2008
DOI: 10.5194/acp-8-2387-2008
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Experimental studies on particle emissions from cruising ship, their characteristic properties, transformation and atmospheric lifetime in the marine boundary layer

Abstract: Abstract. Particle emissions from ship engines and their atmospheric transformation in the marine boundary layer (MBL) were investigated in engine test bed studies and in airborne measurements of expanding ship plumes. During the test rig studies, detailed aerosol microphysical and chemical properties were measured in the exhaust gas of a serial MAN B&W seven-cylinder four-stroke marine diesel engine under various load conditions. The emission studies were complemented by airborne aerosol transformation studie… Show more

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Cited by 209 publications
(282 citation statements)
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References 38 publications
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“…Although the relative contribution of shipping to ambient PM 2.5 is lower in our case, freshly emitted ship exhaust particle numbers reside predominantly in the ultrafine mode (Fridell et al, 2008;Healy et al, 2009;Ault et al, 2010), and epidemiological research suggests that fine or ultrafine particle number concentrations may represent a more accurate metric than PM 2.5 mass concentrations when estimating the health impacts of anthropogenic particulate sources (Ibald-Mulli et al, 2002;Kreyling et al, 2006;Hoek et al, 2010). Several recent articles have focused on estimating the regional and global impact of emissions from shipping (Eyring et al, 2007;Petzold et al, 2008;Jalkanen et al, 2009;Marmer et al, 2009;Viana et al, 2009;Pey et al, 2010), highlighting the need for corresponding source apportionment of PM in locations impacted by this source. Thus, knowledge of the relative contribution of fresh ship exhaust particles of unregulated composition to air quality in a port environment is of particular importance considering the growth of shipping activity worldwide, and the expected resultant effect on human health (Winebrake et al, 2009;Dalsøren et al, 2010).…”
Section: Shippingmentioning
confidence: 88%
“…Although the relative contribution of shipping to ambient PM 2.5 is lower in our case, freshly emitted ship exhaust particle numbers reside predominantly in the ultrafine mode (Fridell et al, 2008;Healy et al, 2009;Ault et al, 2010), and epidemiological research suggests that fine or ultrafine particle number concentrations may represent a more accurate metric than PM 2.5 mass concentrations when estimating the health impacts of anthropogenic particulate sources (Ibald-Mulli et al, 2002;Kreyling et al, 2006;Hoek et al, 2010). Several recent articles have focused on estimating the regional and global impact of emissions from shipping (Eyring et al, 2007;Petzold et al, 2008;Jalkanen et al, 2009;Marmer et al, 2009;Viana et al, 2009;Pey et al, 2010), highlighting the need for corresponding source apportionment of PM in locations impacted by this source. Thus, knowledge of the relative contribution of fresh ship exhaust particles of unregulated composition to air quality in a port environment is of particular importance considering the growth of shipping activity worldwide, and the expected resultant effect on human health (Winebrake et al, 2009;Dalsøren et al, 2010).…”
Section: Shippingmentioning
confidence: 88%
“…Previous stack emission measurements were reported in several studies (e.g. Petzold et al, 2008;Moldanová et al, 2009).…”
Section: Stena Hollandica On-board Stack Measurementsmentioning
confidence: 97%
“…While all observations shown in Fig. 3 display a single peak, measurements of double-peak structures have been obtained in test bed studies (Petzold et al, 2008). In terms of N a , smaller peak perturbations are simulated in ship10A than observed, as the aged emission size distribution was developed to represent older plume segments, which consequentially are more diluted.…”
Section: Utc 12 Utcmentioning
confidence: 99%
“…3 blue markers) and Petzold et al (2008) (Fig. 3 orange markers), while peak amplitudes are underestimated with respect to the observations in ship and ship10A.…”
Section: Impacts On Aerosol Microphysicsmentioning
confidence: 99%