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废木材衍生生物炭催化剂用于促进过一硫酸盐活化降解双酚 A,同时释放低金属离子:机理探讨。

Waste preserved wood derived biochar catalyst for promoted peroxymonosulfate activation towards bisphenol A degradation with low metal ion release: The insight into the mechanisms.

机构信息

College of Materials Science and Engineering, Nanjing Forestry University, Nanjing 210037, Jiangsu, People's Republic of China.

College of Biology and the Environment, Nanjing Forestry University, Nanjing 210037, Jiangsu, People's Republic of China.

出版信息

Sci Total Environ. 2022 Mar 20;813:152673. doi: 10.1016/j.scitotenv.2021.152673. Epub 2021 Dec 29.

DOI:10.1016/j.scitotenv.2021.152673
PMID:34973312
Abstract

The rational disposal of waste preserved wood is of great significance since its embedded metals (Cu, As, and Cr) pose potential threat to environment and human health. In this study, a biochar catalyst derived from waste preserved wood (PWB) was prepared for the degradation of bisphenol A (BPA) via peroxymonosulfate (PMS) activation. The PWB exhibited prominent catalytic degradation capability towards BPA compared with common wood derived biochar (CWB). Further tests and analysis elucidated that both radical species (OH) and non-radical species (O) were generated by the PWB/PMS system, whereas only O was detected in CWB/PMS system. Specifically, the metal compounds, especially metallic Cu in the PWB activated PMS via radical pathway, and the CO groups in the biochar generated the non-radical pathway, the coexistence of which resulted in higher BPA degradation rate in PWB/PMS system. It was also demonstrated that the heavy metal ion leaching (As and Cr) in PWB/PMS system was negligible. Furthermore, the biochar could effectively inhibit the leakage of oxidized Cu ions. This study provides a novel approach to prepare high-efficient carbocatalysts for organic pollutant degradation in water, which also enables the waste preserved wood with an environmental nondestructive mode of dispatch.

摘要

废保木中嵌入的金属(Cu、As 和 Cr)对环境和人类健康构成潜在威胁,因此合理处置废保木具有重要意义。本研究以废保木(PWB)为原料制备了一种生物炭催化剂,用于过一硫酸盐(PMS)活化降解双酚 A(BPA)。与普通木材衍生生物炭(CWB)相比,PWB 对 BPA 表现出显著的催化降解能力。进一步的测试和分析表明,PWB/PMS 体系中同时产生了自由基物种(OH)和非自由基物种(O),而 CWB/PMS 体系中仅检测到 O。具体而言,PWB 中的金属化合物,特别是金属 Cu 通过自由基途径激活 PMS,生物炭中的 CO 基团产生非自由基途径,两者共存导致 PWB/PMS 体系中 BPA 的降解速率更高。此外,还证明了 PWB/PMS 体系中重金属离子浸出(As 和 Cr)可忽略不计。此外,生物炭可以有效抑制氧化 Cu 离子的泄漏。本研究为高效碳催化剂的制备提供了一种新方法,用于水中有机污染物的降解,同时也为废保木提供了一种环境无损的处理方式。

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