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Slip flow of hybrid nanofluid in presence of solar radiation

Author

Listed:
  • Kalidas Das

    (Department of Mathematics, Krishnagar Government College, WB, India)

  • Nilangshu Acharya

    (��Department of Mathematics, P.R. Thakur Government College, WB, India)

  • Md Tausif SK

    (��Department of Mathematics, A.B.N. Seal College, Cooch Behar 736101, West Bengal, India)

  • Pinaki Ranjan Duari

    (�Department of Basic Science & Humanities, Asansol Engineering College, WB, India)

  • Tanmoy Chakraborty

    (�Department of Engineering Science & Humanities, Academy of Technology, WB, India)

Abstract

A theoretical model on MHD hybrid nanofluid flow in accordance with non-uniform heat flux and solar energy radiation has been studied in our work. Also, the impact of multiple slip conditions is presumed at the boundary. Comparative flow analyses for hybrid nanofluid (Al2O3/Cu–H2O) and single nanoparticle-based nanofluid (Cu–H2O) are addressed here with graphs and charts. The leading partial differential equations with boundary conditions have been converted into ordinary differential equations with the aid of similarity transformation. The final system is tackled via the fifth-order Runge–Kutta–Felberg method with shooting procedure and the computation is done using Maple 17. One of the interesting results shows that with the growth of thermal radiation, the Nusselt number for Cu–H2O is reduced by 26.16%, whereas for the same, Nusselt number for Al2O3/Cu–H2O is lessened by 27.38%. Fallout shows that with the growing values of velocity slip parameter, the thermal boundary layer thickness enlarges faster for Al2O3/Cu–H2O in comparison to Cu–H2O.

Suggested Citation

  • Kalidas Das & Nilangshu Acharya & Md Tausif SK & Pinaki Ranjan Duari & Tanmoy Chakraborty, 2022. "Slip flow of hybrid nanofluid in presence of solar radiation," International Journal of Modern Physics C (IJMPC), World Scientific Publishing Co. Pte. Ltd., vol. 33(02), pages 1-17, February.
    • Handle: RePEc:wsi:ijmpcx:v:33:y:2022:i:02:n:s0129183122500176
    DOI: 10.1142/S0129183122500176
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