15 Heat and mass transfer analysis of Casson hybrid nanofluid flow over a stretching sheet with velocity slip and suction/injection
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Manoranjan Mishra
Abstract
Because of their higher thermal conductivity compared to nanofluids and regular fluids, hybrid nanofluids (HNFs) offer a wide range of heat transfer applications in industries such as manufacturing, microelectronics, medicine, microfluidics, and many more. Further, the Casson fluid model is a rheological model that is generally used in the study of biological fluids, such as blood, and in industrial applications where yield stress is a significant factor in the fluid’s behavior. The present study examines the effects of suction/injection on the magnetohydrodynamics Casson HNF flow over a stretching sheet in the presence of velocity slip. Moreover, the consideration of viscous dissipation and joule heating in the energy equation and chemical reactions in the concentration equation enriches the problem from an industrial application point of view. Carbon nanotubes (SWCNT and MWCNT) are considered nanoparticles and water base fluid. Using similarity renovations, the governing PDEs are converted to ODEs and solved numerically using MATLAB software’s bvp4c algorithm. The significance of the pertinent parameters governing the flow problem is discussed in detail via figures and tables. The Casson parameter tends to reduce the dimension of the flow field. In physical terms, raising the Casson parameter increases the fluid’s dynamic viscosity, which lowers fluid motion and lowers the velocity profile. The suction and injection have opposite behavior on the temperature field. The calculated results show great agreement and are confirmed with existing literature for limiting cases.
Abstract
Because of their higher thermal conductivity compared to nanofluids and regular fluids, hybrid nanofluids (HNFs) offer a wide range of heat transfer applications in industries such as manufacturing, microelectronics, medicine, microfluidics, and many more. Further, the Casson fluid model is a rheological model that is generally used in the study of biological fluids, such as blood, and in industrial applications where yield stress is a significant factor in the fluid’s behavior. The present study examines the effects of suction/injection on the magnetohydrodynamics Casson HNF flow over a stretching sheet in the presence of velocity slip. Moreover, the consideration of viscous dissipation and joule heating in the energy equation and chemical reactions in the concentration equation enriches the problem from an industrial application point of view. Carbon nanotubes (SWCNT and MWCNT) are considered nanoparticles and water base fluid. Using similarity renovations, the governing PDEs are converted to ODEs and solved numerically using MATLAB software’s bvp4c algorithm. The significance of the pertinent parameters governing the flow problem is discussed in detail via figures and tables. The Casson parameter tends to reduce the dimension of the flow field. In physical terms, raising the Casson parameter increases the fluid’s dynamic viscosity, which lowers fluid motion and lowers the velocity profile. The suction and injection have opposite behavior on the temperature field. The calculated results show great agreement and are confirmed with existing literature for limiting cases.
Chapters in this book
- 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
Chapters in this book
- 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
