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[1]杨赛兰,钟昕,秦帆,等.氮氧化物的催化还原研究与展望[J].武汉工程大学学报,2012,(2):6-13.
 YANG Sai\|lan,ZHONG Xin,QIN Fan,et al.Research progress and prospects in catalytic reduction of nitrogen oxides[J].Journal of Wuhan Institute of Technology,2012,(2):6-13.
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氮氧化物的催化还原研究与展望(/HTML)
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《武汉工程大学学报》[ISSN:1674-2869/CN:42-1779/TQ]

卷:
期数:
2012年2期
页码:
6-13
栏目:
化学与化学工程
出版日期:
2012-03-10

文章信息/Info

Title:
Research progress and prospects in catalytic reduction of nitrogen oxides
文章编号:
16742869(2012)2000608
作者:
杨赛兰钟昕秦帆陈嵘*
武汉工程大学绿色化工过程省部共建教育部重点实验室,
湖北省新型反应器与绿色化学工艺重点实验室,湖北 武汉 430074
Author(s):
YANG Sai\|lanZHONG XinQIN FanCHEN Rong
Key Laboratory for Green Chemical Process of Ministry of Education and Hubei Key Laboratory of Novel
Reactor and Green Chemical Technology,Wuhan Institute of Technology,Wuhan 430074,China
关键词:
氮氧化物催化还原氧化铋金属纳米复合材料
Keywords:
 nitrogen oxidescatalytic reductionbismuth oxidemetalnanocomposites
分类号:
TB383;O613.3
DOI:
-
文献标志码:
AAdoi:103969/jissn1674286920122002
摘要:
综述了传统催化剂和一些新型复合型催化剂在氮氧化物催化还原方面的研究进展,并展望以氧化铋纳米材料为载体,通过不同方法将金属(Ag、Au、Pt、Pd和Rh等)纳米颗粒负载在氧化铋材料上形成金属\|氧化铋纳米复合材料用于NOX的催化还原.利用氧化铋晶体结构中较多的氧空位以及金属纳米颗粒的高催化活性的特点提高复合材料对NOX的催化活性,并降低催化剂成本.期望通过考察复合材料的不同组分、金属负载量、反应温度以及还原剂种类对NOX催化还原效果的影响,寻求具有最佳催化活性的金属\|氧化铋复合材料,为进一步的工业化应用奠定基础.
Abstract:
The research progress in catalytic reduction of nitrogen oxides (NOX) by different kinds of catalysts,including metal,metal oxide and composited catalysts was summarized.Metal\|bismuth oxide nanocomposites were also proposed to be obtained by doping novel metal nanoparticles such as Ag,Au,Pt,Pd and Rh on Bi2O3 nanomaterials,and applied for NOX reduction.The large quantities of the oxygen vacancies in Bi2O3 crystal structure and the high catalytic activity of metal nanoparticles would benefit to improve the catalytic activity of Bi2O3 on NOX reduction and reduce the cost of catalyst.To seek for the best metal\|Bi2O3 nanocomposite with highest catalytic activity and great potential applications in industry,the effect of different components of composited materials,metal loading amount,reaction temperature and the kinds of reducing agents on the performance of NOX reduction were also investigated.

参考文献/References:

[1]吕君英,龚凡,郭亚平.选择性催化还原NOX的反应机理研究[J].工业催化,2006,14(1):40-45.
[2]刘坚,赵震,徐春明.利用烃类作还原剂选择性催化还原NOX的催化剂[J].化学通报,2005,68:1-8.
[3]包信和,宗保宁,腾加伟,等.银催化剂用于氮氧化物的还原和分解[J].中国科学:B缉,1999,29(2):118-128.
[4]贺泓,张润铎,余运波,等.富氧条件下氮氧化物的选择性催化还原Ⅰ. Ag/Al2O3催化剂上C3H6选择性催化还原NO的性能[J].催化学报,2003,24(10):788-794.
[5]Xie S,Wang J,He H.Poisoning effect of sulphate on the selective catalytic reduction of NOX by C3H6 over Ag\|Pd/Al2O3[J].J Mol Catal A,2007,266:166-172.
[6]Chen Z,Li X,Wang L.Selective Catalytic Reduction of NOX with NH3 on a Cr\|Mn Mixed Oxide at Low Temperature[J].Chin J Catal,2009,30(1):4-6.
[7]Yang D,Li J,Song C.Selective Catalytic Reduction of NOX with CH4 over the In/Sulfated TiO2 Catalyst[J].Catal Lett,2008,122:138-143.
[8]武斌,黄妍,郑毅,等.SO2对Mn\|Cu\|Ce/TiO2低温选择催化还原NO的影响[J].环境科学学报,2008,28(5):960-964.
[9]孙红,全燮,张耀斌,等.Pd/CeZr/TiO2/Al2O3蜂窝状金属丝网催化剂选择催化还原NOX[J].环境科学,2008,29(6):1743-1748.
[10]万颖,马建新,王正,等.O2在Cu\|Al\|MCM\|41上NO选择性还原反应中的作用[J].复旦学报:自然科学版,2003,42(3):449-452.
[11]刘清雅,刘振宇,李成岳.NH3在选择催化还原NO过程中的吸附与活化[J].催化学报,2006,27(7):636-646.
[12]韩灵翠,任攀杰,李哲,等.Mo/ZSM\|5催化剂上NO催化还原反应机理与动力学研究[J].分子催化,2008,22(3):254-259.
[13]黄修国,李彩亭,路培,等.CuMn\|ZSM\|5在NH3选择催化还原NO反应中的催化活性[J].中南大学学报:自然科学版,2010,41(5):2034-2038.
[14]陈燕,李彩亭,曾光明,等.Ce2Fe/ACF催化剂低温选择性催化还原NO的研究[J].环境工程学报,2010,4(3):625-628.
[15]马倩,胡将军,李闯,等.CeO2\|CoO/ACF低温SCR烟气脱氮性能的研究[J].环境工程学报,2010,4(4):899-903.
[16]唐晓龙,郝吉明,徐文国,等.固定源低温选择性催化还原NOX技术研究进展[J].环境科学学报, 2005,25(10):1297-1305.
[17]Libby W F.Promising Catalyst for Auto Exhaust[J].Science,1971,171(3970):499-500.
[18]吴越.氧化物的非化学计量性和催化作用[J].科学通报,1992,37(2):97-106.
[19]Xia H,Wang Y.Au\|doped WO3\|based sensor for NO2 detection at low operating temperature[J].Sensor Actuat B,2008,134:133-139.
[20]Takahashi N,Shinjoh H,Kasahara K,et al.The new concept 3\|way catalyst for automotive lean\|burn engine:NOX storage and reduction catalyst[J].Catal Today,1996,27:63-69.
[21]Silva R,Catalua R,Martínez\|Arias A.Selective catalytic reduction of NOX using propene and ethanol over catalysts of Ag/Al2O3 prepared by microemulsion and promotional effect of hydrogen[J].Catal Today,2009,143:242-246.
[22]Wu Z,Jin R, Wang H.Ceria modified MnOx/TiO2 as a superior catalyst for NO reduction with NH3 at low\|temperature[J].Catal Comm,2008,9:2217-2220.
[23]Clayton R D,Harold M P,Balakotaiah V.Selective catalytic reduction of NO by H2 in O2 on Pt/BaO/Al2O3 monolith NOX storage catalysts[J].Appl Catal B,2008,81:161-181.
[24]李俊华,郝吉明,傅立新,等.Pt/Al2O3催化剂用于丙烯选择性还原NO[J].高等学校化学学报,2004,25(1):131-135.
[25]张淑娟,章福祥,关乃佳,等.Ni\|Al2O3催化剂焙烧温度对丙烯催化还原NO反应性能的影响[J].分析催化,2006,20(5):446-448.
[26]Olsson L,Persson H,Andersson B,et al.A Kinetic Study of NO Oxidation and NOX Storage on Pt/Al2O3 and Pt/BaO/Al2O3[J].J Phys Chem B,2001,105(29):6895-6906.
[27]Olsson L, Westerberg B, Andersson B,et al.A Kinetic Study of Oxygen Adsorption/Desorption and NO Oxidation over Pt/Al2O3 Catalysts[J].J Phys Chem B,1999,103(47):10433-10439.
[28]Olsson L, Fridell E.The Influence of Pt Oxide Formation and Pt Dispersion on the Reactions NO2NO+1/2 O2 over Pt/Al2O3 and Pt/BaO/Al2O3[J].J Catal,2002,210(2):340-353.
[29]Bhatia D, McCabe R W, Balakotaiah V,et al.Experimental and kinetic study of NO oxidation on model Pt catalysts[J].J Catal,2009,266(1):106-119.
[30]Prinetto F,Ghiotti G,Forzatti P,et al.FT\|IR and TPD Investigation of the NOX Storage Properties of BaO/Al2O3 and Pt?BaO/Al2O3 Catalysts[J].J Phys Chem B,2001,105(51):12732-12745.
[31]Büchel R,Strobel R,Pratsinis S E,et al.Influence of Pt location on BaCO3 or Al2O3 during NOX storage reduction[J].J Catal,2009,261(2):201\|207.
[32]Happel M,Desikusumastuti A,Libuda J,et al.Impact of Sulfur Poisoning on the NOX Uptake of a NOX Storage and Reduction (NSR) Model Catalyst[J].J Phys Chem C,2010,114(10):4568-4575.
