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3D radiative convective flow of ZnO-SAE50nano-lubricant in presence of varying magnetic field and heterogeneous reactions

作     者:M.K.Nayak J.Prakash D.Tripathi V.S.Pandey 

作者机构:Department of PhysicsIHSESiksha"O"Anusandhan Deemed to be UniversityBhubaneswar751003OdishaIndia Department of MathematicsAvvaiyar Government College for WomenKaraikal609602Puducherry-U.T.India Department of MathematicsNational Institute of TechnologyUttarakhand246174India Department of PhysicsNational Institute of Technology DelhiNew DelhiIndia 

出 版 物:《Propulsion and Power Research》 (推进与动力(英文))

年 卷 期:2019年第8卷第4期

页      面:339-350页

核心收录:

学科分类:07[理学] 0701[理学-数学] 070101[理学-基础数学] 

主  题:MHD 3D flow ZnO-SAE50nanolubricant Exponential stretching sheet Convective heating mechanism Thermal radiation Heat generation/absorption 

摘      要:A numerical simulation is presented to investigate the effect of an exponentially varying magnetic field on three dimensional flow of Zinc Oxide-Society of Automotive Engineers 50 nanolubricant(ZnO-SAE50nano-lubricant)past a stretching *** the impact of homogenous and heterogeneous reactions on the flow of nanolubricant concerned has also taken into *** study has been strengthened by introducing the convection mechanism and the effect of thermal *** transformations are employed to transform the set of partial governing equations into the set of ordinary differential *** suitable boundary conditions are used to obtain the numerical *** numerical results are simulated using Matlab bvp4c solver and validated with the existing *** flow characteristics,thermal characteristics,nanoparticle concentration and some non-dimensional numbers are computed under the influence of the pertinent *** valuable outcome of the current study is that augmented magnetic field strength is the root cause of diminishing axial as well as transverse velocities and growing trend of fluid ***,the coeffi-cients of homogenous and heterogeneous reactions are boons for ascending concentration boundary layer.

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