In the quest for sustainable energy solutions, a team from ETH Zurich has made a significant stride with their pioneering use of iron for hydrogen storage. The process involves three stainless steel...
The potential of iron fuel, which consists of easily combustible iron powder, is to offer an energy-efficient cycle that releases energy upon ignition and leaves behind iron oxide—rust. This rust...
Iron powder has emerged as a contender in the quest for sustainable energy due to its high energy content and wide availability. By undergoing exothermic oxidation, iron powder releases energy and...
The study follows an exploration of suitable vessel types for the adoption of an iron powder powertrain, culminating in the semi-submersible crane vessel as the optimal candidate due to its loading...
In this fresh line of research, detailed in the abstract and subsequent sections of the study, the team seeks to clarify the multiple, concurrent processes that underpin the behavior of potassium...
A recent publication in Nature Communications has put the spotlight on a revolutionary method for steel production that could see the sector pivot away from its reliance on fossil fuels. Authored by...
A collaborative case study involving entities such as TU/e, TNO, Metalot, RIFT, and Iron+ has drawn a comparison with other energy carriers, forecasting that Iron Power may reach significant...
Researchers from the Technical University of Eindhoven (TU/e) and the Eindhoven Institute for Renewable Energy Systems (EIRES) have achieved a significant milestone in renewable energy advancement....
Scientists have made a significant leap in redox flow battery (RFB) technology with the development of a promising metal-organic complex, iron (Fe)-NTMPA2, consisting of Fe(III) chloride and...