Mohamed A. Nafe scite author profile

The paper presents the flow of mixed convection boundary layer for Eyring–Powell hybrid nanofluid over a perpendicular plate with changeable temperature and velocity profile. The nondimensional modified controlling equations in non-similar kind are resolved by utilizing hybrid mechanism: local non-similarity procedure in synchronism with RKF45 with the mechanism of shooting. The gained outcomes are offered properly by plots and discussed for different values of governing parameters. It is found that the transport of heat is diminished by increasing the magnetic field and permeability of porous medium. Furthermore, as a thermal radiation and heat generation improved, the heat transfer increased. This study gets enormous applications in industries of glass and polymer, in the field of heat exchangers styling, cooling operations of metallic plates, plastic sheets ejaculation, etc.

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Time-dependent viscous flow of higher-order reactive MHD Maxwell nanofluid with Joule heating in a porous regime

Abdelhafez

Awad

Nafe

et al. 2021

Waves in Random and Complex Media

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Heat variation on MHD Williamson hybrid nanofluid flow with convective boundary condition and Ohmic heating in a porous material

Rashad

Nafe

Eisa

2023

Sci Rep

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The aim of the present study is to explore the variation of heat on MHD Williamson hybrid nanofluid (Ag-TiO2/H2O) model for steady two-dimensional and incompressible flow with a convective boundary condition in a curved coordinate porous system with Ohmic heating. Nusselt number is distinguished by the process of thermal radiation. The partial differential equations are controlled by the curved coordinate’s porous system, which depicts the flow paradigm. Employing similarity transformations, the acquired equations were turned into coupled non-linear ordinary differential equations. The governing equations were disbanded by RKF45 via shooting methodology. The focus is on examining physical characteristics such as heat flux at the wall, temperature distribution, velocity of flow, and surface friction coefficient for a variety of related factors. The analysis explained that increasing permeability, Biot and Eckert numbers enhance temperature profile and slowdown heat transfer. Moreover, convective boundary condition and thermal radiation enhance the friction of the surface. The model is prepared as an implementation for solar energy in processes of thermal engineering. Morever, this research has enormous applications in the industries of polymer and glass, also in the field of heat exchangers styling, cooling operations of metallic plates, etc.

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Flow of mixed convection for radiative and magnetic hybrid nanofluid in a porous material with Joule heating

et al. 2021

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This paper analyzes the mixed convection flow and transport of heat in a hybrid nanofluid via an exponentially extending/contracting surface. Joule heating, magnetic field, permeability of a porous medium, thermal radiation, and slip condition are taken into consideration. Magnetite (Fe 3 O 4 ) and copper (Cu) are used as a mixture of nanoparticles while ethylene glycol as a regular liquid. The paradigm is dissolved by utilizing the method of Runge-Kutta-Fehlberg with the shooting technique in MATLAB software. The effect of controlling parameters on the coefficient of drag force, heat transfer coefficient, and the distributions of temperature and velocity for physical parameters are discussed numerically, physically, and graphically. The outcomes ended up illustrating that the transport of heat is diminished by upsurging the Joule heating and magnetic field parameters for both contracting and extending states. For larger values of permeability parameter and parameter of mixed convection, the coefficient of local skin friction upsurges in extending situations.

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Mohamed A. Nafe

Thermal conductivity variation and heat generation effects on magneto-hybrid nanofluid flow in a porous medium with slip condition

Heat Generation and Thermal Radiation Impacts on Flow of Magnetic Eyring–Powell Hybrid Nanofluid in a Porous Medium

Time-dependent viscous flow of higher-order reactive MHD Maxwell nanofluid with Joule heating in a porous regime

Heat variation on MHD Williamson hybrid nanofluid flow with convective boundary condition and Ohmic heating in a porous material

Flow of mixed convection for radiative and magnetic hybrid nanofluid in a porous material with Joule heating

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