RU2010147655A - TWO-STAGE BIOLOGICAL SEWAGE TREATMENT STATION (OPTIONS) - Google Patents

Abstract

 1. Station two-stage biological wastewater treatment, made in the form of a geometric shape building, containing mixers in the technological volume of the denitrator, the volume of which is connected through a hole partition with the aeration volume of a high-load aeration mixer, characterized in that the station is cylindrical and contains a production building and block of technological tanks, which is divided into four technological segments, with the possibility of independent parallel operation of their technological Of the lines made in the form of radial channels, each of the segments contains an anaerobic-anoxide reactor, divided into anaerobic part, a pre-anoxide part and an anoxide part, in which mechanical mixers, a heterotrophic stage, including a high-load aeration tank mixer, equipped with a pneumatic aeration system and a two-stage are placed a thin-layer sludge separator, in the central part of which there is a two-section sludge chamber with low-pressure pump units, each section of the sludge chamber is connected a perforated pipe located in the lower zone of the thin-layer modules in each stage of the two-stage thin-layer sludge separator, in the lower zone there is a sludge distribution system, with the possibility of ensuring the sequential operation of its stages in countercurrent mode, each stage is equipped with a system for regenerating the inter-shelf space of thin-layer modules in each stage , the heterotrophic step is connected to the autotrophic step by a system of distribution trays, a two-stage thin layer

Claims (17)

