Add to ORKGIntroduction. Magnetohydrodynamic (MHD) instabilities in aluminum re-duction cells (see Fig. 1) have been the subject of several studies, since the pio-neering work of Urata et al. [1]. The interaction between the electrolysis current in the cell and the background magnetic field due to remote currents gives rise to a strong magnetic force acting on the fluids inside the cell. Different kinds of wave
An electrolytic cell for Aluminium production contains molten metal and molten electrolyte, which ar...
Classification of instability modes in a model of aluminium reduction cells with a uniform magnetic ...
A solution has been found to the long-standing problem of experimental modelling of the interfacial ...
Time dependent MHD or stability problems for the aluminium reduction cells are typically restricted ...
The self sustained waves at the aluminium - electrolyte interface, known as 'MHD noise' are observed...
The self sustained waves at the aluminium-electrolyte interface, known as ‘MHD noise’, are observed ...
Preliminary results of a laboratory study of magnetohydrodynamic instabilities in aluminium reductio...
In aluminum reduction cells, the electric current density at the cathode is seldom uniform. This may...
An industrial electrolysis cell used to produce primary aluminium is sensitive to waves at the inter...
The electric current and the associated magnetic field in aluminium electrolysis cells create effect...
We report results of the linear stability analysis undertaken to investigate the effect of the mean ...
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...
The modelling of magnetohydrodynamics (MHD) phenomena in aluminium electrolysis cells is a challengi...
Introduction. 3D mathematical models for different processes in an alu-minum reduction cell have bee...
An electrolytic cell for Aluminium production contains molten metal and molten electrolyte, which ar...
Classification of instability modes in a model of aluminium reduction cells with a uniform magnetic ...
A solution has been found to the long-standing problem of experimental modelling of the interfacial ...
Time dependent MHD or stability problems for the aluminium reduction cells are typically restricted ...
The self sustained waves at the aluminium - electrolyte interface, known as 'MHD noise' are observed...
The self sustained waves at the aluminium-electrolyte interface, known as ‘MHD noise’, are observed ...
Preliminary results of a laboratory study of magnetohydrodynamic instabilities in aluminium reductio...
In aluminum reduction cells, the electric current density at the cathode is seldom uniform. This may...
An industrial electrolysis cell used to produce primary aluminium is sensitive to waves at the inter...
The electric current and the associated magnetic field in aluminium electrolysis cells create effect...
We report results of the linear stability analysis undertaken to investigate the effect of the mean ...
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...
The modelling of magnetohydrodynamics (MHD) phenomena in aluminium electrolysis cells is a challengi...
Introduction. 3D mathematical models for different processes in an alu-minum reduction cell have bee...
An electrolytic cell for Aluminium production contains molten metal and molten electrolyte, which ar...
Classification of instability modes in a model of aluminium reduction cells with a uniform magnetic ...
A solution has been found to the long-standing problem of experimental modelling of the interfacial ...