SU1665184A1 - Plant for cooling conditioned air - Google Patents

Abstract

The invention relates to a technique of ventilation and air conditioning. The aim of the invention is to increase the depth of cooling. The unit for cooling the conditioned air contains successively located in the main channel 1 along the air course the surface heat exchanger-cooler 2, the sorption dryer 3 and the first irrigation chamber 4, respectively, with nozzles 5 and 6 and pallets 7 and 8. The second irrigation chamber is placed in the additional channel 9 10, connected by the spray gun 11 and the pallet 12 through the circulation liquid circuit 13 to the heat exchanger-cooler 2. The cooling tower 14 is connected by an inlet 15 and an outlet 16, respectively, to an outlet 17 of the main channel 1 and from the heat exchanger-cooler 2 and the atmosphere. The cooling tower 14 is connected by the circuit 18 to the additional mortar heat exchanger 19, and the sump 7 of the sorption dryer 3 is connected by the circulation loop 20 of the sorbent through the main solution heat exchanger 21 to the inlet 22 of the solar generator 23, the output 24 of which is connected to the sprayer through the main and additional heat exchangers 21 and 19 5 sorption dehumidifier 3. An additional sorption dehumidifier 25 with a pallet 26 and a spray gun 27 is installed in the main channel 1 along the air flow before the surface heat exchanger-cooler 2. The pallet 7 The main sorption dehumidifier 3 is connected to the main mortar heat exchanger 21 through the collection tank 28 and the spray guns 27 and the sump 26 of the additional sorption dehumidifier 25. The outlet 24 of the sorbent circulation circuit 20 from the solar generator 23 is connected through the main solution heat exchanger 21 by means of the adjustable element 29 to the collection tank 28 3 hp ff, 3 ill.

Description

The invention relates to a technique of ventilation and air conditioning.

The aim of the invention is to increase the depth of air cooling.

On . 1 is a schematic diagram of an installation for cooling conditioned air; in fig. 2 - the same, when performing additional sorption dehumidifier and surface heat exchanger-cooler with two sections; in fig. 3 - the same, at the location of the main sorption dehydrator in front of the cooling tower.

The unit for cooling the conditioned air comprises successively located in the main channel 1 along the air course the surface heat exchanger-cooler 2, the sorption desiccant 3 and the first irrigation chamber 4 with the nozzles 5 and 6 and the trays 7 and 8.

In the additional channel 9 a second irrigation chamber 10 is placed, connected by a spray gun 11 and a tray 12 through a circulation fluid circuit 13 to the heat exchanger-cooler 2.

The cooling tower 14 is connected to the inlet 15 and the outlet 16, respectively, with the outlet 17 of the main channel 1 from the heat exchanger-cooler 2 and the atmosphere.

The cooling tower 14 is connected by the circuit 18 to the additional mortar heat exchanger 19, and the sump 7 of the sorption dryer 3 is connected by the circulation loop 20 of the sorbent through the main mortar heat exchanger 21 to the inlet 22 of the ediogenerator 23, the output 24 of which through the main and additional mortar heat exchangers 21 and 19 communicated with the sprayer 5 sorption dehydrator 3.

An additional sorption desiccant 25 with a pallet 26 and a spray 27 is installed in the main channel 1 along the air path in front of the surface heat exchanger 1 cooler 2.

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The pallet 2 of the main sorption dehumidifier 3 is connected to the main mortar heat exchanger 21 through the collection tank 28 and the nebulizer 27 and the pallet 26 of the additional sorption dehydrator 25,

The outlet 24 of the circulating circuit 20 of the sorbent from the solar collector 23 is connected through the main mortar heat exchanger 21 by means of the adjustable element 29 to the collecting tank 28.

Additional sorption dryer 25 and surface heat exchanger-cooler 2 can be performed

15 two-section, the first sections 30 and 31 of which are installed in series along the air flow before entering 15 of the cooling tower 14, and the second sections 32 and 33 - before the main sorption dryer 3, and the sections

20 31 and 33 of the heat exchanger-cooler 2 and, respectively, the pallets 34 and 35 and the spray guns 36 and 37 of the sections 30 and 32 of the additional sorption dryer 25 are communicated in parallel with each other.

