RU2769426C1 - Hydrocyclone aeration tank with aerobic stabilization of excess activated sludge - Google Patents

Abstract

FIELD: treatment facilities design.

SUBSTANCE: invention relates to the design of treatment facilities for complete biological treatment of wastewater from small settlements, namely to aeration plants with aerobic stabilization of excess activated sludge. The hydrocyclone aerotank contains a cylindrical tank with a conical bottom. The reservoir is divided by the first coaxial partition, reaching the bottom of the aeration tank, into an aeration chamber and an activated sludge regeneration chamber. Mechanical aerators are installed in the coaxial partition, in the upper parts of which there are inlets for wastewater, sludge mixture from the aeration chamber and activated sludge from the regeneration chamber. The inlets of the sludge mixture and activated sludge are equipped with control valves, kinematically connected to each other. In the lower part there are outlets of the sludge mixture to the lower part of the aeration chamber. A second coaxial partition is installed in the regeneration chamber, reaching the bottom of the aeration tank, forming with the first partition a regeneration chamber for activated sludge and a chamber for stabilizing excess activated sludge. In the second coaxial partition there are mechanical aerators, in the upper parts of which there are inlets of activated sludge from the regeneration zone and stabilized sludge from the stabilization chamber. Active sludge and stabilized sludge inlets are equipped with control valves, kinematically connected to each other. In the lower part there are propellers with outlets of the sludge mixture tangentially to the lower part of the regeneration chamber. A cylindrical partition is installed in the activated sludge stabilization chamber, reaching the bottom of the aeration tank and forming a settling chamber with a central collecting funnel of treated water. The settling chamber is closed from above with a removable cover with bactericidal lamps installed on it. The upper edges of the first and second coaxial partitions are equipped with toothed weirs. The lower edges of the coaxial partitions and the cylindrical partitions resting on the bottom of the aeration tank are equipped with circulation slots.

EFFECT: increasing the oxidizing power of the aeration tank, providing a full cleaning cycle with the discharge of treated water into the reservoir without additional treatment.

1 cl, 1 dwg

Description

The invention relates to the design of treatment facilities for complete biological wastewater treatment of small towns, namely aeration plants with aerobic stabilization of excess activated sludge [1] pp. 46-47.

Known hydrocyclone aerotank-displacer and aeration device [2], containing a cylindrical tank, divided by a coaxial partition reaching the bottom of the aerotank into the aeration chamber and the activated sludge settling chamber, in the coaxial partition, mechanical aerators with vertical circulation pipes are installed, in the upper parts of which there are supplies sewage, sludge mixture from the aeration chamber and activated sludge from the stabilization chamber, the sludge mixture and activated sludge inlets are equipped with control dampers kinematically connected to each other, and in the lower part of the circulation pipes there are propellers with sludge mixture outlets tangentially to the bottom of the aeration chamber.

The prototype of the claimed device is [2].

The disadvantages of the prototype [2].

1. The volume of the settling chamber 10 is used irrationally, it could be used as an activated sludge regeneration chamber, with the supply of activated sludge from it to the aerator and further to the intensive aeration chamber 9, while the dose of activated sludge in the intensive aeration chamber 9 will increase. In addition, it is irrational to supply activated sludge from the stabilization chamber 3 directly to the aerator 11, bypassing the stage of its regeneration.

2. Purified and clarified waters do not undergo disinfection in this device, which will lead to the risk of contamination of the reservoir when treated wastewater is discharged into it.

The purpose of the invention.

1. Increase in the oxidizing capacity of the aerotank.

2. Disinfection of purified and clarified waters in order to create a complete purification cycle in one device with the discharge of purified water into a reservoir without additional treatment [1] p. 28.

The goal is achieved as follows: in the regeneration chamber, a second coaxial partition is installed reaching the bottom of the aeration tank, forming an activated sludge regeneration chamber, in the second coaxial partition, mechanical aerators are installed in the upper parts of which there are supplies of activated sludge from the regeneration zone and stabilized sludge from the stabilization chamber, supplies of activated sludge and stabilized sludge are equipped with control dampers kinematically connected to each other, and in the lower part there are propellers with sludge mixture outlets tangentially to the lower part of the regeneration chamber, and a cylindrical partition is installed in the activated sludge stabilization chamber, reaching the bottom of the aerotank and forming a settling chamber with a central collection funnel of purified water, while the settling chamber is closed on top with a removable cover with bactericidal lamps installed on it, while the upper edges of the first and second coaxial partitions are equipped with jagged weirs, and the lower edges The cavities of the coaxial baffles and the cylindrical baffle resting on the bottom of the aerotank are provided with circulation slots.

An increase in the oxidative power of the aeration tank is achieved by increasing the dose of activated sludge in the intensive aeration chamber by transferring activated sludge from the regeneration chamber into it, while mechanical aerators installed in coaxial partitions create a powerful bottom jet in the aeration chamber and the regeneration chamber, which maintains the activated sludge in suspension , preventing the precipitation of activated sludge, while periodically aerating it when it passes through the supply of mechanical aerators.

Disinfection of purified and clarified waters is achieved by installing a cylindrical partition in the stabilization chamber that reaches the bottom of the aerotank and forms a settling chamber with a central collection funnel of treated waters, while the settling chamber is closed from above with a removable cover with bactericidal lamps installed on it.

The proposed device is illustrated in the drawing.

The graphic image consists of one figure Figure 1 "Hydrocyclone aeration tank with aerobic stabilization of excess activated sludge".

