Impact of melting heat transfer and outer-velocity of casson nanofluid over a stretching sheet

Abstract

A study has been done to analyze the combined effect of melting process with outer velocity in a casson Nanofluid over a stretching Sheet. The effect of Brownian motion and thermophoresis parameter are also taken into consideration in our study. The coupled non– linear partial differential Equations are mould into ordinary differential equation with the help of similarity variables. The mould differential equations are numerically solved by RKF method with shooting techniques in MATLAB. The effect of prominent nanofluid parameters on velocity, temperature and concentration are studied and presented graphically and also skin friction coefficient, nusselt number and sherwood number has been observed on various nanofluid parameters are presented through tables. This research will be crucial for creating cooling devices and heat sinks of various shapes that will improve the heat transfer capabilities of Casson nanofluids, expanding their industrial potential. Casson nanofluid parameter rises, the nanofluid velocity rises, while the thickness of boundary layer reduces.