Impact of Joule heating and multiple slips on a Maxwell nanofluid flow past a slendering surface

作     者：Hijaz Ahmadand Shafiq Ahmad Muhammad Naveed Khan Sohail Nadeem Aysha Rehman Hijaz Ahmad Rifaqat AN Shafiq Ahmad;Muhammad Naveed Khan;Sohail Nadeem;Aysha Rehman;Hijaz Ahmad;Rifaqat Ali

作者机构：Department of MathematicsQuaid-I-Azam University 45320Islamabad 44000Pakistan Department of MathematicsUniversity of GujratGujrat50700 Pakistan Section of MathematicsInternational Telematic University UninettunoCorso Vittorio Emanuele II3900186 RomaItaly Department of MathematicsCollege of Science and ArtsMuhayilKing Khalid University 9004AbhaSaudi Arabia 

出 版 物：《Communications in Theoretical Physics》 (理论物理通讯（英文版）)

年 卷 期：2022年第74卷第1期

页      面：1-15页

核心收录：

学科分类：080704[工学-流体机械及工程] 080103[工学-流体力学] 08[工学] 0807[工学-动力工程及工程热物理] 0702[理学-物理学] 0801[工学-力学（可授工学、理学学位）] 

基　　金：The authors extend their appreciation the deanship of Scientific research at King Khalid University for funding through research group program under grant number R.G.P 1/135/42 

主　　题：Maxwell nanofluid slendering stretching surface Joule heating thermal radiation thermophoretic effect 

摘      要：This manuscript presents a study of three-dimensional magnetohydrodynamic Maxwell nanofluid flow across a slendering stretched surface with Joule *** impact of binary chemical reactions,heat generation,thermal radiation,and thermophoretic effect is also taken into *** multiple slip boundary conditions are utilized at the boundary of the *** appropriate similarity variable is used to transfer the flow modeled equations into ODEs,which are numerically solved by the utilization of the MATLAB bvp4c *** involved parameter s impact on the concentration,velocity,and temperature distribution are scrutinized with *** transport rates(mass,heat)are also investigated using the same variables,with the results reported in tabulated *** is seen that the fluid relaxation,magnetic,and wall thickness characteristics diminish the velocities of ***,the velocity,concentration,and temperature slip parameters reduce the velocities of fluid,temperature,and concentration *** results are compared to existing studies and shown to be in dependable agreement.