PM10 is known to have a great adverse effect on the human body. However, there is a lack of research analyzing the impact of PM10 on the occurrence of accidents. Accordingly, the purpose of this study is to analyze the correlation between PM10 and accidents in the construction industry and to present a new concentration group to manage accidents caused by PM10 in the construction industry. This study was conducted in the following four stages. (i) collection of data, (ii) classification of data, (iii) relative probability analysis, and (iv) modified PM10 group classification. The main results of this study are as follows. When the frequency analysis of the traditional method was conducted, 3,721 accidents occurred at a PM10 concentration of 32 μg/m3. However, as a result of the relative probability analysis presented in this study, it was confirmed that the relative accident probability increased as the PM10 concentration increased. In addition, the current PM10 concentration is presented by the WHO in six groups from a health perspective. However, in this study, the newly proposed PM10 group was classified into three groups from the perspective of the probability of construction accidents. The group proposed in this study is not from a health perspective but a group for managing construction site accidents. The contribution of this study was to confirm that PM10 also affects accidents occurring at construction sites, and the impact of PM10 on accidents was quantitatively analyzed through the relative probability analysis presented in this study.
CITATION STYLE
Lee, M., Jeong, J., & Kim, D. (2023). Evaluation of the effect of particulate matter on construction accidents using relative probability. Scientific Reports, 13(1). https://doi.org/10.1038/s41598-023-45358-y
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