A method and system of treating wastewater is disclosed. The treatment system has a nitrification-denitrification system comprising a sorption system, a biofilm system, and an anaerobic digester that digests or converts at least a portion of the solids or sludge from the sorption system and biofilm
A method and system of treating wastewater is disclosed. The treatment system has a nitrification-denitrification system comprising a sorption system, a biofilm system, and an anaerobic digester that digests or converts at least a portion of the solids or sludge from the sorption system and biofilm system.
대표청구항▼
1. A method for treating wastewater comprising: providing a wastewater to be treated;denitrifying the wastewater in a first biological reactor to produce a denitrified mixed liquor;nitrifying the denitrified mixed liquor with a nitrifying biofilm on a carrier and biosorbing undesirable constituents
1. A method for treating wastewater comprising: providing a wastewater to be treated;denitrifying the wastewater in a first biological reactor to produce a denitrified mixed liquor;nitrifying the denitrified mixed liquor with a nitrifying biofilm on a carrier and biosorbing undesirable constituents from the denitrified mixed liquor with a suspended biomass in a second biological reactor;separating a first portion of the nitrified mixed liquor in a separator to produce a solids-rich sludge and a treated effluent having a total nitrogen concentration of less than about 10 milligrams of elemental nitrogen per liter; andcombining a second portion of the nitrified mixed liquor with the wastewater to be treated. 2. The method of claim 1, wherein a hydraulic retention time in the second biological reactor is less than about three hours. 3. The method of claim 2, further comprising treating at least a portion of the solids-rich sludge in a third biological reactor to produce a biologically treated sludge. 4. The method of claim 3, further comprising thickening the at least a portion of the solids-rich sludge to produce a thickened sludge and a sludge-lean portion, wherein treating the solids-rich sludge in the third biological comprises treating the thickened sludge to produce at least a portion of the biologically treated sludge. 5. The method of claim 3, further comprising combining a portion of the biologically treated sludge with at least one of the wastewater to be treated, the first biological reactor, and the second biological reactor at a predetermined flow rate. 6. The method of claim 5, wherein the portion of the biologically treated sludge combined with the at least one of the wastewater to be treated, the first biological reactor, and the second biological reactor is approximately 50% of the predetermined flow rate. 7. The method of claim 1, further comprising treating the wastewater to be treated in a clarifier located upstream of the first biological reactor. 8. The method of claim 1, wherein the treated effluent comprises an ammonia concentration of less than about five milligrams of elemental nitrogen per liter. 9. The method of claim 8, wherein the treated effluent comprises a chemical oxygen demand concentration of less than about 80 milligrams per liter. 10. A wastewater treatment system comprising: a source of a wastewater to be treated;a first biological reactor having an inlet fluidly connected downstream from the source of the wastewater;a biological sorption tank comprising a biofilm carrier, and having an inlet fluidly connected to the first biological reactor, the biological sorption tank constructed and arranged to maintain an effluent having a total nitrogen concentration of less than about 10 milligrams elemental nitrogen per liter and a hydraulic retention time of less than about three hours;a separator having a sludge outlet, an effluent outlet, and an inlet fluidly connected downstream of the biological sorption tank; anda sludge recycle line fluidly connecting an outlet of the separator to the source of wastewater. 11. The wastewater treatment system of claim 10, further comprising an anaerobic digester having an anaerobically digested sludge outlet and an inlet fluidly connected to the sludge outlet. 12. The wastewater treatment system of claim 11, further comprising a sludge thickener having an inlet fluidly connected downstream from the sludge outlet of the separator, a thickened sludge outlet fluidly connected to the anaerobic digester, and a solids lean outlet. 13. The wastewater treatment system of claim 11, further comprising a mixed liquor recycle line fluidly connecting an outlet of the biological sorption tank to the source of wastewater. 14. The wastewater treatment system of claim 13, further comprising an anaerobically digested sludge recycle line fluidly connecting the anaerobically digested sludge outlet to the source of wastewater. 15. The wastewater treatment system of claim 10, further comprising a clarifier located upstream of the first biological reactor. 16. A method of facilitating wastewater treatment in a wastewater treatment system for reducing a concentration of a nitrogen containing compound from a wastewater, the system having a source of wastewater, an anoxic reactor, an aerobic reactor, a mixed liquor recycle stream fluidly connecting an outlet of the aerobic reactor to the anoxic reactor, a separator, and a sludge recycle stream fluidly connecting an outlet of the separator to the anoxic reactor, the method comprising: introducing a biofilm carrier into the aerobic reactor; andfluidly connecting a solids-rich outlet of the separator to an anaerobic digester. 17. The method of claim 16, further comprising fluidly connecting an outlet of the anaerobic digester to at least one of the source of wastewater, the anoxic reactor, the aerobic reactor, the mixed liquor recycle stream, and the sludge recycle stream. 18. The method of claim 17, further comprising fluidly connecting the solids-rich outlet of the separator to a sludge thickener, and fluidly connecting a thickened sludge outlet from the sludge thickener to the anaerobic digester. 19. A method for treating wastewater comprising: providing a wastewater to be treated;promoting denitrification of the wastewater in a first biological reactor to produce a first biologically treated mixed liquor;promoting biological sorption of the first biologically treated mixed liquor and biofilm growth in a second biological reactor;separating an effluent of the second biological reactor to produce a solids-rich sludge and a treated effluent having a total nitrogen concentration of less than about 10 milligrams of elemental nitrogen per liter; andtreating the solids-rich sludge in a third biological reactor to produce a biologically treated sludge. 20. The method of claim 19, wherein the hydraulic retention time in the second biological reactor is less than about three hours. 21. The method of claim 20, further comprising thickening the solids-rich sludge to produce a thickened sludge and a sludge-lean portion, wherein treating the solids-rich sludge in the third biological comprises treating the thickened sludge to produce at least a portion of the biologically treated sludge. 22. The method of claim 21, wherein promoting biological sorption of the first biologically treated mixed liquor and biofilm growth comprises introducing a biofilm carrier to the second biological reactor. 23. The method of claim 19, further comprising treating the wastewater to be treated in a clarifier located upstream of the first biological reactor. 24. The method of claim 19, further comprising introducing a portion of the biologically treated sludge to at least one of the wastewater to be treated, the first biological reactor, the second biological reactor, and the clarifier at a predetermined flow rate. 25. The method of claim 24, wherein the portion of the biologically treated sludge introduced to the to at least one of the wastewater to be treated, the first biological reactor, the second biological reactor, and the clarifier is approximately 50% of the predetermined flow rate. 26. The method of claim 19, wherein the treated effluent comprises an ammonia concentration of less than about five milligrams elemental nitrogen per liter. 27. The method of claim 26, wherein the treated effluent comprises a chemical oxygen demand concentration of less than 80 milligrams per liter.
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