Paper Info
Title
Stability Analysis and Dual Solutions of Micropolar Nanofluid over the Inclined Stretching/Shrinking Surface with Convective Boundary Condition.
Abstract
The present study accentuates the heat transfer characteristics of a convective condition of micropolar nanofluid on a permeable shrinking/stretching inclined surface. Brownian and thermophoresis effects are also involved to incorporate energy and concentration equations. Moreover, linear similarity transformation has been used to transform the system of governing partial differential equations (PDEs) into a set of nonlinear ordinary differential equations (ODEs). The numerical comparison has been done with the previously published results and found in good agreement graphically and tabular form by using the shooting method in MAPLE software. Dual solutions have been found in the specific range of shrinking/stretching surface parameters and the mass suction parameter for the opposing flow case. Moreover, the skin friction coefficient, the heat transfer coefficient, the couple stress coefficient, and the concentration transfer rate decelerate in both solutions against the mass suction parameter for the augmentation of the micropolar parameter respectively. The first (second) solution is the stable (unstable) solution and can (not) be considered as a real solution as the values of the smallest eigenvalues are positive (negative).
Year
DOI
Venue
2020
10.3390/sym12010074
SYMMETRY-BASEL
Keywords
Field
DocType
micropolar nanofluid,inclined plane,dual solutions,stability analysis
Boundary value problem,Shooting method,Mathematical analysis,Heat transfer,Heat transfer coefficient,Inclined plane,Thermophoresis,Partial differential equation,Mathematics,Nanofluid
Journal
Volume
Issue
Citations 
12
1
0
PageRank 
References 
Authors
0.34
0
6
Name
Order
Citations
PageRank
Liaquat Ali Lund103.72
Zurni Omar204.73
Umair Khan300.68
Ilyas Khan42525.71
Dumitru Baleanu533878.57
K. S. Nisar61512.15