利用电场作用辅助催化脱除NO是目前颇具发展潜力的一种新型脱硝技术.系统地介绍了电辅助催化脱除NO技术的基本技术原理,并分别探讨了电极形态、电压、O2-的传导过程等因素对NO脱除效率及反应机理的影响.电辅助催化的反应器结构、电源等是影响该技术的主要因素,因此优化反应器结构和对其电压、电流的精确控制,调整电辅助催化剂以及电解质电极体系的电流效率是该技术未来研究的主要关注点.
参考文献
| [1] | 唐晓龙.低温选择性催化还原技术及反应机理[M].北京:冶金工业出版社,2007 |
| [2] | Hao J M;Tian H Z;Lu Y Q .Emission inventories of NOx from commercial energy consumption in China,1995-1998[J].Environmental Science and Technology,2002,36(04):552. |
| [3] | Papadakis V G;Pliangos C A;Yentekakis I V et al.Development of high performance,Pd-based,three way catalysts[J].Catalysis Today,1996,29(1-4):71. |
| [4] | Wagner C .Adsorbed atomic species as intermediates in hete-rogeneous catalysis[J].Advances in Catalysis,1970,21:323. |
| [5] | Vayenas C G;Bebelis S .Electrochemical promotion of heterogeneous catalysis[J].Catalysis Today,1999,51(3-4):581. |
| [6] | Vayenas C G;Symeon B;Pliangos Costas.Electrochemical activation of catalysis-promotion,electrochemical promotion,and metal-support interactions[M].Beilin:Springer-Verlag,2001 |
| [7] | Ertl G;Kn(o)zinger H;Weitkamp J.Handbook of heterogeneous catalysis[M].Weinheim:Wiley-VCH,1997 |
| [8] | Hegedus L L;Bell A T;Chen N Y.Catalyst design:Progress and perspectives[M].New York:wiley,1987 |
| [9] | Ponec V. .Forty years in CATALYSIS: what have we learned? [Review][J].Journal of molecular catalysis, A. Chemical,1998(3):221-239. |
| [10] | Vayenas C G;Vernoux P .Note on "electrochemical promotion of catalytic reactions"[J].Progress in Surface Science,2011,86(5-8):83. |
| [11] | C. Pliangos;C. Raptis;Th. Badas;D. Tsiplakides;C. G. Vayenas .Electrochemical promotion of a classically promoted Rh catalyst for the reduction of NO[J].Electrochimica Acta,2000(2/3):331-339. |
| [12] | Vayenas C G;Pliangos C;Raptis C et al.Electrochemical promotion of conventional and bipolar reactor configurations for NO reduction[J].Ionics,2002,8(5-6):372. |
| [13] | de Lucas-Consuegra A;Caravaca A;Sanchez P;Dorado F;Valverde JL .A new improvement of catalysis by solid-state electrochemistry: An electrochemically assisted NOx storage/reduction catalyst[J].Journal of Catalysis,2008(1):54-65. |
| [14] | de Lucas-Consuegra A;Dorado F;Jimenez-Borja C et al.Use of potassium conductors in the electrochemical promotion of environmental catalysis[J].Catalysis Today,2009,146(3-4):293. |
| [15] | Souentie S;Harnmad A;Vayenas C G .Steady-state multiplicity phenomena during the electrochemical promotion of NO reduction by C2 H4 in presence of O2 on thin Rh and Pt catalyst-electrodes in a monolithic electropromoted reactor[J].Catalysis Today,2009,146(3-4):285. |
| [16] | Souentie, S;Xia, C;Falgairette, C;Li, YD;Comninellis, C .Investigation of the "permanent" electrochemical promotion of catalysis (P-EPOC) by electrochemical mass spectrometry (EMS) measurements[J].Electrochemistry communications,2010(2):323-326. |
| [17] | Vayenas, C.G.;Vernoux, P. .Note on "the electrochemical promotion of ethylene oxidation at a Pt/YSZ catalyst"[J].Chemphyschem: A European journal of chemical physics and physical chemistry,2011(9):1761-1763. |
| [18] | Lintanf A;Neagu R;Djurado E .Nanocrystalline Pt thin films prepared by electrostatic spray deposition for automotive exhaust gas treatment[J].Solid state ionics,2007(26):3491-3499. |
| [19] | Lintanf A;Djurado E;Vernoux P .Pt/YSZ electrochemical catalysts prepared by electrostatic spray deposition for selective catalytic reduction of NO by C3H6[J].Solid state ionics,2008(39/40):1998-2008. |
