Title of article
Impact of different configurations of a Diesel oxidation catalyst on the CO and HC tail-pipe emissions of a Euro4 passenger car
Author/Authors
Efthimios Zervas، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
5
From page
962
To page
966
Abstract
Different configurations were used to study the impact of a Diesel oxidation catalyst position on the HC and CO oxidation efficiency of a Euro4 Diesel passenger car. An oxidation catalyst of 0.8 L downstream EGR port is the original configuration. Another two configurations are studied in this work: the same catalytic volume put upstream EGR port and four small close-coupled catalysts of 0.06 L each put in the exhaust manifold very close to the engine exhaust valve. The results show that the configuration upstream EGR port leads to a significant increase on HC conversion efficiency; however, CO tail-pipe emissions remain practically unchanged. The four small close-coupled catalysts put in the exhaust manifold, despite the higher exhaust temperature, show lower oxidation efficiency due to the high space velocity, however, they can be used in the case of little available space for a bigger catalyst. In all configurations studied, there is a significant difference on CO and HC conversion efficiency and thus on tail-pipe emissions in the case of aged oxidation catalysts compared to fresh ones.
Keywords
EGR , Diesel , Emissions , HC , Oxidation catalyst , Engine-out emissions , Tail-pipe emissions , Oxidation efficiency , Close-coupled catalyst , CO
Journal title
Applied Thermal Engineering
Serial Year
2008
Journal title
Applied Thermal Engineering
Record number
1041593
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