Study of the resistances to transfer of gaseous pollutant between material and indoor air

The main parameters which control the emission of volatile organic compounds between wall materials and indoor air were examined. A physically based model considers that the global emission phenomenon results from three elementary physical phenomena: diffusion through the boundary layer separating t...

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Published inBuilding and environment Vol. 46; no. 2; pp. 356 - 362
Main Authors Marion, Michaël, Tiffonnet, Anne Lise, Santa-Cruz, Alina, Makhloufi, Rachid
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.02.2011
Elsevier
Subjects
Acetone
Air quality
Applied sciences
Buildings. Public works
Diffusion
Diffusion layers
Emission
Engineering Sciences
Environmental Sciences
Exact sciences and technology
Indoor
Mass transfer
Materials
Mathematical models
Physics
Pollutants
Pollution indoor buildings
Reactive fluid environment
Sorption
Volatile organic compounds
Walls
Volatile organic compounds
Sorption
Air quality
Mass transfer
Theoretical study
Indoor pollution
Volatile organic compound
Pollutant emission
Modeling
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Abstract The main parameters which control the emission of volatile organic compounds between wall materials and indoor air were examined. A physically based model considers that the global emission phenomenon results from three elementary physical phenomena: diffusion through the boundary layer separating the wall from environment, diffusion within the porous network of the materials, and sorption of the gas molecules on the active sites of the materials. The pollutant transfer between porous material and air is therefore subjected to two complementary resistances and we identify first the resistance which controls the transfer. Then, we predict the global emission time constant from the mass transfer coefficient of convection and the thickness of the material. Experimental results from a small scale chamber are compared to predicted values in the case of acetone emission from chipboard in humid air and for high initial acetone concentration. Good agreement is obtained at the beginning of emission but an acetone retention effect by chipboard is observed, showing that it will be necessary to take into account the interactions of water vapor with materials and the pollutants to achieve accurate modeling of the material VOC emission process.
AbstractList The main parameters which control the emission of volatile organic compounds between wall materials and indoor air were examined. A physically based model considers that the global emission phenomenon results from three elementary physical phenomena: diffusion through the boundary layer separating the wall from environment, diffusion within the porous network of the materials, and sorption of the gas molecules on the active sites of the materials. The pollutant transfer between porous material and air is therefore subjected to two complementary resistances and we identify first the resistance which controls the transfer. Then, we predict the global emission time constant from the mass transfer coefficient of convection and the thickness of the material. Experimental results from a small scale chamber are compared to predicted values in the case of acetone emission from chipboard in humid air and for high initial acetone concentration. Good agreement is obtained at the beginning of emission but an acetone retention effect by chipboard is observed, showing that it will be necessary to take into account the interactions of water vapor with materials and the pollutants to achieve accurate modeling of the material VOC emission process.
Author Marion, Michaël
Tiffonnet, Anne Lise
Makhloufi, Rachid
Santa-Cruz, Alina
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Issue 2
Keywords Volatile organic compounds
Sorption
Air quality
Mass transfer
Theoretical study
Indoor pollution
Volatile organic compound
Pollutant emission
Modeling
Language English
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Snippet The main parameters which control the emission of volatile organic compounds between wall materials and indoor air were examined. A physically based model...
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SubjectTerms Acetone
Air quality
Applied sciences
Buildings. Public works
Diffusion
Diffusion layers
Emission
Engineering Sciences
Environmental Sciences
Exact sciences and technology
Indoor
Mass transfer
Materials
Mathematical models
Physics
Pollutants
Pollution indoor buildings
Reactive fluid environment
Sorption
Volatile organic compounds
Walls
Title Study of the resistances to transfer of gaseous pollutant between material and indoor air
URI https://dx.doi.org/10.1016/j.buildenv.2010.07.029
https://search.proquest.com/docview/1671271258
https://search.proquest.com/docview/831190738
https://hal.science/hal-02150485
Volume 46
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