| [20] | Hansen KK .Electrochemical reduction of O-2 and NO on Ni, Pt and Au[J].Journal of Applied Electrochemistry,2008(5):591-595. |
| [21] | Karoum R C P;Vannier R N et al.Low temperature electrochemical catalysts using a BITAVOX electrolyte[J].Catalysis Today,2009,146(3-4):359. |
| [22] | Wang X;Zhao Q;Cai T .Selective decomposition of NO in the presence of excess O-2 in electrochemical cells[J].Journal of Applied Electrochemistry,2004(9):945-952. |
| [23] | Yamaguchi T;Sakamoto W;Yogo T et al.Synthesis and catalytic properties of the electrochemical NOx reduction system[J].Catalysis Letters,2005,103(3-4):271. |
| [24] | Awano M;Bredikhin S;Aronin A et al.NOx decomposition by electrochemical reactor with electrochemically assembled multilayer electrode[J].Solid State Ionics,2004,175(1-4):605. |
| [25] | K. Hamamoto;Y. Fujishiro;M. Awano .Low-Temperature NO_x Decomposition Using an Electrochemical Reactor[J].Journal of the Electrochemical Society,2008(8):(E)109-111. |
| [26] | Vernoux P;Gaillard F;Karoum R et al.Reduction of nitrogen oxides over Ir/YSZ electrochemical catalysts[J].Applied Catalysis B:Environmental,2007,73(1-2):73. |
| [27] | K. Kammer Hansen .Electrochemical Reduction of Oxygen and Nitric Oxide at Low Temperature on La_(1-x)Sr_xCoO_(3-δ) Cathodes[J].Journal of the Electrochemical Society,2010(9):P79-P82. |
| [28] | Braestrup, F;Hansen, KK .NiCr (x) Fe2-x O-4 as cathode materials for electrochemical reduction of NO (x)[J].Journal of solid state electrochemistry,2010(1):157-166. |
| [29] | R.M.L. Werchmeister;K.K. Hansen;M. Mogensen .Electrochemical removal of NO_x with porous cell stacks[J].Materials Research Bulletin: An International Journal Reporting Research on Crystal Growth and Materials Preparation and Characterization,2010(11):1554-1561. |
| [30] | Tang X L;Song J H;Yi H H et al.Electrochemical promotion catalytic oxidation of NO over Mn/TiO2 and Mn-Fe catalyst[J].Adv Mater Res:Switz,2011,219-220:1472. |
| [31] | Hibino T.;Sano M.;Inoue T. .Electrochemical reduction of NO by alternating current electrolysis using yttria-stabilized zirconia as the solid electrolyte Part II. Modification of Pd electrode by coating with Rh[J].Solid state ionics,2000(1/2):31-39. |
| [32] | Kammer H K .Solid state electrochemical deNOx-An overview[J].Applied Catalysis B:Environmental,2010,100(3-4):427. |
| [33] | Bredikhin S.;Matsuda K.;Maeda K.;Awano M. .Novel low voltage electrochemical cell for NO decomposition[J].Solid state ionics,2002(3/4):327-333. |
| [34] | Teranishi, S;Tsuge, A;Tomita, A;Sano, M;Hibino, T .Nano-sized electrochemical reactors for selective NOx reduction[J].Electrochemical and solid-state letters,2008(10):P9-P12. |
| [35] | Sergey Bredikhin;Koichi Hamamoto;Yoshinobu Fujishiro .Electrochemical reactors for NO decomposition. Basic aspects and a future[J].Ionics,2009(3):285-299. |
| [36] | Nagao, M;Yoshii, T;Namekata, Y;Teranishi, S;Sano, M;Tomita, A;Hibino, T .De-NOx reactor and NOx sensor using In3+-doped SnP2O7 with PtRhBa/C electrode[J].Solid state ionics,2008(27/32):1655-1661. |
| [37] | Ya Yan;PingpingYao;QinMu;Lei Wang;JinMu;XiangqingLi;Shi-Zhao Kang .Electrochemical behavior of amino-modified multi-walled carbon nanotubes coordinated with cobalt porphyrin for the oxidation of nitric oxide[J].Applied Surface Science,2011(1):58-63. |
| [38] | Nakamura T;Sakamoto Y;Saji K et al.NOx decomposition mechanism on the electrodes of a zirconia-based amperometric NOx sensor[J].Sensor Actuat B:Chem,2003,93(1-3):214. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%