A method for recovery of iron, titanium, and vanadium from vanadium-bearing titanomagnetite

An innovative method for recovering valuable elements from vanadium-bearing titanomagnetite is proposed. This method involves two procedures： low-temperature roasting of vanadium-bearing titanomagnetite and water leaching of roasting slag. During the roasting process, the reduction of iron oxides to...

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Published in	International journal of minerals, metallurgy and materials Vol. 25; no. 2; pp. 131 - 144
Main Authors	Zhang, Yi-min, Wang, Li-na, Chen, De-sheng, Wang, Wei-jing, Liu, Ya-hui, Zhao, Hong-xin, Qi, Tao
Format	Journal Article
Language	English
Published	Beijing University of Science and Technology Beijing 01.02.2018 Springer Nature B.V Key Laboratory of Green Process and Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, China%National Engineering Laboratory for Hydrometallurgical Cleaner Production Technology, Beijing 100190, China University of Chinese Academy of Sciences, Beijing 100049, China Key Laboratory of Green Process and Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, China National Engineering Laboratory for Hydrometallurgical Cleaner Production Technology, Beijing 100190, China
Subjects	Anthracite Ceramics Characterization and Evaluation of Materials Chemistry and Materials Science Composites Corrosion and Coatings Glass Iron oxides Leaching Low temperature Materials Science Metallic Materials Natural Materials Oxidation Reducing agents Roasting Separation Slag Sodium Sodium carbonate Sodium compounds Surfaces and Interfaces Thin Films Titanium Tribology Vanadates Vanadium Vanadium oxides Water chemistry 钒氧化物;氧化铁;钛;水溶性;金属性;创新方法;低温度;炉渣 water leaching sodium oxidation vanadium recovery titanomagnetite direct reduction smelting separation
Online Access	Get full text
ISSN	1674-4799 1869-103X 1869-103X
DOI	10.1007/s12613-018-1556-0

