RU170182U1 - WASTE WATER CLEANER - Google Patents

Abstract

The proposed utility model - a flotocomineer for wastewater treatment refers to processes and apparatus for wastewater treatment. A flotocomineer for wastewater treatment, including a casing, on the outside of which there are pipes for supplying raw water, draining purified water and discharging flash sludge and sludge, and inside the housing has perforated partitions and a device for outputting purified water, characterized in that the flotokombine further comprises a nozzle for supplying working fluid, a thickening unit for slurry in the form of an ejector, with flax with a hydrocyclone, and a sludge dewatering unit, consisting of a crimping device, inside which a bag of synthetic fabric is placed, and a bottom for collecting liquid is located at the same time. up to 0.5 m, and synthetic fabric is made with a mesh size of 0.001 to 0.1 mm. The proposed utility model can be used in various industries in wastewater treatment processes.

Description

Technical field

The proposed utility model relates to apparatus and devices for wastewater treatment.

State of the art

The known flotation machine for wastewater treatment comprises a housing, on the outside of which there are nozzles for supplying raw water, discharging purified water and discharging fleet sludge and sediment, and perforated and soothing partitions are installed inside the housing, as well as a clarified water outlet device. (B.S. Ksenofontov, A.S. Kozodaev, R.A. Taranov, M.V. Ivanov, E.V. Petrova, M.S. Vinogradov, A.A. Balina. Flotation combines - flotation equipment of the future for cleaning wastewater Ecology and Industry of Russia, 2013, No. 12, pp. 4-8; B.S. Ksenofontov, A.S. Kozodaev, R.A. Taranov, M.S. Vinogradov, E.V. Petrova, A .A. Voropaeva. Treatment of industrial wastewater using flotation combines. Ecology and Industry of Russia, 2014, No. 7, pp. 12-15).

A significant disadvantage of the known technical solution is the precipitation of particles from the foam layer, which leads to a decrease in the efficiency of wastewater treatment and the inability to obtain flash sludge in condensed form due to the lack of a special unit.

The closest technical solution is a flotation machine for wastewater treatment, which includes a casing, on the outside of which there are pipes for supplying raw water, discharging purified water and discharging floccum sludge and sludge, and perforated partitions and a clarified water outlet device are installed inside the casing (B. Ksenofontov S. Wastewater treatment: flotation kinetics and flotation combines. M .: Infra-M. - 2015. S. 136-140 - prototype).

A significant disadvantage of the known technical solution is the precipitation of particles from the foam layer, which leads to a decrease in the efficiency of wastewater treatment, and the inability to obtain flash sludge in condensed form due to the lack of a special unit.

Thus, the disadvantage of the known flotation machine is the low efficiency of wastewater treatment, as well as the inability to obtain a thickened flotation sludge.

Disclosure of invention

The objective of the invention is to develop a new design that provides a high degree of removal of contaminants and obtaining a thickened sludge.

The technical result is to increase the efficiency of wastewater treatment and to obtain flash sludge in a condensed form. The task and the specified technical result are achieved in that the flotation machine for wastewater treatment contains a housing, on the outside of which there are nozzles for supplying raw water, drainage of purified water and output of sludge and sludge, and perforated partitions and a device for outputting purified water are installed inside the housing. According to the invention, the flotokombine additionally contains a nozzle for supplying a working fluid, a thickening block for the slurry in the form of an ejector articulated with a hydrocyclone, and a sludge dewatering unit, consisting of a crimping device, inside which a bag of synthetic fabric is placed, and a bottom for collecting the filtrate is located. In this case, the ejector is made with a pressure drop in it from 0.05 to 0.5 m, and the synthetic fabric is made with a cell size of from 0.001 to 0.1 mm.

Image enumeration

In FIG. 1 shows a schematic of a flotocomine.

