%0 Book
%T Thermodynamic based prediction model for NOx and CO emissions from a gasoline direct injection engine
%A Chindaprasert, Nataporn
%D 2007
%G English
%F 630910197
%O vorgelegt von Nataporn Chindaprasert
%O Rostock, Univ., Fak. f. Maschinenbau u. Schiffstechnik, Diss., 2008
%O Langzeitarchivierung gewährleistet pdager
%X In this dissertation a two-zone thermodynamic model is implemented and combined with extended Zeldovich mechanism to calculate NOx from a gasoline direct injection engine. Furthermore, a chemical kinetic model has been combined with the two-zone model to predict the carbon monoxide emission. For a better CO prediction over the operating range of lambda from lean to rich mixture, a new zone has been introduced into the combustion chamber. This enables the integration of the thermal boundary layer into the emissions model. The mixture in this zone is oxidized at a lower temperature than the majority of the gas in the combustion chamber and therefore modelled with a reduced chemical mechanism.
%L 620
%9 theses
%9 Text
%9 Hochschulschrift
%U http://rosdok.uni-rostock.de/resolve?urn=urn:nbn:de:gbv:28-diss2008-0061-0
%U http://rosdok.uni-rostock.de/resolve?urn=urn:nbn:de:gbv:28-diss2008-0061-0&pdf
%U http://nbn-resolving.de/urn:nbn:de:gbv:28-diss2008-0061-0
%U http://d-nb.info/100729194X/34
%U http://rosdok.uni-rostock.de/metadata/rosdok_disshab_000000000067