RU38755U1 - BIOLOGICAL WASTE WATER TREATMENT PLANT - Google Patents

Abstract

The utility model relates to installations for biological wastewater treatment, combining aeration and sedimentation processes.

A known installation for biological wastewater treatment consisting of a housing with a lid and a piping for supplying treated wastewater, a riser for discharge of sludge, a congruent housing of a sump, a central aeration chamber with an airlift aerator in a guide tube, a coaxial housing; the bottom end of the guide pipe is located at the bottom of the sump, the aerator diffuser is located at the bottom of the guide pipe, and the purified water discharge pipe is located at the top of the sump. The disadvantages of the installation are: low efficiency and reliability and complexity of the design.

A biological wastewater treatment plant comprising a housing with an aeration chamber, a sump and an airlift aerator, pipelines for supplying purified water, drainage of clarified water and sludge, equipped with a central deaeration chamber located in the upper part of the housing, inside a sump, with a vertical pipe for drainage of deaerated water, with its upper end attached to the bottom of the deaeration chamber, the lower end of the pipe is installed with a gap relative to the bottom of the installation body, below the lower end of the airlift aerator, upper omeschen in deaeration chamber above the water level and provided with reflectors, the bottom - is sunk to the bottom of the unit casing; a pipeline for supplying purified water is located at the bottom of the housing.

The installation can be additionally equipped with: vertical plates to calm the flow, placed under the sump;

several deaeration chambers equipped with one or more vertical pipes for discharging deaerated water; several airlift aerators; pneumatic disk aerators placed in the aeration chamber.

Description

The utility model relates to the field of biological wastewater treatment and can be used to purify natural waters and other liquids, in particular, to biological treatment plants, which combine aeration and sedimentation processes.

A known installation for biological wastewater treatment, consisting of a cylindrical-conical body, a clarifier placed in it with an integrated central flocculation chamber, and a septic tank located under the clarifier and communicated with the last slots to remove sludge, made in the congruent bottom of the installation, the clarifier bottom; the installation is equipped with a tray placed above the installation casing for supplying the source water, a perforated pipe for discharging purified water in the upper part of the installation casing, coaxial to the installation casing with an ejector connected to the water supply chute placed in the central chamber and providing air ejection for oxidation of organic substances, and a pipeline for removing sediment from a septic tank, (see ed. certificate of the USSR No. 1564121, IPC C 02 F 1/52, priority 12.04.88, publ. 05.15.90).

A disadvantage of the known installation is its complexity, due to the presence of an integrated central chamber, and the complex configuration of the clarifier with slots in the bottom.

A compact installation for biological wastewater treatment is known, consisting of a housing with a central bunk sump located in it, equipped with a precipitation trench, in the conical part of which a hole is provided. Coaxial with respect to the bunk sump, a bioreactor with loading and aerating device and a secondary sump with a highly porous filter are placed outside; the bioreactor can be made in the form of a recirculation oxidizing channel, and the recirculation system and

aeration is made in the form of a submersible pump with an ejector (see patent RU No. 2182133, IPC C 02 F 3/02, priority 02.03.99, publ. 10.05.2002).

A disadvantage of the known installation is the complexity of the design, combining several different purpose structures (a two-tier sedimentation tank with a precipitation trench, a bioreactor with a loading and an aeration device, a secondary sedimentation tank with a highly porous filter), the complexity of controlling the cleaning processes associated with this.

A known installation for biological wastewater treatment "ECO-M", the closest in purpose and technical nature to the claimed, consisting of a cylindrical conical body with a cover in the form of a return cone and with a pipeline for supplying treated wastewater in the upper part of the housing, congruent casing of the sump with a ring a spillway, made around the circumference inside the sump, below the pipeline for supplying treated wastewater, a central aeration chamber with an airlift aerator installed in the guide pipe, to the coaxial body; the lower end of the guide pipe is located at the bottom of the sump, the aerator diffuser is located at the lower end of the guide pipe, and the pipe for discharging purified water is located in the upper part of the sump, below the annular spillway; the installation is also equipped with a riser for discharge of sludge - activated sludge (see RU patent for utility model No. 32774, IPC C 02 F 3/02, priority 04/30/03, publ. 09/27/03).

