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    The Effect of Light on Nitrogen Removal by Microalgae-Bacteria Symbiosis System (MBS)

    New search for: Shumin Wang
    New search for: Zhenghao Guo
    New search for: Xiaofan Ding
    New search for: Linling Li
    New search for: Zhongyou Jin
    New search for: Chengcai Zhang
    New search for: Shouping Liu
    New search for: Yan Zhou
    New search for: Gongduan Fan

    The littering of nitrogen into water bodies has led to several adverse effects on the environment. “Nitrification-denitrification” is still a prevalent method for removing nitrogen from water bodies, which demands high energy consumption and complex operational conditions. In recent years, MBS has attracted much attention because of its advantages in recovering nitrogen, emitting oxygen, and capturing CO2. It has been proven that light is the top factor influencing the performance of MBS. This paper will critically review the effects of light parameters on nitrogen removal by MBS, and the nitrogen-removal mechanisms of MBS driven by artificial illumination.

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    The Effect of Light on Nitrogen Removal by Microalgae-Bacteria Symbiosis System (MBS)

    New search for: Shumin Wang
    New search for: Zhenghao Guo
    New search for: Xiaofan Ding
    New search for: Linling Li
    New search for: Zhongyou Jin
    New search for: Chengcai Zhang
    New search for: Shouping Liu
    New search for: Yan Zhou
    New search for: Gongduan Fan

    The littering of nitrogen into water bodies has led to several adverse effects on the environment. “Nitrification-denitrification” is still a prevalent method for removing nitrogen from water bodies, which demands high energy consumption and complex operational conditions. In recent years, MBS has attracted much attention because of its advantages in recovering nitrogen, emitting oxygen, and capturing CO2. It has been proven that light is the top factor influencing the performance of MBS. This paper will critically review the effects of light parameters on nitrogen removal by MBS, and the nitrogen-removal mechanisms of MBS driven by artificial illumination.

    Access

    Download

    The Effect of Light on Nitrogen Removal by Microalgae-Bacteria Symbiosis System (MBS)

    New search for: Shumin Wang
    New search for: Zhenghao Guo
    New search for: Xiaofan Ding
    New search for: Linling Li
    New search for: Zhongyou Jin
    New search for: Chengcai Zhang
    New search for: Shouping Liu
    New search for: Yan Zhou
    New search for: Gongduan Fan

    The littering of nitrogen into water bodies has led to several adverse effects on the environment. “Nitrification-denitrification” is still a prevalent method for removing nitrogen from water bodies, which demands high energy consumption and complex operational conditions. In recent years, MBS has attracted much attention because of its advantages in recovering nitrogen, emitting oxygen, and capturing CO2. It has been proven that light is the top factor influencing the performance of MBS. This paper will critically review the effects of light parameters on nitrogen removal by MBS, and the nitrogen-removal mechanisms of MBS driven by artificial illumination.

    Access

    Download

    Access

    Download

    Page navigation

    Document information
    Similar titles

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    Document information
    Title:

    The Effect of Light on Nitrogen Removal by Microalgae-Bacteria Symbiosis System (MBS)

    Contributors:

    Shumin Wang (author) / Zhenghao Guo (author) / Xiaofan Ding (author) / Linling Li (author) / Zhongyou Jin (author) / Chengcai Zhang (author) / Shouping Liu (author) / Yan Zhou (author) / Gongduan Fan (author)

    Published in:

    Water, Vol 15, Iss 11, p 1991 (2023)

    Publication date:

    2023

    ISSN:

    2073-4441

    DOI:

    https://doi.org/10.3390/w15111991

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    bacterial–algal symbiosis systems , light , nitrogen removal , water treatment , Hydraulic engineering , TC1-978 , Water supply for domestic and industrial purposes , TD201-500

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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