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    Debris flow entrainment rates in non-uniform channels with convex and concave slopes

    New search for: Li, Pu
    New search for: Hu, Kaiheng
    New search for: Wang, Xiekang

    Channel topography plays an important role in debris flow entrainment processes. Field observations and flume experiments have demonstrated two notable erosion effects: abrasion on convex slopes resulting from layer-by-layer shearing and impact erosion on concave slopes. Most existing formulas for debris flow entrainment rates are derived from the uniform slope assumption and do not account for the two erosion effects. In order to take abrasion and impact erosion into consideration, this study incorporated two channel curvature functions into the entrainment formula that is based on equilibrium between flow frictional forces and basal resistance forces. The two functions control the effects of entrainment on different slope types and are based on empirical relationships with curvature obtained in flume experiments. The revised formula provides a unified procedure for debris flow entrainment rates in non-uniform channels.

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    Debris flow entrainment rates in non-uniform channels with convex and concave slopes

    New search for: Li, Pu
    New search for: Hu, Kaiheng
    New search for: Wang, Xiekang

    Channel topography plays an important role in debris flow entrainment processes. Field observations and flume experiments have demonstrated two notable erosion effects: abrasion on convex slopes resulting from layer-by-layer shearing and impact erosion on concave slopes. Most existing formulas for debris flow entrainment rates are derived from the uniform slope assumption and do not account for the two erosion effects. In order to take abrasion and impact erosion into consideration, this study incorporated two channel curvature functions into the entrainment formula that is based on equilibrium between flow frictional forces and basal resistance forces. The two functions control the effects of entrainment on different slope types and are based on empirical relationships with curvature obtained in flume experiments. The revised formula provides a unified procedure for debris flow entrainment rates in non-uniform channels.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Debris flow entrainment rates in non-uniform channels with convex and concave slopes

    New search for: Li, Pu
    New search for: Hu, Kaiheng
    New search for: Wang, Xiekang

    Channel topography plays an important role in debris flow entrainment processes. Field observations and flume experiments have demonstrated two notable erosion effects: abrasion on convex slopes resulting from layer-by-layer shearing and impact erosion on concave slopes. Most existing formulas for debris flow entrainment rates are derived from the uniform slope assumption and do not account for the two erosion effects. In order to take abrasion and impact erosion into consideration, this study incorporated two channel curvature functions into the entrainment formula that is based on equilibrium between flow frictional forces and basal resistance forces. The two functions control the effects of entrainment on different slope types and are based on empirical relationships with curvature obtained in flume experiments. The revised formula provides a unified procedure for debris flow entrainment rates in non-uniform channels.

    Access

    Check access
    Check availability in my library
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    Title:

    Debris flow entrainment rates in non-uniform channels with convex and concave slopes

    Contributors:

    Li, Pu (author) / Hu, Kaiheng (author) / Wang, Xiekang (author)

    Published in:

    Journal of Hydraulic Research ; 56 ; 156-167

    Publication date:

    2018-03-04

    Size:

    12 pages

    ISSN:

    0022-1686 , 1814-2079

    DOI:

    https://doi.org/10.1080/00221686.2017.1313321

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Concave slopes , convex slopes , debris flow , entrainment , impact erosion , non-uniform channel

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