Fluid dynamics underpins a broad range of industrial and environmental processes, with orifice flow measurement representing a critical application area that bridges theory and practice. Recent ...

Gain insight into fluid dynamics through numerical simulation. Go beyond theoretical analysis and experimental measurements with the power of reliable computational fluid dynamics (CFD) and heat ...

The field of abrasive flow processing harnesses the power of fluid dynamics to deliver high-precision surface finishing and material removal in complex engineering components. This technique utilises ...

Computational methods are routinely used to solve fluid flow problems in academia and industry, alike. At Northwestern, cutting-edge and novel Computational Fluid Dynamics (CFD) techniques are ...

Flow chemistry is revolutionizing the way we design and study macromolecules, offering a powerful, complementary approach to materials discovery—one that seamlessly integrates with modern data-driven ...

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 ...

Research in fluid mechanics and aerodynamics includes fluid-structure interactions, unsteady fluid flows, phase-based analysis of fluid flows, rarefied gas flow, particle flow simulation, aerodynamic ...

The Lab Report: Every week, The Lab Report takes a deep dive into the (research) lives of students and professors outside the classroom. Somewhere along the Mississippi River, a blissful current whips ...

Fluid-Implicit-Particle or FLIP is a method for simulating particle interactions in fluid dynamics, commonly used in visual effects for its speed. [Nick] adapted this technique into an impressive FLIP ...

Scientists have extensively studied how gastric juices in the stomach break down ingested food and other substances. However, less is known about how complex flow patterns and mechanical stresses in ...