Rapid precipitation of vanadium from solution using melamine as precipitant with high efficiency

BACKGROUND Selective catalytic reduction (SCR) can effectively remove NOx from flue gas in a coal‐fired power plant. As the core of SCR technology, the catalyst has a limited lifespan. The process of reducing acid leaching and roasting water leaching can efficiently extract vanadium and tungsten fro...

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Published in:Journal of chemical technology and biotechnology (1986) 2024-12, Vol.99 (12), p.2569-2581
Main Authors: Wang, Bo, Yang, Qiaowen, Li, Ting, Cui, Sifan, Feng, Pengqiang, Hou, Xuan
Format: Article
Language:English
Subjects:
Acid leaching
adsorption
Ammonium chloride
biotechnology
Catalysts
Chemical precipitation
Chemical reactions
Chemical reduction
coal
Coal-fired power plants
Efficiency
Flue gas
Food processing
Leaching
Life span
longevity
Melamine
Plant extracts
Power plants
Recovery
Selective catalytic reduction
solution containing vanadium
spent SCR catalyst
Tungsten
Vanadium
Vanadium pentoxide
vanadium precipitation
wastewater
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Summary:BACKGROUND Selective catalytic reduction (SCR) can effectively remove NOx from flue gas in a coal‐fired power plant. As the core of SCR technology, the catalyst has a limited lifespan. The process of reducing acid leaching and roasting water leaching can efficiently extract vanadium and tungsten from spent SCR catalyst. For vanadium recovery in solution, the traditional vanadium precipitation process by NH4Cl has the disadvantages of consuming high precipitant dosage and producing large amounts of waste water. RESULTS This study focused on the vanadium precipitation process using a solution containing vanadium obtained from adopting some steps to handle the spent SCR catalyst. First, melamine was screened out as the vanadium precipitant. Then, the vanadium precipitation conditions were optimized as follows: solution pH value of 1.0, n(C3H6N6)/n(V) = 0.8, 110 °C and 30 min. Under the best precipitation conditions, the vanadium precipitation efficiency of melamine can reach 99.32%. Finally, the mechanisms of vanadium precipitation by NH4Cl and melamine were discussed, respectively. CONCLUSION The results showed that the vanadium precipitation process by NH4Cl followed the chemical reactions between NH4+ and vanadium ions, while the vanadium precipitation process by melamine followed the redox and complexation reactions which essentially belonged to the types of chemical adsorption. The vanadium precipitation product was roasted at 550 °C for 2 h to obtain the vanadium product. The main component of the vanadium product was V2O5, with a purity of 93.27 wt%. The total recovery efficiency of vanadium from spent SCR catalyst was 78.24%. © 2024 Society of Chemical Industry (SCI).
ISSN:0268-2575
1097-4660
DOI:10.1002/jctb.7738