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    Enhanced Biological Phosphorus Removal and Recovery

    New search for: Machnicka, Alicja
    New search for: Grűbel, Klaudiusz
    New search for: Suschka, Jan

    Activated sludge systems designed for enhanced nutrient removal are based on the principle of altering anaerobic and aerobic conditions for growth of microorganisms with a high capacity of phosphorus accumulation. Most often, filamentous bacteria constitute a component of the activated sludge microflora. The filamentous microorganisms are responsible for foam formation and activated sludge bulking. The results obtained confirm unanimously that the filamentous bacteria have the ability of phosphorus uptake and accumulation as polyphosphates. Hydrodynamic disintegration of the foam microorganisms results in the transfer of phosphorus and metal cations and ammonium‐nitrogen into the liquid phase. It was demonstrated that the disintegration of foam permits the removal of a portion of the nutrients in the form of struvite.

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    Enhanced Biological Phosphorus Removal and Recovery

    New search for: Machnicka, Alicja
    New search for: Grűbel, Klaudiusz
    New search for: Suschka, Jan

    Activated sludge systems designed for enhanced nutrient removal are based on the principle of altering anaerobic and aerobic conditions for growth of microorganisms with a high capacity of phosphorus accumulation. Most often, filamentous bacteria constitute a component of the activated sludge microflora. The filamentous microorganisms are responsible for foam formation and activated sludge bulking. The results obtained confirm unanimously that the filamentous bacteria have the ability of phosphorus uptake and accumulation as polyphosphates. Hydrodynamic disintegration of the foam microorganisms results in the transfer of phosphorus and metal cations and ammonium‐nitrogen into the liquid phase. It was demonstrated that the disintegration of foam permits the removal of a portion of the nutrients in the form of struvite.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Enhanced Biological Phosphorus Removal and Recovery

    New search for: Machnicka, Alicja
    New search for: Grűbel, Klaudiusz
    New search for: Suschka, Jan

    Activated sludge systems designed for enhanced nutrient removal are based on the principle of altering anaerobic and aerobic conditions for growth of microorganisms with a high capacity of phosphorus accumulation. Most often, filamentous bacteria constitute a component of the activated sludge microflora. The filamentous microorganisms are responsible for foam formation and activated sludge bulking. The results obtained confirm unanimously that the filamentous bacteria have the ability of phosphorus uptake and accumulation as polyphosphates. Hydrodynamic disintegration of the foam microorganisms results in the transfer of phosphorus and metal cations and ammonium‐nitrogen into the liquid phase. It was demonstrated that the disintegration of foam permits the removal of a portion of the nutrients in the form of struvite.

    Access

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    Order at Subito €

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    Title:

    Enhanced Biological Phosphorus Removal and Recovery

    Contributors:

    Machnicka, Alicja (author) / Grűbel, Klaudiusz (author) / Suschka, Jan (author)

    Published in:

    Water Environment Research ; 80 ; 617-623

    Publication date:

    2008-07-01

    Size:

    7 pages

    ISSN:

    1554-7531 , 1061-4303

    DOI:

    https://doi.org/10.2175/106143008X268461

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    foam , filamentous microorganisms , hydrodynamic disintegration , phosphorus , struvite

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