Real‐time characterization of aerosol particle composition, sources and influences of increased ventilation and humidity in an office

• Published in: Indoor air Vol. 31; no. 5; pp. 1364 - 1376
• Main Authors: Li, Junyao, Xu, Weiqi, Li, Zhijie, Duan, Minzheng, Ouyang, Bin, Zhou, Shan, Lei, Lu, He, Yao, Sun, Jiaxing, Wang, Zifa, Du, Lin, Sun, Yele
• Format: Journal Article
• Language: English
• Published: England Hindawi Limited 01.09.2021
• Subjects: aerosol composition; Aerosols; Airborne particulates; Ammonium; Ammonium nitrate; Black carbon; Chemical composition; Chemical speciation; Cooking; dampness; Evaporation; Exposure; Fossil fuels; Humidity; Indoor air pollution; Indoor air quality; Indoor environments; indoor pollutants; indoor/outdoor exchange; Moisture content; organic aerosol; Particulate emissions; Particulate matter; Pollutants; Species; Time measurement; Ventilation; indoor/outdoor exchange; organic aerosol; dampness; indoor pollutants; aerosol composition
• ISSN: 0905-6947; 1600-0668
• DOI: 10.1111/ina.12838

Most of human exposure to atmospheric pollutants occurs indoors, and the components of outdoor aerosols may have been changed in the way before reaching indoor spaces. Here we conducted real‐time online measurements of mass concentrations and chemical composition of black carbon and the non‐refractory species in PM2.5 in an occupied office for approximately one month. The open‐close windows and controlled dampness experiments were also performed. Our results show that indoor aerosol species primarily originate from outdoors with indoor/outdoor ratio of these species typically less than unity except for certain organic aerosol (OA) factors. All aerosol species went through filtration upon transport indoors. Ammonium nitrate and fossil fuel OA underwent evaporation or particle‐to‐gas partitioning, while less oxidized secondary OA (SOA) underwent secondary formation and cooking OA might have indoor sources. With higher particulate matter (PM) mass concentration outdoors than in the office, elevated natural ventilation increased PM exposure indoors and this increased exposure was prolonged when outdoor PM was scavenged. We found that increasing humidity in the office led to higher indoor PM mass concentration particularly more oxidized SOA. Overall, our results highlight that indoor exposure of occupants is substantially different from outdoor in terms of mass concentrations and chemical species.