SU370440A1 - COOLER - Google Patents

Description

one

The invention relates to contact heat and mass transfer devices and can be used in the circulating water supply systems of industrial enterprises, refrigeration equipment and chemical production.

Coolers are known, preferably circulating fluid, comprising a housing with nozzles for supplying and discharging air, an atomizer disposed in the upper part of the housing, connected to a fluid supply line, and a nozzle installed under the atomizer. A disadvantage of the known coolers lies in the low energy coefficient, due to the high aerodynamic resistance of the apparatus and the large energy consumption for the flow of gas and liquid, due to the appearance of "flooding of the nozzle due to the uneven distribution of the liquid over the cross section of the apparatus.

The aim of the invention is to intensify the process of directional heat and mass transfer without increasing energy consumption with an increase in the energy ratio.

This goal is achieved by the fact that under the nozzle there is an annular chamber with a perforated inner wall connected to a suction device made in the form of an ejector installed on the coolant supply line.

FIG. 1 shows the proposed cooler in cross section; in fig. 2 shows a sectional annular chamber. The cooler consists of a housing 1 with an air inlet 2 with an internal connector 5 installed inside, a sprayer 4 placed in the upper part of the housing and connected to line 5 supplying a coolant to which the suction device is installed

(ejector) 6, nozzle 7, made of corrugated sheets of well-wetted material, an annular chamber 8 with flanges 9 and a perforated inner wall 10 having radial holes 11 evenly spaced along the surface of the wall of the sump pan 12 cooled L fluid having a separator 13 and connected with a centrifugal pump 14, which supplies the cooled liquid to the consumer, and the air outlet pipe 15.

The annular chamber is connected with a suction device (ejector) pipe 16.

The cooler works as follows. The cooled fluid from the consumer is supplied through the supply line 5 to the atomizer 4, which is dispersed at a pressure of 1-4 bar, and, spreading along the body, injects air entering through the nozzle 2. The resulting two-phase flow

droplet structure is fed to the nozzle 7.

With the passage of a two-phase air-fluid flow through the nozzle in it by reducing the cross-section of the velocity of fluid and air and at the same time due to undulating channels, the turbulence of the air-fluid flow increases, which intensifies directional heat and mass transfer during cooling of the fluid. Next, the stream passes through the annular chamber 8 and enters the cooled sump 12. A part of the air-liquid flow passing through the annular chamber is injected by suction, it (the ejector) 6 with it and with the cooled liquid again is supplied to the evaporator 4. Partial suction of the flow by the ejector allows reducing the Nozzle resistance and maintaining a high volume flow air, ensuring the formation of a stream of droplet structure with a small height of the apparatus. In the collection sump 12, the air is separated from the water and, the passage through the separator 13 is removed through the outlet nozzle 15, and the cooled liquid is supplied by the centrifugal pump 14 to the consumer. The pump head is assumed to be equal to the water pressure applied to the spray device taking into account the pressure loss in consumer system and in the ejector 6.

Cooling performance can be adjusted by changing the position of the gate 3 or changing the amount of air-liquid flow sucked by the ejector.

Thus, the high intensity of the direct process of cooling the liquid in the cooler is carried out without increasing the energy costs.

Subject invention

Claims (2)

1. A cooler, preferably a circulating fluid, comprising a housing with nozzles for supplying and discharging air — an atomizer disposed in the upper part of the housing, connected to the liquid supply line, and an attachment installed under the atomizer, characterized in that, in order to intensify heat and mass transfer, the nozzle is an annular chamber with a perforated inner wall, connected to a suction device. 2. Cooler according to claim 1, characterized in that the suction-device is made in the form of an ejector installed on the coolant supply line. / AT fuB. I FIG. 2