SU1164524A1 - Periodical-action adsorption solar refrigerating unit - Google Patents

Description

The invention relates to refrigeration, namely, the device of the adsorption solar cooling plants.

The purpose of the invention is to increase the holo-5 of the performance and expansion of functionality.

The drawing shows a schematic diagram of an adsorption solar cooling plant for periodic operation.

An adsorption solar cooling plant consists of a Hot Box type generator 1, filled with an adsorbent and heated by solar radiation. The generator 1 is connected to the circulation line of the refrigerant to the inlet of the condenser 2, the output of which is connected to the receiver 3 of the liquid refrigerant. The lower part of the receiver 3 through the by-porn valve 20 is connected to one end of evaporator 4, the other end of which is connected to the upper portion of the receiver 3. Inside the generator 1 is set as the cooling heat exchanger ^23, line 5 present having a ribbed outer surface. The inlet of the cooling pipe 5 to the generator 1 is connected to the outlet fitting of the safety thermostatic valve 6, the inlet fitting of which is connected to the cold water line, and the power cartridge installed on the surface of the circulation pipe connecting the generator 1 and the condenser 35, is connected to the pipeline to the actuator of the safety thermostatic valve 6. In addition, the inlet of the cooling pipe 5 is connected by a bypass line 40 to the outlet fitting of the auxiliary locking thermostat 7, the power cartridge of which is located in the plane of the generator 1 and is connected by pipeline with the actuator mechanism of this valve. The inlet fitting of the thermostatic-control locking valve 7 is connected to the outlet of the second auxiliary control-thermostatic 50 valve 8, the power cartridge of which is installed on the surface of the cooling pipe 5 at the outlet of the generator 1 and connected to the actuating valve of the thermostatic-controlled valve 8. valve 8 is connected to the water supply line.

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Adsorption heliolodilnaya installation works as follows.

In the daytime, the solar energy incident on generator 1 heats the adsorbent in generator 1 and the Desorption process takes place. The refrigerant vapor through the circulation pipe enters the condenser 2, where they are cooled and liquefied. From the condenser 2, the refrigerant is discharged into the receiver 3, in which it accumulates during the day. In the daytime, the evaporator 4 is filled with a liquid refrigerant.

In order to increase the reliability of the safety thermostatic valve 6 is adjusted to a critical temperature. At temperatures below the critical temperature-controlled thermostatic valve 6 is closed. When the surface temperature of the circulation line connecting generator 1 to condenser 2 becomes higher than critical, heating the power cartridge of the safety thermostatic valve 6 causes an increase in pressure in the gas-filled closed system of this power cartridge. As a result, the actuator of the safety thermostatic valve 6 opens it and cold water from the water line through the valve 6 enters the cooling pipe 5. Inside the generator 1, extracting excess heat from the adsorbent and reducing its temperature and, consequently, pressure, thereby providing more high reliability of operation of the installation. At the same time, the water is heated during the day and is used by the consumer for domestic purposes.

In the daytime, when solar radiation heats the power cartridge of the locking thermostatic valve 7, the pressure in its gas-filled system is significant and the valve 7 is closed, cold water is supplied to the pipeline 5 through the thermostatic safety valve 6. The control valve 8 is open during the day.

At night, the surface of the generator I cools down, the pressure inside it decreases and is transmitted through the condenser 2 and the receiver 3 to the evaporator 4, where the refrigerant evaporates, accompanied by refrigeration action, the refrigerant vapor through the receiver 3

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and the capacitor 2 enters the generator 1 where absorbed by the adsorbent.

At this time, the shut-off thermostatic valve 7 opens due to cooling of its power cartridge, and the control thermostatic valve 8 is still open and cold water through valves 8 and 7 enters the cooling pipe 5. Passing inside the generator 1, the water heats up, removing the adsorption heat, released during absorption of the refrigerant by the adsorbent and transmitted through the outer walls of the cooling pipe 5; The presence of fins increases the efficiency of heat transfer by raising the temperature of the water at the exit of the cooling pipeline yes 5 from generator 1. Managing

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The thermostatic valve 8 is adjusted to a predetermined temperature.

When the water temperature drops at the outlet 5 of the cooling pipe 5 from the generator 1 below the predetermined decrease in pressure in the gas-filled system of the power cartridge of the control thermostatic valve 8, vo10. acts on its actuator, and the control thermostatic valve 8 is closed. As a result of this, water is supplied to the consumer heated to a temperature not lower than e15. The upper limit of the water temperature at the outlet of generator 1 is not regulated, but is limited by the conditions of adsorption of refrigerant vapor.

Claims (1)

Adsorption heliol-free installation of periodic action, containing a generator irradiated by the sun, filled with an adsorbent and connected via a circulation line to the evaporator circuit through a condenser and receiver, characterized in that, in order to improve cooling performance and enhance functionality, a heat exchanger with a thermostatic valve is installed in the generator in the adsorbent layer at the inlet having a bypass line, the sensitive element of the specified valve is placed on the circulation line after the generator two auxiliary thermostatic valves, sensitive. elements of which are located respectively at the outlet of the heat exchanger and in loskosti sun irradiated surface of the generator. (I 1,164