期刊
APPLIED CATALYSIS A-GENERAL
卷 365, 期 2, 页码 187-193出版社
ELSEVIER
DOI: 10.1016/j.apcata.2009.06.008
关键词
NOx storage and reduction; Selective catalytic reduction; Ammonia; Pt-Rh; Ba; Ag; Cu; Co; Alumina; Reduction time; NCO
资金
- Advanced Industrial Science and Technology (AIST)
Mixtures of equal amounts of a Pt-Rh/Ba/Al2O3 NOx storage reduction (NSR) model catalyst and Ag/Al2O3, Co/Al2O3 or Cu/ZSM-5 selective catalytic reduction (SCR) model catalyst were evaluated for the NOx removal activity under lean-rich atmosphere. NOx removal activity was increased by adding Co/Al2O3 or Cu/ZSM-5 to Pt-Rh/Ba/Al2O3 while adding Ag/Al2O3 had no significant influence. Experiments performed by using two catalytic beds (upstream Pt-Rh/Ba/Al2O3 and downstream Co/Al2O3 or Cu/ZSM-5) suggested that both SCR catalysts are able to reduce NOx with the NH3 produced during the rich step on Pt-Rh/Ba/Al2O3. Among the studied catalysts, the Pt-RhBa/Al2O3 + Cu/ZSM-5 physically mixed one showed the highest activity. This catalyst mixture presented an improved performance, as compared to the NSR catalyst, regardless of the reductant used (CO and/or H-2) or of the reduction time (10, 5 or 2.5 s). The highest activity was obtained by using both CO and H-2 as reductant during the rich pulse. The addition of water in the inlet gas led to a decrease of the NOx removal activity of the catalyst mixture. Nevertheless, the NOx removal activity of the mixed Pt-RhBa/Al2O3 + Cu/ZSM-5 catalyst was still significantly higher than that of Pt-RhBa/Al2O3. (C) 2009 Elsevier B.V. All rights reserved.
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