汽车排放超细微粒数浓度及粒径谱特征的实验研究

采用快速迁移率粒径谱仪(fast mobility particle sizer,FMPS)结合汽车尾气分析仪对3辆不同型号汽车排放超细颗粒数浓度进行测量,分析了空载情况不同转速下排气管附近超细颗粒数浓度及粒径谱特征.结果表明,在怠速800 r·min-1情况下,汽车排放的颗粒数浓度最低,随着空载转速的增加颗粒数浓度呈增高趋势.尾气颗粒以核模态和爱根核模态为主,峰值粒径集中在10 nm和50 nm.汽车加速过程排放颗粒数浓度有明显的急剧升高过程,在车速稳定后颗粒物浓度趋于稳定.在排气管尾部轴向距离0.4 m范围内颗粒稀释后数浓度衰减迅速,在0.4~1 m范围稀释不明显,均大于背景浓度.空载情况下随发动机转速增加,汽车排放尾气CO、HC和NO浓度呈减少趋势,与颗粒物数浓度排放趋势相反.

Ultrafine Particle Number Concentration and Size Distribution of Vehicle Exhaust Ultrafine Particles

Ultrafine particle (UFP) number concentrations obtained from three different vehicles were measured using fast mobility particle sizer (FMPS) and automobile exhaust gas analyzer. UFP number concentration and size distribution were studied at different idle driving speeds. The results showed that at a low idle speed of 800 r ·min^-1, the emission particle number concentration was the lowest and showed a increasing trend with the increase of idle speed. The majority of exhaust particles were in Nuclear mode and Aitken mode. The peak sizes were dominated by 10 nm and 50 nm. Particle number concentration showed a significantly sharp increase during the vehicle acceleration process, and was then kept stable when the speed was stable. In the range of 0.4 m axial distance from the end of the exhaust pipe, the particle number concentration decayed rapidly after dilution, but it was not obvious in the range of 0.4-1 m. The number concentration was larger than the background concentration. Concentration of exhaust emissions such as CO, HC and NO showed a reducing trend with the increase of idle speed,which was in contrast to the emission trend of particle number concentration.