SU1361439A1 - Device for cooling air being conditioned - Google Patents

Abstract

The invention makes it possible to increase the depth of air cooling and reduce energy costs. An additional solution heat exchanger (PTO) 13 of the surface type is located in the additional channel 8 at the outlet of the cooling tower (g) 9. The inlet G 9 m. connected to the main channel 1 at the outlet of the dehumidifier 2 or at the outlet of the surface cooler 6, which leads to a deeper cooling of the supply air and a decrease in the sorbent consumption required in the dehumidifier. In channel 8 before G 9 till. air flow m. an irrigation chamber 19 with a sprayer 20 and a pallet 21 is placed. The sprayer is connected in parallel to the sprayer 4 dehydrator 2 to the circulating circuit 15 of the sorbent at the outlet 22 of the additional PTO 13, and the pallet - at the exit 23 of the main PTO 12. A strong solution of the sorbent after the solar generator 14 is partially it is cooled mainly by ORT 12, and then finally - additional PTO 13, enters dehumidifier 2, where dehumidification and cooling of the outdoor air takes place, and then in D 9. Cooling the conditioned air at a constant moisture content The required enthalpy of supply air is carried out in chiller 6. 3 Cp. f-ly, 3 ill. (I am from O5 with so

Description

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

The purpose of the invention is to increase the depth of air cooling and reduce energy costs.

Fig. 1 is a schematic diagram of an installation for cooling conditioned air, the cooling tower inlet of which is connected to the main duct at the outlet of the dehumidifier; Fig. 2 shows a plant for cooling conditioned air containing an irrigation chamber located in an additional channel in front of the cooling tower along the air path; FIG. 3 shows a unit for cooling conditioned air, the cooling tower inlet of which is connected to the main channel at the exit from the surface cooler.

The unit for cooling the conditioned air contains successively located in the main channel 1 along the processed air contact sorption desiccant 2 with the pallet 3 and the sprayer 4 and the air conditioner 5 having a surface cooler 6 and an adiabatic humidifier 7 placed in the additional channel 8 of the cooling tower 9 connected the circulation liquid circuit 10 to the cooler 6 and the outlet 11 with the atmosphere, the main and additional solution heat exchangers 12 and 13 and the solar generator 14,

The drip tray 3 3 is connected by a circulating circuit 15 of the sorbent through the main solution heat exchanger 12 to the inlet 16 of the solar regenerator 14, the output 17 of which is connected with the sprayer 4 dehumidifier 2 through the main and additional solution heat exchangers 12 and 13,

Additional mortar heat exchanger 13 is made of surface type and is located in the additional channel 8 at the exit 11 of the cooling tower 9.

The input 18 of the cooling tower 9 can be connected to the main channel 1 at the output 13 of the dryer 2 (figure 1).

The installation may additionally contain an irrigation chamber 19 with a spreader 20 and a pallet 21 placed in an additional channel 8 in front of the cooling tower 9 along the air, and the spray gun 20 of the chamber 19 is connected parallel to the spray gun 4 of the switch.

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bent output 22 additional mortar heat exchanger 13, and the pallet 21 of the chamber 19 - at the inlet 23 of the main mortar heat exchanger 12 (Fig, 2),

The inlet 18 of the cooling tower 9 can be connected to the main channel 1 at the outlet 24 and the surface cooler 6 (FIG. 3).

The unit for cooling the conditioned air works as follows.

Along the circulation loop 15 of the sorbent, a weak sorbent solution from the pallet 3 is fed to the preheating in the main solution heat exchanger 12, after which the solution is fed to the helioregenerator 14, where the solution is heated to the conditions of evaporation of dissolved water from it.

A strong sorbent solution after the helioregenerator 14 is partially cooled 5 is given in the main solution heat exchanger 12 and then finally cooled in an additional solution heat exchanger 13,

The cooled strong solution of the sorbent again enters the dehumidifier 2, where the drying and cooling of the outside air takes place, which then flows through the main channel 1 to the air conditioner 5 and through the additional channel 8 to the cooling tower 9 (Fig. 1).

The water cooled in the cooling tower 9 flows through the circulation loop 10 to the chiller 6, where the conditioned air is cooled at a constant moisture content to the required enthalpy of fresh air.

Lowering the temperature of the conditioned air to the desired inflow temperature is ensured by adiabatic cooling in the adiabatic humidifier 7,

When operating the installation with an irrigation chamber 19 (FIG. 2) the spirit is drained and cooled in two separate streams in the dryer 2 and chamber 19 and then, respectively, through the main and additional channels 1 and 8 enters the cooler g 6 and the cooling tower 9.

During the operation of the installation, the inlet 18 of the cooling tower 9 of which is connected to the main channel 1 at the outlet 24 of the surface cooler 6 (fig.Z),

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there is a deeper cooling of the air entering the inlet 18 of the cooling tower 9, which leads to a deeper cooling of the supply air as a whole and a decrease in the sorbent consumption required in the desiccant 2.

Claims (4)

1. Installation for cooling conditioned air, containing successively located in the main channel along the treated air contact sorption dryer with a pallet and sprayer and air conditioner having a surface cooler and an adiabatic humidifier located in an additional channel cooling tower connected by a circulating liquid circuit to the cooler the primary and additional mortar heat exchangers and solar collector, with the drier tray connected irkul insulating circuit sorbent mortar through the main heat exchanger to the entry gelioregeneratora, which exit through the primary and secondary heat exchangers mortar communicated with a dehumidifier spray, characterized in that in order to increase air cooling depth and reduce energy costs, an additional solution heat exchanger is made of surface type and is located in an additional channel at the outlet of the cooling tower. 2. The installation according to claim 1, wherein the input of the cooling tower is connected to the main channel at the outlet of the dryer. 3. The installation according to claim 1, characterized in that it is provided with an irrigation chamber with a spreader and a pallet placed in an additional channel in front of the cooling tower along the air, and the chamber nebulizer is connected in parallel to the desiccant sprayer at the exit of the additional mortar heat exchanger, and the chamber tray - at the entrance of the main mortar heat exchanger, 4. Installation according to claim 1, characterized in that the entrance of the cooling tower is connected to the main channel at the exit of the surface cooler. HapifKHbiu. voz01 / x eleven 1 9 © 2Ts 1 18 Editor N, Bobkova Compiled by M. Raszschekin Tehred L. Serdyukova Proofreader G, Reshetnik Order 6216/43 Circulation 660 Subscription BNShShI State Committee of the USSR for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 FIG