CV


FA
ALI BEHNAMFARD

ALI BEHNAMFARD

Associate Professor

Faculty: Engineering

Department: Mining Engineering

Degree: Ph.D

CV
FA
ALI BEHNAMFARD

Associate Professor ALI BEHNAMFARD

Faculty: Engineering - Department: Mining Engineering Degree: Ph.D |

Flotation optimization and sulfidation strategies for maximizing copper recovery from a complex mixed oxide-sulfide ore

AuthorsAli Behnamfard,Francesco Veglio
JournalInternational Journal of Mining And Geo-Engineering
Page number197-208
Serial number60
Volume number2
Paper TypeFull Paper
Published At2026
Journal TypeTypographic
Journal CountryIran, Islamic Republic Of
Journal Indexisc،Scopus
KeywordsCopper oxide, sulfide ore; Flotation; Sulfidation; Mineralogical characterization; Reagent optimization.

Abstract

This study systematically examined the flotation optimization and sulfidation strategies for enhancing copper recovery from a complex mixed oxide-sulfide ore containing approximately 62% copper oxide and 38% copper sulfide. Comprehensive mineralogical characterization using XRD, SEM-EDS, and EPMA identified a silicate-rich gangue and delineated copper-bearing mineral phases. Laboratory flotation experiments investigated the influence of particle size, reagent type and dosage, pulp pH, and reagent addition sequence on copper recovery. Optimal conditions resulted in a copper oxide recovery of 76% at a particle size of 53 μm and pH 10.5, with total copper recovery reaching 81% through staged reagent addition. Sodium sulfide and sodium hydrosulfide proved effective as sulfidizing agents, with potassium amyl xanthate (PAX)— especially in combination with a co-collector—significantly improving performance. Distributing the sulfidizing agent between the grinding mill and flotation cell balanced the activation of oxide and sulfide minerals, maximizing overall recovery. These results highlight the importance of integrated mineralogical analysis and process parameter optimization for efficient beneficiation of complex copper oxidesulfide ores, providing practical insights for developing robust flotation flowsheets for similar mineral systems.

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