Abstract
In this analysis, we considered the effects of Joule heating
and partial slip boundary conditions on time dependent mixed convective
nanofluid flow over a stretching sheet along with heat source/sink. The
governing model is transformed into the system of nonlinear ODE’s by
using the well known transformations. In order to calculate the physical
quantities of the problem, we use the higher order convergence method,
called shotting method followed by Runge-Kutta Fehlberg method. The
importance of different physical parameters on velocity, temperature and
concentration profiles are calculated numerically. The parameters of engineering interest i.e, skin fraction, Nusselt and Sherwood numbers are
also calculated. Finally, we concluded that the velocity profiles decrease
by increasing values of A and M. Moreover the variation of temperature,
velocity and concentration profiles are analyzed for the different physical
parameters.
Hafiz Abdul Wahab, Hussan Zeb, Saira Bhatti, Muhammad Gulistan, Sarfaraz Ahmad. (2019) A Numerical Approach of Slip Conditions Effect on Nanofluid Flow over a Stretching Sheet under Heating Joule Effect, Punjab University Journal of Mathematics, Volume 51, Issue 5.
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