Keller-Box Analysis of Buongiorno Model with Brownian and Thermophoretic Diffusion for Casson Nanofluid over an Inclined Surface

Keller-Box Analysis of Buongiorno Model with Brownian and Thermophoretic Diffusion for Casson Nanofluid over an Inclined Surface

The key objective of the study under concern is to probe the impacts of Brownian motion and thermophoresis diffusion on Casson nanofluid boundary layer flow over a nonlinear inclined stretching sheet, with the effect of convective boundaries and thermal radiations. Nonlinear ordinary differential eq...

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Veröffentlicht in:Symmetry (Basel) 2019-11, Vol.11 (11), p.1370
Hauptverfasser: Rafique, Khuram, Imran Anwar, Muhammad, Misiran, Masnita, Khan, Ilyas, Alharbi, Sayer O., Thounthong, Phatiphat, Nisar, Kottakkaran Sooppy
Format: Artikel
Sprache:eng
Schlagworte:
Boundary layer flow
Brownian motion
Diffusion layers
Heat conductivity
Heat exchange
Magnetic fields
Nanofluids
Nanoparticles
Nanotechnology
Non-Newtonian fluids
Nonlinear differential equations
Nuclear power plants
Ordinary differential equations
Partial differential equations
Radiation
Skin friction
Thermophoresis
Viscosity
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Zusammenfassung:The key objective of the study under concern is to probe the impacts of Brownian motion and thermophoresis diffusion on Casson nanofluid boundary layer flow over a nonlinear inclined stretching sheet, with the effect of convective boundaries and thermal radiations. Nonlinear ordinary differential equations are obtained from governing nonlinear partial differential equations by using compatible similarity transformations. The quantities associated with engineering aspects, such as skin friction, Sherwood number, and heat exchange along with various impacts of material factors on the momentum, temperature, and concentration, are elucidated and clarified with diagrams. The numerical solution of the present study is obtained via the Keller-box technique and in limiting sense are reduced to the published results for accuracy purpose.
ISSN:2073-8994
2073-8994
DOI:10.3390/sym11111370