荧光光谱技术在废水溶解有机物研究中的应用进展

分析废水中特征污染物质的组成、性质、来源等对于水污染控制、应急事故处理、环境质量责任认定等具有重 要的意义和价值。荧光光谱技术利用物质的荧光特性, 构建物质的特征光谱图, 并以此分析物质特性, 可用于分析 废水中腐殖质、氨基酸、荧光增白剂、木质素、多环芳烃等多种有机污染物质。文章从荧光光谱技术的原理出发, 主 要对三维荧光光谱技术和同步荧光光谱技术在研究废水溶解有机物特征组成物质中的应用及环境因子对其影响进 行了综述, 并对该技术的发展前景进行展望, 以期为废水溶解有机物特征组成物质提供完善可靠的分析方法。 Analysis of the compositions, nature, and origins of the characteristic contaminants in wastewaters is important for water pollution control, treatment of pollution accidents, and the responsibility determination of environmental quality . Fluorescence spectroscopy can be used to analyze humic substances, amino acids, fluorescent whitening agents, lignin, polycyclic aromatic hydrocarbons and so on in wastewaters based on the characteristic fluorescence spectra of these substances. This paper first introduces the principle of fluorescence spectroscopy . Then it summarizes the applications of three-dimensional fluorescence spectroscopy and synchronous fluorescence spectroscopy in the study of characteristic dissolved or ganic matters in wastew aters. It also discusses the impacts of environmental factors on fluorescence spectroscopy. Finally, it provides an outlook of the future development of this technology with a view to providing a reliable analytical approach for characteristic dissolved organic matters in wastewaters. 国家自然科学基金( 41103044) ; 中央高校基本科研业务费专项资金资助( 2015KJJCA08)