The Dutch master Vincent van Gogh may have painted one of Western history's most enduring works, but "The Starry Night" is ...

Fluids play a crucial role in industrial processes like cooling, heating, and mixing. Traditionally, most industries would utilize Newtonian ...

Researchers at the Urbana-Champaign have unlocked new insights into the turbulent behavior of hypersonic flows by using ...

ORNL researchers used quantum computing to model the unsteady flow of liquids and gases over two parallel plates. Computing ...

Researchers have discovered that bacterial swarms transition from stable vortices to chaotic turbulence through distinct intermediate states. Combining experiments with bacterial swarms, computer ...

We conduct applied as well as fundamental research in the general field of fluid flow and heat transfer combining computational simulations with experimental investigations. A coupled simulation of a ...

Kolmogorov’s “scaling law” describes how energy is distributed across different scales in a turbulent flow. To measure it ... the velocity or energy of a fluid or gas as scientists typically ...

Fluids research in ESAM spans vast scales from the equal flow inside tiny droplets to turbulence inside and on the surface of the sun and other stars. Interfaces separate distinct phases of material.

Our research efforts in Computational Fluid Dynamics (CFD ... biomedical flow modeling, unsteady flow simulations, rigid body dynamics simulations with six degrees of freedom (6 DOF), investigation of ...

Modeling fluid flow plays a vital role across industrial ... other gases and liquids over machinery parts can lead to turbulence that can impede performance. Current approaches rely on a ...