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541.135.3 --- Electrolysis of molten salts and oxides --- 541.135.3 Electrolysis of molten salts and oxides

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Ionic solutions. --- Ionic solutions --- Salts. --- Fused salts --- Industrial applications. --- Purification. --- Molten salts --- Salts --- Chemistry --- Salt deposits --- Salinity --- Solutions, Ionic --- Ions --- Solution (Chemistry)

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This book contains the lecture notes for the NATO Advanced Research Workshop on th Green Industrial Applications of Ionic Liquids held April 12th_16 , 2000 in Heraklion, Crete, Greece. This was the fIrst international meeting devoted to research in the area of ionic liquids (salts with melting points below 100 0c), and was intended to explore the promise of ionic liquids as well as to set a research agenda for the fIeld. It was the fIrst international meeting dedicated to the study and application of ionic liquids as solvents, and forty-one scientists and engineers from academia, industry, and government research laboratories (as well as six industry observers and four student assistants) met to discuss the current and future status of the application of ionic liquids to new green industrial technologies. It was immediately clear that the number of organic chemists and engineers working in the fIeld needed to be increased. It was also clear that the declining interest in high temperature molten salts and subsequent increase in low melting ionic liquid solvents had not yet taken hold in Eastern Europe. Participants from NATO Partner Countries contributed signifIcant expertise in high temperature molten salts and were able to take back a new awareness and interest in ionic liquid solvents.

Fused salts --- Environmental chemistry --- Sels fondus --- Chimie de l'environnement --- Industrial applications --- Congresses. --- Congresses --- Applications industrielles --- Congrès --- Molten salts --- Salts --- Sustainable chemistry --- Conferences - Meetings --- Organic chemistry. --- Physical chemistry. --- Organic Chemistry. --- Physical Chemistry. --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Chemistry --- Organic chemistry

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Unit metallurgical operations processes are usually separated into three categories: 1) hydrometallurgy (leaching, mixing, neutralization, precipitation, cementation, and crystallization); 2) pyrometallurgy (roasting and smelting); and 3) electrometallurgy (aqueous electrolysis and molten salt electrolysis). In hydrometallurgy, the aimed metal is first transferred from ores and concentrates to a solution using a selective dissolution (leaching or dry digestion) under an atmospheric pressure below 100 °C and under a high pressure (40-50 bar) and high temperature (below 270°C) in an autoclave. The purification of the obtained solution was performed using neutralization agents such as sodium hydroxide and calcium carbonate or more selective precipitation agents such as sodium carbonate and oxalic acid. The separation of metals is possible using a liquid/liquid process (solvent extraction in mixer-settler) and solid–liquid (filtration in filter-press under high pressure). Crystallization is the process by which a metallic compound is converted from a liquid into a solid crystalline state via a supersaturated solution. The final step is metal production using electrochemical methods (aqueous electrolysis for basic metals such as copper, zinc, silver, and molten salt electrolysis for rare earth elements and aluminum). Advanced processes, such as ultrasonic spray pyrolysis and microwave-assisted leaching, can be combined with reduction processes in order to produce metallic powders.

zirconium --- eudialyte --- hydrometallurgy --- basic sulfate precipitation --- macroporous polymer --- goethite --- factorial design --- desorption --- tailings reprocessing --- early stage cost estimation --- magnetic separation --- leaching --- flotation --- silica --- ultrasonic spray pyrolysis --- synthesis --- acid mine drainage --- red mud --- neutralization --- immobilization --- precipitation --- nitinol --- continuous vertical cast (CVC), NiTi rod --- atomic layer deposition --- corrosion properties --- potentiodynamic test --- electrochemical impedance spectroscopy --- rare earth elements --- recycling --- NdFeB --- magnet --- non-ferrous metals --- cavitation erosion --- optical microscopy --- electron microscopy --- atomic force microscopy --- aluminium --- thin-layer electrolysis --- molten salts --- halides --- capillary cell --- electrorefining --- non-commercial copper anode --- waste solution --- high content --- Ni --- Pb --- Sn --- Sb --- passivation --- anode slime --- pentlandite --- oxidation --- reaction mechanism --- phase analysis --- silver --- copper --- nanoparticles --- antibacterial --- MnO2 --- cobalt oxide Co3O4 --- perovskite materials --- oxygen reduction in alkaline media --- electrocatalyst --- Pt catalyst --- nanocomposite --- mixed oxides --- NiAl2O4 --- ZnAl2O4 --- electrocatalysis --- nanocatalyst --- noble metal nanoparticles --- leachate --- metal ions extraction --- selectivity --- Fe removal --- electrodeposition --- conductometry --- n/a