SU1105470A1 - Flotation sump - Google Patents

Abstract

DEFROST-FLOTATOR, which includes a cylindrical housing with a liquid, inside which a cylindrical chamber is located coaxially, devices for supplying the source and discharge of purified water, aerators and a chute with a sloping wall for collecting foam, characterized in that undissolved, emulsified and colloidal organic and mineral impurities and suspended solids, it is equipped with a pre-clarification chamber located coaxially inside the cylindrical chamber, qi an indroconic partition located concentrically relative to the Grshindric chamber, which is connected to the conical part of the body with its lower edge and is made with water distribution windows in its upper part and sediment-receiving windows in the lower part, with a perforated pipeline placed in the groove to collect foam directly at the cylindrical partition, while the wall of the gutter is fixed by the upper end i on the wall of the body below the level of the liquid, and the lower end to the cylinders The facility for removal of purified water is made in the form of a perforated pipeline placed directly at the wall of the casing.

Description

1 The invention relates to a device for mechanical and physicomechanical treatment of wastewater containing non-solvent, emulsified and colloidal organic pollution, suspended solids, and can be used to clean household appliances and concentrated products; sawn wastewater (enterprises of the oil refining industry, food industry, etc. At present, methods of sedimentation and flotation are used for purification of domestic and industrial sewage, for example, It does not reach 50-70% of the cleaning efficiency. The use of flotation plants for the treatment of concentrated industrial wastewater, as a rule, requires pre-treatment of wastewater from coarse impurities in order to prevent the closure of flotation plants. The closest to the technical essence and the achieved result of the present invention is a settling tank, including a cylindrical conical body with a liquid inside which is a cylindrical chamber coaxially, a device for supplying the source and discharge of purified water, aerators, a chute with an inclined wall for collecting foam l. The disadvantage of such a settler flotation unit is low efficiency, due to the fact that the discharge of treated wastewater is through windows are disposed in the upper portion of the housing in the flotation chamber, whereby a treated water removal are inevitably contaminant particles, sflotirovannye air bubbles in the moving upper part of the installation point outward to the drainage conductive windows. In addition, aerators installed for the purpose of flotation of wastewater have some kind of airlift effect, as a result of which some of the contaminants unable to float entrains with the flow of fluid from the settling zone and ultimately is discharged through the drainage windows with a stream of treated wastewater that in turn, reduces the effectiveness of wastewater treatment. The lack of a scraper mechanism for scrapping foam to the discharge pipeline complicates the operation of the installation. The aim of the invention is to increase the efficiency of wastewater treatment from undissolved, emulsified, colloidal organic and mineral impurities, suspended solids. This goal is achieved by the fact that a settler-flotator, including a cylindrical body with a liquid, inside which a cylindrical chamber is located coaxially, a device for supplying the original and discharging purified water, aerators and an inclined wall for collecting foam, is provided with a pre-brightening chamber placed coaxially inside cylindrical chamber, cylindrical conic partition located concentrically relative to the cylindrical chamber, which is connected to the lower edge of the conical part of the building It is made with water distribution windows in its upper part and sedimentary OKHaNM in the lower part, perforated with a pipeline placed in the groove for collecting foam directly from the cylindrical cone, with the sloping wall of the groove attached to the upper end of the body wall below the liquid level, and the lower one to a cylindrical partition, a device for removal of purified water made in the form of a perforated pipe, placed directly against the wall of the housing. In order to ensure the movement of the waste liquid in the cylindrical chamber, its upper part, to the water distribution windows, has a reflective body in it. In addition, the area of water distribution windows is 3-5 times larger than the area of sediment-receiving windows in its lower part. The required direction of fluid movement in the settling tank of the flotation machine with the specified ratios of window areas in the lower and upper parts of the chamber is due to the difference in local resistances that occur when the fluid moves through the holes, while the resistance to fluid flow through the bottom sediment receiving windows is much greater than

the movement of fluid through the upper distribution windows. Reducing the size of the receiving ports leads to clogging of them with soils unplanted in the flotation cell, and increasing their area to the fact that the waste water from the bottom of the settling chamber moves through the draft receiving windows in the upper direction into the flotation chamber and the collecting chamber of the treated waste water that ultimately reduces the effectiveness of wastewater treatment.

