A novel method to extract vanadium from high-grade vanadium slag: non-salt roasting and alkaline leaching

Liu, B.; Meng, L.; Zheng, S.; Li, M.; Wang, S.

doi:10.5277/ppmp1857

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Tytuł artykułu

A novel method to extract vanadium from high-grade vanadium slag: non-salt roasting and alkaline leaching

Autorzy

Liu B. , Meng L. , Zheng S. , Li M. , Wang S.

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DOI

10.5277/ppmp1857

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Abstrakty

A new method using non-salt roasting-alkaline leaching to treat vanadium slag was proposed in this study. The V(III) in vanadium slag is oxidized to V(V) by roasting and the latter can be effectively leached out as vanadate by alkaline leaching. This method possesses distinct advantage of being able to treat high-grade vanadium slag. For the South Africa high-grade vanadium slag, the maximum vanadium recovery of 98% was achieved when the reaction conditions were roasting temperature of 850 °C, roasting time of 2 h, alkali concentration of 30 wt.%, leaching temperature of 210 °C, and leaching time of 2 h. The roasting and leaching mechanisms have been well elucidated based on the XRD and SEM analysis results. The phases transitions of vanadium slag were clearly presented. This work has laid the foundation for the industrial application of non-salt roasting-alkaline leaching and provided new insights into effective extraction of high-grade vanadium slag.

Słowa kluczowe

high-grade vanadium slag cleaner production non-salt roasting alkaline leaching mechanisms

Wydawca

Oficyna Wydawnicza Politechniki Wrocławskiej

Czasopismo

Physicochemical Problems of Mineral Processing

Rocznik

2018

Tom

Vol. 54, iss. 3

Strony

657--667

Opis fizyczny

Bibliogr. 26 poz., rys., tab.

Twórcy

autor

Liu B.

National Engineering Laboratory for Hydrometallurgical Cleaner Production Technology, Key Laboratory of Green Process and Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing, 100190, China

autor

Meng L.

School of Metallurgy and Ecological Engineering, University of Science and Technology Beijing, Beijing 100083, China

autor

Zheng S.

National Engineering Laboratory for Hydrometallurgical Cleaner Production Technology, Key Laboratory of Green Process and Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing, 100190, China

autor

Li M.

School of Metallurgy, Northeastern University, Shenyang, 110819, China

autor

Wang S.

shnwang@ipe.ac.cn

National Engineering Laboratory for Hydrometallurgical Cleaner Production Technology, Key Laboratory of Green Process and Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing, 100190, China

