부산대학교 도서관

The traditional Merkin and Needham wall jet issue was investigated for a copper-titanium dioxide incorporating magnetic field and heat production or heat absorption implications. Further, suction/injection and radiation effects are also considered. Employing correspondent alterations, the central equations were modified as non-linear ordinary differential equations which resolved quantitatively in favour of the hybrid nanofluid circulation and heat allocation that use the shooting approach. Consequently, we discover equations for the decreased layer resistance coefficient along with a lower Nusselt number. The analysis presented that the velocity of fluid enhances with increment in moving stricture, while it can be lowered via higher estimation of velocity slip stricture. The layer resistance coefficient is lowered via the velocity slip factor, whereas it increased for Cu-nanoparticle volume fraction. When there is a magnetic polarity and heat flux present, nanofluid transfers heat more slowly than hybrid nanofluid. [ABSTRACT FROM AUTHOR]