AI Article Synopsis
- The study assessed emissions from five low-mileage, heavy-duty diesel trucks (2012+) with advanced pollution control devices during various driving cycles.
- NOx emissions varied significantly across different conditions, with the highest emissions during low-speed creep cycles and lowest during highway cruising.
- One truck exhibited unusual behavior, initially emitting high NOx levels due to lack of maintenance, but showed improvement after being subjected to regeneration processes.
Article Abstract
The regulated emissions of five 2012 and newer, low-mileage, heavy-duty Class 8 diesel trucks equipped with diesel particulate filters (DPFs) and selective catalytic reduction (SCR) systems were evaluated over test cycles representing urban, highway, and stop-and-go driving on a chassis dynamometer. NOx emissions over the Urban Dynamometer Driving Schedule (UDDS) ranged from 0.495 to 1.363g/mi (0.136 to 0.387g/bhp-hr) for four of the normal emitting trucks. For those trucks, NOx emissions were lowest over the cruise (0.068 to 0.471g/mi) and high-speed cruise (0.067 to 0.249g/mi) cycles, and highest for the creep cycle (2.131 to 9.468g/mi). A fifth truck showed an anomaly in that it had never regenerated throughout its relatively short operating lifetime due to its unusual, unladed service history. This truck exhibited NOx emissions of 3.519g/mi initially over the UDDS, with UDDS NOx emissions decreasing to 0.39g/mi after a series of parked regenerations. PM, THC, and CO emissions were found to be very low for most of the testing conditions, due to the presence of the DPF/SCR aftertreatment system, and were comparable to background levels in some cases.
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| http://dx.doi.org/10.1016/j.scitotenv.2017.11.120 | DOI Listing |
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