A hydrocyclone aeration tank with aerobic stabilization of excess activated sludge contains a cylindrical tank with a conical bottom 1 in which a coaxial partition 2 is installed reaching the bottom of the aeration tank and dividing the aeration tank 1 into an aeration chamber 3 and an activated sludge regeneration chamber 4. In the coaxial partition 2, mechanical aerators 5 are installed with sewage inlets 6, inlet 7 of the sludge mixture from the aeration chamber 3 and activated sludge 8 from the regeneration chamber 4, inlets 7 and 8 are equipped with control dampers 9 kinematically connected to each other, mechanical aerators 5 are equipped with outlets 10 sludge mixture into the lower part of the aeration chamber 3.

In the regeneration chamber 4, a coaxial partition 11 is installed, reaching the bottom of the aeration tank 1, forming an activated sludge stabilization chamber 12, mechanical aerators 13 are installed in the coaxial partition 11 with inlets 14 - activated sludge from the regeneration chamber 4 and inlet 15 of stabilized sludge from the stabilization chamber 12, inlets 14 and 15 are equipped with control dampers 16 kinematically interconnected (when the inlet 14 is open, the inlet 15 is closed and vice versa), mechanical aerators 13 are equipped with outlets 17 of the sludge mixture to the lower part of the regeneration chamber 4. A cylindrical partition 18 is installed in the stabilization chamber 12 of the activated sludge. to the bottom of the aeration tank 1, forming a settling chamber 19 with a central collection funnel 20 of purified water, bactericidal lamps 22 are installed above the funnel 20 on a removable cover 21. A breathing pipe 23 is installed on the cover 21, which compares the air pressure in the chamber 19 with atmospheric pressure, the upper edges of the partitions 2 and 11 equipped jagged weirs 24, and the lower edges of the coaxial partitions 2, 11 and partitions 20 are provided with circulation slots 25, a pipe 26 is installed in the settling chamber 19 to remove stabilized sludge and precipitation from the device.

In the wastewater treatment mode, the device operates as follows.

Aerators 5, 13 are turned on, while the liquid level in the suction pipes of the aerators drops by 0.8-1.0 m. And under the action of a hydrostatic pressure drop, wastewater from the supply 6, sludge mixture from the aeration chamber pass into the aerators 5, mixing with each other 3 through inlet 7, - through inlet 8 activated sludge from the regeneration chamber 4. Further, the sludge mixture is ejected by aerators 5 through outlet 10 into the lower part of the aeration chamber 3, from where it moves in a spiral around the coaxial partition 2 to inlet 7, the other part of the sludge mixture continues to move up , filtering through the thickness of activated sludge, overflows through the jagged weirs 24 of the partition 2, enters the regeneration chamber 4, where it discharges pollution, acquiring activity (regenerates) and through the supply 8 again enters the aerator 5, and from it into the aeration chamber 3. At the same time part of the activated sludge from the regeneration chamber 4 overflows through the jagged weirs 24 of the partition Pi enters the stabilization chamber 12, where, passing through the thickness of the stub sludge, stabilizes and enters through the circulation slots 25 into the settling chamber 19, rising up, purified and clarified (in the settling chamber) water is collected by the central collection funnel 20, disinfected with bactericidal lamps 22 and removed from the device, the other part of the activated sludge from the regeneration chamber 4 through the inlet 14 enters the aerators 13, continues regeneration and is ejected through the outlet 17 into the lower part of the regeneration chamber 4, while increasing the dose of activated sludge in the regeneration chamber 4.

In the activated sludge stabilization mode, the device operates as follows.

When the aerators 13 are in operation (inlet 14 is closed by a damper 16), and the inlet 15 is opened by a damper 16, the aerators 13 pump activated sludge through themselves from the stabilization chamber 12, aerate it until mineralization and throw it through the outlet 17 into the lower part of the regeneration chamber 4. Mode stabilization of activated sludge is carried out periodically by maintaining activated and stabilized sludge in the chamber 12 in a suspended state.

Literature.

1. E.S. Razumovsky, G.L. Medrish, V.A. Kazarian. "Purification and disinfection of wastewater from small settlements", M. "Stroyizdat", 1986

2. RU 2046765 dated April 17, 1992.

Claims (1)

Hydrocyclone aerotank with aerobic stabilization of excess activated sludge, containing a cylindrical tank with a conical bottom, divided by the first coaxial partition, reaching the bottom of the aerotank, into an aeration chamber and an activated sludge regeneration chamber, mechanical aerators are installed in the coaxial partition, in the upper parts of which there are sewage inlets , sludge mixture from the aeration chamber and activated sludge from the regeneration chamber, the inlets of the sludge mixture and activated sludge are equipped with control dampers, kinematically connected to each other, and in the lower part there are outlets of the sludge mixture to the lower part of the aeration chamber, characterized in that a the second coaxial baffle reaching the bottom of the aerotank, forming with the first baffle an activated sludge regeneration chamber and an excess activated sludge stabilization chamber, mechanical aerators are installed in the second coaxial baffle, in the upper parts of which there are regeneration and stabilized sludge from the stabilization chamber, the inlets of activated sludge and stabilized sludge are equipped with control valves, kinematically connected to each other, and in the lower part there are propellers with sludge mixture outlets tangentially to the lower part of the regeneration chamber, and in the activated sludge stabilization chamber there is a cylindrical a partition that reaches the bottom of the aeration tank and forms a settling chamber with a central collection funnel of treated water, while the settling chamber is closed from above with a removable cover with bactericidal lamps installed on it, while the upper edges of the first and second coaxial partitions are equipped with jagged weirs, and the lower edges of the coaxial partitions and a cylindrical partition, resting on the bottom of the aerotank, are provided with circulation slots.

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