NETL researchers successfully used the Laboratory’s Joule 2.0 supercomputer to create synthetic physics-based tropical cyclone wave simulations that help provide insights into the behavior of extreme waves in the Gulf of Mexico. Extreme waves are one of the most...
NETL researchers used the Laboratory’s Joule 2.0 supercomputer to provide a clearer picture of subsurface geological formations that could be used to effectively store captured carbon dioxide (CO2) and to address any potential issues with integrity. Coupled with...
As NETL’s new associate director for Computational Sciences & Engineering (CSE), Tammie Borders knows the clock is ticking in the battle against climate change and understands the urgent need to expand the Lab’s capabilities in high-performance computing (HPC) to...
NETL expertise in high-performance computing has significantly cut the cost and research time needed to design high-strength alloys for low-carbon energy production and has been used as a valuable tool to advance the performance of solid oxide fuel cells and water...
Through the development, validation and application of a suite of multiphase flow tools, NETL has established itself as a leader in applying high-performance computing (HPC) to computationally demanding multiphase flow problems — research that is critical for...
By Gerrill Griffith // Technical Contact: Dr. Madhava Syamlal Computational Fluid Dynamics (CFD) is the use of applied mathematics, physics and computational software to describe how a gas or a liquid flows. The CFD simulations require high performance computers such...
