一种简便的生物炭/氧化锌钝化剂的热解合成：Cu（II）在土壤中的固定化行为和机制。

A facile pyrolysis synthesis of biochar/ZnO passivator: immobilization behavior and mechanisms for Cu (II) in soil.

机构信息

State Key Laboratory Base of Eco-Chemical Engineering, Qingdao University of Science & Technology, Qingdao, 266042, PR China.

出版信息

Environ Sci Pollut Res Int. 2020 Jan;27(2):1888-1897. doi: 10.1007/s11356-019-06888-z. Epub 2019 Nov 23.

DOI:10.1007/s11356-019-06888-z

PMID:31758482

Abstract

Waste biomass can be recycled to prepare biochar for soil restoration, in which process soil fertility would not be lost. In this work, biochar was prepared from waste pomelo peel, combined with ZnO, to be used to immobilize Cu(II) in contaminated soil, whose maximum adsorption capacity was up to 216.37 mg g. Due to combination of ZnO, the BET surface area of biochar increased from 2.39 to 18.53 m g. Meanwhile, the surface functional groups increased, which was conducive to fixation of metal ion on the surface of biochar. Both pseudo-second-order kinetics and Langmuir isotherm model fit the experimental data well. Adsorption was easy to happen since the adsorption site on the surface of biochar/ZnO had a strong affinity with Cu(II). In addition, mechanism investigation indicated that Cu(II) was bond with biochar/ZnO mainly by non-bioavailable state (75.6%) primarily. It inferred that biochar/ZnO was an efficient and promising passivator in reducing heavy metal risk in soil.

摘要

废弃生物质可回收用于制备生物炭以修复土壤，在此过程中不会损失土壤肥力。在这项工作中，以柚子皮为原料，结合 ZnO 制备了生物炭，用于固定污染土壤中的 Cu(II)，其最大吸附容量高达 216.37mg g。由于 ZnO 的结合，生物炭的 BET 比表面积从 2.39 增加到 18.53 m g。同时，表面官能团增加，有利于金属离子在生物炭表面的固定。伪二阶动力学和 Langmuir 等温线模型都很好地拟合了实验数据。吸附很容易发生，因为生物炭/ZnO 表面的吸附位与 Cu(II)具有很强的亲和力。此外，机制研究表明，Cu(II)主要通过不可利用态（75.6%）与生物炭/ZnO 键合。这表明生物炭/ZnO 是一种有效且有前途的钝化剂，可降低土壤中重金属的风险。

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一种简便的生物炭/氧化锌钝化剂的热解合成：Cu（II）在土壤中的固定化行为和机制。

A facile pyrolysis synthesis of biochar/ZnO passivator: immobilization behavior and mechanisms for Cu (II) in soil.

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