Selective catalytic NO_x reduction on Antimony promoted V_2O_5-Sb/TiO_2 catalyst 被引量：3

Selective catalytic NO_x reduction on Antimony promoted V_2O_5-Sb/TiO_2 catalyst

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摘要 Quantum chemical calculation was carried out to choose a promoter which can reduce the poisoning of V2O5/TiO2 catalysts by SO2. Several atoms were chosen as candidates and new catalysts were synthesized by impregnation method. The NOx conversion rate was measured at temperatures between 100 and 400 ℃ and poisoning effect was investigated. The most promising candidate promoter, Se, was excluded because of its high vapor pressure. On the other hand, Sb shows best promoting properties. Sb promoted catalyst reaches the maximum NOx conversion rate at 250 ℃. It also shows considerably enhanced resistance to poisoning of V2O5/TiO2 catalysts by SO2. Quantum chemical calculation was carried out to choose a promoter which can reduce the poisoning of V2O5/TiO2 catalysts by SO2. Several atoms were chosen as candidates and new catalysts were synthesized by impregnation method. The NOx conversion rate was measured at temperatures between 100 and 400 ℃ and poisoning effect was investigated. The most promising candidate promoter, Se, was excluded because of its high vapor pressure. On the other hand, Sb shows best promoting properties. Sb promoted catalyst reaches the maximum NOx conversion rate at 250 ℃. It also shows considerably enhanced resistance to poisoning of V2O5/TiO2 catalysts by SO2.

作者 HA Heon Phil CHUNG Soon Hyo OH Young Joo

机构地区 Metal Processing Research Center

出处《Rare Metals》 SCIE EI CAS CSCD 2006年第z2期84-88,共5页 稀有金属（英文版）

基金 This research was supportedby a grant fromKorea Institute of Science and Technology(2E19500).

关键词 De NOx selective catalytic reduction SO2 poisoning low temperature activity De NOx selective catalytic reduction SO2 poisoning low temperature activity

分类号 O643.36 [理学—物理化学]

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1[1]Nozaki F.,Yamajaki K.,and Inomata T.,Low temperature activity of the copper oxide catalyst supported on activated carbon for reduction of nitric oxide with ammonia.Chem.Letters,1977.521.
2[2]Singoredjo L.,Slagt M.,Wees J.V.,et al.,Selective catalytic reduction of NO with NH3 over carbon supported copper catalysts.Catalysis Today,1990,7:157.
3[3]Singoredjo L.,Korver R.,Kapteijn F.,et al.,Alumina supported manganese oxides for the low temperature selective catalytic reduction of nitric oxide with ammonia.Applied Catalysis B,1992,Environmental 1:297.
4[4]Zhu Z.,Niu H.,Liu Z.,et al.,Decomposition and reactivity of NH4HSO4 on V2O5/AC catalysts used for NO reduction with ammonia.J.Catalysis,2000,195:268.
5[5]Zhu Z.,Liu Z.,Liu S.,et al.,Catalytic NO reduction with ammonia at low temperatures on V2O5/AC catalysts:effect of metal oxides addition and SO2.Applied Catalysis B,2001,30:269.
6[6]Najbar M.,Broclawik E.,Gora A.,et al.,Evolution of the surface species of the V2O5-WO3 catalysts.Chem.Phys.Letters,2000,325:330.
7[7]Madia G.,Elsener M.,Koebel M.,et al.,Thermal stability of vanadia-tungsten-titania catalysts in the SCR process.Applied Catalysis B,2002,Environmental 39:181.

