Rapid Nucleation and Growth of Indoor Atmospheric Nanocluster Aerosol during the Use of Scented Volatile Chemical Products in Residential Buildings.

ACS ES&T Air Pub Date : 2024-09-24 eCollection Date: 2024-10-11 DOI:10.1021/acsestair.4c00118
Satya S Patra, Jianghui Liu, Jinglin Jiang, Xiaosu Ding, Chunxu Huang, Connor Keech, Gerhard Steiner, Philip S Stevens, Nusrat Jung, Brandon E Boor
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Abstract

Scented volatile chemical products (sVCPs) are frequently used indoors. We conducted field measurements in a residential building to investigate new particle formation (NPF) from sVCP emissions. State-of-the-art instrumentation was used for real-time monitoring of indoor atmospheric nanocluster aerosol (NCA; 1-3 nm particles) size distributions and terpene mixing ratios. We integrated our NCA measurements with a comprehensive material balance model to analyze sVCP-nucleated indoor NCA dynamics. Our results reveal that sVCPs significantly increase indoor terpene mixing ratios (10-1,000 ppb), exceeding those in outdoor forested environments. The emitted terpenes react with indoor atmospheric O3 and initiate indoor NPF, resulting in nucleation rates as high as ∼105 cm-3 s-1 and condensational growth rates up to 300 nm h-1; these are orders of magnitude higher than those reported during outdoor NPF events. Notably, high particle nucleation rates significantly increase indoor atmospheric NCA concentrations (105-108 cm-3), and high growth rates drive their survival and growth to sizes that efficiently reach the deepest regions of the human respiratory system. We found sVCP-nucleated NCA to cause respiratory exposures and dose rates comparable to or exceeding those from primary aerosol sources such as gas stoves and diesel engines, highlighting their significant impact on indoor atmospheric environments.

在住宅楼中使用挥发性香味化学产品时室内大气纳米簇气溶胶的快速成核和增长。
芳香挥发性化学产品 (sVCP) 经常在室内使用。我们在一栋住宅楼内进行了实地测量,以研究 sVCP 排放物形成的新粒子(NPF)。我们使用最先进的仪器对室内大气中的纳米团块气溶胶(NCA;1-3 nm 颗粒)粒度分布和萜烯混合比进行了实时监测。我们将 NCA 测量结果与综合物质平衡模型相结合,分析了 sVCP 核室内 NCA 的动态。我们的研究结果表明,sVCP 能显著提高室内萜烯混合比(10-1,000 ppb),超过室外森林环境中的混合比。排放出的萜烯与室内大气中的 O3 发生反应,引发室内 NPF,导致成核率高达 ∼105 cm-3 s-1,凝结增长率高达 300 nm h-1;这比室外 NPF 事件中报道的增长率高出几个数量级。值得注意的是,高粒子成核率会显著增加室内大气中的 NCA 浓度(105-108 cm-3),而高生长率则会促使其存活并生长到能有效到达人体呼吸系统最深处的尺寸。我们发现,sVCP 成核的 NCA 对呼吸系统造成的暴露和剂量率可与燃气灶和柴油发动机等原生气溶胶源相媲美,甚至超过它们,这凸显了它们对室内大气环境的重大影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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