SU617379A1 - Device for cleaning industrial waste water - Google Patents

Description

one

The invention relates to wastewater treatment plants, in particular to aeroflotation clarifiers used to purify saline solutions, such as brine, from organic impurities.

The settling tank is aeroflotational, having cylindroconical corius, inside which are placed conical partitions dividing it into pressure, flotation and sludge chambers. On the outer surface of the settling tank, there is a spiral-shaped intermittent tray, providing natural aeration of the treated water 1.

The disadvantage of such a settling tank is low-intensity aeration and, as a result, poor quality wastewater treatment. In addition, the surface of the drain pan quickly slurried, since the floating (settled) suspensions in the tray are not separated, and are carried away by the flow of liquid into the drain water system.

The purpose of the invention is to increase the cleaning efficiency by pre-aeration.

This is achieved by the fact that the proposed device is equipped with an aeration unit having two spherical rings and a perforated cone, with the upper ring adjacent to the outlet end of the pressure pipe, and the lower one to the outer surface of the perforated cone, the larger base of which is located above the upper spherical ring.

In addition, the device is equipped with a nozzle mounted on an end partition placed between the flotation and nano1: oh chambers.

FIG. 1 shows the described device, the total vnd; on fng. 2-section A-A in FIG. one; in fig. 3 - section BB on the fng. one; in fig. 4 - section bb in fng. one.

The device for the treatment of industrial wastewater is made in the form of a hydrodynamic building 1, divided by partitions 2, 3, 4 into three chambers; pressure head, flotation and slurry. An aerating device is installed in the slurry chamber, consisting of a nano nipple 5 passing through a spherical ring 6, 1 of which a spherical ring 7 is installed, and a non-perforated cone 8. The upper spherical ring 6 adjoins the output end of the discharge nozzle 5, and the outer spherical ring 6 surface perforated cone 8.

On cylindrical conical body 1 from the outer side, sprout-shaped tray 9 of natural litter tuft passes

with separators 10 brines from substances floating on the surface and sediment. A partition P is installed in the separator 10 with a certain clearance from the bottom. Inside the pressure chamber, there is a water distributor 12 connected via a pump 13 and a suction pipe 14 with a pallet 15. A nozzle 16 is placed above the partition 4. The partition 3 is tapered with a hole at the top. In addition, a pipe 17 for removal of sludge and a discharge pipe 18 for removal of the cleaned brine are attached to it. A cone 19 is installed above the opening of the partition 3 with a certain gap.

A device for the purification of industrial wastewater works as follows.

Tuzluk through the pressure pipe 5 enters the spherical ring 6 aerating device. Spreading in a thin layer along the newness of ring 6, the ash flows down the perforated cone 8, and through the perforation the liquid enters the spherical ring 7, from where it falls onto the partition 2 through the airspace, and again aerator. Coarse floating suspensions (for example, pieces of fat) flow along the wall of the cluster 8 to the cone 19 and further along the partition 3 into the pipe 17 for removal of the sludge and are transported for recycling. The cleared toze from the sub-wall 2 flows into the tray 9 of natural sludge with a slight gradient of 0.003, the separator 10 of the baton passes, in front of the partition 11 of which floating suspensions are separated, and heavy particles are deposited on the bottom. From the separator 10, the pulley over tray 9 is drained into the pallet 15.

Through the water distributor 12, the pump 13 with the intake pipe 14 delivers the pulp under a pressure of 3-6 kg / cm from the pallet 15 to the pressure chamber, where it is saturated with air supplied to the water distributor. A pressurized air enlarged pump is injected through the nozzle 16 into the flotation cell. The water-air mixture at high speed hits the wall of housing I. The stream of the litter ejected through the nozzle interacts with the reflected jet from housing 1. In this case, large gas bubbles break up into small ones, which promotes foaming and efficient separation. Within 12-15 minutes, fat, proteins and other suspensions are emulsified and float to the top in the form of foam, overflow through an opening in the partition 3, settle on its surface and drain through pipe 17.

5 The cleaned toe is retracted through the discharge pipe 18. The dividers 10 can stand on the first three and last turns of the tray 9. As a result of the presence of three hundred

10, the aeration system, the flotation cell and the developed surface of the horizontal sludge-spiral tray with separators increase the cleaning efficiency by 1.5 times, shorten the water treatment cycle by 8 times, decrease the intensity of the known devices by 1.5-3 times and occupy a useful area of 2-4 times. Also, the device allows creating closed reuse systems for the conservation of salt solutions, such as brine.

Claims (2)

Invention Formula 5 1. A device for the purification of industrial wastewater, made in the form of a cylindrical enclosure with conical partitions dividing it into pressure, flotation, and sludge 0 chambers, a spiral-shaped tray placed on the outer surface of the housing, a discharge pipe for supplying the treated water and a section for separating separate phases, characterized in that, in order to achieve 5 cleaning efficiency by pre-aeration, it is equipped with an aeration unit having two spherical rings and a perforated cone , with the upper ring adjacent 0 to the output end of the discharge pipe, and 11 lower - to the outer surface of the perforated coius, the larger base of which is located above the upper spherical ring. five 2. A device according to claim 1, characterized in that it is equipped with a nozzle mounted on a conical partition placed between flotation and pressure chambers. 0Sources of information taken into account during the examination 1. USSR author's certificate 440344, cl. C 02 C 1/26, 1972. y / 9 U; i / r V eight / f xl- /} corner