Towards large scale microwave treatment of ores: Part 1 – Basis of design, construction and commissioning

• Published in: Minerals engineering Vol. 109; pp. 169 - 183
• Main Authors: Buttress, A.J., Katrib, J., Jones, D.A., Batchelor, A.R., Craig, D.A., Royal, T.A., Dodds, C., Kingman, S.W.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.08.2017
• Subjects: Beneficiation; Copper; Fracture; Microwave; Ore; Pilot scale; Microwave; Fracture; Ore; Pilot scale; Copper; Beneficiation
• ISSN: 0892-6875; 1872-9444
• DOI: 10.1016/j.mineng.2017.03.006

•A pilot scale system for microwave treatment of ores is presented.•Materials handling concepts and justification for packed bed mass flow are discussed.•Microwave applicator and choke modelling is validated against real ores.•Control of material flow and presentation is discussed.•The operating microwave treatment system performance is described. Despite over thirty years of work, microwave pre-treatment processes for beneficiation of ores have not progressed much further than laboratory testing. In this paper we present a scaleable pilot-scale system for the microwave treatment of ores capable of operating at throughputs of up to 150tph. This has been achieved by confining the electric field produced from two 100kW generators operating at 896MHz in a gravity fed vertical flow system using circular choking structures yielding power densities of at least 6×108W/m3 in the heated mineral phases. Measured S11 scattering parameters for a quartzite ore (−3.69±0.4dB) in the as-built applicator correlated well with the simulation (−3.25dB), thereby validating our design approach. We then show that by fully integrating the applicator with a materials handling system based on the concept of mass flow, we achieve a reliable, continuous process. The system was used to treat a range of porphyry copper ores.