生物炭负载纳米零价铁对硒酸盐的去除性能及其生物毒性

Performance of selenate removal by biochar embedded nano zero-valent iron and the biological toxicity to .

作者信息

Liang Liping, Xue Yuanyuan, Tian Gangliang, Mao Qiaole, Lou Zixuan, Wu Qian, Wang Qian, Du Juanshan, Meng Xu

机构信息

School of Civil Engineering, Shaoxing University Shaoxing 312000 P. R. China

College of Life Science, Shaoxing University Shaoxing 312000 P. R. China.

出版信息

RSC Adv. 2019 Aug 21;9(45):26136-26141. doi: 10.1039/c9ra04535j. eCollection 2019 Aug 19.

DOI:10.1039/c9ra04535j

PMID:35530983

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9070360/

Abstract

The application of nano zero-valent iron (nZVI) in water environment was limited by its easily aggregation and potential biological toxicity. In this study, biochar embedded nZVI (BC-nZVI) was prepared by carbon-thermal reduction method, and the SEM-EDX mapping results showed that nZVI was successfully embedded on biochar. Meanwhile, BC-nZVI with the optimal Fe/C of 2/1 showed a similar Se(vi) removal efficiency to pure nZVI. Effects of pH, BC-nZVI loading, and initial Se(vi) concentration were studied. Se(vi) removal rates (at 30 min) by BC-nZVI at pH 4.0 and 5.0 were 98.2% and 95.9%, respectively. But Se(vi) removal rate (at 30 min) was sharply decreased to 25.8% at pH 6.0. With the increase of BC-nZVI loading from 0.5 g L to 1 g L, Se(vi) removal rate (at 30 min) significantly increased from 25.5% to 95.9%. And the continuous increase of BC-nZVI loading to 2 g L did not improve Se(vi) removal rate. Se(vi) less than 3 mg L was completely removed by BC-nZVI in 30 min, but Se(vi) more than 6 mg L only was removed about 25.9% at 30 min. Optimal parameters were pH 4.0, 2 g L BC-nZVI, and 1.5 mg L Se(vi). Variation of calculated amount, SOD activity, and protein content of with nZVI and BC-nZVI indicated that nZVI and BC-nZVI both produced negative effects on the growth of . But the amount and SOD activity of with pure nZVI was lower than that with BC-nZVI. Moreover, with nZVI released more protein than that with BC-nZVI. So modified nZVI by biochar was less harmful to than nZVI.

摘要

纳米零价铁（nZVI）在水环境中的应用受到其易团聚和潜在生物毒性的限制。本研究采用碳热还原法制备了生物炭负载纳米零价铁（BC-nZVI），扫描电子显微镜-能谱分析（SEM-EDX）映射结果表明nZVI成功负载于生物炭上。同时，Fe/C为2/1的BC-nZVI对Se(Ⅵ)的去除效率与纯nZVI相似。研究了pH值、BC-nZVI负载量和初始Se(Ⅵ)浓度的影响。BC-nZVI在pH 4.0和5.0时（30分钟）对Se(Ⅵ)的去除率分别为98.2%和95.9%。但在pH 6.0时（30分钟）Se(Ⅵ)去除率急剧降至25.8%。随着BC-nZVI负载量从0.5 g/L增加到1 g/L，Se(Ⅵ)去除率（30分钟）从25.5%显著增加到95.9%。而BC-nZVI负载量继续增加到2 g/L时，Se(Ⅵ)去除率并未提高。BC-nZVI在30分钟内可完全去除浓度低于3 mg/L的Se(Ⅵ)，但对于浓度高于6 mg/L的Se(Ⅵ)，在30分钟时仅去除约25.9%。最佳参数为pH 4.0、2 g/L BC-nZVI和1.5 mg/L Se(Ⅵ)。nZVI和BC-nZVI作用下[具体生物名称未给出]的计算量、超氧化物歧化酶（SOD）活性及蛋白质含量的变化表明，nZVI和BC-nZVI均对[具体生物名称未给出]的生长产生负面影响。但纯nZVI作用下[具体生物名称未给出]的数量和SOD活性低于BC-nZVI作用下的。此外，nZVI作用下[具体生物名称未给出]释放的蛋白质比BC-nZVI作用下的多。因此，生物炭改性的nZVI对[具体生物名称未给出]的危害小于nZVI。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4bc7/9070360/0fc695f3d583/c9ra04535j-f1.jpg

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生物炭负载纳米零价铁对硒酸盐的去除性能及其生物毒性

Performance of selenate removal by biochar embedded nano zero-valent iron and the biological toxicity to .

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