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    Diffusion Wave Approximation of Depth-Averaged Flow Interaction with Porous Media

    New search for: Bhat, Naveed Ul Hassan
    New search for: Pahar, Gourabananda

    A two-dimensional diffusive wave framework is proposed for modeling interaction between flow through and outside porous media. The depth-integrated parabolic model was developed with an assumption of zero temporal/convective accelerations, making it appropriate for field-scale simulations. The effects of bed shear arising from the bathymetry, roughness, and properties of granular media are consolidated into a single hydraulic diffusivity coefficient. The equation is resolved in a structured finite-volume grid with implicit time stepping. The proposed framework was validated with a standard analytical solution and small-scale experimental results. A synthetic test case containing irregular ground surface demonstrated the capability of the proposed model for real-time simulation.

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    Diffusion Wave Approximation of Depth-Averaged Flow Interaction with Porous Media

    New search for: Bhat, Naveed Ul Hassan
    New search for: Pahar, Gourabananda

    A two-dimensional diffusive wave framework is proposed for modeling interaction between flow through and outside porous media. The depth-integrated parabolic model was developed with an assumption of zero temporal/convective accelerations, making it appropriate for field-scale simulations. The effects of bed shear arising from the bathymetry, roughness, and properties of granular media are consolidated into a single hydraulic diffusivity coefficient. The equation is resolved in a structured finite-volume grid with implicit time stepping. The proposed framework was validated with a standard analytical solution and small-scale experimental results. A synthetic test case containing irregular ground surface demonstrated the capability of the proposed model for real-time simulation.

    Access

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    Diffusion Wave Approximation of Depth-Averaged Flow Interaction with Porous Media

    New search for: Bhat, Naveed Ul Hassan
    New search for: Pahar, Gourabananda

    A two-dimensional diffusive wave framework is proposed for modeling interaction between flow through and outside porous media. The depth-integrated parabolic model was developed with an assumption of zero temporal/convective accelerations, making it appropriate for field-scale simulations. The effects of bed shear arising from the bathymetry, roughness, and properties of granular media are consolidated into a single hydraulic diffusivity coefficient. The equation is resolved in a structured finite-volume grid with implicit time stepping. The proposed framework was validated with a standard analytical solution and small-scale experimental results. A synthetic test case containing irregular ground surface demonstrated the capability of the proposed model for real-time simulation.

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    Document information
    Title:

    Diffusion Wave Approximation of Depth-Averaged Flow Interaction with Porous Media

    Contributors:

    Bhat, Naveed Ul Hassan (author) / Pahar, Gourabananda (author)

    Published in:

    Journal of Hydrologic Engineering ; 26

    Publication date:

    2020-12-02

    ISSN:

    1084-0699 , 1943-5584

    DOI:

    https://doi.org/10.1061/(ASCE)HE.1943-5584.0002028

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

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