SU1276881A1 - Air-conditioning unit - Google Patents

Abstract

1. INSTALLATION FOR AIR CONDITIONING comprising successively arranged in the air duct downstream dryer and the air chamber with irrigation sprinkler E, pallets and the circulation circuit, wherein the drying agent is connected sump circulating circuit via a heat exchanger to gelioregeneratoru mortar, gelioregenerator - mortar through a heat exchanger and an additional solution heat exchanger / crf yf tr / U is delivered to the desiccant, and an additional solution heat exchanger communicates through the circulation circuit with an additional an irrigation chamber, characterized in that, in order to increase the energy efficiency of air cooling, it is equipped with a surface heat exchanger cooler with a circulation loop, a cooling tower and an additional air channel in which the cooling tower is located, installed after the dehumidifier along the air course, the surface heat exchanger-cooler is located in the main air channel in front of the irrigation chamber along the air path and connected by a circulation loop to the cooling tower. 2. The installation according to claim 1, characterized in that the additional air channel is connected to the exit of the main air channel from the dehumidifier. 3. The installation according to claim 1, wherein the dehumidifier is made in two sections, the first section being connected to the outlet with an additional air channel, and the second to the main air channel.

Description

The invention relates to air conditioning technology and can be used, in particular, to cool air using solar radiation energy.

The purpose of the invention is to increase the energy efficiency of air cooling.

FIG. Figure 1 shows a schematic diagram of an air conditioning unit, containing one common dryer at the entrance to the installation of the air flow being processed; in fig. 2 shows the principle layout of an air conditioning unit, containing a desiccant filled with two sections at the inlet of the processed air flow.

The air conditioning unit contains successively located but air flow desiccant 1 and irrigation chamber 2 with irrigators 3 and 4, noddon 5 and 6 and circulation circuits 7 and B.

The dryer drier 1 is connected by a circulation circuit 7 through the solution heat exchanger 9. solar generator 10, which in turn is communicated through the solution heat exchanger 9 and the additional solution heat exchanger 11 to the dryer 1.

An additional solution heat exchanger 11 is connected via a circulation circuit 12 to an additional irrigation chamber 13.

In front of the irrigation chamber 2, along the course of the air, there is a surface heat exchanger-cooler 14, which is connected with cooling tower 16 through the circulation loop 15;

In the case of use at the inlet of the installation of the treated air of one common dehumidifier 1, the latter is communicated through the main air channel 17 with the surface heat exchanger-cooler 14 and through the additional air channel 18 with the cooling tower 16.

In the case of the dryer 1 in the form of two sections 19 and 20 (Fig. 2), the first section 19 communicates through the air channel 21 with the cooling tower 16, and the second section 20-- through the air channel 22 with the surface heat exchanger-cooler 14.

The pallets 23 and 24 (Fig. 2) of sections 19 and 20 of driver 1 are connected in parallel by a circulation circuit 7 to a solution heat exchanger 9.

Installation for air conditioning works as follows.

Through the dryer 1 (Fig. 1) or sections 19 and 20 (Fig. 2) of the dryer 1, the outside air is simultaneously supplied to the cooling tower 16 and released into the atmosphere and through the surface heat exchanger-cooler 14 and the irrigation chamber 2 to the consumer.

From pallet 5 (Fig. 1) or pallets 23 and 24 (Fig. 2), the solution with a low concentration is fed through the circulation circuit 7 to the preheating heat to the solution heat exchanger 9 and then to the helioregenerator I), where the solution is heated by heat solar radiation to the conditions of water evaporation from it. Then, a solution with a higher concentration and heated from the solar regulator 10 through the circulation circuit 7 is fed to a heat exchanger 9, where part of the heat from the solution with a high concentration is diverted to a solution with a lower concentration. The final cooling of the solution with a higher concentration is carried out in an additional solution heat exchanger 11 with cold water, which enters the additional solution heat exchanger 11 through a circulating circuit 12 from the irrigation chamber 13, cooled as a result of its radiant cooling in the irrigation chamber 13.

The cooled solution with a higher concentration is fed through the circulation circuit 7 to the dryer 1 (Fig. 1) or to section 19 and 20 (Fig. 2) of the dryer 1, where the drying and cooling of the outside air takes place.

d Thanks to the preliminary drying and cooling of the outside air, it is cooled to a lower temperature by a wet thermometer, which helps to ensure that the chilled water is at a lower temperature in the cooling tower 16.

The cooled water from the cooling tower 16 but the circulation circuit 15 is supplied to the surface heat exchanger-cooler 14, in which the conditioned air is cooled at a constant moisture content to the desired enthalpy

5 supply air.

Lowering the temperature of the conditioned air to the required inflow temperature is ensured by adiabatic cooling in the irrigation chamber 2.

M

Claims (3)

1. INSTALLATION FOR AIR CONDITIONING, containing in series the location of the desiccant and the irrigation chamber in the air channel along the air flow with sprinklers, trays and circulation circuits, the drip tray being connected by the circulation circuit through the solution heat exchanger to the solar generator, the solar regenerator through the solution heat exchanger and an additional solution heat exchanger fig / bar to the dehumidifier, and an additional solution heat exchanger communicated through the circulation circuit with additional irrigation characterized by the fact that, in order to increase the energy efficiency of air cooling, it is equipped with a surface heat exchanger cooler with a circulation circuit, a cooling tower and an additional air channel in which there is a tower installed after the dryer along the air flow, and the surface heat exchanger-cooler is located mainly air channel in front of the irrigation chamber along the air and is connected by a circulation circuit to the cooling tower. 2. Installation according to π. 1, characterized in that p that the additional air channel is in communication with the output of the main air channel from the dehumidifier. 3. Installation according to π. 1, characterized in that the dehumidifier is made in two sections, the first section being communicated with an additional air channel outlet and the second with the main air channel. SU., „1276881