Northam Chrome Producers is realising improved recoveries, better grades and higher yields following the retrofit of Multotec spirals at its recovery plant. The decision to replace the existing spirals with those designed and manufactured by Multotec was taken following extensive testwork performed by both Northam Chrome Producers and Multotec.
Results from the testwork performed at Northam Chrome Producers revealed that Multotec’s spirals outperformed the competitor units originally installed in the plant. Testwork was later revalidated at Multotec’s in-house technology division in Spartan, Gauteng, by Faan Bornman, Technology Manager.
Retrofitted re-cleaner Multotec HX3 three turn bank with its sliding splitters to remove the high grade chrome into the inner gully.
Based on the outcome of these trials, Northam Chrome Producers decided to replace the existing spirals, which had reached their end of life, with Multotec spiral technology. “Tests showed that by using the Multotec spirals, the plant would be able to increase recoveries by an additional yield of 6 %,” says Multotec’s Graeme Smith.
Smith says Multotec was tasked with removing 172 spiral assemblies from Northam Chrome Producers’ existing recovery plant and replacing these with 72 Multotec spiral assemblies. These comprised Multotec HX5 and Multotec HX3 spirals with feed tonnage capacities ranging from 4 to 9 tph per start.
Smith says one of the biggest challenges of the eight-week long project was retrofitting the new spirals into the existing structure. Extensive work was done by Multotec’s in-house drawing office, which undertook all the drawings and confirmed the new layout of the plant, while also presenting the modifications needed to the structure to accommodate the new installation.
The project was overseen by Smith and Field Service Technician Raymond Masinga. “The commissioning of the plant was an easy exercise. It started up the same day and immediately started outperforming the earlier test results,” Smith says. He reports that the entire plant’s yield is now closer to 30 %, compared to the average of 21 % in 2014.
Multotec engineers have ascertained that the cost of the spiral assembly is about 0,004 c/feed ton, with Northam Chrome Producers expected to see a return on its investment within a four-year period.
Smith says it is encouraging to hear from Northam Chrome Producers’ personnel based at the operation that the assembly has sustained its performance over the past 12 months. “We have increased the plant recoveries by 6 % of additional yield. The customer has been very happy with the project overall, and we are engaging with Northam Chrome Producers on another large project,” Smith says.
Multotec is currently testing the performance of its own cyclones at the plant with the intention of replacing the existing units, which have also reached the end of their life.
Smith says based on the feedback the company has received from many of its customers, Multotec has the best performing spirals in the market in fine and heavy minerals applications. He attributes the success of the performance of these large 1 m diameter spirals to their optimised feed-in angle.
They were originally designed as a rougher and scavenger spiral to handle material ranging from 800 micron to 38 micron. “Such is their reputation in the international mining sector that a prominent iron ore miner wants to test them at one its flagship operations. Here, they will be used to recover fines ranging from 80 micron to 75 micron,” Smith says.
The success of the performance of the plant at Northam Chrome Producers has also seen it turn to Multotec to help boost recoveries even further. Smith reports that work has already started on designing an extra stage in the existing plant to bolster recovery yields by up to 9 %.
Another important aspect of this project is that this is the first time that Multotec’s pipe launder systems have been used in a chrome application. This well-engineered system has reportedly been well received in mineral sands and iron ore applications due to its very high wear resistance characteristics.