Add to ORKGcited By 41International audienceHot wire measurements of longitudinal and transverse increments are performed in three different types of flows on a large range of Reynolds numbers (100≲Rλ≲3000). An improved technique based on cumulant expansion of velocity structure functions is used to estimate the spreading of the pdfs and to study their scaling properties in the inertial range. Thus, the rate of intermittency depth through the scales of flow, called here β(Rλ), is experimentally introduced, and it is shown that β(Rλ) has a universal behavior on a very large Reynolds numbers range. © 1998 American Institute of Physics
Turbulent shear flows, such as those occurring in the wall region of turbulent boundary layers, show...
WOS:000400824400016International audienceThe effect of large-scale forcing on the second- and third-...
We have conducted a detailed analysis of scaling for longitudinal and transverse velocity structure ...
cited By 32International audienceThe velocity increments statistic in various turbulent flows is ana...
The velocity increments statistic in various turbulent flows is analysed through the hypothesis that...
The relative scaling exponents and intermittency of three-dimensional compressible turbulent channel...
Highly resolved, two-component velocity measurements were made near the centreline of turbulent pipe...
We present a study of intermittency in a turbulent channel flow. Scaling exponents of longitudinal s...
7 pages, 7 figuresIntermittency, measured as log(F(r)/3), where F(r) is the flatness of velocity inc...
Among the most important questions about turbulence, is the origin of intermittency in a flow. Anoth...
The intermittency characteristics of the longitudinal (u) and transverse (v) velocity and temperatur...
We analyze the isotropic component of turbulent flows spanning a broad range or Reynolds numbers. Th...
Intermittency, measured as $\log \left({F(r)}/{3}\right)$ , where F(r) is the flatness of velocity i...
Intermittency, measured as log(F(r)/3), where F(r) is the flatness of velocity increments at scale r...
International audienceThis paper reports new experimental and simulation velocity data for superflui...
Turbulent shear flows, such as those occurring in the wall region of turbulent boundary layers, show...
WOS:000400824400016International audienceThe effect of large-scale forcing on the second- and third-...
We have conducted a detailed analysis of scaling for longitudinal and transverse velocity structure ...
cited By 32International audienceThe velocity increments statistic in various turbulent flows is ana...
The velocity increments statistic in various turbulent flows is analysed through the hypothesis that...
The relative scaling exponents and intermittency of three-dimensional compressible turbulent channel...
Highly resolved, two-component velocity measurements were made near the centreline of turbulent pipe...
We present a study of intermittency in a turbulent channel flow. Scaling exponents of longitudinal s...
7 pages, 7 figuresIntermittency, measured as log(F(r)/3), where F(r) is the flatness of velocity inc...
Among the most important questions about turbulence, is the origin of intermittency in a flow. Anoth...
The intermittency characteristics of the longitudinal (u) and transverse (v) velocity and temperatur...
We analyze the isotropic component of turbulent flows spanning a broad range or Reynolds numbers. Th...
Intermittency, measured as $\log \left({F(r)}/{3}\right)$ , where F(r) is the flatness of velocity i...
Intermittency, measured as log(F(r)/3), where F(r) is the flatness of velocity increments at scale r...
International audienceThis paper reports new experimental and simulation velocity data for superflui...
Turbulent shear flows, such as those occurring in the wall region of turbulent boundary layers, show...
WOS:000400824400016International audienceThe effect of large-scale forcing on the second- and third-...
We have conducted a detailed analysis of scaling for longitudinal and transverse velocity structure ...