利用改性天然纳米沸石从源头管理和去除水中的硝酸盐污染

Bahareh Azemi motlagh, A. Mohammadi, M. Ardjmand
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引用次数: 0

摘要

硝酸盐是一种危害人类健康的有害物质,其清除是一项重要的环境优先事项。因此,本研究首先对水体硝酸盐污染的来源进行了研究,然后采用分析方法对纳米沸石的结构、作用及其在硝酸盐离子去除中的应用进行了研究。通过实验设计软件和有效参数的图形化分析,探讨了ZSM-5/Fe/Ni纳米吸附剂的处理方案、污染行业的识别、不同的去除方法和制备方法,以及去除硝酸盐的最佳条件。室内法图解分析结果表明,在停留时间为150 min、pH为3、吸附剂为4 g L-1、硝酸盐为40 mg L-1时,硝酸盐去除率最高(%RE:91.5 ~ 97.4)。实验结果表明,ZSM-5/Fe/Ni吸附剂对水中硝酸盐的去除效率高、吸附能力强、效果好。最后用紫外-可见分光光度法测定硝酸盐浓度在20 ~ 120 mg L-1之间的吸光度值。ZSM-5/Fe/Ni吸附剂对硝酸盐的最大吸附量为136.7 mg g-1。基于新型ZSM-5/Fe/Ni吸附剂开发的方法具有简单、成本低、效率高、回收率好等优点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Management and removal of nitrate contamination of water at the source using modified natural nano zeolite
Nitrate is a hazardous substance for human health, the removal of which is an important environmental priority. Therefore, in this study, first, the sources of nitrate pollution of water were investigated, then the structure, role, and application of nanozeolites for the removal of nitrate ions were studied by the analytical method. Also, the presentation of management solutions, identification of polluting industrial sectors, different methods of removal and fabrication of ZSM-5/Fe/Ni nanosorbents, and the determination of optimal conditions for nitrate removal were investigated by experimental design software and graphical analysis of effective parameters. The results of graphical analysis of laboratory method showed us, the highest nitrate removal efficiency at a residence time of 150 minutes, pH 3, 4 g L-1 adsorbent, and 40 mg L-1 nitrate were achieved (%RE:91.5-97.4). Experimental results indicate the high efficiency, absorption capacity, and effectiveness of ZSM-5/Fe/Ni adsorbents for nitrate removal in waters. Finally, the absorbance values or nitrate concentrations between 20-120 mg L-1 were measured by the UV-Vis spectrophotometry. The maximum absorption capacity of ZSM-5/Fe/Ni adsorbents for nitrate was obtained 136.7 mg g-1. The developed method based on a novel ZSM-5/Fe/Ni adsorbents has many advantages such as simple, low cost, high efficiency, and favorite recovery. 
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