天然有机物和水生腐殖质的臭氧化:臭氧对结构特征和随后的三卤甲烷形成潜力的影响

IF 2.4 4区 环境科学与生态学 Q2 WATER RESOURCES Water Quality Research Journal Pub Date : 2020-01-28 DOI:10.2166/wqrj.2020.011
Mehrnaz Sadrnourmohammadi, K. Brezinski, B. Gorczyca
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引用次数: 7

摘要

采用傅里叶变换红外耦合衰减全反射(FTIR-ATR)、紫外/可见(UV/Vis)光谱和同步扫描荧光(SSF)光谱研究了臭氧化对天然有机质(NOM)及其分离腐植酸(HA)和黄腐酸(fulvic acid)的结构和化学特性的影响。这些结果与臭氧化对具有高THM前体的水标准的三卤甲烷形成势(THMfp)降低的影响有关。结果表明,1 mg臭氧/mg溶解有机碳(DOC)的臭氧化处理可使HA水标准的DOC、UV254波长吸光度和THMfp分别降低42%、95%和89%。UV/Vis、FTIR-ATR和SSF的研究表明,臭氧可以改变水标准中DOC的组成,导致芳香性显著降低。每个臭氧化样品的UV254的降低也证实了臭氧主要针对NOM中所含的芳香基团。FTIR-ATR结果表明,臭氧应用影响的主要成分是不饱和官能团的减少,包括被测水标准中的芳香环和C = C键。SSF结果还表明,臭氧化降低了最大峰-和整个光谱的荧光强度。
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Ozonation of natural organic matter and aquatic humic substances: the effects of ozone on the structural characteristics and subsequent trihalomethane formation potential
The effect of ozonation on the structural and chemical characteristics of natural organic matter (NOM) and its isolated humic fractions, humic acid (HA) and fulvic acid, were studied using Fourier transform infrared coupled to attenuated total reflectance (FTIR-ATR), ultraviolet/visible (UV/Vis) spectroscopy, and synchronous scanning fluorescence (SSF) spectroscopy. The results were linked to the effect of ozonation on trihalomethane formation potential (THMfp) reduction for water standards with high THM precursors. Results showed that ozonation at a dose of 1 mg ozone/mg dissolved organic carbon (DOC) was capable of reducing DOC, UV absorbance at 254 nm (UV254), and THMfp by up to 42%, 95%, and 89% for the HA water standard, respectively. The study of UV/Vis, FTIR-ATR, and SSF revealed trends showing that ozone can alter the composition of DOC in the water standards, causing a significant reduction in aromaticity. The reduction of UV254 for each ozonated sample also affirms that ozone mainly targets aromatic moieties contained in NOM. FTIR-ATR results showed that the reduction of unsaturated functional groups, including aromatic rings and C = C bonds in the water standards tested, were the main components impacted by ozone application. SSF results also revealed that ozonation decreases the fluorescence intensity of the maximum peak – as well as the whole spectra.
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