Can electro-bioremediation of polluted soils perform as a self-sustainable process?

This work studies the effect of treatment period on remediation efficiency in an oxyfluorfen-polluted soil through electro-bioremediation technology. Five lab-scale experimental plants were started up simultaneously, operated under an electric field of 1.0 V cm −1 with a polarity reversal frequency...

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Veröffentlicht in:	Journal of applied electrochemistry 2018-06, Vol.48 (6), p.579-588
Hauptverfasser:	Barba, Silvia, Villaseñor, José, Rodrigo, Manuel A., Cañizares, Pablo
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Sprache:	eng
Schlagworte:	Acceptable noise levels Bioremediation Chemistry Chemistry and Materials Science Electrochemistry Industrial Chemistry/Chemical Engineering Microorganisms Nutrients Physical Chemistry Plants (botany) Polarity Reproducibility Research Article Soil pollution Soil remediation
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container_title	Journal of applied electrochemistry
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creator	Barba, Silvia Villaseñor, José Rodrigo, Manuel A. Cañizares, Pablo
description	This work studies the effect of treatment period on remediation efficiency in an oxyfluorfen-polluted soil through electro-bioremediation technology. Five lab-scale experimental plants were started up simultaneously, operated under an electric field of 1.0 V cm −1 with a polarity reversal frequency of 2 day −1 and disconnected at different times (2, 4, 6, 11 and 24 weeks); these plants underwent post mortem characterization after their operation period. Various parameters were monitored in the electrolyte wells during the experiments. The obtained results indicate that despite the low reproducibility of pH and conductivity in the wells (not in soil), the main conclusions that can be drawn for the different plants are sound and hence have acceptable reproducibility. Polarity reversal allowed suitable conditions for microbial life in terms of pH, but nutrients were also depleted in the soil, which leads to a decrease in the total population of microorganisms during treatment. For treatment periods of less than 10 weeks, there was an appreciable population of microorganisms in the soil, which reached oxyfluorfen removal levels of up to 40%. Longer reaction times were ineffective, and this was related to the much lower concentration of microorganisms. In comparing these results to those obtained in conventional soil bioremediation technology, the application of polarity-reversed electric current led to an increase in the average removal of oxyfluorfen from 0.11 to 0.17 mg kg −1 day −1 but a much higher decrease in the active microorganism population from 88.0 ± 9.0 to 41.0 ± 6.0% of the initial seeded value. Graphical Abstract
doi_str_mv	10.1007/s10800-018-1172-8
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Five lab-scale experimental plants were started up simultaneously, operated under an electric field of 1.0 V cm −1 with a polarity reversal frequency of 2 day −1 and disconnected at different times (2, 4, 6, 11 and 24 weeks); these plants underwent post mortem characterization after their operation period. Various parameters were monitored in the electrolyte wells during the experiments. The obtained results indicate that despite the low reproducibility of pH and conductivity in the wells (not in soil), the main conclusions that can be drawn for the different plants are sound and hence have acceptable reproducibility. Polarity reversal allowed suitable conditions for microbial life in terms of pH, but nutrients were also depleted in the soil, which leads to a decrease in the total population of microorganisms during treatment. For treatment periods of less than 10 weeks, there was an appreciable population of microorganisms in the soil, which reached oxyfluorfen removal levels of up to 40%. Longer reaction times were ineffective, and this was related to the much lower concentration of microorganisms. In comparing these results to those obtained in conventional soil bioremediation technology, the application of polarity-reversed electric current led to an increase in the average removal of oxyfluorfen from 0.11 to 0.17 mg kg −1 day −1 but a much higher decrease in the active microorganism population from 88.0 ± 9.0 to 41.0 ± 6.0% of the initial seeded value. 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Five lab-scale experimental plants were started up simultaneously, operated under an electric field of 1.0 V cm −1 with a polarity reversal frequency of 2 day −1 and disconnected at different times (2, 4, 6, 11 and 24 weeks); these plants underwent post mortem characterization after their operation period. Various parameters were monitored in the electrolyte wells during the experiments. The obtained results indicate that despite the low reproducibility of pH and conductivity in the wells (not in soil), the main conclusions that can be drawn for the different plants are sound and hence have acceptable reproducibility. Polarity reversal allowed suitable conditions for microbial life in terms of pH, but nutrients were also depleted in the soil, which leads to a decrease in the total population of microorganisms during treatment. For treatment periods of less than 10 weeks, there was an appreciable population of microorganisms in the soil, which reached oxyfluorfen removal levels of up to 40%. Longer reaction times were ineffective, and this was related to the much lower concentration of microorganisms. In comparing these results to those obtained in conventional soil bioremediation technology, the application of polarity-reversed electric current led to an increase in the average removal of oxyfluorfen from 0.11 to 0.17 mg kg −1 day −1 but a much higher decrease in the active microorganism population from 88.0 ± 9.0 to 41.0 ± 6.0% of the initial seeded value. 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subjects	Acceptable noise levels Bioremediation Chemistry Chemistry and Materials Science Electrochemistry Industrial Chemistry/Chemical Engineering Microorganisms Nutrients Physical Chemistry Plants (botany) Polarity Reproducibility Research Article Soil pollution Soil remediation
title	Can electro-bioremediation of polluted soils perform as a self-sustainable process?
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