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    Heat transport in a sandwiched set‐up of MHD Newtonian–Casson–Newtonian fluids through a porous medium

    New search for: Raje, Ankush
    New search for: Bhise, Ashlesha A.

    The time‐dependent sandwiched flow of immiscible fluids plays a vital role in petroleum extraction, bio‐fluid mechanics, blood rheology, and so forth. Owing to their applications, the present study focuses on exploring the unsteady flow of Casson fluid through porous media sandwiched between Newtonian fluids in the channel. The channel is placed in the horizontal position, wherein the Casson fluid layer is in the central region, and Newtonian fluids are in the upper and lower regions. The governing system of equations is numerically solved using the finite difference method to obtain flow and heat transfer profiles. The influence of vital parameters on flow and heat transfer is discussed. Furthermore, the parameters of engineering interest, that is, fluid flow rate, skin friction, and Nusselt number are also analyzed in this study.

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    Heat transport in a sandwiched set‐up of MHD Newtonian–Casson–Newtonian fluids through a porous medium

    New search for: Raje, Ankush
    New search for: Bhise, Ashlesha A.

    The time‐dependent sandwiched flow of immiscible fluids plays a vital role in petroleum extraction, bio‐fluid mechanics, blood rheology, and so forth. Owing to their applications, the present study focuses on exploring the unsteady flow of Casson fluid through porous media sandwiched between Newtonian fluids in the channel. The channel is placed in the horizontal position, wherein the Casson fluid layer is in the central region, and Newtonian fluids are in the upper and lower regions. The governing system of equations is numerically solved using the finite difference method to obtain flow and heat transfer profiles. The influence of vital parameters on flow and heat transfer is discussed. Furthermore, the parameters of engineering interest, that is, fluid flow rate, skin friction, and Nusselt number are also analyzed in this study.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Heat transport in a sandwiched set‐up of MHD Newtonian–Casson–Newtonian fluids through a porous medium

    New search for: Raje, Ankush
    New search for: Bhise, Ashlesha A.

    The time‐dependent sandwiched flow of immiscible fluids plays a vital role in petroleum extraction, bio‐fluid mechanics, blood rheology, and so forth. Owing to their applications, the present study focuses on exploring the unsteady flow of Casson fluid through porous media sandwiched between Newtonian fluids in the channel. The channel is placed in the horizontal position, wherein the Casson fluid layer is in the central region, and Newtonian fluids are in the upper and lower regions. The governing system of equations is numerically solved using the finite difference method to obtain flow and heat transfer profiles. The influence of vital parameters on flow and heat transfer is discussed. Furthermore, the parameters of engineering interest, that is, fluid flow rate, skin friction, and Nusselt number are also analyzed in this study.

    Access

    Check access
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    Title:

    Heat transport in a sandwiched set‐up of MHD Newtonian–Casson–Newtonian fluids through a porous medium

    Contributors:

    Raje, Ankush (author) / Bhise, Ashlesha A. (author)

    Published in:

    Heat Transfer ; 52 ; 122-143

    Publication date:

    2023-01-01

    Size:

    22 pages

    ISSN:

    2688-4534 , 2688-4542

    DOI:

    https://doi.org/10.1002/htj.22688

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Casson fluid , finite difference method , heat transfer , MHD , porous channel , sandwiched fluid flows

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