Journal
JOURNAL OF CLEANER PRODUCTION
Volume 298, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.jclepro.2021.126833
Keywords
Engine emission reduction; Natural gas engine; Three-way catalyst; Platinum group metal loading; Platinum group metal ratio
Categories
Funding
- National Key R&D Program of China [2017YFE0102800]
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This study investigated the effect of PGM loadings and ratios on the emission characteristics of a heavy-duty natural gas engine using six different three-way catalysts. The results showed that optimizing catalyst parameters should consider NOx emissions as the most important factor. PGM ratio can significantly affect total emissions and peak emissions distribution, while PGM loading has minimal impact on total emissions.
In this study, six different three-way catalysts were tested based on the engine bench to investigate the effect of platinum group metal (PGM) loadings and ratios of the catalysts on the transient emission characteristics of a heavy-duty natural gas engine. From the results of this study, NOx are the most important emissions to be considered when optimizing catalyst parameters. PGM ratio can significantly affect the total emissions and change the distribution of peak emissions, while PGM loading showed small impact on total emissions and no effect on peak emissions distribution. The main contribution of higher PGM loading and better PGM ratio were the faster light-off of the after-treatment system and the reduction of peak emissions. With decrease of Rh content and Pt/Pd ratio, NOx, HC, and CO emissions all increased, while NH3 concentration decreased. Pt is indispensable in formula and TWC without Pt content exceeded the regulation limit. For NH3, the average concentration increased in cold-start cycle and decreased in hot-start cycle when PGM loading increased. Slightly reduce the Rh content and increase the Pt/Pd ratio is a feasible route to reduce the cost of the TWC as well as maintain a high effi-ciency. The findings of this paper provide scientific references to balance cost and performance of TWC on natural gas engine, while achieving engine clean emissions. (c) 2021 Elsevier Ltd. All rights reserved.
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