SU1353991A1 - Device for cooling air conditioned - Google Patents

Abstract

The invention makes it possible to reduce energy costs by reducing the consumption of sorbent. A desiccant 2 is installed in front of the first irrigation chamber (OK) 3. The cooling tower 11 is connected to an additional heat exchanger 13. The surface heat exchanger-cooler (F / V) 8 is located in front of the cooling tower along the air path and communicated with the second OK 9. channel 1. A second VEC 18 can be connected in parallel to the second OK 9, which is connected to the inlet 17 of channel 1. Such an installation allows for an increase in the dehumidification rate of the air in the dryer due to the low temperature of the sorbent fed to the dryer. 2 hp f-ly, 2 ill. (L with SP CO X) CO

Description

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

The purpose of the invention is to reduce energy costs by reducing the consumption of the sorbent.

FIG. 1 is a schematic diagram of an installation for cooling conditioned air with a surface heat exchanger-cooler in communication with the main channel inlet; in fig. 2 is a diagram of an installation comprising a second surface heat exchanger-cooler in communication with the inlet of the main channel.

The unit for cooling conditioned air contains a sorption dryer 2 and a first irrigation chamber 3 with sprays 4 and 5 and pallets 6 and 7, a surface heat exchanger-cooler 8, a second irrigation chamber 9, an additional air channel 10c cooling tower 11, located in the main channel 1 , the main and additional solution heat exchangers 12 and 13 and the solar generator 14.

The drier 6 of the drier 2 is connected through the main solution heat exchanger 12 to the inlet 15 of the solar generator 14, the output 16 of which is connected through the main 12 and an additional 13 solution heat exchangers to the sprayer 4 of the drier 2.

A dehumidifier 2 is installed in front of the first irrigation chamber 3, cooling tower 11 is connected to an additional mortar heat exchanger 13, and a surface tenlo-exchanger-cooler 8 is located in front of the cooling tower 11 along the air path and communicates with the second irrigation chamber 9.

The surface heat exchanger-cooler 8 communicates with the inlet 17 of the main channel 1 (Fig. 1).

The installation may include a second surface heat exchanger-cooler 18 (Fig. 2), connected in parallel to the second irrigation chamber 9 and communicated with the inlet 17 of the main channel 1.

The unit for cooling the conditioned air works as follows.

The outside air is first cooled in the surface heat exchanger-cooler 8 (in the surface heat exchanger-cooler 8, water is circulated at the same time, cooled by the second irrigation chamber 9) with constant moisture content as a result of indirect evaporation cooling. Cooled after the heat exchanger-cooler 8, the air has a lower temperature on the wet thermometer as compared to the outside air. A portion of the cooled air is directed to the cooling tower 11 and is used to produce colder water, which provides a deeper cooling of the solution (for example, chloride) in an additional solution heat exchanger 13. Another part

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the cooled air is directed to the dryer 2 and the first irrigation chamber 3 (adiabatic humidifier), where the conditioned air is drained and cooled to the required parameters, after which the treated air is supplied to the room. For the continuous operation of the plant, it is necessary to restore the solution concentration (regenerate the solution), which is achieved in the helioregenerator 14, where the solution is heated by the heat of solar radiation with evaporation of moisture from it. The heated concentrated sorbent solution is cooled first in the main solution heat exchanger 12 and then in an additional solution heat exchanger 13, in which water cooled in the cooling tower 11 circulates, then flows into the desiccant 2.

The use of the invention allows to increase the intensity of air drying in the dryer due to the low temperature of the sorbent fed to the dryer (reduced partial pressure of water vapor over the sorbent solution) and significantly reduce energy costs by reducing the required consumption of sorbent.

Claims (3)

1. Installation for cooling conditioned air, containing a sorption dryer located in the main channel and a first irrigation chamber with sprays and pallets, a surface heat exchanger-cooler, a second irrigation chamber, an additional air channel with a cooling tower, a main and additional solution heat exchangers and a solar generator, and a pallet the dehumidifier is connected through the main solution heat exchanger to the inlet of the solar generator, the output of which is through the main and additional solution heat exchangers The heaters are connected to a dehumidifier spray gun, characterized in that, in order to reduce energy costs by reducing the sorbent consumption, the dryer is installed in front of the first irrigation chamber, the cooling tower is connected to an additional solution heat exchanger, and the surface heat exchanger-cooler is located in front of the cooling tower along the air path and communicates second irrigation chamber. 2. Installation under item 1, characterized in that the surface heat exchanger-cooler communicates with the entrance of the main channel. 3. Installation according to claim 1, characterized in that the surface heat exchanger heat exchanger-cooler is connected in parallel to the second irrigation chamber and communicated with the main channel inlet. sixteen Fy