Turbulence plays a key role in our daily lives, making for bumpy plane rides, affecting weather and climate, limiting the fuel efficiency of the cars we drive, and impacting clean energy technologies.

From blood spurting through hearts to winds buffeting cars, fluids swirl and tumble in complex ways that scientists struggle to understand. Now, a new means to efficiently depict fluid turbulence and ...

A new study revisits a century-old question about how turbulence starts. The findings could potentially influence not only aircraft engineering but even the design of mechanical heart valves, and ...

At Argonne National Laboratory, researchers are trading in old-school approximations for raw supercomputing power, ...

There are several books in the extensive and varied literature on Turbulence that deal, in statistical terms and in the context of fluid dynamics, with the phenomenon itself, as well as its many ...

Anomalous scaling in turbulent fluid dynamics refers to the observed deviations from classical scaling laws, such as those predicted by Kolmogorov’s 1941 theory. In turbulent flows, energy cascades ...

Advanced simulations have solved a problem in turbulent fluid flow that could lead to more efficient turbines and engines. Advanced simulations have solved a problem in turbulent fluid flow that could ...

Turbulence, the splintering of smooth streams of fluid into chaotic vortices, doesn’t just make for bumpy plane rides. It also throws a wrench into the very mathematics used to describe atmospheres, ...

Forbes contributors publish independent expert analyses and insights. I cover the history of science and exploration. Turbulence is a big problem -- not just for airline passengers, but for physicists ...

Physicists have proven -- numerically and experimentally -- that turbulence in fluid flows can be understood and quantified with the help of a small set of special solutions that can be precomputed ...