标题：Promotional effect of Mo addition on CoOX/Ti-Ce catalyst for oxidation removal of elemental mercury in flue gas
作者： Li, HH (Li, Honghu); Wang, Y (Wang, Yuan); Wang, SK (Wang, Shengkai); Wang, X (Wang, Xu); Hu, JJ (Hu, Jiangjun)
来源出版物：FUEL卷：224页码: 424-433 DOI：10.1016/j.fuel.2018.03.122 出版年： JUL 15 2018
摘要：To enhance the catalytic activity for elemental mercury (HgO) oxidation and SO2 resistance of catalyst, Mo was applied to modify the CoOX/Ti-Ce (Co/TiCe) catalyst for better performance. The results showed that CoMo5/TiCe had the highest activity for HgO oxidation in the wide temperature window of 100-400 degrees C in the presence of 10 ppm HCl and 6% O-2. NO exhibited insignificant effect on HgO oxidation. SO2 and H2O were found to inhibit Hg-0 oxidation. Hg-0 oxidation by HCl over CoMo5/TiCe catalyst mainly occurred through the Eley-Rideal mechanism, where gas-phase or weakly-bonded HgO reacted with surface chlorine species originated from adsorbed HCl to form Hg2+. SO2 could obstruct the generation of surface active chlorine species, thus inhibiting Hg-0 oxidation. Compared with Co/TiCe, CoMo5/TiCe showed better resistance to SO2 and H2O for HgO oxidation. In the presence of 200 ppm SO2, CoMo5/TiCe achieved Hg-0 oxidation efficiency of 96.1% and a simultaneous NO conversion efficiency of 42.9% at 300 degrees C, showing better performance than Co/TiCe. The physicochemical properties of the catalysts were examined by BET, XRD, Ranman spectroscopy, H-2-TPR, XPS and EDS techniques to reveal the effect of Mo addition on the catalytic performances. It was found that an interaction of Mo with Co promoted the dispersion of Co3O4, increased the Co2+ and O-alpha concentration and enhanced the reducibility of catalyst, which contributed to the improvement of Hg-0 oxidation activity. Moreover, the SO2 resistance of catalyst was enhanced by suppressing the reaction between the catalyst and SO2 due to Mo addition.
作者关键词：Mo modified CoOX/Ti-Ce; Elemental mercury; Catalytic oxidation; Flue gas; Molybdenum effect
扩展关键词： MANGANESE OXIDE/TITANIA MATERIALS; FIRED POWER-PLANTS; LOW-TEMPERATURE; ACTIVATED CARBON; EMISSIONS CONTROL; SULFUR-OXIDES; SCR PROCESS; CO-BENEFIT; NO; HG-0
通讯作者地址：Hu, JJ (reprint author), Wuhan Univ, Sch Resource & Environm Sci, Wuhan 430079, Hubei, Peoples R China.
地址： [Li, Honghu; Wang, Yuan; Wang, Shengkai; Wang, Xu; Hu, Jiangjun] Wuhan Univ, Sch Resource & Environm Sci, Wuhan 430079, Hubei, Peoples R China.
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