SU1328313A1 - Station for biological treatment of waste water - Google Patents

Abstract

The invention relates to the treatment of wastewater using aerobic activated sludge and pneumatic aeration and improves the performance and reduces the energy intensity of the station for biochemical wastewater treatment. The station contains aeration tanks (PA) 1 and 2, clarification tank (PO) 3, sterilizer 4, after-treatment filter 5 and technological equipment block 6 installed on the common fundamental plate / bottom 7. The RO 3 is installed with a watertight longitudinal partition 13 separating PO 3 to the camera of the weighted filter 14, the chamber of compaction of the activated sludge 15 and the zone of gravitational clarification 16. The filter after cleaning 5 is equipped with means of regeneration. filter loading radios. The original wastewater enters the distribution tray 17, where it is mixed with circulating activated sludge. From RA 1, the resulting mixture from the silt enters the chamber of the weighed filter 14, moves to the catchment tray 27, the biochemically purified and clarified liquid flows to the tray 27 for treatment in the sterilizer 4 and the after-treatment filter 5. BA 2 performs mineralization of unstable organic contaminants after separating them from the water with aerobic sludge. Compressed air is supplied to the aerators 28. A portion of the biomass of stabilized activated sludge from tray 29 is supplied with airlift 30 to tray 17 of the RA 1. 2 Cp. f-ly, 5 ill. (C (L with vche 00 with with-50

Description

The invention relates to wastewater treatment using aerobic activated sludge and pneumatic aeration, in particular to a combined type wastewater treatment plant, preferably working by the method of contact stabilization.

The purpose of the invention is to increase the productivity and reduce the energy intensity of a biochemical wastewater treatment plant.

Fig. 1 shows a flow chart of a biochemical wastewater treatment plant; FIG. 2 is a station, a plan view; in fig. 3 shows section A-A in FIG. 2; in fig. 4 shows a section BB in FIG. 2; in fig. 5 shows a section B-B in FIG. 2

The biochemical cleaning station contains tanks 1 and 2 for aeration, tank 3 for clarification, sterilizer 4, filter 5 for purification and unit 6 for technological and energy-power equipment installed on a common base plate bottom 7. Reservoirs 1 and 2 for aeration are formed by bottom 7 and side walls 8 and 9, with end walls 10 and two U-shaped inner walls 11 and 12 not reaching the bottom, between which a lightening tank 3 is formed, divided by a waterproof partition 13 into a weighted filter chamber 14, chambers

15 activated sludge compaction and zone

16 Gravitational Clarification. Tank 1 aeration performing

the function of the contact tank has a distribution tray 17 with water outlets along the length of the tray and a pipeline 18, which is an input unit for the initial waste liquid, as well as an aerator 19 for supplying compressed air and a pipeline 20 for circulating activated sludge. The aeration tank 1 through the slit channel 21 between the bottom 7 and the diverting peak 22 of the inclined partition 11 communicates with the chamber 14 of the weighted filter. The internal volume of the chamber of the weighted filter is divided along the length by shaped plates 23 having a cross-sectional configuration of the chamber, forming separate compartments 24 of variable vertical section. The chamber 15 of compaction of activated sludge is hydraulically communicated in turn through a slot-hole channel 25 between the pilot tube

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The eye 26 of the inclined partition 12 and the bottom 7 with an aeration tank that performs the function of a stabilization tank,

In the clarification tank 3, a catchment tray 27 is mounted, and the aeration tank 2 is equipped with an aerator 28 for supplying compressed air, a collection tray 29 for circulating activated sludge and an airlift 30 of the system and for recycling activated sludge. Air lift 30 is connected by pipeline 31 to a tray 29 having holes along the length of the tray. Behind the aeration and clarification tanks are placed the sterilizer 4 and the after-treatment filter 5, which all together close the hydraulic volume bounded by the front end wall 10, the side walls 8 and 9 and the rear end wall 32, Between the sterilizer and the after-treatment filter are distributed by the overflow partition 33, and the end partition 34 separates them from the aeration and clarification tanks. The station 6 is completed by the process and power equipment Ovan, formed by walls 8,9, 32 and 35, 36. From within the volume of the block is divided by a partition 37.

Sterilizer 4 is a closed rectangular tank equipped with a compressed air supply system consisting of an aerator 38 and a vertical duct 39. The upper edge of the partition 33 serves as a weir to supply biologically purified waste liquid from the sterilizer to the after-treatment filter 5. The biologically purified effluent enters the sterilizer through conduit 40, and the chlorine-agent enters through conduit 41.