A disadvantage of the known installation is:

- low efficiency of wastewater treatment due to: low aeration efficiency, due to the outflow of the water-air mixture through the flooded upper end of the airlift aerator, eliminating the possibility of surface aeration; secondary pollution of water as a result of the removal of activated sludge particles from the sump by flotation with air bubbles and sludge decay products, as a result of the lack of mixing of the bottom sediment layer;

- low reliability of the installation due to the difficulty

control and regulation of the airlift aerator under water,

- the complexity of the design, due to the presence of the cover of the installation of complex configuration.

The technical result of the claimed utility model is to increase the efficiency of wastewater treatment and improve operating conditions.

The technical result is achieved by the fact that the installation for biological wastewater treatment, comprising a housing with an aeration chamber, a sump and an airlift aerator, pipelines for supplying purified water, drainage of clarified water and sludge, is additionally equipped with a central deaeration chamber located in the upper part of the housing, inside the sump equipped with a vertical pipe for discharging deaerated water, with its upper end a vertical pipe for discharging deaerated water is attached to the bottom of the deaeration chamber, and the lower the end of the pipe is installed with a gap in relation to the bottom of the installation case, below the lower end of the airlift aerator, the upper end of the airlift aerator is placed in the deaeration chamber above the water level and is equipped with a reflector, and the lower one is recessed to the bottom of the installation case, the pipeline for supplying purified water is located at the bottom corps.

It is possible to equip a biological wastewater treatment plant:

1. vertical plates to calm the flow, placed under the sump;

2. several deaeration chambers equipped with one or more vertical pipes for discharging deaerated water;

3. several airlift aerators;

4. pneumatic disk aerators placed in the aeration chamber.

The drawing shows a plant for biological wastewater treatment.

A biological wastewater treatment plant consists of: a building 1 with an aeration chamber 2 and a sump 3, a pipe for supplying purified water 4 near the bottom of the installation 1, a central deaeration chamber 5 located in the upper part of the housing 1 inside a sump 3, a vertical airlift 6 with an air strut 7; the upper end 8 of the airlift aerator 6 is placed in the deaeration chamber 5 above the water level and is equipped with a reflector 9, and the lower end 10 of the airlift aerator 6 is recessed to the bottom of the unit body 1. A vertical pipe 12 is attached to the bottom of the deaeration chamber 5 with its upper end 11 for discharging deaerated water, and the lower end 13 of the pipe 12 is positioned with a gap with respect to the bottom of the installation housing 1, below the lower end 10 of the airlift aerator 6. A device for removing clarified water 14 is placed inside sedimentation tank 3, and the pipeline for discharge of sediment 15 is located along the wall of the housing 1 of the installation. If necessary, the installation can be equipped with pneumatic disk aerators 16, placed in the aeration chamber 2, and vertical plates to calm the flow 17, placed under the sump 3.

Installation for biological wastewater treatment works as follows:

Purified wastewater with suspended solids from 10 to 10,000 mg / L and BOD from 30 to 50,000 mg O ₂ / L through a pipe for supplying purified water 4 is poured near the bottom of the housing 1 of the biological wastewater treatment plant, where it enters the zone of operation of the airlift aerator 6, to which compressed air is supplied through the riser 7. The lower end 10 of the airlift aerator 6, located at the bottom of the settling zone at the bottom of the unit body 1, draws in the waste water coming from below and the sludge - activated sludge. The location of the lower end 10 of the airlift aerator 6 above the lower end 13 of the pipe 12 provides recirculation of the lightest sediment - young activated sludge, while the old, mineralized and, therefore, heavy

