RU2669842C1 - Float combine for waste water purification - Google Patents

Abstract

FIELD: water treatment.

SUBSTANCE: invention can be used for wastewater treatment. Waste water treatment vessel includes housing 1 with sewage water supply pipes located on its outer side with reagents 3, working fluid in the form of purified water with dissolved air 22, foam channel 5 with outlet branch pipe 7 and branch pipes for the removal of purified water 10 and precipitate 17, a thickening unit of the precipitate. Inside body 1 there are baffles 6, device for regulating the level of water to be cleaned 9 and partition with a window closed by grid 8 with a mesh size of 0.01 to 0.7 mm. Ejector 2 is installed on the outer side of the tank of the combine. Branches of foam channel 7 and the outlet of cake 17 are connected to additional screw thickener 13 installed as a thickening aggregate with sludge collection chamber 21 inside which there is false perforated bottom 18 with a living section from 20–60 % of the total floor area. Length of screw 15 is in relation to the diameter of screw 15 from 25:1 to 35:1.

EFFECT: invention allows to increase the efficiency of wastewater treatment and to increase the degree of thickening of the sediment.

3 cl, 1 dwg

Description

The present invention relates to methods and devices for wastewater treatment.

State of the art

A known flotation machine for wastewater treatment, including a housing with wastewater supply pipes with reagents located on its outer side, a working fluid, a foam chute with an outlet pipe and pipes for the discharge of purified water and sludge, and partitions and a device for controlling the level of treated water are installed inside the housing ( B.S. Ksenofontov, A.S. Kozodaev, R.A. Taranov, M.V. Ivanov, E.V. Petrova, M.S. Vinogradov, A.A. Balina Flotation combines - flotation machines of the future for sewage treatment Water Ecology and Industry of Russia, 2013, No. 12, p. 4-8).

A significant disadvantage of the known flotation machine is the low efficiency of wastewater treatment and the absence of a node for thickening the formed sludge.

The closest technical solution is a flotation machine for wastewater treatment, which includes a housing with sewage water supply pipes with reagents located on its outer side, a working fluid, a foam gutter with an outlet pipe and pipes for the discharge of purified water and sediment, a sediment condensation unit, and inside the case are installed partitions and a device for regulating the level of treated water (RF patent for utility model No. 170182 "Flotocomine for wastewater treatment", etc. July 25, 2016, published on April 18, 2017, BI No. 11, author Ksenofontov B.S. - prototype) .

A significant disadvantage of the known flotation machine (prototype) is the low efficiency of wastewater treatment and a low degree of thickening of the resulting sludge.

A significant disadvantage of the known technical solution is the low efficiency of wastewater treatment and a low degree of thickening of the formed sludge.

Disclosure of invention

The objective of the invention is to develop a new design that provides an increase in cleaning efficiency and an increase in the degree of thickening of sludge.

The task and the specified technical result are achieved by the fact that the flotator for wastewater treatment contains a housing on the outside of which there are nozzles for supplying wastewater with reagents, a working fluid in the form of purified water with dissolved air, a foam gutter with an outlet nozzle and nozzles drainage of purified water and sludge, and inside the body there are partitions and a device for regulating the level of purified water, and the water supply with regents and air supply are carried out through the ejector, mounted on the outer side of the flotation combine housing and, in addition, the nozzle of the foam trough and sediment discharge are connected to a screw thickener additionally installed as a sediment thickening unit with a sediment collection chamber, inside which there is a false perforated bottom with a live section of 20-60% of the total area the bottom, and the length of the screw is 25: 1 to 35: 1 with respect to the diameter of the screw, and a partition with a window closed by a mesh with a mesh size from 0.01 to 0.7 mm is installed inside the housing of the flotokombine. In this case, the grid is made of magnetic material, and the perforations of the false bottom are in the form of squares with a side of a square from 0.1 to 0.9 mm.

List of drawings

In FIG. 1 shows a schematic of a flotocomine.

