220 B RP
Boston, MA 02115
United States
Northeastern University (USA)
Bio-oxidation, Waste solution, Pyrite, Two-stage process, Kinetics
Gold cyanide residues, Cyanide removal, KMnO4 oxidation, MnO2 oxidation, XPS analysis
Bio-oxidation, arsenopyrite, Two-stage process, microbial community, kinetics
Black shale, Strategic metal elements, Bioleaching, Bioleaching enhancement with energy substrates, Mineralogical alteration
blast-furnace slag, Sodium hydroxide leaching, compact process, silicon-carbon anode material, Lithium-ion battery
low-grade complex tungsten-molybdenum ore, acid pretreatment, ball milling activation, KMnO4-enhanced oxidative leaching, sustainable resource recovery
Keywords: Acrylonitrile wastewater, Activated sludge, Microbial community structure, Sulfurovum bacteria
Neutralization residue, Acid leaching, Harmless treatment, Elements recovery, Toxicity test
Knelson concentrator, Differential concentration criterion, Concentration mechanisms, Ring-by-ring, Tungsten recovery
Molybdenum and tungsten, low concentration, 201×7 resin, adsorption kinetics, competing anions
Molybdenum and Tungsten, Trace, Ion exchange, Adsorption mechanism, Impurity, 201×7
molybdenum-tungsten mixed solution, trace, impurity removal, coupled precipitation, synthesis
Gold cyanidation, Activated carbon adsorption, Carbon in leach(CIL), TOF-SIMS, Competitive, Regeneration
extremely thermophilic bacteria, chalcopyrite bioleaching, response surface methodology, lack-of-fit diagnosis, microphase characterization, microbial community analysis.