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J Contam Hydrol


Title:Numerical modeling analysis of VOC removal processes in different aerobic vertical flow systems for groundwater remediation
Author(s):De Biase C; Carminati A; Oswald SE; Thullner M;
Address:"Department of Environmental Microbiology, UFZ Helmholtz Centre for Environmental Research, Leipzig, Germany; Department of Groundwater Remediation, UFZ Helmholtz Centre for Environmental Research, Leipzig, Germany. Electronic address: cecilia.debiase@ufz.de"
Journal Title:J Contam Hydrol
Year:2013
Volume:20130808
Issue:
Page Number:53 - 69
DOI: 10.1016/j.jconhyd.2013.07.007
ISSN/ISBN:1873-6009 (Electronic) 0169-7722 (Linking)
Abstract:"Vertical flow systems filled with porous medium have been shown to efficiently remove volatile organic contaminants (VOCs) from contaminated groundwater. To apply this semi-natural remediation strategy it is however necessary to distinguish between removal due to biodegradation and due to volatile losses to the atmosphere. Especially for (potentially) toxic VOCs, the latter needs to be minimized to limit atmospheric emissions. In this study, numerical simulation was used to investigate quantitatively the removal of volatile organic compounds in two pilot-scale water treatment systems: an unplanted vertical flow filter and a planted one, which could also be called a vertical flow constructed wetland, both used for the treatment of contaminated groundwater. These systems were intermittently loaded with contaminated water containing benzene and MTBE as main VOCs. The highly dynamic but permanently unsaturated conditions in the porous medium facilitated aerobic biodegradation but could lead to volatile emissions of the contaminants. Experimental data from porous material analyses, flow rate measurements, solute tracer and gas tracer test, as well as contaminant concentration measurements at the boundaries of the systems were used to constrain a numerical reactive transport modeling approach. Numerical simulations considered unsaturated water flow, transport of species in the aqueous and the gas phase as well as aerobic degradation processes, which made it possible to quantify the rates of biodegradation and volatile emissions and calculating their contribution to total contaminant removal. A range of degradation rates was determined using experimental results of both systems under two operation modes and validated by field data obtained at different operation modes applied to the filters. For both filters, simulations and experimental data point to high biodegradation rates, if the flow filters have had time to build up their removal capacity. For this case volatile emissions are negligible and total removal can be attributed to biodegradation, only. The simulation study thus supports the use of both of these vertical flow systems for the treatment of groundwater contaminated with VOCs and the use of reactive transport modeling for the assessment of VOCs removal and operation modes in these high performance treatment systems"
Keywords:"Aerobiosis Ammonium Compounds/metabolism Bacteria/metabolism Benzene/metabolism Biodegradation, Environmental Groundwater Methyl Ethers/metabolism *Models, Theoretical Salix/metabolism Volatile Organic Compounds/*metabolism Water Pollutants, Chemical/*met;"
Notes:"MedlineDe Biase, Cecilia Carminati, Andrea Oswald, Sascha E Thullner, Martin eng Research Support, Non-U.S. Gov't Netherlands 2013/10/05 J Contam Hydrol. 2013 Nov; 154:53-69. doi: 10.1016/j.jconhyd.2013.07.007. Epub 2013 Aug 8"

 
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