Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Diffusion of volatile organic compounds (VOCs) through elastomeric bituminous geomembranes (BGMs)
https://orcid.org/0000-0002-8102-0964
Abstract Diffusion of volatile organic compounds (VOCs) through a 4.1 mm elastomeric bituminous geomembrane (BGM) is investigated using a dilute aqueous solution of four aromatic hydrocarbons: benzene, toluene, ethylbenzene, and xylenes (BTEX). Due to the very different diffusion characteristics of the BGM components, double-compartment diffusion experiments are separately conducted on the bituminous and non-bituminous components of the BGM to assess their diffusion parameters. A two-layer computer model is developed to obtain the diffusion parameters of the BGM that correlates with the 890-day laboratory diffusion test data obtained for the multicomponent BGM and allows the modelling of transient diffusion. Using contaminant transport modelling, the BGMs performance as a diffusive barrier for different applications is evaluated and compared to different polymeric geomembranes (GMBs). It is shown that using BGM as part of the cover system for a hydrocarbon-contaminated soil landfill or as a vapour barrier below concrete building foundations can decrease the BTEX mass flux through the cover system and the peak concentration of contaminant in the indoor air compared to monolayer polymeric GMBs. It is also predicted to reduce the impact on the aquifer when modelled as a part of the composite liner without holes for a hypothetical solid waste landfill.
Highlights Establishes the methodology to examine the diffusion of contaminants through multicomponent BGMs. Assesses the diffusion parameters of different voltaile organic compounds for BGMs. Compares the effectiveness of BGMs as diffusive barriers to aromatic hydrocarbons with different polymeric geomembranes.
Diffusion of volatile organic compounds (VOCs) through elastomeric bituminous geomembranes (BGMs)
https://orcid.org/0000-0002-8102-0964
Abstract Diffusion of volatile organic compounds (VOCs) through a 4.1 mm elastomeric bituminous geomembrane (BGM) is investigated using a dilute aqueous solution of four aromatic hydrocarbons: benzene, toluene, ethylbenzene, and xylenes (BTEX). Due to the very different diffusion characteristics of the BGM components, double-compartment diffusion experiments are separately conducted on the bituminous and non-bituminous components of the BGM to assess their diffusion parameters. A two-layer computer model is developed to obtain the diffusion parameters of the BGM that correlates with the 890-day laboratory diffusion test data obtained for the multicomponent BGM and allows the modelling of transient diffusion. Using contaminant transport modelling, the BGMs performance as a diffusive barrier for different applications is evaluated and compared to different polymeric geomembranes (GMBs). It is shown that using BGM as part of the cover system for a hydrocarbon-contaminated soil landfill or as a vapour barrier below concrete building foundations can decrease the BTEX mass flux through the cover system and the peak concentration of contaminant in the indoor air compared to monolayer polymeric GMBs. It is also predicted to reduce the impact on the aquifer when modelled as a part of the composite liner without holes for a hypothetical solid waste landfill.
Highlights Establishes the methodology to examine the diffusion of contaminants through multicomponent BGMs. Assesses the diffusion parameters of different voltaile organic compounds for BGMs. Compares the effectiveness of BGMs as diffusive barriers to aromatic hydrocarbons with different polymeric geomembranes.
Diffusion of volatile organic compounds (VOCs) through elastomeric bituminous geomembranes (BGMs)
https://orcid.org/0000-0002-8102-0964
Abstract Diffusion of volatile organic compounds (VOCs) through a 4.1 mm elastomeric bituminous geomembrane (BGM) is investigated using a dilute aqueous solution of four aromatic hydrocarbons: benzene, toluene, ethylbenzene, and xylenes (BTEX). Due to the very different diffusion characteristics of the BGM components, double-compartment diffusion experiments are separately conducted on the bituminous and non-bituminous components of the BGM to assess their diffusion parameters. A two-layer computer model is developed to obtain the diffusion parameters of the BGM that correlates with the 890-day laboratory diffusion test data obtained for the multicomponent BGM and allows the modelling of transient diffusion. Using contaminant transport modelling, the BGMs performance as a diffusive barrier for different applications is evaluated and compared to different polymeric geomembranes (GMBs). It is shown that using BGM as part of the cover system for a hydrocarbon-contaminated soil landfill or as a vapour barrier below concrete building foundations can decrease the BTEX mass flux through the cover system and the peak concentration of contaminant in the indoor air compared to monolayer polymeric GMBs. It is also predicted to reduce the impact on the aquifer when modelled as a part of the composite liner without holes for a hypothetical solid waste landfill.
Highlights Establishes the methodology to examine the diffusion of contaminants through multicomponent BGMs. Assesses the diffusion parameters of different voltaile organic compounds for BGMs. Compares the effectiveness of BGMs as diffusive barriers to aromatic hydrocarbons with different polymeric geomembranes.
Diffusion of volatile organic compounds (VOCs) through elastomeric bituminous geomembranes (BGMs)
Arif, A.M. (Autor:in) / Abdelaal, F.B. (Autor:in)
Geotextiles and Geomembranes ; 51 ; 41-55
19.07.2023
15 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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