氧化电吸附法去除老地方性黑足病地下水中的有毒砷(iii

IF 2 4区 环境科学与生态学 Q3 CHEMISTRY, ANALYTICAL
P.-A. Chen, C. Peng, S.-H. Liu, H. -. Wang
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引用次数: 0

摘要

自然发生的砷是台湾地下水中地方性黑足病的可能原因,其含量仍然超过台湾环境保护局的水质标准。目前迫切需要一种既可行又对环境无害的清理地下水的方法。利用来自农业废弃物的材料,电吸附法定量地将As(III)氧化为H3AsO3,生成毒性较小的As(V)−并去除地下水中的As;这表明该方法有潜力成为一种新颖的绿色修复方法。原理:20世纪50年代,台湾西南海岸的地下水中自然存在的砷引起了黑足病(BFD)。最近,我们发现在先前受BFD影响的地区,从目前密封的井中提取的地下水中砷的浓度仍然高于台湾(EPA)的水质标准。虽然该地区有干净的自来水,但从地下水中去除砷对于扩大可能的利用是非常重要的。方法采用电容去离子(CDI)电吸附法,研究了从农业废弃物中回收的活性炭(AC)电极去除两种古老的地方性BFD地下水中的砷。利用原位x射线吸收近边结构光谱学对砷电吸附过程进行了深入的研究。结果在不同浓度(5和196 mg/L)下,砷的去除率均为61 ~ 93%。发现As(III)0到As(V)−具有较高的氧化速率常数(0.93 h−1),使得As(V)−电吸附在AC CDI电极的介孔和微孔上,速率常数分别为0.021和0.0013 h−1。采用6个串联CDI反应器对受污染地下水中的砷进行了脱除。此外,在其他离子(如Na+、Mg2+和Ca2+)存在的情况下,60-73%的as (III)0和as (V)−离子被电吸附从地下水中去除。我们已经开发了一种工程上可行的方法,将As(III)0转化为毒性较小的As(V)−,使其能够通过电吸附去除,这证明了BFD水以及其他砷污染地下水绿色修复的可行性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Removal of toxic arsenic(iii) from an old endemic black-foot disease groundwater by oxidative electrosorption
Environmental context Naturally occurring arsenic was the likely cause of endemic black foot disease in groundwaters in Taiwan, and levels still exceed Taiwan EPA water quality standards. A method for the clean-up of these groundwaters that is both feasible and environmentally friendly is urgently needed. Oxidation of As(III) as H3AsO3 to the less toxic As(V)− and removal of As in groundwater was performed quantitatively by electrosorption using materials derived from agricultural wastes; this shows that this method has the potential to be a novel, green remediation method. Rationale Naturally occurring arsenic in the groundwater caused black-foot disease (BFD) in the 1950s on the southwest seashore of Taiwan. Recently, we found that the concentration of arsenic in groundwater taken from currently sealed wells in areas previously affected by BFD remained higher than the Taiwan (EPA) water quality standard. Although clean tap water is available in that area, removal of arsenic from the groundwater is of great importance to expand possible utilisation. Methodology Removal of arsenic from two old endemic BFD groundwaters with activated carbon (AC) electrodes recycled from agricultural wastes by electrosorption using capacitive deionisation (CDI) processes was studied. A better understanding of arsenic electrochemistry involved in electrosorption was investigated by in situ X-ray absorption near-edge structure spectroscopy. Results Arsenic removal efficiencies (61–93%) remained high across concentrations (5 and 196 mg/L). A high oxidation rate constant (0.93 h−1) for As(III)0 to As(V)− was found, allowing the electrosorption of As(V)− onto the meso- and micro-pores of the AC CDI electrodes with rate constants of 0.021 and 0.0013 h−1, respectively. Removal of arsenic from contaminated groundwater for drinking water was achieved with six CDI reactors in series. Moreover, in the presence of other ions (such as Na+, Mg2+ and Ca2+), 60–73% of As(III)0 and As(V)− ions were removed from the groundwaters by electrosorption. Discussion We have developed an engineering-feasible method for converting As(III)0 to less toxic As(V)−, enabling its removal by electrosorption, which demonstrates the feasibility for green remediation of BFD waters as well as other arsenic-contaminated groundwaters.
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来源期刊
Environmental Chemistry
Environmental Chemistry 环境科学-分析化学
CiteScore
4.50
自引率
0.00%
发文量
0
审稿时长
2.7 months
期刊介绍: Environmental Chemistry publishes manuscripts addressing the chemistry of the environment (air, water, earth, and biota), including the behaviour and impacts of contaminants and other anthropogenic disturbances. The scope encompasses atmospheric chemistry, geochemistry and biogeochemistry, climate change, marine and freshwater chemistry, polar chemistry, fire chemistry, soil and sediment chemistry, and chemical aspects of ecotoxicology. Papers that take an interdisciplinary approach, while advancing our understanding of the linkages between chemistry and physical or biological processes, are particularly encouraged. While focusing on the publication of important original research and timely reviews, the journal also publishes essays and opinion pieces on issues of importance to environmental scientists, such as policy and funding. Papers should be written in a style that is accessible to those outside the field, as the readership will include - in addition to chemists - biologists, toxicologists, soil scientists, and workers from government and industrial institutions. All manuscripts are rigorously peer-reviewed and professionally copy-edited. Environmental Chemistry is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science.
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