Integrated effects of SCR, velocity, and Air-fuel Ratio on gaseous pollutants and CO2 emissions from China V and VI heavy-duty diesel vehicles

Abstract

Vehicle exhaust, an important source of air pollution, is affected by many factors, including driving conditions, combustion efficiencies, and the usage of emission control devices. In this study, the Portable Emission Measurement System (PEMS) was used to test the emissions from China V and China VI heavy-duty diesel vehicles to evaluate the integrated effects of Selective Catalytic Reduction (SCR), velocity, and air-fuel ratio on carbon dioxide (CO2) and nitrogen oxide (NOx) emissions. Our results reveal that the average distance-based CO2 and CO emission factors at high velocities (50–90 km/h) are 25% and 61% lower than those at low velocities (less than 50 km/h). The use of SCR increases CO2 emissions in the range of 70–90 km/h (an average increase of 10.9%). In addition, SCR leads to a 55% NOx emission reduction at low velocities and 89% at high velocities, with an overall average reduction of 84%. We also find that SCR leads to a significant reduction in the correlation between NOx emissions and air-fuel ratio (0.76 vs 0.47 for China V truck; 0.72 vs 0.05 for China VI truck), but it does not cause a drastic reduction in the correlation coefficients between CO2 emissions and air-fuel ratio, which can be used to detect whether SCR is working effectively.