TY - JOUR
T1 - Effect of Ozone, Clothing, Temperature, and Humidity on the Total OH Reactivity Emitted from Humans
AU - Zannoni, Nora
AU - Li, Mengze
AU - Wang, Nijing
AU - Ernle, Lisa
AU - Bekö, Gabriel
AU - Wargocki, Pawel
AU - Langer, Sarka
AU - Weschler, Charles J.
AU - Morrison, Glenn
AU - Williams, Jonathan
N1 - Publisher Copyright:
© 2021 The Authors. Published by American Chemical Society.
PY - 2021
Y1 - 2021
N2 - People influence indoor air chemistry through their chemical emissions via breath and skin. Previous studies showed that direct measurement of total OH reactivity of human emissions matched that calculated from parallel measurements of volatile organic compounds (VOCs) from breath, skin, and the whole body. In this study, we determined, with direct measurements from two independent groups of four adult volunteers, the effect of indoor temperature and humidity, clothing coverage (amount of exposed skin), and indoor ozone concentration on the total OH reactivity of gaseous human emissions. The results show that the measured concentrations of VOCs and ammonia adequately account for the measured total OH reactivity. The total OH reactivity of human emissions was primarily affected by ozone reactions with organic skin-oil constituents and increased with exposed skin surface, higher temperature, and higher humidity. Humans emitted a comparable total mixing ratio of VOCs and ammonia at elevated temperature-low humidity and elevated temperature-high humidity, with relatively low diversity in chemical classes. In contrast, the total OH reactivity increased with higher temperature and higher humidity, with a larger diversity in chemical classes compared to the total mixing ratio. Ozone present, carbonyl compounds were the dominant reactive compounds in all of the reported conditions.
AB - People influence indoor air chemistry through their chemical emissions via breath and skin. Previous studies showed that direct measurement of total OH reactivity of human emissions matched that calculated from parallel measurements of volatile organic compounds (VOCs) from breath, skin, and the whole body. In this study, we determined, with direct measurements from two independent groups of four adult volunteers, the effect of indoor temperature and humidity, clothing coverage (amount of exposed skin), and indoor ozone concentration on the total OH reactivity of gaseous human emissions. The results show that the measured concentrations of VOCs and ammonia adequately account for the measured total OH reactivity. The total OH reactivity of human emissions was primarily affected by ozone reactions with organic skin-oil constituents and increased with exposed skin surface, higher temperature, and higher humidity. Humans emitted a comparable total mixing ratio of VOCs and ammonia at elevated temperature-low humidity and elevated temperature-high humidity, with relatively low diversity in chemical classes. In contrast, the total OH reactivity increased with higher temperature and higher humidity, with a larger diversity in chemical classes compared to the total mixing ratio. Ozone present, carbonyl compounds were the dominant reactive compounds in all of the reported conditions.
KW - Human skin emissions
KW - Indoor chemistry
KW - Indoor ozone
KW - Ozone deposition velocity
KW - Volatile organic compounds
U2 - 10.1021/acs.est.1c01831
DO - 10.1021/acs.est.1c01831
M3 - Journal article
C2 - 34591444
AN - SCOPUS:85117109453
SN - 0013-936X
VL - 55
SP - 13614−13624
JO - Environmental Science and Technology
JF - Environmental Science and Technology
ER -