25Input 15 of the cooling tower 14 can be connected to the output 38 of the main channel 1 of the main sorption dehumidifier 3.

The unit for cooling conditioned air works as follows.

The outside air (Fig. 1) is pre-cooled and washer is sucked in an additional sorbent dryer 25 upon contact with the spray and coming to the nebulizers 27 from the collection tank 28 with a pre-increased concentration of the sorbent solution and then cooled in a surface heat exchanger-cooler 2, in which wherein

40, water is cooled in the second irrigation chamber 10.

Then, a part of the cooled and dried air enters the cooling tower 14, where it cools the water sprayed in the cooling tower 14, then used for deep cooling in the additional mortar

heat exchanger 19 concentrated sorbent solution.

Another part of the cooled and dried air through the main channel 1 enters the main sorption desiccant 3, in which, upon contact with cold and highly concentrated sorbent solution, is further cooled and dried. Then the air from the main sorption dehumidifier 3 enters the first irrigation chamber 4, is further cooled and supplied to the consumer.

At the same time, a solution of the sorbent with a lower concentration comes from the pallet 7 of the main sorption dryer 3 to the collection tank 28, in which using a controlled element 23 is mixed in a certain ratio with the concentrated sorbent solution coming from the solar generator 23.

In the additional sorption dryer 25, the cold coming from the sorbent collecting tank 28 is utilized and its sorption properties are effectively used.

Then, in the main solution heat exchanger 21, the sorbent solution is heated and fed to the inlet 22 of the solar generator 23, in which the solution is heated and water vapor is evaporated from it using solar radiation energy. From the solar regenerator 23, the concentrated sorbent solution through the main and additional solution heat exchangers 21 and 19 is again fed to the main sorption desiccant 3 and partially to the collecting tank 28.

When the unit is operated with two sections 30, 32 and 31, 33 of both the additional sorption dryer 25 and the surface heat exchanger-cooler 26 (Fig. 2), the outside air is dried in two sections and dried in additional sections 30 and 32 sorption dryer 25 and then cooled with constant moisture content in sections 31 and 33 of heat exchanger-cooler 2. After that, air flows, respectively, into cooling tower 14, as well as into the main sorption dryer 3 and first irrigation chamber 4.

During operation of the installation, the inlet 15 of the cooling tower 14 of which is connected to the outlet 38 of the main channel 1 from the main sorption dryer 3 (Fig. 3), the air entering the entrance 15 of the cooling tower 14 is cooled deeper and the cooling tower 14 is increased. .

Claims (3)

Claims 1. A unit for cooling conditioned air, comprising a surface heat exchanger-cooler, a sorption dryer and a first irrigation chamber with sprays and trays, placed in an additional channel, a second irrigation chamber connected by a circulating liquid circuit to the primary channel along the air path. to the heat exchanger-cooler, cooling tower, communicated by the inlet and outlet respectively with the exit of the main channel from the heat exchanger-cooler and the atmosphere a primary and additional solution heat exchangers and a solar collector, the cooling tower is connected to the additional heat exchanger by the cooling circuit, and the sorbent dryer is connected to the inlet of the sorbent through the main solution heat exchanger to the inlet of the solar power generator, which is output through the main and additional solution heat exchangers with the sprayer sorption dehumidifier, characterized in that, in order to increase the depth of air cooling, the installation additionally with contains a collecting container for the sorbent and an additional sorption dryer with a pallet and a sprayer installed in the main duct along the air in front of the surface heat exchanger-cooler, and the main sorption drying tray is connected to the main solution heat exchanger through the collecting tank and the sprayer and the additional sorption dryer and the outlet of the circulation loop of the sorbent from the solar generator is connected through the main solution heat exchanger with the help of an adjustable element to the collecting tank. 2. The installation according to claim 1 is different in that the additional sorption desiccant and the surface heat exchanger-cooler are made in two sections, the first sections of which are installed in series along the air before the cooling tower inlet, and the second before the main sorption desiccant, and the heat exchanger section the cooler and, accordingly, the trays and sprayers of the sections of the additional sorption dehydrator are communicated in parallel with each other. 3. Installing pop. 1, characterized in that the inlet of the cooling tower is connected to the outlet of the main channel from the main sorption dryer. 35  # 1S