Add to ORKGWe study the pressure-driven miscible displacement of one fluid by another in a horizontal channel in the presence of an exothermic chemical reaction. We solve the continuity, Navier-Stokes, and energy conservation equations coupled to convective-discussion equations of the reactant and product. The viscosity is assumed to depend on the volume fraction of the reactant and product as well as the temperature. The effects of relevant parameters such as the Reynolds number, Schmidt number, Damköhler number and viscosity ratio of the reactant and product are studied. Our results indicate that increasing the intensity of the chemical reaction by increasing the Damköhler number and decreasing the dimensionless activation energy increases the displ...
summary:During the last years the interest in the numerical simulation of reacting flows has grown c...
Chemical reactions can interplay with hydrodynamic flows to generate chemo-hydrodynamic instabilitie...
The mechanisms of near-wall velocity slip and their effects on energy conversion of fluid motion in ...
We study the pressure-driven, non-isothermal miscible displacement of one fluid by another in a hori...
The pressure-driven miscible displacement of a less viscous fluid by a more viscous one in a horizon...
Viscous fingering can occur in fluid motion whenever a high mobility fluid displaces a low mobility ...
The effect of chemical reaction on unsteady MHD free convective two immiscible fluids flow has been ...
The present article explores the effects of uniform heat source and first order destructive chemical...
In our previous study, we experimentally studied the effects of increased or decreased viscosity of ...
This paper looks at the peristaltic motion of MHD couple stress fluid in an inclined asymmetric chan...
The pressure-driven displacement of one fluid (initially filled inside a channel) by another (inject...
The present study explores the influences of chemical reaction and viscous dissipation on the hydrom...
The present article deals with the effects of velocity slip, chemical reaction on heat and mass tran...
Modal analysis of the Reynolds-Orr energy equation for a miscible viscosity stratified slippery chan...
We study the fundamental problem of mixing and chemical reactions under a Rayleigh-Taylor-type hydro...
summary:During the last years the interest in the numerical simulation of reacting flows has grown c...
Chemical reactions can interplay with hydrodynamic flows to generate chemo-hydrodynamic instabilitie...
The mechanisms of near-wall velocity slip and their effects on energy conversion of fluid motion in ...
We study the pressure-driven, non-isothermal miscible displacement of one fluid by another in a hori...
The pressure-driven miscible displacement of a less viscous fluid by a more viscous one in a horizon...
Viscous fingering can occur in fluid motion whenever a high mobility fluid displaces a low mobility ...
The effect of chemical reaction on unsteady MHD free convective two immiscible fluids flow has been ...
The present article explores the effects of uniform heat source and first order destructive chemical...
In our previous study, we experimentally studied the effects of increased or decreased viscosity of ...
This paper looks at the peristaltic motion of MHD couple stress fluid in an inclined asymmetric chan...
The pressure-driven displacement of one fluid (initially filled inside a channel) by another (inject...
The present study explores the influences of chemical reaction and viscous dissipation on the hydrom...
The present article deals with the effects of velocity slip, chemical reaction on heat and mass tran...
Modal analysis of the Reynolds-Orr energy equation for a miscible viscosity stratified slippery chan...
We study the fundamental problem of mixing and chemical reactions under a Rayleigh-Taylor-type hydro...
summary:During the last years the interest in the numerical simulation of reacting flows has grown c...
Chemical reactions can interplay with hydrodynamic flows to generate chemo-hydrodynamic instabilitie...
The mechanisms of near-wall velocity slip and their effects on energy conversion of fluid motion in ...