the sediment is periodically removed through a pipe to discharge sediment 15, which is located along the wall of the housing 1. The air supplied to the airlift aerator 6 through the air riser 7 is mixed with recirculating sludge and incoming waste water, forming a water-air mixture. This mixture, due to a lower density compared to water, rises up the airlift aerator 6, in which water is mixed with sediment - activated sludge, oxygen saturation and recirculation. Through the upper end 8 of the airlift aerator 6, the air-water mixture is thrown out, hits the reflector 9 and is sprayed in the deaeration chamber 5 above the water level, which contributes to the additional saturation of the air-water mixture with air as a result of surface aeration. Placing the upper end of the airlift aerator in the deaeration chamber 5 above the water level provides the ability to control and regulate the operation of the airlift aerator 6, which increases the reliability of operation of the installation. When a water-air mixture is poured from the upper end 8 of the airlift aerator 6 into the deaeration chamber 5, air bubbles are separated from the liquid — deaeration, which excludes air bubbles from entering the bottom sediment layer — activated sludge, which prevents flooding of sediment particles as a result of their flotation by air bubbles and deterioration, by itself, indicators of purified water. By regulating the operation of the airlift, the liquid level in the deaeration chamber 5 is maintained above the liquid level in the installation case 1, which allows, regardless of the variable flow rate of the wastewater entering the treatment, to create a uniform downward flow of deaerated liquid, which along the vertical pipe 12, has its upper end 11 attached to the deaeration chamber 5, is directed downward and poured out through the lower end 13 of the pipe 12 near the bottom of the installation housing 1, creating a flow that ensures uniform mixing at onnogo cake layer deposited on the bottom of the hull 1 of the apparatus. The flow flowing from the lower end of the pipe 13 prevents

caking and decay of the sludge, and thereby eliminates the secondary pollution of the treated water by the products of decay of the sludge. Water with sediment rises and enters the sump 3. Sludge creeps along the inclined sections of the walls of the sump 3, and purified and clarified wastewater with suspended solids from 5 to 20 mg / l and BOD from 3 to 20 mgO ₂ / l is removed from the installation on the prefabricated device 14 located inside the sump 3.

Installation for biological wastewater treatment, if necessary (for example, large installation areas, flat bottom, etc.), can be equipped with several deaeration chambers 5, each of which is equipped with one or more vertical pipes 12 for discharging deaerated water and several airlift aerators 6 ; if necessary (for example, at high values of BOD and the rate of consumption of dissolved oxygen) - pneumatic disk aerators 16 located in the aeration chamber 2, and to reduce the speed of the upward flow and reduce the removal of suspended solids (for example, with a small installation depth) - vertical plates for sediment flow 17, placed under the sump 3.

Only a combination of such signs as: equipping the installation with a deaeration chamber, into which a water-air mixture is poured from the airlift aerator with a reflector at the upper end and the lower end located in the settling zone, at the bottom of the installation case, with a vertical pipe in communication with the deaeration chamber for supplying deaerated water to the zone sedimentation, to the bottom of the installation casing, ensures the achievement of the goal - increasing the efficiency of aeration, improving the quality of purified water and improving the reliability of the device.

The proposed installation for biological wastewater treatment in comparison with the known provides:

- improving the quality of purified water by 15-25% due to:

- increase the efficiency of aeration (by 10-12%) due to the use of surface aeration as a result of spraying a water-air mixture when spilling from an airlift aerator and hitting the reflector;

- elimination of the removal of sediment particles from the bottom of the installation as a result of mixing of the bottom sediment layer with deaerated water directed down a vertical pipe from the deaeration chamber to the bottom of the installation housing due to the prevention of flotation by air bubbles (by 15%) and secondary pollution of purified water with sediment decay products (at 10%);

- improving the reliability of the device due to the availability of visual control and regulation of the airlift, the upper end of which is above the water level.

Claims (5)

1. Installation for biological wastewater treatment, comprising a cylindrical housing with an aeration chamber, a sump and an airlift aerator, pipelines for supplying purified water, drainage of clarified water and sludge, characterized in that the installation is additionally equipped with a central located in the upper part of the housing, inside the sump a deaeration chamber equipped with a vertical pipe for discharging deaerated water, with its upper end a vertical pipe for discharging deaerated water attached to the bottom of the deaeration chamber and, and the lower end of the pipe is installed with a gap relative to the bottom of the installation housing, below the lower end of the airlift aerator, the upper end of the airlift aerator is placed in the deaeration chamber above the water level and is equipped with a reflector, and the lower one is recessed to the bottom of the installation case, and the pipeline for supply purified water is placed at its bottom. 2. Installation for biological wastewater treatment according to claim 1, characterized in that it is equipped with vertical plates to calm the flow, placed under the sump. 3. Installation for biological wastewater treatment according to claim 1, characterized in that it is equipped with several deaeration chambers equipped with one or more vertical pipes for discharging deaerated water. 4. Installation for biological wastewater treatment according to claim 1, characterized in that it is equipped with several airlift aerators. 5. Installation for biological wastewater treatment according to claim 1, characterized in that it is equipped with pneumatic disk aerators located in the aeration chamber.