RU206261U1 - FLEET SECONDARY - Google Patents

Abstract

The proposed utility model relates to methods and devices for purifying wastewater from various industries and thickening the resulting precipitation. The essence of the proposed utility model is as follows. A flotation sump is proposed, including a housing divided into a flotation and settling chamber, on the outer side of which pipes are installed for supplying dirty water and working fluid, removing purified water, sediment and flotation sludge, characterized in that a screw insert made of material with a hydrophobic surface, and the branch pipe for removing flotation sludge is connected to an ejector installed above the filter belt, above which there is also a branch pipe for removing sediment, and under the filter belt there are collectors for liquid and thickened sediment, and under the filter belt there is a collector of confusor type, and the ejector is made with with an elongated mixing chamber and inside the housing at the inlet of the dirty water branch pipe a stilling baffle is installed, while the sludge removal branch pipe is equipped with a control valve. a (10-25)% and reduce the residual moisture content of the sludge by (15 ... 20)% compared to the corresponding indicators of known flotation ponds. The proposed flotation pond can be used for purification of wastewater from various industries and thickening of the resulting sediments.

Description

State of the art

In the practice of water purification, it is known to use sedimentation tanks and flotation devices to extract, respectively, suspended particles and hydrophobic contaminants that can stick together with air bubbles (Ksenofontov B.S. Flotation treatment of water, waste and soil. - M .: New technologies - 2010, p. 80- 103). The essence of the process of separating suspended solids in a settling tank is based on the instability of heterogeneous systems, in particular wastewater, to separation, and when the particle size of the dispersed phase is of the order of 5-10 microns or more, they precipitate. This process is quite stable. However, the speed of this process, as a rule, is low, which leads to low values of the degree of extraction of suspended solids up to 50-70% and the formation of a sludge with a high moisture content of about (93-97)%, which does not allow transporting it.

Thus, the disadvantage of the known flotation sump is the low degree of extraction of contaminants, including suspended particles and hydrophobic substances, as well as the impossibility of simultaneous thickening of the resulting sediment with residual moisture, which allows it to be transported.

Known technical solution in the form of a combined structure - a flotation tank, including a settler and a flotation device (RF patent for a useful model No. 132434. Flotation tank / BS Ksenofontov, EV Petrova; application. 02/28/2013, publ. 09/20/2013).

The known flotation sump includes a housing divided into flotation and settling chambers, on the outer side of which pipes are installed for supplying dirty water and working fluid, removing purified water, sediment and flotation sludge.

A significant disadvantage of the known flotation sump is the low degree of extraction of contaminants, including suspended particles and hydrophobic substances, as well as the impossibility of simultaneous thickening of the resulting sediment with residual moisture, which allows it to be transported.

Disclosure of a utility model

The purpose of the proposed utility model is to increase the degree of extraction of contaminants and the simultaneous thickening of the resulting sediments.

This goal is achieved by the fact that a flotation sump is proposed, including a body divided into a flotation and settling chamber, on the outside of which pipes are installed for supplying dirty water and working fluid, removing purified water, sediment and flotation sludge, characterized in that inside the body in the settling chamber a screw insert made of a material with a hydrophobic surface is installed, and the flotation sludge outlet is connected to an ejector installed above the filter belt, above which the sludge outlet is located, and under the filter belt there are liquid and thickened sediment collectors, and a confusor-type collector is located under the filter belt , and the ejector is made with an elongated mixing chamber, and a damping baffle is installed inside the housing at the inlet of the dirty water branch pipe, and the sediment removal branch pipe is equipped with a control valve.

Enumerating images

FIG. 1 shows a diagram of the proposed flotation tank.

Implementation of the utility model

The proposed flotation sump includes a housing 1 (Fig. 1), divided into a flotation 7 and a settling 8 chamber, on the outside of which there are nozzles for supplying dirty water 3 and working fluid 2, removing purified water 6, sediment 9 and flotation sludge 5, and inside the housing in the settling chamber, a screw insert 18 is installed, made of a material with a hydrophobic surface, and the branch pipe for removing flotation sludge 5 is connected to the ejector 16 with a branch pipe 17 installed above the filter belt 10, above which there is a branch pipe for removing the sediment 9, and under the filter belt there are liquid collectors 13 with a storage part 12 and a thickened sludge 11, and the collection of liquid 13 is made in the form of a confuser, and the ejector 16 is made with an elongated mixing chamber 15 with an outlet pipe 14, and inside the body at the inlet of the dirty water pipe there is a damping partition 4, and the outlet pipe sediment 9 is equipped with a control valve.

The principle of operation of the flotation tank is as follows. The original dirty water through the pipe 3 enters the flotation chamber 7 of the housing 1 of the flotation tank. The resulting mixture of dirty water is in contact with the working fluid flowing through the nozzle 2 and containing microbubbles. The resulting flotation complexes of pollution particles - air microbubbles rise up into the foam layer and are removed through the nozzle 5. In this case, the non-floating contaminants enter the settling chamber 8, in which the clarified liquid rises and is removed from the housing 1 through the nozzle 6, and the contaminants, rolling down the hydrophobic surface of the screw insert 18, rush down to the sludge outlet 9 with an adjustable valve. The hydrophobicity of the surface of the screw insert, for example, made of plastic coated with oil paint, contributes to the accelerated precipitation of contaminants.

The resulting flotation complexes of pollution - air bubbles float up, creating flotation sludge in the form of a foam layer, which is removed through the nozzle 5, and then sucked into the ejector, in which, due to the supply of the gas flow supplied through the nozzle 17 from the external compressed air system, a vacuum is created. Further, in the elongated mixing chamber 15, the flotation sludge is completely destroyed and a dirty concentrated liquid is formed, which is fed through the outlet pipe 14 to the filter belt 10, on which contaminants, both in the form of flotation sludge and in the form of sediment removed through the pipe with an adjustable valve 9, are retained and then they are discharged into the collector 11, and the clarified water enters the collector of the confuser type 13 with the accumulating part 12.

As a result of wastewater treatment in the proposed flotation sump, the degree of extraction of contaminants reaches (95-99)%, and the residual moisture content is (75-85)%.

Thus, the proposed flotation pond allows for a deeper wastewater treatment, in particular, to increase the degree of pollution recovery by about (10 - 25)% and to reduce the residual moisture content of the sediment by (15 ... 20)% compared to the corresponding indicators of known flotation ponds.

Claims (3)

1. A flotation sump, including a body divided into a flotation and settling chamber, on the outside of which there are nozzles for supplying dirty water and working fluid, removing purified water, sediment and flotation sludge, characterized in that a screw insert is installed inside the body in the settling chamber, made made of a material with a hydrophobic surface, the flotation sludge outlet is made with the ability to connect it to the ejector, and a soothing partition is installed above the inlet of the dirty water inlet. 2. The flotation tank according to claim 1, characterized in that the hydrophobic surface of the screw insert is made of plastic coated with oil paint. 3. The flotation tank according to claim 1, characterized in that the sludge outlet is equipped with a control valve.

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