Convective conditions on magnetohydrodynamic flow over stretched cylinder with time and space dependent heat source or sink Rao B. Madhusudhana1,*, Nagendramma V.2, Raju C.S.K.3, Leelaratnam A.2, Prakash P.4 1Lecturer in Mathematics, Higher College of Technology, Muscat, Oman-105 2Department of Mathematics, S.P.M.V.V, Tirupati, A.P 3Department of Mathematics, GITAM University, Bangalore Campus, K.A 4Research Scholar, Dept. of Mechanical Engineering, NIT Warangal, Warangal (Telangana), India *Corresponding Author E-mail: madhusudhana@hct.edu.com
Online published on 12 June, 2018. Abstract The present study emphases steady boundary layer flow and heat transfer of a hyperbolic tangent fluid flowing over a vertical exponentially stretching cylinder in its axial directionwith non-uniform heat source/sink. Proposed mathematical model has a tendency to characterize the effect of the non-uniform heat source/sink. The non-linear ordinary differential equations are solved using the Runge-Kutta Feldberg (RKF) integration method. The characteristics of velocity and temperature boundary layers in the presence of Weissennberg number We are presented for different physical parameters such as heat source/sink parameter, Reynolds number Re, the Prandtl number Pr, the Weissennberg number We and the natural convection parameter, λ magnetic field parameter and porosity parameter. K Moreover, the friction factor coefficients, Nusselt number are also estimated and discussed for aforesaid physical parameters. In addition, the rate of heat transfer rate is higher in case of We=0.5 compared to We=O with n=0.2 Top Keywords Weissennberg number, stretching cylinder, non-uniform heat source/sink, non-Newtonian fluid. Top |