Application of enhanced electrokinetic approach to remediate Cr-contaminated soil: Effect of chelating agents and permeable reactive barrier

Enhanced electrokinetic (EK) technique was employed to remediate Cr-contaminated soil using a permeable reactive barrier (PRB) and chelating agents. Synthesized nanomagnetic Fe3O4 was used as a reactive material in PRB. Moreover, EDTA and citric acid (CA) were used as chelating agents. Sequential ex...

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Bibliographic Details
Published in:Environmental pollution (1987) 2020-11, Vol.266, p.115197-115197, Article 115197
Main Authors: Nasiri, Afshin, Jamshidi-Zanjani, Ahmad, Khodadadi Darban, Ahmad
Format: Article
Language:English
Subjects:
Chelating agents
Chromium
Electrokinetic
PRB
Soil
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Summary:Enhanced electrokinetic (EK) technique was employed to remediate Cr-contaminated soil using a permeable reactive barrier (PRB) and chelating agents. Synthesized nanomagnetic Fe3O4 was used as a reactive material in PRB. Moreover, EDTA and citric acid (CA) were used as chelating agents. Sequential extraction method (SEM) was employed to determine Cr-elimination mechanism during the EK process. The results revealed that EDTA (78% Cr removal) was more effective than CA (54% Cr removal) in eliminating Cr from the contaminated soil during the EK process. The application of PRB in combination with EDTA was able to reduce the Cr removal rate to 70 and 66% by locating PRB in the middle section and near the anode/cathode reservoir, respectively. The use of PRB coupled with EDTA near the anode and cathode led to a more uniform Cr removal from the soil during the EK process. The highest energy consumption was 0.12 KWh during the EK remediation using PRB. Traditional EK remediation could only remove exchangeable and carbonate fractions of Cr. The use of chelating agents led to a significant (more than 90%) increase in Cr removal from the following fractions: exchangeable phase, carbonate phase, and bond to Fe–Mn oxides. In addition to electromigration (EM) mechanism, electroosmotic flow (EOF) played an important role in Cr removal during the EK process, especially when coupled with PRB. [Display omitted] •Cr elimination was increased using EDTA and PRB combined with EK process.•EK-EDTA removed more Cr compared with EK-PRB-EDTA during EK process.•PRB containing nano-Fe3O4 could effectively adsorb/desorb Cr ions.•Considerable amount of adsorbed Cr in strong bonds was desorbed during the enhanced EK process.
ISSN:0269-7491
1873-6424
DOI:10.1016/j.envpol.2020.115197