Real-World Laboratory decentralized Hydrogen Hybrid Storage

In the course of the energy and mobility transition, numerous open research questions remain, with the role of efficient energy storage becoming increasingly important.
This article presents the concept of a decentralized real-world laboratory based on the storage optimization of primarily renewable energy, such as wind turbines and photovoltaics. Using real-world consumption data and load profiles, grid applications will be tested, the dimensioning of intermediate storage systems optimized, and strategies for the gentle charging of batteries developed. The real-world laboratory also serves as a practical application area in academic teaching.
A central focus is on the construction and integration of a hybrid storage system. The combination of battery and hydrogen storage increases the long-term stability of the energy supply and enables a significantly higher share of renewable energies in the energy mix. Furthermore, an intelligent energy management system is being developed, which is essential for the control and regulation of the overall system. The relevance and complexity of this system are illustrated by economic and ecological analyses.

Rights

Use and reproduction:


CC BY-SA 4.0

Please note that individual components of the publication may be subject to other licensing or copyright conditions.

Cite

Citation style:
Could not load citation form.