Department of Chemistry and Cooperative Institute for Research in Environmental Sciences, University of Colorado, Boulder, CO, USA.
Indoor Air. 2020 Jul;30(4):745-756. doi: 10.1111/ina.12654. Epub 2020 Mar 6.
Partitioning to surfaces is an important sink for volatile organic compounds (VOCs) indoors, but the mechanisms are not well understood or quantified. Here, a mass spectrometer was coupled to a portable surface reactor and a flow tube to measure partitioning of VOCs into paint films coated onto glass or wallboard, and their subsequent diffusion. A model was developed to extract values of the effective absorbing organic mass concentration of the film, C , which is a measure of absorption capacity, and VOC diffusion coefficients, D , from VOC time profiles measured during film passivation and depassivation. Values of C agreed well with the value estimated from the paint film mass and flow tube air volume, and D values (also measured using attenuated total reflectance-Fourier transform infrared spectroscopy) correlated well with VOC vapor saturation concentrations, C*, estimated using a group contribution method. The value of these relationships for estimating key parameters that control VOC partitioning into paint and the fate of VOCs indoors was demonstrated using a house model, which indicated that >50% of VOCs with C* ≤10 μg/m (C* of octane, hexanone, and propanol) that contacted a paint film of typical thickness fully permeated the film regardless of emission duration.
分配到表面是室内挥发性有机化合物(VOC)的重要汇,但其机制尚未得到很好的理解或量化。在这里,质谱仪与便携式表面反应器和流动管耦合,以测量 VOC 分配到涂覆在玻璃或墙板上的漆膜中,以及随后的扩散。开发了一个模型来从膜钝化和去钝化过程中测量的 VOC 时间曲线中提取膜的有效吸收有机质量浓度 C 和 VOC 扩散系数 D 的值,C 是吸收能力的度量,D 值(也使用衰减全反射-傅里叶变换红外光谱法测量)与使用基团贡献法估算的 VOC 蒸汽饱和浓度 C* 相关。使用房屋模型证明了这些关系在估算控制 VOC 分配到油漆和室内 VOC 命运的关键参数方面的价值,该模型表明,与典型厚度的漆膜接触的 C* ≤10μg/m(辛烷、己酮和丙醇的 C*)的超过 50%的 VOC 无论排放持续时间如何,都会完全渗透漆膜。
