One of the first steps of fluid flow simulation is to characterize the pore network of the formation, which is the distribution and connectivity of the pores that store and transport fluids.

This simulation solves the Navier-Stokes equations for incompressible fluid flow past an obstacle in a GPU fragment shader. It exhibits a phenomenon called vortex shedding, where vortices of ...

thereby separately controlling simulation and rendering resolution. Grid-free particle methods such as the one these simulations employ only need particles in regions where the flow behaves ...

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

The resulting simulation captures the intricate, multi-scale billowing of the smoke plume, including its twisting, curling motion and delicate turbulence, which are hallmarks of realistic fluid ...

fluid simulation. This project demonstrates an impressive combination of advanced computational techniques and clever hardware design. The fluid simulation embedded in the pendant, balances ...

SPX FLOW, a global leader in fluid technology, is excited to collaborate with Siemens to highlight cutting-edge digital twin ...

Alongside research, educating students in fluid mechanics and users of complex codes for turbulent ... engineering applications of CFD The emphasis of the research is on the simulation of flows via ...

Special focus topics are Theory of the Lattice Boltzmann Method Multi-phase fluid flow Compressible and supersonic flows Flows with immersed solid particles High performance computing, parallel ...

The University of Waterloo Fluid Flow Physics Group, directed by Professor Sean D. Peterson, focuses on understanding fundamental and applied fluid mechanics problems using a blend of analytical ...