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 ...

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 ...

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 ...

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 ...

The Navier-Stokes equations represent a cornerstone of fluid dynamics, providing a mathematical framework to describe the motion of viscous fluids. These nonlinear partial differential equations ...

The way nutrients and drugs move within the body has more in common with space-bound rockets and jets than you might think. Jim Brasseur, research professor of Aerospace Engineering Sciences “It's a ...

Chemical engineers develop problem-solving skills, with a strong foundation in science, engineering, and mathematics that touch every aspect of our lives–from smaller, faster computer chips to ...

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 ...

Chemical engineering involves the production and manufacturing of products through chemical processes. This includes designing equipment, systems, and processes for refining raw materials and for ...