1. Characterizing the variation of particles in varied sizes from a container truck in a port area.
- Author
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Zhao HM, He HD, Lu WZ, and Hao YY
- Subjects
- Cities, Environmental Monitoring, Motor Vehicles, Particulate Matter analysis, Vehicle Emissions analysis, Air Pollutants analysis, Air Pollution analysis
- Abstract
The transportation of container trucks in urban areas not only frequently causes traffic jams but also produces severe air pollution. With regard to this consideration, measurements of particle concentrations and traffic volume on different polluted days were carried out to discover the varied characteristics of particles from container truck transportation in the port area. Based on the original data, descriptive statistics were performed firstly to reveal the statistical characteristics of particle number concentrations (PNC). The Kolmogorov-Smirnov test as well as the Anderson-Darling test was adopted to identify the "best-fit" distributions on PNC data while the corresponding maximum likelihood estimation was conducted to estimate the parameters of the identified distribution. Additionally, the Pearson correlation analysis and principal component analysis were performed respectively to reveal the relationships between traffic volume and PNC. The results showed that on a hazy day, PNC levels in the morning were generally higher than those in the afternoon, while on a non-hazy day, the results were opposite. Particles in all sizes on a non-hazy day and larger than 0.5 μm on a hazy day were verified to fit the lognormal distribution. In contrast to the particles below 2 μm, the particles above 2 μm exhibited higher correlations with the traffic flow of a container truck in the morning on a hazy day. These results indicate the importance of reducing air pollution from a container truck and provide policymakers with a foundation for possible measures in a port city.
- Published
- 2020
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