Recent research has focused on developing advanced models that accurately capture the dynamics of mixing and combustion in turbulent flows. These models aim to enhance our understanding of how ...

As they mix, momentum differences are smoothed out. This process is superficially similar to the action of viscosity which tends to smooth out momentum gradients by molecular interactions, and ...

This type of turbulence is particularly relevant in fields such as aerospace engineering, meteorology, and astrophysics, where understanding the mixing and flow characteristics of gases is crucial.

Researchers at the University of Oxford have pioneered a new approach to simulate turbulent systems, based on probabilities.

A laminar boundary layer has less momentum near the wall than a turbulent boundary layer, as shown in figure 4, because turbulence is a very effective mixing process. More importantly, turbulent ...

There are two main types of fluid flow - laminar flow, in which the fluid flows smoothly in layers, and turbulent flow, which is characterised by chaotic motion and large amounts of mixing.