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Preparation of biochar grafted with amino-riched dendrimer by carbonization, magnetization and functional modification for enhanced copper removal

•MBC@APTES-PAMAM exhibited higher adsorption capacity for the removal of Cu(II).•The maximum Cu(II) adsorption capacity of MBC@APTES-PAMAM was 251.81 mg/g.•External impact factors such as pH, competing ions, surfactant and humic acid greatly influenced Cu(II) adsorption process.•The adsorption mecha...

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Published in:Journal of the Taiwan Institute of Chemical Engineers 2021-04, Vol.121, p.349-359
Main Authors: Yin, Zhihong, Zhu, Liandong, Mo, Fan, Li, Shuangxi, Hu, Dan, Chu, Ruoyu, Liu, Chenchen, Hu, Chaozhen
Format: Article
Language:English
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Summary:•MBC@APTES-PAMAM exhibited higher adsorption capacity for the removal of Cu(II).•The maximum Cu(II) adsorption capacity of MBC@APTES-PAMAM was 251.81 mg/g.•External impact factors such as pH, competing ions, surfactant and humic acid greatly influenced Cu(II) adsorption process.•The adsorption mechanism of MBC@APTES-PAMAM for Cu(II) was elucidated. Cu (II) is one of the most harmful heavy metals in the environment, due to the hazardous effects to aquatic organisms, plants, animals, and human beings. In this work, a novel modified magnetic biochar (MBC@APTES-PAMAM) was prepared by PAMAM dendrimer for the removal of Cu (II). The analysis of structural properties identically demonstrated that the abundant -NH2 groups were successfully loaded onto magnetic biochar surfaces. The sorption kinetics process of Cu (II) onto MBC@APTES-PAMAM was better fitted by the pseudo-second-order model. Langmuir isotherm model was better described for Cu (II) sorption process. MBC@APTES-PAMAM showed outstanding performances on Cu (II) removal, and the maximal adsorption amount was 251.81 mg/g. Adsorption experiment indicated that MBC@APTES-PAMAM had a higher Cu (II) removal efficiency under the pH range from 2 to 8. The adsorption capacity of Cu (II) onto MBC@APTES-PAMAM was decreased in the presence of competing ions. The existence of surfactant and humic acid had great influences on Cu (II) adsorption process. The Cu (II) adsorption mechanism was connected to the -NH2 by complexation reaction, due to the increased electrostatic attraction and bridging influences. In addition, MBC@APTES-PAMAM also exhibited comparable removal performances for COD (70.82%), TN (71.10%), TP (100%), NH3N (55.03%) and Cu (II) (99.68%) in the practical treatment of landfill leachate. Overall, MBC@APTES-PAMAM is a green, low-cost, and high efficiency adsorbent for Cu (II) removal. [Display omitted]
ISSN:1876-1070
1876-1089
DOI:10.1016/j.jtice.2021.04.014