Ultrasonic and mechanical soil washing processes for the removal of heavy metals from soils

•The effect of ultrasound on mechanical soil washing processes was investigated.•The ultrasonically treated concentrations of heavy metals were highly satisfactory.•Ultrasound played a more important role in less acidic or washing liquid conditions. In order to determine the optimal operating condit...

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Published in:Ultrasonics sonochemistry 2017-03, Vol.35 (Pt B), p.640-645
Main Authors: Park, Beomguk, Son, Younggyu
Format: Article
Language:English
Subjects:
Heavy metals
Soil remediation
Soil washing processes
Sonophysical effects
Ultrasound
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container_title Ultrasonics sonochemistry
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creator Park, Beomguk
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description •The effect of ultrasound on mechanical soil washing processes was investigated.•The ultrasonically treated concentrations of heavy metals were highly satisfactory.•Ultrasound played a more important role in less acidic or washing liquid conditions. In order to determine the optimal operating conditions of full-scale soil washing processes for the removal of heavy metals, the effect of high-power ultrasound on the conventional mechanical soil washing process was investigated in a large lab-scale 28kHz sonoreactor. The soil samples were obtained from an abandoned railway station site in Seoul, Korea, which was contaminated with Cu (242.7±40.0mg/kg), Pb (441.3±49.8mg/kg), and Zn (358.0±35.7mg/kg). The treated concentrations of three heavy metal species in each process were compared with the regulation levels. It was found that higher performance, satisfying the regulation levels, was obtained in the ultrasonic/mechanical process due to the combined effects of macroscale mixing and microscale sonophysical effects. Moreover ultrasound played a more important role in less favorable conditions for the mechanical washing process (less acidic or less washing liquid conditions). Considering the application of the ultrasonic/mechanical soil washing process in real contaminated sites, the optimal conditions for the reactor with the bottom area of 15×15cm2 and the input ultrasound power of 250W were determined as follows: (1) the amount of soil per an operation was a 300g; (2) the ratio of soil and liquid was 1:3; (3) the concentration of acidic washing liquid was 0.5M HCl.
doi_str_mv 10.1016/j.ultsonch.2016.02.002
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source Elsevier:Jisc Collections:Elsevier Read and Publish Agreement 2022-2024:Freedom Collection (Reading list)
subjects Heavy metals
Soil remediation
Soil washing processes
Sonophysical effects
Ultrasound
title Ultrasonic and mechanical soil washing processes for the removal of heavy metals from soils
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