Permeable Adsorbing Barrier for Groundwater Protection from Single-Compounds and Multicomponent Contamination by Chlorinated Organic Compounds
Bortone, I.
Di Nardo, A.
Di Natale, M.
Erto, A.
Musmarra, D.
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How to Cite

Bortone I., Di Nardo A., Di Natale M., Erto A., Musmarra D., 2013, Permeable Adsorbing Barrier for Groundwater Protection from Single-Compounds and Multicomponent Contamination by Chlorinated Organic Compounds, Chemical Engineering Transactions, 35, 709-714.
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Abstract

This work deals with the application of a Permeable Adsorbing Barrier (PAB) for the remediation of an aquifer contaminated by Tetrachloroethylene (PCE) and Trichloroethylene (TCE). Based on a hydrological and geotechnical characterization of the entire polluted aquifer, the design and optimization of the barrier parameters (location, orientation and dimensions) are defined by an iterative procedure using a CFD (Computational Fluid Dynamics) approach. Laboratory adsorption tests on binary system (i.e. PCE+TCE) on a commercial activated carbon are carried out to support the PAB design. A site located near a solid waste landfill in the metropolitan area North of Naples (Italy), where PCE and TCE are simultaneously present, is considered as a case study. Model results show that the PAB designed is effective for the remediation of the contaminated aquifer, both for single-compound and binary contamination, since the concentration of pollutants flowing out of the barrier is everywhere always lower than the concentration limits provided for Italian regulations on groundwater quality.
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