RU97106113A - METHOD FOR MANAGING A TECHNOLOGICAL PROCESS IN AN ALUMINUM ELECTROLYZER - Google Patents

Claims (3)

A method of controlling a technological process in an aluminum electrolyzer, including measuring current values of voltage and current of the electrolytic cell and calculating from them the reduced voltage, the rate of change of the latter in time and the concentration of aluminum oxide in the electrolytic cell, comparing the current values of these parameters with the given values, maintaining the reduced voltage of the electrolytic cell at the specified limits by moving the anode and adjusting the amount of alumina loaded into the electrolyzer by alternating excess modes Foot and malnutrition, prognosis possibility of occurrence of anode effects for values of rate of change of the reduced voltage is greater than zero and values of the reduced voltage within the range with limits, calculated by the mathematical expression: U = U _n + (0.048 - 0.495) The given voltage smaller for values the lower limit of the range determine the MHD instability or change in the interpolar gap, characterized in that when the values of the rate of change of the reduced voltage ΔU> 0 and its absolute value above the back of this limit, excess (from the nominal) supply of alumina to the electrolyte is carried out to the values of the rate of change of the reduced voltage ΔU≤0, the absolute value of the reduced voltage is estimated, it is compared with the set voltage and the mismatch is eliminated, they go into the nominal (calculated) mode of feeding alumina to the electrolyte, at values of the rate of change of voltage ΔU <0 and its absolute value below a predetermined limit, there is an insufficient (from the nominal) supply of alumina to the electrolyte to the values of the rate of change of the reduced voltage ΔU≥0, estimate the magnitude of the reduced voltage, compare it with the set and eliminate the mismatch, at the same time go into the nominal (calculated) mode of feeding alumina to the electrolyte.  2. The method according to p. 1, characterized in that if there is a forecast of the anode effect, excess alumina is supplied to the electrolyte until the forecast disappears or the anode effect is corrected and the pole gap is not corrected, if there is MHD instability, the alumina is insufficiently supplied and the interelectrode distance is increased to eliminate MHD instability.  3. The method according to p. 1, characterized in that after eliminating the anode effect, an excess supply of alumina to the electrolyte is conducted for a time proportional to the voltage and / or time of the anode effect.