Title : ( Self-Similar Solution of Radial Stagnation Point Flow and Heat Transfer of a Viscous, Compressible Fluid Impinging on a Rotating Cylinder )
Authors: Asgar Bradaran Rahimi , Hamid Mohammadiun , Mohammad Mohammadiun ,Abstract
In this study, the radial stagnation point flow of strain rate k impinging on a cylinder rotating at constant angular velocity x and its heat transfer are investigated. Reduction in the Navier–Stokes equations and energy equation to primary nonlinear ordinary differential equation systems is obtained by use of appropriate transformations when the angular velocity and wall temperature or wall heat flux all are constant. The impinging free stream is steady and normal to the surface from all sides, and the range of Reynolds number variation -Re ¼ ka2=2t- is 0.1–1000 in which a and t are cylinder radius and kinematic viscosity, respectively. Flow results are presented for selected values of compressibility factor and different values of Prandtl numbers along with shear stress and Nusselt number. For all values of Reynolds numbers and surface temperature or surface heat flux, as compressibility factor increases the radial velocity field, the heat transfer coefficient and the wall shear stress increase, whereas the angular velocity field decreases. The rotating movement of the cylinder does not have any effect on the radial component of the velocity, but its increase increases the angular component of the fluid velocity field and the surface shear stress.
Keywords
, Stagnation point flow, Constant angular velocity, Heat transfer, Compressibility factor, Constant wall temperature and heat flux@article{paperid:1073634,
author = {Bradaran Rahimi, Asgar and Hamid Mohammadiun and Mohammad Mohammadiun},
title = {Self-Similar Solution of Radial Stagnation Point Flow and Heat Transfer of a Viscous, Compressible Fluid Impinging on a Rotating Cylinder},
journal = {Iranian Journal of Science and Technology-Transactions of Mechanical Engineering},
year = {2019},
volume = {43},
number = {1},
month = {February},
issn = {2228-6187},
pages = {141--153},
numpages = {12},
keywords = {Stagnation point flow; Constant angular velocity; Heat transfer; Compressibility factor; Constant wall
temperature and heat flux},
}
%0 Journal Article
%T Self-Similar Solution of Radial Stagnation Point Flow and Heat Transfer of a Viscous, Compressible Fluid Impinging on a Rotating Cylinder
%A Bradaran Rahimi, Asgar
%A Hamid Mohammadiun
%A Mohammad Mohammadiun
%J Iranian Journal of Science and Technology-Transactions of Mechanical Engineering
%@ 2228-6187
%D 2019