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    Influence of Hall current effect on hybrid nanofluid flow over a slender stretching sheet with zero nanoparticle flux

    New search for: Das, Kalidas
    New search for: Giri, Shib S.
    New search for: Kundu, Prabir K.

    The present article explores steady, incompressible, and electrically conducting viscous hybrid‐nanofluid flow through an impermeable slender stretching sheet. We have opted for water (H2O) as base fluid and two nanoparticles namely Al2O3 and graphene for the hybrid‐nanofluid. The consequence of nonuniform magnetic field and Hall current is accounted for in the flow distribution. Zero mass‐flux boundary conditions have been included here. The leading partial differential equations of the acknowledged model revise to similarity variables. Next, the subsequent equations are numerically solved by a shooting scheme based on Runge–Kutta fourth‐order procedure. The consequences of boosting flow factors on transport systems are achieved accurately through the requisite figures and charts. Concentration outlines are dual in nature when the wall‐thickness factor intensifies. The rate of heat and mass transmit augments with wall‐thickness factor.

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    Influence of Hall current effect on hybrid nanofluid flow over a slender stretching sheet with zero nanoparticle flux

    New search for: Das, Kalidas
    New search for: Giri, Shib S.
    New search for: Kundu, Prabir K.

    The present article explores steady, incompressible, and electrically conducting viscous hybrid‐nanofluid flow through an impermeable slender stretching sheet. We have opted for water (H2O) as base fluid and two nanoparticles namely Al2O3 and graphene for the hybrid‐nanofluid. The consequence of nonuniform magnetic field and Hall current is accounted for in the flow distribution. Zero mass‐flux boundary conditions have been included here. The leading partial differential equations of the acknowledged model revise to similarity variables. Next, the subsequent equations are numerically solved by a shooting scheme based on Runge–Kutta fourth‐order procedure. The consequences of boosting flow factors on transport systems are achieved accurately through the requisite figures and charts. Concentration outlines are dual in nature when the wall‐thickness factor intensifies. The rate of heat and mass transmit augments with wall‐thickness factor.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Influence of Hall current effect on hybrid nanofluid flow over a slender stretching sheet with zero nanoparticle flux

    New search for: Das, Kalidas
    New search for: Giri, Shib S.
    New search for: Kundu, Prabir K.

    The present article explores steady, incompressible, and electrically conducting viscous hybrid‐nanofluid flow through an impermeable slender stretching sheet. We have opted for water (H2O) as base fluid and two nanoparticles namely Al2O3 and graphene for the hybrid‐nanofluid. The consequence of nonuniform magnetic field and Hall current is accounted for in the flow distribution. Zero mass‐flux boundary conditions have been included here. The leading partial differential equations of the acknowledged model revise to similarity variables. Next, the subsequent equations are numerically solved by a shooting scheme based on Runge–Kutta fourth‐order procedure. The consequences of boosting flow factors on transport systems are achieved accurately through the requisite figures and charts. Concentration outlines are dual in nature when the wall‐thickness factor intensifies. The rate of heat and mass transmit augments with wall‐thickness factor.

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    Title:

    Influence of Hall current effect on hybrid nanofluid flow over a slender stretching sheet with zero nanoparticle flux

    Contributors:

    Das, Kalidas (author) / Giri, Shib S. (author) / Kundu, Prabir K. (author)

    Published in:

    Heat Transfer ; 50 ; 7232-7250

    Publication date:

    2021-11-01

    Size:

    19 pages

    ISSN:

    2688-4542 , 2688-4534

    DOI:

    https://doi.org/10.1002/htj.22226

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    slendering stretching sheet , Hall current , zero nanoparticles flux , hybrid nanofluid , nanofluid

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