期刊
ENVIRONMENTAL SCIENCE & TECHNOLOGY
卷 40, 期 12, 页码 3912-3921出版社
AMER CHEMICAL SOC
DOI: 10.1021/es051455x
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The aerodynamic size and chemical composition of individual ultrafine and accumulation mode particle emissions ( D-a) 50-300 nm) were characterized to determine mass spectral signatures for heavy duty diesel vehicle ( HDDV) emissions that can be used for atmospheric source apportionment. As part of this study, six in-use HDDVs were operated on a chassis dynamometer using the heavy heavy-duty diesel truck ( HHDDT) five-cycle driving schedule under different simulated weight loads. The exhaust emissions were passed through a dilution/residence system to simulate atmospheric dilution conditions, after which an ultrafine aerosol time-of-flight mass spectrometer ( UF-ATOFMS) was used to sample and characterize the HDDV exhaust particles in real-time. This represents the first study where refractory species including elemental carbon and metals are characterized directly in HDDV emissions using on-line mass spectrometry. The top three particle classes observed with the UF-ATOFMS comprise 91% of the total particles sampled and show signatures indicative of a combination of elemental carbon ( EC) and engine lubricating oil. In addition to the vehicle make/year, the effects of driving cycle and simulated weight load on exhaust particle size and composition were investigated.
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