HyStORM – “Hydrogen Storage via Oxidation and Reduction of Metals”

Iron-based oxygen carrier materials show the ability for hydrogen production according to the principle of Chemical Looping processes. The implementation of this method in fixed-bed systems enables the inherent storage of a chemical bond potential for hydrogen generation and the direct release of a pressurized hydrogen stream in decentralized systems.


10kW fixed bed reactor lab system.

The principle for pressurized hydrogen release from bio-based feedstocks with up to 100 bar was successfully demonstrated in lab-scale. Furthermore, the process enables inherent sequestration of a pure carbon dioxide stream for CCS and CCU applications, which was successfully demonstrated in the HyStORM project. High efforts were undertaken to simultaneously discharge high-pressure hydrogen while at the same time separate a pure CO2 stream during reduction phase.


High pressure hydrogen reactor lab system.

Hydrogen storage charge with biogas.

Involved Organizations

  • Rouge H2 Engineering GmbH
  • AVL List GmbH

Acknowledgements

Financial support from the Klima- and Energiefonds through the Energy Research Program 2015 is gratefully acknowledged.

Contact
image/svg+xml
Viktor Hacker
Univ.-Prof. Dipl.-Ing. Dr.techn.
Tel.
+43 316 873 - 8780
Fax
+43 316 873 - 108780
Members
image/svg+xml

Duration
image/svg+xml

03/2016 – 12/2019


Link Project Description
image/svg+xml