SU977403A1 - Apparatus for biochemical purification of effluents - Google Patents

Description

(54) INSTALLATION FOR BIOCHEMICAL CLEANING OF WASTE

WATER

The invention relates to compact installations intended for the complete biochemical treatment of highly concentrated industrial wastewater containing fats, emulsified, colloidal and dissolved organic pollutants, suspended solids, and can be applied to the treatment of wastewater from industrial plants.

A plant for biochemical wastewater treatment is known using an activated sludge recovery process, which is a circular tank with a central i arrangement of the settling zone. The peripheral aeration zone is divided into three sectors: the aeration tank itself, the activated sludge regenerator, and the excess activated sludge aerobic mineralizer 1.

  However, the device has insufficient performance. Due to the short period of aeration of waste water in the aeration tank itself, as a result, a significant part of the contamination remains unrecovered from the waste water. In addition, the installation is equipped with a pneumatic aeration system, which

requires an auxiliary building (blower station), which increases its cost.

The purpose of the invention is to increase the efficiency of purification of highly concentrated wastewater from insoluble and soluble organic impurities while reducing the volume of the facility.

ten

The goal is achieved by the fact that the installation includes an aeration tank, a secondary settling tank, an activated sludge regenerator, an aerobic stabilizer of excess activated sludge and a system

15 of aeration, equipped with a second stage aerotank with a tertiary settling tank built into it, connected to the first stage aero tank and a secondary settling tank, a final settling tank,

Claims (1)

