magnetic drum separator

The physical properties of the ore, including hardness (a key factor affecting crushing energy consumption), water absorption rate (critical for dry sorting suitability), and grindability, serve as fundamental parameters for designing subsequent PTMS ELECTROMAGNETIC SEPARATOR iron removal processes. The integrated processing sequence (crushing, grinding, flotation, and magnetic separation) is tailored to specific ore types, with priority given to high-efficiency, low-consumption methods.

PTMS ELECTROMAGNETIC SEPARATOR

The core design principles of typical PTMS ELECTROMAGNETIC SEPARATOR iron removal systems are: 1) "Progress from simple to complex" — prioritize removing larger particles and easily separable impurities (e.g., quartz blocks) before processing fine embedded components; 2) "Dry over wet" — adopt dry electrostatic or photoelectric separation in water-scarce regions to conserve water resources; 3) "Heavy over light" — implement gravity separation with low energy consumption and zero pollution, preferably as the initial stage; 4) "Magnetic over acid" — magnetic separation offers operational simplicity and lower costs compared to chemical leaching.

what is magnetic separation in Feldspar？

The design of PTMS ELECTROMAGNETIC SEPARATOR iron removal technology is fundamentally a 'tactical deployment' – much like a general arranging troops, requiring optimal strategies based on terrain, enemy conditions, and force deployment. In potassium-sodium feldspar purification, the 'terrain' refers to ore characteristics, the 'enemy conditions' to impurity types and their states, while the 'forces' represent available separation methods.
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