Add to ORKGThe self sustained waves at the aluminium-electrolyte interface, known as ‘MHD noise’, are observed in the most of commercial cells under certain conditions. The instructive analysis is presented how a step by step inclusion of different physical coupling factors is affecting the wave development in the electrolysis cells. The early theoretical models for wave development do not account for the current distribution at the cathode, instead assuming a uniform current density Jz at the bottom. When the electric current is computed according to the actual electrical circuit, the growth rate is significantly lower, and if a sufficient dissipation is included, does not lead to instability. The inclusion of the horizontal circulation-generated tur...
The modelling of magnetohydrodynamics (MHD) phenomena in aluminium electrolysis cells is a challengi...
In aluminum reduction cells, the electric current density at the cathode is seldom uniform. This may...
The MHD wave instability in commercial cells for electrolytic aluminium production is often describ...
The self sustained waves at the aluminium - electrolyte interface, known as 'MHD noise' are observed...
An industrial electrolysis cell used to produce primary aluminium is sensitive to waves at the inter...
The waves in commercial cells for electrolytic aluminium production originate at the interface betwe...
The waves in commercial cells for electrolytic aluminium production originate at the interface betwe...
Time dependent MHD or stability problems for the aluminium reduction cells are typically restricted ...
The electric current and the associated magnetic field in aluminium electrolysis cells create effect...
Introduction. Magnetohydrodynamic (MHD) instabilities in aluminum re-duction cells (see Fig. 1) have...
The dynamic MHD modelling package is applied to the simple test case presented recently by Severo, e...
The dynamic MHD modelling package is applied to the simple test case presented recently by Severo, e...
In the present study, the full 3D thermo-electric model of a 500 kA demonstration cell has been weak...
The industrial production of aluminium is an electrolysis process where two superposed horizontal li...
A solution has been found to the long-standing problem of experimental modelling of the interfacial ...
The modelling of magnetohydrodynamics (MHD) phenomena in aluminium electrolysis cells is a challengi...
In aluminum reduction cells, the electric current density at the cathode is seldom uniform. This may...
The MHD wave instability in commercial cells for electrolytic aluminium production is often describ...
The self sustained waves at the aluminium - electrolyte interface, known as 'MHD noise' are observed...
An industrial electrolysis cell used to produce primary aluminium is sensitive to waves at the inter...
The waves in commercial cells for electrolytic aluminium production originate at the interface betwe...
The waves in commercial cells for electrolytic aluminium production originate at the interface betwe...
Time dependent MHD or stability problems for the aluminium reduction cells are typically restricted ...
The electric current and the associated magnetic field in aluminium electrolysis cells create effect...
Introduction. Magnetohydrodynamic (MHD) instabilities in aluminum re-duction cells (see Fig. 1) have...
The dynamic MHD modelling package is applied to the simple test case presented recently by Severo, e...
The dynamic MHD modelling package is applied to the simple test case presented recently by Severo, e...
In the present study, the full 3D thermo-electric model of a 500 kA demonstration cell has been weak...
The industrial production of aluminium is an electrolysis process where two superposed horizontal li...
A solution has been found to the long-standing problem of experimental modelling of the interfacial ...
The modelling of magnetohydrodynamics (MHD) phenomena in aluminium electrolysis cells is a challengi...
In aluminum reduction cells, the electric current density at the cathode is seldom uniform. This may...
The MHD wave instability in commercial cells for electrolytic aluminium production is often describ...