A Self-Similar Approach to Study Nanofluid Flow Driven by a Stretching Curved Sheet

Nano-fluids have considerable importance in the field of thermal development that relates to several industrial systems. There are some key applications recent construction systems flow, as well microscale cooling gadgets and microstructure electric for migration. The current investigation concludes study electrically conducting nano-fluid flow heat transfer analysis two-dimensional boundary layer over a curved extending surface coexisting magnetic field, generation radiation. small sized particles copper (Cu) taken nanoparticles water is assumed be base fluid. We used quasi-linearization central difference approximation numerically solve system coupled equations obtained from partial differential (PDEs) by incorporating concept similarity. impacts non-dimensional parameters on velocity, concentration profiles been discussed with help suitable graphs tables. It has noticed velocity decelerated effect interaction parameter. Thermal radiation caused an increase temperature.