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Publication
Treatment of a suspension of PCB contaminated soil using iron nanoparticles and electric current
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Advisor(s)
Abstract(s)
Contaminated soils and sediments with polychlorinated biphenyls (PCB) are an important environmental
problem due to the persistence of these synthetic aromatic compounds and to the lack of a cost-effective
and sustainable remediation technology. Recently, a new experimental setup has been proposed using
electrodialytic remediation and iron nanoparticles. The current work compares the performance of this
new setup (A) with conventional electrokinetics (setup B). An historically contaminated soil with an
initial PCB concentration of 258 mg kg 1 was treated during 5, 10, 20 and 45 d using different amounts of
iron nanoparticles in both setups A and B. A PCB removal of 83% was obtained in setup A compared with
58% of setup B. Setup A also showed additional advantages, such as a higher PCB dechlorination, in a
shorter time, with lower nZVI consumption, and with the use of half of the voltage gradient when
compared with the traditional setup (B). Energy and nZVI costs for a full-scale reactor are estimated at 72
V for each cubic meter of PCB contaminated soil treated on-site, making this technology competitive when compared with average off-site incineration (885 V m 3 ) or landfilling (231 V m 3) cost in Europe and in the USA (327 USD m 3).
Description
Keywords
Electrokinetics (EK) Electrodialytic remediation (EDR) nZVI Polychlorinated biphenyls PCB
Citation
Publisher
Springer