RU7673U1 - SEWAGE TREATMENT DEVICE - Google Patents

Abstract

1. A device for wastewater treatment, comprising a housing divided by partitions into an aeration chamber, a stabilization chamber equipped with a separator of heavy impurities and connected through a flooded weir with an aeration chamber, and a settling chamber with a clarified water drainage tray, in the lower part of which there is a sludge collector, a pipeline supplying sludge to the aeration chamber and the slot connecting the settling chamber with the aeration chamber, aerators and pipelines for supplying waste water and removing a mixture of excess sludge and heavy impurities, characterized in that the stabilization chamber is equipped with a built-in mixing chamber with adjustable overflow and a flexible pipeline for the mixture of waste water and excess sludge connected to the separator of heavy impurities, the wastewater supply pipeline is connected to the mixing chamber, the aeration and stabilization chambers are equipped with a nozzle for immobilized microflora, the settling chambers in the upper part are equipped with thin-layer elements, and the aeration chamber is equipped with an excess sludge pipeline, to the mixing chamber. 2. The device according to claim 1, characterized in that the separator of heavy impurities is made of one or more pipes installed with an inclination towards the discharge of the mixture of excess or heavy impurities. The device according to claims 1 and 2, characterized in that the heavy impurity separator pipe is installed with the ability to change its angle of inclination to the horizontal within 30 - 75.

Description

a DEVICE for wastewater treatment. The useful model relates to the field of biological wastewater treatment, and specifically to wastewater treatment using combined devices, and can be used for treatment of domestic, agricultural and industrial wastewater. A device for wastewater treatment is not known, containing aeration, settling and stabilization chambers, aerators, weirs and pipelines for supplying wastewater and sludge. / Swiss Natent No. 453232, Cl. С02С 1 / 06.1968 /. The disadvantages of this device are the low degree of water purification and low productivity, due to the fact that heavy impurities of wastewater are deposited in the sump, clogging the channels for the passage of sludge, which leads to the need for periodic cleaning of the sumps. Closest to the technical nature of the proposed device is a water purifier containing aeration, settling and stabilization chambers, aerators, weirs, pipelines for supplying and discharging waste fluid and sludge, a piping for supplying sewage fluid is connected to the stabilization chamber, which is equipped with a separator of solid impurities and a flooded spillway with an aeration chamber, while the separator of heavy impurities in the stabilization chamber is made in the form of one or more pipes installed with an inclination towards the outlet of the sludge and them openings in the middle part with a flexible conduit connected to the sewage supply line, while the heavy impurity separator pipe is installed with the possibility of changing its angle of inclination to the horizontal within 30-75 MICH C02F 3/12 The disadvantages of this device are the low degree of purification and degree clarification of wastewater. The technical effect of using the proposed device is to increase the degree of purification and clarification of wastewater. The proposed device for wastewater treatment is shown in the drawing. The wastewater treatment device consists of a housing 1 divided by partitions into aeration chambers 2, stabilization 3 and settling 4. Aerators 5 are installed in the aeration chamber 2 and in the stabilization chamber 3. The stabilization chamber 3 is equipped with a built-in mixing chamber 6 with an overflow into the aeration chamber, a controlled shutter 7, and a flexible pipe for a mixture of wastewater and excess sludge 8 connected to a separator of heavy impurities 9, a pipe for removing a mixture of excess sludge and heavy impurities 10 and through a flooded spillway 11 is connected to the aeration chamber II 2. The separator of heavy impurities 9 is made of one or more pipes installed with a slope towards the outlet of the sludge with the possibility of changing the angle of their inclination to the horizontal within 30-75 using the drive 12. This is due to the fact that the pipeline mixture of wastewater and excess sludge 8 is made flexible, and the pipe of the separator of heavy impurities 9 at the upper end is fixed through an elastic cuff 13. Waste water supply pipe 14 is connected to the mixing chamber 6, the aeration chambers 2 and stabilization 3 are equipped with a nozzle for immobilized microflora 15, for example, with kapron ruffs. In the lower part of the settling chamber 4, there is a sludge collector 16 formed by the wall 17, a sludge supply pipe 18 into the aeration chamber 2 and a slot 19. connecting the aeration chamber 2 with the settling chamber 4. The settling chamber 4 with the clarified water discharge tray 20 is provided with thin-layer elements in the upper part 21, interconnected by plates 22, connected with a lever 23, and

the aeration chamber 2 is equipped with a pipeline of excess sludge 24, which is connected to the mixing chamber 6.

