RU2651180C1 - Distribution system of coagulant for water treatment - Google Patents

Abstract

FIELD: technology of water and air purification.

SUBSTANCE: invention relates to water treatment and water purification means. Distribution system of the coagulant for water treatment contains a limited part of tank 1, the cross-section of inlet 2 into which is blocked by beam distributor 3 formed of radially arranged tubes 4 which are perforated by holes 5. Holes 5 are directed along incoming flow 6 of water. Each radial perforated tube 4 of beam distributor 3 has, between the holes, projecting hook-shaped slats 7 bent along flow 6 and at an angle to it, forming ridges. Cross-section of outlet 8 of the limited part of tank 1 is covered by grid 9 with cells having dimensions smaller than the dimensions of the distances between ridges 7 on radial perforated tubes 4 of beam distributor 3. Limited part of tank 1 in cross section has an outer contour that coincides with the inner contour of the cross-section of the container in which it is installed.

EFFECT: invention makes it possible to expand the functionality of the water treatment system by simultaneously feeding the coagulant into the water and forming vortex jets therein.

1 cl, 1 dwg

Description

The present invention relates to a means of water treatment and water purification in processes that use coagulation and saturation with liquid and gaseous components for the purification and disinfection of drinking and waste water in pipelines and pools.

Various coagulant distribution devices for water treatment are known, which are disclosed in the following source of information: “Instructions for the use of water purification technology on contact illuminators using optimal coagulant-water mixing modes”, approved by order of the Ministry of Housing and Communal Services of the RSFSR of October 4, 1986 No. 431, Department of scientific and technical information AKH, Moscow, 1986 / fig. 1 and 2 /.

According to these guidelines, one of the ways to intensify contact clarification of water is to improve the distribution system for supplying coagulant to water and mixing it in it. The design data for such distribution systems are provided. At the same time, in order to increase the distribution rate of the coagulant (and, if necessary, the flocculant), their distribution systems are installed in the place where the water enters the mixer from the feed pipe or from the inlet chamber. In the latter case, it is located in an aperture made in a partition creating a narrowing of the flow and increasing its turbulence. The opening is made in the lower part of the partition.

As a prototype, the installation of a tubular coagulant distributor in a cloisonne or corporite mixer in the inlet chamber of the contact water clarification station was chosen (Fig. 2). In essence, it is a coagulant distribution system for water treatment. It contains part of a container for filling with water, divided by a partition forming a channel for supplying water for water treatment and having a bottom opening for water to exit from the channel. In this aperture there is a coagulant beam distributor equipped with a hose for supplying a coagulant working solution to it. The beam distributor is formed of radially arranged perforated tube-beams having end caps and openings directed perpendicular to the movement of the water stream.

The disadvantage of this distribution system of the coagulant for water treatment is its functional limitation, which is caused only by the supply of coagulant through the beam distributor to a limited volume of the tank filled with water to be cleaned.

The objective of the present invention is the creation of a new distribution system of coagulant for water treatment, ensuring the achievement of a technical result, which is an extension of functionality.

The problem is solved as follows. The known distribution system of the coagulant for water treatment contains a limited part of the tank, the cross section of the entrance to which is blocked by a beam distributor formed from radially arranged perforated tubes, the holes being directed along the flow of water entering the tank part.

At the same time, according to the present invention, each radial perforated beam of the beam distributor has protruding hook-shaped strips between the holes, bent along the stream and at an angle to it, forming ridges, and the cross section of the output of the limited part of the tank is blocked by a grid with cells that are smaller than the distance between the ridges on the radial perforated tubes of the beam distributor, and the limited part of the tank in cross section has an external contour matching the internal contour the urm of the cross section of the container in which it is installed.

There is an option according to which a second beam distributor, similar to the previously mentioned beam distributor with similarly directed holes, is placed behind said grating in the direction of the water flow.

Such a new technical solution makes it possible to obtain a new coagulant distribution system for water treatment, in which functionality is expanded, in particular, coagulant can be dispensed in water at the same time with the formation of swirling jets of water in it, which self-capture the introduced coagulant and again crush after a certain distance and mixed, divided into smaller swirling jets. All this happens in conditions of natural water flow, mixing and interaction of the coagulant with water. Moreover, these processes occur without an external active influence on the process of mixing the coagulant with water. So, at the entrance to a part of the tank, the beam distributor synchronizes the release of the coagulant into the water with its crests and creates swirling jets in the flow, capturing the coagulant, mixing with it and dragging it to the grate at the exit of the part of the tank, where swirling jets with the coagulant already captured are crushed into more small jets, the coagulant is even more covered by small particles of water and mixed with them. Moreover, all this happens at low flow rates (0.2 ... 0.5 m / s) without additional activation.

The authors of the present invention conducted a patent information search on this topic, which did not reveal the fame of the claimed combination of essential features. Therefore, this invention can be recognized as new.

