高温脱硝除尘一体化材料的制备任务书

 2021-10-20 19:21:12

1. 毕业设计(论文)的内容和要求

毕业论文内容从三个方面展开。

一,不同掺杂元素对铁钛复合金属氧化物催化剂脱硝性能的影响,二,负载量和表面过滤速度对样品脱硝效率的影响。

最后,对样品进行耐水耐硫性能测试。

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2. 参考文献

[1]S. Luque, D. Gmez, J.R. lvarez, Industrial applications of porous ceramic membranes (pressure‐driven processes)[J]. Membr. Sci. Technol. 2008, 13:177216.[2]于超, 李长明, 张喻升, 郭凤, 余剑, 杨运泉, 许光文. 典型陶瓷基体对催化滤芯中催化剂分散及脱硝活性的影响[J]. 化工学报, 2018, 69(02): 682-689.[3]张喻升, 李长明, 曾红, 于超, 余剑, 杨运泉, 许光文, 高士秋. 钒钨钛/堇青石基烟气脱硝催化陶瓷滤芯的研制[J]. 过程工程学报, 2017, 17(06): 1249-1256.[4]Schtt M, Gallinger M, Moos R. Particulate filter substrates with SCR-functionality manufactured by co-extrusion of ceramic substrate and SCR active material[J]. Topics in Catalysis, 2015, 198(2): 1-5. [5]Choi J H, Kim S K, Ha S J, et al. The preparation of V2O5/TiO2 catalyst supported on the ceramic filter candle for selective reduction of NO[J]. Korean Journal of Chemical Engineering, 2001, 18(4): 456-462. [6]Choi J H, Kim S K, Bak Y C. The reactivity of V2O5-WO3-TiO2 catalyst supported on a ceramic filter candle or selective reduction of NO[J]. Korean Journal of ChemicalEngineering, 2001, 18(5): 719-724. [7]Choi J H, Kim J H, Bak Y C, et al. Pt-V2O5-WO3-TiO2 catalysts supported on Si C filter for NO reduction at low temperature[J]. Korean Journal of Chemical Engineering, 2005, 22(6): 844-851. [8]Kim Y A, Choi J H, Scott J, et al. Preparation of high porous Pt-V2O5-WO3/Ti O2/SiC filter for simultaneous removal of NO and particulates[J]. Powder Technology, 2008, 180(1): 79-85. [9]Nacken M, Heidenreich S, Hackel M, et al. Catalytic activation of ceramic filter elements for combined particle separation, NOx removal and VOC total oxidation[J]. Applied Catalysis B: Environmental, 2007, 70(1): 370-376. [10]Zuercher S, Pabst K, Schaub G. Ceramic foams as structured catalyst inserts in gas-particle filters for gas reactionsEffect of back mixing[J]. Applied Catalysis A: General, 2009, 357(1): 85-92 [11]Heidenreich S, Nacken M, Hackel M, et al. Catalytic filter elements for combined particle separation and nitrogen oxides removal from gas streams[J]. Powder Technology, 2008, 180(1): 86-90. [12]安振, 牛国平, 谭增强, 尚桐, 杨晓刚. 陶瓷催化过滤器制备及其脱硝性能研究[J]. 热力发电, 2017, 46(02): 36-41.[13]Haidi Xu, Yun Wang, Yi Cao, Zhitao Fang. Catalytic performance of acidic zirconium-based composite oxides monolithic catalyst on selective catalytic reduction of NOx with NH3[J]. Chemical Engineering Journal 2014, 240: 6273.[14]Fudong Liu, Hong He. Selective catalytic reduction of NO with NH3 over manganese substituted iron titanate catalyst: Reaction mechanism and H2O/SO2 inhibition mechanism study[J]. Catalysis Today 2010, 153: 7076. [15]Fudong Liu, Kiyotaka Asakura, Hong He. Influence of sulfation on iron titanate catalyst for the selective catalytic reduction of NOx with NH3[J]. Applied Catalysis B: Environmental 2011, 103: 369377.[16]Xiang Li, Junhua Li, Yue Peng, Tao Zhang. Selective catalytic reduction of NO with NH3 over novel irontungsten mixed oxide catalyst in a broad temperature range[J]. Catal. Sci. Technol., 2015, 5: 45564564.[17]Dong Ye, Xiaoyu Ren, Ruiyang Qu, Shaojun Liu. Designing SO2-resistant cerium-based catalyst by modifying with Fe2O3 for the selective catalytic reduction of NO with NH3[J]. Molecular Catalysis 2019, 462: 1018. [18]M.Knig, K.Eisinger, I.Hartmann, M.Mller. Combined removal of particulate matter and nitrogen oxides from the exhaust gas of small-scale biomass combustion[J]. Biomass Conversion and Biorefinery 2019, 9: 201212.[19]M.Schutt, M.Gallinger, R.Moos. Particulate Filter Substrates with SCR-Functionality Manufactured by Co-extrusion of Ceramic Substrate and SCR Active Material[J]. Top Catal 2017, 60: 204208.[20]Lupeng Han, Sixiang Cai, Min GaoJun-ya, Hasegawa. Selective Catalytic Reduction of NOx with NH3 by Using Novel Catalysts: State of the Art and Future Prospects[J]. Chem. Rev. 2019, 119(19): 10916-10976.

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