SU1430083A1 - Mixer - Google Patents

Abstract

The invention relates to a device for the reagent treatment of wastewater, in particular the supply of a reagent to the source water, and improves the efficiency of the process. The mixer includes a housing in which a confuser and a coaxially mounted reagent pipe are placed. An axially displaceable pipe is installed on the reagent pipeline with a hydrodynamic fairing on the outlet. Slot holes are made in the walls of the nozzle and reagent conductor. In addition, the nozzle is equipped with a plate-shaped plug installed at the outlet of the confuser. Kra stubs and a section of confuser, which is sparse with it, have a tooth. Due to the presence of a plate plug that overlaps the outlet of the confuser, in combination with the slit holes, an intensive mixing of liquids occurs in the automatic reagent supply mode, depending on the flow rate of the mixture for mixing. 1 hp f-ly, 3 ill. (L

Description

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SAE

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The invention relates to wastewater treatment plants, can be used to mix, for example, reagents with source water, as well as in other technological processes where mixing of any liquids is required.

The aim of the invention is to increase the efficiency of the process by intensifying it and ensuring controlled dispensing of the reagent.

FIG. 1 shows a mixer, section j in FIG. 2 - reagent supply unit; in fig. 3 mixer, complete view.

The mixer consists of a cylindrical body 1, which is a pipe with flanges. Reagent duct 2 is installed in housing 1. Centrifugal struts 3 are made of rods connected to hull 1 on one side, and with confuser 4 on the other. Reagent duct 2 passes coaxially inside the confuser and has 5 holes in its end part mongular shape.

In the end part of the reagent line 2, for example, on a threaded connection, there is mounted a sleeve 6 in which slotted holes 7 are made, corresponding in size to the holes 5, Coaxially to the reagent line 2 on its outer side in the cavity of the confuser 4 there is a branch pipe 8 blocked in the end part by hydrodynamic fairing 9 connected to the nozzle 8, for example, internal thread. In the wall of the pipe 8 there are slit holes 10 of the same size as slot holes 5 and 7, the vertical axes of which coincide and are parallel to the axis of the mixer. At the opposite end of the nozzle 8 there is a flange 11, to which, for example, a disk-shaped plug 12 is fixed to the bolted joints, which overlaps the outlet of the confuser 4 with a gap relative to the smaller end of the confuser, and the indicated end and the edge of the plug have symmetrical teeth, whose faces parallel to each other and form a slit hole in the form of a broken line.

The plug 12 is installed by means of guide washers 13, made, for example, of fluoroplastic.

The mixer works as follows.

The source water is supplied directly to the mixer body 1 from the side of the expanded part of the confuser 4. A part of the source water enters the body of the confuser 4 and, passing through its cavity, exerts hydrodynamic pressure on the plug 12, causing it to move along the reagent line in the direction of movement of the source water and increasing the annular the gap between the end part of the confuser 4 and the inner surface of the plug 12. Simultaneously with the movement of the plug 12, the connection of the nozzle 8, rigidly connected with it, takes place. As the nozzle B moves, the slit holes 10 in it and the slit holes 5 in the reagent line are aligned, increasing the area of the living section of the supply of the reagent to the confuser cavity. The maximum reagent consumption is observed when the horizontal axes of the slit holes 5 and 10 coincide. When the source water consumption decreases, the hydrodynamic pressure drops on the plug 12, and the pressure of the reagent solution on the end of the hydrodynamic fairing over the hydrodynamic pressure on the plug 12 causes the nozzle 8 to move sideways, opposite - opposite to the movement of the source water. As a result, the nozzle 8 is moved and, as a result, the area of the living section of the slit holes for supplying the reagent consumption to the confuser cavity is reduced. Thus, the proposed design provides automatic control of the reagent consumption depending on the flow rate of the source water.

When the reagent solution leaves the confuser cavity, it is pre-diluted with source water. The final mixing takes place due to the difference in the velocity head of the expanding flow of the source water passing outside the confuser housing 4, and the flow of the previously diluted reagent solution leaving the confuser cavity through a slot. At the same time, the velocity vectors of both flows are directional, and towards each other, which increases the mixing effect due to increased turbulence in the confluence zone. In addition, due to the oscillation (even insignificant) of the source water, the reagent solution is transferred into the cavity of the cone and from the cavity of the confuser to the expanding flow of source water outside the confuser, which improves the conditions of preliminary and final mixing.

The presence of a slit hole in the form of a broken line increases the velocity head of the reagent solution injected, and also increases the turbulization of the reagent solution injected into the source water stream.

In the proposed device, an automatically controlled proportional supply of the reagent solutions to the source water is provided due to the reciprocating movement of the Mixer nozzle, as a result of which the area of the living section, the slit holes of the supply of the reagent solution and the slot in the broken line formed by the bevelled teeth .

The device allows pre-diluted reagent solution to be injected in the opposite direction to the flow of the initial delivery, which improves the mixing process due to the increased turbulence of the flows of the mixed liquids, and also allows you to increase the area of the living section of the gap with a minimum clearance, and thereby increase the velocity head of the previously diluted reagent to the source water stream.

Due to the fluctuation of the flow rate of the source water, a pulsating supply of the reagent solution to the confuser cavity and from the confuser cavity — to

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source water, which improves the conditions for the preliminary and final mixing of the reagent with the source water.

It is possible to treat the initial fluid with a high content of suspended solids, since when the slit holes become clogged or overgrown, the pressure of the fluid on the fairing and on the dish core increases, causing the latter to move, thereby increasing the area of the slit holes and thus maintaining optimal rvim mixer.

Claims (2)

1. A mixer comprising a cylindrical body with a confuser fixed in it and a reagent pipe installed along the axis of the body, characterized in that In order to increase the efficiency of the process due to its intensification and the provision of controlled dispensing of the reagent, it is equipped with a pipe coaxially mounted on the reagent axially movable and hydrodynamically fairing attached to the pipe from the end of the reagent wire, while the pipe and reagent pipe are the walls of the slotted holes, and the nozzle is equipped with a plate-shaped plug installed at the outlet of the confuser. 2. Mixer according to claim. 1, about tl and h a- yu u and with the fact that the edge of the stub and the area of confuser associated with it is jagged. erig.1 ue.2 Srig. 3