Tytuł artykułu
Treść / Zawartość
Pełne teksty:
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The article concerns the use of an in-cylinder catalyst that allows reducing the exhaust emissions during diesel engine operation. This is an additional method of exhaust emission reduction - however, the active component is placed inside the combustion chamber - hence much closest to the combustion process. This allows reducing the emissions at the very source (catalyst applied on the glow plugs). Such solutions are necessary because the reduction of exhaust emissions from vehicles is a key aspect of reducing the negative impact of transport on the environment.
Czasopismo
Rocznik
Tom
Strony
38--45
Opis fizyczny
Bibliogr. 28 poz., il. kolor., fot., 1 rys., wykr.
Twórcy
autor
- Faculty of Transport Engineering, Poznan University of Technology
autor
- Faculty of Mechanical Engineering, Wrocław University of Technology
autor
- Faculty of Transport Engineering, Poznan University of Technology
Bibliografia
- [1] AHLERS, S., BRÜCK, R., CARTUS, T., STOCK, H. Procedure and design of exhaust systems to fulfill all emission limits during real driving conditions: In Use Conformity, 39th International Vienna Motor Symposium. Vienna 2018.
- [2] ANDRYCH-ZALEWSKA, M. Improving the environmental performance of the internal combustion engine by the use of in-cylinder catalyst. Combustion Engines. 2017, 1.
- [3] ANDRYCH-ZALEWSKA, M. The possibilities and development of in-cylinder catalytic coating. Journal of KONES. 2017, 3.
- [4] ANDRYCH-ZALEWSKA, M. Wpływ katalizatora wewnętrznego na emisję spalin w stanach pracy silnika o zapłonie samoczynnym odpowiadających jego użytkowaniu trakcyjnemu, Rozprawa doktorska. Poznań 2018.
- [5] ANDRYCH-ZALEWSKA, M., WALKOWIAK, W., KOLANEK, C. Heat release in spark ignition engine with internal catalyst. Journal of KONES. 2015, 4.
- [6] BIELACZYC, P., MERKISZ, J., PIELECHA, J. Stan cieplny silnika spalinowego a emisja związków szkodliwych. Wyd. Politechniki Poznańskiej, Poznań 2001.
- [7] BRADSTREET, S. Flame sprayed catalyst coatings. The Clay Products News and Ceramic Record. 1961, 24.
- [8] BURK, P., HOCHMUTH, J., ANDERSON, D., et al. Cold start hydrocarbon emissions control. Automotive Engineering. 1995, 10.
- [9] HU, Z., LADOMMATOS, N. Reduction of unburnt hydrocarbon emissions from spark ignition engines using incylinder catalysts. Journal of Automobile Engineering. 1996, 210.
- [10] KENECHT, W. Diesel engine development in view of reduced emission standards, Energy, 2008, 33.
- [11] KOZAK, M., MERKISZ, J., BIELACZYC, P. Wpływ właściwości paliwa na emisję szkodliwych składników spalin przez samochód osobowy napędzany silnikiem o zapłonie samoczynnym. Silniki spalinowe. 2005, 1.
- [12] MELLO, J., BEZAIRE, D., SRIRAMULU, S., WEBER, R. Performance and economics of catalytic glow plugs and shields in direct injection natural gas engines for the next generation natural gas vehicle program. Final report. National Renewable Energy Laboratory, NREL/SR-540-34286, 2003.
- [13] MERKISZ, J., PIELECHA, J. Możliwości obniżenia emisji cząstek stałych w silnikach ZS poprzez zastosowanie katalizatora. IV Sympozjum EKODIESEL’98. Warszawa 1998.
- [14] MERKISZ, J., PIELECHA, J., RADZIMIRSKI, S. New trends in emission control in the European Union. Springer Tracts on Transportation and Traffic. 2014, 4.
- [15] MITCHELL, W., LITZINGER, T., LEE, W. Effects of incylinder catalysts on combustion and emissions of a D.I. diesel engine fuelled on neat methanol. SAE Technical Paper 920688, 1992.
- [16] NAVALIHINA, M., ROMANOVSKY, B., TOPCHIEVA, K. Investigation of acidic properties of zeolite by high temperature poisoning technique, Catalysis and Kinetic. 1971, 12.
- [17] NEDUNCHEZCHIAN, N., DHANDAPANI, S. Effects of in-cylinder catalytic coating on the performance of a twostroke spark ignition engine. Indian Journal of Engineering & Materials Sciences. 2001, 8.
- [18] NORMAND, B., FERVEL, V., CODDET, C., NIKITINE, V. Tribological properties of plasma sprayed alumina-titania coatings: role and control of the microstructure. Surface and Coatings Technology. 2000, 123.
- [19] PIELECHA, J. Identyfikacja parametrów cząstek stałych z silników spalinowych. Rozprawa habilitacyjna. Wyd. Politechniki Poznańskiej, Poznań 2012.
- [20] REKSA, M., ANDRYCH-ZALEWSKA, M., MIHAYLOV, V. The impact analysis of hydroxide mixture addition on the combustion process in the diesel engine. MTM Machines, Technologies, Materials. 2014, 2.
- [21] SAMAHOV, A., ZAIDMAN, M., CHIZHIK, M. Change of activity of catalysts during exploitation. Novosibirsk: Science, Siberia branch 1976.
- [22] SAMSONOV, G. Catalytic properties of refractory compounds and principles of creation of refractory materials with preassigned properties. Principles of Choice of Catalysts for Heterogeneous. Catalysis. 1966, 11.
- [23] SITNIK, L., ANDRYCH-ZALEWSKA, M. Statistics of indicated pressure in combustion engine. Scientific Conference on Automotive Vehicles and Combustion Engines, KONMOT 2016.
- [24] SITNIK, L., ANDRYCH-ZALEWSKA, M., HALLER, P., WŁOSTOWSKI, R. Badania emisji gazowego silnika o zapłonie iskrowym w aspekcie parametrów sterowania. Raporty Wydziału Mechanicznego Politechniki Wrocławskiej. 2015, 137.
- [25] USOV, U., SKVORZOVA, E., KLUSHNIKOVA, G. Dehydrogenating methylhexane on chromia-alumina and molybdena-alumina catalysts. Neftekhimiya. 1963, 3.
- [26] VASILEV, I., GAVRILINKO, P., ZVONOV, V. Method of definition of catalytic activity of combustion chamber surface of IC engine. USSR Author Certificate 1312206, 1987.
- [27] WINKLER, M., PARKER, D. The role of diesel ceramic coatings in reducing automotive emissions and improving combustion efficiency. SAE Technical Paper 930158, 1993.
- [28] WONG, V., BAUER, W., KAMO, R. et al. Assessment of thermal barrier coatings for IC engines. SAE Technical Paper 950980, 1995.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-fd14eb3b-0714-43aa-9eee-e14b7ff99547