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    Investigation of Oldroyd‐B fluid flow and heat transfer over a stretching sheet with nonlinear radiation and heat source

    New search for: Goyal, Mamta
    New search for: Sharma, Surbhi

    The given investigation concerns the study of non‐Newtonian Oldroyd‐B fluid flow across a permeable surface along with nonlinear thermal radiation, chemical reactions, and heat sources. Equations modified are thus numerically evaluated by employing bvp4c‐technique. Obtained outcomes are exhibited graphically. Pictorial notations are used to investigate the consequences of necessary parameters of velocity, energy, and mass. Acquired outcomes provide promising agreement with already established consequences provided in the open literature. The obtained results guided that magnetic field parameter ( M $M$ ), porosity parameter ( K p $Kp$ ), Deborah number β 1 ${\beta }_{1}$ reduce momentum boundary layer thickness, furthermore, growth in the relevant Deborah number β 2 ${\beta }_{2}$ improves the corresponding momentum boundary layer.

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    Investigation of Oldroyd‐B fluid flow and heat transfer over a stretching sheet with nonlinear radiation and heat source

    New search for: Goyal, Mamta
    New search for: Sharma, Surbhi

    The given investigation concerns the study of non‐Newtonian Oldroyd‐B fluid flow across a permeable surface along with nonlinear thermal radiation, chemical reactions, and heat sources. Equations modified are thus numerically evaluated by employing bvp4c‐technique. Obtained outcomes are exhibited graphically. Pictorial notations are used to investigate the consequences of necessary parameters of velocity, energy, and mass. Acquired outcomes provide promising agreement with already established consequences provided in the open literature. The obtained results guided that magnetic field parameter ( M $M$ ), porosity parameter ( K p $Kp$ ), Deborah number β 1 ${\beta }_{1}$ reduce momentum boundary layer thickness, furthermore, growth in the relevant Deborah number β 2 ${\beta }_{2}$ improves the corresponding momentum boundary layer.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Investigation of Oldroyd‐B fluid flow and heat transfer over a stretching sheet with nonlinear radiation and heat source

    New search for: Goyal, Mamta
    New search for: Sharma, Surbhi

    The given investigation concerns the study of non‐Newtonian Oldroyd‐B fluid flow across a permeable surface along with nonlinear thermal radiation, chemical reactions, and heat sources. Equations modified are thus numerically evaluated by employing bvp4c‐technique. Obtained outcomes are exhibited graphically. Pictorial notations are used to investigate the consequences of necessary parameters of velocity, energy, and mass. Acquired outcomes provide promising agreement with already established consequences provided in the open literature. The obtained results guided that magnetic field parameter ( M $M$ ), porosity parameter ( K p $Kp$ ), Deborah number β 1 ${\beta }_{1}$ reduce momentum boundary layer thickness, furthermore, growth in the relevant Deborah number β 2 ${\beta }_{2}$ improves the corresponding momentum boundary layer.

    Access

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    Title:

    Investigation of Oldroyd‐B fluid flow and heat transfer over a stretching sheet with nonlinear radiation and heat source

    Contributors:

    Goyal, Mamta (author) / Sharma, Surbhi (author)

    Published in:

    Heat Transfer ; 52 ; 5361-5380

    Publication date:

    2023-12-01

    Size:

    20 pages

    ISSN:

    2688-4534 , 2688-4542

    DOI:

    https://doi.org/10.1002/htj.22927

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    chemical reaction , nonlinear radiation , Oldroyd‐B fluid , porous medium

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