A series of phosphorylation and blank CeSn_(0.8)W_(0.6)O_x/TiAl_(0.2)Si_(0.1)O_y catalysts prepared by extrusion molding were tested for NH_3-SCR of NO, and were characterized by techniques of X-ray diffractio...A series of phosphorylation and blank CeSn_(0.8)W_(0.6)O_x/TiAl_(0.2)Si_(0.1)O_y catalysts prepared by extrusion molding were tested for NH_3-SCR of NO, and were characterized by techniques of X-ray diffraction(XRD), Brumauer-Emmett-Teller(N_2-BET), environmental scanning electron microscope(ESEM), temperature programmed reduction(H_2-TPR) and temperature programmed desorption(NH_3-TPD). Effects of phosphorylation on catalytic activity and sulfur-resisting performance of the CeSn_(0.8)W_(0.6)O_x/TiAl_(0.2)Si_(0.1)O_y for NH_3-SCR of NO were mainly studied. Results showed that the phosphorylation improved the catalytic activity and sulfur-resisting performance in an active temperature window of 300–440 °C, and the phosphorylation catalyst with 0.4 wt.% H_3PO_4 exhibited the best catalytic performance and the strongest sulfur-resisting performance. Analysis showed that the phosphorylation increased specific surface area, enhanced the surface acidity and improved redox properties.展开更多
基金Project supported by the National Natural Science Foundation of China(51272105)Jiangsu Provincial Science and Technology Supporting Program(BE2013718)+1 种基金Research Subject of Environmental Protection Department of Jiangsu Province of China(2013006)the Priority Academic Program Development of Jiangsu Higher Education Institutions(PAPD)
文摘A series of phosphorylation and blank CeSn_(0.8)W_(0.6)O_x/TiAl_(0.2)Si_(0.1)O_y catalysts prepared by extrusion molding were tested for NH_3-SCR of NO, and were characterized by techniques of X-ray diffraction(XRD), Brumauer-Emmett-Teller(N_2-BET), environmental scanning electron microscope(ESEM), temperature programmed reduction(H_2-TPR) and temperature programmed desorption(NH_3-TPD). Effects of phosphorylation on catalytic activity and sulfur-resisting performance of the CeSn_(0.8)W_(0.6)O_x/TiAl_(0.2)Si_(0.1)O_y for NH_3-SCR of NO were mainly studied. Results showed that the phosphorylation improved the catalytic activity and sulfur-resisting performance in an active temperature window of 300–440 °C, and the phosphorylation catalyst with 0.4 wt.% H_3PO_4 exhibited the best catalytic performance and the strongest sulfur-resisting performance. Analysis showed that the phosphorylation increased specific surface area, enhanced the surface acidity and improved redox properties.