The device operates as follows.

Wastewater is fed through a pipeline 14 to a mixing chamber 6, where they are mixed with excess sludge fed through a pipeline of excess sludge 24 from an aeration chamber 2. A shutter 7 of a mixing chamber 6 allows you to adjust the ratio of wastewater and excess activated sludge supplied to the mixing chamber while ensuring the necessary contact time. From the mixing chamber 6, the mixture is fed through a flexible conduit 8 to the separator of heavy impurities 9, where due to the thin layer effect, fast separation of heavy impurities from wastewater occurs, after which the clarified water enters the aeration chamber 2 through the flooded spillway 11, and floating on the water surface substances are retained by the spillway, and then removed. Heavy impurities deposited from the lower end of the separator of heavy impurities 9 are picked up by the aerator 5 and sent to the side of the discharge pipe of the mixture of excess sludge and heavy impurities 10. The nozzle for immobilized microflora 15 of stabilization chamber 3 contributes to an increase in the total concentration of activated sludge, which improves the efficiency of stabilization of sludge , reducing the period of mineralization of sludge by 10-15%. A stabilized mixture of non-charcoal sludge and heavy impurities is removed through the pipeline 10 as necessary.

Air is supplied to the aeration chamber 2 through the aerator 5, while the clarified wastewater is treated with activated sludge. To intensify the work, the aeration chamber 2 is equipped with a nozzle for immobilized microflora 15, which allows to increase the dose of activated sludge and deepen the nitrification process. From the chamber 2 through the slot 19, wastewater mixed with sludge enters the chamber according to the principle of communicating vessels

sedimentation 4, where it is separated from the sludge and, passing through the thin-layer elements 21, is finally clarified and removed from the device through the collection tray 20.

Periodic regeneration of thin-layer elements 21, interconnected by plates 22, is carried out by driving a lever 23 connected with the plates 22. The sludge is accumulated in the sludge collector 16, from where it enters the aeration chamber 2 through the sludge supply pipe 18.

To change the degree of separation of heavy impurities, the drive 12 rotates the pipe 9, changing its angle of inclination. So, for example, to remove more viscous impurities, the angle of inclination is approached to the maximum and vice versa, with less viscous heavy impurities, the angle of inclination is reduced, which ensures their good separation and removal of heavy impurities from the separator 9.

Thus, the proposed device allows to increase the degree of wastewater treatment by 25%, and the degree of clarification by 10-15%.

Claims (3)

1. A device for wastewater treatment, comprising a housing divided by partitions into an aeration chamber, a stabilization chamber equipped with a separator of heavy impurities and connected through a flooded spillway with an aeration chamber, and a settling chamber with a clarified water drainage tray, in the lower part of which there is a sludge collector, a pipeline supply of sludge to the aeration chamber and a gap connecting the settling chamber to the aeration chamber, aerators and pipelines for supplying wastewater and removal of a mixture of excess sludge and heavy impurities, characterized in that the stabilization measure is equipped with a built-in mixing chamber with an adjustable overflow and a flexible pipeline of a mixture of wastewater and excess sludge connected to a separator of heavy impurities, the wastewater supply pipe is connected to the mixing chamber, the aeration and stabilization chambers are equipped with a nozzle for immobilized microflora, the settling chamber in the upper part is equipped thin-layer elements, and the aeration chamber is equipped with a pipeline of excess sludge, connected to the mixing chamber.  2. The device according to claim 1, characterized in that the separator of heavy impurities is made of one or more pipes installed with a slope in the direction of removal of the mixture of excess or heavy impurities. 3. The device according to claims 1 and 2, characterized in that the pipe of the separator of heavy impurities is installed with the possibility of changing the angle of its inclination to the horizontal within 30 - 75 ^o .