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    Numerical Simulation of the Liquefaction Phenomenon by MPSM-DEM Coupled CAES

    New search for: Koki Nakao
    New search for: Shinya Inazumi
    New search for: Tsuyoshi Takahashi
    New search for: Supakij Nontananandh

    The mechanism of liquefaction and the factors that cause liquefaction behavior have previously been examined and evaluated, both analytically and experimentally; construction including liquefaction countermeasures is being implemented, based on these findings. This study presents a theoretical visualization of the mechanism of liquefaction generation and evaluates the behavior of particles in the ground. Specifically, an MPSM-DEM coupled CAE system (CAES) is employed to view the events beneath the ground, modeled three-dimensionally when an external acceleration is applied to simulate seismic waves and reveals the behavior below the surface. The numerical simulation of the liquefaction phenomenon, as represented by an MPSM-DEM coupled CAES system, clearly showed the mechanism of liquefaction generation and contributed to the design and accountability of more economical and sustainable liquefaction countermeasures, regardless of the field of specialization.

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    Numerical Simulation of the Liquefaction Phenomenon by MPSM-DEM Coupled CAES

    New search for: Koki Nakao
    New search for: Shinya Inazumi
    New search for: Tsuyoshi Takahashi
    New search for: Supakij Nontananandh

    The mechanism of liquefaction and the factors that cause liquefaction behavior have previously been examined and evaluated, both analytically and experimentally; construction including liquefaction countermeasures is being implemented, based on these findings. This study presents a theoretical visualization of the mechanism of liquefaction generation and evaluates the behavior of particles in the ground. Specifically, an MPSM-DEM coupled CAE system (CAES) is employed to view the events beneath the ground, modeled three-dimensionally when an external acceleration is applied to simulate seismic waves and reveals the behavior below the surface. The numerical simulation of the liquefaction phenomenon, as represented by an MPSM-DEM coupled CAES system, clearly showed the mechanism of liquefaction generation and contributed to the design and accountability of more economical and sustainable liquefaction countermeasures, regardless of the field of specialization.

    Access

    Download

    Numerical Simulation of the Liquefaction Phenomenon by MPSM-DEM Coupled CAES

    New search for: Koki Nakao
    New search for: Shinya Inazumi
    New search for: Tsuyoshi Takahashi
    New search for: Supakij Nontananandh

    The mechanism of liquefaction and the factors that cause liquefaction behavior have previously been examined and evaluated, both analytically and experimentally; construction including liquefaction countermeasures is being implemented, based on these findings. This study presents a theoretical visualization of the mechanism of liquefaction generation and evaluates the behavior of particles in the ground. Specifically, an MPSM-DEM coupled CAE system (CAES) is employed to view the events beneath the ground, modeled three-dimensionally when an external acceleration is applied to simulate seismic waves and reveals the behavior below the surface. The numerical simulation of the liquefaction phenomenon, as represented by an MPSM-DEM coupled CAES system, clearly showed the mechanism of liquefaction generation and contributed to the design and accountability of more economical and sustainable liquefaction countermeasures, regardless of the field of specialization.

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    Title:

    Numerical Simulation of the Liquefaction Phenomenon by MPSM-DEM Coupled CAES

    Contributors:

    Koki Nakao (author) / Shinya Inazumi (author) / Tsuyoshi Takahashi (author) / Supakij Nontananandh (author)

    Published in:

    Sustainability, Vol 14, Iss 12, p 7517 (2022)

    Publication date:

    2022

    ISSN:

    2071-1050

    DOI:

    https://doi.org/10.3390/su14127517

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    computer-aided engineering system (CAES) , discrete element method (DEM) , liquefaction , moving particle semi-implicit method (MPSM) , Environmental effects of industries and plants , TD194-195 , Renewable energy sources , TJ807-830 , Environmental sciences , GE1-350

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

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