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Entropy and Heat Transfer Analysis for MHD Flow of Cu/Ag-Water-Based Nanofluid on a Heated 3D Plate with Nonlinear Radiation

Author

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  • S. Eswaramoorthi
  • S. Divya
  • Muhammad Faisal
  • Ngawang Namgyel
  • Arun K. Saha

Abstract

This paper scrutinizes the consequences of radiation and heat consumption of MHD convective flow of nanofluid on a heated stretchy plate with injection/suction and convective heating/cooling conditions. The nanofluid encompasses with Cu and Ag nanoparticles. We enforce the suited transformation to remodel the governing mathematical models to ODE models. The HAM (homotopy analysis method) idea is applied to derive the series solutions. The divergence of fluid velocity, temperature, skin friction coefficient, local Nusselt number, entropy generation, and Bejan number on disparate governing parameters is exhibited via graphs and tables. It is seen that the fluid velocity in both directions is subsided when elevating the magnetic field and Forchheimer number. Also, the Cu nanoparticles possess hefty speed compared to Ag nanoparticles because the density of Ag nanoparticles is high compared to that of Cu nanoparticles. The fluid temperature upturns when enlarging the heat generation and radiation parameters. The skin friction coefficients and local Nusselt number are high in Ag nanoparticles than in Cu nanoparticles.

Suggested Citation

  • S. Eswaramoorthi & S. Divya & Muhammad Faisal & Ngawang Namgyel & Arun K. Saha, 2022. "Entropy and Heat Transfer Analysis for MHD Flow of Cu/Ag-Water-Based Nanofluid on a Heated 3D Plate with Nonlinear Radiation," Mathematical Problems in Engineering, Hindawi, vol. 2022, pages 1-14, February.
    • Handle: RePEc:hin:jnlmpe:7319988
    DOI: 10.1155/2022/7319988
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