新型钙基磁性生物炭在水相体系中同时修复 As(III)和 Cd(II)污染及其机理。

Remediation of As(III) and Cd(II) co-contamination and its mechanism in aqueous systems by a novel calcium-based magnetic biochar.

机构信息

Institute of Soil and Water Resources and Environmental Science, College of Environmental and Resource Sciences, Zhejiang University, 866 Yuhangtang Road, Hangzhou 310058, China; Zhejiang Provincial Key Laboratory of Agricultural Resources and Environment, Zhejiang University, 866 Yuhangtang Road, Hangzhou 310058, China.

Department of Animal, Plant and Soil Sciences, La Trobe University, Melbourne Campus, Bundoora, VIC 3086, Australia.

出版信息

J Hazard Mater. 2018 Apr 15;348:10-19. doi: 10.1016/j.jhazmat.2018.01.011. Epub 2018 Jan 6.

DOI:10.1016/j.jhazmat.2018.01.011

PMID:29367128

Abstract

A novel calcium-based magnetic biochar (Ca-MBC), made by pyrolyzing the mixture of rice straw, iron oxide (FeO) and calcium carbonate (CaCO), was developed in this study for remediation of co-pollution of arsenic and cadmium. Characteristics of the material showed that FeO and CaCO were adhered on the surface of biochar. The experiments on the effects of pH, adsorption kinetics and isotherm revealed that the Ca-MBC had a great ability to adsorb arsenic and cadmium within 0.5 h for cadmium and 12 h for arsenic with a maximum adsorption capacity of 6.34 and 10.07 mg g, respectively, and that the adsorption of both metals was pH-dependent from 2 to 12 with an optimal pH of pH 5. The mechanism of co-adsorption of Cd(II) and As(III) included both competitive and synergistic effects. The presence of As(III) enhanced Cd(II) adsorption by 3-16% while Cd(II) addition suppressed As(III) adsorption by 15-33%. The synergistic effects on As(III) and Cd(II) adsorption had resulted from the electrostatic interaction and the formation of type B ternary surface complexes. These new insights provide valuable information for the application of Ca-MBC as a potential adsorbent in treatment of water contaminated with As(III) and Cd(II).

摘要

本研究制备了一种新型的基于钙的磁性生物炭（Ca-MBC），它是通过热解稻草、氧化铁（FeO）和碳酸钙（CaCO）的混合物制成的，用于砷和镉的复合污染修复。该材料的特性表明，FeO 和 CaCO 附着在生物炭的表面上。pH 值、吸附动力学和等温线实验表明，Ca-MBC 在 0.5 h 内对镉的吸附能力很强，在 12 h 内对砷的吸附能力很强，最大吸附容量分别为 6.34 和 10.07 mg/g，且两种金属的吸附均受 pH 值影响，范围为 2 到 12，最佳 pH 值为 pH 5。Cd(II)和 As(III)的共吸附机制包括竞争和协同作用。As(III)的存在使 Cd(II)的吸附增强了 3-16%，而 Cd(II)的加入使 As(III)的吸附减少了 15-33%。对 As(III)和 Cd(II)吸附的协同作用源于静电相互作用和 B 型三元表面配合物的形成。这些新的认识为 Ca-MBC 作为一种潜在的吸附剂在处理含 As(III)和 Cd(II)的水污染方面的应用提供了有价值的信息。

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新型钙基磁性生物炭在水相体系中同时修复 As(III)和 Cd(II)污染及其机理。

Remediation of As(III) and Cd(II) co-contamination and its mechanism in aqueous systems by a novel calcium-based magnetic biochar.

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