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Laterite Ores Dominate Nickel Supply
Laterite nickel ores are a rapidly growing and already dominant source of nickel metal units compared to sulphide ores. Indonesia will continue to be the largest global nickel producer after having surpassed the Philippines in 2017. Indonesia is slated to be the best performing producer in terms of growth during 2018 – 2027.
To date, Indonesia has not been recognised as a producer of cobalt (nor related battery industry metals such as scandium, manganese, lithium etc..). This is mainly due to most of the laterite ore being sold or processed is for the ferro-nickel / stainless steel industry which consumes over 70% of nickel units produced world-wide. Indonesia with its abundant high grade saprolite resources will continue to grow and lead the world in ferro-nickel and nickel pig Iron (NPI) production.
Within Asia, battery materials are currently only produced in the Philippines (Sumitomo-Nickel Asia JV) and in PNG (Ramu JV). Indonesia is noticeably absent. The battery industry will become a major off taker of nickel and cobalt as the electric vehicle and stationery battery markets grow exponentially. Both Indonesia and the Philippines are well positioned to become the dominate sources of battery and related metals to meet future demand.
Nickel Leaching Technologies are Technically Challenging & High Cost
Nickel leaching technologies such as the HPAL process are complex to operate, have high capital costs, take a long time to ramp up to full capacity and can only process limonite ores. The high capital costs required means only industry majors can afford the costs. This prevents the smaller tenement owners from ever participating in the value-added processing of laterite ores for the battery sector, unless in a JV with a larger financial partner.
Typical heap leaching of laterite ores is a cheaper alternative to HPAL but requires large tracts of flat land for the heaps, and leach times can extend to over 400 days. Furthermore, in tropical climates, the high rainfall and in places, periodic typhoons, detrimentally impacts the operations. ‘Raincoats’ on the heaps can help but then introduce another set of problems.
The EML Process is positioned as a low-cost alternative to HPAL that is capable of processing both saprolite and limonitic ores, with much shorter lead times, much shorter ramp up times and simplicity of operations with lower overall operating costs.
The EML Process
Unlike conventional processes like HPAL or RKEF, The EML Process can process most laterite ore types as well as ores that would otherwise not be suitable for processing or sale. Both limonitic and saprolite ores may be treated. High silica ores which are unsuitable for processing by conventional methods are readily processed using The EML Process. Little grade control or blending is thus required.
The three essential steps in the EML Process include-
1. Leaching of the Laterite Ore: The laterite ore is contacted with a very dilute acid solution to dissolve the nickel and cobalt. Other metals such as aluminium, scandium and manganese are dissolved in the process and may be recovered.
2. Metals Recovery: The metal containing solution is then treated to recover the contained nickel and cobalt. Initially a mixed hydroxide / carbonate product will be produced containing 35 – 55 % nickel and 1 – 3 % cobalt. Other products may easily be produced depending on market demand, by the addition of small process modules.
3. Neutralization: After metal removal and recovery, alkaline solution is used to wash the leached ore prior to being returned to the mined-out open pit.