20 connected to a second stage aerotank and activated sludge regenerator, fermented sludge sealer connected to an excess active sludge stabilizer, and the aeration system in the first and second stage aeration tanks, active sludge regenerator and aerobic excess active sludge stabilizer are made of mechanical propeller aeres30. tori. FIG. 1 shows the proposed installation, plan view; in fig. 2 -; section A-A in FIG. one; in fig. J section B.-B in FIG. 1. The device consists of aerotank 1 of the first stage, aerotank 2 of the second stage, regenerator 3 of activated sludge, secondary clarifier 4, tertiary clarifier 5, final clarifier b, aerobic stabilizer 7 of excess activated sludge, seal 8 of fermented sludge. For aeration, wastewater, the plant is equipped with a mechanical propeller aerator & 9 installed in aerotanks of the first and second stage, activated sludge regenerator 3, aerobic stabilizer 7 of excess activated sludge. The initial wastewater is supplied to the air tank 1 of the first stage in the chute 10. The sludge mixture is fed into the secondary settling tank 4 through pipe 11. The regenerated activated sludge is fed into the collecting tray of the secondary settling tank 4 via pipe 12. The pipe 13 is provided for supply . of the sludge mixture to the tertiary sludge, oenik 5. In the secondary settling tank 4, the throughput ports 14 are made to remove active sludge from the secondary settling tank 4 to the regenerator 3, and the ilopropholes 15 are used in the tertiary disposal unit 5 - to divert excess active Horo silt 7. Pipeline 16 serves to feed active sludge from a tertiary-sump 5 to the first stage aere, pipe 17 to remove excess active sludge from the final sump to stabilizer 7, and pipe 18 to supply the sludge mixture to the second stage aeration tank 2. To feed the fermented sludge into the compactor 8 device. supplied with pipeline 19. Tray 20 serves to distribute the fermented sludge in the seal 8. The working body of the mechanical propeller aerator 9 is the propeller 21. Tray 22 serves to distribute the sludge mixture in the secondary clarifier 4, and tray 23 to collect the clarified water in the secondary clarifier, tray 24 - to distribute the sludge mixture in the tertiary settling tank 5, tray 25 - to collect clarified water in the tertiary settling tank 5. Pipeline 26 serves to drain the clarified water with a condenser 8 to the final settling tank ... 6. For the finally clarified water boron, a tray 27 is provided. Pipe 28 serves to supply water clarified in the tertiary sump 5 to the final |; sump 6. Tray 29 serves to collect the clarified water in the seal 8, and tray 30 to distribute water in the final sump 6 Silt throughput windows 31 are provided for draining activated sludge from the tertiary clarifier 5, ilopropuschnye 32 windows - for draining excess activated sludge from the final clarifier. For removal of the fermented compacted sludge from the seal 8, a waste hole 33 is provided. The device operates as follows. The initial wastewater through tray 10 (Fig. 3) enters the aeration tank 1 of the first stage, where it is aerated in a mixture with active sludge entering through conduit 16 from a tertiary settling tank 5. In the proposed device, mechanical propeller self-priming aerators are used 9 (figure 2). Due to the pressure developed by the screw 21 of the aerator, the ooze mixture is supplied to the distribution tray 22 of the secondary settling tank 4. The use of mechanical propeller aerators allows to set the level of the liquid layer in the SECONDARY 4, the tertiary 5 sedimentation tanks and the sealer 8 sludge above the liquid level aeration tanks of the first and second stages, regenerator 3 of activated sludge, final settling tank b and aerobic stabilizer 7 of excess activated sludge for an amount sufficient for self-tapping / one hundred water and activated sludge. Such an arrangement of the liquid levels is achieved by using the head developed by the screw 21 when the aerator 9 is rotated, and the silt mixture pumped through the pipeline 11 rises to a height sufficient for the clarified water in the secondary clarifier 4 to flow by gravity into the aeration tank 2 of the second stage , and activated sludge through the throughflow ports 14 entered the regenerator 3 of activated sludge. Thus, there is no need for a separate pumping station for circulating activated sludge or airlifts for pumping sludge. The circulation of activated sludge in the proposed device is carried out due to hydrostatic pressure. The water that is clarified in the secondary settling tank 4 is in the collecting tray 23. Regenerated activated sludge is fed into the collection tray 23 of the secondary settling tank 4. The silt mixture from the collecting tray 23 passes through the pipeline 18 to the aeration tank 2 of the second stage. A mixture of the second stage aerotank 2 is fed through the injection pipe 13 into the distribution tray 24 of the tertiary settling tank 5. Clarified in the tertiary settling tank 5, the water enters the collection tray 25 and then through the pipeline 28 is fed into the distribution tray 30 of the final settling tank 6. Clarified in the final discharge In this case, the water enters the collection tray 27 and is discharged from the installation. The active sludge from the SUCTION zone of the tertiary settling tank 5 through the flow ports 31 through the pipeline 16 is fed to the aeration tank 1 of the first stage. A portion of the activated sludge (excess sludge) is discharged from the tertiary settling tank 5 into the aerobic sabilizer 7 of the excess activated sludge through the flow ports 15. The sediment from the final settling tank 6 under hydrostatic pressure through the flow ports 32 through the pipeline 17 enters the aerobic stabilizer 7. Stabilized (fermented) sludge under the injection pipeline 19 is fed into the distribution tray 20 of the compactor 8 fermented sludge. Compacted sludge through the waste hole 33 is discharged from the bottom of the seal .8 for further processing. The water clarified in the seal 8 enters the collecting tray 29 and then via pipe 26 enters the distribution tray 30 of the final sedimentation tank 6. The use of the proposed device for sewage treatment of meat industry makes it possible to increase the efficiency from the source according to BODC up to 99% weighted 96% CS air .- In addition, the use of the proposed device will make it possible to refuse an auxiliary tribute - a blower station, and to reduce the area to them by 8%. An apparatus for biochemical treatment of wastewater, including an aeration tank, a secondary settling tank, an activated sludge regenerator, an aerobic stabilizer for excess activated sludge, and an aeration system for the installation, characterized in that, in order to improve the efficiency of wastewater treatment from insoluble and soluble impurities while reducing the volume of the structure, it is equipped with a second stage aerotank: e a tertiary settling tank built into it, connected to the first stage aerotank and the secondary STAINTER, A SUSTAINED SUSPENDANT connected to the stabilizer of surplus active sludge, a sealer of fermented sludge connected by a stabilizer of excess active sludge, and a system in the first and second stage aeration tanks, an activated sludge regenerator and an aerobic stabilizer; excess activated sludge is made in. as a mechanical propeller aerators. Information sources, . taken into account in the examination. 1. Karelin Ya.A., Zhukoz D.L. and other sewage treatment plants in Western Europe. M., stroiizdat, 1977, p. 148. R .-J ./