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Chemical deactivation of V2Os-WO3/Ti02 SCR catalyst by combined effect of potassium and chloride 被引量:10

Chemical deactivation of V2Os-WO3/Ti02 SCR catalyst by combined effect of potassium and chloride
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摘要 V2O5-WO3/WiO2 catalyst was poisoned by impregnation with NHaC1, KOH and KC1 solution, respectively. The catalysts were characterized by X-ray diffraction (XRD), inductively coupled plasma (ICP), N2 physisorption, Raman, UV-vis, NH3 adsorption, temperature-programmed reduction of hydrogen (H2- TPR), temperature-programmed oxidation of ammonia (NH3-TPO) and selective catalytic reduction of NOx with ammonia (NH3-SCR). The deactivation effects of poison- ing agents follow the sequence of KC1 〉 KOH 〉〉 NH4CI. The addition of ammonia chloride enlarges the pore size of the titania support, and promotes the formation of highly dispersed V = O vanadyl which improves the oxidation of ammonia and the high-temperature SCR activity. K~ ions are suggested to interact with vanadium and tungsten species chemically, resulting in a poor redox property of catalyst. More importantly, potassium can reduce the Bronsted acidity of catalysts and decrease the stability of Bronsted acid sites significantly. The more severe deactivation of the KCl-treated catalyst can be mainly ascribed to the higher amount of potassium resided on catalyst. V2O5-WO3/WiO2 catalyst was poisoned by impregnation with NHaC1, KOH and KC1 solution, respectively. The catalysts were characterized by X-ray diffraction (XRD), inductively coupled plasma (ICP), N2 physisorption, Raman, UV-vis, NH3 adsorption, temperature-programmed reduction of hydrogen (H2- TPR), temperature-programmed oxidation of ammonia (NH3-TPO) and selective catalytic reduction of NOx with ammonia (NH3-SCR). The deactivation effects of poison- ing agents follow the sequence of KC1 〉 KOH 〉〉 NH4CI. The addition of ammonia chloride enlarges the pore size of the titania support, and promotes the formation of highly dispersed V = O vanadyl which improves the oxidation of ammonia and the high-temperature SCR activity. K~ ions are suggested to interact with vanadium and tungsten species chemically, resulting in a poor redox property of catalyst. More importantly, potassium can reduce the Bronsted acidity of catalysts and decrease the stability of Bronsted acid sites significantly. The more severe deactivation of the KCl-treated catalyst can be mainly ascribed to the higher amount of potassium resided on catalyst.
作者 Xiaodong WU Wenchao YU Zhichun SI Duan WENG
机构地区 State Key Laboratory of New Ceramics & Fine Process Advanced Materials Institute Yangtze Delta Region Institute of Tsinghua University
出处 《Frontiers of Environmental Science & Engineering》 SCIE EI CAS CSCD 2013年第3期420-427,共8页 环境科学与工程前沿(英文)
关键词 V2Os-WO3/TiO2 potassium chloride poison-ing REDUCIBILITY acid sites V2Os-WO3/TiO2, potassium chloride, poison-ing, reducibility, acid sites
分类号 O645.14 [理学—物理化学] TQ226.61 [理学—化学]
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参考文献21

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Frontiers of Environmental Science & Engineering
2013年 第3期

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