Browse > Article
http://dx.doi.org/10.7467/KSAE.2012.20.6.073

Effect of Water on the Kinetics of Nitric Oxides Reduction by Ammonia over V-based Catalyst  

Kim, Young-Deuk (Innovative Design Education Program for Mechanical Engineers, BK21 Project, Hanyang University)
Jeong, Soo-Jin (Green Powertrain System R&D Center, Korea Automotive Technology Institute)
Kim, Woo-Seung (Department of Mechanical Engineering, Hanyang University)
Publication Information
Transactions of the Korean Society of Automotive Engineers / v.20, no.6, 2012 , pp. 73-82 More about this Journal
Abstract
The main and side reactions of the three selective catalytic reduction (SCR) reactions with ammonia over a vanadium-based catalyst have been investigated using synthetic gas mixtures in the temperature range of $170{\sim}590^{\circ}C$. The three SCR reactions are standard SCR with pure NO, fast SCR with an equimolar mixture of NO and $NO_2$, and $NO_2$ SCR with pure $NO_2$. Vanadium based catalyst has no significant activity in NO oxidation to $NO_2$, while it has high activity for $NO_2$ decomposition at high temperatures. The selective catalytic oxidation of ammonia and the formation of nitrous oxide compete with the SCR reactions at the high temperatures. Water strongly inhibits the selective catalytic oxidation of ammonia and the formation of nitrous oxide, thus increasing the selectivity of the SCR reactions. However, the presence of water inhibits the SCR activity, most pronounced at low temperatures. In this study, the experimental results are analyzed by means of a dynamic one-dimensional isothermal heterogeneous plug-flow reactor (PFR) model according to the Eley-Rideal mechanism.
Keywords
SCR; Ammonia; NOx reduction; Water; Mathematical modeling;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 J. Gieshoff, A. Schafer-Sindlinger, P. C. Spurk, J. A. A. van den Tillaart and G. Garr, "Improved SCR Systems for Heavy Duty Applications," SAE 2000-01-0189, 2000.
2 C. Ciardelli, I. Nova, E. Tronconi, B. Konrad, D. Chatterjee, K. Ecke and M. Weibel, "SCR-$DeNO_{X}$ for Diesel Engine Exhaust Aftertreatment: Unsteady-State Kinetic Study and Monolith Reactor Modelling," Chemical Engineering Science, Vol.59, pp.5301-5309, 2004.   DOI   ScienceOn
3 C. Winkler, P. Florchinger, M. D. Patil, J. Gieshoff, P. Spurk and M. Pfeifer, "Modeling of SCR $DeNO_{X}$ Catalyst - Looking at the Impact of Substrate Attributes," SAE 2003-01-0845, 2003.
4 D. Tsinoglou and G. Koltsakis, "Modelling of the Selective Catalytic $NO_{X}$ Reduction in Diesel Exhaust including Ammonia Storage," Proc. IMechE Part D: Journal of Automobile Engineering, Vol.221, pp.117-133, 2007.   DOI
5 J. H. Baik, S. D. Yim, I. S. Nam, Y. S. Mok, J. H. Lee, B. K. Cho and S. H. Oh, "Modeling of Monolith Reactor Washcoated with CuZSM5 Catalyst for Removing NO from Diesel Engine by Urea," Industrial & Engineering Chemistry Research, Vol.45, pp.5258-5267, 2006.   DOI   ScienceOn
6 H. Sjovall, L. Olsson, E. Fridell and R. J. Blint, "Selective Catalytic Reduction of $NO_{X}$ with $NH_{3}$ over CuZSM5 - The Effect of Changing the Gas Composition," Applied Catalysis B, Vol.64, pp.180-188, 2006.   DOI   ScienceOn
7 R. Willi, M. Maciejewski, U. Gobel, R. A. Koppel and A. Baiker, "Selective Reduction of NO by $NH_{3}$ over Chromia and Titania Catalyst: Investigation and Modeling of the Kinetic Behavior," Journal of Catalysis, Vol.166, pp.356-367, 1997.   DOI   ScienceOn
8 M. Devarakonda, R. Tonkyn, D. Tran, J. Lee and D. Herling, "Modeling Species Inhibition of NO Oxidation in Urea-SCR Catalysts for Diesel Engine $NO_{X}$ Control," Journal of Engineering for Gas Turbines Power - Transactions of ASME, Vol.133, 2011.
9 G. Madia, M. Koebel, M. Elsener and A. Wokaun, "Side Reactions in the Selective Catalytic Reduction of $NO_{X}$ with Various $NO_{2}$Fractions," Industrial & Engineering Chemistry Research, Vol.41, pp.4008-4015, 2002.   DOI   ScienceOn
10 Y.-D. Kim and W.-S. Kim, "Re-evaluation and Modeling of a Commercial Diesel Oxidation Catalyst," Industrial & Engineering Chemistry Research, Vol.48, pp.6579-6590, 2009.   DOI
11 T. Kirchner and G. Eigenberger, "On the Dynamic Behavior of Automotive Catalysts," Catalysis Today, Vol.38, pp.3-12, 1997.   DOI   ScienceOn
12 E. N. Fuller, K. Ensley and J. C. Giddings, "Diffusion of Halogenated Hydrocarbons in Helium: The Effect of Structure on Collision Cross Sections," Journal of Physical Chemistry, Vol.73, pp.3679-3685, 1969.   DOI
13 H.-C. Jeong, S.-M. Sim, Y.-D. Kim, S.-J. Jeong and W.-S. Kim, "An Experimental Study on the $NH_{3}$-SCR of $NO_{X}$ over a Vanadium-based Catalyst," Transactions of KSAE, Vol.20, No.1, pp.20-27, 2012.
14 S. Suarez, S. M. Jung, P. Avila, P. Grange and J. Blanco, "Influence of $NH_{3}$ and NO Oxidation on the SCR Reaction Mechanism on Copper/ Nickel and Vanadium Oxide Catalysts Supported on Alumina and Titania," Catalysis Today, Vol.75, pp.331-338, 2002.   DOI   ScienceOn