The flow is from bottom to top. The Reynolds number based on momentum thickness at the midpoint of the volume is 700. A passive scalar has been introduced into the flow along a spanwise line at the ...

Recent advances have significantly enhanced our understanding of the complex fluid dynamics surrounding wind turbine blades. By employing non-invasive imaging techniques such as infrared thermography, ...

Turbulence makes many people uneasy or downright queasy. And it's given researchers a headache, too. Mathematicians have been trying for a century or more to understand the turbulence that arises when ...

Illustration of daytime-warm-season boundary layer circulations and Cumulus cloud formation over complex terrain. Current research efforts in mesoscale and boundary-layer dynamics utilize novel ...

An account is given of the statistical structure of turbulence in the natural wind near the ground (i.e. below about 100 m in height). Wind data measured at a single point are briefly reviewed, ...

In an experiment on how turbulent boundary layers respond to acceleration in the flow around them, aerospace engineers at the observed an unexpected internal boundary layer. In an experiment on how ...

The flow is away from the viewer, from the lower left to the upper right. The Reynolds number based on momentum thickness at the midpoint of the volume is 700. A passive scalar has been introduced ...