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Oxygen storage capacity of monolith three-way catalystsSU, E. C; MONTREUIL, C. N; ROTHSCHILD, W. G et al.Applied catalysis. 1985, Vol 17, Num 1, pp 75-86, issn 0166-9834Article

Simulation of a Nonisothermal Modern Three-Way Catalyst ConverterHYUK JAE KWON; JOON HYUN BAIK; SUNG BONG KANG et al.Industrial & engineering chemistry research. 2010, Vol 49, Num 15, pp 7039-7051, issn 0888-5885, 13 p.Article

Laboratory scale simulation of three-way catalyst engine ageingKALLINEN, Kauko; SUOPANKI, Aslak; HÄRKÖNEN, Matti et al.Catalysis today. 2005, Vol 100, Num 3-4, pp 223-228, issn 0920-5861, 6 p.Conference Paper

A Simplified Three-Way Catalyst Model for Transient Hot-Mode Driving CyclesTSINOGLOU, Dimitrios N; WEILENMANN, Martin.Industrial & engineering chemistry research. 2009, Vol 48, Num 4, pp 1772-1785, issn 0888-5885, 14 p.Article

Reaction kinetics on a commercial three-way catalyst: the CO-NO-O2-H2O systemBALA SUBRAMANIAM; ARVIND VARMA.Industrial & engineering chemistry product research and development. 1985, Vol 24, Num 4, pp 512-516, issn 0196-4321Article

Dynamic behavior of three-way catalystsSU, E. C; ROTHSCHILD, W. G.Journal of catalysis (Print). 1986, Vol 99, Num 2, pp 506-510, issn 0021-9517Article

Global Kinetics for Ammonia Formation and Oxidation Reactions in a Commercial Three-Way CatalystRAMANATHAN, Karthik; SHEKHAR SHARMA, Chander; HWAN KIM, Chang et al.Industrial & engineering chemistry research. 2012, Vol 51, Num 3, pp 1198-1208, issn 0888-5885, 11 p.Article

Measurement of oxygen storage capacity in automotive catalystsKHOSSUSI, T; DOUGLAS, R; MCCULLOUGH, G et al.Proceedings of the Institution of Mechanical Engineers. Part D, Journal of automobile engineering. 2003, Vol 217, Num 8, pp 727-733, issn 0954-4070, 7 p.Article

Role of the state of the metal component on the light-off performance of Pd-based three-way catalystsFERNANDEZ-GARCIA, M; IGLESIAS-JUEZ, A; MARTINEZ-ARIAS, A et al.Journal of catalysis (Print). 2004, Vol 221, Num 2, pp 594-600, issn 0021-9517, 7 p.Article

Deactivation of pelleted three-way catalyst. Post-mortem studiesKIM, G; ERNEST, M. V; MONTGOMERY, S. R et al.Industrial & engineering chemistry product research and development. 1984, Vol 23, Num 4, pp 525-531, issn 0196-4321Conference Paper

The reducing capability of palladium segregated from perovskite-type LaFePdOx automotive catalystsUENISHI, Mari; TANAKA, Hirohisa; TANIGUCHI, Masashi et al.Applied catalysis. A, General. 2005, Vol 296, Num 1, pp 114-119, issn 0926-860X, 6 p.Article

Fe-substituted 10Al2O3·2B2O3 as a multifunctional support for automotive Pd catalystsIKEUE, Keita; WATANABE, Kazuma; MINEKISHI, Takayuki et al.Applied catalysis. B, Environmental. 2014, Vol 146, pp 50-56, issn 0926-3373, 7 p.Conference Paper

Preparation of CexZr1-xO2 (x = 0.75, 0.62) solid solution and its application in Pd-only three-way catalystsYUN GUO; GUANZHONG LU; ZHIGANG ZHANG et al.Catalysis today. 2007, Vol 126, Num 3-4, pp 296-302, issn 0920-5861, 7 p.Conference Paper

