Comprehensive Analysis of Highly Polar Contaminants in Drinking Water

饮用水中强极性污染物的综合分析

• 批准号: RGPIN-2017-04015
• 负责人: Gabryelski, Wojciech
• 金额: $ 1.6万
• 依托单位: University of Guelph
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2017
• 资助国家: 加拿大
• 起止时间: 2017-01-01 至 2018-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=632576
• 关键词: Comprehensive; Analysis; Highly; Polar; Contaminants

It is difficult to evaluate an environmental impact of chemical contamination in aquatic environments considering ~85,000 chemicals in commercial use today and even a larger group of currently unidentified natural components and disinfection by-products in water. Drinking water is an especially complex mixture of naturally occurring and anthropogenic chemicals. Over the past four decades, thousands of new drinking water contaminants have been identified and hazardous pollutants are regulated, but currently unidentified species may pose threats or be beneficial to the environment and human health. The major gap in our knowledge about the chemical contamination of drinking water is related to highly polar contaminants representing decomposition products of dissolved organic matter from water disinfection treatments or from microbial activities. The identification and investigation of these emerging pollutants in drinking water is the objective of our proposed NSERC-funded research program. For this purpose, we will use powerful analytical methods based on combining the technologies of Electrospray Ionization, Ultra-High Performance Liquid Chromatography, Differential Ion Mobility (FAIMS) and Mass Spectrometry. These novel techniques, developed recently in our research, are capable of separating, detecting and identifying emerging (previously unknown) drinking water pollutants in a quick and convenient fashion without a need for costly sample preparation protocols. Using these unique analytical capabilities, we will be able to investigate a wide range of drinking water samples from ground and surface sources before and after various disinfection treatments (chlorination, ozonation, chloramination or UV radiation) to provide the comprehensive information on formation, occurrence, fate, and environmental impact of novel drinking water contaminants which could not be previously studied by conventional techniques in water analysis.

考虑到今天商业使用的约85,000种化学物质，甚至水中目前未确定的天然成分和消毒副产品，很难评估水环境中化学污染的环境影响。饮用水是一种特别复杂的天然化学物质和人为化学物质的混合物。在过去的40年里，已经发现了数千种新的饮用水污染物，并对危险污染物进行了监管，但目前未确定的物种可能对环境和人类健康构成威胁或有益。我们对饮用水化学污染的主要认识差距与高极性污染物有关，这些污染物是水消毒处理或微生物活动所产生的溶解有机物的分解产物。识别和调查饮用水中的这些新出现的污染物是我们提议的NSERC资助的研究计划的目标。为此，我们将使用基于电喷雾电离、超高效液相色谱、差示离子迁移率(FAIMS)和质谱仪技术的强大分析方法。这些新技术是我们最近在研究中开发的，能够以快速和方便的方式分离、检测和识别新出现的(以前未知的)饮用水污染物，而不需要昂贵的样品制备程序。利用这些独特的分析能力，我们将能够调查各种消毒处理(氯化、臭氧、氯胺化或紫外线辐射)前后的地面和地表水来源的广泛饮用水样本，以提供有关新型饮用水污染物的形成、发生、去向和环境影响的全面信息，这些污染物以前无法通过传统的水分析技术进行研究。