Heavy metal removal from sewage sludge under citric acid and electroosmotic leaching processes

[Display omitted] •Electrodialysis can remove water and heavy metals in sludge simultaneously.•Citric acid can improve the removal rates of heavy metals.•Interrupted power supply has different effects on different heavy metals.•Acidic condition is more conducive to the transformation of heavy metals...

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Veröffentlicht in:Separation and purification technology 2020-07, Vol.242, p.116822, Article 116822
Hauptverfasser: Ma, Degang, Su, Meizhong, Qian, Jingjing, Wang, Qian, Meng, Fanyi, Ge, Xiaomei, Ye, Yu, Song, Chunfeng
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Sprache:eng
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Zusammenfassung:[Display omitted] •Electrodialysis can remove water and heavy metals in sludge simultaneously.•Citric acid can improve the removal rates of heavy metals.•Interrupted power supply has different effects on different heavy metals.•Acidic condition is more conducive to the transformation of heavy metals to dissolved speciation. The heavy metals present in sludge are very harmful to the environment and the human body. It is necessary to remove them before sludge disposal. In this study, an ex situ method for removing heavy metals from sludge using electroosmosis was designed, and experiments were conducted to study the effects of electroosmosis voltages (30 V, 40 V and 50 V), citric acid concentrations (0.03 mol/kg, 0.06 mol/kg, 0.09 mol/kg and 0.12 mol/kg) and the power supply (continuous and interrupted) on the removal rate of heavy metals (Cu, Cr, Cd, Zn and Pb). The study found that the combination of the citric acid pretreatment and electroosmosis can effectively improve the removal rate of heavy metals. An appropriate increase in the voltage and citric acid concentration can improve the removal rate of heavy metals. The best combination was determined to be 40 V and 0.09 mol/kg. Under these conditions, the removal rates of Cu, Cr, Cd, Zn and Pb, were 14.39–41.28% (continuous power supply) and 21.78–42.36% (interrupted power supply). The interrupted power supply effectively improved the removal rates of Cd and Zn but reduced the removal rates of Cr and Pb. The power supply mode had no significant effect on the removal rate of Cu. Heavy metal speciation was analyzed by the BCR method, and the relationship between the ratio of easily removed metal speciation and the removal rate was studied. The increase in the ratio of easily removed speciation was accompanied by an increase in the removal rate, indicating that citric acid and electroosmosis increased the removal rate by increasing the ratio of easily removed speciation. However, the high pH value around the cathode caused by the electrochemical reaction was not conducive to the removal of heavy metals.
ISSN:1383-5866
1873-3794
DOI:10.1016/j.seppur.2020.116822