Utility Model Implementation

A flotation machine for wastewater treatment is proposed, including a housing 1, on the outside of which there are nozzles for supplying wastewater 2, drainage of purified water 3, a foam trough 4 with a nozzle for outputting a slurry, an ejector 6 with a nozzle 19 for supplying compressed air and an outlet nozzle 9, a hydrocyclone 8, a branch pipe for the removal of thickened slurry 10, a pipe for clarified liquid 7 with a drain pipe 11, pipes for the output of sludge 12 and a supply of working fluid 21 with a sludge dewatering unit 13 additionally installed on the outside, consisting of an inner chamber in the form of a bag 14 and external control devices 15 and a crimp clamp 16. At the same time, a tray for collecting clarified liquid 17 is located in the bottom of the flotokombina, and perforated partitions 20 and a purified water outlet device 18 are installed inside the flotokomina.

The principle of operation of the flotokombine is as follows. The source wastewater through the pipe 2 enters the housing 1 of the flotator, where it is mixed with the working fluid entering through the pipe 21. As a result of mixing of these flows, the formation of flotation complexes of pollution particles - gas bubbles contained in the working fluid. The resulting flotation complexes with large bubbles of the order of 1 mm or more quickly float into the foam layer, and flotation complexes with a smaller size of gas bubbles, called microflotocomplexes, are entrained by the flow of the liquid being cleaned, which is then filtered through perforated partitions 20. When passing through the perforations, the microflotocomplexes coalesce, combining larger flotation complexes, and then float into the foam layer, which is collected in the foam trough 4 and then quickly removed through the pipe 5, and cleaned Separated water through the purified water withdrawal device 18 and further through the pipe 3 is output from flotokombayna. The fleet sludge discharged through the nozzle 5 is sucked into the ejector 6, where, under the action of the compressed air supplied through the nozzle 19, it is destroyed and converted into a suspension containing trapped contaminants. In this case, the efficiency of the ejector is observed when performing the necessary pressure drop in the range of 0.05-0.5 m. Outside the specified limits, the necessary positive effect of the destruction of the structure of the sludge and its subsequent thickening is not observed. After the ejector 6, the suspension is sent to the hydrocyclone 8, where it is separated into a condensed concentrate and clarified liquid, discharged through the nozzles 10 and 7, respectively. The condensed concentrate is piped 11 and then through the nozzle 12 into the internal space of the dehydration unit 13, where it is located bag 14 made of synthetic fabric with a mesh size of from 0.001 to 0.1 mm When using synthetic fabrics with a cell size outside the specified limit, the necessary effect of thickening the precipitate is not observed. Further, under the action of external control devices 15, the filled bag is pressed, which leads to subsequent dewatering of the sludge. While holding the bag 14 in an unchanged position by means of a crimp clamp 16. The squeezed liquid is collected in the pan 17. After squeezing the liquid out of the sediment, the bag 14 is removed from the dewatering unit 13 and sent for disposal.

As a result of the use of new additional units in the flotator, the quick removal of trapped contaminants from the inner space and their subsequent thickening improves, resulting in an increase in cleaning efficiency due to a sharp decrease in the precipitation of particles from the foam layer and the production of a condensed precipitate in one unit - the flotator.

Claims (3)

1. A flotation machine for wastewater treatment, including a housing, on the outside of which there are nozzles for supplying raw water, discharging purified water and discharging a flotation sludge and sludge, and inside the casing there are perforated partitions and a device for removing purified water, characterized in that the flotation combine further comprises a nozzle for supplying a working fluid, a thickening block for the sludge in the form of an ejector articulated with a hydrocyclone, and a sludge dewatering unit, consisting of a crimping device, inside which the mesh is placed to synthetic fabric, and the bottom is a tray for collecting liquid. 2. Flotokombine for wastewater treatment according to claim 1, characterized in that the ejector is made with the possibility of a pressure drop in it from 0.05 to 0.5 m 3. Flotokombine for wastewater treatment according to claim 1, characterized in that the synthetic fabric is made with a mesh size of from 0.001 to 0.1 mm

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