SU1713897A1 - Aeration tank - Google Patents

Abstract

The invention relates to the biological treatment of water and improves the reliability of the aerotank, reducing capital and operating costs due to the intensification of the denitrification process. The invention consists in that the aeration tank 1 is equipped with steam distributors 5 installed along its length breaks of the aeration system 2 and communicated through the ejector 7 with the clarified waste water pipeline 3. The pressure nozzle 8 of the ejector 7 communicates with the steam pipe 4, the pressure connection 9 - with steam distributors 5, and the suction connection 10 - with the pipeline 3 of clarified waste water. 1 Fig. (LS13So-sieu VI

Description

The invention relates to the field of biological water purification and can be used in domestic, storm and industrial wastewater treatment plants.

The aeration tank is known, which contains a tank with an aeration system installed along it along its long wall, as well as pipelines for supplying clarified water and circulating sludge.

The disadvantage of this aerotank is the presence of nitrites and nitrates in purified water, since there are no oxygen-free zones in this structure, where denitrifying bacteria decompose nitrogen-containing compounds to molecular, easily removed during degassing. Nitrogen. The presence in the treated wastewater of a large amount of nitrites and nitrates when using the known aerotank requires the construction of a special denitrifier facility, which is associated with large capital and operating costs.

The closest in technical essence and the achieved result to the proposed is an aeration tank containing a tank with an aeration system intermittently installed along it along its long wall, i.e. with repeated repetition of aerated and oxygen-free zones, allowing in one structure to consistently carry out the processes of nitrification and denitrification.

A disadvantage of the known aerotank is the low reliability of operation, due to the fact that in oxygen-free zones, mechanical agitators are used to maintain the activated sludge in a suspended state, which operate in a hostile environment and require significant funds for operation. The operation of the known aerotank is also hampered by the fact that mechanical mixers for denitrifying aerotanks-denitrifiers are not produced by the domestic industry.

In addition, the low speed of the denitrification process requires large volumes of the facility to be taken under oxygen-free zones, which leads to an increase in capital and operating costs during the construction and operation of such an aerotank.

The purpose of the invention is to improve the reliability of the aerotank, reducing capital and operating costs due to the intensification of the denitrification process.

The goal is achieved by the fact that the aeration tank containing a tank with an aeration system intermittently installed along its long wall, pipelines for supplying clarified water and circulating sludge is equipped with a steam line and steam distributors installed along its length

the walls in the gaps of the aeration system, as well as the ejector, the pressure nozzle of which is in communication with the steam line, the pressure connection with steam distributors, and the suction connection with the pipe

0 clarified water.

Compared with the known structures in the proposed aerotank oxygen-free zones are equipped

steam distributors that are installed along its long wall and communicated with the steam line. This allows stirring of the activated sludge in these zones and keeping it in suspension by supplying dispersed steam to them. The simplicity of the device design for

0 mixing the sludge mixture by bubbling steam through it and the absence of moving parts in it makes it possible to increase the reliability of the aerotank operation in comparison with the construction where the sludge mixing

5 mixtures are produced by mechanical agitators. In addition, the steam supply not only does not inhibit the denitrification process (there is no gaseous oxygen in the vapor sparged through the sludge mixture), but also

0 intensifies this process by heating the sludge mixture. It is known that the denitrification process largely depends on the temperature, and the temperature increase even by one degree increases the speed of the process by 15-20%.

The communication of steam distributors through an ejector with a pipeline of clarified waste water allows for the introduction of clarified waste water into the denitrification zones as a source of carbon nutrition for denitrifying microorganisms. Accelerating the denitrification process by increasing the temperature makes it possible to reduce the volume of oxygen-free 5 zones in the aeration tank and thereby reduce capital and operating costs.

The drawing shows the aerotank, general view, plan.

Aerotank includes a tank 1 with aeration system 2 intermittently installed along its long wall, a pipeline 3 of clarified waste water and a steam line 4. In the tank 1 along its long wall in the ruptures of the aeration system 2, steam distributors 5 are installed (made for example in the form of perforated pipes ), communicated by pipeline 6 through the ejector 7 with the pipeline 3 clarified waste water, and the pressure nozzle 8

the ejector 7 is in communication with the steam line 4, the discharge port 9 of the ejector 7 is connected to the pipeline b, and the suction nozzle 10 of the ejector 7 is communicated via a branch 11c with the pipe 3 of clarified waste water. The tank 1 is equipped with a pipe 12 of circulation activated sludge and a pipeline 13 for withdrawing a sludge mixture. Shut-off and control valves 14 are installed on the steam line 4 and branch 11.

Aerotenk works as follows.

The original waste water through pipeline 3 enters tank 1, where simultaneously circulation activated sludge is fed through pipeline 12, and the resulting mixture moves along tank 1, successively passing through the installation zone of aeration systems 2 and steam distributors 5. Air aeration system 2 aerates the silt mixture with air saturating it with dissolved oxygen and thus ensures the process of biological wastewater treatment, accompanied by the accumulation of nitrite and nitrate compounds in the sludge mixture. In oxygen-free zones, where steam distributors 5 are installed, denitrification is performed — the process of biological decomposition of nitrites and nitrates to molecular nitrogen, which is easily removed during degassing.

Denitrification in the aero tank proceeds as follows.

In the steam distributors 5, the pipeline 6 supplies a mixture of high-temperature steam with clarified wastewater withdrawn from the pipeline 3, which in branch 11 through the suction inlet 10 of the ejector 7 is ejected by steam leaving the pressure nozzle 8 into the pressure connection 9 and further into pipeline 6. Using Steam as an Electronizer

the agent allows the organic feeding of denitrifying microorganisms through the steam distributors 5. The outlet from the steam distributors 5, the mixture of steam with clarified waste water is dispersed, while sparging, oxygen-free mixing of the sludge mixture and maintaining the activated sludge in the tank 1 in suspension. Due to heat exchange, the sludge mixture 11 is heated, which accelerates the denitrification process.

From tank 1, where the silt mixture has been subjected to biological purification and denitrification, it is discharged through line 13. Steam consumption and the emitted clarified waste water are controlled by steam valves 14.

The proposed azrotek allows to increase the reliability of the facility, reduce capital and operating costs by eliminating mechanical mixing of the sludge mixture and intensifying the denitrification process during wastewater treatment in the aeration tank.

Claims (1)

Invention Formula Aerotank containing a tank with aeration system intermittently installed along its long wall, clarified water supply lines and circulating sludge, characterized in that, in order to increase the reliability of the aerotank, to reduce capital and operating costs due to the intensification of the denitrification process, it it is equipped with a steam line and steam distributors installed along its long wall in the gaps of the aeration system, as well as an ejector, the pressure nozzle of which is in communication with the steam line, the nozzle is with steam distributors, and the suction nozzle is with a clarified water pipeline. .