Effect of SWCNT and MWCNT on the flow of micropolar hybrid nanofluid over a curved stretching surface with induced magnetic field
Copyright policy )Effect of SWCNT and MWCNT on the flow of micropolar hybrid nanofluid over a curved stretching surface with induced magnetic field
AbstractWe considered the magnetized micro polar fluid with hybrid nanomaterial flow over a curved stretching surface. We discussed the effects of single wall carbon nanotube and multiwall carbon nanotube with base fluids (water and propylene glycol). Under the flow assumptions, we developed the mathematical model and applied the boundary layer approximations to reduce the system of partial differential equations. Further, the suitable similarity transformations are applied on the partial differential equations to make dimensionless system. The dimensionless system solved by means of numerical scheme via bvp4c shooting methods. Involving the dimensionless physical parameters effects are highlighted in the form of graphs and tables. Additionally, significant physical quantities i.e. Nusselt number, Couple stress coefficient and Skin friction coefficient are also presented and evaluated numerically. These results are more important which may use in the field of engineering and industrial.
- An Giang University Viet Nam
- Rahman Institute of Higher Education Iran (Islamic Republic of)
- Ton Duc Thang University Viet Nam
- Princess Nourah bint Abdulrahman University Saudi Arabia
- An Giang University Viet Nam
Heat Transfer Enhancement in Nanofluids, Composite material, Biomedical Engineering, FOS: Mechanical engineering, Nanofluid, FOS: Medical engineering, Mechanics, Mathematical analysis, Article, Carbon nanotube, Reynolds number, Nanofluids, Engineering, Parasitic drag, Heat transfer, FOS: Mathematics, Solar Air Heater Heat Transfer Analysis, Classical mechanics, Boundary value problem, Mechanical Engineering, Physics, Microchannel Heat Transfer and Cooling Technology, Partial differential equation, Materials science, Turbulence, Dimensionless quantity, Boundary layer, Physical Sciences, Flow (mathematics), Nusselt number, Mathematics
Heat Transfer Enhancement in Nanofluids, Composite material, Biomedical Engineering, FOS: Mechanical engineering, Nanofluid, FOS: Medical engineering, Mechanics, Mathematical analysis, Article, Carbon nanotube, Reynolds number, Nanofluids, Engineering, Parasitic drag, Heat transfer, FOS: Mathematics, Solar Air Heater Heat Transfer Analysis, Classical mechanics, Boundary value problem, Mechanical Engineering, Physics, Microchannel Heat Transfer and Cooling Technology, Partial differential equation, Materials science, Turbulence, Dimensionless quantity, Boundary layer, Physical Sciences, Flow (mathematics), Nusselt number, Mathematics
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