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    Enhanced softening: factors influencing DBP precursor removal

    New search for: Thompson, Jeffrey D.
    New search for: White, Mark C.
    New search for: Harrington, Gregory W.
    New search for: Singer, Philip C.

    Bench‐scale tests demonstrate the importance of magnesium hydroxide precipitation and NOM characteristics on precursor removal by softening.

    Relationships of hardness removal, natural organic matter (NOM) removal, and selected chemical characteristics of NOM were explored, and the implications of the enhanced softening portion of the proposed Disinfectants/Disinfection By‐products Rule were assessed. For most of the nine raw water sources examined, the amount of dissolved organic carbon (DOC) removed (both on an absolute and a percentage basis) correlated strongly with the amount of magnesium precipitated. A semilogarithmic model provided a good fit to the data for six of the nine waters (R2 values >0.8). Greater absolute removal of DOC was achieved for raw waters with higher initial DOC concentrations. DOC removal by softening was most effective for the raw water sources with the highest percentage of hydrophobic organic carbon. Greater specific ultraviolet absorbance values also corresponded to greater DOC removal.

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    Enhanced softening: factors influencing DBP precursor removal

    New search for: Thompson, Jeffrey D.
    New search for: White, Mark C.
    New search for: Harrington, Gregory W.
    New search for: Singer, Philip C.

    Bench‐scale tests demonstrate the importance of magnesium hydroxide precipitation and NOM characteristics on precursor removal by softening.

    Relationships of hardness removal, natural organic matter (NOM) removal, and selected chemical characteristics of NOM were explored, and the implications of the enhanced softening portion of the proposed Disinfectants/Disinfection By‐products Rule were assessed. For most of the nine raw water sources examined, the amount of dissolved organic carbon (DOC) removed (both on an absolute and a percentage basis) correlated strongly with the amount of magnesium precipitated. A semilogarithmic model provided a good fit to the data for six of the nine waters (R2 values >0.8). Greater absolute removal of DOC was achieved for raw waters with higher initial DOC concentrations. DOC removal by softening was most effective for the raw water sources with the highest percentage of hydrophobic organic carbon. Greater specific ultraviolet absorbance values also corresponded to greater DOC removal.

    Access

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    Check availability in my library
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    Enhanced softening: factors influencing DBP precursor removal

    New search for: Thompson, Jeffrey D.
    New search for: White, Mark C.
    New search for: Harrington, Gregory W.
    New search for: Singer, Philip C.

    Bench‐scale tests demonstrate the importance of magnesium hydroxide precipitation and NOM characteristics on precursor removal by softening.

    Relationships of hardness removal, natural organic matter (NOM) removal, and selected chemical characteristics of NOM were explored, and the implications of the enhanced softening portion of the proposed Disinfectants/Disinfection By‐products Rule were assessed. For most of the nine raw water sources examined, the amount of dissolved organic carbon (DOC) removed (both on an absolute and a percentage basis) correlated strongly with the amount of magnesium precipitated. A semilogarithmic model provided a good fit to the data for six of the nine waters (R2 values >0.8). Greater absolute removal of DOC was achieved for raw waters with higher initial DOC concentrations. DOC removal by softening was most effective for the raw water sources with the highest percentage of hydrophobic organic carbon. Greater specific ultraviolet absorbance values also corresponded to greater DOC removal.

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    Title:

    Enhanced softening: factors influencing DBP precursor removal

    Contributors:

    Thompson, Jeffrey D. (author) / White, Mark C. (author) / Harrington, Gregory W. (author) / Singer, Philip C. (author)

    Published in:

    Journal ‐ American Water Works Association ; 89 ; 94-105

    Publication date:

    1997-06-01

    Size:

    12 pages

    ISSN:

    1551-8833 , 0003-150X

    DOI:

    https://doi.org/10.1002/j.1551-8833.1997.tb08245.x

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Natural Organic Matter , Disinfection Byproducts , Softening , Sodium Carbonate , Jar Tests , Ultraviolet Absorption , Hardness , Dosage , Lime

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