1,4-dioxane in German drinking water: Origin, occurrence, and open questions

IF 6.7 Q1 ENVIRONMENTAL SCIENCES Current Opinion in Environmental Science and Health Pub Date : 2022-12-01 DOI:10.1016/j.coesh.2022.100391

Sabrina de Boer , Laura Wiegand , Ursula Karges

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引用次数: 1

Abstract

The persistent, mobile, and toxic ether 1,4-dioxane poses a risk to German drinking water production. Even though groundwater provides the largest share of German drinking water supply, regionally, these resources have to be complemented by surface waters, which are locally exceeding the German drinking water guidance value of 5 μg/L. Contamination predominantly originates from wastewater treatment plant (WWTP) effluents as major point sources. Case studies show that commonly applied raw water extraction methods such as river bank filtration (RBF) do not act as sufficient barriers against source water contamination with 1,4-dioxane, consequently, drinking water concentrations of up to > 2 μg/L were determined. Emission mitigation measures as advanced oxidation processes (AOPs) were assessed and resulted in a reduction of surface and drinking water concentrations. Since 1,4-dioxane has also been proven to be a contaminant in German groundwater in concentrations of up to 152 μg/L at selected sites, drinking water relevant groundwater should be increasingly monitored.

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德国饮用水中的1,4-二恶烷:起源、发生和悬而未决的问题

持久性、流动性和毒性的醚1,4-二恶烷对德国饮用水生产构成威胁。尽管地下水在德国的饮用水供应中所占的份额最大，但从区域来看，这些资源必须由地表水补充，地表水在当地超过了德国饮用水指导值5 μg/L。污染主要来自污水处理厂(WWTP)的排放，是主要的点源。案例研究表明，常用的原水提取方法，如河岸过滤(RBF)不能作为足够的屏障，防止源水受到1,4-二恶烷的污染，因此，饮用水浓度高达>2 μg/L。评估了作为高级氧化工艺(AOPs)的减缓排放措施，结果降低了地表水和饮用水的浓度。由于1,4-二恶烷也已被证明是德国地下水中的一种污染物，在某些地点的浓度高达152 μg/L，因此应加强对饮用水相关地下水的监测。

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