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 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.

[1]  Iskander Tlili,et al.  Case study of MHD blood flow in a porous medium with CNTS and thermal analysis , 2018, Case Studies in Thermal Engineering.

[2]  Saman Rashidi,et al.  Convective Heat Transfer and Particle Motion in an Obstructed Duct with Two Side by Side Obstacles by Means of DPM Model , 2017 .

[3]  Dharmendra Tripathi,et al.  Peristaltic Pumping of Nanofluids through a Tapered Channel in a Porous Environment: Applications in Blood Flow , 2019, Symmetry.

[4]  Ioan Pop,et al.  Fully developed mixed convection flow of a nanofluid through an inclined channel filled with a porous medium , 2012 .

[5]  Rahmat Ellahi,et al.  Study of Shiny Film Coating on Multi-Fluid Flows of a Rotating Disk Suspended with Nano-Sized Silver and Gold Particles: A Comparative Analysis , 2018, Coatings.

[6]  P. H. Sakanaka,et al.  Thermal analysis of the unsteady sheet stretching subject to slip and magnetohydrodynamic effects , 2019, Thermal Science and Engineering Progress.

[7]  Muhammad Mubashir Bhatti,et al.  Aiding and opposing of mixed convection Casson nanofluid flow with chemical reactions through a porous Riga plate , 2018 .

[8]  Khuram Rafique,et al.  Numerical Study on Micropolar Nanofluid Flow over an Inclined Surface by Means of Keller-Box , 2019, Asian Journal of Probability and Statistics.

[9]  Ahmed Zeeshan,et al.  Peristaltic Blood Flow of Couple Stress Fluid Suspended with Nanoparticles under the Influence of Chemical Reaction and Activation Energy , 2019, Symmetry.

[10]  R. Ellahi,et al.  Thermally Charged MHD Bi-Phase Flow Coatings with Non-Newtonian Nanofluid and Hafnium Particles along Slippery Walls , 2019, Coatings.

[11]  P. Sreenivasulu,et al.  Comparative analysis on non-linear radiative heat transfer on MHD Casson nanofluid past a thin needle , 2019, Journal of Molecular Liquids.

[12]  M. Hatami,et al.  Three-dimensional analysis of condensation nanofluid film on an inclined rotating disk by efficient analytical methods , 2018 .

[13]  Tasawar Hayat,et al.  Numerical study for MHD stagnation-point flow of a micropolar nanofluid towards a stretching sheet , 2017 .

[14]  Shalini Jain,et al.  Multiple slip effects on inclined MHD Casson fluid flow over a permeable stretching surface and a melting surface , 2018, International Journal of Heat and Technology.

[15]  Khuram Rafique,et al.  Keller-box Study on Casson Nano Fluid Flow over a Slanted Permeable Surface with Chemical Reaction , 2019, Asian Research Journal of Mathematics.

[16]  T. Gangaiah,et al.  RADIATION EFFECT ON MHD FLOW OF A TANGENT HYPERBOLIC NANOFLUID OVER AN INCLINED EXPONENTIALLY STRETCHING SHEET , 2019, International Journal of Fluid Mechanics Research.

[17]  I. Khan,et al.  MHD FLOW AND HEAT TRANSFER IN A CASSON FLUID OVER A NONLINEARLY STRETCHING SHEET WITH NEWTONIAN HEATING , 2018 .

[18]  O. Bég,et al.  Numerical study of heat source/sink effects on dissipative magnetic nanofluid flow from a non-linear inclined stretching/shrinking sheet , 2017 .

[19]  Saman Rashidi,et al.  Modelling Study on Internal Energy Loss Due to Entropy Generation for Non-Darcy Poiseuille Flow of Silver-Water Nanofluid: An Application of Purification , 2018, Entropy.

[20]  M. Gulzar,et al.  On multiple solutions of non-Newtonian Carreau fluid flow over an inclined shrinking sheet , 2018 .

[21]  M. Ali,et al.  Similarity Solution of Heat and Mass Transfer Flow over an Inclined Stretching Sheet with Viscous Dissipation and Constant Heat Flux in Presence of Magnetic Field , 2015 .

[22]  M. M. Bhatti,et al.  Electromagnetohydrodynamic (EMHD) peristaltic flow of solid particles in a third-grade fluid with heat transfer , 2017 .

[23]  Md. Rafiqul Islam,et al.  Magnetohydrodynamic Boundary Layer Flow of Non-Newtonian Fluid and Combined Heat and Mass Transfer about an Inclined Stretching Sheet , 2015 .

[24]  I. Khan,et al.  Conjugate effects of heat and mass transfer of nanofluids over a nonlinear stretching sheet , 2012 .

[25]  M. Mustafa,et al.  Model for flow of Casson nanofluid past a non-linearly stretching sheet considering magnetic field effects , 2015 .

[26]  A. Afify The Influence of Slip Boundary Condition on Casson Nanofluid Flow over a Stretching Sheet in the Presence of Viscous Dissipation and Chemical Reaction , 2017 .

[27]  P. Bala Anki Reddy,et al.  Magnetohydrodynamic flow of a Casson fluid over an exponentially inclined permeable stretching surface with thermal radiation and chemical reaction , 2016 .

[28]  Ahmed Zeeshan,et al.  Effects of Radiative Electro-Magnetohydrodynamics Diminishing Internal Energy of Pressure-Driven Flow of Titanium Dioxide-Water Nanofluid due to Entropy Generation , 2019, Entropy.

[29]  Sabyasachi Mondal,et al.  Unsteady Casson nanofluid flow over a stretching sheet with thermal radiation, convective and slip boundary conditions , 2016 .

[30]  Amna Shahid,et al.  Thermal and concentration diffusion in Jeffery nanofluid flow over an inclined stretching sheet: A generalized Fourier's and Fick's perspective , 2018 .

[31]  Mohammad Ferdows,et al.  FINITE DIFFERENCE SOLUTION OF MHD RADIATIVE BOUNDARY LAYER FLOW OF A NANOFLUID PAST A STRETCHING SHEET , 2010 .

[32]  Mohammad Mehdi Rashidi,et al.  Entropy Generation on MHD Casson Nanofluid Flow over a Porous Stretching/Shrinking Surface , 2016, Entropy.

[33]  Davood Domiri Ganji,et al.  Nonlinear thermal radiation effect on magneto Casson nanofluid flow with Joule heating effect over an inclined porous stretching sheet , 2018, Case Studies in Thermal Engineering.

[34]  N. Ganesh,et al.  Influence of inclined Lorentz forces on boundary layer flow of Casson fluid over an impermeable stretching sheet with heat transfer , 2016 .

[35]  Ahmed Rashad,et al.  Unsteady nanofluid flow over an inclined stretching surface with convective boundary condition and anisotropic slip impact , 2017 .

[36]  U. S. Mahabaleswar,et al.  MIXED CONVECTION IN VISCOELASTIC FLOW DUE TO A STRETCHING SHEET IN A POROUS MEDIUM , 2013 .

[37]  Rahmat Ellahi,et al.  Mathematical Models of Electro-Magnetohydrodynamic Multiphase Flows Synthesis with Nano-Sized Hafnium Particles , 2018 .

[38]  Poom Kumam,et al.  Viscoelastic MHD Nanofluid Thin Film Flow over an Unsteady Vertical Stretching Sheet with Entropy Generation , 2019, Processes.

[39]  Rahmat Ellahi,et al.  Two-Phase Couette Flow of Couple Stress Fluid with Temperature Dependent Viscosity Thermally Affected by Magnetized Moving Surface , 2019, Symmetry.