Title:Primary Particulate Matter Emitted from Heavy Fuel and Diesel Oil Combustion in a Typical Container Ship: Characteristics and Toxicity
Journal/Publisher:Environmental Science & Technology
Year:2018
Authors: Di Wu, Qing Li, Xiang Ding, Jianfeng Sun, Dan Li, Hongbo Fu, Monique Teich, Xingnan Ye, and Jianmin Chen
Abstract
Container ships have been widely recognized as an important emission source within maritime transport. Heavy fuel oil (HFO) and diesel oil (DO) are the two most commonly used fuels. This study reports the characteristics and toxicities of particulate matter (PM) emissions from HFO and DO combustion in a typical container ship. The PM number size distribution possesses a bimodal structure with peaks at ~20 nm and ~100 nm. The PM2.5 emission factor (EF) are 3.15 ± 0.39 and 0.92 ± 0.02 g/kg fuel for HFO and DO, respectively. The benzo[a]pyrene equivalent carcinogenic potency (BaPeq) of 16 polycyclic aromatic hydrocarbons contained in HFO and DO PM2.5 are approximately 0.81 ± 0.10 and 0.12 ± 0.04 mg/kg fuel, respectively. BaPeq concentration shows an increasing tendency with decreased PM size. The reactive oxygen species activity and cytotoxicity of HFO PM2.5 samples are ~2.1 and ~2.5 times higher than those of DO PM2.5 samples, respectively. These health risks are both significantly attributed to the BaPeq content in PM2.5 with correlations of 0.86~0.92. Furthermore, the examined biological effects are much greater than those of PM2.5 collected in Shanghai. Our results imply that better fuel quality is important for improving air quality and reducing health risks.
