Interfaces of uniform momentum zones in turbulent boundary layers
From MaRDI portal
Publication:5364740
DOI10.1017/jfm.2017.197zbMath1383.76257OpenAlexW2613671001MaRDI QIDQ5364740
Nicholas Hutchins, Charitha M. de Silva, Jimmy Philip, Ivan Marusic
Publication date: 28 September 2017
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: http://hdl.handle.net/11343/214575
Related Items (23)
Uniform momentum and temperature zones in unstably stratified turbulent flows ⋮ The spatial structure of the logarithmic region in very-high-Reynolds-number rough wall turbulent boundary layers ⋮ A uniform momentum zone–vortical fissure model of the turbulent boundary layer ⋮ Objective momentum barriers in wall turbulence ⋮ Self-similar geometries within the inertial subrange of scales in boundary layer turbulence ⋮ Evidence that uniform momentum zones originate from roughness sublayer structure interactions in fully rough channel turbulence ⋮ Vortex–wave interaction arrays: a sustaining mechanism for the log layer? ⋮ On the detection of internal interfacial layers in turbulent flows ⋮ Uniform momentum zone scaling arguments from direct numerical simulation of inertia-dominated channel turbulence ⋮ How the turbulent/non-turbulent interface is different from internal turbulence ⋮ Do coherent structures organize scalar mixing in a turbulent boundary layer? ⋮ Uniform-momentum zones in a turbulent pipe flow ⋮ Spatial organisation of velocity structures for large passive scalar gradients ⋮ Distributed vortex-wave interactions: the relation of self-similarity to the attached eddy hypothesis ⋮ Internal shear layers and edges of uniform momentum zones in a turbulent pipe flow ⋮ A self-sustaining process theory for uniform momentum zones and internal shear layers in high Reynolds number shear flows ⋮ Uniform-momentum zones in a turbulent boundary layer subjected to freestream turbulence ⋮ Interaction of coherent flow structures in adverse pressure gradient turbulent boundary layers ⋮ Flows over surface-mounted bluff bodies with different spanwise widths submerged in a deep turbulent boundary layer ⋮ Large-scale coherent structures in compressible turbulent boundary layers ⋮ High-Reynolds-number fractal signature of nascent turbulence during transition ⋮ Prograde vortices, internal shear layers and the Taylor microscale in high-Reynolds-number turbulent boundary layers ⋮ Temporal characteristics of the probability density function of velocity in wall-bounded turbulent flows
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Statistical evidence of hairpin vortex packets in wall turbulence
- Uniform momentum zones in turbulent boundary layers
- Turbulent boundary layers and channels at moderate Reynolds numbers
- Statistical structure of turbulent-boundary-layer velocity–vorticity products at high and low Reynolds numbers
- Some characteristics of entrainment at a cylindrical turbulence boundary
- Criteria for assessing experiments in zero pressure gradient boundary layers
- On the mechanism of wall turbulence
- Mixing, entrainment and fractal dimensions of surfaces in turbulent flows
- The turbulent/non-turbulent interface bounding a far wake
- Vortex organization in the outer region of the turbulent boundary layer
- Scaling of the energy spectra of turbulent channels
- The quiescent core of turbulent channel flow
- On density effects and large structure in turbulent mixing layers
- Properties of the turbulent/non-turbulent interface in boundary layers
- Entrainment at multi-scales across the turbulent/non-turbulent interface in an axisymmetric jet
- Momentum and scalar transport at the turbulent/non-turbulent interface of a jet
- Revisiting the law of the wake in wall turbulence
- Influence of the Reynolds number on the vortical structures in the logarithmic region of turbulent boundary layers
- Simultaneous orthogonal-plane particle image velocimetry measurements in a turbulent boundary layer
- Interfacial Layers Between Regions of Different Turbulence Intensity
This page was built for publication: Interfaces of uniform momentum zones in turbulent boundary layers
