SU765603A1 - Apparatus for indirect-evaporation cooling of air - Google Patents

Description

I

The invention relates to the technique of KEM diving of air and it is used to obtain cold air with a temperature of 5-150 C.

Devices for indirectly evaporative cooling of air are known, comprising a housing with a pallet and aagrubka for entering the common and outlet auxiliary and main air streams to the heat exchange elements arranged in the housing, forming dry channels for the common flow and irrigated channels filled with the adsorbent for the auxiliary flow, and separating camera with valve fl.

The disadvantages of these devices is the low intensity of heat exchange processes, which is due to the high temperature of the auxiliary air flow, as well as the limited exchange surface. In addition, such devices have high aerodynamic resistance caused by uneven

auxiliary air distribution.

The purpose of the invention is the intensification of heat and mass transfer while reducing aerodynamic absorption.

This is achieved by the fact that in the proposed device in the housing under the heat exchange elements there is additionally placed a heat and mass transfer attachment, forming a compartment with the tray connected to the separation chamber. Vyshtampovki performed on the surface of heat exchanging elements. The heat and mass transfer attachment is made in the form of a package of ribbed sheets of miplast with alternating vertical and horizontal arrangement of the ribs on adjacent sheets.

Claims (3)

FIG. 1 shows a device for indirectly evaporative cooling of air, a longitudinal section; in fig. 2 the same cross section; in fig. 3 is an example of the execution of stamping on the surfaces of heat exchanging elements; 37 in FIG. 4 shows the arrangement of the mipasp sheets in the temp-mass exchange unit. The device for indirectly evaporating air cooling contains Kopnjfc 1 with a pallet 2 and nozzles 3, 4, 5, respectively, for entering the common to the auxiliary and main air streams and heat exchange elements 6 arranged in the housing 1, forming dry channels 7 for the total flow and irrigated channels 8, filled with adsorbent, .dl auxiliary flow, and separation chamber 9 with kapan 1O. In case 1 under the heat exchange elements1. 6, an additional heat exchanger nozzle 11 is formed, forming with compartment 2 a compartment 12 connected to the separation chamber 9 by an opening 13. The heat transfer elements of the 6fyiTb motut 6 are punched 14, and the heat exchanger nozzle 11 can be made in the form of a package of ribbed sheets 15 Alternating with alternating vertical and horizontal ribs in adjacent sheets. A water distributor 16 is connected to the nozzle 5 of the auxiliary flow, the connecting pipeline 17 with the pump 18. The device operates as follows. The air supplied by the fan enters. Channels 7 are heat exchanging 6-elements, which are a set of finned aluminum plates, in which it is cooled by heat exchange through the surface to a liquid in the adsorbent located in the irrigated channels 8 of the auxiliary stream. In the separation chamber 9, the total air flow is divided into the main flow, which goes through the nozzle 5 to the consumer’s beater, and the auxiliary flow, which goes through the apertures 13 to the compartment 12 and further, passes through the heat exchange nozzle 11, ethnically cools and enters the irrigated canals 8 3 vapor while water from the pores of the adsorbent. The non-evaporating water accumulates in the sump 2, from where pump 18 is fed to the water distributor 16 to irrigate the adsorbent. Elements 6 have a well-developed heat exchange surface, and the stamping 14 allows to turbulize the air flow, thereby increasing the heat transfer coefficient from air to the surface of the heat exchange element 6. Claim 1. An indirectly evaporative air cooling device comprising a body with a pallet and nozzles for entering and exit of auxiliary and main air flows and heat exchange elements placed in the housing, forming dry channels for the general flow and irrigated channels filled with an adsorbent for An auxiliary flow, and a separation chamber with a valve, characterized in that, in order to intensify heat and mass transfer while reducing aerodynamic resistance, in the housing under the heat exchange elements is additionally placed a telomassoobmennaya nozzle, forming a compartment connected to the separation chamber. 2. The device according to claim 1, characterized in that the stamping is made on the surface of the heat exchange elements. 3. The device according to claim 1, that is, because the heat and mass transfer is carried out in the form of a package of ribbed miplast sheets with alternating vertical and horizontal ribs on adjacent sheets. Sources of information taken into account in the examination 1. USSR author's certificate № 552494, -kl. F 24 F 3/14, 1975. / 7-C - “f ,,,, IS a a A : L