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    A Chemo-Thermo-Mechanically Coupled Analysis of Ground Deformation Induced by Methane Hydrate Dissociation

    New search for: Wan, Richard
    New search for: Alsaleh, Mustafa
    New search for: Labuz, Joe
    New search for: Kimoto, Sayuri
    New search for: Oka, Fusao
    New search for: Fushita, Tomohiko

    In the present paper, we have numerically analyzed the dissociation process of seabed ground and predicted the deformation of hydrate-bearing sediments. The simulation is conducted using the chemo-thermo-mechanically coupled model that takes into account the phase changes between hydrates and fluids during dissociation, the deformation behavior of the solid skeleton, and heat transfer simultaneously (Kimoto et al. 2007a). In addition, the dependency of the permeability coefficients for water and gas on hydrate saturation is introduced in the present analysis. From the analytical results, it has been found that ground deformation is induced by the dissipation and generation of water and gas and by a reduction of soil strength during the dissociation process.

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    A Chemo-Thermo-Mechanically Coupled Analysis of Ground Deformation Induced by Methane Hydrate Dissociation

    New search for: Wan, Richard
    New search for: Alsaleh, Mustafa
    New search for: Labuz, Joe
    New search for: Kimoto, Sayuri
    New search for: Oka, Fusao
    New search for: Fushita, Tomohiko

    In the present paper, we have numerically analyzed the dissociation process of seabed ground and predicted the deformation of hydrate-bearing sediments. The simulation is conducted using the chemo-thermo-mechanically coupled model that takes into account the phase changes between hydrates and fluids during dissociation, the deformation behavior of the solid skeleton, and heat transfer simultaneously (Kimoto et al. 2007a). In addition, the dependency of the permeability coefficients for water and gas on hydrate saturation is introduced in the present analysis. From the analytical results, it has been found that ground deformation is induced by the dissipation and generation of water and gas and by a reduction of soil strength during the dissociation process.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    A Chemo-Thermo-Mechanically Coupled Analysis of Ground Deformation Induced by Methane Hydrate Dissociation

    New search for: Wan, Richard
    New search for: Alsaleh, Mustafa
    New search for: Labuz, Joe
    New search for: Kimoto, Sayuri
    New search for: Oka, Fusao
    New search for: Fushita, Tomohiko

    In the present paper, we have numerically analyzed the dissociation process of seabed ground and predicted the deformation of hydrate-bearing sediments. The simulation is conducted using the chemo-thermo-mechanically coupled model that takes into account the phase changes between hydrates and fluids during dissociation, the deformation behavior of the solid skeleton, and heat transfer simultaneously (Kimoto et al. 2007a). In addition, the dependency of the permeability coefficients for water and gas on hydrate saturation is introduced in the present analysis. From the analytical results, it has been found that ground deformation is induced by the dissipation and generation of water and gas and by a reduction of soil strength during the dissociation process.

    Access

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    Title:

    A Chemo-Thermo-Mechanically Coupled Analysis of Ground Deformation Induced by Methane Hydrate Dissociation

    Contributors:

    Wan, Richard (editor) / Alsaleh, Mustafa (editor) / Labuz, Joe (editor) / Kimoto, Sayuri (author) / Oka, Fusao (author) / Fushita, Tomohiko (author)

    Published in:

    Bifurcations, Instabilities and Degradations in Geomaterials ; Chapter: 9 ; 145-165

    Springer Series in Geomechanics and Geoengineering ; 0

    Publication date:

    2011-01-01

    Size:

    21 pages

    ISBN:

    978-3-642-18284-6 , 978-3-642-18283-9

    ISSN:

    1866-8763 , 1866-8755

    DOI:

    https://doi.org/10.1007/978-3-642-18284-6_9

    Type of media:

    Article/Chapter (Book)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Methane Hydrate , Pore Water Pressure , Unsaturated Soil , Ground Deformation , Couple Analysis Engineering , Solid Mechanics , Geotechnical Engineering & Applied Earth Sciences , Mineral Resources , Mathematical and Computational Engineering

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