Rezinal Nv – SKF Xtra Power Transmission Belt reduced unplanned downtime in zinc extraction fan
Rezinal is Europe's largest secondary zinc producer, and one of the global leaders in its market. A recycler of galvanizers' ashes and old roofing zinc, the company separates the metal from oxides and impurities, resells the oxides, and remelts and casts the zinc for resale.
Challenge: fan reliabilityIn the Rezinal stocking warehouse, an extraction fan is used to remove zinc dust from the air. The fan operates in an extremely harsh environment and runs 24 hours/day, 7 days/week. These conditions led to reliability problems with the fan's power transmission belt drive. The standard belt life was approximately 3 months on average. Rezinal tested a high-performance belt in the application and improved belt life to roughly 8 months. Despite the improved performance, the company remained unsatisfied with the fan's frequent maintenance requirements, because maintaining a ceiling extraction fan is difficult and expensive.
Solution: SKF Xtra Power Transmission BeltsSKF recommended the installation of test belts from the new SKF Xtra Power Transmission Belt series. Designed to deliver up to 40% more power than standard wrapped belts, these power belts offer drive efficiency of up to 97%, providing smooth running behaviour, low vibration levels and resistance to shock loads. The belt's performance advantages result from an innovative design which includes homogeneous, coordinated integration of the transmission belt, flank and pulley groove, and an optimized cover fabric.
Tension members for SKF Xtra Power Belts are polyester coated, to accommodate heavy tension loads with minimal elongation. A fibre filled compound that encases the tension cords enables the belts to accommodate higher dynamic loads without compromising flexibility. The cover fabric provides excellent wear and abrasion resistance while providing excellent bending strength. The antistatic cover fabric is oil and heat resistant. In addition, the belt offers a one-shot tensioning design which requires no retensioning after the initial run-in period.