International Journal of Numerical Methods for Heat & Fluid Flow: Volume 10 Issue 8
Table of contents
Momentum and heat transfer in visco‐elastic fluid flow in a porous medium over a non‐isothermal stretching sheet
K.V. Prasad, M. Subhas Abel, Sujit Kumar KhanVisco‐elastic fluid flow and heat transfer in a porous medium over a non‐isothermal stretching sheet have been investigated. The flow is influenced by linearly stretching the…
Thermal‐fluid transport phenomena in strongly heated channel flows
Shuichi Torii, Wen‐Jei YangA theoretical study is performed to investigate transport phenomena in channel flows under uniform heating from either both side walls or a single side. The anisotropic t2¯− εt…
Mixed convection in a square cavity due to heat generating rectangular body: Effect of cavity exit port locations
S.Z. Shuja, B.S. Yilbas, M.O. IqbalFlow in the cavity with heat generating body finds wide domestic and industrial applications. The heat transfer characteristics and the irreversibility generated in the cavity…
Numerical study of periodically turbulent flow and heat transfer in a channel with transverse fin arrays
Z.X. YuanA numerical study has been conducted for the characteristics of the periodically fully developed turbulent flow and heat transfer in a channel with transverse opposite‐positioned…
Global numerical prediction of bursting frequency in turbulent boundary layers
William W. Liou, Yichuan Fang, Roy S. BatyThe frequencies of the bursting events associated with the streamwise coherent structures of spatially developing incompressible turbulent boundary layers were predicted. The…
Turbulent heat transfer in a channel with bars in tandem and in side by side arrangements
Jaime Alvarez, Mirko Pap, Alvaro ValenciaThis work numerically investigates the effects of two square bars placed in various arrangements in a channel on pressure drop and heat transfer. Tandem arrangements and the two…
ISSN:
0961-5539Online date, start – end:
1991Copyright Holder:
Emerald Publishing LimitedOpen Access:
hybridEditor:
- Prof Roland Lewis