Insight into the roles of endogenous minerals in the activation of persulfate by graphitized biochar for tetracycline removal

生物炭 过硫酸盐 降级(电信) 化学 热解 催化作用 碳纤维 吸附 碳化 环境化学 生物量(生态学) 化学工程 材料科学 有机化学 农学 电信 复合材料 生物 计算机科学 复合数 工程类
作者
Runyuan Zhang,Xiaoxian Zheng,Dongqing Zhang,Xiaojun Niu,Jinlin Ma,Zhang Lin,Mingli Fu,Shaoqi Zhou
出处
期刊:Science of The Total Environment [Elsevier BV]
卷期号:768: 144281-144281 被引量:52
标识
DOI:10.1016/j.scitotenv.2020.144281
摘要

Abstract Owing to its environmental-friendliness, low-cost, and outstanding characteristics, biochar has been widely used for the catalytic degradation of various organic pollutants. In this study, a pre- and post-deashing graphitized biochar (DBC800 and PBC800-A) was prepared and compared with the pristine biochar (PBC800) to activate persulfate (PS) for tetracycline (TC) degradation. The influence of the natural endogenous mineral on the catalytic ability of biochar was investigated. Characterization results show that the inherent endogenous mineral in biochar not only acted as a natural pore-forming agent to promote the formation of the porous structure, but also facilitated the formation of edge defective structures, and altered the surface functional groups, as well as increased the carbonization and graphitization degree of biochar. The PBC800-A exhibited a much higher catalytic efficiency on PS activation and TC oxidative degradation with the reaction rate of 0.06055 min−1, 7.14 times as that of DBC800 (0.00861 min−1) and 4.63 times as that of PBC800 (0.00158 min−1). The endogenous minerals were conducive to the generation of free radicals and promoted the oxidative degradation of TC, which was mainly attributed to the improved carbon configuration. The post-deashing treatment was also found to significantly improve the electron transport efficiency of biochar by removing the residual ash, thereby promoting the generation of singlet oxygen. This study demonstrated that the natural minerals in biochar was beneficial for the degradation of TC, and more alternative natural minerals can be applied to co-pyrolysis with biochar for the remediation of refractory organic pollutants.
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