Add to ORKGThe anode potential has been shown to be highly dependent on anode geometry and orientation in the Hall–Héroult process. This work is an experimental laboratory scale study of the effect of anode geometry and orientation on bubble formation and detachment for four different anode designs: horizontal (surface facing downwards), inverted horizontal (surface facing upwards), vertical, rod (with both vertical and horizontal surface). From polarization curves, it was found that the vertical anode and the inverted horizontal anode operated at lowest potentials. Above 1 A cm−2, the vertical anode showed the lowest potential. As the current increases, the transition towards smaller noise is pronounced for the horizontal anode and to some degree for...
In the aluminum reduction cells, gas bubbles are generated at the bottom of the anode which eventual...
The anodic reaction of aluminium electrolysis cells leads to the formation of CO2 bubbles, which par...
Anode gas evolution, growth and flow behaviour during aluminium electrolysis have been investigated ...
The anode potential has been shown to be highly dependent on anode geometry and orientation in the H...
Gas bubble behavior on a carbon anode in a cryolite melt has been studied using a see-through cell. ...
Gas bubble behavior on a carbon anode in a cryolite melt has been studied using a see-through cell. ...
Anode gas bubble behavior and anode effect on graphite and industrial carbon rod-shaped anode in a c...
In the Hall-Héroult process for extracting aluminum, the evolution and dynamics of anodic bub...
During production of aluminum in Hall-Héroult cells, carbon anodes electrochemically oxidize to form...
One significant contribution to the anodic potential during aluminum electrolysis is the formation o...
Improvements in the Hall Héroult process for aluminium electrolysis has lead to a reduction in energ...
A novel one-fourth scale low temperature electrolytic model of the Hall-Heroult cell was constructed...
The gas bubble laden layer under the anodes during the electrolysis of alumina plays an important ro...
The results of physical simulation of the behavior of bubbles formed due to the electrochemical evol...
The mechanism of the anodic reaction in cryolite melt is studied in presence and in absence of a lay...
In the aluminum reduction cells, gas bubbles are generated at the bottom of the anode which eventual...
The anodic reaction of aluminium electrolysis cells leads to the formation of CO2 bubbles, which par...
Anode gas evolution, growth and flow behaviour during aluminium electrolysis have been investigated ...
The anode potential has been shown to be highly dependent on anode geometry and orientation in the H...
Gas bubble behavior on a carbon anode in a cryolite melt has been studied using a see-through cell. ...
Gas bubble behavior on a carbon anode in a cryolite melt has been studied using a see-through cell. ...
Anode gas bubble behavior and anode effect on graphite and industrial carbon rod-shaped anode in a c...
In the Hall-Héroult process for extracting aluminum, the evolution and dynamics of anodic bub...
During production of aluminum in Hall-Héroult cells, carbon anodes electrochemically oxidize to form...
One significant contribution to the anodic potential during aluminum electrolysis is the formation o...
Improvements in the Hall Héroult process for aluminium electrolysis has lead to a reduction in energ...
A novel one-fourth scale low temperature electrolytic model of the Hall-Heroult cell was constructed...
The gas bubble laden layer under the anodes during the electrolysis of alumina plays an important ro...
The results of physical simulation of the behavior of bubbles formed due to the electrochemical evol...
The mechanism of the anodic reaction in cryolite melt is studied in presence and in absence of a lay...
In the aluminum reduction cells, gas bubbles are generated at the bottom of the anode which eventual...
The anodic reaction of aluminium electrolysis cells leads to the formation of CO2 bubbles, which par...
Anode gas evolution, growth and flow behaviour during aluminium electrolysis have been investigated ...