SU1386576A1 - Apparatus for purifying waste water - Google Patents

Abstract

The invention relates to wastewater treatment plants for the production of the recycling of polyethylene film (PEP) and makes it possible to increase the cleaning efficiency of floating and sludge impurities. The device contains a tank 1, divided by a vertical partition 2 with overflow to the inlet and outlet sections 4 and 5. Sewage water through the pipeline 10 is supplied to the lower part of the inlet section 4, and then ascends and passes through the overflow to the outlet section 5, which changes from ascending to descending direction. In the output section 5, above the horizontal perforated partition 12, the waste water is sparged with air coming from the air-distributing distribution system of pipelines 16. In the process of ba The p-botting of the waste PEP is additionally washed away from the soil particles (or other impurities) sorbed on its surface, as a result of which its specific gravity decreases and a clean film floats freely to the surface. s. The film collected above the surface of the liquid by the inclusion of the air duct 17 is blown off into the tray 19 and transferred for recycling. Sewage water passes through a horizontal perforated partition 12, covered with mesh 13, to the zone of secondary ventilation. The grid 13 prevents the passage of the film into the zone of secondary clarification of water, and the air does not allow the film particles to heat up on the surface of the grid. The treated wastewater is discharged through line 11, and the accumulated sediment is removed through lines 8 and 9. 3 sludge,; 1 tab. 1} sl with from 00 O) sl O5

Description

The invention relates to the treatment of wastewater from the recycling of polyethylene film (PEP), especially a large amount of secondary raw material is produced in agriculture, where PEP is used to cover greenhouses.

The purpose of the invention is to increase the efficiency of wastewater treatment from floating up and settling impurities.

FIG. 1 npka3aHO device, longitudinal section; in fig. 2 — node 1 in FIG. I; in fig. 3 - node AND in FIG. 1.

The device comprises a rectangular tank 1, divided by a vertical partition 2 with overflow. 3 to inlet 4 and outlet 5 sections, in the lower part of each section are made with a pyramidal bottom 6 and 7, equipped with a pipeline, and 8 and 9 for draining sludge. Pipeline 10 is for supplying waste liquid, and pipe 11 is for discharging purified water. The exit section is equipped with a horizontal partition 12 with a grid 13 located at 0.20-0.25 m from the liquid level in the exit section, which is divided into the washing, collecting and removing camera 14 and the additional liquid clarification chamber 15. Directly below the partition is a pipe system 16 for supplying and distributing air. Above the partition with overflow is a device for removing pop-up soils, made in the form of an air duct 17 with holes 18 arranged so that the air coming out of them slides and blows off the surface of the pop-up film to the tray 19.

The device works as follows.

Sewage water through conduit 10 is supplied to the lower part of the inlet section 4, and then it flows upward through the overflow 3 and enters the outlet section 5, changing the direction from ascending to descending. In the exit section 5, above the horizontal perforated partition 12, the waste water is bubbled with air coming from the air distribution distribution system of pipelines 16. During the bubbling of the waste liquid in the chamber 14, the PEP is additionally washed away from soil particles or other impurities that are sorbed on its surface. as a result, its specific gravity is reduced, and a clean film floats freely to the surface of the water. The film collected above the surface of the liquid by the inclusion of the air duct 17 is blown off into the tray 19 and transferred for recycling.

The waste water passes through a horizontal perforated partition 2, covered with mesh 13, into the secondary clarification chamber 15. The grid 13 prevents the film from passing to the secondary zone.

water clarification, and air does not allow air to accumulate on the surface of the mesh to sinking film particles. The waste water is discharged through line II, and the accumulated sediment is removed through lines 8 and 9.

The rationale for the proposed placement of the horizontal perforated partition relative to the water level in the incoming section of the device is presented in the table ..

As can be seen from the table, in the proposed ycTpoHctBe, the maximum effect of wastewater purification from floating up and settling impurities is achieved under the condition of

placing the horizontal perforation of the nepet-crotch at a height of 0.20-0.25 m from the water level in the outgoing section.

With a decrease in the height of the placement of the horizontal partition relative to the overflow, the air consumption decreases, but the amount of impurities carried along with the film increases. With an increase in the height of placement of the horizontal partition and, accordingly, a decrease in the zone of the secondary

The clarification of air consumption increases, whirlpools appear that capture the slurry, and therefore the amount of suspended mechanical impurities decreases.

Reducing the secondary clarification area

adversely affects the amount of suspended sediment and, accordingly, the quality of the water to be purified.

With the recommended mode of operation of the device of the proposed design, the effect of sewage treatment from the settling suspension

is 85-87%, and 95-97% of floating particles.

Using the proposed device effectively solves the problem of cleaning a new

categories of wastewater polluted by floating up and settling impurities, production of recycled probe.

Claims (1)

Invention Formula A wastewater treatment device containing a reservoir divided by a vertical partition into inlet and outlet sections connected through an overflow, a device for removing floating substances and pipelines for supplying and removing liquid and sludge, characterized in that, in order to increase bones of sewage treatment from floating up and settling impurities, it is equipped with a horizontal perforated partition installed in the outlet section at a depth of 0.2-0.25 m from the liquid level, with a pipe system for air supply and distribution below it, The washed and floating particles are made in the form of an air duct with slotted holes directed at an acute angle to the water level in the exit section, and the horizontal perforated partition is provided with a grid located above it. FIG. 2 id .12 Phage.d