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    GAC pore structure in Cincinnati during full‐scale treatment/reactivation

    New search for: Moore, Brian C.
    New search for: Cannon, Fred S.
    New search for: Metz, Deborah H.
    New search for: Demarco, Jack

    Granular activated carbon (GAC) was evaluated during full‐scale treatment operation at the Richard Miller Water Treatment Plant, Cincinnati, Ohio. Starting with virgin GAC, GAC was monitored through six treatment cycles and subsequent onsite thermal reactivation. Pore structure was monitored at the beginning and end of each cycle. Influent and effluent total organic carbon was measured during each cycle. During the first cycle, adsorption caused a large decrease only in micropore volume. With each subsequent cycle, the pore size that exhibited a decreasing volume shifted into larger pores. By the fourth cycle, net pore volume losses occurred in all pore sizes, with the most extensive losses in 100–300 Å pores. Yet, all GACs were similarly effective during treatment. After each cycle, reactivation seemed to influence pores of progressively larger widths. The virgin GAC was highly microporous, whereas after six reactivation cycles, the GAC was very mesoporous.

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    GAC pore structure in Cincinnati during full‐scale treatment/reactivation

    New search for: Moore, Brian C.
    New search for: Cannon, Fred S.
    New search for: Metz, Deborah H.
    New search for: Demarco, Jack

    Granular activated carbon (GAC) was evaluated during full‐scale treatment operation at the Richard Miller Water Treatment Plant, Cincinnati, Ohio. Starting with virgin GAC, GAC was monitored through six treatment cycles and subsequent onsite thermal reactivation. Pore structure was monitored at the beginning and end of each cycle. Influent and effluent total organic carbon was measured during each cycle. During the first cycle, adsorption caused a large decrease only in micropore volume. With each subsequent cycle, the pore size that exhibited a decreasing volume shifted into larger pores. By the fourth cycle, net pore volume losses occurred in all pore sizes, with the most extensive losses in 100–300 Å pores. Yet, all GACs were similarly effective during treatment. After each cycle, reactivation seemed to influence pores of progressively larger widths. The virgin GAC was highly microporous, whereas after six reactivation cycles, the GAC was very mesoporous.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    GAC pore structure in Cincinnati during full‐scale treatment/reactivation

    New search for: Moore, Brian C.
    New search for: Cannon, Fred S.
    New search for: Metz, Deborah H.
    New search for: Demarco, Jack

    Granular activated carbon (GAC) was evaluated during full‐scale treatment operation at the Richard Miller Water Treatment Plant, Cincinnati, Ohio. Starting with virgin GAC, GAC was monitored through six treatment cycles and subsequent onsite thermal reactivation. Pore structure was monitored at the beginning and end of each cycle. Influent and effluent total organic carbon was measured during each cycle. During the first cycle, adsorption caused a large decrease only in micropore volume. With each subsequent cycle, the pore size that exhibited a decreasing volume shifted into larger pores. By the fourth cycle, net pore volume losses occurred in all pore sizes, with the most extensive losses in 100–300 Å pores. Yet, all GACs were similarly effective during treatment. After each cycle, reactivation seemed to influence pores of progressively larger widths. The virgin GAC was highly microporous, whereas after six reactivation cycles, the GAC was very mesoporous.

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    Title:

    GAC pore structure in Cincinnati during full‐scale treatment/reactivation

    Contributors:

    Moore, Brian C. (author) / Cannon, Fred S. (author) / Metz, Deborah H. (author) / Demarco, Jack (author)

    Published in:

    Journal ‐ American Water Works Association ; 95 ; 103-112

    Publication date:

    2003-02-01

    Size:

    10 pages

    ISSN:

    1551-8833 , 0003-150X

    DOI:

    https://doi.org/10.1002/j.1551-8833.2003.tb10296.x

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Regulations , Granular Activated Carbon , Disinfection Byproducts , Utilities , Compliance , Adsorption , Reactivation , Cincinnati, Ohio

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