人工甜味剂在污水处理厂和水处理过程中的去向。

Fate of artificial sweeteners through wastewater treatment plants and water treatment processes.

作者信息

Li Shaoli, Ren Yuhang, Fu Yingying, Gao Xingsheng, Jiang Cong, Wu Gang, Ren Hongqiang, Geng Jinju

机构信息

State Key Laboratory of Pollution Control and Resource Reuse, School of the Environment, Nanjing University, Jiangsu, PR of China.

出版信息

PLoS One. 2018 Jan 2;13(1):e0189867. doi: 10.1371/journal.pone.0189867. eCollection 2018.

DOI:10.1371/journal.pone.0189867

PMID:29293534

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5749728/

Abstract

Five full-scale wastewater treatment plants (WWTPs) in China using typical biodegradation processes (SBR, oxidation ditch, A2/O) were selected to assess the removal of four popular artificial sweeteners (ASs). All four ASs (acesulfame (ACE), sucralose (SUC), cyclamate (CYC) and saccharin (SAC)) were detected, ranging from 0.43 to 27.34μg/L in the influent. Higher concentrations of ASs were measured in winter. ACE could be partly removed by 7.11-50.76% through biodegradation and especially through the denitrifying process. The A2/O process was the most efficient at biodegrading ASs. Adsorption (by granular activated carbon (GAC) and magnetic resin) and ultraviolet radiation-based advanced oxidation processes (UV/AOPs) were evaluated to remove ASs in laboratory-scale tests. The amounts of resin adsorbed were 3.33-18.51 times more than those of GAC except for SUC. The adsorption ability of resin decreased in the order of SAC > ACE > CYC > SUC in accordance with the pKa. Degradation of ASs followed pseudo-first-order kinetics in UV/H2O2 and UV/PDS. When applied to the secondary effluent, ASs could be degraded from 30.87 to 99.93% using UV/PDS in 30 minutes and UV/PDS was more efficient and economic.

摘要

在中国，选取了五家采用典型生物降解工艺（SBR、氧化沟、A2/O）的全规模污水处理厂，以评估四种常见人工甜味剂（ASs）的去除情况。检测到了所有四种人工甜味剂（乙酰磺胺酸钾（ACE）、三氯蔗糖（SUC）、甜蜜素（CYC）和糖精（SAC）），进水浓度范围为0.43至27.34μg/L。冬季检测到的人工甜味剂浓度更高。ACE可通过生物降解，特别是通过反硝化过程部分去除，去除率为7.11 - 50.76%。A2/O工艺在生物降解人工甜味剂方面效率最高。在实验室规模试验中，评估了吸附（通过颗粒活性炭（GAC）和磁性树脂）以及基于紫外线辐射的高级氧化工艺（UV/AOPs）去除人工甜味剂的效果。除SUC外，树脂的吸附量比GAC高3.33 - 18.51倍。根据pKa，树脂的吸附能力顺序为SAC > ACE > CYC > SUC。在UV/H2O2和UV/PDS中，人工甜味剂的降解遵循准一级动力学。当应用于二级出水时，使用UV/PDS在30分钟内可将人工甜味剂降解30.87%至99.93%，且UV/PDS更高效、经济。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7dac/5749728/05192128ada5/pone.0189867.g001.jpg

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人工甜味剂在污水处理厂和水处理过程中的去向。

Fate of artificial sweeteners through wastewater treatment plants and water treatment processes.

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