The hydromagnetic flow of immiscible nanofluids between two parallel plates is investigated.
Two regions, namely,(i) Region 1 is filled with base fluid kerosene oil with silver Ag …

Abstract Nowadays, non-Newtonian and Newtonian non-miscible fluid flow problems are
much more effective in real-life physical problems. The understanding of flow behavior of …

In this paper the entropy generation is studied due to micropolar fluid flow through an
inclined channel of parallel plates with constant pressure gradient. The lower plate is …

The present work concerns with an entropy production of two-phase non-miscible
Newtonian and micropolar fluid in a rectangular conduit. In this model, the flow regime is …

This work analyzes the impact of oriented magnetic fields and thermal radiation on the
entropy generation of two non-miscible electrically conducting micropolar and Newtonian …

This study examines the flow rate, Bejan number transportation, concentration distribution
and thermal characteristics of an immiscible couple stress‐micropolar fluids within a porous …

In this work, authors have studied peristaltic flow of immiscible type of couple stress and
Newtonian fluid via an asymmetric horizontal channel filled with porous material by taking …

Micropolar theories present an excellent mechanism for exploring new non-Newtonian
materials processing provides a stimulating area for process engineering simulation …

This paper aims to analyze the thermal characteristics, entropy production, flow velocity and
Bejan number profile for immiscible nature of micropolar and Newtonian viscous fluid within …

The aim of this study is to investigate the entropy production characteristics of two non-
miscible fluids in an inclined porous channel with temperature-dependent thermal …