In the after-treatment filter, horizontal gratings 42 and 43 are installed, between which a granular filtering load 44 is placed, which is a material with a specific weight of less than 1 ton / m, for example polystyrene. To ensure the flotation of the liquid in the above-filter volume, a vertical air duct 45 is installed here with an aerator 46. To remove the filtrate, a pipe 47 mounted in the filter-bottom volume, a filtrate drain pipe 48, a dirty water removal pipe 49, are provided.

In block 6 of the technological and power equipment, a compressor 50, a pump 51 and an installation are installed.

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52 for the preparation of chlorine agent. The compressor 50 through line 53, valves 54 and 55 and vertical ducts 56 and 57 are connected to aerators 19 and 28 of the aeration tanks, and through valves 58 and 59 to air pipes 39 and 45 and aerators 38 and 46 of the sterilizer and after-treatment filter, respectively. Air-lift 30 is connected to line 53 through valve 60 and pipeline 61. Pump 51 through valve 62 and pipeline 63 is connected by a tray 17, and through valve 64 and pipe 49 to the filter volume of the after-treatment filter, valves 65 66 are mounted in the filtrate removal line and Chloe agent supply line 41 - valve 67,

Station biochemical wastewater treatment works as follows.

The original waste liquid enters the aeration tank 1 from the pipeline 18 through the water distribution tray 17, where it is mixed with circulators with active sludge fed into this tray from the aeration tank 2 using airlift 30 and pipelines 57 and 20,

The mixture of the initial waste liquid and circulating activated sludge is poured through the drainage holes of the tray 17 and enters the volume of aerated biomass of the aeration tank 1, where the waste liquid is briefly contacted with the biomass under conditions of intensive mixing of compressed air by aeration flowing through the main 53 and vertical air duct 56 to the aerator 19. As a result, the first stage of biochemical purification, namely the removal of contaminants from wastewater by active sludge, is implemented.

From the aeration tank 1, the mixture formed from the silt through the longitudinal slotted channel 21 enters the chamber 14 of the weighted filter of the clarification tank. Since the liquid level in the clarification tank 3 (level D) is lower than the liquid level in the aeration tank 1 (level D), the water moves in an upward flow due to the difference in levels to the catchment tray 27, which is clarified by filtering through the layer of the weighted filter chamber 14. The liquid level in the tray (level E) is lower.

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liquid level in the tank 3 clarification. The biochemically purified and clarified liquid is discharged through the tray 27 for processing in subsequent purification steps.

The activated sludge separated from the clarified liquid with contaminants removed from the wastewater (part of the weighted filter and active sludge trapped in the gravitational clarification chamber) forcibly enters the circulation activated sludge chamber 15 and forcibly moves downwardly into the aeration tank 2, compacted After passing through the longitudinal channel 25, the forced movement of the circulating active sludge is carried out due to the difference in the level of the fluid (G and G), resulting from the pumping of fluid by the airlift 30 from the cut rvuara reservoir tray 2 on January 17,

In the volume of aeration tank 2, the second stage of biochemical purification is carried out - mineralization of the withdrawn unstable ingredients of organic pollutants, after their separation from water by aerobic active sludge with their partial synthesis in the substance of microorganism cells under conditions of intensive mixing of the entire volume of biomass with compressed air. through the main 5 duct 53 and vertical pipelines 57 to the aerators 28. Part of the biomass of stabilized activated sludge of high concentrations and oxidizing ability p Forcefully due to the difference in the levels of liquid in tank 2 and tray 29, it is poured into the tray through holes provided in it (not shown), from where the airlift 30 through pipelines 31.61.20 of circulating active sludge is fed to tray 17 of aeration tank 1, where with the initial waste liquid, it comes into short-term contact with the latter to implement the described stage of removal of organic contaminants.

The biochemically purified and clarified water through tray 27 and conduit 40 enters the sterilizer 4. This flow is forced by the fluid levels in the clarification tanks and the sterilizer. In the tank of sterilizer 4 cleaned and clarified waste liquid 0

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These types increase station productivity due to a sharp increase in the concentration and oxidative capacity of biomass, reduce the power consumption and material consumption of the station, the cost of construction and installation of equipment. A recirculation scheme for activated sludge with forced up-down flow due to a change in fluid levels in individual station blocks eliminates the need for special pumping or airlift equipment.

the bone is disinfected with the chlorine agent supplied through the pipeline 41 with the valve 67 from the installation 52 located in the power and process equipment 5 (Fig. 5). In order to increase the efficiency of disinfection in the sterilizer, sparging with compressed air from compressor 50 via line 53 and pipeline 39 to aerator 38, is provided.