Bibliografia

BAROLIN, H., 1982.Oxidation of vanadium slag, Metallurgical Industry Press. Beijing, China.
CHEN, G., Wang, J., WANG, X., ZHENG, S., DU, H., ZHANG Y., 2013.An investigation on the kinetics of chromium dissolution from Philippine chromite ore at high oxygen pressure in KOH sub-molten salt solution, Hydrometallurgy. 139(3), 46-53.
GU, Y., ZHUANG, S., ZHONG, S., ZHOU, J., TIAN, J., HOU, M., 2007.Non-pollution roasting technology to extracting vanadium from siliceous navajoite, Chinese Journal of Rare Metals. 31(1), 102-106.
HUANG, D., 2000, Vanadium extraction & steelmaking, Metallurgical Industry Press. Beijing, China.
HUKKANEN, E., WALDEN, H., 1985.The production of vanadium and steel from titanomagnetites, International Journal of Mineral Processing. 15(1-2), 89-102.
LI, H., WANG, K., HUA, W., YANG, Z., ZHOU, W., XIE, B., 2016.Selective leaching of vanadium in calcification-roasted vanadium slag by ammonium carbonate, Hydrometallurgy. 160, 18-25.
LI, L., CHEN, D., BAI, R., ZHENG, S., DU,H., WANG, S., ZHANG, Y., 2011a.Leaching of vanadium from vanadium-containing residue by NaOH sub-molten salt, The Chinese Journal of Process Engineering. 11(5), 747-754.
LI, L., ZHANG, L., ZHENG, S., LOU, T., ZHANG,Y., CHEN, D., ZHANG, Y., 2011b.Acid leaching of calcined vanadium titanomagnetite with calcium compounds for extraction of vanadium, The Chinese Journal of Process Engineering. 11(4), 573-578.
LI, M., LIU, B., ZHENG, S., WANG, S., DU, H., DREISINGER, D. B., ZHANG, Y., 2017a.A cleaner vanadium extraction method featuring non-salt roasting and ammonium bicarbonate leaching, Journal of Cleaner Production. 149, 206-217.
LI, M., ZHENG, S., LIU, B., WANG, S., DREISINGER, D. B., ZHANG, Y., 2017b.A clean and efficient method for recovery of vanadium from vanadium slag: nonsalt roasting and ammonium carbonate leaching processes, Mineral Processing and Extractive Metallurgy Review. doi: http://dx.doi.org/10.1080/08827508.2017.1288117
LIAO, S., BO, T., 1985.Vanadium metallurgy in foreign countries, Metallurgical Industry Press. Beijing, China.
LIU, B., DU, H., WANG, S. N., ZHANG, Y., ZHENG, S. L., LI, L. J., CHEN, 2013a.A novel method to extract vanadium and chromium from vanadium slag using molten NaOH-NaNO3binary system, AIChE Journal. 59(2), 541–552.
LIU, H. B., DU, H., WANG, D. W., WANG, S. N.,ZHENG, S. L., ZHANG, Y., 2013b.Kinetics analysis of decomposition of vanadium slag by KOH sub-molten salt method, Transactions of Nonferrous Metals Society of China. 23(5), 1489-1500.
LIU, L., WANG, Z., DU, H., ZHENG, S., LASSI, U., ZHANG, Y., 2017.Intensified decomposition of vanadium slag via aeration in concentrated NaOH solution, International Journal of Mineral Processing. 160, 1-7.
MOSKALYK, R.,ALFANTAZI, A., 2003.Processing of vanadium: a review, Minerals Engineering. 16(9), 793-805.
PAN, Z., ZHENG, S., WANG, Z., WANG, S., DU, H., ZHANG, Y., XIE, H., 2014.Research on simultaneous extraction of vanadium and chromium from high chromium vanadium salg by sub-molten salt method, Iron Steel Vanadium Titanium. 35(2), 1-8.
PENG, Y., ZHU, S., XIE, T., ZHANG, F., LIU, W., PAN, P., BIAN, W., 2008.China Patent No. CN101161831.
QIU, S., WEI, C., LI, M., ZHOU, X., LI, C., DENG, Z., 2011.Dissolution kinetics of vanadium trioxide at high pressure in sodium hydroxide–oxygen systems, Hydrometallurgy. 105(3), 350-354.
SHI, L., WANG, J., XIE, J., 2008.Technology on vanadium extraction from bone coal by adding sodium chloride, Mining and Metallurgical Engineering. 28(1), 58-61.
WANG, J., 2004, Effect of calcium on leaching of vanadium from vanadium slag, Sichuan Nonferrous Metals. 4, 27-29.
WANG, Z. H., ZHENG, S. L., WANG, S. N., LIU, B., WANG,D. W., DU, H., ZHANG, Y., 2014.Research and prospect on extraction of vanadium from vanadium slag by liquid oxidation technologies, Transactions of Nonferrous Metals Society of China. 24(5), 1273-1288.
WEN, L., 2009. Process and development prospects of hydrometallurgical vanadium extraction from vanadium-bearingsteel slag, China Nonferrous Metallurgy. 3, 61-64.
ZHANG, J., ZHANG, W., ZHANG, L., GU, S., 2015.Mechanism of vanadium slag roasting with calcium oxide, International Journal of Mineral Processing. 138, 20-29.
ZHANG, P., JIANG, F., HE, Q., 1993.The feasibility of extracting vanadium from low-grade vanadium ore by calcification roasting, Iron Steel Vanadium Titanium. 14(2), 18-20.
ZHANG, Z., WANG, Y., 2000.A new process of vanadium extraction from silica based vanadium ore by oxidation roasting with calcium compounds, Chemical World, 41(6), 290-292.
ZHAO, T., 1999. Nonferrous metal extractive metallurgy handbook, Metallurgy Industry Publishing Company. Beijing, China

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Bibliografia

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