Analysis of Slip Induced One Dimensional MHD Flow between Parallel Plates

Abstract

Fluid drag is an important phenomenon at solid-liquid interface. In nano/microfluidics, it has significant importance due to small surface to volume ratio. Slip at the interface is an important phenomenon which reduces the friction at the interface. In this study we have proposed a more general theoretical model for the slip induced magneto-hydrodynamic (MHD) flow across parallel plates. We have analyzed the effect of slip parameter on the velocity and the flow rate across parallel plates. The effect of magnetic field on velocity and the flow rate has also been discussed. Our results show satisfactory agreement with the previously conducted experimental and analytical studies. In this paper, we have briefly discussed and compared the new model with the existing experimental and theoretical studies.