Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Screening-level estimates of indoor exposure to volatile organic compounds emitted from building materials
https://orcid.org/0000-0002-1074-2169
Abstract Knowing the value of the key mass-transfer model parameters is a critical requirement for evaluating volatile organic compound (VOC) emissions from indoor materials. The key parameters are diffusion coefficient (D), partition coefficient (K), and initial material-phase emittable concentration (C 0). Although these parameters can be individually measured in the laboratory, the required time and expense are substantial. A simple method of determining D and C 0 using data from ventilated chamber tests and dimensionless analysis is proposed and then validated using VOC emission data from the material emissions database developed by National Research Council Canada (NRC). The primary application of this method is to provide a rapid screening-level estimate of inhalation exposure to VOCs in building materials. Two standard scenarios using the NRC database are employed to demonstrate the value of the approach to indoor air quality assessment. The method could be a useful screening tool for assessing material emissions or environmental exposures.
Highlights A method to estimate screening-level exposure to VOCs emitted from building materials is proposed. Emission period analysis is used to estimate the VOC diffusion coefficient. Interpolation and integration is used to estimate the initial VOC concentration. Two standard scenarios are used to demonstrate the approach for IAQ assessment.
Screening-level estimates of indoor exposure to volatile organic compounds emitted from building materials
https://orcid.org/0000-0002-1074-2169
Abstract Knowing the value of the key mass-transfer model parameters is a critical requirement for evaluating volatile organic compound (VOC) emissions from indoor materials. The key parameters are diffusion coefficient (D), partition coefficient (K), and initial material-phase emittable concentration (C 0). Although these parameters can be individually measured in the laboratory, the required time and expense are substantial. A simple method of determining D and C 0 using data from ventilated chamber tests and dimensionless analysis is proposed and then validated using VOC emission data from the material emissions database developed by National Research Council Canada (NRC). The primary application of this method is to provide a rapid screening-level estimate of inhalation exposure to VOCs in building materials. Two standard scenarios using the NRC database are employed to demonstrate the value of the approach to indoor air quality assessment. The method could be a useful screening tool for assessing material emissions or environmental exposures.
Highlights A method to estimate screening-level exposure to VOCs emitted from building materials is proposed. Emission period analysis is used to estimate the VOC diffusion coefficient. Interpolation and integration is used to estimate the initial VOC concentration. Two standard scenarios are used to demonstrate the approach for IAQ assessment.
Screening-level estimates of indoor exposure to volatile organic compounds emitted from building materials
https://orcid.org/0000-0002-1074-2169
Abstract Knowing the value of the key mass-transfer model parameters is a critical requirement for evaluating volatile organic compound (VOC) emissions from indoor materials. The key parameters are diffusion coefficient (D), partition coefficient (K), and initial material-phase emittable concentration (C 0). Although these parameters can be individually measured in the laboratory, the required time and expense are substantial. A simple method of determining D and C 0 using data from ventilated chamber tests and dimensionless analysis is proposed and then validated using VOC emission data from the material emissions database developed by National Research Council Canada (NRC). The primary application of this method is to provide a rapid screening-level estimate of inhalation exposure to VOCs in building materials. Two standard scenarios using the NRC database are employed to demonstrate the value of the approach to indoor air quality assessment. The method could be a useful screening tool for assessing material emissions or environmental exposures.
Highlights A method to estimate screening-level exposure to VOCs emitted from building materials is proposed. Emission period analysis is used to estimate the VOC diffusion coefficient. Interpolation and integration is used to estimate the initial VOC concentration. Two standard scenarios are used to demonstrate the approach for IAQ assessment.
Screening-level estimates of indoor exposure to volatile organic compounds emitted from building materials
Ye, Wei (Autor:in) / Little, John C. (Autor:in) / Won, Doyun (Autor:in) / Zhang, Xu (Autor:in)
Building and Environment ; 75 ; 58-66
25.01.2014
9 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
| British Library Online Contents | 2014
| British Library Online Contents | 2017
| British Library Online Contents | 2017