Abstract
In the work presented in this paper, transient computational fluid dynamics-based simulations of soot combustion in a single-channel catalytic diesel particulate filter were run to investigate the combined effects of inlet gas velocity and catalyst activity on the dynamics of regeneration. From numerical results, the operating map of the filter was built in the plane maximum temperature versus time of regeneration. It has been found that all points fall within two zones of the map: a first zone of low temperature and long time of regeneration or, alternatively, a second zone of high temperature and short time of regeneration. The first zone corresponds to a regime of slow combustion (i.e., slow dynamics of regeneration with substantially uniform combustion), whereas the second zone corresponds to a regime of intense combustion (i.e., fast dynamics of regeneration that proceeds by a reaction front moving along the filter). At high inlet velocity, when the regime of intense combustion is established (at hig...
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