Effects of Retrofitting Emission Control Systems on In-Use Heavy Diesel Vehicles

摘要

Diesel engines are now the largest source of nitrogen oxides (NO_x) and fine particulate black carbon (soot) emissions in California. The California Air Resources Board recently adopted a rule requiring that by 2014 all in-use heavy trucks and buses meet current (2007) exhaust particulate matter (PM) emission standards. Also by 2023 all in-use heavy-duty vehicles will have to meet current NO_x emission standards, with significant progress in achieving the requirements for NO_x control expected by 2014. This will require retrofit or replacement of older in-use engines. Diesel particle filters (DPF) reduce PM emissions but may increase the NO_2/NO_x emission ratio to ～35%, compared to ～5% typical of diesel engines without particle filters. Additionally, DPFwith high oxidative capacity reduce CO and hydrocarbon emissions. We evaluate the effects of retrofitting trucks with DPF on air quality in southern California, using an Eulerian photochemical air quality model. Compared to a 2014 reference scenario without the retrofit program, black carbon concentrations decreased by 12 ± 2% and 14 ± 2% during summer and fall, respectively, with corresponding increases in ambient ozone concentrations of 3 ± 2% and 7 ± 3%. NO_2 concentrations decreased by 2-4% overall despite the increase in primary NO_2 emissions because total NO_x emissions were reduced as pa rtofthe program to retrofit NO, control systems on in-use engines. However, in some cases NO_2 concentrations may increase at locations with high diesel truck traffic.