SU553402A1 - Device for indirectly evaporative air cooling - Google Patents

Description

(54) DEVICE FOR INDIRECT-EVAPORATIVE AIR COOLING

The invention is intended for use in ventilation and air conditioning systems.

Devices for indirectly evaporative air cooling are known, comprising a housing with a tray and heat-air plates made on the one side of hygroscopic and on the other of impermeable materials and forming the main channels and terminated at the ends of the auxiliary channels for the respective flows 1J.

However, such devices have a low thermal performance due to the incompatibility of the air supply circuit of the auxiliary channels and increased aerodynamic resistance due to repeated changes in the air flow directions.

The aim of the invention is to increase the heat and energy efficiency of using the natural cooling capacity of air.

This is achieved by the fact that in the proposed device the heat exchanging plates on one side are made beveled in the direction of movement of the main flow, and the node with their beveled edges with a gap is installed an inclined partition.

With such a design, a continuous flow along the length of the heat-core plates to the auxiliary channels of a part of the main air, the air passed through the ooo-flow and reduced its evaporative cooling limit, and the air flow direction is changed once.

FIG. 1 shows the proposed device; in fig. 2 - the same, top view; in fig. o - section A-A of FIG. one.

The device has a housing 1, in which heat-insulated plates 2 are installed, forming the main channels 5 for the cooled flow alternating between them and the auxiliary channels 4 plugged at the ends. The 1 exchange side plates 2 have a hygroscopic coating on the side of the supplementary flow, and The undersides are made obliquely. Under their oblique edges, o is installed with a certain gap b, an inclined partition 7.

In case 1, there is a pan 8 and an irrigation device including pump 9 and a pipe 10 for iodine water supply to the il collector. For uniform wetting of the heat-insulated plates 2, the collector 11 should be laid over the capillary-porous gaskets 12. Pipe 13 is designed to supply air to the device; pipe 14 -

to exit the cooled air, and the pipe 15 - to drain the auxiliary stream.

The device works as follows.

Air enters through the nozzle 13 into the main channels 3 and, moving along them, is cooled due to the transfer of heat to the water evaporating in the auxiliary channels 4 flowing through the hygroscopic coating of the heat exchanger plates 2. A part of the cooled air exits through the nozzle 14, and the other part flows into the auxiliary channels 4 through the gap 6 and then removed through the nozzle 15. (The Eroding Equipment provides for constant wetting of the hygroscopic layer of the heat transfer plates 2.

Making the heat exchanging plates 2 beveled and placing the inclined partition 7 with a gap 6 from their beveled edges 5 allows air to flow from the main 3 to the auxiliary 4 channels continuously along the entire length of the device. At the same time, the limit of evaporative cooling overflow is constantly reduced towards nozzle 14, since the path taken by air in the main channels increases from nozzle 13 to sloping edges 5, and the average temperature per hygroscopic coating of heat exchange plastip 2 decreases accordingly. This provides an increase in the thermal performance of the proposed device. By reducing the number of turns of the airflow to one, higher energy efficiency is achieved.

Claims (1)

1. Copyright certificate № 407519, F 24F 3/14, 1972. Aa V4 / 3 / "