14 Heat transfer in dissipative water-based hybrid nanofluid under radiation phenomenon via OHAM
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Muhammad Sohail
Abstract
This chapter concerns the influence of magnetohydrodynamics (MHD) on three-dimensional flow features and heat transportation in copper, titanium and water nanofluids over bidirectional surface. Studying the motion of MHD hybrid nanofluid flow due to stretching linear agents was very important for increasing the efficiency of heat transfer in its range. Several researchers have investigated different features when adding hybrid nanofluids within these flows such as the Forchheimer number, porosity parameter, radiation effect, magnetic field in horizontal direction, mixed convection, and viscous dissipation. However, to a working knowledge, the available literature on Forchheimer flows of rotating 3-D hybrid nanofluid Cu − TiO2=H2O does not reports the radiation absorption effect together with porosity and magnetic parameter in an aligned magnetic field. The purpose of the following research is to fill this gap in knowledge by generating novel information about these aspects. By transforming nonlinear PDEs into nonlinear ODEs, OHAM is used to evaluate the system that regulates nonlinear PDEs. The discussion focuses on the effects of dimensionless parameters on the velocity laterally the x- and y-axes, temperature profile, and concentration dispersals. These parameters include porosity parameter ð0 ≤K≤ 4Þ, Prandtl number ð1 ≤Pr ≤ 6Þ, Forchheimer number ð0.1 ≤Fr ≤ 4.0Þ, Radiation parameter ð0.1 ≤R≤ 1.4Þ, and Eckert number ð0.1 ≤ Єc ≤ 1.4Þ. Additionally, traverse tables are used to clarify the effects of skin friction, heat, and mass transfer rate. As the Forchheimer number rises, there is a decrease in velocity along the x-axes.
Abstract
This chapter concerns the influence of magnetohydrodynamics (MHD) on three-dimensional flow features and heat transportation in copper, titanium and water nanofluids over bidirectional surface. Studying the motion of MHD hybrid nanofluid flow due to stretching linear agents was very important for increasing the efficiency of heat transfer in its range. Several researchers have investigated different features when adding hybrid nanofluids within these flows such as the Forchheimer number, porosity parameter, radiation effect, magnetic field in horizontal direction, mixed convection, and viscous dissipation. However, to a working knowledge, the available literature on Forchheimer flows of rotating 3-D hybrid nanofluid Cu − TiO2=H2O does not reports the radiation absorption effect together with porosity and magnetic parameter in an aligned magnetic field. The purpose of the following research is to fill this gap in knowledge by generating novel information about these aspects. By transforming nonlinear PDEs into nonlinear ODEs, OHAM is used to evaluate the system that regulates nonlinear PDEs. The discussion focuses on the effects of dimensionless parameters on the velocity laterally the x- and y-axes, temperature profile, and concentration dispersals. These parameters include porosity parameter ð0 ≤K≤ 4Þ, Prandtl number ð1 ≤Pr ≤ 6Þ, Forchheimer number ð0.1 ≤Fr ≤ 4.0Þ, Radiation parameter ð0.1 ≤R≤ 1.4Þ, and Eckert number ð0.1 ≤ Єc ≤ 1.4Þ. Additionally, traverse tables are used to clarify the effects of skin friction, heat, and mass transfer rate. As the Forchheimer number rises, there is a decrease in velocity along the x-axes.
Kapitel in diesem Buch
- Frontmatter I
- Preface V
- Contents IX
- 1 Impact of Hall current and aligned magnetic field on magnetized hybrid flow of MgO‐Ag/H2O over a movable slender needle 1
- 2 Optimization of entropy in bioconvective and reactive micropolar nanofluid flow with Arrhenius kinetics 23
- 3 CFD heat transfer study of nano-enhanced phase change material 45
- 4 Magnetothermal and magnetorheological nanofluids: simulation techniques, biomedical engineering applications, and potential health risks 71
- 5 Nanorefrigerants in engineering: advances, challenges, and insights from experimental and CFD simulations and potential applications 109
- 6 Interaction of Lorentz force on Darcy- Forchheimer hybrid nanofluid flow over a stretching sheet in a porous medium 165
- 7 Impact of motile microorganisms on 3D flow of non-Newtonian thermofluid induced by exponentially stretching sheet: biomedicine and engineering applications 181
- 8 Lattice Boltzmann simulation of copperwater nanofluid 217
- 9 Stagnation point flow of MHD nanofluid over an exponentially stretching sheet with radiation 237
- 10 Entropy analysis of Al2O3/water nanofluid in viscous fluid flow with Joule heating and viscous dissipation over a permeable radiated stretching disk: a comparative study of nanoparticle shapes 261
- 11 Solar-powered magnetoelectrokinetic peristaltic transport of thermally radiative Jeffrey nanofluids in asymmetric porous media 289
- 12 Magnetized nanofluids flow in porous enclosures containing elliptical cylinder of varying aspect ratios 319
- 13 Dufour and Soret effects on nanofluid over an exponentially stretching sheet with chemical reaction 337
- 14 Heat transfer in dissipative water-based hybrid nanofluid under radiation phenomenon via OHAM 357
- 15 Heat and mass transfer analysis of Casson hybrid nanofluid flow over a stretching sheet with velocity slip and suction/injection 379
- Index 395
Kapitel in diesem Buch
- Frontmatter I
- Preface V
- Contents IX
- 1 Impact of Hall current and aligned magnetic field on magnetized hybrid flow of MgO‐Ag/H2O over a movable slender needle 1
- 2 Optimization of entropy in bioconvective and reactive micropolar nanofluid flow with Arrhenius kinetics 23
- 3 CFD heat transfer study of nano-enhanced phase change material 45
- 4 Magnetothermal and magnetorheological nanofluids: simulation techniques, biomedical engineering applications, and potential health risks 71
- 5 Nanorefrigerants in engineering: advances, challenges, and insights from experimental and CFD simulations and potential applications 109
- 6 Interaction of Lorentz force on Darcy- Forchheimer hybrid nanofluid flow over a stretching sheet in a porous medium 165
- 7 Impact of motile microorganisms on 3D flow of non-Newtonian thermofluid induced by exponentially stretching sheet: biomedicine and engineering applications 181
- 8 Lattice Boltzmann simulation of copperwater nanofluid 217
- 9 Stagnation point flow of MHD nanofluid over an exponentially stretching sheet with radiation 237
- 10 Entropy analysis of Al2O3/water nanofluid in viscous fluid flow with Joule heating and viscous dissipation over a permeable radiated stretching disk: a comparative study of nanoparticle shapes 261
- 11 Solar-powered magnetoelectrokinetic peristaltic transport of thermally radiative Jeffrey nanofluids in asymmetric porous media 289
- 12 Magnetized nanofluids flow in porous enclosures containing elliptical cylinder of varying aspect ratios 319
- 13 Dufour and Soret effects on nanofluid over an exponentially stretching sheet with chemical reaction 337
- 14 Heat transfer in dissipative water-based hybrid nanofluid under radiation phenomenon via OHAM 357
- 15 Heat and mass transfer analysis of Casson hybrid nanofluid flow over a stretching sheet with velocity slip and suction/injection 379
- Index 395
