利用纳米级零价铁的混合阴离子交换器去除饮用水中的痕量六价铬†。

IF 3.5 Q3 ENGINEERING, ENVIRONMENTAL
Annabel L. Mungan, Elizabeth A. Hjelvik, Anthony P. Straub and Julie A. Korak
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引用次数: 0

摘要

六价铬是一种人类致癌物质,存在于世界各地的地下水中。虽然美国联邦政府并未对其进行监管,但加利福尼亚州已批准了新的 Cr(VI) 最大污染物含量标准,即 10 μg L-1,预计将于 2024 年秋季生效。本研究合成了一种带有纳米级零价铁的混合型强碱阴离子交换器(NZVI-树脂),并对其性能进行了鉴定和验证,以去除饮用水中的痕量六价铬。NZVI 树脂是在硼氢化钠(NaBH4)还原之前将四氯化铁离子(FeCl4-)交换到树脂上合成的。确定了重要合成变量的影响,包括试剂浓度和摩尔比、溶剂选择、温度和干燥程序。材料表征技术(如 SEM-EDS 和 XPS)确定了树脂表面 NZVI 的存在和元素分布。我们的研究结果表明,在柱实验中使用 NZVI 树脂去除痕量六价铬时,与未改性树脂相比,处理水的吞吐量提高了 360%。本研究对 NZVI 树脂的材料特性进行了广泛评估,讨论了批量试验的局限性,并介绍了六价铬处理在操作上面临的挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A hybrid anion exchanger with nanoscale zero valent iron for trace hexavalent chromium removal from drinking water†

A hybrid anion exchanger with nanoscale zero valent iron for trace hexavalent chromium removal from drinking water†

Hexavalent chromium, Cr(VI), is a human carcinogen that occurs in groundwater worldwide. While not federally regulated in the USA, the State of California has approved a new Cr(VI) maximum contaminant level at 10 μg L−1, expected to go into effect fall 2024. This study synthesizes, characterizes, and verifies performance of a hybrid strong base anion exchanger with nanoscale zero valent iron (NZVI-resin) for trace Cr(VI) removal from drinking water. NZVI-resin was synthesized by exchanging tetrachloroferrate ion (FeCl4) onto the resin prior to sodium borohydride (NaBH4) reduction. The impact of important synthesis variables was identified, including reagent concentrations and molar ratios, solvent selection, temperature, and drying procedure. Material characterization techniques (e.g. SEM-EDS and XPS) determined NZVI presence and elemental distribution on the resin surface. Our work showed a 360% increase in treated water throughput using NZVI-resin compared to unmodified resin for trace Cr(VI) removal in column experiments. This work presents a broad assessment of the material characteristics of NZVI-resin, discusses the limitations of batch tests, and describes operational challenges for Cr(VI) treatment.

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