Computational simulation of surface tension and gravitation-induced convective flow of a nanoliquid with cross-diffusion: An optimization procedure
作者:
Highlights:
• The conventional model for thermo-solutal mixed Marangoni flow is modified by incorporating the solutal buoyancy force effects.
• The nanoliquid is modeled by considering experimentally estimated properties.
• The conventional thermosolutal and thermal Marangoni flow cases can be obtained as a limiting case of the present problem.
• The dynamics of the nanoliquid flow are visualized for the buoyancy-assisted and opposed flow cases.
• The optimum levels of heat and mass transport is obtained at the high level of thermal radiation and the low levels of the cross-diffusion aspects.
摘要
•The conventional model for thermo-solutal mixed Marangoni flow is modified by incorporating the solutal buoyancy force effects.•The nanoliquid is modeled by considering experimentally estimated properties.•The conventional thermosolutal and thermal Marangoni flow cases can be obtained as a limiting case of the present problem.•The dynamics of the nanoliquid flow are visualized for the buoyancy-assisted and opposed flow cases.•The optimum levels of heat and mass transport is obtained at the high level of thermal radiation and the low levels of the cross-diffusion aspects.
论文关键词:Nanoliquid,Marangoni convection,Boundary layer flow,Inclined magnetic field,Thermal radiation,Sensitivity analysis,RSM
论文评审过程:Received 11 May 2021, Revised 5 January 2022, Accepted 18 March 2022, Available online 1 April 2022, Version of Record 1 April 2022.
论文官网地址:https://doi.org/10.1016/j.amc.2022.127108
