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The Shape Effect of Gold Nanoparticles on Squeezing Nanofluid Flow and Heat Transfer between Parallel Plates

Author

Listed:
  • Umair Rashid
  • Thabet Abdeljawad
  • Haiyi Liang
  • Azhar Iqbal
  • Muhammad Abbas
  • Mohd. Junaid Siddiqui

Abstract

The focus of the present paper is to analyze the shape effect of gold (Au) nanoparticles on squeezing nanofluid flow and heat transfer between parallel plates. The different shapes of nanoparticles, namely, column, sphere, hexahedron, tetrahedron, and lamina, have been examined using water as base fluid. The governing partial differential equations (PDEs) are transformed into ordinary differential equations (ODEs) by suitable transformations. As a result, nonlinear boundary value ordinary differential equations are tackled analytically using the homotopy analysis method (HAM) and convergence of the series solution is ensured. The effects of various parameters such as solid volume fraction, thermal radiation, Reynolds number, magnetic field, Eckert number, suction parameter, and shape factor on velocity and temperature profiles are plotted in graphical form. For various values of involved parameters, Nusselt number is analyzed in graphical form. The obtained results demonstrate that the rate of heat transfer is maximum for lamina shape nanoparticles and the sphere shape of nanoparticles has performed a considerable role in temperature distribution as compared to other shapes of nanoparticles.

Suggested Citation

  • Umair Rashid & Thabet Abdeljawad & Haiyi Liang & Azhar Iqbal & Muhammad Abbas & Mohd. Junaid Siddiqui, 2020. "The Shape Effect of Gold Nanoparticles on Squeezing Nanofluid Flow and Heat Transfer between Parallel Plates," Mathematical Problems in Engineering, Hindawi, vol. 2020, pages 1-12, September.
  • Handle: RePEc:hin:jnlmpe:9584854
    DOI: 10.1155/2020/9584854
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    Cited by:

    1. Muhammad Shoaib Arif & Wasfi Shatanawi & Yasir Nawaz, 2023. "Modified Finite Element Study for Heat and Mass Transfer of Electrical MHD Non-Newtonian Boundary Layer Nanofluid Flow," Mathematics, MDPI, vol. 11(4), pages 1-21, February.

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