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    Hydro-morphodynamic model with immersed boundary method for local scour at bridge piers

    New search for: Vonkeman, J. K.
    New search for: Basson, G. R.
    New search for: Smit, G. J. F.

    Bridge pier scour was simulated by a coupled fully 3D hydro-morphodynamic model and validated against 24 experimental datasets for a combination of different pier shapes, approach velocities and sediment bed material. The proposed numerical model adopts an Eulerian multi-fluid model to account for rolling and saltating particles and computes bed shear stresses from implicit wall functions. ANSYS Fluent solved the continuity and Navier-Stokes equations, closed by the RSM turbulence model, which were coupled with sediment transport submodels by source terms. Numerical instabilities were addressed in the sediment transport submodels which were ascribed to the fine mesh resolution required to resolve the crucial horseshoe vortex and the diffusion resulting from the discretization of the Immersed Boundary method.

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    Hydro-morphodynamic model with immersed boundary method for local scour at bridge piers

    New search for: Vonkeman, J. K.
    New search for: Basson, G. R.
    New search for: Smit, G. J. F.

    Bridge pier scour was simulated by a coupled fully 3D hydro-morphodynamic model and validated against 24 experimental datasets for a combination of different pier shapes, approach velocities and sediment bed material. The proposed numerical model adopts an Eulerian multi-fluid model to account for rolling and saltating particles and computes bed shear stresses from implicit wall functions. ANSYS Fluent solved the continuity and Navier-Stokes equations, closed by the RSM turbulence model, which were coupled with sediment transport submodels by source terms. Numerical instabilities were addressed in the sediment transport submodels which were ascribed to the fine mesh resolution required to resolve the crucial horseshoe vortex and the diffusion resulting from the discretization of the Immersed Boundary method.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Hydro-morphodynamic model with immersed boundary method for local scour at bridge piers

    New search for: Vonkeman, J. K.
    New search for: Basson, G. R.
    New search for: Smit, G. J. F.

    Bridge pier scour was simulated by a coupled fully 3D hydro-morphodynamic model and validated against 24 experimental datasets for a combination of different pier shapes, approach velocities and sediment bed material. The proposed numerical model adopts an Eulerian multi-fluid model to account for rolling and saltating particles and computes bed shear stresses from implicit wall functions. ANSYS Fluent solved the continuity and Navier-Stokes equations, closed by the RSM turbulence model, which were coupled with sediment transport submodels by source terms. Numerical instabilities were addressed in the sediment transport submodels which were ascribed to the fine mesh resolution required to resolve the crucial horseshoe vortex and the diffusion resulting from the discretization of the Immersed Boundary method.

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    Title:

    Hydro-morphodynamic model with immersed boundary method for local scour at bridge piers

    Contributors:

    Vonkeman, J. K. (author) / Basson, G. R. (author) / Smit, G. J. F. (author)

    Published in:

    ISH Journal of Hydraulic Engineering ; 28 ; 163-173

    Publication date:

    2022-04-03

    Size:

    11 pages

    ISSN:

    0971-5010 , 2164-3040

    DOI:

    https://doi.org/10.1080/09715010.2020.1853618

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Bridge pier scour , RSM , immersed Boundary , CFD , numerical modelling

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