[33]Kim D H,Kwak J H,Peden C H F,et al.Characteristics of Desulfation Behavior for Presulfated Pt\|BaO/CeO2 Lean NOX Trap Catalyst: The Role of the CeO2 Support[J].J Phys Chem C,2009,113(50):21123-21129.
[34]Imagawa H,Takahashi N,Shinjoh H,et al.Improved NOX storage\|reduction catalysts using Al2O3 and ZrO2\|TiO2 nanocomposite support for thermal stability and sulfur durability[J].Appl Catal B,2009,92(1/2):23-29.
[35]Imai H,Daté M,Tsubota S.Preferential oxidation of CO in H2\|rich gas at low temperatures over Au nanoparticles supported on metal oxides[J].Catal Lett,2008,124:68-73.
[36]Si R,Flytzani\|Stephanopoulos M.Shape and crystal\|plane effects of nanoscale ceria on the activity of Au\|CeO2 catalysts for the water\|gas shift reaction[J].Angew Chem Int Ed,2008,47:2884-2887.
[37]Wang G H,Li W C,Lu A H,et al.Shape and size controlled a\|Fe2O3 nanoparticles as supports for gold\|catalysts: Synthesis and influence of support shape and size on catalytic performance[J].App Cata A,2009,364:42-47.
[38]Symalla M O,Drochner A,Baiker A,et al.Structure and NOX storage behaviour of flame\|made BaCO3 and Pt/BaCO3 nanoparticles[J].Appl Catal B,2009,89:41\|48.
[39]Liu L J,Yao Z J,Dong L,et al.Correlation of structural characteristics with catalytic performance of CuO/Ce(X)Zr(1\|X)O(2) catalysts for NO reduction by CO[J].J Catal,2010,275(1):45-60.
[40]Liu L J,Cai J G,Chen Y,et al.Influence of supports structure on the activity and adsorption behavior of copper\|based catalysts for NO reduction[J].J Mol Catal A\|chem,2010,327(1/2):1-11.
[41]Hickey N,Boscarato I,Martra G,et al.Effect of the support on activity of silver catalysts for the selective reduction of NO by propene[J].Appl Catal B,2010,100(1/2):102-115.
[42]Nanba T,Wada K,Obuchi A,et al.Enhancement of activity of Ir catalysts for selective catalytic reduction of NO with CO by physical mixing with SiO2[J].Appl Catal A,2010,380(1/2):66-71.
[43]Zhang Z X,Chen M X,Shangguan W F.Low\|temperature SCR of NO with propylene in excess oxygen over the Pt/TiO2 catalyst[J].Catal Comm,2009,10(9):1330-1333.
[44]Mahzoul H,Brilhac J F,Gilot P.Experimental and mechanistic study of NOX adsorption over NOX trap catalysts[J].Appl Catal B,1999,20(1):47-55.
[45]Huang H Y,Long R Q,Yang R T.The Promoting Role of Noble Metals on NOX Storage Catalyst and Mechanistic Study of NOX Storage under Lean\|Burn Conditions[J].Energ Fuel,2000,15(1):205-213.
[46]Lietti L,Forzatti P,Tronconi E.NOX Storage Reduction over Pt\|Ba/γ\|Al2O3 Catalyst[J].J Catal,2001,204(1):175-191.
[47]Rodrigues F L,Juste C,Djéga\|Mariadassou G.NOX storage on barium\|containing three\|way catalyst in the presence of CO2[J].Catal Lett,2001,72(1):59-64.
[48]Olsson L,Fridell E,Andersson B,et al.Mean field modelling of NOX storage on Pt/BaO/Al2O3[J].Catal Today,2002,73(3/4):263-270.
[49]Cant N W,Patterson M J.The storage of nitrogen oxides on alumina\|supported barium oxide[J].Catal Today,2002,73(3/4):271-278.
[50]Despres J,Koebel M,Wokaun A,et al.Storage of NO2 on BaO/TiO2 and the influence of NO[J].Appl Catal B,2003,43(4):389-395.
[51]Anderson J A,Bachiller\|Baeza B,Fernandez\|Garcia M.Role of Pt in Pt/Ba/Al2O3 NO storage and reduction traps[J].Phys Chem Chem Phys,2003,5(20):4418-4427.
[52]Cheng H,Chen G,Li H,et al.NO storage\|reduction over Pt/Mg\|Al\|O catalysts with different Mg/Al atomic ratios[J].Korean J Chem Eng,2004,21(3):595-600.
[53]Nova I,Castoldi L,Ghiotti G.NOX adsorption study over Pt\|Ba/alumina catalysts: FT\|IR and pulse experiments[J].J Catal.2004,222(2):377-388.
[54]Lesage T,Verrier C,Daturi M,et al.Studying the NO\|trap mechanism over a Pt\|Rh/Ba/Al2O3 catalyst by operando FT\|IR spectroscopy[J].Phys Chem Chem Phys,2003,5(20):4435-4440.


