The electrochemical reduction of iron oxides in alkaline media arises as a novel approach for ironmaking and iron-rich waste valorisation. Strong advantages and attractive aspects of alkaline electroreduction include lower electric energy consumption, absence of CO2 emissions, and non-polluting valuable by-products such as H2 and O2. Another potential advantage originates from the compatibility of this concept with intermittent renewable energies. However, to bring this technology to a competitive level, especially compared to the traditional steelmaking, innovative approaches and developments in materials processing and their appropriate integration into the electrolysis process are required. This research work explores the prospects for e...
Sustainable iron production is largely driven by the urgency to reduce the extensive energy consumpt...
Sustainable iron production is largely driven by the urgency to reduce the extensive energy consumpt...
Thesis (Ph.D.)--Boston UniversityMagnesium is the least dense engineering metal, with an excellent s...
Primary iron metallurgy is characterised by significant direct carbon dioxide emissions, due to the ...
Iron is one of the few metals which is not industrially produced by electrolysis. The electrowinning...
Iron is one of the few metals which is not industrially produced by electrolysis. The electrowinning...
Under the ULCOWIN and the SIDERWIN projects a novel process for carbon-free iron production has been...
Under the ULCOWIN and the SIDERWIN projects a novel process for carbon-free iron production has been...
Le fer est l'un des rares métaux qui ne soit pas produit industriellement par électrolyse. Pour aide...
Le fer est l'un des rares métaux qui ne soit pas produit industriellement par électrolyse. Pour aide...
The primary iron metallurgy is characterized by significant direct CO2 emissions, due to the carboth...
Electrochemical reduction of iron oxides into zero-valent iron (ZVI, Fe0) is a promising alternative...
Iron is a prospective candidate for energy carriers in the energy transition era with high energy de...
Sustainable iron production is largely driven by the urgency to reduce the extensive energy consumpt...
Sustainable iron production is largely driven by the urgency to reduce the extensive energy consumpt...
Sustainable iron production is largely driven by the urgency to reduce the extensive energy consumpt...
Sustainable iron production is largely driven by the urgency to reduce the extensive energy consumpt...
Thesis (Ph.D.)--Boston UniversityMagnesium is the least dense engineering metal, with an excellent s...
Primary iron metallurgy is characterised by significant direct carbon dioxide emissions, due to the ...
Iron is one of the few metals which is not industrially produced by electrolysis. The electrowinning...
Iron is one of the few metals which is not industrially produced by electrolysis. The electrowinning...
Under the ULCOWIN and the SIDERWIN projects a novel process for carbon-free iron production has been...
Under the ULCOWIN and the SIDERWIN projects a novel process for carbon-free iron production has been...
Le fer est l'un des rares métaux qui ne soit pas produit industriellement par électrolyse. Pour aide...
Le fer est l'un des rares métaux qui ne soit pas produit industriellement par électrolyse. Pour aide...
The primary iron metallurgy is characterized by significant direct CO2 emissions, due to the carboth...
Electrochemical reduction of iron oxides into zero-valent iron (ZVI, Fe0) is a promising alternative...
Iron is a prospective candidate for energy carriers in the energy transition era with high energy de...
Sustainable iron production is largely driven by the urgency to reduce the extensive energy consumpt...
Sustainable iron production is largely driven by the urgency to reduce the extensive energy consumpt...
Sustainable iron production is largely driven by the urgency to reduce the extensive energy consumpt...
Sustainable iron production is largely driven by the urgency to reduce the extensive energy consumpt...
Thesis (Ph.D.)--Boston UniversityMagnesium is the least dense engineering metal, with an excellent s...