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In the models of regeneration of diesel particulate filters the reaction rate of soot oxidation is assumed to be of Arrhenius type temperature dependence. In that form reaction rate has two characteristic coefficients: an activation energy and pre-exponential coefficient. The activation energy determines the increase of the rate of reaction with temperature in the reaction region. The pre-exponential factor depends on model and gives the unit of reaction rate. In the literature, there are many different values of the activation energy, which were determined at different test conditions. Our experimental studies were focused on creating test conditions very close to the real diesel particulate filter. The test bed consists of the ceramic plate covered with soot, which was put in the hot gas flow. The hot gas setups almost adiabatic condition for the reaction region. The flowing gas was the mixture of oxygen and nitrogen. During the experiments, the temperature above the plate and weight of the plate with soot were measured. For different temperatures of gas, we received various rates of soot depletion. The mass fraction of oxygen was changed too. Based on the collected data, the activation energy was calculated.
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Czasopismo
Rocznik
Tom
Strony
143--153
Opis fizyczny
Bibliogr. 2 poz., rys.
Twórcy
autor
autor
- Warsaw University of Technology, ITC, Nowowiejska 25,00-665 Warsaw Poland Tel.660-52-77; fax. 825-05-65, ajani@itc.pw.edu.p
Bibliografia
- [1] Tabiś B., Zasady Inżynierii Reaktorów Chemicznych, WNT Warszawa 2000
- [2] Yezerets A., Currier N. W., Eadler H. A., Experimental Determination of the Kinetics of Diesel Soot Oxidation By OD2 - Modelling Consequences, SAE 2003-01-0833
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUJ5-0019-0006