SU1488681A2 - Device for cooling conditioned air - Google Patents

Description

The invention allows to increase the efficiency of the installation for cooling by utilizing the cold of the removed air and its subsequent use in the cultivation building 29. Exit 11 of the cooling tower 9 is communicated by exhaust duct 26 with room 27.

The outlet 28 of the mortar heat exchanger 13 is in air communication with the structure 29, 3 of silt.

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The invention relates to the technique of ventilation and air conditioning and is an improvement of the invention according to auth.St., No. 1361439.

 The purpose of the invention is to increase the efficiency of work by utilizing the cold air removed from the conditioned space and its subsequent use in the cultivation facility.

Figure 1 shows a schematic diagram of an installation for cooling conditioned air, the inlet of the cooling tower of which is connected to the main channel at the outlet of the dryer; FIG. 2 - the same containing an irrigation chamber located in an additional channel in front of the cooling tower along the air; in FIG. 3 - the same, the 20 entrance of the cooling tower is connected to the main channel at the outlet of the surface cooler.

Installation for cooling the conditioned air contains (Fig, 1) 25

sequentially located in the main channel 1 along the processed air contact sorption dryer 2 with a pallet 3 and a sprayer 4 and conditioner 5, having a surface cooler 6, and an adiabatic humidifier 7, placed in additional channel 8 of the cooling tower 9, connected by a circulation fluid circuit 10 to the cooler 6, located at the exit 11 of the cooling tower 9 and connected to the main solution heat exchanger 12, an additional solution heat exchanger 13 of surface type and a solar generator 14, up to

Pallet 3 dryer 2 is connected. circuits', another circuit 15 of the sorbent through the primary solution heat exchanger 12 to the inlet 16 of the solar generator 14, the output 17 of which through the primary 45 12 and additional 13. solution heat exchangers communicated with the sprayer 4 desiccants 2,

The inlet 18 of the cooling tower 9 can be connected to the main channel 1 at the exit 19 of the dryer 2. The installation may additionally contain (FIG. 2) an irrigation chamber 20 with a spray gun 21 and a pallet 22 placed in the additional channel 8 before the cooling tower ^ 9 along the air course, the sprayer 21 of the chamber 20 is connected in parallel to the sprayer 4 of the dryer 2 to the circulation circuit 15 of the sorbent at the outlet 23 of the additional mortar heat exchanger 13, and the pan 22 of the chamber 20 - at the inlet 24 of the main mortar heat exchanger 12.

The inlet 18 of the cooling tower 9 can be connected to the main channel 1 at the outlet 25 of the surface cooler 6 (FIG. 3).

Exit 11 of cooling tower 9 is communicated by exhaust duct 26 with a conditioned room 27, and exit 28 of an additional mortar heat exchanger 13 is in air communicated with a cultivation structure 29 (greenhouse, greenhouse, etc.), which can be located directly above room 27 and communicated with outlet 30 with atmosphere.

The installation works as follows ί

Through the circulation circuit 15 of the sorbent, a weak solution of the sorbent from the pallet 3 is fed to the preheater into the main solution heat exchanger 12, after which the solution is fed to the solar regenerator 14, where it heats up to evaporation of water from it ,,

After the solar regenerator 14, the strong solution of the sorbent is partially cooled in the main solution heat exchanger 12 and then finally cooled in the additional solution heat exchanger 13,

The cooled strong solution of the sorbent enters the dryer 2, where the drying and cooling of the outside air occurs, which then enters through the main channel 1 into the air conditioner 5 and through the additional channel 8 into the cooling tower 9 (FIG. 1).

The water cooled in the cooling tower 9 along the circulation circuit 10 enters the chiller 6, where the conditioned air is cooled with constant moisture content to the required enthalpy of supply air.

The decrease in the temperature of the conditioned air to the required flow temperature is ensured by its adiabatic cooling in the adiabatic humidifier 7,

When the unit is operating with an irrigation chamber 20 (FIG. 2), the outside air is dried in two separate streams and cooled in a dehumidifier.

2 and chamber 20 and then respectively

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1488681

through the main 1 and additional 8 channels enters the cooler 6 and cooling tower 9.

When the installation is operating, the inlet 18 of cylinder _{5 of} dirni 9 is connected to the main channel 1 at outlet 25 of the surface cooler 6 (figure 3), the deeper cooling of the air entering the inlet 18 of the cooling tower 9 1C occurs, which leads to deeper cooling air in general and reduce the flow rate of the sorbent required in the desiccant 2.

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The air from room 27 through exhaust duct 26 is fed to an additional channel 8 between cooling tower 9 and additional mortar heat exchanger 13 and 20 is used to cool the solution circulated through the heat exchanger 13 of sorbent,

As a result of an increase in the flow rate of an additional low-temperature air stream washing the surface, the intensity of cooling of the sorbent solution increases, which leads to an increase in the overall cooling capacity of the plant.

After the additional heat exchanger 13, the air flow is supplied to the cultivation structure 29, that. contributes to the formation in it of a stable temperature and humidity conditions, and the carbon dioxide contained in the air is used to intensify the cultivation of crops. tour.

Claims (1)

Claim Installation for cooling of conditioned air by authsv, “ To '1361439, characterized in that, in order to increase work efficiency by utilizing the cold air removed from the conditioned room and its subsequent use in the cultivation building, the exit of the cooling tower is communicated using an exhaust duct with the room, and the output of the additional mortar heat exchanger is from a constructional facility Fm.2 1488681 fig.Z