For a specialist, this technical solution does not logically follow from the prior art. Therefore, the claimed invention meets the condition of patentability "inventive step". However, certain essential features are known in combination with other essential features of other technical solutions. For example, a beam distributor is known (see "Instructions for the application of water purification technology for contact illuminators using optimal modes of mixing coagulant with water" / Approved by order of the Ministry of Housing and Communal Services of the RSFSR of October 4, 1986 No. 431, Department of Scientific and Technical Information AKH Moscow, 1986 / Fig. 1). In it, as in the claimed invention, the beam distributor is formed by radially arranged perforated holes with tube-rays. In this regard, it coincides with the beam distributor available in the claimed invention. But in a known case, it has narrowly targeted applications. In the claimed invention, this beam distributor has an additional function. It is associated with the presence of ridges on its tubes, forming turbulent jets in the water stream, capturing the coagulant emerging from the aforementioned beam distributor openings. In addition, these turbulent jets are again crushed, but already at the exit on the grate, which is installed across the exit from part of the tank. Moreover, the location of the ridges on the tubes is consistent with the location of the holes on these tubes. On the other hand, there is a known lattice located across the exit from the tank. This is essentially a filter. He himself is known. In the case of the present invention, it is oriented with the location of the ridges on the beam distributor and therefore functions in concert with them, more precisely, with the turbulent jets formed by them. Thus, the mixing of the solution with the raw water to be processed occurs by supplying a solution of a chemical agent (coagulant) into a moving stream of water under excessive pressure. Although under these conditions (the diameter of the pipeline and the working flow rates of the raw water) a turbulent flow regime should be observed, nevertheless, the random speeds of the jets of water may not be sufficient for high-quality mixing of the chemical solution with the treated raw water. In the inventive distribution system of the coagulant for water treatment when flowing around the ridges of the beam distributor at the inlet of a part of the tank, the water flow is additionally swirling, the speed of the chaotic movement of water jets into which the chemical solution is introduced through the beam distributor is increased. After the initial mixing, the water stream with the introduced and pre-distributed chemical solution reaches the filter grate, where, when flowing over the partitions of its cells, secondary randomization of the stream jets occurs, further improving the quality of mixing.

The present invention is practically applicable, and its essence is illustrated by the drawing and the following description.

FIG. 1: Coagulant distribution system for water treatment.

The distribution system of the coagulant for water treatment contains a limited part of the tank 1, in particular a pipe. Its cross section at the inlet 2 is blocked by a beam distributor 3 formed from radially arranged perforated tubes 4. The openings 5 are directed along the water flow 6 entering the container part. Each radial perforated tube 4 of the beam distributor 3 has protruding hook-shaped bars 7 between the holes 5, bent along the stream 6 and at an angle to it, forming ridges. The cross section of the outlet 8 of the limited part of the tank 1 is blocked by a grating 9 with cells having dimensions smaller than the sizes of the distances between the ridges 7 on the radial perforated tubes 4 of the beam distributor 3. Moreover, the limited part of the tank 1 in the cross section has an external contour that matches the internal contour of the cross section the container in which it is installed (not shown).

There is an option according to which a second beam distributor (not shown), similar to the previously mentioned beam distributor with similarly directed holes, is placed behind said grating in the direction of the water flow.

The proposed distribution system of coagulant for water treatment works as follows. Mixing the working solution of the coagulant with the processed raw water occurs by supplying a solution of a chemical agent (coagulant) into a moving stream of water under excessive pressure. Although under these conditions (the diameter of the pipeline and the working flow rate of the raw water) a turbulent flow regime should be observed, nevertheless, the random speeds of the jets of water may not be sufficient for high-quality mixing of the solution of the chemical agent (coagulant) with the treated raw water. Therefore, we need the proposed coagulant distribution system for water treatment, in which, when the coagulant solution flows around the beam distributor 3, the water flow swirls additionally, and the speed of the chaotic movement of water jets increases. A coagulant solution is introduced into them by a beam nebulizer 3. After the initial mixing, the water stream with the introduced and pre-distributed coagulant solution reaches, for example, a filter grate, where secondary flow randomness is additionally excited when flowing over the partitions of its cells, which further improves the quality of mixing. Thus, an additional crushing of the initial turbulent jets of water in the flow and the coagulant trapped by them occurs identical over the entire cross section of the flow. This occurs when turbulent jets pass through a grating with small windows (not shown) that is specially installed across the flow. These turbulent jets pass through them and are divided into smaller ones, forming at the exit from the coagulant lattice a form of a water cloud (not shown), inside which intensive mixing of water with the coagulant takes place. As a result, an optimal natural regimen for introducing the coagulant into the water treatment process is created, in which the coagulant comes into contact with the maximum number of particles of water impurities before the hydrolysis and polymerization reactions end.

Claims (1)

Coagulant distribution system for water treatment, containing a limited part of the tank, the cross section of the entrance to which is blocked by a beam distributor formed from radially arranged perforated holes in the tubes, the holes being directed along the water flow entering the container part, characterized in that each radial perforated beam distributor tube between the holes has protruding hook-shaped strips, bent along the stream and at an angle to it, forming ridges, and a cross-section Output limited portion of the container closed by a lattice with a mesh having dimensions smaller than the dimensions of the distances between the ridges on the radial perforated tubes lucheraspredelitelya, the limited part of the container in cross section has an outer contour which coincides with the inner contour of the cross section of the container in which it is installed.

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