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    Analysis and Discussion of Two-Way Coupling Effects in Particle-Laden Turbulent Channel Flow

    New search for: Santiago Laín
    New search for: Daniel Ortíz
    New search for: Jesús Antonio Ramirez
    New search for: Carlos Alberto Duque

    This paper studies the turbulence modification caused by the presence of solid particles in fully developed channel flow by means of the point particle Direct Numerical Simulations (DNS) approach. Inertial particles much smaller than the smallest vortical flow structures are considered, maintaining a volume fraction of the order , where inter-particle collisions are rare and have nearly no influence on flow development. To avoid concurrent effects that could mask the analysis of fluid turbulence interaction, gravity is not included in the study, and particle-smooth wall collisions are modelled as ideal reflections. The alteration of fluid turbulence dynamics by the particles is illustrated and discussed, providing an overview of the fluid-particle interaction phenomena occurring at both microscopic and macroscopic flow levels. Finally, the relation of such phenomena with drag-reducing effects by particles is demonstrated.

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    Analysis and Discussion of Two-Way Coupling Effects in Particle-Laden Turbulent Channel Flow

    New search for: Santiago Laín
    New search for: Daniel Ortíz
    New search for: Jesús Antonio Ramirez
    New search for: Carlos Alberto Duque

    This paper studies the turbulence modification caused by the presence of solid particles in fully developed channel flow by means of the point particle Direct Numerical Simulations (DNS) approach. Inertial particles much smaller than the smallest vortical flow structures are considered, maintaining a volume fraction of the order , where inter-particle collisions are rare and have nearly no influence on flow development. To avoid concurrent effects that could mask the analysis of fluid turbulence interaction, gravity is not included in the study, and particle-smooth wall collisions are modelled as ideal reflections. The alteration of fluid turbulence dynamics by the particles is illustrated and discussed, providing an overview of the fluid-particle interaction phenomena occurring at both microscopic and macroscopic flow levels. Finally, the relation of such phenomena with drag-reducing effects by particles is demonstrated.

    Access

    Download

    Analysis and Discussion of Two-Way Coupling Effects in Particle-Laden Turbulent Channel Flow

    New search for: Santiago Laín
    New search for: Daniel Ortíz
    New search for: Jesús Antonio Ramirez
    New search for: Carlos Alberto Duque

    This paper studies the turbulence modification caused by the presence of solid particles in fully developed channel flow by means of the point particle Direct Numerical Simulations (DNS) approach. Inertial particles much smaller than the smallest vortical flow structures are considered, maintaining a volume fraction of the order , where inter-particle collisions are rare and have nearly no influence on flow development. To avoid concurrent effects that could mask the analysis of fluid turbulence interaction, gravity is not included in the study, and particle-smooth wall collisions are modelled as ideal reflections. The alteration of fluid turbulence dynamics by the particles is illustrated and discussed, providing an overview of the fluid-particle interaction phenomena occurring at both microscopic and macroscopic flow levels. Finally, the relation of such phenomena with drag-reducing effects by particles is demonstrated.

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    Download

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    Title:

    Analysis and Discussion of Two-Way Coupling Effects in Particle-Laden Turbulent Channel Flow

    Contributors:

    Santiago Laín (author) / Daniel Ortíz (author) / Jesús Antonio Ramirez (author) / Carlos Alberto Duque (author)

    Published in:

    Ingeniería e Investigación, Vol 43, Iss 1, Pp e87275-e87275 (2022)

    Publication date:

    2022

    ISSN:

    0120-5609 , 2248-8723

    DOI:

    https://doi.org/10.15446/ing.investig.87275

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    direct numerical simulation , particle-laden channel flow , turbulence , two-way coupling , Engineering (General). Civil engineering (General) , TA1-2040

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

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