A new stability approach is developed for a wide class of strongly non-parallel axisymmetric flows of a viscous incompressible fluid. This approach encompasses all conical flows, and all steady and weakly unsteady disturbances, while prior studies were limited to specific flows and particular disturbances. A specially derived form of the Navier–Stokes equations allows the exact reduction of the linear stability problem to a system of ordinary differential equations. We found that disturbances originating at the boundaries of a similarity region cause a variety of steady bifurcations. Consideration of the still fluid allows disturbances to be classified into inner, outer and global modes, depending on the boundary conditions perturbed. Then ...
A non-parallel analysis of time-oscillatory instability of conical jets reveals important features n...
The aim of this paper is to provide a complete description of the bifurcation scenario of a uniform ...
Natural convection in a fluid filling the narrow gap between two isothermal, concentric spheres at d...
This is a review of several generalizations of Hiemenz's classic solution for steady two-dimensional...
International audienceThe effect of small viscosity on the behavior of the incompressible axisymmetr...
The phenomenon of vortex breakdown, in which the flow near the axis of a rotating fluid suffers a su...
Direct numerical simulations ofboth axisymmetric and three-dimensional highly swirling flows are con...
Swirling has a significant effect on the main characteristics of flow and can lead to its fundamenta...
The effect of asymmetric perturbations on axisymmetric flows is examined using a combined analytical...
International audienceIn this article we present new experimental and theoretical results which were...
A fully three-dimensional linear stability analysis is carried out to investigate the unstable bifur...
Experimental studies have shown that the boundary-layer flow over a rotating cone is susceptible to ...
Experiment shows that the steady axisymmetric flow past a sphere becomes unstable in the range 120 <...
This thesis contains mathematical treatments of three issues in thermo and fluid dynamics: swirling ...
The weakly nonlinear stability analysis of plane Poiseuille flow (PPF) and plane Couette flow (PCF) ...
A non-parallel analysis of time-oscillatory instability of conical jets reveals important features n...
The aim of this paper is to provide a complete description of the bifurcation scenario of a uniform ...
Natural convection in a fluid filling the narrow gap between two isothermal, concentric spheres at d...
This is a review of several generalizations of Hiemenz's classic solution for steady two-dimensional...
International audienceThe effect of small viscosity on the behavior of the incompressible axisymmetr...
The phenomenon of vortex breakdown, in which the flow near the axis of a rotating fluid suffers a su...
Direct numerical simulations ofboth axisymmetric and three-dimensional highly swirling flows are con...
Swirling has a significant effect on the main characteristics of flow and can lead to its fundamenta...
The effect of asymmetric perturbations on axisymmetric flows is examined using a combined analytical...
International audienceIn this article we present new experimental and theoretical results which were...
A fully three-dimensional linear stability analysis is carried out to investigate the unstable bifur...
Experimental studies have shown that the boundary-layer flow over a rotating cone is susceptible to ...
Experiment shows that the steady axisymmetric flow past a sphere becomes unstable in the range 120 <...
This thesis contains mathematical treatments of three issues in thermo and fluid dynamics: swirling ...
The weakly nonlinear stability analysis of plane Poiseuille flow (PPF) and plane Couette flow (PCF) ...
A non-parallel analysis of time-oscillatory instability of conical jets reveals important features n...
The aim of this paper is to provide a complete description of the bifurcation scenario of a uniform ...
Natural convection in a fluid filling the narrow gap between two isothermal, concentric spheres at d...