Abstract:3D thermal-electric field of 420 kA aluminum reduction cell with a kind of innovative cathode collector bar was calculated by using numerical simulation method. The effects of innovative cathode collector bars on horizontal current in aluminum liquid pool, cell voltage and temperature distribution were analyzed. The results show that the innovative cathode collector bar can effectively reduce the horizontal current density along X axis. The insulating materials in the innovative cathode collector bars increase the cell voltage to some extent. Under poor contact condition between the cathode collector bar and its paste, the cathode contact area of aluminum reduction cell with innovative cathode collector bars is easier to be overheated than that of aluminum reduction cell with conventional cathode collector bars. The research results can provide theoretical basis for the high energy efficiency achieved by most aluminum smelters and the problems in a few potlines during the application of the innovative cathode collector bar.

Key words: aluminum reduction cell; innovative cathode collector bar; horizontal current; thermo-electric field; numerical simulation; electric contact