2016
DOI: 10.1016/j.electacta.2015.12.133
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Influence of electric field on the remediation of polluted soil using a biobarrier assisted electro-bioremediation process

Abstract: In this work, it was carried out the study of the electro-bioremediation of soil polluted with diesel by means of combined electrokinetic soil flushing and biobarriers, using bench scale setups and fourteen days-long tests. Two different biobarriers were evaluated: one of them was developed in the laboratory, with a culture of diesel-degrading microorganisms supported on gravel particles (BB1); the other was obtained by mixing directly clay soil with activated sludge obtained in a municipal wastewater treatmen… Show more

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Cited by 40 publications
(29 citation statements)
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“…Due to increase of soil pH near the cathode, heavy metal precipitation was occurred in the cathode region, and resulted in decreasing the ionic concentrations in soil and soil conductivity, and thus decreased the produced current density. Heavy metal precipitation also led to the formation of high soil resistivity zone, which also was response for the decrease in the current production [41,42].…”
Section: Performance Of Mfcmentioning
confidence: 98%
“…Due to increase of soil pH near the cathode, heavy metal precipitation was occurred in the cathode region, and resulted in decreasing the ionic concentrations in soil and soil conductivity, and thus decreased the produced current density. Heavy metal precipitation also led to the formation of high soil resistivity zone, which also was response for the decrease in the current production [41,42].…”
Section: Performance Of Mfcmentioning
confidence: 98%
“…Surfactants are also capable of making micelle oil that can increase bioavailability and make oil suspended in soil-water pore and move through the electrophoresis process. PR-EKBio and EKSF-Bio have stable levels of moisture content when compared to EK-Bio so combination of surfactants with polarity reversals technique may provide favorable environmental conditions for electrokinetic bioremediation processes [5], [10]. Bearing pH values to protect microorganisms from death is an important factor in this study.…”
Section: Effect On Soil Conditionmentioning
confidence: 99%
“…In bioremediation test (Bio), there is a decrease of TPH concentration although not as drastic using electrochemical process. This may be due to the mixing process and transport of microorganisms, soil and water at the beginning of the test causing contact between the active microorganisms and the contaminants so that the degradation process can occur [10], [14].…”
Section: Microbial Distributionmentioning
confidence: 99%
“…Contaminant removal depends on the solution properties, dielectric constant, and viscosity (Mena et al, 2016a;Shi et al, 2008). At low pH, only a small amount of surfactant is available to dissolve phenanthrene, the oxyethylene group on Tween 80 may be attached to the surface of the soil particles (Maturi and Reddy, 2009).…”
Section: Surface Charge Of Surfactantmentioning
confidence: 99%
“…The success of bioremediation process of diesel contaminated soil is known to use single culture, Bacillus sp. (TMY-2 strain), mixed cultures from contaminated soil and mixed cultures of activated sludge for wastewater treatment (Khodadadi et al, 2011;Mena et al, 2016a).…”
Section: Microorganismmentioning
confidence: 99%