Modeling wall turbulence remains a major challenge, as a sufficient physical understanding
of these flows is still lacking. In an effort to move toward a physics-based model, AA …

We review wall-bounded turbulent flows, particularly high–Reynolds number, zero–pressure
gradient boundary layers, and fully developed pipe and channel flows. It is apparent that the …

A direct numerical simulation of incompressible channel flow at a friction Reynolds number
($\mathit {Re} _ {{\it\tau}} $) of 5186 has been performed, and the flow exhibits a number of …

摘要剪切湍流中相干结构的发现是上世纪湍流研究的重大进展之一, 这些大尺度的相干运动在
湍流的动力学过程中起重要作用, 也为湍流的控制指出了新的方向. 壁湍流高摩擦阻力的产生与 …

A collaborative experimental effort employing the minimally perturbed atmospheric surface-
layer flow over the salt playa of western Utah has enabled us to map coherence in turbulent …

The transport equations for the variances of the velocity components are investigated using
data from direct numerical simulations of incompressible channel flows at friction Reynolds …

Fully resolved measurements of turbulent boundary layers are reported for the Reynolds
number range in the Reynolds number range of the experiments. A second outer peak in the …

Research into high-Reynolds-number turbulent boundary layers in recent years has brought
about a renewed interest in the larger-scale structures. It is now known that these structures …

In this paper we study the spatial evolution of zero-pressure-gradient (ZPG) turbulent
boundary layers from their origin to a canonical high-Reynolds-number state. A prime …

A theoretical decomposition of mean skin friction generation into physical phenomena
across the whole profile of the incompressible zero-pressure-gradient smooth-flat-plate …