Scientists at the Laboratory of Physical and Analytical Electrochemistry (LEPA) of the Swiss Federal Institute of Technology Lausanne (EPFL) have developed a vanadium-manganese dual-flow battery that can be used for both power storage and hydrogen generation.
The LEPA system combines a conventional redox flow battery (RFB) with two catalytic reactors that are able to produce green hydrogen by utilizing the fluid that runs through the battery. Unlike conventional redox flow batteries, the dual-flow battery, once it is fully charged, can discharge its fluid into the catalytic reactors, thus creating more storage space. “The dual-circuit RFB has the advantage of offering two discharging modes, and to store energy beyond the energy capacity of the electrolytes in the form of renewable hydrogen energy storage,” the Swiss group stated.
“This system is distinct from the conventional RFB in that the former includes a secondary energy platform in which electrochemical energy can be converted into renewable hydrogen by water-splitting using redox electrocatalysis,” the researchers explained. This new kind of hydrogen production from water relies on the use of a redox mediator on solid electrocatalyst particles in a reactor and offers several advantages over conventional electrolysis in terms of safety, membrane degradation, purity and flexibility.
Redox mediators, which are chemicals with an electrochemical activity that are able to exchange electrons with fuels or oxidants, are a...
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