Paper Info
Title
Entropy Analysis of 3D Non-Newtonian MHD Nanofluid Flow with Nonlinear Thermal Radiation Past over Exponential Stretched Surface.
Abstract
The present study characterizes the flow of three-dimensional viscoelastic magnetohydrodynamic (MHD) nanofluids flow with entropy generation analysis past an exponentially permeable stretched surface with simultaneous impacts of chemical reaction and heat generation/absorption. The analysis was conducted with additional effects nonlinear thermal radiation and convective heat and mass boundary conditions. Apposite transformations were considered to transform the presented mathematical model to a system of differential equations. Analytical solutions of the proposed model were developed via a well-known homotopy analysis scheme. The numerically calculated values of the dimensionless drag coefficient, local Nusselt number, and mass transfer Nusselt number are presented, with physical insights. The graphs depicting the consequences of numerous parameters on involved distributions with requisite deliberations were also a part of this model. It is seen that the Bejan number is an increasing function of the thermal radiation parameter.
Year
DOI
Venue
2018
10.3390/e20120930
ENTROPY
Keywords
Field
DocType
entropy generation,chemical species,nonlinear thermal radiation,exponential stretched surface
Mathematical optimization,Nonlinear system,Thermal radiation,Exponential function,Flow (psychology),Mechanics,Magnetohydrodynamics,Mathematics,Non-Newtonian fluid,Nanofluid
Journal
Volume
Issue
ISSN
20
12
1099-4300
Citations 
PageRank 
References 
1
0.43
5
Authors
8
Name
Order
Citations
PageRank
Muhammad Suleman111.11
Muhammad Ramzan273.40
Madiha Zulfiqar310.43
Muhammad Bilal410.77
Ahmad Shafee510.77
Jae Dong Chung666.41
Dianchen Lu754.33
Umer Farooq857152.74