Hydrodynamic and hydromagnetic stability

Medicinal natural products

Effect of magnetic field-dependent viscosity on revolving ferrofluid

A study of thermal instability driven by buoyancy force is carried out in an initially quiescent infinitely extended horizontal porous medium saturated with viscoelastic fluid. Modified Darcy’s law is used to explain characteristics of fluid motion. The time periodic gravity field has been considered, and its effect on the system has been investigated. A weak nonlinear stability analysis has been performed for the oscillatory mode of convection, and heat transport in terms of the Nusselt number, which is governed by the complex non-autonomous Ginzburg–Landau equation, is calculated. The influence of relaxation and retardation times of viscoelastic fluid on heat transfer has been discussed. Further, the study establishes that the heat transport can be controlled effectively by a mechanism that is external to the system. Finally, it is found that overstability advances the onset of convection, and hence increases heat transfer.

Weak Nonlinear Oscillatory Convection in a Viscoelastic Fluid-Saturated Porous Medium Under Gravity Modulation

Thermal convection in micropolar ferrofluid in the presence of rotation

The thermal instability of electrically conducting micropolar fluids heated from below in the presence of uniform vertical magnetic field in porous medium has been considered. It is found that the presence of coupling between thermal and micropolar effects, magnetic field and permeability may introduce oscillatory motions in the system. The increase in Rayleigh number for stationary convection and decrease in Rayleigh number for overstability with the increase in magnetic field is depicted graphically. Also the Rayleigh number is found to decrease with the increase in permeability.

On micropolar fluids heated from below in hydromagnetics in porous medium

Effect of rotation on thermal convection in micropolar fluids

The stability of the plane interface separating two viscoelastic (Walters B′) superposed fluids of uniform densities has been studied. The stability analysis has been carried out, for mathematical simplicity, for two highly viscoelastic fluids of equal kinematic viscosities and equal kinematic viscoelasticities. For the stable configuration, the system is found to be stable or unstable for the wave-number range k (2ev′)-1/2, depending on kinematic viscoelasticity v′. However, the system is found to be unstable for the unstable configuration. The behaviour of growth rates with respect to kinematic viscosity and kinematic viscoelasticity are examined analytically.

On the stability of two superposed Walters B′ viscoelastic liquids

The thermal instability of a rotating Rivlin-Ericksen viscoelastic
fluid in the presence of uniform vertical magnetic field is
considered. For the case of stationary convection, Rivlin-Ericksen
viscoelastic fluid behaves like a Newtonian fluid. It is found
that rotation has a stabilizing effect, whereas the magnetic field
has both stabilizing and destabilizing effects. Graphs have been
plotted by giving numerical values to the parameters, to depict
the stability characteristics. The rotation and magnetic field are
found to introduce oscillatory modes in the system which were
nonexistent in their absence.

/pdf/effect-of-magnetic-field-on-thermal-instability-of-a-3gfwkuggim.pdf

Effect of magnetic field on thermal instability of a rotating rivlin-ericksen viscoelastic fluid

The thermal instability of electrically conducting micropolar fluids heated from below in the presence of a uniform vertical magnetic field has been considered. The presence of coupling between thermal and micropolar effects may bring overstability in the system. The magnetic field also introduces oscillatory modes in the system and the Rayleigh number is found to increase with the increase in magnetic field.

On micropolar fluids heated from below in hydromagnetics

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