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 ...

Fluid dynamics simulation techniques have undergone significant evolution in recent years, combining traditional numerical methods with innovations such as data‐driven modelling and machine learning.

Computational fluid dynamics (CFD) is a branch of physics that utilizes numerical methods and algorithms to analyze and predict the behavior of fluids and gases under various conditions. This field ...

More powerful chips are enabling chips to process more data faster, but they’re also having a revolutionary impact on how that data can be used. Simulations that used to take days or weeks now can be ...

As winter settles in and the snowflakes begin to fall, it’s time to dust off those curious minds and prepare for some seriously fun—and slightly nerdy—computational fluid dynamics (CFD) simulations!

In Physics of Fluids, researchers develop a computational model of outdoor airflow through trees to study how a tree’s geometry affects the dispersion of its airborne pollen grains. They modeled the ...

Researchers in the United States have used an exascale supercomputer to perform the largest fluid dynamics simulation ever. It surpassed one quadrillion degrees of freedom in a single computational ...

Due to climate change, plants' pollination season has been growing longer and longer. As a result, people are exposed to allergens for extended periods each year, raising a major public health concern ...

The editors of Physics of Fluids (American Institute of Physics) have formally recognised the scientific excellence of a ...