评估全规模活性污泥厂中药物和个人护理产品的去除效果。

Assessing the removal of pharmaceuticals and personal care products in a full-scale activated sludge plant.

机构信息

REQUIMTE/CQFB, Chemistry Department, FCT, Universidade Nova de Lisboa, Caparica, Portugal.

出版信息

Environ Sci Pollut Res Int. 2012 Jun;19(5):1818-27. doi: 10.1007/s11356-011-0693-z. Epub 2011 Dec 30.

DOI:10.1007/s11356-011-0693-z

PMID:22207237

Abstract

PURPOSE

This study aimed to investigate the removal mechanisms of pharmaceutical active compounds (PhACs) and musks in a wastewater treatment plant (WWTP). Biological removal and adsorption in the activated sludge tank as well as the effect of UV radiation used for disinfection purposes were considered when performing a mass balance on the WWTP throughout a 2-week sampling campaign.

METHODS

Solid-phase extraction (SPE) was carried out to analyse the PhACs in the influent and effluent samples. Ultrasonic solvent extraction was used before SPE for PhACs analysis in sludge samples. PhAC extracts were analysed by LC-MS. Solid-phase microextraction of liquid and sludge samples was used for the analysis of musks, which were detected by GC-MS. The fluxes of the most abundant compounds (13 PhACs and 5 musks) out of 79 compounds studied were used to perform the mass balance on the WWTP.

RESULTS

Results show that incomplete removal of diclofenac, the compound that was found in the highest abundance, was observed via biodegradation and adsorption, and that UV photolysis was the main removal mechanism for this compound. The effect of adsorption to the secondary sludge was often negligible for the PhACs, with the exceptions of diclofenac, etofenamate, hydroxyzine and indapamide. However, the musks showed a high level of adsorption to the sludge. UV radiation had an important role in reducing the concentration of some of the target compounds (e.g. diclofenac, ibuprofen, clorazepate, indapamide, enalapril and atenolol) not removed in the activated sludge tank.

CONCLUSIONS

The main removal mechanism of PhACs and musks studied in the WWTP was most often biological (45%), followed by adsorption (33%) and by UV radiation (22%). In the majority of the cases, the WWTP achieved >75% removal of the most detected PhACs and musks, with the exception of diclofenac.

摘要

目的

本研究旨在探讨废水处理厂（WWTP）中药物活性化合物（PhACs）和麝香的去除机制。在对 WWTP 进行为期两周的采样活动的质量平衡中，考虑了生物去除和活性污泥罐中的吸附以及用于消毒目的的紫外线辐射的影响。

方法

固相萃取（SPE）用于分析进水和出水样品中的 PhACs。在 SPE 之前，使用超声波溶剂萃取分析污泥样品中的 PhACs。PhAC 提取物通过 LC-MS 分析。液样和污泥样的固相微萃取用于麝香分析，通过 GC-MS 检测。在所研究的 79 种化合物中，最丰富的化合物（13 种 PhACs 和 5 种麝香）的通量用于 WWTP 的质量平衡。

结果

结果表明，通过生物降解和吸附观察到二氯芬酸（含量最高的化合物）去除不完全，并且光解是该化合物的主要去除机制。对于 PhACs，吸附到二级污泥的影响通常可以忽略不计，二氯芬酸、乙氧苯柳胺、羟嗪和吲达帕胺除外。然而，麝香对污泥表现出高水平的吸附。紫外线辐射对降低一些目标化合物（如二氯芬酸、布洛芬、氯硝西泮、吲达帕胺、依那普利和阿替洛尔）的浓度具有重要作用，这些化合物在活性污泥池中未被去除。

结论

WWTP 中研究的 PhACs 和麝香的主要去除机制通常是生物（45%），其次是吸附（33%）和紫外线辐射（22%）。在大多数情况下， WWTP 对大多数检测到的 PhACs 和麝香的去除率>75%，除了二氯芬酸。

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评估全规模活性污泥厂中药物和个人护理产品的去除效果。

Assessing the removal of pharmaceuticals and personal care products in a full-scale activated sludge plant.

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