Assorted graphene-based nanofluid flows near a reversed stagnation point over an inclined permeable cylinder
Document Type
Article
Publication Date
3-1-2023
Abstract
Heat flux enhancement resulting from utilization of variant graphene-based nanoparticles; graphenes, graphene nanoplatelets, graphene oxides (GOs), carbon nanotubes (CNTs which include single and multiple walled CNTs) in a water-base fluid is focussed in the present study. A steady, laminar, incompressible, mixed convective and reversed stagnation point flow together with the consideration of transverse magnetic field over varying angles of an inclined permeable cylinder is analyzed for the heterogeneous nanofluids. The governing partial differential equations based on Tiwari-Das model are reformulated into nonlinear ordinary differential equations by applying similarity expressions. A shooting procedure is opted to reformulate the equations into boundary value problems which are solved by employing a numerical finite difference code utilizing three-stage Lobatto IIIa formula in MATLAB. The effects of constructive parameters toward the model on non-dimensional velocity and temperature disseminations, reduced skin friction coefficient and reduced Nusselt number are graphically reported and discussed in details. It is observed that GOs-water has the lowest heat flux performance under increasing values of wall permeability parameter, curvature parameter and nanoparticle volume fraction as compared to other nanofluids. On contrary, our results demonstrate that graphenes-water has the highest heat flux performance as compared to SWCNTs-water across many emerging parameters considered in this study.
Keywords
Nanofluid, Tiwari-Das, Heterogeneous, Graphenes, GNPs, GOs
Divisions
Science,MathematicalSciences
Funders
Faculty of Science-Universiti Malaya Research Grant (FS-UMRG) (RF013B-2018)
Publication Title
Proceedings of the National Academy of Sciences India Section A-Physical Sciences
Volume
93
Issue
1
Publisher
Natl Acad Sciences India
Publisher Location
5 LAJPATRAI RD, ALLAHABAD 211002, INDIA