The majority of this work is concerned with the local-linear convective instability analysis of the incompressible boundary-layer flows over prolate spheroids and oblate spheroids rotating in otherwise still fluid. The laminar boundary layer and the perturbation equations have been formulated by introducing two distinct orthogonal coordinate systems. A cross-sectional eccentricity parameter e is introduced to identify each spheroid within its family. Both systems of equations reduce exactly to those already established for the rotating sphere boundary layer. The effects of viscosity and streamline-curvature are included in each analysis. We predict that for prolate spheroids at low to moderate latitudes, increasing eccentricity has a strong...
AbstractWe consider the effect of surface mass flux and forced axial flow on the boundary-layer flow...
International audienceThe generation of mean flows is a long-standing issue in rotating fluids. Moti...
Numerical simulations were conducted to investigate the linear global stability behaviour of the B¨o...
The majority of this work is concerned with the local-linear convective instability analysis of the ...
We study linear convective instabilities within of the boundary-layer flows over spheroids rotating ...
The continuous development of spinning projectiles and other industrial applications has led to the ...
A theoretical investigation is carried out into the linear stability of the boundary-layer flow arou...
The majority of this work is concerned with the local-stability of incompressible non-Newtonian boun...
We present a new solution for the steady boundary-layer flow over the rotating sphere that also acco...
We consider the linear global stability of the boundary-layer flow over a rotating sphere. Our resul...
We consider the convective instability of stationary and traveling modes within the boundary layer o...
This paper investigates the effects of surface roughness on the convective stability behavior of bou...
AbstractWe consider the effect of surface mass flux and forced axial flow on the boundary-layer flow...
International audienceThe generation of mean flows is a long-standing issue in rotating fluids. Moti...
Numerical simulations were conducted to investigate the linear global stability behaviour of the B¨o...
The majority of this work is concerned with the local-linear convective instability analysis of the ...
We study linear convective instabilities within of the boundary-layer flows over spheroids rotating ...
The continuous development of spinning projectiles and other industrial applications has led to the ...
A theoretical investigation is carried out into the linear stability of the boundary-layer flow arou...
The majority of this work is concerned with the local-stability of incompressible non-Newtonian boun...
We present a new solution for the steady boundary-layer flow over the rotating sphere that also acco...
We consider the linear global stability of the boundary-layer flow over a rotating sphere. Our resul...
We consider the convective instability of stationary and traveling modes within the boundary layer o...
This paper investigates the effects of surface roughness on the convective stability behavior of bou...
AbstractWe consider the effect of surface mass flux and forced axial flow on the boundary-layer flow...
International audienceThe generation of mean flows is a long-standing issue in rotating fluids. Moti...
Numerical simulations were conducted to investigate the linear global stability behaviour of the B¨o...