Add to ORKGAbstract: It is well known that large-scale organised motions, usually called coherent structures, exist in many transitional and turbulent flows. The topology and range of scales of coherent structures change widely in different flows. However, it is not well established what kind of large-scale coherent structures exists in separated/reattached transitional flows. Large Eddy Simulation (LES) with a dynamic subgrid-scale model is employed to investigate a separated boundary layer transition under 2 % free stream turbulence level and without free stream turbulence on a flat plate with a blunt leading edge. Flow visualization is employed to show the entire transition process leading to breakdown to turbulence and large-scale coherent structu...
To the authors’ knowledge this is the first time that numerically generated turbulence has been used...
Large scale coherent structures are intrinsic fluid mechanical characteristics of all free-shear flo...
Laminar separated flows are known to become unstable at relatively low Reynolds numbers. As a result...
It is well known that large-scale organised motions, usually called coherent structures, exist in ma...
It is well known that large-scale organized motions, usually called coherent structures, exist in ma...
In the current study, changes in the physics of transitional separated-reattached flow due to change...
In this work the physics of transitional separated-reattched flow with and without free-stream turbu...
A large-eddy simulation (LES) of a transitional separated flow over a plate with a semi-circular lea...
Physics of laminar-to-turbulent transition in a separated-reattached flow subjected to two free-stre...
The transitional separatedreattached flow on a flat plate with a blunt leading edge under 2% free-st...
Large-eddy simulation (LES) is conducted to study the transition process of a separated boundary lay...
Large-eddy simulation is employed to investigate separated boundary layer transition induced by a ch...
Large-eddy simulation (LES) of transitional separatingreattaching flow on a flat plate with a blunt ...
Transition from laminar to turbulence in separated-reattached flow occurs frequently and plays a ver...
The understanding of the physics of the Coherent Structures and their interaction with the remaining...
To the authors’ knowledge this is the first time that numerically generated turbulence has been used...
Large scale coherent structures are intrinsic fluid mechanical characteristics of all free-shear flo...
Laminar separated flows are known to become unstable at relatively low Reynolds numbers. As a result...
It is well known that large-scale organised motions, usually called coherent structures, exist in ma...
It is well known that large-scale organized motions, usually called coherent structures, exist in ma...
In the current study, changes in the physics of transitional separated-reattached flow due to change...
In this work the physics of transitional separated-reattched flow with and without free-stream turbu...
A large-eddy simulation (LES) of a transitional separated flow over a plate with a semi-circular lea...
Physics of laminar-to-turbulent transition in a separated-reattached flow subjected to two free-stre...
The transitional separatedreattached flow on a flat plate with a blunt leading edge under 2% free-st...
Large-eddy simulation (LES) is conducted to study the transition process of a separated boundary lay...
Large-eddy simulation is employed to investigate separated boundary layer transition induced by a ch...
Large-eddy simulation (LES) of transitional separatingreattaching flow on a flat plate with a blunt ...
Transition from laminar to turbulence in separated-reattached flow occurs frequently and plays a ver...
The understanding of the physics of the Coherent Structures and their interaction with the remaining...
To the authors’ knowledge this is the first time that numerically generated turbulence has been used...
Large scale coherent structures are intrinsic fluid mechanical characteristics of all free-shear flo...
Laminar separated flows are known to become unstable at relatively low Reynolds numbers. As a result...