Regeneration-Modification of Deactivated V2O5-based Catalyst Used for Low Load Condition Denitration

doi:10.12068/j.issn.1005-3026.2019.06.027

Abstract

Abstract: The power plant based deactivated catalyst was characterized by XRD， XRF and BET and the cause of deactivation was determined as As₂O₃， alkali metal poisoning. However， the crystal structure of the deactivated catalyst did not change and had a high specific surface area. H₂C₂O₄(0.01mol/L) and NH₃·H₂O(0.015mol/L) was applied to regenerate the catalyst， and the content of SO₃， As₂O₃， K₂O and Na₂O on the surface of the catalyst could be reduced to 0.09wt.%， 0.05wt.%， 0.02wt.% and 0.01wt.%， respectively. The activity of the catalyst could be recovered after the reloading of 1.5% V₂O₅. After loading 3wt.% CuO， the catalyst showed good catalytic activity at low temperatures. The NO_○x conversion rate of V₂O₅-CuO/TiO₂ at 220， 250， 280 and 310℃ was 62.4%， 82.2%， 90.8% and 95.5%， respectively.

Key words: deactivation, regeneration, modification, low load, V₂O₅-based catalyst

CLC Number:

TK16

SHANG Da， LI Bao-kuan. Regeneration-Modification of Deactivated V₂O₅-based Catalyst Used for Low Load Condition Denitration[J]. Journal of Northeastern University Natural Science, 2019, 40(6): 908-912.

References

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Regeneration-Modification of Deactivated V₂O₅-based Catalyst Used for Low Load Condition Denitration

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