RU2011105730A - METHOD FOR DEEP BIOLOGICAL CLEANING OF HOUSEHOLD AND INDUSTRIAL WASTE WATERS - Google Patents

Abstract

 1. The method of deep biological wastewater treatment in an installation, divided into six series-connected zones using anaerobic and aerobic conditions, followed by separation of activated sludge and purified water by settling and removal of activated sludge and purified water, characterized in that the wastewater treatment in the first two zones of the installation are conducted under anaerobic conditions, and in the second anaerobic zone, cleaning is carried out using microflora attached to an inert loading material overgrown with biological mic roflora, in the absence of dissolved oxygen, the cleaning in the third and fifth zones is carried out under aerobic conditions, while the cleaning in the third zone is carried out using free-floating biological microflora while maintaining dissolved oxygen in water, and the cleaning in the fifth zone is carried out using aerobic biological microflora, attached to an inert loading material, while after the third aerobic zone there is a fourth treatment zone, where biological microflora is removed from wastewater, due to its deposition to the bottom of the fourth treatment zone, as well as the return of the deposited biological microflora to the third aerobic treatment zone, while after the fifth aerobic zone there is a treatment zone to remove excess biological microflora from wastewater remaining after passing through the previous treatment zones. ! 2. The method according to claim 1, characterized in that the mixing of biological microflora in the third zone of the installation is carried out using aeration. ! 3. The method according to claim 1, characterized in that aeration is carried out in the third and fifth aerobic treatment zones. ! 4. �

Claims (8)

1. The method of deep biological wastewater treatment in an installation, divided into six series-connected zones using anaerobic and aerobic conditions, followed by separation of activated sludge and purified water by settling and removal of activated sludge and purified water, characterized in that the wastewater treatment in the first two zones of the installation are conducted under anaerobic conditions, and in the second anaerobic zone, cleaning is carried out using microflora attached to an inert loading material overgrown with biological mic roflora, in the absence of dissolved oxygen, the cleaning in the third and fifth zones is carried out under aerobic conditions, while the cleaning in the third zone is carried out using free-floating biological microflora while maintaining dissolved oxygen in water, and the cleaning in the fifth zone is carried out using aerobic biological microflora, attached to an inert loading material, while after the third aerobic zone there is a fourth treatment zone, where biological microflora is removed from wastewater, due to its deposition to the bottom of the fourth treatment zone, as well as the return of the deposited biological microflora to the third aerobic treatment zone, while after the fifth aerobic zone there is a treatment zone to remove excess biological microflora from wastewater remaining after passing through the previous treatment zones. 2. The method according to claim 1, characterized in that the mixing of biological microflora in the third zone of the installation is carried out using aeration. 3. The method according to claim 1, characterized in that aeration is carried out in the third and fifth aerobic treatment zones. 4. The method according to claim 1, characterized in that the provided aeration method allows you to evenly distribute the air inside the aerated chamber. 5. The method according to claim 1, characterized in that the excess activated sludge (biological microflora) accumulating in the horizontal settling tanks located after the third and fifth aerobic zones is returned to the first anaerobic zone using pressure head suction pipelines - airlifts. 6. The method according to claim 1, characterized in that in all treatment zones vertically rectilinear movement of wastewater with a downward-upward flow is carried out through the use of a system of overflows. 7. The method according to claim 1, characterized in that the wastewater passes the cleaning zone by gravity, without the use of airlifts and electric pumps. 8. The method according to claim 1, characterized in that on an inert loading material, which can serve as ruffs or other similar material located in the fifth aerobic cleaning zone, biological microflora is formed attached to the surface of this material.