The implementation of the invention

The proposed flotation machine for wastewater treatment includes a housing 1, on the outside of which there is an ejector 2 with nozzles for supplying wastewater with reagents 3, air 4, a foam trough 5 with an outlet nozzle 7 connected by a hose 11 to the nozzle 16, and the purified water outlet 10 and sediment 17, and inside the case there are installed partitions b and a partition with a window closed by a net 8 and a device for regulating the level of purified water 9. A nozzle 22 is installed to supply the working fluid in the form of purified water with dissolved air in it. For housing 1, a screw thickener 13 with an auger 15 mounted inside it and driven by an electric motor 12 is mounted as a condensation unit for the precipitate, and a nozzle 14 for removing the centrate and a condensed sediment collection chamber 21 with a false perforated bottom 18 inside it are located and from the outside, a pipe 19 for withdrawing clarified water and a pipe 20 for removing condensed sediment. When this screw 15 is made with a length that is relative to the diameter of the screw from 25: 1 to 35: 1. The partition 8 installed inside the housing of the fleet harvester with a window closed by a mesh has a mesh size of 0.01 to 0.7 mm. The mesh is made of magnetic material, and the sediment collection chamber has a perforated false bottom with a live section from 20 to 60% of the total bottom area, and the false bottom perforations are in the form of squares with side sizes from 0.1 to 0.9 mm.

The principle of operation of the proposed flotation machine is as follows. The source wastewater with reagents is fed into the housing 1 of the flotokombine through the nozzle 3 of the ejector 2. At the same time, air enters through the nozzle 4 due to suction. The resulting water-air mixture enters the inside of the housing 1, where, simultaneously, the working fluid enters through the pipe 22 in the form of purified water with air dissolved in it. When these streams are mixed, the formation of flotation complexes is a particle of contaminants - an air bubble and then their ascent into the foam layer formed in the foam trough 5.

Then the foam product through the hose 11 and then through the pipe 16 enters the inside of the screw thickener 13, which also simultaneously serves the sediment through the pipe 17. The mixture of foam product and sediment is dehydrated by rotating under the influence of the electric motor 12, the screw 15, and then enters the chamber 21, thickening to the consistency of the dehydrated product by additional fluid drainage through the use of a false perforated bottom 18 with a live section from 20 to 60% of the total bottom area and perforations in the form of squares on the sides oh from 0.1 to 0.9 mm. In this case, the liquid separating from the precipitate in the form of a centrate is discharged from the screw thickener through the nozzle 14. Dehydrated to approximately 80–90% residual moisture, the sediment is discharged from the chamber 21 through the nozzle 20, and the liquid through the nozzle 19. The screw length is promoted by obtaining the least residual moisture. which, in the optimal embodiment, is in relation to the diameter of the screw from 25: 1 to 35: 1. Moreover, as shown by experiments, the optimal value of the false perforated bottom is within 20-60% of the total area of the bottom of the chamber 21, and the perforations of the false perforated bottom having the shape of squares are optimal with the side of the squares from 0.1 to 0.9 mm.

The purified water passes through the windows of the partitions 6 and the partition 8 with a window closed by a grid that does not allow fleet complexes that do not have time to float into the foam layer. This allows to achieve high efficiency of water purification with the size of the mesh cells, covering the window of the partition 8 in the range from 0.01 to 0.7 mm When using a grid outside the specified limits, the cleaning efficiency decreases, namely, when the mesh size is less than 0.01, the resistance to water movement sharply increases, and when the size is more than 0.7, a slip of the particle-bubble flotation complexes is observed. In this case, ferromagnetic particles can additionally linger on the grid, since the material of the grid can be magnetic.

Next, the purified water through the device for regulating the liquid level 9 and the pipe 10 is removed from the housing 1 of the flotation machine and can be used for its intended purpose.

Using the proposed flotation machine can improve the efficiency of water purification by 15-20% and increase the degree of thickening of sludge by 1.5-2.2 times.

Claims (3)

1. Flotokombine for wastewater treatment, comprising a housing with wastewater supply pipes with reagents located on its outer side, a working fluid in the form of purified water with dissolved air, a foam chute with an outlet pipe and pipes for the removal of purified water and sediment, a condensation unit sediment, and inside the case there are partitions and a device for regulating the level of purified water, characterized in that in order to increase the thickening of the precipitation formed, water is supplied with reagents and air is supplied through an ejector mounted on the outside of the flotation machine housing, and, in addition, the nozzles of the foam trough and sediment discharge are connected to a screw thickener additionally installed as a sediment thickening unit with a sediment collection chamber, inside which there is a false perforated bottom with a live section of 20-60% of the total area of the bottom, and the length of the screw is 25: 1 to 35: 1 with respect to the diameter of the screw, and a partition with a window closed by a mesh with a mesh size of 0.01 to 0.7 mm is installed inside the flotator harvester housing. 2. Flotocombe according to claim 1, characterized in that the grid is made of magnetic material. 3. Flotokombein under item 1, characterized in that the perforation of the false bottom are in the form of squares with dimensions of the side of the square from 0.1 to 0.9 mm

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