对全规模污水处理厂中溶解有机物转化的分子认识

IF 4.8 Q1 ENVIRONMENTAL SCIENCES
Yuan Wen, Lei Dong, Jihong Xu, Xin Zhang, Lushi Lian* and Xiaohong Guan, 
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引用次数: 0

摘要

废水处理过程中产生的化合物可能会增加废水中溶解有机物(DOM)释放到受纳水体中的复杂性和化学风险评估。本研究采用傅立叶变换离子回旋共振质谱法研究了大规模城市污水处理厂(WWTP)中废水成分在分子水平上的动态变化。在废水中检测到的分子中,约有 63.1% 来自进水。在所研究的污水处理厂中,含 N/S 分子的去除率高于 CHO 分子。含 N 分子的脱烷基和加氧反应,以及在厌氧池和缺氧池中观察到的被去除分子的主要 N 加成反应,导致出水中的 N/Cwa 高于进水中的 N/Cwa。不过,在缺氧/厌氧/缺氧(倒置 A/A/O)过程中,含 S 分子可通过 S 损失反应有效去除。在所有倒置 A/A/O 过程中,脱烷基和加氧反应都是最主要的反应类型。与进水相比,出水中出现了更多芳香度和不饱和度更高的氧化分子。我们的研究结果全面展示了全规模污水处理厂中废水 DOM 的转化过程,并为了解出水水质提供了宝贵的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Molecular Insights into the Transformation of Dissolved Organic Matter in a Full-Scale Wastewater Treatment Plant

Molecular Insights into the Transformation of Dissolved Organic Matter in a Full-Scale Wastewater Treatment Plant

The compounds generated during wastewater treatment processes might increase the complexity and chemical risk assessment of wastewater-derived dissolved organic matter (DOM) released into receiving water. This study applied Fourier transform ion cyclotron resonance mass spectrometry to investigate the dynamic changes in wastewater composition at the molecular level in a full-scale municipal wastewater treatment plant (WWTP). Approximately 63.1% of the detected molecules in the effluent were derived from the influent. N/S-containing molecules were more effectively removed than CHO molecules in the studied WWTP. The dealkylation and oxygen addition reactions of N-containing molecules, along with the predominant N-addition reactions of removed molecules observed in anaerobic and oxic tanks, contributed to the higher N/Cwa in the effluent than in the influent. However, the S-containing molecules could be effectively removed via S-loss reactions in the anoxic/anaerobic/oxic (inverted A/A/O) processes. Dealkylation and oxygen addition reactions were found to be the predominant reaction types in all tanks of the inverted A/A/O processes. More oxidized molecules with higher aromaticity and unsaturation degree were observed in the effluent than in the influent. Our findings provide a comprehensive view of the transformation of wastewater DOM in a full-scale WWTP and offer valuable insights into effluent water quality.

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