Xiong Jianyin, Yang Tao, Tan Jianwei, Li Lan, Ge Yunshan
School of Mechanical Engineering, Beijing Institute of Technology, Beijing, China; State Key Laboratory of Subtropical Building Science, South China University of Technology, Guangzhou, China.
School of Mechanical Engineering, Beijing Institute of Technology, Beijing, China.
PLoS One. 2015 Oct 9;10(10):e0140081. doi: 10.1371/journal.pone.0140081. eCollection 2015.
The steady state VOC concentration in automobile cabin is taken as a good indicator to characterize the material emission behaviors and evaluate the vehicular air quality. Most studies in this field focus on experimental investigation while theoretical analysis is lacking. In this paper we firstly develop a simplified physical model to describe the VOC emission from automobile materials, and then derive a theoretical correlation between the steady state cabin VOC concentration (Ca) and temperature (T), which indicates that the logarithm of Ca/T0.75 is in a linear relationship with 1/T. Experiments of chemical emissions in three car cabins at different temperatures (24°C, 29°C, 35°C) were conducted. Eight VOCs specified in the Chinese National Standard GB/T 27630-2011 were taken for analysis. The good agreement between the correlation and experimental results from our tests, as well as the data taken from literature demonstrates the effectiveness of the derived correlation. Further study indicates that the slope and intercept of the correlation follows linear association. With the derived correlation, the steady state cabin VOC concentration different from the test conditions can be conveniently obtained. This study should be helpful for analyzing temperature-dependent emission phenomena in automobiles and predicting associated health risks.
汽车车厢内挥发性有机化合物(VOC)的稳态浓度被视为表征材料排放行为和评估车内空气质量的良好指标。该领域的大多数研究集中在实验研究上,而缺乏理论分析。在本文中,我们首先建立了一个简化的物理模型来描述汽车材料的VOC排放,然后推导出稳态车厢VOC浓度(Ca)与温度(T)之间的理论相关性,这表明Ca/T0.75的对数与1/T呈线性关系。在三个不同温度(24°C、29°C、35°C)的汽车车厢内进行了化学排放实验。对中国国家标准GB/T 27630-2011中规定的八种VOC进行了分析。我们的测试结果与实验结果以及文献数据之间的良好一致性证明了所推导相关性的有效性。进一步的研究表明,该相关性的斜率和截距呈线性关系。利用所推导的相关性,可以方便地获得与测试条件不同的稳态车厢VOC浓度。本研究有助于分析汽车中与温度相关的排放现象,并预测相关的健康风险。