Paper Info
Title
Numerical Investigation of Aligned Magnetic Flow Comprising Nanoliquid over a Radial Stretchable Surface with Cattaneo-Christov Heat Flux with Entropy Generation.
Abstract
The influence of entropy generation on aligned magnetic flow-including nanoparticles through a convectively heated radial stretched surface in the existence of Cattaneo-Christov heat flux is inspected. The highly nonlinear leading PDE's via the similar scaling transformation are developed. The resulting system via the bvp4c technique from Matlab is computed. The impacts of rising constraints on the liquid velocity, nanoparticles concentration and temperature profile are argued and showed via portraits and table. In addition, the performance of liquid flow is inspected through the friction factor, the mass and heat transfer rate. With the rise in the thermal relaxation constraint, the thermal boundary layer is appreciably altered. Due to an aligned angle, the velocity of nanoliquid declines, while the concentration and temperature of nanofluid augment. It is also observed that the values of friction factor increase, whereas the values of heat and mass transfer decline due to an aligned angle. Entropy generation profiles developed due to magnetic parameters and the aligned angle. Lastly, a comparative scrutiny is composed via the previous studies which lead to support for our presently developed model.
Year
DOI
Venue
2019
10.3390/sym11121520
SYMMETRY-BASEL
Keywords
DocType
Volume
nanofluid,MHD aligned flow,convective boundary condition,entropy generation,Cattaneo-Christov heat flux
Journal
11
Issue
Citations 
PageRank 
12
0
0.34
References 
Authors
0
5
Name
Order
Citations
PageRank
Aurang Zaib100.34
Umair Khan200.68
Ilyas Khan32525.71
Asiful H. Seikh401.35
El-Sayed M. Sherif502.70