Numerical analysis of unsteady 3D flow of Carreau nanofluid with variable thermal conductivity and heat source/sink
TLDR
In this article, the authors established a mathematical relation for unsteady 3D forced convective flow of Carreau nanofluid over a bidirectional stretched surface, and the numerical outcomes for local skin friction and the wall temperature gradient for nanoliquid are intended and vacant through tables.Abstract:
Inspired by modern deeds of nanotechnology and nanoscience and their abundant applications in the field of science and engineering, we establish a mathematical relation for unsteady 3D forced convective flow of Carreau nanofluid over a bidirectional stretched surface. Heat transfer phenomena of Carreau nanofluid is inspected through the variable thermal conductivity and heat generation/absorption impact. Furthermore, this research paper presents a more convincing approach for heat and mass transfer phenomenon of nanoliquid by utilizing new mass flux condition. Practically, zero mass flux condition is more adequate because in this approach we assume nanoparticle amends itself accordingly on the boundaries. Now the features of Buongiorno’s relation for Carreau nanofluid can be applied in a more efficient way. An appropriate transformation is vacant to alter the PDEs into ODEs and then tackled numerically by employing bvp4c scheme. The numerous consequence of scheming parameters on the Carreau nanoliquid velocity components, temperature and concentration fields are portrayed graphically and deliberated in detail. The numerical outcomes for local skin friction and the wall temperature gradient for nanoliquid are intended and vacant through tables. The outcomes conveyed here manifest that impact of Brownian motion parameter N b on the rate of heat transfer for nanoliquids becomes negligible for the recently recommended revised relation. Addationally, for authentication of the present relation, the achieved results are distinguished with earlier research works in specific cases and marvelous agreement has been noted.read more
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References
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Magnetohydrodynamic (MHD) mixed convection flow of micropolar liquid due to nonlinear stretched sheet with convective condition
Muhammad Waqas,Muhammad Farooq,Muhammad Ijaz Khan,Ahmed Alsaedi,Tasawar Hayat,Tasawar Hayat,T. Yasmeen,T. Yasmeen +7 more
TL;DR: In this article, the authors address magnetohydrodynamics (MHD) flow of micropolar liquid towards nonlinear stretched surface with viscous dissipation, Joule heating and convective boundary condition.
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Heat transfer enhancement with Ag–CuO/water hybrid nanofluid
T. Hayat,Sohail Nadeem +1 more
TL;DR: In this paper, a 3D model in 3D is employed to examine the impact of thermal radiation, heat generation and chemical reaction over a stretching sheet in the presence of rotation.
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Nanofluid convective heat transfer using semi analytical and numerical approaches: A review
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Effect of spatially variable magnetic field on ferrofluid flow and heat transfer considering constant heat flux boundary condition
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