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    Numerical and Experimental Investigation of Wave Overtopping of Barriers

    New search for: Giovanni Cannata
    New search for: Marco Tamburrino
    New search for: Simone Ferrari
    New search for: Maria Grazia Badas
    New search for: Giorgio Querzoli

    We present a study of wave overtopping of barriers. The phenomenon of the wave overtopping over emerged structures is reproduced both numerically and experimentally. The numerical simulations are carried out by a numerical scheme for three-dimensional free-surface flows, which is based on the solution of the Navier−Stokes equations in a novel integral form on a time-dependent coordinate system. In the adopted numerical scheme, a novel wet−dry technique, based on the exact solution of the Riemann problem over the dry bed, is proposed. The experimental tests are carried out by adopting a nonintrusive and continuous-in-space image-analysis technique, which is able to properly identify the free surface even in very shallow waters or breaking waves. A comparison between numerical and experimental results, for several wave and water-depth conditions, is shown.

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    Numerical and Experimental Investigation of Wave Overtopping of Barriers

    New search for: Giovanni Cannata
    New search for: Marco Tamburrino
    New search for: Simone Ferrari
    New search for: Maria Grazia Badas
    New search for: Giorgio Querzoli

    We present a study of wave overtopping of barriers. The phenomenon of the wave overtopping over emerged structures is reproduced both numerically and experimentally. The numerical simulations are carried out by a numerical scheme for three-dimensional free-surface flows, which is based on the solution of the Navier−Stokes equations in a novel integral form on a time-dependent coordinate system. In the adopted numerical scheme, a novel wet−dry technique, based on the exact solution of the Riemann problem over the dry bed, is proposed. The experimental tests are carried out by adopting a nonintrusive and continuous-in-space image-analysis technique, which is able to properly identify the free surface even in very shallow waters or breaking waves. A comparison between numerical and experimental results, for several wave and water-depth conditions, is shown.

    Access

    Download

    Numerical and Experimental Investigation of Wave Overtopping of Barriers

    New search for: Giovanni Cannata
    New search for: Marco Tamburrino
    New search for: Simone Ferrari
    New search for: Maria Grazia Badas
    New search for: Giorgio Querzoli

    We present a study of wave overtopping of barriers. The phenomenon of the wave overtopping over emerged structures is reproduced both numerically and experimentally. The numerical simulations are carried out by a numerical scheme for three-dimensional free-surface flows, which is based on the solution of the Navier−Stokes equations in a novel integral form on a time-dependent coordinate system. In the adopted numerical scheme, a novel wet−dry technique, based on the exact solution of the Riemann problem over the dry bed, is proposed. The experimental tests are carried out by adopting a nonintrusive and continuous-in-space image-analysis technique, which is able to properly identify the free surface even in very shallow waters or breaking waves. A comparison between numerical and experimental results, for several wave and water-depth conditions, is shown.

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    Title:

    Numerical and Experimental Investigation of Wave Overtopping of Barriers

    Contributors:

    Giovanni Cannata (author) / Marco Tamburrino (author) / Simone Ferrari (author) / Maria Grazia Badas (author) / Giorgio Querzoli (author)

    Published in:

    Water, Vol 12, Iss 2, p 451 (2020)

    Publication date:

    2020

    ISSN:

    2073-4441

    DOI:

    https://doi.org/10.3390/w12020451

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    wave overtopping , free-surface flows , numerical simulations , wet–dry technique , experimental tests , time-dependent coordinates , image analysis , Hydraulic engineering , TC1-978 , Water supply for domestic and industrial purposes , TD201-500

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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