State Key Laboratory of Loess and Quaternary Geology, Institute of Earth Environment, Chinese Academy of Sciences, Xi'an 710061, China.
National Observation and Research Station of Regional Ecological Environment Change and Comprehensive Management in the Guanzhong Plain, Xi'an 710061, China.
Environ Sci Technol. 2024 Sep 10;58(36):16006-16015. doi: 10.1021/acs.est.4c01183. Epub 2024 Jul 25.
Ship emissions are a significant source of air pollution, and the primary policy to control is fuel oil quality improvement. However, the impact of this policy on particle size distribution and composition characteristics remains unclear. Measurements were conducted on nine different vessels (ocean-going vessels, coastal cargo ships, and inland cargo ships) to determine the impact of fuel upgrading ( < 0.1% m/m marine gas oil (MGO) vs < 0.5% m/m heavy fuel oil (HFO)) on elemental carbon (EC) and polycyclic aromatic hydrocarbons (PAHs) emitted by ships. (1) Fuel improvement significantly reduced EC and PAH emission, by 31 ± 25 and 45 ± 38%, respectively. However, particle size distributions showed a trend toward finer particles, with the peak size decreasing from = 0.38-0.60 μm (HFO) to = 0.15-0.25 μm (MGO), and the emission factor of < 100 nm increased. (2) Changes in emission characteristics led to an increase in the toxicity of ultrafine particulate matter. (3) Ship types and engine conditions affected the EC and PAH particle size distributions. Inland ships have a more concentrated particle size distribution. Higher loads result in higher emissions. (4) The composition and engine conditions of fuel oils jointly affected pollutant formation mechanisms. MGO and HFO exhibited opposite EC emissions when emitting the same level of PAHs.
船舶排放是空气污染的一个重要来源,主要的控制政策是改善燃油质量。然而,这项政策对颗粒物粒径分布和组成特征的影响仍不清楚。本研究对 9 艘不同船舶(远洋船舶、沿海货船和内陆货船)进行了测量,以确定燃料升级(<0.1%m/m 船用柴油(MGO)与<0.5%m/m 重质燃料油(HFO))对船舶排放的元素碳(EC)和多环芳烃(PAHs)的影响。(1)燃料改进显著降低了 EC 和 PAH 的排放,分别降低了 31%±25%和 45%±38%。然而,粒径分布显示出向更细颗粒的趋势,峰值粒径从 =0.38-0.60μm(HFO)降低到 =0.15-0.25μm(MGO),并且<100nm 的排放因子增加。(2)排放特征的变化导致超细颗粒物的毒性增加。(3)船舶类型和发动机状况影响 EC 和 PAH 的粒径分布。内陆船舶的粒径分布更为集中。更高的负荷导致更高的排放。(4)燃油的组成和发动机状况共同影响污染物形成机制。在排放相同水平的 PAHs 时,MGO 和 HFO 的 EC 排放表现出相反的趋势。
