Publication detail
Seasonal Variability of Resuspension
LINDA, J. KÖBÖLOVÁ, K. UHLÍK, O. POSPÍŠIL, J. APELTAUER, T.
English title
Seasonal Variability of Resuspension
Type
conference paper
Language
en
Original abstract
Particulate air pollution in cities is caused by a variety of sources. One of the less-studied contributors is wind-induced particle resuspension. As the wind speed increases, particles are removed from surfaces. These particles cause an increase in the total concentration in the air. It is known that particles of 10-2.5 μm in size can be resuspended (PM10-2,5). Modern emission monitoring in cities also allows the monitoring of fine particles of 10, 2.5 and 1 μm in size. The size fractions can then be sorted into PM10-2,5, PM2,5-1 and PM1. When breathed in, particles of different sizes cause various serious health risks. This paper focuses on the identification of the resuspension process of different particle size fractions by a data processing method. Data measured by automatic emission monitoring are used. It is confirmed that the concentration increase can be dominated by the fraction PM10-2,5. However, a concentration increase of fractions PM2,5-1 and PM1 is also evident with increasing wind speed. Although the increase in the PM1 fraction is smaller than PM10-2,5, it is more severe due to the respiratory deposition dose. The resuspension of particles of different fractions has different behaviours during the year. PM10-2,5 particles are dominantly resuspended in the summer months. In winter, on the other hand, the proportion of PM2.5-1 and PM1 particles increases, which may be related to the heating season
English abstract
Particulate air pollution in cities is caused by a variety of sources. One of the less-studied contributors is wind-induced particle resuspension. As the wind speed increases, particles are removed from surfaces. These particles cause an increase in the total concentration in the air. It is known that particles of 10-2.5 μm in size can be resuspended (PM10-2,5). Modern emission monitoring in cities also allows the monitoring of fine particles of 10, 2.5 and 1 μm in size. The size fractions can then be sorted into PM10-2,5, PM2,5-1 and PM1. When breathed in, particles of different sizes cause various serious health risks. This paper focuses on the identification of the resuspension process of different particle size fractions by a data processing method. Data measured by automatic emission monitoring are used. It is confirmed that the concentration increase can be dominated by the fraction PM10-2,5. However, a concentration increase of fractions PM2,5-1 and PM1 is also evident with increasing wind speed. Although the increase in the PM1 fraction is smaller than PM10-2,5, it is more severe due to the respiratory deposition dose. The resuspension of particles of different fractions has different behaviours during the year. PM10-2,5 particles are dominantly resuspended in the summer months. In winter, on the other hand, the proportion of PM2.5-1 and PM1 particles increases, which may be related to the heating season
Keywords in English
health risk assessment, RDD, PM, particulate matter, road dust
Released
04.11.2022
Publisher
EDP Sciences
Location
Piešťany
ISSN
2261-236X
Book
2261-236X
Volume
369
Number
1
Pages from–to
1–11
Pages count
11
BIBTEX
@inproceedings{BUT179941,
author="Jakub {Linda} and Klaudia {Köbölová} and Ondřej {Uhlík} and Jiří {Pospíšil} and Tomáš {Apeltauer},
title="Seasonal Variability of Resuspension",
booktitle="2261-236X",
year="2022",
volume="369",
number="1",
month="November",
pages="1--11",
publisher="EDP Sciences",
address="Piešťany",
issn="2261-236X"
}