Unsteady flow of a Maxwell hybrid nanofluid past a stretching/shrinking surface with thermal radiation effect

作     者：N.A.ZAINAL R.NAZAR K.NAGANTHRAN I.POP N.A.ZAINAL;R.NAZAR;K.NAGANTHRAN;I.POP

作者机构：Department of Mathematical SciencesFaculty of Science and TechnologyUniversiti Kebangsaan MalaysiaUKM Bangi 43600SelangorMalaysia Fakulti Teknologi Kejuruteraan Mekanikal dan PembuatanUniversiti Teknikal Malaysia MelakaDurian Tunggal 76100MelakaMalaysia Department of MathematicsBabes-Bolyai UniversityCluj-Napoca R-400084.Romania 

出 版 物：《Applied Mathematics and Mechanics(English Edition)》 (应用数学和力学（英文版）)

年 卷 期：2021年第42卷第10期

页      面：1511-1524页

核心收录：

学科分类：080103[工学-流体力学] 08[工学] 0801[工学-力学（可授工学、理学学位）] 

基　　金：the Research Grant of University Kebangsaan Malaysia(No.GUP-2019-034) 

主　　题：non-Newtonian fluid Maxwell fluid hybrid nanofluid stretching/shrinking surface thermal radiation 

摘      要：The non-Newtonian fluid model reflects the behavior of the fluid flow in global manufacturing progress and increases product ***,the present work strives to analyze the unsteady Maxwell hybrid nanofluid toward a stretching/shrinking surface with thermal radiation effect and heat *** partial derivatives of the multivariable differential equations are transformed into ordinary differential equations in a specified form by applying appropriate *** resulting mathematical model is clarified by utilizing the bvp4c *** control parameters are investigated to see how they affect the *** results reveal that the skin friction coefficient increases by adding nanoparticles and suction *** inclusion of the Maxwell parameter and thermal radiation effect both show a declining tendency in the local Nusselt number,and as a result,the thermal flow efficacy is *** reduction of the unsteadiness characteristic,on the other hand,considerably promotes the improvement of heat transfer *** existence of more than one solution is proven,and this invariably leads to an analysis of solution stability,which validates the first solution viability.