Recovery of Non-ferrous Metal from Metallurgical Residues

© 2022 by the authors; CC BY-NC-ND license

zinc oxide dust (ZOD); ultrasound-enhanced leaching; zinc extraction; ilmenite concentrate; dusts; waste; purification; sublimate; pyrohydrolysis; silicon; titanium dioxide; bentonite; pellet ore; pure limonite; response surface; DOE; electron beam cold hearth melting; hot deformation; TA1; constitutive model; processing maps; Cu; Ni; reversed austenite; super martensitic stainless steel; spherical silver particle; micro-size; monodispersed; resistivity; Y-type microjet reactor; spherical ultrafine silver particles; wet chemical reduction; dendritic particle; metallurgical slag and dust; zinc recovery; ammonium acetate; response surface methodology; neural network; limonite; pelletizing; compressive strength; organic binder; tundish metallurgy; dual-channel induction heating; inclusion removal; numerical simulation; rare earth; scandium; kaolinite; density functional theory; adsorption; coal gangue; fly ash; energy and environmental protection; Si-based porous material; resource utilization; rhenium; ammonium perrhenate; potassium perrhenate; densimetric method; solubility curve; M-EMS; continuous casting billet; multi-physical field model; carbon segregation; zinc hydrometallurgy; residues from leaching stage; microwave drying; drying rate; kinetics model; copper slag; mineralogy; slag re-processing; pyrometallurgy; hydrometallurgy; n/a