Heat flow saturate of Ag/MgO-water hybrid nanofluid in heated trigonal enclosure with rotate cylindrical cavity by using Galerkin finite element
Fares Redouane,Wasim Jamshed,S. Suriya Uma Devi,M. Prakash,Nor Ain Azeany Mohd Nasir,Zakia Hammouch,Mohamed R. Eid,Kottakkaran Sooppy Nisar,Amin Mohammed,Abdel-Haleem Abdel-Aty,I. S. Yahia,Emad M. Eed +11 more
TLDR
In this paper , the authors investigated the performance of natural convective heat transfer inside a porous triangular cavity filled with silver-magnesium oxide/water hybrid nanofluid [H2O/Ag-MgO]hnf under a consistent magnetic field.Abstract:
MHD Natural convection, which is one of the principal types of convective heat transfer in numerous research of heat exchangers and geothermal energy systems, as well as nanofluids and hybrid nanofluids. This work focuses on the investigation of Natural convective heat transfer evaluation inside a porous triangular cavity filled with silver-magnesium oxide/water hybrid nanofluid [H2O/Ag-MgO]hnf under a consistent magnetic field. The laminar and incompressible nanofluid flow is taken to account while Darcy-Forchheimer model takes account of the advection inertia effect in the porous sheet. Controlled equations of the work have been approached nondimensional and resolved by Galerkin finite element technique. The numerical analyses were carried out by varying the Darcy, Hartmann, and Rayleigh numbers, porosity, and characteristics of solid volume fraction and flow fields. Further, the findings are reported in streamlines, isotherms and Nusselt numbers. For this work, the parametric impact may be categorized into two groups. One of them has an effect on the structural factors such as triangular form and scale on the physical characteristics of the important outputs such as fluidity and thermal transfer rates. The significant findings are the parameters like Rayleigh and slightly supported by Hartmann along with Darcy number, minimally assists by solid-particle size and rotating factor as clockwise assists the cooler flow at the center and anticlockwise direction assists the warmer flow. Clear raise in heat transporting rate can be obtained for increasing solid-particle size. read more
Citations
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Numerical analysis of magnetic hybrid Nano-fluid natural convective flow in an adjusted porous trapezoidal enclosure
TL;DR: In this paper , a numerical investigation on nano-fluid's laminar flow and the effect of their thermo-physical characteristics on convective heat transfer was performed using the Darcy-Forchheimer-Brinkmann model and finite element method.
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On the hydrothermal behavior and entropy analysis of buoyancy driven magnetohydrodynamic hybrid nanofluid flow within an octagonal enclosure fitted with fins: Application to thermal energy storage
TL;DR: In this article , the authors performed an entropy analysis of a magnetized Ag-MgO-water hybrid nanofluid stream passing through an octagonal cavity and a circular cylinder.
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On Powell-Eyring hybridity nanofluidic flow based Carboxy-Methyl-Cellulose (CMC) with solar thermal radiation: A quadratic regression estimation
TL;DR: Yamada-Ota et al. as mentioned in this paper provided a detailed description of the Powell-Eyring fluid model (PEFM) with the grouping of the base streaming Carboxy-Methyl-Cellulose (CMC) and doubly changed Carbon nanotubes CNTs (Single-walled carbon nanotide (SWCNT), Multi-weled carbon nanoteubes (MWCNT)).
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Simulation of combined convective-radiative heat transfer of hybrid nanofluid flow inside an open trapezoidal enclosure considering the magnetic force impacts
TL;DR: In this article , the combined convective-radiative heat transfer for magnetohydrodynamics (MHD) hybrid nanofluid flow inside an open trapezoidal enclosure is numerically simulated.
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FEM solution to quadratic convective and radiative flow of Ag-MgO/H2O hybrid nanofluid over a rotating cone with Hall current: Optimization using Response Surface Methodology
Puneet Rana,G. T. Patle S. Gupta +1 more
TL;DR: In this article , a nonlinear buoyancy-induced flow of water conveying hybrid nanoparticles (25 nm Ag and 40 nm MgO) around a revolving cone surface subjected to quadratic radiative heat transfer is studied, taking into deliberation of Hall current, and thermal jump condition.
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