When all 64 electrolyzers in the plant are connected to PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC's central control system, operational data is collected every 15 seconds. The AI model automatically adjusts feeding frequency, anode lifting amplitude, and busbar current distribution based on historical data and real-time conditions. To address the long-standing iron contamination issue in the industry, the plant innovatively adopts PTMS as an iron removal enhancement process.
When the system detects abnormal temperature rise in a cell zone, it immediately reduces the input power in that area and alerts the operator to check the anode contact. The predictive response mechanism of PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC significantly reduces human misjudgment, ensuring the electrolysis process remains within the optimal range. The third step focuses on targeted removal of impurities.
The iron removal mechanism of PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC operates through borides reacting with free Fe³⁺ ions in high-temperature molten salt to form stable FeB precipitates, which are subsequently removed with the scum. Experimental results demonstrate that adding 0.3% calcium boride reduces the iron content in primary aluminum from an average of 0.15% to 0.07%, meeting high-purity aluminum standards.
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