An experimental study of the effect of microwave treatment on long term bioleaching of coarse, massive zinc sulphide ore particles

For some years it has been suggested that microwave treatment (MT) of ores might result in preferential grain boundary fracture that would have potential benefits during downstream recovery processes. These benefits include energy savings during subsequent comminution due to particle weakening and improved exposure or liberation of value grains. This suggests that heap leaching could benefit from microwave-induced grain boundary fracture, as the extent and kinetics of heap leaching processes depend on the accessibility of grains to lixiviants. The aim of this study was to determine if microwave treatment (microwave exposure time of 1 s and specific energy inputs of between 2 and 3 kWh/t) of small (5 + 4.75 mm), medium (16 + 9.5 mm), and large (25 + 19 mm) crushed sphalerite ore particles prior to heap leaching would result in improved metal extraction. Column bioleaching experiments showed improved metal recoveries (over 23% to 26%) for microwave treated particles of all sizes. Analysis of the particles by X-ray computed tomography and image analysis techniques showed increased internal cracking due to microwave treatment. This was correlated with the increased recovery during heap bioleaching.