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An Implementation of CH 4 Kinetic Model with H 2 O into 1-D and 3-D Catalytic Converter Simulation Codes
Technical Paper
2017-01-2382
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
The diesel dual fuel engine emits CH4 in the exhaust gas. This makes the exhaust gas more difficult to treat comparing to the exhaust gas from the conventional engine since CH4 requires high exhaust temperature to oxidize. In addition, another parameter such as exhaust flow rate, specie concentrations, especially CO, C3H8, and H2O have tremendous impact on Diesel Oxidation Catalyst performance on reducing CH4.
This research is aimed to propose a kinetic model based on Langmuir Hinshelwood mechanisms that includes several terms such as CH4, C3H8, CO, O2, and H2O concentrations in order to gain a better understanding on the catalytic reaction and to provide a simulation with an accurate prediction. The model’s kinetic parameters are determined from the experiment by using synthetic gas. The composition of synthetic gas is simulated to be similar to the real exhaust gas from diesel dual fuel engines. By comparing the simulation to the experiment, this kinetic model can give accurate results with the kinetic model that can be used to predict the conversion rate of the exhaust gas in diesel oxidation catalyst.
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Citation
Suthiprasert, T., Jirawongnuson, S., Wirojsakunchai, E., Aroonsrisopon, T. et al., "An Implementation of CH4 Kinetic Model with H2O into 1-D and 3-D Catalytic Converter Simulation Codes," SAE Technical Paper 2017-01-2382, 2017, https://doi.org/10.4271/2017-01-2382.Data Sets - Support Documents
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