Title of article
Axisymmetric Slip Flow on a Vertical Cylinder with Heat Transfer
Author/Authors
SINGH, GURMINDER Birla Institute of Technology (Ranchi) - Ext Center Jaipur, India , MAKINDE, OLUWOLE DANIEL Stellenbosch University - Faculty of Military Science, South Africa
From page
483
To page
489
Abstract
The paper is aimed at studying fluid flow heat transfer in the axisymmetric boundary layer flow of a viscous incompressible fluid, along the axial direction of a vertical stationary isothermal cylinder in presence of uniform free stream with momentum slip. The equations governing the flow i.e. continuity, momentum and energy equation are transformed into non-similar boundary layer equations and are solved numerically employing asymptotic series method with Shanks transformation. The numerical scheme involves the Runge-Kutta fourth order scheme along with the shooting technique. The flow is analyzed for both assisting and opposing buoyancy and the effect of different parameters on fluid velocity, temperature distribution, heat transfer and shear stress parameters is presented graphically.
Keywords
Cylindrical surface , heat transfer , non , similarity solution , Runge , Kutta method , shear stress , slip flow
Record number
2555873
Link To Document