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    Sand filtration for greywater treatment: long-term performance evaluation and optimization by response surface methodology

    New search for: Shaikh, Irshad N.
    New search for: Ahammed, M. Mansoor

    Greywater treatment and reuse is getting increasing attention all over the world, and sand filters are one of the on-site greywater treatment alternatives. Effects of media size, media depth and flow rates on the performance of the continuously operated saturated sand filters treating greywater were evaluated in this study. River sand of three different media sizes 0.30-0.60 (fine), 0.60-0.85 (medium), and 0.85-1.18 (coarse) mm was used and sand filters with the same media size were constructed and operated at flow rates of 10 (320 L/m2/day), 20 and 30 L/d. Fine sand media filter operated at a hydraulic loading rate of 320 L/m2/day gave the best performance with 99, 94 and 95% removal of turbidity, BOD and COD, respectively. NH4-N, PO4-P and FC were reduced by 84, 99% and 1.65 log, respectively. An optimization study showed an optimum sand size of 0.68 mm and a hydraulic loading rate of 470 L/m2/day.       

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    Sand filtration for greywater treatment: long-term performance evaluation and optimization by response surface methodology

    New search for: Shaikh, Irshad N.
    New search for: Ahammed, M. Mansoor

    Greywater treatment and reuse is getting increasing attention all over the world, and sand filters are one of the on-site greywater treatment alternatives. Effects of media size, media depth and flow rates on the performance of the continuously operated saturated sand filters treating greywater were evaluated in this study. River sand of three different media sizes 0.30-0.60 (fine), 0.60-0.85 (medium), and 0.85-1.18 (coarse) mm was used and sand filters with the same media size were constructed and operated at flow rates of 10 (320 L/m2/day), 20 and 30 L/d. Fine sand media filter operated at a hydraulic loading rate of 320 L/m2/day gave the best performance with 99, 94 and 95% removal of turbidity, BOD and COD, respectively. NH4-N, PO4-P and FC were reduced by 84, 99% and 1.65 log, respectively. An optimization study showed an optimum sand size of 0.68 mm and a hydraulic loading rate of 470 L/m2/day.       

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Sand filtration for greywater treatment: long-term performance evaluation and optimization by response surface methodology

    New search for: Shaikh, Irshad N.
    New search for: Ahammed, M. Mansoor

    Greywater treatment and reuse is getting increasing attention all over the world, and sand filters are one of the on-site greywater treatment alternatives. Effects of media size, media depth and flow rates on the performance of the continuously operated saturated sand filters treating greywater were evaluated in this study. River sand of three different media sizes 0.30-0.60 (fine), 0.60-0.85 (medium), and 0.85-1.18 (coarse) mm was used and sand filters with the same media size were constructed and operated at flow rates of 10 (320 L/m2/day), 20 and 30 L/d. Fine sand media filter operated at a hydraulic loading rate of 320 L/m2/day gave the best performance with 99, 94 and 95% removal of turbidity, BOD and COD, respectively. NH4-N, PO4-P and FC were reduced by 84, 99% and 1.65 log, respectively. An optimization study showed an optimum sand size of 0.68 mm and a hydraulic loading rate of 470 L/m2/day.       

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    Title:

    Sand filtration for greywater treatment: long-term performance evaluation and optimization by response surface methodology

    Contributors:

    Shaikh, Irshad N. (author) / Ahammed, M. Mansoor (author)

    Published in:

    Urban Water Journal ; 20 ; 450-464

    Publication date:

    2023-04-21

    Size:

    15 pages

    ISSN:

    1573-062X , 1744-9006

    DOI:

    https://doi.org/10.1080/1573062X.2023.2179928

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Biofilm , greywater reuse , head loss , hydraulic loading rate , response surface methodology , sand filter optimization

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