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Quasilinear Hyperbolic Systems Applied to Describe the Magnetohydrodynamic Nanofluid Flow

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  • Dayong Nie
  • Ping Li

Abstract

This study examines the flow of hyperbolic nanofluid over a stretching sheet in three dimensions. The influence of velocity slip on the flow and heat transfer properties of a hyperbolic nanofluid has been investigated. The partial differential equations for nanoparticle solid concentration, energy, and motion were turned into ordinary differential equations. Nanoparticle mass fluxes at boundaries are assumed to be zero, unlike surface concentrations. The influence of the main parameters on flow characteristics, surface friction coefficients, and the Nusselt number has been visualized. The results suggest that Brownian motion has a negligible impact on the heat transfer rate. The ratio of the elastic force to the viscosity force was found to decrease the fluid velocity. The resulting thermophysical properties of nanofluids are in agreement with previous research. The present findings can be used to expand the potential for using nanofluids as a coolant in critical thermophysical and industrial installations.

Suggested Citation

  • Dayong Nie & Ping Li, 2023. "Quasilinear Hyperbolic Systems Applied to Describe the Magnetohydrodynamic Nanofluid Flow," Advances in Mathematical Physics, Hindawi, vol. 2023, pages 1-10, February.
    • Handle: RePEc:hin:jnlamp:4349646
    DOI: 10.1155/2023/4349646
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