Radiative Blood-Based Hybrid Copper-Graphene Nanoliquid Flows along a Source-Heated Leaning Cylinder  

作　　者：Siti Nur Ainsyah Ghani Noor Fadiya Mohd Noor 

机构地区：[1]Institute of Mathematical Sciences,Faculty of Science,Universiti Malaya,Kuala Lumpur,50603,Malaysia [2]Center for Data Analytics Consultancy&Services(UM-CDACS),Faculty of Science,Universiti Malaya,Kuala Lumpur,50603,Malaysia

出　　处：《Computer Modeling in Engineering & Sciences》2024年第4期1017-1037,共21页工程与科学中的计算机建模（英文）

基　　金：funded by the Ministry of Higher Education,Malaysia,through the Research Fund of Fundamental Research Grant Scheme (FRGS/1/2020/STG06/UM/02/1:FP009-2020).

摘　　要：Variant graphene,graphene oxides(GO),and graphene nanoplatelets(GNP)dispersed in blood-based copper(Cu)nanoliquids over a leaning permeable cylinder are the focus of this study.These forms of graphene are highly beneficial in the biological and medical fields for cancer therapy,anti-infection measures,and drug delivery.The non-Newtonian Sutterby(blood-based)hybrid nanoliquid flows are generalized within the context of the Tiwari-Das model to simulate the effects of radiation and heating sources.The governing partial differential equations are reformulated into a nonlinear set of ordinary differential equations using similar transformational expressions.These equations are then transformed into boundary value problems through a shooting technique,followed by the implementation of the bvp4c tool in MATLAB.The influences of various parameters on the model’s nondimensional velocity and temperature profiles,reduced skin friction,and reduced Nusselt number are presented for detailed discussions.The results indicated that Cu-GNP/blood and Cu-GO/blood hybrid nanofluids exhibit the lowest and highest velocity distributions,respectively,for increased nanoparticles volume fraction,curvature parameter,Sutterby fluid parameter,Hartmann number,and wall permeability parameter.Conversely,opposite trends are observed for the temperature distribution for all considered parameters,except the mixed convection parameter.Increases in the reduced skin friction magnitude and the reduced Nusselt number with higher values of graphene/GO/GNP nanoparticle volume fraction are also reported.Finally,GNP is identified as the superior heat conductor,with an average increase of approximately 5%and a peak of 7.8%in the reduced Nusselt number compared to graphene and GO nanoparticles in the Cu/blood nanofluids.

关 键 词：Hybrid nanofluid sutterby fluid tiwari-das model thermal radiation GRAPHENE graphene oxides graphene nanoplatelets 

分 类 号：TB383[一般工业技术—材料科学与工程] TQ127.11[化学工程—无机化工]