Reduction Behavior of Garnierite Using Methane by Roasting-Magnetic Separation Method

Reduction roasting followed by magnetic separation is an important method for treating laterite nickel ores. In this work, garnierite type laterite ore from Yunnan province in China was reduced by methane under different conditions followed by magnetic separation to obtain the ferronickel concentrate. The phase and microstructure transformations of garnierite in the reduction process were investigated using XRD and SEM-EDS. The experimental results showed that reduction temperature from 873 to 1173 K had only a small effect on content and recovery of nickel and iron. The content and recovery of nickel and iron in the concentrates increased slightly with prolonging reduction time. In addition, the nickel and iron content decreased with increasing methane concentration, but the recovery of nickel and iron increases. A decrease in the iron content and recovery were observed when the dosage of sodium sulfate varied from 5 to 20% at a temperature of 1073 K and reducing time of 90 min, while the nickel content and recovery gradually increased.