Details

Autor(en) / Beteiligte

• Huang, Ye
• Du, Wei
• Chen, Yuanchen
• Shen, Guofeng
• Su, Shu
• Lin, Nan
• Shen, Huizhong
• Zhu, Dan
• Yuan, Chenyi
• Duan, Yonghong
• Liu, Junfeng
• Li, Bengang
• Tao, Shu

Titel

Household air pollution and personal inhalation exposure to particles (TSP/PM2.5/PM1.0/PM0.25) in rural Shanxi, North China

Ist Teil von

• Environmental pollution (1987), 2017-12, Vol.231 (Pt 1), p.635-643

Ort / Verlag

England: Elsevier Ltd

Erscheinungsjahr

2017

Quelle

Access via ScienceDirect (Elsevier)

Beschreibungen/Notizen

• Personal exposure to size-segregated particles among rural residents in Shanxi, China in summer, 2011 were investigated using portable carried samplers (N = 84). Household air pollution was simultaneously studied using stationary samplers in nine homes. Information on household fuel types, cooking activity, smoking behavior, kitchen ventilation conditions etc., were also collected and discussed. The study found that even in the summer period, the daily average concentrations of PM2.5 and PM1.0 in the kitchen were as high as 376 ± 573 and 288 ± 397 μg/m3 (N = 6), that were nearly 3 times of 114 ± 81 and 97 ± 77 μg/m3 in the bedroom (N = 8), and significantly higher than those of 64 ± 28 and 47 ± 21 μg/m3 in the outdoor air (N = 6). The personal daily exposure to PM2.5 and PM1.0 were 98 ± 52 and 77 ± 47 μg/m3, respectively, that were lower than the concentrations in the kitchen but higher than the outdoor levels. The mass fractions of PM2.5 in TSP were 90%, 72%, 65% and 68% on average in the kitchen, bedroom, outdoor air and personal inhalation exposure, respectively, and moreover, a majority of particles in PM2.5 had diameters less than 1.0 μm. Calculated time-weighted average exposure based on indoor and outdoor air concentrations and time spent indoor and outdoor were positively correlated but, was ∼33% lower than the directly measured exposure. The daily exposure among those burning traditional solid fuels could be lower by ∼41% if the kitchen was equipped with an outdoor chimney, but was still 8–14% higher than those household using cleaning energies, like electricity and gas. With a ventilator in the kitchen, the exposure among the population using clean energies could be further reduced by 10–24%. [Display omitted] •High inhalation exposure of fine PM2.5 and PM1.0 among rural residents.•Smoking prevails on cooking in increasing exposure to finer particles.•PM exposure could be reduced by ∼43% by improving kitchen ventilation conditions.•Replacing solid fuels with clean energies could lower PM exposure by 26–38%.•Inhalation exposure was underestimated by ∼33% if estimated from stationary samplers. High contamination levels and personal inhalation exposure were in rural Chinese households even in the summer period without space heating, and high fractions of submicron PM1.0 was observed.