[55]Toops T J,Smith D B,Partridge W P,et al.Quantified NOX adsorption on Pt/K/gamma\|Al2O3 and the effects of CO2 and H2O[J].Appl Catal B,2005,58(3/4):255-264.
[56]Yamamoto K,Kikuchi R,Eguchi K,et al.Development of NO sorbents tolerant to sulfur oxides[J].J Catal,2006,238(2):449-457.
[57]Lesage T,Saussey J,Daturi M,et al.Operando FTIR study of NOX storage over a Pt/K/Mn/Al2O3\|CeO2 catalyst[J].Appl Catal B,2007,72(1/2):166-177.
[58]Costa C N,Efstathiou A M.Mechanistic Aspects of the H2\|SCR of NO on a Novel Pt/MgO—CeO2 Catalyst[J].J Phys Chem C,2007,111(7):3010-3020.
[59]Sparks D E,Patterson P M,Chaney J A,et al.Supported bismuth oxide catalysts for the selective reduction of NO with propene in lean conditions[J].Catal Comm,2006,7(3):122-126.
[60]Dong W,Zhu C.Optical properties of surface\|modified Bi2O3 nanoparticles[J].J Phys Chem Solids,2003,64:265-271.
[61]Cabot A,Marsal A,Morante J R.Bi2O3 as a selective sensing material for NO detection[J].Sensor Actuat B,2004,99:74-89.
[62]Gou X,Li R,Wexler D.Room\|temperature solution synthesis of Bi2O3 nanowires for gas sensing application[J].Nanotechnology,2009,20:495-501.
[63]Irmawati R,Nasriah M N N,Hamid S B A,et al.Characterization of bismuth oxide catalysts prepared from bismuth trinitrate pentahydrate: influence of bismuth concentration[J].Catal Today,2004,93\|95:701-709.
[64]Drache M,Roussel P,Wignacourt J P.Structures and oxide mobility in Bi\|Ln\|O materials: Heritage of Bi2O3[J].Chem Rev,2007,107:80-96.
[65]张伟德,李基涛,古萍英,等.NO在Er2O3/Bi2O3催化剂上的程序升温分解[J].高等学校化学学报,1998,19:961-963.

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