Vehicle emissions are a major source of greenhouse gases globally. Dual selective catalytic reduction (SCR), an advanced version of single SCR, is crucial under stricter nitrogen oxide (NO) emission standards for heavy-duty diesel vehicles (HDDVs). However, the emission characteristics of nitrous oxide (NO), a byproduct of SCR and a potent greenhouse gas, remain unclear. This study investigates the NO emissions from HDDVs equipped with single or dual SCR systems using heavy-duty chassis dynamometers under various ambient temperatures, altitudes, and loading masses. The results showed that the brake-specific emissions (EF) of NO from HDDVs with single and dual SCRs were 76.28-269.65 mg/kWh and 147.50-170.22 mg/kWh, respectively. Notably, the dual SCR-equipped HDDV emitted 6-22 times more NO than NO under all tested conditions. As ambient temperature increased from -10 °C to 25 °C and from 25 °C to 40 °C, the average distance-based emission factors (EF) of NO for the single SCR-equipped HDDV increased by 87.73% and 48.26%, respectively. However, the variation was not significant for the dual SCR-equipped HDDV. Under half- and full-load conditions, the average EF of NO for the single SCR-equipped HDDV increased by 47.57% and 110.92%, respectively, compared to those without loading. Similarly, NO emissions for dual SCR-equipped HDDV increased by 41.40% and 65.37% under the same loading variations. As altitude increased from 0 m to 3000 m, the average EF of NO for the single SCR-equipped HDDV decreased by 64.31%. Additionally, NO emissions were significantly affected by SCR temperature, engine power, and nitric oxide (NO)/nitrogen dioxide (NO) ratio. These findings are crucial for setting future greenhouse gas limits of HDDVs and informing carbon reduction strategies.
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http://dx.doi.org/10.1016/j.envpol.2024.125269 | DOI Listing |
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