MHD Burger’s Nanofluid Stream Due to a Permeable stretching Cylinder with Heat Source/Sink: Buongiorno Model

Authors

  • A. Neeraja, R.L.V. Renuka Devi, Y. Swapna, M. Krishna Murthy

Abstract

Non-Newtonian incompressible laminar stream heat and mass transplant over an extending cylinder with heat source/sink implanted in a permeable medium subject to nanoparticles has been explored in this article.  The liquid stream is concern to uniform magnetic field. Reasonable likeness factors are utilized to change the resulting governing partial differential equations into a set of ordinary differential equations.  A compelling numerical procedure to be specific Runge-Kutta-Fehlberg strategy accompanied by shooting technique has been grasped to illuminate the governing equations.  The huge finding in this investigation is the impact of disparate parameters to be specific, Hartmann number porosity parameter curvature parameter, Deborah numbers of relaxation and retardation time,  Brownian motion parameter, Thermophoresis parameter, heat source/sink parameter and Lewis number on speed, temperature, concentration, Nusselt number and Sherwood number.

Keywords:  Burgers liquid, MHD, Buongirno model and stretching cylinder

Published

2020-12-07

Issue

Section

Articles