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Resource utilization of rice straw to prepare biochar as peroxymonosulfate activator for naphthalene removal: Performances, mechanisms, environmental impact and applicability in groundwater

生物炭 环境修复 化学 地下水修复 环境化学 地下水 午睡 热解 稻草 环境科学 制浆造纸工业 污染 废物管理 无机化学 有机化学 生态学 工程类 神经科学 岩土工程 生物
作者
Jun Bo Zhang,Chaomeng Dai,Zeyu Wang,Xueji You,Yanping Duan,Xiaoying Lai,Rongbing Fu,Yalei Zhang,Maisideke Maimaitijiang,Kah Hon Leong,Yao-Jen Tu,Li Zhi
出处
期刊:Water Research [Elsevier BV]
卷期号:244: 120555-120555 被引量:56
标识
DOI:10.1016/j.watres.2023.120555
摘要

Herein, biochar was prepared using rice straw, and it served as the peroxymonosulfate (PMS) activator to degrade naphthalene (NAP). The results showed that pyrolysis temperature has played an important role in regulating biochar structure and properties. The biochar prepared at 900°C (BC900) had the best activation capacity and could remove NAP in a wide range of initial pH (5-11). In the system of BC900/PMS, multi-reactive species were produced, in which 1O2 and electron transfer mainly contributed to NAP degradation. In addition, the interference of complex groundwater components on the NAP removal rate must get attention. Cl− had a significant promotional effect but risked the formation of chlorinated disinfection by-products. HCO3−, CO32−, and humic acid (HA) had an inhibitory effect; surfactants had compatibility problems with the BC900/PMS system, which could lead to unproductive consumption of PMS. Significantly, the BC900/PMS system showed satisfactory remediation performance in spiked natural groundwater and soil, and it could solve the problem of persistent groundwater contamination caused by NAP desorption from the soil. Besides, the degradation pathway of NAP was proposed, and the BC900/PMS system could degrade NAP into low or nontoxic products. These suggest that the BC900/PMS system has promising applications in in-situ groundwater remediation.
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