Fractional Flow Reserve (FFR) has become the gold standard for diagnosing coronary artery disease (CAD) since Gould et al. [11] claimed so whilst the most …
Meshless methods provide an ideal framework for scalably simulating Lagrangian hydrodynamics in domains undergoing large deformation. For these schemes, interfaces can easily be treated without …
Statistical descriptions are well-suited for chaotic systems and turbulent flows. A common strategy for studying the statistics of such systems is Direct Numerical Simulation (DNS). …
Droplet impacts are of fundamental importance to the natural water cycle as collision and coalescence of droplets are the primary mechanism by which warm rain …
Neutrally buoyant, non-Brownian particles in a low Reynolds number pressure-driven flow display an irreversible net particle migration towards the center of the channel, resulting in …
A major frontier in chemical kinetics research focuses on the development of new chemical species with combustion properties that are suitable for use in high-efficiency …
The lack of an efficient and stable numerical method remains a serious bottleneck for long-time simulations. Time parallel integration methods can break the bottleneck by …
Coherent structures such as large-scale jets and vortices are ubiquitous in natural quasi-two-dimensional (2D) turbulence such as atmospheres. I study statistical approaches to 2D turbulence …
For more than a decade, remarkable scientific progress in computational fluid dynamics (CFD) has been achieved via powerful collection of tools for exascale simulations, data-driven …
The last decades have brought the miniaturization of electronic components and a proliferation of miniature embedded systems such as Micro and Nano Aerial Vehicles (MAVs, …
