期刊
RESOURCES CONSERVATION AND RECYCLING
卷 177, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.resconrec.2021.106003
关键词
Biochar; Pyrolysis; Municipal solid waste; Wastewater purification; Resource utilization
资金
- National Natural Science Foundation of China [52100156]
- Shenzhen Science and Technology Program [GJHZ20200731095801005, JCYJ20200109150210400]
A large amount of municipal solid waste is being produced due to urbanization, posing serious threats to the environment and human health. The preparation of MSW-derived biochar is an effective strategy for waste reclamation, particularly in wastewater purification through adsorption and catalysis. Classified biochar from MSW, such as food waste and waste paper, has larger surface area and porosity compared to mixed MSW-derived biochar, and various methods of pre-treatment and post-treatment can improve its structure and composition to enhance adsorption capacity and catalytic activity.
A huge amount of municipal solid waste (MSW) is produced with urbanization process, posing serious threats to the surroundings and human health. The preparation of MSW-derived biochar is an effective strategy for the waste reclamation. MSW-derived biochar possesses great potential in wastewater purification by adsorption and catalysis. In this review, biochar prepared from classified MSW (e.g. food waste and waste paper) was found with larger specific surface area and porosity than the mixed MSW-derived biochar. Meanwhile, pre-treatment and post-treatment means are summarized to improve the structure and composition of biochar, which could further strengthen its adsorption capacity and catalytic activity. The -COOH, -C = O, -C = C, -OH group sites and aromatic structure of MSW-derived biochar could adsorb pollutants through electrostatic interaction, surface complexation, ion exchange, hydrogen bonding and pi-pi interaction. Moreover, thanks to the -COOH, -C = O, -OH groups, N-doped structures, defective sites and iron ion species, the food waste-derived biochar exhibits excellent persulfate activation properties. Finally, the future challenges and research directions are suggested, which is conductive to promoting the resource utilization of MSW. Some consideration and recommendation about MSWderived biochar for water treatment are provided, which facilitates the popularization of the innovative mode waste control by waste in aquatic environment remediation.
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