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    Magnetohydrodynamic flow of Williamson fluid in a microchannel for both horizontal and inclined loci with wall shear properties

    Neue Suche nach: Gireesha, B. J.
    Neue Suche nach: Sindhu, S.
    Neue Suche nach: Sowmya, G.
    Neue Suche nach: Felicita, A.

    This study reports the flow of Williamson fluid in a microchannel, considering the effect of thermal radiation, heat source, slip regime, and convective boundary. The physical phenomenon is demonstrated by employing the Williamson model. The mathematical expressions are made dimensionless by using nondimensional quantities. The numerical approach called Runge–Kutta–Fehlberg scheme is hired to get the solution. The upshots of the pertinent flow parameter on physical features are visualized through graphs. It is established that the augmentation of Nusselt number has been achieved by increasing Weissenberg number and Reynolds number. In addition to this, it is emphasized that the reduction in the wall velocity gradient is obtained for a higher Weissenberg number.

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    Magnetohydrodynamic flow of Williamson fluid in a microchannel for both horizontal and inclined loci with wall shear properties

    Neue Suche nach: Gireesha, B. J.
    Neue Suche nach: Sindhu, S.
    Neue Suche nach: Sowmya, G.
    Neue Suche nach: Felicita, A.

    This study reports the flow of Williamson fluid in a microchannel, considering the effect of thermal radiation, heat source, slip regime, and convective boundary. The physical phenomenon is demonstrated by employing the Williamson model. The mathematical expressions are made dimensionless by using nondimensional quantities. The numerical approach called Runge–Kutta–Fehlberg scheme is hired to get the solution. The upshots of the pertinent flow parameter on physical features are visualized through graphs. It is established that the augmentation of Nusselt number has been achieved by increasing Weissenberg number and Reynolds number. In addition to this, it is emphasized that the reduction in the wall velocity gradient is obtained for a higher Weissenberg number.

    Zugriff

    Zugriff prüfen
    Verfügbarkeit in meiner Bibliothek prüfen
    Bestellung bei Subito €

    Magnetohydrodynamic flow of Williamson fluid in a microchannel for both horizontal and inclined loci with wall shear properties

    Neue Suche nach: Gireesha, B. J.
    Neue Suche nach: Sindhu, S.
    Neue Suche nach: Sowmya, G.
    Neue Suche nach: Felicita, A.

    This study reports the flow of Williamson fluid in a microchannel, considering the effect of thermal radiation, heat source, slip regime, and convective boundary. The physical phenomenon is demonstrated by employing the Williamson model. The mathematical expressions are made dimensionless by using nondimensional quantities. The numerical approach called Runge–Kutta–Fehlberg scheme is hired to get the solution. The upshots of the pertinent flow parameter on physical features are visualized through graphs. It is established that the augmentation of Nusselt number has been achieved by increasing Weissenberg number and Reynolds number. In addition to this, it is emphasized that the reduction in the wall velocity gradient is obtained for a higher Weissenberg number.

    Zugriff

    Zugriff prüfen
    Verfügbarkeit in meiner Bibliothek prüfen
    Bestellung bei Subito €

    Zugriff

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    Verfügbarkeit in meiner Bibliothek prüfen
    Bestellung bei Subito €

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    Titel:

    Magnetohydrodynamic flow of Williamson fluid in a microchannel for both horizontal and inclined loci with wall shear properties

    Beteiligte:

    Gireesha, B. J. (Autor:in) / Sindhu, S. (Autor:in) / Sowmya, G. (Autor:in) / Felicita, A. (Autor:in)

    Erschienen in:

    Heat Transfer ; 50 ; 1428-1442

    Erscheinungsdatum:

    01.03.2021

    Format / Umfang:

    15 pages

    ISSN:

    2688-4542 , 2688-4534

    DOI:

    https://doi.org/10.1002/htj.21937

    Medientyp:

    Aufsatz (Zeitschrift)

    Format:

    Elektronische Ressource

    Sprache:

    Englisch

    Schlagwörter:

    convective boundary condition , Williamson fluid , microchannel , angle of inclination , slip regime , heat source

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