Title
|
PM or Toxic substances
|
PM size
|
Health risk assessment
|
Reference
|
The construction dust-induced occupational health risk using
Monte-Carlo simulation
|
PM
|
TSP
|
yes
|
Tong et al. (2018)
|
Occupational health risk assessment based on actual dust exposure in a
tunnel construction adopting roadheader in Chongqing, China
|
PM
|
PM10
|
yes
|
Chen et al. (2019)
|
Exposure to Crystalline Silica Inhalation
Among Construction Workers: A
Probabilistic Risk Analysis
|
Silica
|
|
yes
|
Yeheyis et al. (2012)
|
Risk Assessment of Workers Exposed to Crystalline
Silica Aerosols in the East Zone of Tehran
|
silica
|
|
yes
|
Azari et al. (2009)
|
Risk Assessment of Exposure to Silica Dust in Building Demolition
Sites
|
silica
|
|
yes
|
Normohammadi et al. (2016)
|
Risks related to heavy metal pollution in urban construction dust fall of fast-developing Chinese cities
|
PM
|
TSP
|
yes
|
Yang et al. (2020)
|
Composition of heavy metals and airborne fibers
in the indoor environment of a building during renovation
|
PM and Toxic substances
|
PM10
|
no
|
Latif et al. (2010)
|
Size and site dependent biological hazard potential of particulate matters collected from different heights at the vicinity of a building construction
|
PM and Toxic substances
|
PM8.1-20, PM2-4, and PM0.25-0.5
|
no
|
Li et al. (2015)
|
Ambient exposure to coarse and fine particle emissions from buildingdemolition
|
PM and toxic substances
|
PM10, PM2.5, and PM1
|
no
|
Azarmi and Kumar (2016)
|
Particulate Matter Concentration from Construction
Sites: Concrete and Masonry Works
|
PM and toxic substances
|
TSP and PM10
|
no
|
Moraes et al. (2016)
|
