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    Squeezed MHD tangent hyperbolic fluid flow across a sensor surface

    Neue Suche nach: Sagheer, M.
    Neue Suche nach: Atif, S. M.
    Neue Suche nach: Hussain, S.
    Neue Suche nach: Rehman, H.

    In the present numerical study, the combined effect of temperature‐dependent thermal conductivity, linear thermal radiation, and magnetic effect on shear‐thinning tangent hyperbolic fluid past a sensor surface has been studied. After converting the modelled partial differential equations into ordinary differential equations by using similarity transformation, the system of equations is tackled with the aid of the shooting method. The influence of important parameters on the fluid motion and energy distribution is displayed graphically and analyzed in detail. The presented simulations depict that a significant rise in fluid velocity is noticed for an enhancement in the magnetic parameter while an opposite trend is observed for the temperature distribution. Moreover, the skin friction coefficient decreases as the squeezed flow index is increased.

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    Squeezed MHD tangent hyperbolic fluid flow across a sensor surface

    Neue Suche nach: Sagheer, M.
    Neue Suche nach: Atif, S. M.
    Neue Suche nach: Hussain, S.
    Neue Suche nach: Rehman, H.

    In the present numerical study, the combined effect of temperature‐dependent thermal conductivity, linear thermal radiation, and magnetic effect on shear‐thinning tangent hyperbolic fluid past a sensor surface has been studied. After converting the modelled partial differential equations into ordinary differential equations by using similarity transformation, the system of equations is tackled with the aid of the shooting method. The influence of important parameters on the fluid motion and energy distribution is displayed graphically and analyzed in detail. The presented simulations depict that a significant rise in fluid velocity is noticed for an enhancement in the magnetic parameter while an opposite trend is observed for the temperature distribution. Moreover, the skin friction coefficient decreases as the squeezed flow index is increased.

    Zugriff

    Zugriff prüfen
    Verfügbarkeit in meiner Bibliothek prüfen
    Bestellung bei Subito €

    Squeezed MHD tangent hyperbolic fluid flow across a sensor surface

    Neue Suche nach: Sagheer, M.
    Neue Suche nach: Atif, S. M.
    Neue Suche nach: Hussain, S.
    Neue Suche nach: Rehman, H.

    In the present numerical study, the combined effect of temperature‐dependent thermal conductivity, linear thermal radiation, and magnetic effect on shear‐thinning tangent hyperbolic fluid past a sensor surface has been studied. After converting the modelled partial differential equations into ordinary differential equations by using similarity transformation, the system of equations is tackled with the aid of the shooting method. The influence of important parameters on the fluid motion and energy distribution is displayed graphically and analyzed in detail. The presented simulations depict that a significant rise in fluid velocity is noticed for an enhancement in the magnetic parameter while an opposite trend is observed for the temperature distribution. Moreover, the skin friction coefficient decreases as the squeezed flow index is increased.

    Zugriff

    Zugriff prüfen
    Verfügbarkeit in meiner Bibliothek prüfen
    Bestellung bei Subito €

    Zugriff

    Zugriff prüfen
    Verfügbarkeit in meiner Bibliothek prüfen
    Bestellung bei Subito €

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    Dokumentinformationen
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    Titel:

    Squeezed MHD tangent hyperbolic fluid flow across a sensor surface

    Beteiligte:

    Sagheer, M. (Autor:in) / Atif, S. M. (Autor:in) / Hussain, S. (Autor:in) / Rehman, H. (Autor:in)

    Erschienen in:

    Heat Transfer ; 51 ; 5101-5113

    Erscheinungsdatum:

    01.09.2022

    Format / Umfang:

    13 pages

    ISSN:

    2688-4542 , 2688-4534

    DOI:

    https://doi.org/10.1002/htj.22538

    Medientyp:

    Aufsatz (Zeitschrift)

    Format:

    Elektronische Ressource

    Sprache:

    Englisch

    Schlagwörter:

    channel flow , tangent hyperbolic fluid , variable thermal conductivity , numerical approach

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