Open Access
Subscription Access
Open Access
Subscription Access
The Influence of EMHD on Boundary Layer Nanofluid Stagnation Flow Over a Stretching Sheet
Subscribe/Renew Journal
In this analysis, the stagnation flow conversion problems have been studied for mixed convection heat and mass transfer with electrical magneto hydrodynamic (EMHD) field over stretching sheet by considering nano particles. The physical phenomena varied which depended on various parameters. The important energy conversion parameters are S0 , E, Gt, Gc, Pr, Sc, Ncc, S and δ have constituted the dominance of the electric effect, mixed convection effect, heat, heat transfer effect, mass diffusion effect, heat conduction-convection effect and slip boundary effects, respectively. The similarity transformations and a Runge-Kutta Fourth order method are utilized to investigate the present thermal energy conversion problem. The non-linear ordinary differential equations of the corresponding flow field momentum, temperature, concentration equations and plate sheet heat conduction equation are obtained by availing the similarity transformation technique.
Keywords
EMHD, Nano Fluid, Heat Condction-Convection Effect, Slip Effects.
Subscription
Login to verify subscription
User
Font Size
Information
- W. A. Khan, I. Pop, Boundary-layer flow of a nanofluid past a stretching sheet, Int. J. Heat Mass Transf. 53 (2010) 2477-2483.
- A. A. Afify, MHD free convective flow and mass transfer over a stretching sheet with chemical reaction, Heat Mass Transf. 40 (67) (2003) 495-500.
- S. Awang Kechil, I. Hashim, Series solution of flow over nonlinearly stretching sheet with chemical reaction and magnetic field, Phys. Lett. A 372 (13) (2008), 2258-2263.
- M. K. Partha, P.V.S.N. Murthy, and G.P. Rajasekhar, “Effect of viscous dissipation on the mixed convection heat transfer from an exponentially stretching surface,” Heat and Mass Transf 41, 360-366 (2005).
- O. A. Bég, A. Y. Bakier, and V. R. Prasad, “Numerical study of free convection magnetohydrodynamic heat and mass transfer from a stretching surface to a saturated porous medium with Soret and Dufour effects,” Computational Materials Sci 46, 57-65 (2009).
- O. A. Bég, U. S. Mahabaleshwar, M. M. Rashidi, N. Rahimzadeh, J-L Curiel Sosa, Ioannis Sarris, and N. Laraqi, “Homotopy analysis of magneto-hydrodynamic convection flow in manufacture of a viscoelastic fabric for space applications,” Int. J. Appl. Maths. Mech 10, 9-49 (2014).
- R.V.M.S.S Kiran Kumar, P.Durga Prasad, V. Nagendramma,A. Leelaratnam, S.V.K. Varma, Radiation and Viscous Dissipation Effects on MHD Heat Transfer Flow of Nanofluid over an Exponentially Stretching sheet in a Porous medium, International Journal of Pure and Applied Mathematics Vol. 113( 7 2017), 155-163.
- V. Nagendramma, A. Leela Ratnam, G. Sarojamma, MHD Heat and Mass Transfer Flow over an Exponentially stretching sheet in the Presence of Thermal Radiation,Chemical Reaction with Slip Effects, International Journal of Pure and Applied Mathematics, Vol. 109( 9), 2016, 257-265.
- Ch. Nagalakshmi1, V. Nagendramma, A. Leelaratnam, Non-Newtonian Nanofluid Flow over an Exponentially Stretching Sheet with Ohmic Effects, International Journal of Innovative Research in Science, Engineering and Technology, Vol. 6(13), 2017.
- Kai-Long Hsiao, Stagnation electrical MHD nanofluid mixed convection with slip boundary on a stretching sheet, Applied Thermal Engineering, 98, 2016, 850-861.
Abstract Views: 198
PDF Views: 0