Add to ORKGLow-temperature electrochemical reduction (electroreduction) is considered to be a suitable method for iron oxide reduction due to its attractive aspects, such as its CO2-free operation and low electric energy consumption and temperature requirements. Aiming at metallic iron of powder form as product, our research promotes dendritic electrodeposition rather than to grow compact deposition layers as in conventional electrowinning methods. Proof-of-concept experiments are performed using a single parallel plate electrode, immersed in a mixture of micro-sized hematite (Fe2O3) powder and strong aqueous alkaline (NaOH, 50%wt, 18 M) electrolyte. The effects of current density, hematite mass fraction, temperature, and particle size on deposit morp...
Iron can be produced by the direct electrochemical reduction of hematite particles suspended in hot,...
The primary iron metallurgy is characterized by significant direct CO2 emissions, due to the carboth...
Primary iron metallurgy is characterised by significant direct carbon dioxide emissions, due to the ...
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...
Iron is a prospective candidate for energy carriers in the energy transition era with high energy de...
Electrowinning is the electrodeposition of metals from their oxides which are either solvent or susp...
Iron can be produced by the direct electrochemical reduction of hematite particles suspended in hot,...
Iron can be produced by the direct electrochemical reduction of hematite particles suspended in hot,...
Iron can be produced by the direct electrochemical reduction of hematite particles suspended in hot,...
Iron can be produced by the direct electrochemical reduction of hematite particles suspended in hot,...
To tackle the intermittency problem in renewable energy usage, it is necessary to develop sustainabl...
To tackle the intermittency problem in renewable energy usage, it is necessary to develop sustainabl...
Iron can be produced by the direct electrochemical reduction of hematite particles suspended in hot,...
The primary iron metallurgy is characterized by significant direct CO2 emissions, due to the carboth...
Primary iron metallurgy is characterised by significant direct carbon dioxide emissions, due to the ...
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...
Iron is a prospective candidate for energy carriers in the energy transition era with high energy de...
Electrowinning is the electrodeposition of metals from their oxides which are either solvent or susp...
Iron can be produced by the direct electrochemical reduction of hematite particles suspended in hot,...
Iron can be produced by the direct electrochemical reduction of hematite particles suspended in hot,...
Iron can be produced by the direct electrochemical reduction of hematite particles suspended in hot,...
Iron can be produced by the direct electrochemical reduction of hematite particles suspended in hot,...
To tackle the intermittency problem in renewable energy usage, it is necessary to develop sustainabl...
To tackle the intermittency problem in renewable energy usage, it is necessary to develop sustainabl...
Iron can be produced by the direct electrochemical reduction of hematite particles suspended in hot,...
The primary iron metallurgy is characterized by significant direct CO2 emissions, due to the carboth...
Primary iron metallurgy is characterised by significant direct carbon dioxide emissions, due to the ...