Passive-ammonia selective catalytic reduction (SCR): Understanding NH3 formation over close-coupled three way catalysts (TWC)DIGIULIO, Christopher D; PIHL, Josh A; PARKS, James E et al.Catalysis today (Print). 2014, Vol 231, pp 33-45, issn 0920-5861, 13 p.Article

Detailed reaction kinetics over commercial three-way catalystsHYUK JAE KWON; JOON HYUN BAIK; YONG TAK KWON et al.Chemical engineering science. 2007, Vol 62, Num 18-20, pp 5042-5047, issn 0009-2509, 6 p.Conference Paper

An estimation of three-way catalyst performance using artificial neural networks during cold startBOTSARIS, P. N; BECHRAKIS, D; SPANS, P. D et al.Applied catalysis. A, General. 2003, Vol 243, Num 2, pp 285-292, issn 0926-860X, 8 p.Article

Potential and pitfalls in the use of dual exhaust gas oxygen sensors for three-way catalyst monitoring and controlJONES, J. C; JACKSON, R. A.Proceedings of the Institution of Mechanical Engineers. Part D, Journal of automobile engineering. 2003, Vol 217, Num 6, pp 475-488, issn 0954-4070, 14 p.Article

Kinetic Parameters Estimation for Three Way Catalyst ModelingRAMANATHAN, Karthik; CHANDER SHEKHAR SHARMA.Industrial & engineering chemistry research. 2011, Vol 50, Num 17, pp 9960-9979, issn 0888-5885, 20 p.Article

Modeling of three-way-catalyst monolith converters with microkinetics and diffusion in the washcoatKOCI, Petr; KUBICEK, Milan; MAREK, Milos et al.Industrial & engineering chemistry research. 2004, Vol 43, Num 16, pp 4503-4510, issn 0888-5885, 8 p.Article

Nahwärmeversorgung Göppingen: Betriebserfahrungen mit Dreiwege-Abgaskatalysatoren = Distribution locale de chaleur à Göppingen: expériences acquises lors de l'exploitation avec des catalyseurs de gaz d'échappement à trois voies = Local heat distribution at Göppingen: operational experiences with three way catalystsBERGE, W; ROSTEK, H. A.Gas- und Wasserfach. Gas - Erdgas. 1985, Vol 126, Num 12, pp 675-679, issn 0016-4909Article

Modelling transport phenomena and chemical reactions in automotive three-way catalytic convertersSANTOS, H; COSTA, M.Chemical engineering journal (1996). 2009, Vol 148, Num 1, pp 173-183, issn 1385-8947, 11 p.Article

Hydrocarbon oxidation and three-way catalytic activity on a single step directly coated cordierite monolith : High catalytic activity of Ce0.98Pd0.02O2-δSHARMA, Sudhanshu; HEGDE, M. S; RATINDRA NATH DAS et al.Applied catalysis. A, General. 2008, Vol 337, Num 2, pp 130-137, issn 0926-860X, 8 p.Article

Kinetic study of three-way catalyst of automotive exhaust gas: Modeling and applicationMA, Li-Ping; BART, Hans-Jörg; PING NING et al.Chemical engineering journal (1996). 2009, Vol 155, Num 1-2, pp 241-247, issn 1385-8947, 7 p.Article

Noble Metal Sintering Suppression Technology in Three-way Catalyst: Automotive Three-way Catalysts with the Noble Metal Sintering Suppression Technology Based on the Support Anchoring EffectSHINJOH, Hirofumi.Catalysis surveys from Asia. 2009, Vol 13, Num 3, pp 184-190, issn 1571-1013, 7 p.Article

Combinatorial computational chemistry approach of tight-binding quantum chemical molecular dynamics method to the design of the automotive catalystsITO, Yuki; JUNG, Changho; YI LUO et al.Applied surface science. 2006, Vol 252, Num 7, pp 2598-2602, issn 0169-4332, 5 p.Conference Paper

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