三乙胺的氯胺化形成 NDMA 和卤代 DBPs：溴离子的影响。

Formation of NDMA and halogenated DBPs by chloramination of tertiary amines: the influence of bromide ion.

机构信息

Laboratoire de Chimie et Microbiologie de l'Eau (CNRS UMR 6008), Université de Poitiers-ENSIP, 40 Avenue du Recteur Pineau, 86022 Poitiers Cedex, France.

出版信息

Environ Sci Technol. 2012 Feb 7;46(3):1581-9. doi: 10.1021/es203785s. Epub 2012 Jan 20.

DOI:10.1021/es203785s

PMID:22214364

Abstract

The formation of NDMA and other DBPs (including THMs, HANs, and HKs) has been investigated by chloramination of several tertiary amines in the absence and presence of bromide ion. NDMA formation from the most reactive tertiary amines (e.g., dimethylaminomethylfurfuryl alcohol or DMP30) was enhanced in the presence of bromide due to the formation of brominated oxidant species such as bromochloramine (NHBrCl) and the hypothetical UDMH-Br as an intermediate. The formation of NDMA by chloramination of less reactive model compounds was inhibited in the presence of bromide. This can be explained by competitive reactions leading to the production of brominated DBPs (i.e., THMs). In the presence of bromide, the formation of brominated THMs during chloramination can be attributed to the presence of small amounts of HOBr produced by the decomposition of chloramines and bromamines. The results are of particular interest to understand NDMA formation mechanisms, especially during chloramination of wastewaters impacted by anthropogenic tertiary amines and containing bromide ion.

摘要

已研究了几种叔胺在无溴离子和有溴离子存在条件下的氯胺化反应，以考察 NDMA 和其他 DBPs（包括三卤甲烷、卤乙酸和卤代酮）的形成。由于形成了溴化氧化剂物种，如溴氯胺（NHBrCl）和假设的 UDMH-Br 作为中间体，因此在溴离子存在下，最具反应性的叔胺（如二甲氨基甲基糠醛醇或 DMP30）的 NDMA 形成得到增强。由于形成了溴化 DBPs（即三卤甲烷），因此，在溴离子存在下，反应性较低的模型化合物的氯胺化生成 NDMA 受到抑制。这可以通过竞争性反应来解释，这些反应导致生成了溴化 DBPs。在溴离子存在下，氯胺化过程中形成溴化三卤甲烷可归因于由氯胺和溴胺分解产生的少量 HOBr 的存在。这些结果对于理解 NDMA 形成机制特别有意义，尤其是在受人为叔胺和含溴离子的废水的氯胺化过程中。

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三乙胺的氯胺化形成 NDMA 和卤代 DBPs：溴离子的影响。

Formation of NDMA and halogenated DBPs by chloramination of tertiary amines: the influence of bromide ion.

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