Litcius/Paper detail

Nickel Laterite Beneficiation and Potential for Upgrading Using High Temperature Methods: A Review

Lauren Zappala, Robbie G. McDonald, Mark I. Pownceby

2023Mineral Processing and Extractive Metallurgy Review25 citationsDOIOpen Access PDF

Abstract

Australia has large reserves of limonite and clay-based laterites that are currently underutilized. This review summarizes the latest nickel laterite upgrading studies reported in the literature which use physical beneficiation – only studies reported after the most recent review in 2015 included – as well as high-temperature methods involving oxidation/reduction roasting (with and without additives), sulphidation, and other high-temperature methods. The focus of this review is on upgrading limonite ores, but studies using other types of laterites are also discussed for comparative purposes. Oxidative roasting has proven to be ineffective but producing a magnetic phase by reduction roasting then magnetically separating it from gangue minerals has produced nickel grades and recoveries of up to 14% and 99% respectively with limonite ores. The choice of reductant has negligible effect although hydrogen reduction is predicted to occur at slightly lower temperatures and recoveries are slightly lower compared with carbon-based reductants. The addition of sulfurous compounds improves agglomeration of ferronickel particles, increases the nickel grade and recovery. The highest recovery of 97.91% (grade 13.62%) was reported when sulfur was used as an additive during the roasting of a limonite ore with coal and limestone at 1400°C for 6 h. The results show reduction roasting followed by magnetic separation is effective for upgrading nickel ores, but challenges with this technology are the potentially high reagent usage and temperatures required. The economic feasibility for processing limonite ores via this route is not clear and should be investigated further.

Topics & Concepts

LimoniteRoastingLateriteBeneficiationFerroalloyNickelMetallurgyMagnetic separationGangueMaterials scienceEnvironmental scienceHematiteMetal Extraction and BioleachingMinerals Flotation and Separation TechniquesExtraction and Separation Processes