The collection of foam removed from the flotation, a cylindrical chamber bounded by a wall and a cylindrical conical partition is carried out in a chute formed by a cylindrical conical partition and an inclined partition installed in the collection chamber of treated waste water. The angle of inclination of the partition is not less than 45 due to the conditions of the gravity movement of the foam to the perforated assembled pipeline. Reducing the angle of inclination of the septum leads to sticking of the foam in the tray and its rotting, which ultimately complicates the operation of the installation.

The drawing shows a sump flotation plant, the cut.

The installation includes a cylindrical chamber 1 for pre-clarification of waste water and flow stabilization, the lower edge of which is bent towards the center, a cylindrical settling chamber 2 with water distribution windows 3 in the upper part of the chamber. For the removal of sediment from the flotation chamber 4 into the collecting bin 5, sediment receiving windows 6 are provided. To change the direction of movement of waste water in the settling chamber 2, a cone 7 is provided. Air distribution in the flotation chamber 4 is carried out through small porous aerators 8, the flotation chamber is bounded on one side by a wall 9 chambers 2 upholding, on the other - cylindrical conical partition 10, the lower edge of which is bent towards the center. The sewage is supplied to the installation via pipeline 11. The change of direction of movement in chamber 1 is carried out by means of a hollow truncated cone 12. Collection of the pollutants in chamber 1 is carried out by means of a 13 n prefabricated

the tray 14, and their removal from the installation through the pipeline 15. Foam removal from the surface of the flotation chamber 4 is carried out by means of a scraper 16 into the groove for collecting foam 17 formed by a partition 10 and an inclined partition 18 fixed by the upper end on the wall of the housing and the lower end on the cylindrical partition ten

below the level of the liquid in the flotation cell 4.

The chamber 19 of the collection of purified waste water is limited by a partition 10 and the wall of the housing. Foam collection in the gutter 17 is carried out by

perforated ring conduit 20, and its removal from the installation of the pipeline 21. The collection of the treated wastewater in the chamber 19 is carried out by the perforated pipeline 22, and its removal from the installation - through the pipeline 23. Scrapers 13 and 16 are mounted on a rotating farm 24, driven by drive 25.

The sludge is removed from the hopper 5 via pipeline 26.

Ostoynik-flotation works as follows.

The original wastewater through the pipeline 11 enters the pre-clarification chamber 1 and stabilizes the flow, where it is partially clarified from floating contaminants. The cone 12 gives the fluid flow a downward direction, and the bottom edge of the chamber 1 which is bent toward the center directs the flow of fluid to the reflective cone 7 located in the stop chamber 2.

In chamber 2, the flow of liquid acquires the opposite direction, while sedimentation of waste water from coarse impurities occurs. Pop-up pollution in chamber 1

they are scraped by the scraper 13 into the collecting tray 14 and discharged through the pipe 15 from the installation. In order to maintain the upward flow of fluid in the settling chamber 2 to the water distribution windows 3, the chamber 2 is cylindrical and the lower part of it is connected to the conical part of the body of the flotation tank and equipped with windows 6, the total float of which is 1 / 3-1 / 5 part of the common area of water distribution windows 3. Sewage water from the settling chamber 2 through windows 3 enters the flotation chamber 4 directly

Claims (1)

SILT-FLOTATOR, including a cylindrical-conical housing with a liquid, inside of which a cylindrical chamber is coaxially located, devices for supplying raw and discharged purified water, aerators and a trough with an inclined wall for collecting foam, characterized in that, in order to increase the efficiency of wastewater treatment from undissolved, emulsified and colloidal organic and mineral contaminants and suspended solids, it is equipped with a pre-clarification chamber placed coaxially inside the cylindrical chamber, ciliidroko partition, located concentrically relative to the cylindrical chamber, which is connected with the lower edge to the conical part of the body and is made with water distribution windows in its upper part and sedimentation windows in the lower part, a perforated pipe placed in the foam gutter directly at the cylindrical partition, while inclined the gutter wall is fixed with its upper end on the wall of the body below the liquid level, and the lower one on the cylinder-conical partition, a device for diverting eyes ennoy water is in the form of a perforated pipe disposed directly in the housing wall. . SU ... 1105470