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    Spherical Discrete Element Simulation of Seepage Flow with Particle-Fluid Interaction Using Coupled Open Source Software

    New search for: Chen, Feng
    New search for: Drumm, Eric C.
    New search for: Guiochon, Georges

    This paper investigates the seepage flow through idealized particle assemblies comprised of spherical elements. Comparisons between an analytical solution and numerical approximation using the Discrete Element Method (DEM) with coupled hydromechanical interaction between the particles and the pore fluid are provided. In the coupled flow DEM, the fluid motion is treated at the macroscopic scale by solving the local averaged Navier-Stokes equation, while the particle interaction is treated at the microscopic scale. The numerical solution is compared with the classical analytical solution in terms of quantity of flow and the pore pressure distribution.

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    Spherical Discrete Element Simulation of Seepage Flow with Particle-Fluid Interaction Using Coupled Open Source Software

    New search for: Chen, Feng
    New search for: Drumm, Eric C.
    New search for: Guiochon, Georges

    This paper investigates the seepage flow through idealized particle assemblies comprised of spherical elements. Comparisons between an analytical solution and numerical approximation using the Discrete Element Method (DEM) with coupled hydromechanical interaction between the particles and the pore fluid are provided. In the coupled flow DEM, the fluid motion is treated at the macroscopic scale by solving the local averaged Navier-Stokes equation, while the particle interaction is treated at the microscopic scale. The numerical solution is compared with the classical analytical solution in terms of quantity of flow and the pore pressure distribution.

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    Spherical Discrete Element Simulation of Seepage Flow with Particle-Fluid Interaction Using Coupled Open Source Software

    New search for: Chen, Feng
    New search for: Drumm, Eric C.
    New search for: Guiochon, Georges

    This paper investigates the seepage flow through idealized particle assemblies comprised of spherical elements. Comparisons between an analytical solution and numerical approximation using the Discrete Element Method (DEM) with coupled hydromechanical interaction between the particles and the pore fluid are provided. In the coupled flow DEM, the fluid motion is treated at the macroscopic scale by solving the local averaged Navier-Stokes equation, while the particle interaction is treated at the microscopic scale. The numerical solution is compared with the classical analytical solution in terms of quantity of flow and the pore pressure distribution.

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    Title:

    Spherical Discrete Element Simulation of Seepage Flow with Particle-Fluid Interaction Using Coupled Open Source Software

    Contributors:

    Chen, Feng (author) / Drumm, Eric C. (author) / Guiochon, Georges (author)

    Conference:

    GeoShanghai International Conference 2010 ; 2010 ; Shanghai, China

    Published in:

    Geoenvironmental Engineering and Geotechnics ; 253-260

    Publication date:

    2010-05-14

    ISBN:

    9780784411056

    DOI:

    https://doi.org/10.1061/41105(378)35

    Type of media:

    Conference paper

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Rock mechanics , Discrete elements , Geotechnical engineering , Soil mechanics , Seepage , Pore pressure , Computer software , Particles , Deformation

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