Adsorption and desorption characteristics of the adsorber to control the HC emission from a gasoline engine

SAE Technical Papers

Volumn , Issue , 2004, Pages

  Mukai, Kosaburo ^a   Kanesaka, Hiroyuki ^b   Akama, Hirosi ^b   Ikeda, Takuya ^b  

^a TOKAI UNIVERSITY   (Japan)

^b NISSAN MOTOR CO   (Japan)

Author keywords

[No Author keywords available]

Indexed keywords

ALUMINA; ALUMINUM OXIDE; DESORPTION; ENGINES; EXHAUST GASES; GASOLINE; POWERTRAINS; SILICA; ZEOLITES;

ADSORPTION AND DESORPTIONS; ADSORPTION MECHANISM; ENGINE VEHICLE; EXHAUST GAS TEMPERATURES; GASOLINE ENGINES; LABORATORY TEST; SILICA-ALUMINA; THREE WAY CATALYSTS;

ADSORPTION;

EID: 85072424833     PISSN: 01487191     EISSN: 26883627     Source Type: Journal    
DOI: 10.4271/2004-01-2983     Document Type: Conference Paper

References (14)

1. Heck, R.M., Hu, Z., Smaling, R., Amundsen, A., and Bourke, M.C., "Close Coupled Catalyst System Design and ULEV Performance After 1050°C Aging" SAE 952415, 1995.
2. Eade, D., Hurley, R.G., Rutter, B., Inman, G., and Bakshi, R., "Fast Light-Off of Underbody Catalysts Using Exhaust Gas Ignition (EGI)" SAE 952417, 1995.
3. Weiss, D.S., Buhrmaster, C.L., Hampton, L.E, Powell, W.R., and Socha, L.S., "Durability of Extruded Electrically Heated Catalysts" SAE 950404, 1995.
4. Kubsh, J.E., and Weber, P.A., "EHC Impact on Extended Hot Soak Periods" SAE 952418, 1995.
5. Shimasaki, Y., Kato, H., Muramatsu, H., Teshirogi, T., Aoki, T., Saito, A., and Rodrigues, G., "Study on Conformity Technology with ULEV Using EHC System" SAE 960342, 1996.
6. Hampton, L.E., Buhrmaster, C.L., Thompson, D.F., and Weiss, D.S., "Durability of Advanced Electrically Heated Catalyst Design" SAE 960345, 1996.
7. Engler, B.H., Linder, D., Lox, E.S., Ostgathe, K., Schäfer- Sindlinger, A., and Müller, W., "Reduction of Exhaust Gas Emissions by Using Hydrocarbon Adsorber Systems" SAE 930738, 1993.
8. Yang, B.L., and Kung, H.H., "Reactor Trap To Remove Hydrocarbons from Engine Exhaust during Cold Start" Environ. Sci. Technol. 28-8, pp. 1561-1564, 1994. (Pubitemid 24258243)
9. Burk, P.L., Hochmuth, J.K., Anderson, D.R., Sung, S., Tauster, S.J., Tolentino, C.O., Rogalo, J., Miles, G., Niejako, M., Punke, A., and Dahle, U., "Cold Start Hydrocarbon Emissions Control" SAE 950410, 1995.
10. Noda, N., Takahashi, A., and Mizuno, H., "In-Line Hydrocarbon (HC) Adsorber System for Cold Start Application" SAE 970266, 1997.
11. Ballinger, T.H., Manning, W.A., and Lafyatis, D.S., "Hydrocarbon Trap Technology for the Reduction of Cold-Start Hydrocarbon Emissions" SAE 970741, 1997.
12. Abthoff, J., Kemmler, R., Klein, H., Matt, M., Robota, H., Wolsing, W., and Wiehl, J., "Application of In-Line Hydrocarbon Adsorber System" SAE 980422, 1998.
13. Nishizawa, K., Momoshita, S., Koga, M., and Ysuchida, H., "Development of New Technologies Targeting Zero Emissions for Gasoline Engines" SAE 2000-01-0890, 2000.
14. Hiramoto, Y., Takaya, M., Yamamoto, S., and Okada, A., "Development of a New HC-Adsorption Three way Catalyst System for Partial-ZEV Performance" SAE 2003-0034, 2003.