期刊: MINERALS & METALLURGICAL PROCESSING, 2018; 35 (4)
This study is a continuation of previous work designed to further explore the mechanism of the bioleaching of sulfide concentrate at neutral pH by het......
期刊: MINERALS & METALLURGICAL PROCESSING, 2018; 35 (4)
A process for recovering manganese from low-grade manganese oxide ore through a reduction acidolvsis-selective leaching method is investigated. Two ty......
期刊: MINERALS & METALLURGICAL PROCESSING, 2018; 35 (4)
Semicontinuous-flow, multistage biooxidation experiments of a Chinese refractory, high-sulfur gold concentrate were conducted with different pulp dens......
期刊: MINERALS & METALLURGICAL PROCESSING, 2018; 35 (4)
For gold recovery, a Chinese refractory; high-sulfur gold concentrate was subjected to biooxidation with high pulp density in a single stirred-tank re......
期刊: MINERALS & METALLURGICAL PROCESSING, 2018; 35 (4)
In recent years, the biosolubilization of rock phosphates by phosphate-solubilizing microorganisms has become a major topic of research studies. Howev......
期刊: MINERALS & METALLURGICAL PROCESSING, 2018; 35 (4)
Electrolytic manganese residue (EMR) is a kind of industrial solid waste with high silicon content that contains harmful metal elements such as chromi......
期刊: MINERALS & METALLURGICAL PROCESSING, 2018; 35 (4)
Theoretically, controlling redox potential to a relatively low value and inhibiting jarosite formation on the chalcopyrite surface would be an effecti......
期刊: MINERALS & METALLURGICAL PROCESSING, 2018; 35 (2)
China has rich phosphate rock resources, but with their continuous depletion, the rich ore resources have become increasingly scarce, which makes the ......
期刊: MINERALS & METALLURGICAL PROCESSING, 2018; 35 (3)
Acid mine drainage (AMD) derives from the oxidation of sulfide minerals, primarily pyrite (FeS2), and is the most severe environmental issue facing th......
期刊: MINERALS & METALLURGICAL PROCESSING, 2017; 34 (4)
Phosphogypsum is a byproduct created during the production of industrial wet-process phosphoric acid. This study focused on recovering rare earth elem......
期刊: MINERALS & METALLURGICAL PROCESSING, 2017; 34 (4)
Phosphate beneficiation in Florida generates more than one tonne of phosphatic clay, or slime, per tonne of phosphate rock produced. Since the start o......
期刊: MINERALS & METALLURGICAL PROCESSING, 2017; 34 (4)
The overall goal of this study is to develop a suitable flow sheet to extract rare earth elements (REEs) from coal ash. A total of 14 coal samples of ......
期刊: MINERALS & METALLURGICAL PROCESSING, 2017; 34 (4)
This study explores froth flotation and selective flocculation methods to recycle waste phosphors containing several rare earth elements, namely, yttr......
期刊: MINERALS & METALLURGICAL PROCESSING, 2017; 34 (1)
In the present work, we investigate the effects of roasting temperature and time on the transformation of the titanium (Ti)-bearing phase and magnesiu......
期刊: MINERALS & METALLURGICAL PROCESSING, 2017; 34 (3)
Phosphorite, or phosphate rock, is the most significant secondary rare-earth resource. It contains high amounts of phosphate-bearing minerals along wi......
