This paper deals with a mathematical modeling of flow stability of Newtonian and non-Newtonian fluids in the gap between two concentric cylinders, one of which rotates. A typical feature of the flow is the formation of a vortex flow, so-called Taylor vortices. Vortex structures are affected by the speed of the rotating cylinder and the physical properties of the fluids, i.e., viscosity and density. Analogy in terms of viscosity is assumed for non-Newtonian and magnetorheological fluids. Mathematical models of laminar, transient and turbulent flow with constant viscosity and viscosity as a function of the deformation gradient were formulated and numerically solved to analyze the stability of single-phase flow. To verify them, a physical expe...
Abstract A munerical solution of linear differential equations governing the instability of the Tayl...
This discussion which is restricted to the flow of heterogeneous, incompressible, inviscid, perfect ...
This study investigates by Particle Image Velocimetry (PIV) the wavy Taylor vortex flow that develop...
This paper deals with a mathematical modeling of flow stability of Newtonian and non-Newtonian fluid...
This paper deals with a mathematical modeling of flow stability of Newtonian and non-Newtonian fluid...
The research of liquids composed of two (or more) mutually immiscible components is a new emerging a...
Flows in nature and technology are often associated with specific structures and pattern. This paper...
This study investigated by an analytical method the flow that develops in the gap between concentric...
This thesis explores a range of stability techniques applied to fluid structures that develop in var...
Axisymmetric numerical solutions of the Navier-Stokes equations for flow between rotating cylinders ...
We investigate the effects of magnetic fields on the flow of a magnetic fluid in the gap between two...
In this paper the theory of the stability of viscous flow between two rotating coaxial cylinders whi...
We study numerically the effect of the radial gap on the onset of Taylor vortices in Taylor-Couette ...
International audienceThe stability of the Taylor vortex flow in Newtonian and shear-thinning fluids...
The linear stability of two axially superposed immiscible fluids between two rotating coaxial cylind...
Abstract A munerical solution of linear differential equations governing the instability of the Tayl...
This discussion which is restricted to the flow of heterogeneous, incompressible, inviscid, perfect ...
This study investigates by Particle Image Velocimetry (PIV) the wavy Taylor vortex flow that develop...
This paper deals with a mathematical modeling of flow stability of Newtonian and non-Newtonian fluid...
This paper deals with a mathematical modeling of flow stability of Newtonian and non-Newtonian fluid...
The research of liquids composed of two (or more) mutually immiscible components is a new emerging a...
Flows in nature and technology are often associated with specific structures and pattern. This paper...
This study investigated by an analytical method the flow that develops in the gap between concentric...
This thesis explores a range of stability techniques applied to fluid structures that develop in var...
Axisymmetric numerical solutions of the Navier-Stokes equations for flow between rotating cylinders ...
We investigate the effects of magnetic fields on the flow of a magnetic fluid in the gap between two...
In this paper the theory of the stability of viscous flow between two rotating coaxial cylinders whi...
We study numerically the effect of the radial gap on the onset of Taylor vortices in Taylor-Couette ...
International audienceThe stability of the Taylor vortex flow in Newtonian and shear-thinning fluids...
The linear stability of two axially superposed immiscible fluids between two rotating coaxial cylind...
Abstract A munerical solution of linear differential equations governing the instability of the Tayl...
This discussion which is restricted to the flow of heterogeneous, incompressible, inviscid, perfect ...
This study investigates by Particle Image Velocimetry (PIV) the wavy Taylor vortex flow that develop...