Vanadium Extraction from a Fe–V (2.0 Mass%)–P (0.1 Mass%) Melt and Investigation of the Phase Relations in the Formed FeO–SiO2-Based Slag with 20 Mass% V

An innovative and sustainable way for production of vanadium is to co-process vanadium titanomagnetite ores with vanadium-bearing slag from steel industry, via reduction, producing a hot metal containing about 2 mass% vanadium, 0.1 mass% phosphorus, and 0.4 mass% silicon. A vanadium-extraction metho...

Full description

Saved in:
Bibliographic Details
Published inJournal of sustainable metallurgy Vol. 3; no. 4; pp. 808 - 822
Main Authors Lindvall, M., Tikka, J., Berg, M., Ye, G., Sichen, D.
Format Journal Article
LanguageEnglish
Published Cham Springer International Publishing 01.12.2017
Springer Nature B.V
Subjects
Decarburization
Decarburizing
Earth and Environmental Science
Environment
Iron and steel industry
Iron ores
Metallic Materials
Minerals
Oxidation
Oxygen enrichment
Pellets
Phosphorus
Reduction (metal working)
Research Article
Scale (corrosion)
Silicon dioxide
Slag
Steel industry
Stirring
Sustainable Development
Vanadium steels
Spinel
Experimental
Vanadium
Distribution
Slag
Phase relationship
Converter
Sustainable
Online AccessGet full text

Cover

More Information
Summary:An innovative and sustainable way for production of vanadium is to co-process vanadium titanomagnetite ores with vanadium-bearing slag from steel industry, via reduction, producing a hot metal containing about 2 mass% vanadium, 0.1 mass% phosphorus, and 0.4 mass% silicon. A vanadium-extraction method was developed for these hot metals using a semi-industrial-scale converter. Oxidation was carried out with an air jet enriched to 50 vol% oxygen and by top-charging up to 70 kg iron ore pellets per ton hot metal. The complete dissolution of pellets was achieved by deliberately creating good stirring conditions utilizing high momentary decarburization rates. The temperature could be controlled to around 1677 K at the blowing endpoint after the pellet coolant had been dissolved. Produced vanadium slags contained as high as 20 mass% V. The semifinished product contained about 3 mass% carbon and 0.1 mass% vanadium, corresponding to a vanadium yield of 94%. The phosphorus distribution to the slag was low when good stirring was maintained. The slag composition had a more significant impact than the temperature on the vanadium distribution. Laboratory-scale study also showed that the temperature impact on the composition of the liquid phase was minor.
ISSN:2199-3823
2199-3831
DOI:10.1007/s40831-017-0147-z