| [1] | Prins W L, Nuninga Z L. Design and experience with catalytic reactor for SCR-DE-NOx[J]. Catal Today, 1993, 16: 187-205 |
| [2] | Benson S A, Laumb J D, Crocker C R, et al.SCR catalyst performance in flue gases derived from subbituminous and lignite coals[J]. Fuel Proeessing Teehnology, 2005, 86(5):577-613 |
| [3] | Zheng Y, Jensen A D, Johnsson J E. Laboratory investigation of selective catalytic reduction catalysts: Deactivation by potassium compounds and catalyst generation[J]. Ind Eng Chem Res, 2004, 43: 941-947 |
| [4] | Kamata H, Takahashi K, Odenbrand C U I. The role of K2O in the selective reduction of NO with NH3 over a V2O5(WO3)TiO2 commercial selective catalytic reduction catalyst[J]. Journal of Molecular Catalysis A: Chemical, 1999, 139(2/3): 189-198 |
| [5] | Zheng Y, Jensen A D, Johnsson J E. Deactivation of V2O5-WO3-TiO2 SCR catalyst at a biomass-fired combined heat and power plant[J]. Applied Catalysis B: Environmental, 2005, 60(3/4): 253-264 |
| [6] | Nicosia D, Czekaj I, Kröcher O. Chemical deactivation of V2O5/WO3-TiO2 SCR catalysts by additives and impurities from fuels, lubrication oils and urea solution, partⅡ. Characterization study of the effect of alkali and alkaline earth metals[J]. Applied Catalysis B:Environmental, 2008, 77(3/4):228-236 |
| [7] | 王静, 沈伯雄, 刘亭, 等. 钒钛基SCR催化剂中毒及再生研究进展[J]. 环境科学与技术, 2010, (9): 97-101 |
| [8] | Johannes Due-Hansen J, Kustov A L, Rasmussen S B, et al.Tungstated zirconia as promising carrier for De-NOx catalysts with improved resistance towards alkali poisoning[J].Applied Catalysis B: Environmental, 2006, 66(3/4): 161-167 |
| [9] | 崔力文, 宋浩, 吴卫红, 等.电站失活 SCR 催化剂再生试验研究[J].能源工程, 2012, (3): 43-46, 54 |
| [10] | Kijlstra W S, Brands D S, Poels E K, et al. Mechanism of the selective catalytic reduction of NO by NH3 over MnO<em>x/Al2O3 I.adsorption and desorption of the single reaction components[J]. Journal of Catalysis, 1997, 171:208-218 |
| [11] | Wu Z B, Jiang B Q, Liu Y, et al. DRIFT study of manganese/titania-based catalysts for low-temperature selective catalytic reduction of NO with NH3[J]. Environ SciTechnol, 2007, 41: 5812-5817 |
| [12] | Malpartidaa I, Mariea O, Bazin P. The NO/NOx ratio effect on the NH3-SCR efficiency of a commercial automotive Fe-zeolite catalyst studied by operando IR-MS[J]. Applied Catalysis B: Environmental, 2012, 113-114: 52-60 |
| [13] | Sanchez-Escribano V, Montanari T, Busca G. Low temperature selective catalytic reduction of NOx by ammonia over H-ZSM-5: An IR study[J]. Applied Catalysis B: Environmental, 2005, 58: 19-23 |
| [14] | Zawadzki J, Wisniewski M. Carbon films as a model material in catalytic NH3/O2 reaction—in situ FTIR study[J]. Fuel Processing Technology 2002, 77-78: 389-394 |
| [15] | Khodayari R. Regeneration of commercial SCR catalysts by washing and sulphation: Effect of sulphate groups on the activity[J].Applied Catalysis B, 2001, 33 (1): 277-291 |
| [16] | Liu J, Zhao Z, Wang J Q, et al. The highly active catalysts of nanometric CeO2-supported cobalt oxides for soot combustion[J]. Applied Catalysis B, 2008, 84, 185. doi: 10.1016/j.apcatb.2008.03.017 |
| [17] | Boudali L K, Ghorbel A, Grange P. Characterization and reactivity of WO3-V2O5 supported on sulfated titanium pillared clay catalysts for the SCR-NO reaction[J].Comptes Rendus Chimmie, 2009, 6-7(12):779-786 |
| [18] | 沈伯雄, 熊丽仙, 刘亭, 等.纳米负载型V2O5-WO3/TiO2催化剂碱中毒及再生研究[J].燃料化学学报, 2010, 38(1):85-89 |
| [19] | Zheng Y J, Jensen A D. Deactivation of V2O5-WO3-TiO2 SCR catalyst at biomass fired power plants: Elucidation of mechanisms by lab and Pilot scale experiments[J]. Applied Catalysis B, 2008, 83 (3/4): 186-194 |