Transformation of Vanadium-Bearing Titanomagnetite Concentrate in Additive-Free Roasting and Alkaline-Pressure Leaching for Extracting Vanadium (V)

With a view to satisfying the requirements of environmental protest and efficient usage of resources, a novel process for efficiently extracting vanadium (V), titanium (Ti), and iron (Fe) from vanadium-bearing titanomagnetite concentrate was developed. In the new process, vanadium is pre-extracted b...

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Published in	Minerals (Basel) Vol. 9; no. 3; p. 197
Main Authors	Zheng, Haiyan, Zhang, Weiling, Guo, Yongchun, Gao, Qiangjian, Shen, Fengman
Format	Journal Article
Language	English
Published	Basel MDPI AG 26.03.2019
Subjects	Acids Additives Bridges Chemical reactions Concentrates (ores) Crystals Endothermic reactions Evaporation Food processing High temperature Iron Iron oxides Leaching Low temperature Manganese Mass Melt temperature Melting Metallurgy Oxidation Oxides Pressure leaching Raw materials Roasting Scientific imaging Sintering (roasting) Sodium Temperature Titanium Vanadium Vanadium compounds Vanadium oxides Beijing China United States > US China Germany
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Abstract	With a view to satisfying the requirements of environmental protest and efficient usage of resources, a novel process for efficiently extracting vanadium (V), titanium (Ti), and iron (Fe) from vanadium-bearing titanomagnetite concentrate was developed. In the new process, vanadium is pre-extracted by additive-free roasting under the air atmosphere and alkaline leaching technologies. In this paper, transformation of vanadium-bearing titanomagnetite concentrate in the roasting is investigated based on thermodynamic analyses and experimental discussion. Thermodynamic analyses show that oxidation of V(III) into V(V) would happen in the roasting experiment over the range of 327–1327 °C and vanadium-iron spinel phase (FeV2O4) can be oxidized more easily than magnetite (Fe3O4) when the temperature is higher than 861 °C. Experimental results show that some compounds (V2O5, Fe2Al4Si5O18, and Fe2SiO4) with low melting temperature were obtained by solid reactions at low temperature and melted as a binding phase at elevated temperature. Liquids were generated due to some chemical reactions or phase transformation reaction (Fe2V2O4(s) → Fe2O3(s) + liquid) at elevated temperature. Main phases of Fe2O3 and Fe2TiO5 are connected and sintered with the binding phases of the compounds with low melting temperature or the mixtures with low liquidus temperature. In addition, higher roasting temperature leads to higher vanadium leaching efficiency over the range of 800–1200 °C. However, over-burning would happen at 1250 °C, some of vanadium oxide was wrapped by silicate network, and the conversion of V(III) into V(V) was prevented from occurring. Therefore, the vanadium leaching efficiency decreased from 59.1% (Troa. = 1200 °C) to 57% (Troa. = 1250 °C).
AbstractList	With a view to satisfying the requirements of environmental protest and efficient usage of resources, a novel process for efficiently extracting vanadium (V), titanium (Ti), and iron (Fe) from vanadium-bearing titanomagnetite concentrate was developed. In the new process, vanadium is pre-extracted by additive-free roasting under the air atmosphere and alkaline leaching technologies. In this paper, transformation of vanadium-bearing titanomagnetite concentrate in the roasting is investigated based on thermodynamic analyses and experimental discussion. Thermodynamic analyses show that oxidation of V(III) into V(V) would happen in the roasting experiment over the range of 327–1327 °C and vanadium-iron spinel phase (FeV2O4) can be oxidized more easily than magnetite (Fe3O4) when the temperature is higher than 861 °C. Experimental results show that some compounds (V2O5, Fe2Al4Si5O18, and Fe2SiO4) with low melting temperature were obtained by solid reactions at low temperature and melted as a binding phase at elevated temperature. Liquids were generated due to some chemical reactions or phase transformation reaction (Fe2V2O4(s) → Fe2O3(s) + liquid) at elevated temperature. Main phases of Fe2O3 and Fe2TiO5 are connected and sintered with the binding phases of the compounds with low melting temperature or the mixtures with low liquidus temperature. In addition, higher roasting temperature leads to higher vanadium leaching efficiency over the range of 800–1200 °C. However, over-burning would happen at 1250 °C, some of vanadium oxide was wrapped by silicate network, and the conversion of V(III) into V(V) was prevented from occurring. Therefore, the vanadium leaching efficiency decreased from 59.1% (Troa. = 1200 °C) to 57% (Troa. = 1250 °C).
Author	Gao, Qiangjian Guo, Yongchun Shen, Fengman Zhang, Weiling Zheng, Haiyan
Author_xml	– sequence: 1 givenname: Haiyan orcidid: 0000-0001-8454-8521 surname: Zheng fullname: Zheng, Haiyan – sequence: 2 givenname: Weiling surname: Zhang fullname: Zhang, Weiling – sequence: 3 givenname: Yongchun surname: Guo fullname: Guo, Yongchun – sequence: 4 givenname: Qiangjian surname: Gao fullname: Gao, Qiangjian – sequence: 5 givenname: Fengman surname: Shen fullname: Shen, Fengman
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SubjectTerms	Acids Additives Bridges Chemical reactions Concentrates (ores) Crystals Endothermic reactions Evaporation Food processing High temperature Iron Iron oxides Leaching Low temperature Manganese Mass Melt temperature Melting Metallurgy Oxidation Oxides Pressure leaching Raw materials Roasting Scientific imaging Sintering (roasting) Sodium Temperature Titanium Vanadium Vanadium compounds Vanadium oxides
Title	Transformation of Vanadium-Bearing Titanomagnetite Concentrate in Additive-Free Roasting and Alkaline-Pressure Leaching for Extracting Vanadium (V)
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