Abstract. Emissions from ships at berth play an important role regarding the exposure
of high density human populations to atmospheric pollutants in port areas;
however, these emissions are not well understood. In this study, volatile
organic compounds (VOCs) and particle emissions from 20 container ships at
berth were sampled and analyzed during the “fuel switch” period at Jingtang
Port in Hebei Province, China. VOCs and particles were analyzed using a gas
chromatography-mass spectrometer (GC-MS) and a single particle aerosol mass
spectrometer (SPAMS), respectively. VOC analysis showed that alkanes and
aromatics, especially benzene, toluene and heavier compounds e.g.,
n-heptane, n-octane and n-nonane, dominated the total identified
species. Secondary organic aerosol (SOA) yields and ozone (O3)
forming potential were
0.017 ± 0.007 g SOA g−1 VOCs and
2.63 ± 0.37 g O3 g−1 VOCs, respectively. Both positive and
negative ion mass spectra from individual ships were derived and the
intensity of specific ions were quantified. Results showed that elemental
carbon (35.74 %), elemental carbon–organic carbon mixtures (33.95 %)
and Na-rich particles (21.12 %) were major classes, comprising 90.7 %
of the particles observed. Particles from ship auxiliary engines were in the
0.2 to 2.5 µm size range, with a peak occurring at around
0.4 µm. The issue of using vanadium (V) as tracer element was
examined, and it was found that V was not a proper tracer of ship emissions
when using low sulfur content diesel oil. The average percentage of sulfate
particles observed in shipping emissions before and after switching to marine
diesel oil remained unchanged at 24 %. Under certain wind conditions,
when berths were upwind of emission sources, the ratios before and after
1 January were 35 and 27 % respectively. The impact of atmospheric
stability was discussed based on PM2.5 and primary pollutant (carbon
monoxide) concentration. With a background of frequent haze episodes and
complex mechanisms of particulate accumulation and secondary formation, the
impact of atmospheric stability is believed to have been weak on the sulfate
contribution from shipping emissions. The results from this study provide
robust support for port area air quality assessment and source apportionment.
A scripted activity study of the impact of protective advice on personal exposure to ultra-fine and fine particulate matter and volatile organic compounds
