The Prediction of Flotation Characteristics of a Disseminated Ore Using Ore Texture Data
The establishment of grind size that optimally liberates the valuable mineral for efficient downstream processing is of great importance for most mineral processing operations. Reasonably accurate comminution models as well as models of downstream separation processes may be found in the literature but their use in optimizing grind size is limited without an associated liberation model.In this work, an attempt has been made to address the above shortcoming by demonstrating how the effective parameters of the downstream flotation process may be predicted from the liberation characteristics based on the ore texture data for a disseminated nickel ore.In this regard, the liberation model based on linear intercept distributions of mineral and gangue proposed by King (1979) and its application to predict the flotation performance of an industrial plant demonstrated by Schaap (1979) may be considered useful contributions. However, while the model proposed by Schaap is simplistic enough, it is based on several assumptions due to the non-availability of intercept length measurements on the parent rock, in particular, on the extent of mineral exposure on the surface of comminuted particles.In this work, the linear mineral and gangue intercepts on polished specimens of a binary ore,comprising darker penflandite as the valuable mineral and lighter barren host rock were measured using an image analyser. The resulting intercept distributions followed negative exponential distributions. Using the mean sizes of mineral and gangue intercepts, the proportion of liberated, composite and mineral occluded particles of a given size, the extent of mineral exposure on the surface of particles and their mean mineral contents were calculated using principles of renewal theory.The rock was then crushed and ground and different size fractions were floated. It has been shown that the parameters of observed recovery data based on 1st order kinetics such as the associated rate constant and ultimate recovery agrees well with those predicted from the quantities calculated above.This work has important practical implications since it can indicate variations in flotation performance arising from changes in mineralization within a large ore body.
Flotation Ore texture Mineral liberation
G. K. Nimal Subasinghe
Dept. of Mineral Science & Extractive Metallurgy, Murdoch University, Perth, Western Australia
国际会议
XXIV International Mineral Processing Congress(第24届国际矿物加工大会)
北京
英文
2339-2349
2008-09-24(万方平台首次上网日期,不代表论文的发表时间)