Add to ORKGThe present paper deals with the linear thermal instability analysis of viscoelastic nanofluid saturated porous layer. We consider a set of new boundary conditions for the nanoparticle fraction, which is physically more realistic. The new boundary condition is based on the assumption that the nanoparticle fraction adjusts itself so that the nanoparticle flux is zero on the boundaries. We use Oldroyd-B type viscoelastic fluid that incorporates the effects of Brownian motion and thermophoresis. Expressions for stationary and oscillatory modes of convection have been obtained in terms of the Rayleigh number, which are found to be functions of various parameters. The numerical results have been presented through graphs
Thermal instability in a horizontal layer of nanofluid with vertical AC electric field in a porous m...
Thermal instability in a horizontal layer of Walter’s (Model B\u27) visco-elastic nanofluid is inves...
Despite the experimental observation of shear-thinning rheological behavior depending on the nanopar...
AbstractThe thermal convection in a horizontal layer of a porous medium saturated with a viscoelasti...
The onset of double-diffusive (thermosolutal) convection in horizontal porous layer saturatedwith an...
The onset of double-diffusive (thermosolutal) convection in horizontal porous layer saturatedwith an...
The thermal convection in a horizontal layer of a porous medium saturated with a viscoelastic nanofl...
The effect of nanofluid viscosity varying exponentially with temperature on the onset of convection ...
AbstractThe thermal convection in a horizontal layer of a porous medium saturated with a viscoelasti...
AbstractThis paper carried out a nonlinear thermal convection in a porous medium saturated with visc...
Linear and nonlinear stability analyses for the onset of time-dependent convection in ahorizontal la...
Linear and nonlinear stability analyses for the onset of time-dependent convection in ahorizontal la...
Linear and nonlinear stability analyses for the onset of time-dependent convection in ahorizontal la...
Thermal instability in a low Prandtl number nanofluid in a porous medium is investigated by using Ga...
This paper presents a linear stability analysis of natural convection in a horizontal layer of a vis...
Thermal instability in a horizontal layer of nanofluid with vertical AC electric field in a porous m...
Thermal instability in a horizontal layer of Walter’s (Model B\u27) visco-elastic nanofluid is inves...
Despite the experimental observation of shear-thinning rheological behavior depending on the nanopar...
AbstractThe thermal convection in a horizontal layer of a porous medium saturated with a viscoelasti...
The onset of double-diffusive (thermosolutal) convection in horizontal porous layer saturatedwith an...
The onset of double-diffusive (thermosolutal) convection in horizontal porous layer saturatedwith an...
The thermal convection in a horizontal layer of a porous medium saturated with a viscoelastic nanofl...
The effect of nanofluid viscosity varying exponentially with temperature on the onset of convection ...
AbstractThe thermal convection in a horizontal layer of a porous medium saturated with a viscoelasti...
AbstractThis paper carried out a nonlinear thermal convection in a porous medium saturated with visc...
Linear and nonlinear stability analyses for the onset of time-dependent convection in ahorizontal la...
Linear and nonlinear stability analyses for the onset of time-dependent convection in ahorizontal la...
Linear and nonlinear stability analyses for the onset of time-dependent convection in ahorizontal la...
Thermal instability in a low Prandtl number nanofluid in a porous medium is investigated by using Ga...
This paper presents a linear stability analysis of natural convection in a horizontal layer of a vis...
Thermal instability in a horizontal layer of nanofluid with vertical AC electric field in a porous m...
Thermal instability in a horizontal layer of Walter’s (Model B\u27) visco-elastic nanofluid is inves...
Despite the experimental observation of shear-thinning rheological behavior depending on the nanopar...