SU1481211A1 - System for biological treatment of waste water - Google Patents

Abstract

The invention relates to the biological treatment of wastewater and allows to increase the stability of the system with an uneven flow of wastewater. Wastewater (SW) enters the primary sedimentation tank. Remote CBs are fed to the aerotank entrance. The mixture formed from mixing with activated sludge sludge is fed to the inlet of the secondary clarifier. Purified CBs are removed from the settling basin of the settling tank, and return sludge is discharged from the sedimentary zone of the secondary settling tank. 2 hp f-ly, 1 ill.

Description

one

(L

The invention relates to the biological treatment of wastewater with activated sludge in aeration tanks of household and (or) industrial wastewater.

The purpose of the invention is to increase the sustainability of the biological treatment system with an uneven flow of wastewater.

The drawing shows the proposed system of biological treatment.

The system includes a primary settling tank 1, an aero tank 2, a secondary settling tank 3, pumping station 4 of return sludge and an additional aeration tank 5.

Pipeline 6 of unpurified wastewater is connected to the inlet of the primary clarifier 1, the outlet from the settling zone of which is connected by pipe 7 to the inlet of the aerotank 2. The outlet from the aerotank is connected by pipe .8 of the sludge mixture to the inlet of the secondary clarifier 3. To remove the treated wastewater, pipe 9 is connected to the settling zone of the secondary settling tank 3, the outlet from the sedimentary zone of which is connected by a pipeline 10 of the returnable sludge or through a pumping station 4 of the return sludge to the inlet of the aeration tank 2. The system is equipped with an overflow A transparent pipe 11 with shut-off and control valves, for example, a valve 12 connecting the pressure pipe 10 (after the pumping station) with the pipeline 8 of the sludge mixture. Pipeline 13 with shut-off and control valves and valve 14 additionally connects the outlet of the aerotank to the outlet of the sedimentary zone of the secondary clarifier.

The system works as follows.

The wastewater to be treated comes through pipeline 6 to the primary sedimentation tank 1, from where the discharged waste water through pipeline 7 is fed to the inlet of the aeration tank 2, where returnable activated sludge flows simultaneously through pipeline 10. The silt mixture leaving the aerotank 2 is fed through conduit 8 to the inlet of the secondary clarifier 3. The treated wastewater is removed from the settling zone of the clarifier 3 via conduit 9, and return sludge is withdrawn from the sediment zone of the secondary clarifier 3 via conduit 10.

At the maximum flow rate of wastewater QMO, KC, all sludge discharged from the sedimentary zone of the secondary clarifier 3 with flow rate R dOMO (KC enters the aeration tank 2 via pipeline 10 When the wastewater flow decreases to Q value, the valve 12 on the pipe 11 opens slightly and Part of the sludge with a flow rate of R, d (QMaKC-Q) flows through this pipeline to the entrance of the secondary settling tank 3.

As a result, the redistribution of masses between the aeration tank and the secondary settling tank, which is associated with fluctuations in wastewater flow, is eliminated, so that both the concentration of silt in the aero tank and the height of the compacted sludge layer in the sedimentary zone of the secondary sedimentation tank are kept constant and thereby the sludge removal is prevented from the secondary sedimentation tank with treated wastewater.

After a long stay in the secondary sedimentation tank, the concentration of dissolved oxygen in the return sludge decreases to almost zero, which negatively affects its activity. Additional aeration in the tank 5 ensures that the part of the return sludge entering through the pipe 11 to the inlet of the secondary sedimentation tank 3 is saturated with dissolved oxygen, thereby preventing a decrease in the activity of the sludge. In systems of biological treatment with nitrification, such saturation with dissolved oxygen prevents the development of the denitrification process in the secondary settling tank and the concomitant denitrification of the removal of sludge from

five

0

the septic tank due to the flotation effect of sludge particles resulting from the release of gas-forming nitrogen forms.

The presence of an additional connection for the exit of the aerotank 2 with the exit from the sedimentary zone of the secondary clarifier 3 by means of a valve 14 equipped with

0 of pipeline 13 makes it possible to direct part of the sludge mixture flow rate to the secondary settling tank to the inlet of the aerotank 2 through pipeline 10. At the same time, due to the approach of the hydrodynamic conditions in the aeration tank to the full displacement mode, the active sludge equilibrates along the length of the aero tank, which are significantly change

Q with an abrupt change in the flow of wastewater.

The proposed biological treatment system is stable without decreasing the specified cleaning efficiency when the wastewater flows irregularly.

Claims (3)

1. A biological wastewater treatment system containing an aeration tank connected by a sludge mix with a secondary settling tank, a pipeline for supplying wastewater to an aeration tank, pressure and suction returning sludge pipelines from a secondary settling tank to the aeration tank and a pumping station, characterized in that The goal is to increase the stability of work in case of irregular-flow of sewage, it is equipped with a by-pass pipeline with shut-off and control valves connected to the return pressure pipe sludge and sludge mix pipeline. 2. The system according to claim 1, characterized in that it is provided with an aeration tank installed on the overflow pipe. 3. The system according to claim 1, characterized in that it is provided with an additional bypass pipeline with shut-off and control valves connected to the pipeline 5 sludge mixture and return sludge suction pipe. 0 five 0