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Extractive Metallurgy 2 : Metallurgical Reaction Processes.

The Extractive Metallurgy series is devoted to the extraction of metals from ores and other sources, their refining to the state of either liquid or solid metal, and the various processes needed to carry out these operations. Using the methodology of chemical reaction engineering, this second volume...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Vignes, Alain
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : Wiley, 2013.
Colección:ISTE.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Title Page; Copyright Page; Table of Contents; Preface; Chapter 1. Hydrometallurgical Extraction Processes; 1.1. Overview of hydrometallurgical processes; 1.2. Leaching processes; 1.2.1. Basic features; 1.2.2. Leaching of oxides with acid-base reactions; 1.2.3. Leaching of sulfides; 1.2.4. Leaching of metals; 1.3. Precipitation processes; 1.3.1. Precipitation of hydroxides and oxides; 1.3.2. Precipitation of sulfides; 1.3.3. Production of Cu, Ni and Co metallic powders from salt solutions by reduction with hydrogen; 1.3.4. Cementation; 1.4. Solvent extraction; 1.4.1. Extractants.
  • 1.4.2. Extraction and stripping isotherms and extractant selectivity1.4.3. Solvent extraction operations in copper hydrometallurgic treatments; 1.4.4. Cobalt-nickel separation from various leach liquors by solvent extraction; 1.4.5. Iron extraction from a sulfuric Fe-Zn solution; 1.4.6. Extraction of gold from hydrochloric solutions; 1.4.7. Extraction of gallium from Bayer process leach solutions; 1.5. Hydrometallurgical processing routes of ores, concentrates and residue (flowsheets); 1.5.1. The Bayer process: bauxite processing.
  • 1.5.2. Hydrometallurgical processing routes of zinc ores and electric arc furnace dusts1.5.3. Hydrometallurgical processing routes of copper ores and mattes; 1.5.4. Processing of nickel laterites, sulfide concentrates and mattes; 1.6. Bibliography; Chapter 2. Electrometallurgical Extraction Processes; 2.1. Overview of electrometallurgical processes; 2.2. Electrolysis
  • bases; 2.2.1. The electrolytic cell; 2.2.2. Faraday's law; 2.2.3. The electromotive force (EMF); 2.2.4. Electrical energy consumption; 2.2.5. Decomposition potential of a salt; 2.2.6. Electrorefining.
  • 2.2.7. Configurations of industrial cells and cell lines2.3. Aqueous electrolysis: bases; 2.3.1. Electrolytic water decomposition; 2.3.2. Aqueous salt electrolysis; 2.3.3. Metal deposit and hydrogen production; 2.3.4. Electrodeposition of metals
  • deposit morphologies; 2.4. Electrowinning of copper; 2.4.1. Copper chloride electrolysis; 2.4.2. Copper sulfate electrolysis; 2.4.3. Electrolytic copper and blister copper electrorefining; 2.4.4. Electrorefining of copper matte; 2.5. Electrowinning of nickel; 2.5.1. Nickel chloride electrolysis; 2.5.2. Electrorefining of nickel.
  • 2.5.3. Electrorefining of nickel matte2.6. Electrowinning of zinc; 2.6.1. Zinc sulfate electrolysis; 2.6.2. Ammonium chloride zinc electrolysis; 2.6.3. Sodium zincate electrolysis; 2.7. Electrorefining of lead; 2.8. Electrorefining of tin; 2.9. Cobalt electrowinning; 2.10. Bibliography; Chapter 3. Halide Extraction Processes; 3.1. Overview of the halide extraction processes; 3.2. Chlorination processes; 3.2.1. Thermodynamic data; 3.2.2. Mechanisms and kinetics; 3.2.3. Carbochlorination of ores; 3.3. Reduction of halides; 3.3.1. Hydrogen reduction; 3.3.2. Metallothermic reduction.