SU1666453A1 - Aerator ejector - Google Patents

Abstract

This invention relates to the mixing of a liquid and a gas. The aim of the invention is to increase the efficiency of gas saturation. The ejector of the aerator contains nozzles 1, a nozzle head 2 with openings located on concentric circles. In the air intake 6 there are 7 air inlets. The axes 8 of the adjacent holes intersect at an angle α. The intersection point of the axes 8 lies in the interface plane of the confuser 9 and the mixer 10, which is located at the distance L from the end of the nozzle head 2. The axes of the 8 holes are located at the end of the nozzle head 2 at a distance T from each other. The angle α is equal to ARC TG T / 2L. The liquid supplied to the nozzle 1 enters the nozzle head 2, from which it flows through the holes into the cavity of the confuser 9. The jet of liquid at the moment of expiration creates air leaks into the air intake 6, which in the confuser 9 and the mixer 10 mixes with the liquid. The invention makes it possible to obtain aerated water with a stable content of oxygen in it. 1 hp ff, 3 ill.

Description

The invention relates to the mixing of liquid and gas and can be used to saturate water with air during aeration of stocked ponds.

The aim of the invention is to increase the efficiency of liquid saturation with gas,

FIG. 1 schematically shows the aerator ejector, general view, longitudinal section; figure 2 is a view of And figure 1; on fig.Z - section bb in figure 2.

The aerator ejector contains nozzles 1 for supplying a liquid, a nozzle head 2 fixed by a nut 3. At the end of the nozzle head 2 there are holes 4 located on concentric circles 5. In the air inlet 6 there are holes 7 for air inlet. The axes 8 of adjacent holes 4 in the nozzle head 2 intersect at an angle a. The intersection point of the axes 8 lies in the plane of the junction of the confuser 9 and the mixer 10, which is separated from the end of the injector head 2 at a distance of

1. The axis 8 of the holes 4 is located at the end of the nozzle head 2 at a distance t from each other. Angle a is equal to agmd t / 2l.

The ejector works as follows.

We put under pressure in the nozzles 1

fluid enters nozzle head

2, from which it flows through the openings 4 into the cavity of the confuser 9. The liquid jets at the time of expiration create the effect of drawing air into the air intake 6, which is realized through the openings 7, which communicate the air intake cavity With the atmosphere. In this case, the liquid jets are pre-saturated with air during the passage of the confuser 9. Due to the intersection of adjacent liquid jets in the interface plane of the confuser 9 and the mixer 10 at an angle, they collide to form tiny droplets of liquid, thereby acquiring a large area of contact with air. In the mixer 10, a final highly efficient saturation of the liquid with air takes place. Due to concentric

The location of the colliding jets of liquid that form droplet-shaped curtains of liquid are located along congruent circles, which increases the number of zones of contact between liquid and gas, ensures uniform distribution of liquid drops along the axis of confuser 9 and mixer 10, intensifies the process of mixing liquid and gas in the cavity of mixer 10.

When the pressure of the fluid in the nozzle 1 changes, the zone of collision of its jets may not coincide with the interface of the confuser 9 and the mixer 10. For this nozzle 1, it is turned in its threaded connection with the air intake b, which leads to a change in the value of I .

The invention makes it possible to obtain aerated water with a stable content of oxygen in it.

Claims (2)

1. The aerator's injector containing an air intake, a nozzle head located coaxially with the air intake, a confuser and a mixer, characterized in that, in order to increase the efficiency of liquid saturation of the gas, there are holes on the end of the nozzle head, concentric circles, number of holes even, and pairs of adjacent holes on each circle are angled to one another. 2. The ejector according to claim 1, characterized in that the angle a between the axes of the adjacent orifices is selected from the relation and 2 arctg, where t is the distance between adjacent holes; I is the distance from the bottom end of the nozzle head to the interface of the confuser and the mixer. Type A FIG. g 6-6 dried up Mg: 1 FIG 5