Experimental Study on Soot Oxidation Characterization of Pt/CeO 2 Catalyst with NO and O 2 Using a Flow Reactor System

2009-01-1475

04/20/2009

Event
SAE World Congress & Exhibition
Authors Abstract
Content
The oxidation of soot (carbon black) which is assisted by Pt/CeO2 catalyst is studied using a flow reactor system simulating the condition of diesel exhaust. In this study, the temperature programmed oxidation (TPO) scheme is mainly used for different NO and O2 concentrations and soot oxidation rate is evaluated by monitoring both CO and CO2 concentrations.
Pt/CeO2 catalyst lowers the temperature of the peak CO/CO2 concentrations significantly when there is either NO or O2. Oxidation starts at 200°C and the peak CO2 concentration is observed at 360°C, which depends on the amount of catalyst and NO concentration.
The effect of catalyst on NO2 recycling is also investigated. For this purpose, two different types of sample have been prepared. For the mixed case, 10mg of carbon black is mixed with 50mg of Pt/CeO2 catalyst under conditions of loose contact. For the unmixed case, the catalyst layer is placed on top of soot layer without mixing. In the mixed case compared to the unmixed one, the temperature for the peak CO/CO2 concentrations is decreased from 400°C to 370°C and a significant increase of specific reaction rate is observed around 360°C. This result indicates that mixing soot and catalyst enhances NO-NO2 conversion which takes place a couple of times while the NO molecule passes through the sample mixture and supports the fact that the soot oxidation rate depends upon the amount of NO2 produced by NO-NO2 conversion.
Meta TagsDetails
DOI
https://doi.org/10.4271/2009-01-1475
Pages
7
Citation
Song, C., Jung, J., Song, S., and Chun, K., "Experimental Study on Soot Oxidation Characterization of Pt/CeO 2 Catalyst with NO and O 2 Using a Flow Reactor System," SAE Technical Paper 2009-01-1475, 2009, https://doi.org/10.4271/2009-01-1475.
Additional Details
Publisher
Published
Apr 20, 2009
Product Code
2009-01-1475
Content Type
Technical Paper
Language
English