Research Journal of Science and Technology

Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

Effects of Viscous Dissipation and Transverse Magnetic Field Heat Transfer Over a Stretching Cylinder Under Convective Boundary Condition


Affiliations
1 Department of Mathematics, Madanapalle Institute of Technology and Science, Madanapalle-517325, India
2 Department of Mathematics, Jawaharlal Nehru Technological University Anantapur, Ananthapuramu 515002, India
     

   Subscribe/Renew Journal


A numerical treatment for axi-symmetric flow and heat transfer due to a stretching cylinder under the influence of a uniform magnetic field, viscous dissipation and convective condition is presented. The governing partial differential equations are converted into nonlinear, ordinary, and coupled differential equations and are solved using Keller-Box method. The effects of important parameters such as magnetic parameter, curvature parameter, Prandtl number, Eckert number and the local Biot number are described through graphs. The numerical results are compared with the published data and are found to be in good agreement.

Keywords

MHD, Viscous Dissipation, Heat Transfer, Convective Heating, Finite Difference Method.
Subscription Login to verify subscription
User
Notifications
Font Size



  • Effects of Viscous Dissipation and Transverse Magnetic Field Heat Transfer Over a Stretching Cylinder Under Convective Boundary Condition

Abstract Views: 600  |  PDF Views: 4

Authors

M. Sasikala
Department of Mathematics, Madanapalle Institute of Technology and Science, Madanapalle-517325, India
V. Ramachandraprasad
Department of Mathematics, Madanapalle Institute of Technology and Science, Madanapalle-517325, India
R. Bhuvanavijaya
Department of Mathematics, Jawaharlal Nehru Technological University Anantapur, Ananthapuramu 515002, India

Abstract


A numerical treatment for axi-symmetric flow and heat transfer due to a stretching cylinder under the influence of a uniform magnetic field, viscous dissipation and convective condition is presented. The governing partial differential equations are converted into nonlinear, ordinary, and coupled differential equations and are solved using Keller-Box method. The effects of important parameters such as magnetic parameter, curvature parameter, Prandtl number, Eckert number and the local Biot number are described through graphs. The numerical results are compared with the published data and are found to be in good agreement.

Keywords


MHD, Viscous Dissipation, Heat Transfer, Convective Heating, Finite Difference Method.

References