4.7 Article

Lab scale-study on the efficiency and distribution of energy consumption in chromium contaminated aquifer electrokinetic remediation

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出版社

ELSEVIER
DOI: 10.1016/j.eti.2021.102194

关键词

Electrokinetic remediation; Aquifer; Chromium; Energy consumption

资金

  1. National Natural Science Foundation of China [42072270]

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This study investigated the remediation of chromium-contaminated natural fine sand aquifer by electrokinetic remediation. Continuous power supply and intermittent power supply modes were able to remove 96.8%-100.0% and 99.2-100.0% of Cr(VI) pollutants after 25 hours of operation, respectively. Electrokinetic remediation shows promising prospects for dynamic aquifers.
Electrokinetic remediation can effectively remediate chromium contaminated soil, but there are few studies on the remediation of contaminated aquifer. In this paper, a lab-scale electrokinetic remediation experiment of chromium contaminated natural fine sand aquifer was carried out, and the effects of three power supply modes (continuous power supply, intermittent power supply and periodic polarity reversal) on the efficiency and energy consumption were attentioned, and the changes in the electric current, pH and conductivity during the process of the electrokinetic remediation were analyzed. Under continuous power supply and intermittent power supply modes, 96.8%-100.0% and 99.2-100.0% of Cr(VI) pollutants can be removed after 25 h operation. When there were none groundwater flow or none power supply, the remediation effect were not outstanding, which shows that electrokinetic remediation of dynamic aquifers has a promising prospect. Compare with the soil remediation, electrokinetic remediation of the aquifer had a small change of pH in environmental, which was limited to the range of 3 cm close to the anode and 5 cm of the cathode. This paper proposed a method for evaluating the energy consumption of each part of the aquifer during the process of electrokinetic remediation. Due to the massive migration of Cr(VI), the energy consumption near the cathode area accounts for the highest distribution, reaching 30.5-38.5%. (C) 2021 Published by Elsevier B.V.

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