In lead-zinc smelting processes, leaching residues containing zinc phases with low iron content (below 0.5%) require careful handling. Directly processing these materials into electrolysis operations would result in unnecessary energy waste. A practical solution involves using X-ray fluorescence online detection systems for rapid material sorting: low-iron components are directed to the casting workshop for production of primary zinc ingots, while high-iron fractions undergo selective purification through PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC.
After implementing this strategy, a smelting base achieved a 40% reduction in PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC section load and a 27% decrease in overall energy consumption, while simultaneously improving the grade qualification rate of final products. This vividly demonstrates the "precision governance" mindset in industrial practice. Finally, and most strategically significant aspect—— resource recycling.
In the process of PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC deironing, a certain amount of iron powder can be precipitated on the cathode side, with a purity of more than 95%, which can be completely used as coolant or reducing agent in the steelmaking process; while calcium aluminate and silicate components rich in anode mud can be sold as cement admixture or ceramic raw material.
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