MADRID, SPAIN – EAG recently participated in the European Hydrogen Energy Conference (EHEC) 2026 celebrated in Seville (Spain) during days 11,12 and 13th March 2026, marking a significant milestone in the collaborative efforts to advance the green hydrogen economy. During the event, EcosimPro engineers presented an abstract highlighting the capabilities of the H2ENERGY library, a specialized simulation toolset developed to address the complexities of modern energy transition.

Bridging Renewable Energy and Fluid Dynamics

The H2ENERGY library is specifically engineered to simulate transient phenomena within green hydrogen generation processes. By utilizing a fully integrated multiphysics approach, the software bridges the gap between renewable energy sources and the intricate fluid dynamics of hydrogen production systems. This synergy allows engineers to model the entire lifecycle of energy conversion within a single, unified environment.

Precision in Energy Management

A key highlight of the presentation was a study demonstrating the software’s ability to manage diverse energy source combinations through a sophisticated network energy manager. This study illustrated how fluctuating energy inputs directly impact hydrogen production efficiency.

By providing a comprehensive analysis of these variables, the H2ENERGY library delivers the high-accuracy results necessary for the demanding requirements of industrial-scale green hydrogen projects.

A Commitment to the Energy Transition

“Participating in EHEC 2026 was a very enriching experience,” said Jorge Otero from EAG. “It represents another step forward in our mission to develop the digital tools essential for supporting a global energy transition. Our collaboration with EcosimPro continues to push the boundaries of what is possible in hydrogen systems simulation.”

About EcosimPro:

EcosimPro is a leading modeling and simulation software used worldwide across various industries, including aerospace, energy, and water treatment. Its flexible, object-oriented environment allows for the creation of complex physical systems to optimize performance and innovation.