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以ZrO_2为载体的金属氧化物催化剂对NO还原性能的研究 被引量:1

A STUDY OF SELECTIVE CATALYTIC REDUCTION OF NO BY CATALYSTS OF METAL OXIDES SUPPORTED BY ZIRCONIUM OXIDE
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摘要 研究了负载于氧化锆载体上的多种金属氧化物在富氧条件下,以丙烯为还原剂,选择性还原NO的活性,考察了CuO和Ag的负载量与活性关系,CuO和Ag单独负载与共同负载时的催化性能,以及氧气浓度对催化剂活性影响.结果表明:在CuO,MgO,La2O3,CoO,Fe2O3,MoO3和WO3等七种金属氧化物中,CuO活性最好,NO转化率为47.5%,加入活性组分银可明显提高催化剂的NO还原能力,转化率提高到61%.单独负载银时,催化剂活性较差,NO转化率仅为22.1%.在对氧气浓度的考察中,确定在0.4%NO,0.4%C3H6的反应气中,氧气的最佳含量为2%. The catalytic activities of a series of metal oxides supported by zirconium oxide for selective catalytic reduction (SCR) of NO with propene as a reductant in the condition of oxygen-rich were investigated. The relationship of catalytic activity with load amount of CuO and Ag, the catalytic capacity of single-loaded and joint-loaded of CuO and Ag , and the influence of oxygen concentrations on the catalytic activity were examined. The results indicated that among CuO, MgO, La2O3, CoO, Fe2O3, MoO3 and WO3, CuO has the best activity with the conversion rate of 47.5%, and the ability would obviously improve to the conversion rate of 61%, if Ag as an active component was added. But when Ag was single loaded the activity would be poor with a conversion rate only 22. 1%. For the examination of the oxygen concentration, it was showed that the best content of oxygen was 2% in the reaction gas with 0.4% of NO and 0.4% C3H6.
作者 刘丽燕 田英 任德敏
机构地区 哈尔滨师范大学化学系
出处 《环境化学》 CAS CSCD 北大核心 2007年第5期574-577,共4页 Environmental Chemistry
基金 黑龙江省教育厅科学技术研究项目(11511117)
关键词 一氧化氮 丙烯 选择性催化还原 氧化铜 氧化锆 nitrogen oxide, propene, selective catalytic reduction, copper oxide, zirconium oxide, silver.
分类号 X132 [环境科学与工程—环境科学]
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  • 1崔翔宇,郝吉明,傅立新,李俊华,朱天乐,刘志明.富氧条件下Ag、Co和Cu/Al_2O_3选择性催化还原NO的研究[J].环境科学,2004,25(4):18-22. 被引量:9
  • 2毛东森,卢立义.环氧乙烷银催化剂研究的新进展[J].石油化工,1995,24(11):821-825. 被引量:9
  • 3[1]Amiridis M D, Zhang T J, Farrauto R J. Selective catalytic reduction of nitric oxide by hydrocarbons [J]. Appl. Catal. B, 1996, 10(1): 203~227.
  • 4[2]Fritz A, Pitchon V. The current state of research on automotive lean NOx catalysis [J]. Appl. Catal. B, 1997, 13(1): 1~25.
  • 5[3]Parvulescua V I, Grangeb P, Delmonb B. Catalytic removal of NO [J]. Catal. Today, 1998, 46(1~2): 233~316.
  • 6[4]Burch R, Breen J P, Meunier F C. A review of the selective reduction of NOx with hydrocarbons under lean-burn conditions with non-zeolitic oxide and platinum group metal catalysts [J]. Appl. Catal. B, 2002, 39 (2): 283~03.
  • 7[5]Lin Y S, Chang C H, Gopalan R. Improvement of thermal stability of porous nanostructured ceramic membrances [J]. Industry Eng. Cera. Res., 1994, 33(4):860~870.
  • 8[6]Akama H, Matsushita K. Recent lean NOx catalyst technologies for automobile exhaust control [J]. Catal. Surveys from Japan, 1999, 3(1): 139~146.
  • 9[7]Miyadera T. Alumina-supported silver catalysts for the selective reduction of nitric oxide with propene and oxygen-containing organic compounds [J]. Appl. Catal. B, 1993, 2(2~3): 199~205.
  • 10[8]Miyadera T. Selective reduction of nitric oxide with ethanol over an alumina-supported silver catalyst [J]. Appl. Catal. B, 13(1): 157~165.

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环境化学
2007年 第5期

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