Add to ORKGWe describe progress in classifying the convective instability characteristics of the boundarylayer flow over the family of rotating cones. Existing experimental and theoretical studies are discussed which lead to the clear hypothesis of a centrifugal instability mode that dominates over slender cones and manifests as Görtler-type spiral vortices. Although a formulation consistent with the classic rotating-disk problem has been successful in predicting the stability characteristics over broad cones, it is unable to identify such a centrifugal mode as the half-angle is reduced. An alternative formulation is introduced and an asymptotic analysis summarized which identifies such a centrifugal mode
The subject of fluid flows over axisymmetric bodies has increased in recent times, as they can be us...
This paper is concerned with the existence of local absolute instability in the boundary-layer flow ...
We investigate the effects of compressibility and wall cooling on the stationary, viscous (Type II) ...
Existing experimental and theoretical studies are discussed which lead to the clear hypothesis of a ...
Experimental studies have shown that the boundary-layer flow over a rotating cone is susceptible to ...
In this study, we provide a mathematical description of the on-set of counter-rotating circular vort...
In this study, we provide a mathematical description of the onset of counter-rotating circular vorti...
In this study, a new centrifugal instability mode, which dominates within the boundary-layer flow ov...
We present stability analyses for the boundary-layer flow over broad cones (half-angle > 40◦) rota...
Centrifugal instability of the boundary layer is known to induce spiral vortices over a rotating sle...
In this study, a new centrifugal instability mode, which dominates within the boundary-layer flow ov...
Experimental studies have shown that the boundary-layer flow over a rotating cone is susceptible to ...
The flow over a rotating cone in still fluid is susceptible to crossflow and centrifugal instability...
The subject of fluid flows over axisymmetric bodies has increased in recent times, as they can be us...
We present stability analyses for the boundary-layer flow over broad cones (half-angle > 40◦) rot...
The subject of fluid flows over axisymmetric bodies has increased in recent times, as they can be us...
This paper is concerned with the existence of local absolute instability in the boundary-layer flow ...
We investigate the effects of compressibility and wall cooling on the stationary, viscous (Type II) ...
Existing experimental and theoretical studies are discussed which lead to the clear hypothesis of a ...
Experimental studies have shown that the boundary-layer flow over a rotating cone is susceptible to ...
In this study, we provide a mathematical description of the on-set of counter-rotating circular vort...
In this study, we provide a mathematical description of the onset of counter-rotating circular vorti...
In this study, a new centrifugal instability mode, which dominates within the boundary-layer flow ov...
We present stability analyses for the boundary-layer flow over broad cones (half-angle > 40◦) rota...
Centrifugal instability of the boundary layer is known to induce spiral vortices over a rotating sle...
In this study, a new centrifugal instability mode, which dominates within the boundary-layer flow ov...
Experimental studies have shown that the boundary-layer flow over a rotating cone is susceptible to ...
The flow over a rotating cone in still fluid is susceptible to crossflow and centrifugal instability...
The subject of fluid flows over axisymmetric bodies has increased in recent times, as they can be us...
We present stability analyses for the boundary-layer flow over broad cones (half-angle > 40◦) rot...
The subject of fluid flows over axisymmetric bodies has increased in recent times, as they can be us...
This paper is concerned with the existence of local absolute instability in the boundary-layer flow ...
We investigate the effects of compressibility and wall cooling on the stationary, viscous (Type II) ...