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    Accuracy of a Stormwater Monitoring Program for Urban Landuses

    New search for: Madarang, Krish
    New search for: Kang, Joo‐Hyon

    This study examined the accuracy of an urban stormwater monitoring program in estimating the annual discharge load (LT) and the annual reduction rate by a stormwater treatment device (RT) for total suspended solids. A calibrated stormwater management model was used to generate the entire stormwater runoff events in one year and was used to estimate LT and RT under different monitoring strategies having limited numbers of runoff events, including random, wet season, antecedent dry days (ADD)‐based, monthly, and seasonally weighted. For random monitoring, 12 storms were required to estimate the values of LT and RT with mean relative errors of 13.98 and 0.24%, respectively. Monthly monitoring had slightly greater mean relative errors compared to random monitoring. Wet season and ADD‐based monitoring under‐ or overestimated both LT and RT. Monitoring with equal numbers of storms from the wet and dry seasons best estimated LT and RT.

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    Accuracy of a Stormwater Monitoring Program for Urban Landuses

    New search for: Madarang, Krish
    New search for: Kang, Joo‐Hyon

    This study examined the accuracy of an urban stormwater monitoring program in estimating the annual discharge load (LT) and the annual reduction rate by a stormwater treatment device (RT) for total suspended solids. A calibrated stormwater management model was used to generate the entire stormwater runoff events in one year and was used to estimate LT and RT under different monitoring strategies having limited numbers of runoff events, including random, wet season, antecedent dry days (ADD)‐based, monthly, and seasonally weighted. For random monitoring, 12 storms were required to estimate the values of LT and RT with mean relative errors of 13.98 and 0.24%, respectively. Monthly monitoring had slightly greater mean relative errors compared to random monitoring. Wet season and ADD‐based monitoring under‐ or overestimated both LT and RT. Monitoring with equal numbers of storms from the wet and dry seasons best estimated LT and RT.

    Access

    Check access
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    Order at Subito €

    Accuracy of a Stormwater Monitoring Program for Urban Landuses

    New search for: Madarang, Krish
    New search for: Kang, Joo‐Hyon

    This study examined the accuracy of an urban stormwater monitoring program in estimating the annual discharge load (LT) and the annual reduction rate by a stormwater treatment device (RT) for total suspended solids. A calibrated stormwater management model was used to generate the entire stormwater runoff events in one year and was used to estimate LT and RT under different monitoring strategies having limited numbers of runoff events, including random, wet season, antecedent dry days (ADD)‐based, monthly, and seasonally weighted. For random monitoring, 12 storms were required to estimate the values of LT and RT with mean relative errors of 13.98 and 0.24%, respectively. Monthly monitoring had slightly greater mean relative errors compared to random monitoring. Wet season and ADD‐based monitoring under‐ or overestimated both LT and RT. Monitoring with equal numbers of storms from the wet and dry seasons best estimated LT and RT.

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    Document information
    Title:

    Accuracy of a Stormwater Monitoring Program for Urban Landuses

    Contributors:

    Madarang, Krish (author) / Kang, Joo‐Hyon (author)

    Published in:

    Water Environment Research ; 85 ; 815-822

    Publication date:

    2013-09-01

    Size:

    8 pages

    ISSN:

    1554-7531 , 1061-4303

    DOI:

    https://doi.org/10.2175/106143013X13736496908942

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    best management practice , monitoring , urban runoff , stormwater management model , stormwater , Monte Carlo sampling

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