1. Station two-stage biological wastewater treatment, made in the form of a geometric shape building, containing mixers in the technological volume of the denitrator, the volume of which is connected through a hole partition with the aeration volume of a high-load aeration mixer, characterized in that the station is cylindrical and contains a production building and block of technological tanks, which is divided into four technological segments, with the possibility of independent parallel operation of their technological Of the lines made in the form of radial channels, each of the segments contains an anaerobic-anoxide reactor, divided into anaerobic part, a pre-anoxide part and an anoxide part, in which mechanical mixers, a heterotrophic stage, including a high-load aeration tank mixer, equipped with a pneumatic aeration system and a two-stage are placed a thin-layer sludge separator, in the central part of which there is a two-section sludge chamber with low-pressure pump units, each section of the sludge chamber is connected a perforated pipe located in the lower zone of the thin-layer modules in each stage of the two-stage thin-layer sludge separator, in the lower zone there is a sludge distribution system, with the possibility of ensuring the sequential operation of its stages in countercurrent mode, each stage is equipped with a system for regenerating the inter-shelf space of thin-layer modules in each stage , the heterotrophic step is connected to the autotrophic step by a system of distribution trays, a two-stage thin layer a sludge separator, with each section of the sludge chamber corresponding to its own stage of a two-stage thin-layer sludge separator, with the possibility of achieving hydraulic independence when regulating the selection of the sludge mixture from each stage, the heterotrophic stage is connected to the autotrophic stage by the system of distribution trays of the two-stage thin-layer sludge separator, the autotrophic nitrification step contains equipped with a floating charge for immobilization of nitrifying biomass, pneumatics the aeration system and clarifier clarifier, in which two zones are made in height, successively located from bottom to top in the direction of the clarified suspension, the lower zone is made in the form of a thin-layer settler, and the upper zone above it is in the form of a bioreactor with a "ruff" loading for immobilization the attached microflora removed from the aeration tank of the nitrifier-displacer, each zone of the clarifier-clarifier is equipped with a regeneration system, a system for collecting and discharging clarified waste fluid, the drainage system is connected to distribution system of the built-in contact chamber for flocculation of the prefilter with a "ruff" loading, the prefilter is equipped with a regeneration system of a "ruff" loading and a system for collecting and discharging purified water, which is connected via pipelines to the quick filter unit with an alternating filtering direction in the moving layer of the granular load, the unit for process tanks equipped with a vertical flow-type desuper-sealer with an integrated whirlpool-type flocculation chamber, with the ability to compact excess tive biomass. 2. The station according to claim 1, characterized in that the anaerobic-anoxide reactor is divided into the anaerobic part, the pre-oxide part and the anoxiid part with holey partitions. 3. The station according to claim 1, characterized in that the pneumatic aeration systems of the heterotrophic stage and the autotrophic stage are made in the form of fine-bubble aerators. 4. The station according to claim 1, characterized in that the shape of the inter-shelf cross-section in the shelves of thin-layer modules is made cellular or rectangular. 5. The station according to claim 1, characterized in that the technological and engineering infrastructure of the station is located in a production building located in the center of a single structural unit of technological capacities. 6. The station according to claim 5, characterized in that the production building of the station is round in plan, inscribed in the inner circumference of the block of technological tanks. 7. The station according to claim 5, characterized in that the production building of the station is divided into two main production levels. 8. The station according to claim 7, characterized in that in the lower production level there is disposed wastewater disinfection equipment and equipment for engineering support of the prefilter with "ruff" loading with an integrated flocculation chamber. 9. The station according to claim 7, characterized in that at the upper production level there is equipment for mechanical treatment of wastewater, equipment for dehydration and drying of excess activated sludge, equipment for ensuring the technological process and for supply and exhaust ventilation with equipment for cleaning air emissions generated in the process of wastewater treatment. 10. Station two-stage biological wastewater treatment, made in the form of a building of geometric shape, containing mixers in the technological volume of the denitrator, the volume of which is connected through a hole partition with the aeration volume of a high-load aeration mixer, characterized in that the station contains a production building and a block of technological tanks, in which two rectangular sections are located in parallel, with the possibility of their independent parallel operation, each of which contains anaerobic an oxide reactor, divided into anaerobic part, pre-oxide part and anoxide part, in which mechanical mixers are placed, a heterotrophic stage, including a high-load aeration tank equipped with a pneumatic aeration system and a two-stage thin-layer sludge separator, in the central part of which there is a two-section sludge aggregate pump with a low , the sludge zone of the first stage of a two-stage thin-layer sludge separator is connected by a pipeline to the corresponding sludge section the chamber, and the sludge zone of its second stage is connected by a perforated pipeline to the corresponding stage of the sludge chamber, the thin-layer elements of the first stage of the two-stage thin-layer sludge separator are made in the form of flat shelves, the lower part of each shelf of the thin-layer module is equipped with a perforated collecting box with a length equal to the width of the shelf, the width of the perforated box equal to half the length of the inter-shelf distance of the thin-layer module, the ends of the perforated duct are open and connected through a separation partition a batch of the first stage of a two-stage thin-layer sludge separator with a sludge zone of its second stage, with the possibility of sampling a less concentrated sludge mixture from the upper part of the laminar flow into the sludge zone of its second stage, the slit section formed by the perforated box and the subsequent shelf of the thin-layer module allows drainage of the sludge mixture in the sealing zone of the first stage of a two-stage thin-layer desilter, in the upper part of its first stage there is a distribution tray silt suspension into a two-stage thin-layer sludge separator, with the possibility of providing a unidirectional flow regime in the shelves of the thin-layer module of its first stage and countercurrent mode in the shelves of the thin-layer module of the second stage of the two-stage thin-layer sludge separator, each stage is equipped with a system for regenerating the inter-shelf space of the thin-layer modules connected to the autotrophic stage by a system of distribution trays, a two-stage thin-layer sludge The autotrophic step contains an aerotank of a nitrification-displacer equipped with a floating load for immobilizing the nitrifying biomass, a pneumatic aeration system in the form of a clarifier-clarifier, in which two zones are made in height, successively located from bottom to top in the direction of travel of the clarified suspension, the lower zone is made in the form a thin-layer sedimentation tank, and the upper zone above it is made in the form of a bioreactor with a "ruff" loading for immobilization of the nitrificator-displacer displaced from the aeration tank of warm microflora, each zone of the clarifier-clarifier is equipped with a regeneration system, a system for collecting and discharging clarified wastewater, while the drainage system is connected to the distribution system of the built-in contact camera for flocculation of the prefilter with a "brushed" load, the prefilter is equipped with a "brushed" regeneration system and a collection system and drainage of purified water, which is connected via pipelines to the quick filter unit with an alternating direction of filtration in the moving layer of the granular charge, with it is set in process block ilouplotnitel vertical flow type with built-in camera type eddy flocculation for sealing excessively active biomass. 11. The station of claim 10, characterized in that the anaerobic-anoxide reactor is divided into anaerobic part, pre-anoxide part and the anoxiid part with holey partitions. 12. The station of claim 10, characterized in that the pneumatic aeration system of the heterotrophic stage and the autotrophic stage are made in the form of fine-bubble aerators. 13. The station of claim 10, characterized in that the shape of the inter-shelf cross-section in the shelves of thin-layer modules is made cellular or rectangular. 14. The station of claim 10, characterized in that the technological and engineering infrastructure of the station is located in a separate industrial building. 15. The station of claim 10, characterized in that the industrial building is made of two production levels located along the height of the building. 16. The station of Claim 15, characterized in that the mechanical equipment for wastewater treatment, equipment for mechanical dewatering of excess activated sludge, equipment for drying dehydrated activated sludge, and rooms for the supply and exhaust ventilation and air emissions cleaning systems are located at the lower production level. 17. The station according to clause 15, characterized in that in the upper production level there are administrative and utility rooms and premises for a chemical and bacteriological laboratory.