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

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

This magnetized fluid plays an essential role in the evolution and explosion ... Each of these processes involve an interplay between turbulence, magnetic fields, radiation transport, and gravity.

Researchers at the Department of Energy's Oak Ridge National Laboratory have tested a quantum computing approach to an old ...

Our research efforts in Computational Fluid Dynamics (CFD) include high performance computing ... rigid body dynamics simulations with six degrees of freedom (6 DOF), investigation of turbulence ...

The transport properties of turbulent wind and the effect of turbulence on wind ... It investigates how fluids with structured nanoparticles can affect fluid dynamics. This can be used to position ...

The method is not commonly used for computational fluid dynamics and fluid simulations ... the behavior and appearance of fluids, even in turbulent flows when everything seems so chaotic.

Unsteady Aerodynamics • Active and Passive Flow Control Techniques • Turbulence • Fluid-Structure ... Control Techniques • Turbulence • Fluid-Structure Interactions • Experimental Fluid Dynamics ...

Introduces finite-difference and finite-volume methods used in solving fluid dynamics and heat transfer problems. Covers numerical grid generation, turbulence modeling, and application to some ...

My research interests can be broadly classified as geophysical and astrophysical fluid dynamics (GAFD). Some of the problems in which I’m interested are the generation of planetary magnetic fields via ...