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作者机构:Narasaraopeta Engn Coll Dept Math Narasaraopet 522601 Andhra Pradesh India Islamic Azad Univ Cent Tehran Branch Dept Mech Engn Tehran Iran Vellore Inst Technol Div Math Chennai India Irkutsk Natl Res Tech Univ Baikal Sch BRICS Ind Math Lab Irkutsk 664074 Russia South Ural State Univ Dept Appl Math & Programming Lenin Prospect 76 Chelyabinsk 454080 Russia
出 版 物:《RESULTS IN ENGINEERING》 (Result. Eng.)
年 卷 期:2022年第16卷
核心收录:
基 金:The authors wish to thank the reviewers for their careful unbiased and constructive suggestions which led to this revised manuscript
主 题:Arrhenius activation energy Brownian motion Thermophoresis Lewis number Cone
摘 要:This study focuses on an incompressible non-Newtonian nanofluid in a 2-dimensional transient boundary layer through a cone. The Arrhenius activation energy and radiation absorption are both accounted for the nonNewtonian nanofluid model. The Runge-Kutta integration method via ODE45 MATLAB bvp4c is used and the converted coupled nonlinear equations are solved numerically. The numerical results are obtained for the nanoparticle concentration temperature, velocity distributions and also Sherwood number, Nusselt number, and skin friction for different values of the parameters, specifically the convection parameter, Prandtl number, nanofluid parameters and Lewis number. Also there are some discussions over the dependence of the thermophysical characteristics on these factors. Analyzing the impacts of activation energy and radiation absorption is a new approach which is the main novelty of this study. As results when the activation energy parameter has higher values, the skin friction decreases, but the Nusselt value and the Sherwood value exhibits reverse tendency. Skin-friction and the Sherwood value both are increasing as the values of the radiation absorption parameter go up, but the Nusselt number exhibits the reverse pattern. We compared the outcomes of our study with previous works to show the efficiency of this research.