Highly Efficient Lead Distribution by Magnetic Sewage Sludge Biochar: Sorption Mechanisms and Bench Applications

[Display omitted] •MSSBC is prepared from municipal sewage sludge by a feasible process.•Porous MSSBC contains copious active sites and magnetic property.•Multiple interactions between lead and MSSBC guarantee the removal efficiency.•Waste control by waste is suggestive to the treatment of both sewa...

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Bibliographic Details
Published in:Bioresource technology 2017-08, Vol.238, p.399-406
Main Authors: Ifthikar, Jerosha, Wang, Jia, Wang, Qiliang, Wang, Ting, Wang, Huabin, Khan, Aimal, Jawad, Ali, Sun, Tingting, Jiao, Xiang, Chen, Zhuqi
Format: Article
Language:English
Subjects:
Adsorption
Biochar
Charcoal
Hydrogen-Ion Concentration
Kinetics
Lead
Lead removal
Magnetic separation
Sewage
Sewage sludge
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Summary:[Display omitted] •MSSBC is prepared from municipal sewage sludge by a feasible process.•Porous MSSBC contains copious active sites and magnetic property.•Multiple interactions between lead and MSSBC guarantee the removal efficiency.•Waste control by waste is suggestive to the treatment of both sewage sludge and wastewater. Highly efficient magnetic sewage sludge biochar (MSSBC) discloses feasible fabrication process with lower production cost, superior adsorption capacity, usage of waste sewage sludge as resource, selected by external magnetic field and exceptional regeneration property. 2gL−1 MSSBC exhibited a high adsorption capacity of 249.00mgg−1 in 200ppmPb(II) and the lead-MSSBC equilibrium was achieved within one hour, owing to the existence of the copious active sites. The adsorption kinetics was well described by the pseudo-second-order model while the adsorption isotherm could be fitted by Langmuir model. Mechanism study demonstrated the adsorption involved electrostatic attraction, ion exchange, inner-sphere complexation and formation of co-precipitates at the surface of MSSBC. Additionally, adsorption performance maintained remarkable in a broad pH window. These outcomes demonstrated the promising waste resource utilization by a feasible approach that turns the solid waste of sewage sludge into biochar adsorbent with auspicious applications in elimination of Pb(II) from wastewater.
ISSN:0960-8524
1873-2976
DOI:10.1016/j.biortech.2017.03.133