Application of Wireless Mesh Network in Interface Tracking Between Two Immiscible Fluids

Abstract

The characteristics of the interaction between immiscible fluids are prominent because of their intriguing conduct in many situations in the environment and industry, such as lubrication process, oil extraction, physicochemical process, and polymers co-extrusion. We examine the time-dependent flow of two immiscible liquids via a horizontal channel in this paper. Due to external pressure, time, and other physical circumstances, the fluidfluid interface alters its location. It may collapse, even though it is non-slip and hyper-stick at the channel’s wall. Hence the single momentum equation by the volume of fluid (VOF) method is combined with Wireless Mesh Network’s to track the interface. The modeled coupled partial differential equation is analytically solved for fluid interface evolution, and using the proposed Algorithm, the coverage and uniformity between the node are calculated. Based on the calculations, the optimal node is selected to track the interface, resulting in discovering the lost information with the least distance. The advection and tracking of the interface with time through graphs. It is observed that the undulating sequence occurs faster for a considerable high time, and the proposed algorithms track the interface with optimal node selection.