期刊
ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
卷 27, 期 32, 页码 40495-40503出版社
SPRINGER HEIDELBERG
DOI: 10.1007/s11356-020-10052-3
关键词
ZSM-5; Ce-Mo co-doped; Different synthetic methods; NH3-SCR
资金
- National Natural Science Foundation of China [51708309]
- Natural Science Foundation of Heilongjiang Province [QC2017065]
- Heilongjiang Education Department's Specialized Subject of Plant Food Processing Technology [YSTSXK201872, YSTSXK201866]
- China Postdoctoral Science Foundation [2017M621235]
- Postdoctoral Science Foundation of Heilongjiang Province [LBH-Z17034]
- Young Talents Project of Northeast Agricultural University [17Q26]
The Ce-doped different MoO3[conventional molybdenum oxide (con-MoO3) or nano molybdenum oxide (nano-MoO3) and synthetic molybdenum oxide (syn-MoO3)] modification of ZSM-5 catalyst synthesized by different preparation methods (the combination of grinding and ion-exchange method and the combination of impregnation and ion-exchange method) was studied on selective catalytic reduction (SCR) of NO(x)with NH3. The results demonstrated that the SCR performance of the prepared Ce-doped syn-MoO(3)modification of ZSM-5 catalyst [Ce(0.9%)-syn-MoO3(6%)/ZSM-5] by the combination of impregnation and ion-exchange method was better than Ce-doped con-MoO(3)modification of ZSM-5 [Ce(0.9%)-con-MoO3(6%)/ZSM-5] and Ce-doped nano-MoO(3)modification of ZSM-5 [Ce(0.9%)-nano-MoO3(6%)/ZSM-5] via the combination of grinding and ion-exchange method, especially when the temperature window is 200-350 degrees C. That is because it is easy to form Mo-O-Al by the smaller sized MoO(3)more easily interacting well with Bronsted acid under calcining temperature, which results in the decrease of Bronsted acid sites in the catalyst. Combing with the binding energy of Mo for all the catalysts, the combination of Mo and Al (Mo-O-Al) altered the chemical environment around the Mo species. Furthermore, Ce(0.9%)-syn-MoO3(6%)/ZSM-5 exhibited excellent sulfur resistance.
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