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    Nonlinear mode analysis of periodic roll waves and wave splitting

    New search for: Shirai, Hidekazu
    New search for: Hosoda, Takashi
    New search for: Kanazawa, Naoya
    New search for: Bashiri, Hamid

    This paper describes the characteristics of the formation of periodic roll waves and the splitting of waves based on nonlinear mode analysis. A novel system is developed to investigate the formation of roll waves through linear and nonlinear modal analyses. The nonlinear analysis shows the feasibility of the periodic roll waves and their splitting when the wavenumber is extremely small. It is observed that there are phase shifts in each term of the momentum equation for the periodic roll waves. The phase of the nonlinear convection term in the fundamental mode is shifted forward relative to the phase of the linear convective term, and it acts as the viscosity term. In contrast, the phase of the nonlinear convection term in the higher mode is delayed, and it acts as the friction term. At a smaller wavenumber, the phase shift in the nonlinear interaction between the fundamental and second modes leads to the suppression of the fundamental mode development, resulting in the wave splitting.

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    Nonlinear mode analysis of periodic roll waves and wave splitting

    New search for: Shirai, Hidekazu
    New search for: Hosoda, Takashi
    New search for: Kanazawa, Naoya
    New search for: Bashiri, Hamid

    This paper describes the characteristics of the formation of periodic roll waves and the splitting of waves based on nonlinear mode analysis. A novel system is developed to investigate the formation of roll waves through linear and nonlinear modal analyses. The nonlinear analysis shows the feasibility of the periodic roll waves and their splitting when the wavenumber is extremely small. It is observed that there are phase shifts in each term of the momentum equation for the periodic roll waves. The phase of the nonlinear convection term in the fundamental mode is shifted forward relative to the phase of the linear convective term, and it acts as the viscosity term. In contrast, the phase of the nonlinear convection term in the higher mode is delayed, and it acts as the friction term. At a smaller wavenumber, the phase shift in the nonlinear interaction between the fundamental and second modes leads to the suppression of the fundamental mode development, resulting in the wave splitting.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Nonlinear mode analysis of periodic roll waves and wave splitting

    New search for: Shirai, Hidekazu
    New search for: Hosoda, Takashi
    New search for: Kanazawa, Naoya
    New search for: Bashiri, Hamid

    This paper describes the characteristics of the formation of periodic roll waves and the splitting of waves based on nonlinear mode analysis. A novel system is developed to investigate the formation of roll waves through linear and nonlinear modal analyses. The nonlinear analysis shows the feasibility of the periodic roll waves and their splitting when the wavenumber is extremely small. It is observed that there are phase shifts in each term of the momentum equation for the periodic roll waves. The phase of the nonlinear convection term in the fundamental mode is shifted forward relative to the phase of the linear convective term, and it acts as the viscosity term. In contrast, the phase of the nonlinear convection term in the higher mode is delayed, and it acts as the friction term. At a smaller wavenumber, the phase shift in the nonlinear interaction between the fundamental and second modes leads to the suppression of the fundamental mode development, resulting in the wave splitting.

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    Title:

    Nonlinear mode analysis of periodic roll waves and wave splitting

    Contributors:

    Shirai, Hidekazu (author) / Hosoda, Takashi (author) / Kanazawa, Naoya (author) / Bashiri, Hamid (author)

    Published in:

    Journal of Hydraulic Research ; 60 ; 376-388

    Publication date:

    2022-05-04

    Size:

    13 pages

    ISSN:

    0022-1686 , 1814-2079

    DOI:

    https://doi.org/10.1080/00221686.2021.2001587

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Nonlinear mode analysis , numerical simulation , one-dimensional model , open channel flow , roll wave , wave–structure interaction

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