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    Underestimation of flood quantiles from parallel drainage areas

    New search for: Zhou, Yongchao
    New search for: Guo, Yiping
    New search for: Baetz, Brian W.

    A drainage area is often divided into sub-areas for estimating the area's time of concentration. If runoff from the sub-areas concentrates in parallel to the drainage outlet, the time of concentration of the drainage area is usually estimated as the longest time of travel through the individual sub-areas. Findings reported here show that this conventionally used method of estimating time of concentration for parallel drainage areas is inappropriate and may result in underestimation of flood quantiles. A more suitable method of estimating the time of concentration for areas comprised of parallel sub-areas is to use a runoff-weighted average of the times of travel through the parallel sub-areas. The runoff weight of each sub-area can be calculated as the product of its runoff coefficient and area. This proposed method was tested and shown to provide more accurate design flood estimates. Also compared in this study are design flood estimates obtained through continuous simulation and design storm modelling.

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    Underestimation of flood quantiles from parallel drainage areas

    New search for: Zhou, Yongchao
    New search for: Guo, Yiping
    New search for: Baetz, Brian W.

    A drainage area is often divided into sub-areas for estimating the area's time of concentration. If runoff from the sub-areas concentrates in parallel to the drainage outlet, the time of concentration of the drainage area is usually estimated as the longest time of travel through the individual sub-areas. Findings reported here show that this conventionally used method of estimating time of concentration for parallel drainage areas is inappropriate and may result in underestimation of flood quantiles. A more suitable method of estimating the time of concentration for areas comprised of parallel sub-areas is to use a runoff-weighted average of the times of travel through the parallel sub-areas. The runoff weight of each sub-area can be calculated as the product of its runoff coefficient and area. This proposed method was tested and shown to provide more accurate design flood estimates. Also compared in this study are design flood estimates obtained through continuous simulation and design storm modelling.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Underestimation of flood quantiles from parallel drainage areas

    New search for: Zhou, Yongchao
    New search for: Guo, Yiping
    New search for: Baetz, Brian W.

    A drainage area is often divided into sub-areas for estimating the area's time of concentration. If runoff from the sub-areas concentrates in parallel to the drainage outlet, the time of concentration of the drainage area is usually estimated as the longest time of travel through the individual sub-areas. Findings reported here show that this conventionally used method of estimating time of concentration for parallel drainage areas is inappropriate and may result in underestimation of flood quantiles. A more suitable method of estimating the time of concentration for areas comprised of parallel sub-areas is to use a runoff-weighted average of the times of travel through the parallel sub-areas. The runoff weight of each sub-area can be calculated as the product of its runoff coefficient and area. This proposed method was tested and shown to provide more accurate design flood estimates. Also compared in this study are design flood estimates obtained through continuous simulation and design storm modelling.

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    Title:

    Underestimation of flood quantiles from parallel drainage areas

    Contributors:

    Zhou, Yongchao (author) / Guo, Yiping (author) / Baetz, Brian W. (author)

    Published in:

    Urban Water Journal ; 13 ; 441-453

    Publication date:

    2016-07-03

    Size:

    13 pages

    ISSN:

    1573-062X , 1744-9006

    DOI:

    https://doi.org/10.1080/1573062X.2014.993992

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    time of concentration , design flood estimation , hydrologic modelling , watershed models , lumped rainfall-runoff models , discretization , discretized hydrologic models

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