Rare metals preparation by electro-reduction of solid compounds in high-temperature molten salts

Direct electro-reduction of solid compounds in molten salts is a simple and straightforward electrolytic metallurgical method, which outperforms traditional pyrometallurgical methods such as carbothermic and met- allothermic reductions in terms of economic viability, energy efficiency and carbon foo...

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Bibliographic Details
Published inRare metals Vol. 35; no. 8; pp. 581 - 590
Main Authors Xiao, Wei, Wang, Di-Hua
Format Journal Article
LanguageEnglish
Published Beijing Nonferrous Metals Society of China 01.08.2016
Springer Nature B.V
Subjects
Aluminum
Aqueous solutions
Basic refractories
Biomaterials
Carbon
Carbothermic reactions
Chemistry and Materials Science
Clean energy
Controllability
Economics
Electricity
Electrolytes
Energy
Energy management
Extractive metallurgy
Fused salts
Gallium
Germanium
Hafnium
High temperature
Hydrometallurgy
Materials Engineering
Materials Science
Metal oxides
Metallic Materials
Metals
Methods
Microstructure
Molten salts
Molybdenum
Nanoscale Science and Technology
Physical Chemistry
Reduction (electrolytic)
Refractory metals
Temperature
Wind power
固体化合物
微观结构
稀有金属
经济竞争力
能源效率
还原制备
金属提取
高温熔盐
Rare metals
Molten salt electrolysis
Solid compounds
Electrochemical metallurgy
Online AccessGet full text
ISSN1001-0521
1867-7185
DOI10.1007/s12598-016-0778-4

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Summary:Direct electro-reduction of solid compounds in molten salts is a simple and straightforward electrolytic metallurgical method, which outperforms traditional pyrometallurgical methods such as carbothermic and met- allothermic reductions in terms of economic viability, energy efficiency and carbon footprint. To better highlight the features of the direct electro-reduction of solid com- pounds in molten salts in extraction of rare metals, the scope of this paper is focused on the know-how of the cathodic process of the direct electro-reduction of solid compounds in molten salts in extraction of rare refractory metals including Ti, Zr, Hf, V, Nb, Ta, Mo and W, and rare disperse metals including Ga and Ge. In line with an introduction of the basic concept of the method, the char- acteristics of reaction paths in different systems are sum- marized and the corresponding strategy on tailoring energy efficiency and microstructure of electrolytic products are rationalized. The economic competence of the method might be enhanced by extending the method to controllable production of rare metals with high added values, well- defined microstructure and intriguing functionality.
Bibliography:Direct electro-reduction of solid compounds in molten salts is a simple and straightforward electrolytic metallurgical method, which outperforms traditional pyrometallurgical methods such as carbothermic and met- allothermic reductions in terms of economic viability, energy efficiency and carbon footprint. To better highlight the features of the direct electro-reduction of solid com- pounds in molten salts in extraction of rare metals, the scope of this paper is focused on the know-how of the cathodic process of the direct electro-reduction of solid compounds in molten salts in extraction of rare refractory metals including Ti, Zr, Hf, V, Nb, Ta, Mo and W, and rare disperse metals including Ga and Ge. In line with an introduction of the basic concept of the method, the char- acteristics of reaction paths in different systems are sum- marized and the corresponding strategy on tailoring energy efficiency and microstructure of electrolytic products are rationalized. The economic competence of the method might be enhanced by extending the method to controllable production of rare metals with high added values, well- defined microstructure and intriguing functionality.
Rare metals; Molten salt electrolysis; Solidcompounds; Electrochemical metallurgy
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ISSN:1001-0521
1867-7185
DOI:10.1007/s12598-016-0778-4