Recently, the world’s first extra-large SLon-5000 VPHGMS has been successfully installed for the vanadium-titanium magnetite quality and efficiency improvement & technical transformation project in Sichuan, marking the first time the world’s extra-large SLon-5000 VPHGMS was put into use. The market has once again set a new record for the application of Vertical Ring Pulsating High Gradient Magnetic Separator(VPHGMS).

      The company purchased three new SLon-5000 VPHGMS at one time, fully demonstrating the customers’ trust and confidence in SLon. When you walk into the project site, what you will see are three SLon-5000 VPHGMS lined up, more than 10 meters high, standing proudly on the ground, giving people a strong visual impact. It is reported that this quality and efficiency improvement & technological transformation project is an extremely important listing and investment project of the company. It aims to recycle ilmenite through a rougher-cleaner-scavenger process for the original magnetic separation and flotation tailings of the dressing plant. “After the project is put into operation, it will be of great strategic significance for the recovery of ilmenite tailings resources. While significantly reducing tailings emissions, it can also create huge economic and environmental benefits.” said the relevant person in charge of the company.

      SLon-5000 VPHGMS pioneers the frame-type, modular large-scale electromagnetic yoke structure and the movable hub double-keyed split sorting ring structure, which solves the problem of efficient sealing and transmission of magnetic flux between each yoke module of the super-large magnetic separator, and the processing and manufacturing of super-large components, installation, transportation, operation and maintenance of major technical problems. It significantly increases the ore processing capacity, significantly reduces the energy consumption per ton of ore. For example, processing 23,000 tons of ore per day, the power consumption per ton of ore is only 0.27Kwh, saving 3 million kilowatt hours of electricity every year, equivalent to saving 963 tons of coal and reducing CO₂ emissions by 2,503 tons. Compared with other traditional strong magnetic separators, the power consumption per ton of ore is reduced by 85% and the water consumption per ton of ore is reduced by 65%. The energy saving and emission reduction effect is significant, which contributes to the realization of China’s “double carbon” goal.