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- Title
Synergistic Removal of NO<sub>x</sub> and VOCs from Flue Gas on Mn-Based Catalysts.
- Authors
Li, Mengtao; Wu, Na; Zhang, Qiao; Gong, Cairong; Xue, Gang
- Abstract
The elimination of these two pollutants is crucial since NOx and VOCs have recently been found to be the main atmospheric pollutants in solid material combustion procedures. The synergistic removal of pollutants within the denitrification zone of SCR suffered from narrow temperature window and low activity. In this study, co-precipitation was employed to create γ-Al2O3 doped Mn-based composite catalyst materials. The link between γ-Al2O3 addition and catalytic performance was explored using XRD, SEM, and other characterisation means. The results of the activity tests demonstrated that the MnCoAlOx-7% catalyst was more than 90% effective at denitrification over an extensive temperature spectrum (95–310 °C) and 90% effective for benzene conversion at 195 °C. In the synergistic elimination process, benzene promoted the NH3-SCR reaction, whereas NOx enhances benzene oxidation at low temperatures, inhibits it at middle and high temperatures, and has no effect at high temperatures. Reaction mechanism studies had shown that benzene facilitated the formation of amides from NH3 and promoted nitrites conversion to improve denitrification efficiency during synergistic removal; NOx reduced the intermediates produced by benzene oxidation at medium and high temperatures, leading to a decrease in benzene removal.
- Subjects
FLUE gases; LOW temperatures; CATALYSTS; HIGH temperatures; X-ray diffraction; NITROGEN removal (Water purification); DENITRIFICATION
- Publication
Catalysis Letters, 2024, Vol 154, Issue 7, p3516
- ISSN
1011-372X
- Publication type
Article
- DOI
10.1007/s10562-024-04585-2