This review identifies and discusses measurement technology gaps that are currently
preventing major science leaps from being realized in the study of urban environmental …

Extreme dissipation events in turbulent flows are rare, but they can be orders of magnitude
stronger than the mean dissipation rate. Despite its importance in many small-scale physical …

To address rapid climate change, wind energy has been widely developed in China in the
last two decades. However, wind farm (WF) turbulence effects can change the local climate …

Turbulence parameters in the lower troposphere (up to~ 4.5 km) are estimated from
measurements of high-resolution and fast-response cold-wire temperature and Pitot tube …

Time integration of the unsteady Reynolds-averaged Navier–Stokes (URANS) equations is
the principal approach used in numerical weather prediction. This approach represents a …

The study of naturally occurring turbulent flows requires the ability to collect empirical data
down to the fine scales. While hotwire anemometry offers such ability, the open field studies …

The dynamics across different scales in the stable atmospheric boundary layer has been
investigated by means of two metrics, based on instantaneous fractal dimensions and …

To evaluate a recent hypothesis of species stratification in the Venus lower atmosphere, a
time-dependent, three-dimensional model is proposed for studying turbulent mixing of many …

Finescale Clusterization Intermittency of Turbulence in the Atmospheric Boundary Layer in:
Journal of the Atmospheric Sciences Volume 77 Issue 7 (2020) Jump to Content Jump to Main …

Near-surface similarities and atmospheric turbulence characteristics have a large impact on
numerical weather prediction models. However, the validity of these similarities is unclear …