所属单位：

建筑设备科学与工程学院

发表刊物：

Journal of Hazardous Materials

关键字：

中文关键字：室内空气质量；多孔建筑材料；VOCs；扩散系数；分形理论，英文关键字：Indoor air quality ; Porous building materials ; V

摘要：

Most building materials are porous media, and the internal diffusion coefficients of such materials have an important influences on the emission characteristics of volatile organic compounds (VOCs). The pore structure of porous building materials has a significant impact on the diffusion coefficient. However, the complex structural characteristics bring great difficulties to the model development. The existing prediction models of the diffusion coefficient are flawed and need to be improved. Using scanning electron microscope (SEM) observations and mercury intrusion porosimetry (MIP) tests of typical porous building materials, this study developed a new diffusivity model: the multistage series-connection fractal capillary-bundle (MSFC) model. The model considers the variable-diameter capillaries formed by macropores connected in series as the main mass transfer paths, and the diameter distribution of the capillary bundles obeys a fractal power law in the cross section. In addition, the tortuosity of the macrocapillary segments with different diameters is obtained by the fractal theory. Mesopores serve as the connections between the macrocapillary segments rather than as the main mass transfer paths. The theoretical results obtained using the MSFC model yielded a highly accurate prediction of the diffusion coefficients and were in a good agreement with the VOC concentration measurements in the environmental test chamber. Copyright 漏 2015 Elsevier B.V. All rights reserved.

备注：

刘艳峰

合写作者：

周晓俊,宋聪,刘佳平

第一作者：

王登甲,刘艳峰

论文类型：

期刊论文

卷号：

卷：299

期号：

期：12

页面范围：

页：685-695

是否译文：

否

发表时间：

2015-12-01