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    Municipal Wastewater Treatment by Moving‐Bed‐Biofilm Reactor with Diatomaceous Earth as Carriers

    New search for: Zhao, Yaping
    New search for: Cao, Dawen
    New search for: Liu, Lu
    New search for: Jin, Wei

    This study was conducted to examine the feasibility of using a moving‐bed‐biofilm reactor with internal circulation through aeration for the treatment of municipal wastewater. The attached film was a mixed‐microorganism consortium, which used composite‐refined‐diatomaceous earth as novel biomass carriers to form a diatomaceous‐earth‐moving‐bed‐biofilm‐reactor (DEMBBR) process. The startup of laboratory‐scale, continuous‐flow reactor was successfully achieved without seeding activated sludge. The DEMBBR process removed chemical oxygen demand, total phosphorus, ammonium‐nitrogen, and turbidity at the highest rate of 88.5, 83, 92.3, and 96.7%, respectively, with a hydraulic retention time of only 2.5 hours. The DEMBBR was less affected by interruption and adverse operation conditions than the conventional‐activated‐sludge reactor. Thus, the DEMBBR could be proposed to be a cost‐effective, small‐wastewater‐treatment‐process unit.

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    Municipal Wastewater Treatment by Moving‐Bed‐Biofilm Reactor with Diatomaceous Earth as Carriers

    New search for: Zhao, Yaping
    New search for: Cao, Dawen
    New search for: Liu, Lu
    New search for: Jin, Wei

    This study was conducted to examine the feasibility of using a moving‐bed‐biofilm reactor with internal circulation through aeration for the treatment of municipal wastewater. The attached film was a mixed‐microorganism consortium, which used composite‐refined‐diatomaceous earth as novel biomass carriers to form a diatomaceous‐earth‐moving‐bed‐biofilm‐reactor (DEMBBR) process. The startup of laboratory‐scale, continuous‐flow reactor was successfully achieved without seeding activated sludge. The DEMBBR process removed chemical oxygen demand, total phosphorus, ammonium‐nitrogen, and turbidity at the highest rate of 88.5, 83, 92.3, and 96.7%, respectively, with a hydraulic retention time of only 2.5 hours. The DEMBBR was less affected by interruption and adverse operation conditions than the conventional‐activated‐sludge reactor. Thus, the DEMBBR could be proposed to be a cost‐effective, small‐wastewater‐treatment‐process unit.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Municipal Wastewater Treatment by Moving‐Bed‐Biofilm Reactor with Diatomaceous Earth as Carriers

    New search for: Zhao, Yaping
    New search for: Cao, Dawen
    New search for: Liu, Lu
    New search for: Jin, Wei

    This study was conducted to examine the feasibility of using a moving‐bed‐biofilm reactor with internal circulation through aeration for the treatment of municipal wastewater. The attached film was a mixed‐microorganism consortium, which used composite‐refined‐diatomaceous earth as novel biomass carriers to form a diatomaceous‐earth‐moving‐bed‐biofilm‐reactor (DEMBBR) process. The startup of laboratory‐scale, continuous‐flow reactor was successfully achieved without seeding activated sludge. The DEMBBR process removed chemical oxygen demand, total phosphorus, ammonium‐nitrogen, and turbidity at the highest rate of 88.5, 83, 92.3, and 96.7%, respectively, with a hydraulic retention time of only 2.5 hours. The DEMBBR was less affected by interruption and adverse operation conditions than the conventional‐activated‐sludge reactor. Thus, the DEMBBR could be proposed to be a cost‐effective, small‐wastewater‐treatment‐process unit.

    Access

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    Title:

    Municipal Wastewater Treatment by Moving‐Bed‐Biofilm Reactor with Diatomaceous Earth as Carriers

    Contributors:

    Zhao, Yaping (author) / Cao, Dawen (author) / Liu, Lu (author) / Jin, Wei (author)

    Published in:

    Water Environment Research ; 78 ; 392-396

    Publication date:

    2006-04-01

    Size:

    5 pages

    ISSN:

    1554-7531 , 1061-4303

    DOI:

    https://doi.org/10.2175/106143006X98796

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    diatomaceous earth , moving‐bed‐biofilm reactor , municipal wastewater , attached‐growth biomass

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