Flow visualisation and analysis techniques constitute a critical foundation for understanding complex fluid dynamics across a range of scientific disciplines, from climate research to engineering ...

Our research efforts in Computational Fluid Dynamics (CFD) include high performance computing for compressible and incompressible flows, development of finite volume schemes for hybrid and generalized ...

Schlieren imaging techniques have emerged as a powerful diagnostic tool in fluid dynamics, providing detailed visualisations of density gradients and refractive phenomena in transparent media. By ...

Computational Fluid Dynamics (CFD) is a popular method used for modeling systems utilizing single-phase flows and is widely used across industries for design optimization. However, their use in ...

The word “Schlieren” is German, and translates roughly to “streaks”. What is streaky photography, and why might you want to use it in a project? And where did this funny term come from? Think of the ...

The Flow Physics and Imaging Laboratory is dedicated to answering fundamental questions about the physics of turbulent fluid flows, primarily by employing advanced imaging diagnostics. We are ...

To simulate blood flow inside brain aneurysms, a computational method that combines 4D flow MRI, computational fluid dynamics and data assimilation has been developed. Brain aneurysms, also known as ...

Daniel M. Nosenchuck's research interests include experimental and computational fluid mechanics, dynamic flow control and visualization, and advanced supercomputer architectures. His major ...