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Abstract	An innovative method for recovering valuable elements from vanadium-bearing titanomagnetite is proposed. This method involves two procedures： low-temperature roasting of vanadium-bearing titanomagnetite and water leaching of roasting slag. During the roasting process, the reduction of iron oxides to metallic iron, the sodium oxidation of vanadium oxides to water-soluble sodium vanadate, and the smelting separation of metallic iron and slag were accomplished simultaneously. Optimal roasting conditions for iron/slag separation were achieved with a mixture thickness of 42.5 mm, a roasting temperature of 1200°C, a residence time of 2 h, a molar ratio of C/O of 1.7, and a sodium carbonate addition of 70 wt%, as well as with the use of anthracite as a reductant. Under the optimal conditions, 93.67% iron from the raw ore was recovered in the form of iron nugget with 95.44% iron grade. After a water leaching process, 85.61% of the vanadium from the roasting slag was leached, confirming the sodium oxidation of most of the vanadium oxides to water-soluble sodium vanadate during the roasting process. The total recoveries of iron, vanadium, and titanium were 93.67%, 72.68%, and 99.72%, respectively.
AbstractList	An innovative method for recovering valuable elements from vanadium-bearing titanomagnetite is proposed. This method involves two procedures: low-temperature roasting of vanadium-bearing titanomagnetite and water leaching of roasting slag. During the roasting process, the reduction of iron oxides to metallic iron, the sodium oxidation of vanadium oxides to water-soluble sodium vanadate, and the smelting separation of metallic iron and slag were accomplished simultaneously. Optimal roasting conditions for iron/slag separation were achieved with a mixture thickness of 42.5 mm, a roasting temperature of 1200°C, a residence time of 2 h, a molar ratio of C/O of 1.7, and a sodium carbonate addition of 70wt%, as well as with the use of anthracite as a reductant. Under the optimal conditions, 93.67% iron from the raw ore was recovered in the form of iron nugget with 95.44% iron grade. After a water leaching process, 85.61% of the vanadium from the roasting slag was leached, confirming the sodium oxidation of most of the vanadium oxides to water-soluble sodium vanadate during the roasting process. The total recoveries of iron, vanadium, and titanium were 93.67%, 72.68%, and 99.72%, respectively. An innovative method for recovering valuable elements from vanadium-bearing titanomagnetite is proposed. This method in-volves two procedures: low-temperature roasting of vanadium-bearing titanomagnetite and water leaching of roasting slag. During the roast-ing process, the reduction of iron oxides to metallic iron, the sodium oxidation of vanadium oxides to water-soluble sodium vanadate, and the smelting separation of metallic iron and slag were accomplished simultaneously. Optimal roasting conditions for iron/slag separation were achieved with a mixture thickness of 42.5 mm, a roasting temperature of 1200°C, a residence time of 2 h, a molar ratio of C/O of 1.7, and a sodium carbonate addition of 70wt%, as well as with the use of anthracite as a reductant. Under the optimal conditions, 93.67% iron from the raw ore was recovered in the form of iron nugget with 95.44% iron grade. After a water leaching process, 85.61% of the vanadium from the roasting slag was leached, confirming the sodium oxidation of most of the vanadium oxides to water-soluble sodium vanadate during the roasting process. The total recoveries of iron, vanadium, and titanium were 93.67%, 72.68%, and 99.72%, respectively. An innovative method for recovering valuable elements from vanadium-bearing titanomagnetite is proposed. This method involves two procedures： low-temperature roasting of vanadium-bearing titanomagnetite and water leaching of roasting slag. During the roasting process, the reduction of iron oxides to metallic iron, the sodium oxidation of vanadium oxides to water-soluble sodium vanadate, and the smelting separation of metallic iron and slag were accomplished simultaneously. Optimal roasting conditions for iron/slag separation were achieved with a mixture thickness of 42.5 mm, a roasting temperature of 1200°C, a residence time of 2 h, a molar ratio of C/O of 1.7, and a sodium carbonate addition of 70 wt%, as well as with the use of anthracite as a reductant. Under the optimal conditions, 93.67% iron from the raw ore was recovered in the form of iron nugget with 95.44% iron grade. After a water leaching process, 85.61% of the vanadium from the roasting slag was leached, confirming the sodium oxidation of most of the vanadium oxides to water-soluble sodium vanadate during the roasting process. The total recoveries of iron, vanadium, and titanium were 93.67%, 72.68%, and 99.72%, respectively.
Author	Yi-min Zhang;Li-na Wang;De-sheng Chen;Wei-jing Wang;Ya-hui Liu;Hong-xin Zhao;Tao Qi
AuthorAffiliation	University of Chinese Academy of Sciences, Beijing 100049, China;National Engineering Laboratory for Hydrometallurgical Cleaner Production Technology, Beijing 100190, China;Key Laboratory of Green Process and Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, China
AuthorAffiliation_xml	– name: University of Chinese Academy of Sciences, Beijing 100049, China;National Engineering Laboratory for Hydrometallurgical Cleaner Production Technology, Beijing 100190, China;Key Laboratory of Green Process and Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, China%National Engineering Laboratory for Hydrometallurgical Cleaner Production Technology, Beijing 100190, China;Key Laboratory of Green Process and Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, China
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Keywords	water leaching sodium oxidation vanadium recovery titanomagnetite direct reduction smelting separation
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Notes	An innovative method for recovering valuable elements from vanadium-bearing titanomagnetite is proposed. This method involves two procedures： low-temperature roasting of vanadium-bearing titanomagnetite and water leaching of roasting slag. During the roasting process, the reduction of iron oxides to metallic iron, the sodium oxidation of vanadium oxides to water-soluble sodium vanadate, and the smelting separation of metallic iron and slag were accomplished simultaneously. Optimal roasting conditions for iron/slag separation were achieved with a mixture thickness of 42.5 mm, a roasting temperature of 1200°C, a residence time of 2 h, a molar ratio of C/O of 1.7, and a sodium carbonate addition of 70 wt%, as well as with the use of anthracite as a reductant. Under the optimal conditions, 93.67% iron from the raw ore was recovered in the form of iron nugget with 95.44% iron grade. After a water leaching process, 85.61% of the vanadium from the roasting slag was leached, confirming the sodium oxidation of most of the vanadium oxides to water-soluble sodium vanadate during the roasting process. The total recoveries of iron, vanadium, and titanium were 93.67%, 72.68%, and 99.72%, respectively. recovery vanadium titanomagnetite direct reduction sodium oxidation smelting separation water leaching 11-5787/TF ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14
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PublicationTitle	International journal of minerals, metallurgy and materials
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Publisher	University of Science and Technology Beijing Springer Nature B.V Key Laboratory of Green Process and Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, China%National Engineering Laboratory for Hydrometallurgical Cleaner Production Technology, Beijing 100190, China University of Chinese Academy of Sciences, Beijing 100049, China Key Laboratory of Green Process and Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, China National Engineering Laboratory for Hydrometallurgical Cleaner Production Technology, Beijing 100190, China
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Snippet	An innovative method for recovering valuable elements from vanadium-bearing titanomagnetite is proposed. This method involves two procedures： low-temperature... An innovative method for recovering valuable elements from vanadium-bearing titanomagnetite is proposed. This method involves two procedures: low-temperature... An innovative method for recovering valuable elements from vanadium-bearing titanomagnetite is proposed. This method in-volves two procedures: low-temperature...
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SubjectTerms	Anthracite Ceramics Characterization and Evaluation of Materials Chemistry and Materials Science Composites Corrosion and Coatings Glass Iron oxides Leaching Low temperature Materials Science Metallic Materials Natural Materials Oxidation Reducing agents Roasting Separation Slag Sodium Sodium carbonate Sodium compounds Surfaces and Interfaces Thin Films Titanium Tribology Vanadates Vanadium Vanadium oxides Water chemistry 钒氧化物;氧化铁;钛;水溶性;金属性;创新方法;低温度;炉渣
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Title	A method for recovery of iron, titanium, and vanadium from vanadium-bearing titanomagnetite
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