Comparative Study of Exposure Assessment of Dust in Building
Materials Enterprises Using ART and Monte Carlo
Dublin Core
Title
Comparative Study of Exposure Assessment of Dust in Building
Materials Enterprises Using ART and Monte Carlo
Materials Enterprises Using ART and Monte Carlo
Subject
ART
Building materials enterprises
Dust
Exposure assessment
Monte Carlo model
Building materials enterprises
Dust
Exposure assessment
Monte Carlo model
Description
Dust generated during the processing of building materials enterprises can pose a serious health
risk. The study aimed to compare and analyze the results of ART and the Monte Carlo model for the dust
exposure assessment in building materials enterprises, to derive the application scope of the two models.
Methods: First, ART and the Monte Carlo model were used to assess the exposure to dust in each of the 15
building materials enterprises. Then, a comparative analysis of the exposure assessment results was
conducted. Finally, the model factors were analyzed using correlation analysis and the scope of application of the models was determined.
Results: The results show that ART is mainly influenced by four factors, namely, localized controls,
segregation, dispersion, surface contamination, and fugitive emissions, and applies to scenarios where
the workplace information of the building materials enterprises is specific and the average dust concentration is greater than or equal to 1.5 mg/m3
. The Monte Carlo model is mainly influenced by the dust
concentration in the workplace of building materials enterprises and is suitable for scenarios where the
dust concentration in the workplace of the building materials enterprises is relatively uniform and the
average dust concentration is less than or equal to 6mg/m3
.
Conclusion: ART is most accurate when workplace information is specific and average dust concentration
is > 1.5 mg/m3
; whereas, The Monte Carlo model is the best when dust concentration is homogeneous
and average dust concentration is < 6 mg/m3
risk. The study aimed to compare and analyze the results of ART and the Monte Carlo model for the dust
exposure assessment in building materials enterprises, to derive the application scope of the two models.
Methods: First, ART and the Monte Carlo model were used to assess the exposure to dust in each of the 15
building materials enterprises. Then, a comparative analysis of the exposure assessment results was
conducted. Finally, the model factors were analyzed using correlation analysis and the scope of application of the models was determined.
Results: The results show that ART is mainly influenced by four factors, namely, localized controls,
segregation, dispersion, surface contamination, and fugitive emissions, and applies to scenarios where
the workplace information of the building materials enterprises is specific and the average dust concentration is greater than or equal to 1.5 mg/m3
. The Monte Carlo model is mainly influenced by the dust
concentration in the workplace of building materials enterprises and is suitable for scenarios where the
dust concentration in the workplace of the building materials enterprises is relatively uniform and the
average dust concentration is less than or equal to 6mg/m3
.
