Occurrence of Pharmaceuticals in WWTP Influents

2019 Systems and Information Engineering Design Symposium (SIEDS) Pub Date : 2019-04-26 DOI:10.1109/SIEDS.2019.8735622

Akarapan Rojjanapinun, S. Pagsuyoin, Jiayue Luo

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引用次数: 2

Abstract

Pharmaceuticals are a class of emerging micropollutants whose detection in surface waters have been attributed to domestic effluent discharges. Although concerns over potential ecological and health impacts have been raised for certain pharmaceutical groups (e.g., antibiotics), to date there are no discharge standards for these chemicals. Given that most ecotoxicity studies for pharmaceuticals were performed in laboratory settings that may differ from environmental conditions, there is a need to establish their actual environmental concentrations. In the current study, we performed a systematic review of literature to examine the influent sewage concentrations of erythromycin (prescription antibiotic) and ibuprofen (over-the counter pain reliever) in municipal wastewater treatment plants (WWTPs). The literature search and screening procedure yielded datasets from a total of 250 WWTPs which were grouped according to plant capacity (small, < 10 mega gallons per day, MGD; medium, 10–100 MGD; and large, > 100 MGD) and geographic location (Asia, Europe, North America). Measured erythromycin levels in the influent ranged from $10^{-1}\ {\mu} \mathrm{g}/\mathrm{L}$ to $1\ {\mu} \mathrm{g}/\mathrm{L}$, while ibuprofen levels ranged from $10^{-1}\ {\mu} \mathrm{g}/\mathrm{L}$ to $10^{2}\ {\mu} \mathrm{g}/\mathrm{L}$. Average erythromycin levels were about the same across all WWTP sizes and regions. Average ibuprofen levels were significantly higher in small WWTPs than in large WWTPs ($\mathrm{p} < 0.01$). Average ibuprofen levels were highest in North America −102 times higher than in Europe and 10 times higher than in Asia. With respect to WWTP operation, research findings suggest that small WWTPs should receive the same consideration as larger WWTPs where the level of treatment (i.e., degree of removal) for pharmaceuticals is concerned. Furthermore, the summarized occurrence data presented in this study provide insights to WWTP managers in assessing if enhanced WWTP treatment or downstream risks assessment for receiving streams are needed.

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污水处理厂进水中药物的发生

药物是一类新兴的微污染物，其在地表水中的检测已归因于生活污水排放。虽然人们对某些制药集团(例如抗生素)可能产生的生态和健康影响表示关切，但迄今为止尚无这些化学品的排放标准。鉴于大多数药物的生态毒性研究是在实验室环境中进行的，可能与环境条件不同，因此有必要确定它们的实际环境浓度。在当前的研究中，我们对城市污水处理厂(WWTPs)的流入污水中红霉素(处方抗生素)和布洛芬(非处方止痛药)的浓度进行了系统的文献回顾。文献检索和筛选程序产生了来自总共250个污水处理厂的数据集，这些数据集根据工厂容量进行分组(小型，< 10百万加仑/天，MGD;中，10 - 100mgd;和地理位置(亚洲、欧洲、北美)。检测到的红霉素水平从$10^{-1}\ \mu} \ mathm {g}/\ mathm {L}$到$1\ \mu} \ mathm {g}/\ mathm {L}$，而布洛芬的水平从$10^{-1}\ \mu} \ mathm {g}/\ mathm {L}$到$10^{2}\ \mu} \ mathm {g}/\ mathm {L}$。所有污水处理厂规模和地区的平均红霉素水平大致相同。小WWTPs的平均布洛芬水平显著高于大WWTPs ($\ mathm {p} < 0.01$)。北美的布洛芬平均含量最高，是欧洲的102倍，是亚洲的10倍。就污水处理厂的运行而言，研究结果表明，就药物的处理水平(即去除程度)而言，小型污水处理厂应受到与大型污水处理厂相同的考虑。此外，本研究总结的发生数据为污水处理厂管理者评估是否需要加强污水处理厂处理或对接收流进行下游风险评估提供了见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 Systems and Information Engineering Design Symposium (SIEDS)

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