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2张海,吕俊复,徐秀清,曾瑞良,岳光溪.我国燃煤电站锅炉NO_x排放的现状分析和应对措施[J].动力工程,2005,25(1):125-130. 被引量：33
3张鹏,姚强.用于选择性催化还原法烟气脱硝的催化剂[J].煤炭转化,2005,28(2):18-24. 被引量：41
4胡永锋,白永锋.SCR法烟气脱硝技术在火电厂的应用[J].节能技术,2007,25(2):152-156. 被引量：63
5魏青,许保恩,董敬华,武戈,张萍.纳米级SO_4^(2-)/TiO_2固体超强酸比表面积的研究[J].石家庄学院学报,2007,9(3):11-15. 被引量：2
6吴碧君,刘晓勤,肖萍,王述刚.Mn-Fe/TiO_2低温NH_3选择性还原NO催化活性及其反应机制[J].中国电机工程学报,2007,27(17):51-56. 被引量：32
7朱崇兵,金保升,李锋,仲兆平,翟俊霞,陈玲霞.蜂窝状V_2O_5-WO_3/TiO_2催化剂脱硝性能研究[J].中国电机工程学报,2007,27(29):45-50. 被引量：46
8Luis J Alemany, Luca Lietti, Natale Ferlazzo, Pio Forzatti, Guido Busca, Elio Giamello, Fiorenzo Bregani. Reactivity and physicochemical characterization o{ V205 WO/TiO2 De-NO. catalysts [J . Journal of Catalysis, 1995, 155 (1): 117 130.
9Goutam Deo, Israel E Wachs. Reactivity of supported vanadium oxide catalysts: the partial oxidation of methanol [ J ]. Journal of Catalysis, 1994, 146 (2): 323 334.
10Goutam Deo, Israel E Wachs. Effect of additives on the structure and reactivity of the surface vanadium oxide phase in VeO/TiO2 catalysts [ J ]. Journal of Catalysis, 1994, 146 (2): 335-345.

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1HA Heon Phil,JUNG Soon Hyo,LEE Jun Yub,HONG Sung Ho.Study on SCR De NO_x mechanism through in situ electrical conductivity measurements on V_2O_5-WO_3/TiO_2 catalysts[J].Rare Metals,2006,25(z2):77-83. 被引量：3
2Li, Fang, He, Yedong, Qi, Huibin, Huang, Zhenzhong, Zhu, Rizhang.FeMoAl COATING AND ITS HIGHTEMPERATURE SULFIDATION PROPERTIES[J].中国有色金属学会会刊：英文版,1997,7(2):119-123.
3祝以湘,胡云行.Characteristics　on　Cerium　Promoted　Iron　Based　Catalyst　forDehydrogenation　Ethylbenzene　to　Styrene[J].Journal of Rare Earths,1996,14(2):81-87. 被引量：1
4Yuan, G.Y., Sun, Y.S., Zhang, W.M., Bao, Y.H..TENSILE PROPERTIES AND CREEP RESISTANCE OF AZ91 ALLOY CONTAINING ANTIMONY[J].Acta Metallurgica Sinica(English Letters),2000,13(3):867-871. 被引量：2
5李铭岫,杨述韬,刘翠格,王心葵,张志新,周敬来.Effect　of　Rare　Earth　Additives　on　the　Catalytic　Property　ofVanadium－Phosphorus　Catalyst[J].Journal of Rare Earths,1996,14(2):115-120.
6郭学锋,刘勇长,杨根仓,邢建东.Undercooling heredity of Cu_(70)Ni_(30) melt solidified in non-catalytic nucleation coated mould[J].中国有色金属学会会刊：英文版,2000,10(4):481-484.
7吴伟辉,杨永强,黄延禄.Direct manufacturing of Cu-based alloy parts by selective laser melting[J].Chinese Optics Letters,2007,5(1):37-40. 被引量：10
8Rajagopalan P K and Krishnan T S Material Processing Division, Bhabha Atomic Research Centre, Mumbai 400 085, India.Studies on Acid Leaching Methods for Fine Metal Powder Production[J].Rare Metals,1998,17(3):44-47.
9ACTIVATION MECHANISM OF AMORPHOUS Ni_(63)Zr_(32)La_5 ALLOY HYDROGENATION CATALYST[J].Acta Metallurgica Sinica(English Letters),1996,9(4):291-297.
10罗孟飞,朱波,袁贤鑫.Effect　of　CeO_2　on　Crystal　Structures　and　Catalytic　Properties　of　the　Mn_2O_3　Catalysts[J].Journal of Rare Earths,1994,12(4):259-263.

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Selective catalytic NO_x reduction on Antimony promoted V_2O_5-Sb/TiO_2 catalyst 被引量：3

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