From the sterilizer 4 biochemically purified, clarified and sterilized water flows through the overflow partition 33 into the reservoir of the filter 15 After-treatment Formula 5, where it is clarified by bubbling flotation in the superfilter volume and filtered through the granular filter loading 44 Bubbling flotation is compressed air from compressor 50 through pipelines 53 and 45 to aerator 46 located below the liquid level in the filter volume. The liquid level in the indicated 25 energy intensity reduction, the reservoir volume is regulated by throttling the clarification provided with a longitudinal water valve installed on a pipe-permeable partition, installed 48 in the lower part and no income. The filtrate enters the perforation to the upper edge, section tubing 47 and 30 for the clarification tank to the weighing chamber or to discharge the filter and the seal chamber into the reservoir through pipeline 48, Slid-activated sludge, while The ekki 65 and 66 are open at the same time, and the rear filter is connected to tank 62 and 64 closed with aeration, which is connected to the filter waste loading 35 of the input waste liquid, 44, i.e. removal of delayed contamination; the sludge compaction chamber is in communication with the plants, performed by flushing with an over-the-top aeration tank, which

It is equipped with a means for transferring active sludge to the first aeration tank.

2. The station according to claim 1, characterized in that it is additionally equipped with aeration and injection equipment installed in common with the tanks.

1, Biological wastewater treatment plant, containing aeration tanks and a clarification tank, made on a common base plate-bottom, and input units for the initial waste liquid and drainage of purified water, characterized in that, in order to increase productivity and

filter water from top to bottom with intensive pumping of liquid from the sub-filter volume by pump 51, located in block 6 of power and process equipment. When turning on the pump 51 and opening the valves 64 and 62 with the valves closed

65 and 66 water intensively pumps -45 the venting of the fundamental plate-days through the suction line 49 and the shu by the sterilizer, the process unit is fed through line 63 to the main equipment and the filter to the fraction of the facilities, i.e., the tray 17 and tank 1 where again begins its

cleaning up.

cleaning cycle. It is possible to supply dirty wash water to a tank of dirty water (not shown),

The proposed hydraulics circulation of activated sludge, the implementation of all elements of the station in a single unit and the implementation of the process of contact stabilization in the construction of a combined

These types increase station productivity due to a sharp increase in the concentration and oxidative capacity of biomass, reduce the power consumption and material consumption of the station, the cost of construction and installation of equipment. A recirculation scheme for activated sludge with forced up-down flow due to a change in fluid levels in individual station blocks eliminates the need for special pumping or airlift equipment.

The formula for reducing energy consumption, the clarification tank is provided with a longitudinal watertight partition installed in its lower part and no capacity income, the reservoir of the women with a longitudinal water wall, the installed part and not the income of the invention

The formula for reducing energy intensity, the clarification tank is provided with a longitudinal water-tight partition installed in its lower part and not income 1, Biological sewage treatment plant containing aeration tanks and the clarification tank made on a common base plate-bottom, and nodes introducing the original waste liquid and discharging purified water, characterized in that, in order to increase productivity and

vetting sterile sterile

cleaning up.

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3, Station Pop, 2, characterized in that the after-treatment filter is made with a loading load and is provided with means for regenerating the filter loading installed 55 under the filter loading and also an aerator for flotation installed above it.

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Claims (3)

Claim 1. Biological wastewater treatment plant, containing aeration tanks and a clarification tank, made on a common base plate-bottom, and nodes for the input of the initial wastewater and drainage of treated water, characterized in that, in order to increase productivity and reduce energy consumption, the clarification tank is equipped with a longitudinal waterproof partition installed in its lower part and not reaching the upper edge, dividing the clarification tank into a suspended filter chamber and an activated sludge compaction chamber, The suspended filter chamber is in communication with the aeration tank, which is connected to the input unit for the initial waste fluid, and the sludge compaction chamber is connected with another aeration tank, which is equipped with means for pumping activated sludge to the first aeration tank. 2. Station pop. 1, characterized in that it is additionally equipped with a sterilizer, a process equipment unit and a post-treatment filter, mounted on a common bottom-plate with aeration and clarification tanks. 3. Station pop. 2, characterized in that the post-treatment filter is made with a vilt loading and is equipped with filter loading regeneration means installed under the filter loading, as well as a flotation aerator installed above it. FIG. g Z1 25. Wed U2.3 FIG. 5