Three-dimensional nanofluid stirring with non-uniform heat source/sink through an elongated sheet
作者:
Highlights:
• Higher relaxation time retards the fluid velocity in its boundary layer.
• The position-reliant heat source/sink enhances the solutal transfer rate.
• Axial velocity profile is affected due to the increase in stretching ratio parameter.
• Temperature and concentration profiles increase due to an increase in biot number.
摘要
•Higher relaxation time retards the fluid velocity in its boundary layer.•The position-reliant heat source/sink enhances the solutal transfer rate.•Axial velocity profile is affected due to the increase in stretching ratio parameter.•Temperature and concentration profiles increase due to an increase in biot number.
论文关键词:Maxwell nanofluid,Convective surface temperature,Non-Linear Density Temperature (NDT),Non-uniform heat source or sink,Three-dimension flow,Buoyancy ratio
论文评审过程:Received 2 March 2021, Revised 26 December 2021, Accepted 3 January 2022, Available online 14 January 2022, Version of Record 14 January 2022.
论文官网地址:https://doi.org/10.1016/j.amc.2022.126927