Conclusion: ART is most accurate when workplace information is specific and average dust concentration
is > 1.5 mg/m3
; whereas, The Monte Carlo model is the best when dust concentration is homogeneous
and average dust concentration is < 6 mg/m3
Creator
Wei Jiang 1,*, Zonghao Wu 2
, Mengqi Zhang 1
, Haoguang Zhang 1
, Mengqi Zhang 1
, Haoguang Zhang 1
Source
https://pdf.sciencedirectassets.com/287282/1-s2.0-S2093791124X00025/1-s2.0-S2093791123000926/main.pdf?X-Amz-Security-Token=IQoJb3JpZ2luX2VjED4aCXVzLWVhc3QtMSJHMEUCIQCi8tFHLrUMzX46uuJXxo1oDGAbKLqvaGy7qgs5B77UsQIgM0ZAABUGDe0tp40Ddr04pVE5uKwnpplHvESAxUhriHYqsgUIBxAFGgwwNTkwMDM1NDY4NjUiDCTrOvYJMww%2F7F058SqPBeu9hr%2FiyCku7ovgcHvJvrEtaLIkMx72GzaEugih%2FTlqvlKJlBZkzV%2Fd2%2FVphdtGmc2hY%2FMO6eP4yrHukDhURpP%2BiLqFqGavT%2BkpEkNTZ90%2B1Yk40UP1q%2F1HIsdoo3B7f7KSJhcZ54oTjtj0ea%2FZx24uVmKrmwoxADqqut%2BUzpcRVvUAU2dOty66JjMKOzDnlH32GirAx3wwJor5ti7KXyiKMxowOuvtMzKTi48BL4ltwqxtJXuinFTrFvHT4SZr%2BINvxWeVITD1CFbv6XolfrgfPxyg%2B5wBOuKkmWhCeSjbh8tWy6C4CYep4U9ZAjqu4nuHauRDdasrkD1T214EKnz9yRgzNQh3rp0QZXGFnylDNWprBCUIto3u5cZ0SITWijcyDGTz5DTatWfBML6loDGXALXjJeJV7%2BqV554icJlMytnjUa8xUZA2NGtRzAa91GtM3n7AAqfM%2FeJjK3F%2FevqDVN5Hb6niEK%2BAK9Fkzj1wQGJ3v07tvoFa3VsJG6%2BMWEoMGgNxB5f7L0soIuTyq%2BqEZMA09xce9kj2j4F%2BkILt0DkPvMioUvirCQkJBAAfe1maLVGKB8ifm6FeONlTEzDWJAcB1KNfmF81i7qUdaEg2b01nL5KVjqp9rhmWoXote7WpI1%2F4byR2uxff4j3GhGnxcaF%2F0cMYPlNqKso5ziwlnytaPaZQayIIwrEUbXW90n4DJxk8HKd2AjfacmKqlozFC7juTGDzUufV5bS5QHDVLVlspMz8OrkmEjm1gF%2BQHeJrh587BJUZ89JvHUb8GU%2BiIMNx18QuM7gSxdZjWyl4IQkXy0AZGAPvrwC%2F2KBwHdBXNM61qW8g9nw7bY%2F8mjsp4m6QaqQpy4s4pFmPvowlJz6zAY6sQHslJaG7JbrjYPdmGWlFoxcDQ4a5gaCt3Ohf3dQjLUSO8OQ8e%2FCMQURG6qldhI3pXptaW8G6GU6tfR%2B9yx7XbGNYP05t9jpBuOlOtxaMFnOyVcIDImVt6WwQttQT%2Fc6mS5HxdXqcKiCdDG4%2BAFkSpx%2FeNxS8mEVO87m6eYpeYs5nQLRZX2y6SmdclAkftMXr%2Fv%2FdSV%2FaKpejzIG6V%2FeGdZG%2BT1JBIMjmStrplxRzPlstXs%3D&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Date=20260225T055741Z&X-Amz-SignedHeaders=host&X-Amz-Expires=300&X-Amz-Credential=ASIAQ3PHCVTYX2IQ6LO2%2F20260225%2Fus-east-1%2Fs3%2Faws4_request&X-Amz-Signature=69c443243f0985306c36de40c2a6d45fc111fea651add0a65ba8c068550f030e&hash=7544302fabc87eac65eb072c2cfb6e00efa59227fedbfb10531ff8fd96c9f975&host=68042c943591013ac2b2430a89b270f6af2c76d8dfd086a07176afe7c76c2c61&pii=S2093791123000926&tid=spdf-085d441b-ff84-4252-9e96-624309c9b579&sid=323f66de8e4980408c0be7b-7fe7e7fe55f2gxrqb&type=client&tsoh=d3d3LnNjaWVuY2VkaXJlY3QuY29t&rh=d3d3LnNjaWVuY2VkaXJlY3QuY29t&ua=0b015e065456075057&rr=9d34f771dafdea76&cc=id
Publisher
1 China University of Mining & Technology (Beijing), School of Emergency Management and Safety Engineering, Beijing, China
2 Shanxi Kunming Tobacco Co., Shanxi, China
2 Shanxi Kunming Tobacco Co., Shanxi, China
Date
29 December 2023
Contributor
FAJAR BAGUS W
Format
PDF
Language
ENGLISH
Type
TEXT
Files
Citation
Wei Jiang 1,*, Zonghao Wu 2
, Mengqi Zhang 1
, Haoguang Zhang 1, “Comparative Study of Exposure Assessment of Dust in Building
Materials Enterprises Using ART and Monte Carlo,” Repository Horizon University Indonesia, accessed April 25, 2026, https://repository.horizon.ac.id/items/show/11654.
Materials Enterprises Using ART and Monte Carlo,” Repository Horizon University Indonesia, accessed April 25, 2026, https://repository.horizon.ac.id/items/show/11654.