOR containing a generator-adsorber-type hot box with a double glass screen, a condenser, a thermally insulated receiver for a liquid refrigerant, and an evaporator placed in a refrigerating chamber, characterized in that By using the heat accumulated in the generator-adsorber and part of the heat generated by adsorption of refrigerant vapors, the cooler additionally contains a water heater that has thermal contact with the adsorber generator and a hot water tank connected to the heaters.