Water quality for agricultural irrigation produced by two municipal sewage treatment plants in Santiago Island-Cape Verde: assessment of chemical parameters and pharmaceutical residues

IF 4.3 4区环境科学与生态学 Q2 ENGINEERING, ENVIRONMENTAL Water Reuse Pub Date : 2023-10-17 DOI:10.2166/wrd.2023.094

Maria dos Anjos de Jesus Barros Monteiro Lopes, Rayco Guedes-Alonso, Vanessa Mendoza-Grimón, Sarah Montesdeoca-Esponda, Juan Ramon Fernández-Vera, Zoraida Sosa-Ferrera, José Juan Santana-Rodríguez, Maria del Pino Palacios-Díaz

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Abstract

Abstract Cape Verde, a West Africa Island country, is exposed to climate change effect. An effective way of reducing its poverty and achieving food security is to provide its agricultural sector with water. The purpose of this study is to monitor treated water quality to ensure that any pollutants are below the limits set to ensure the safety and sustainability of reuse because only 10% of its treated wastewater is reused. For the first time on Cape Verde islands, besides chemical quality, the occurrence of 11 pharmaceutical compounds (PhC) in the influent and effluent of two natural wastewater treatment plants (WWTPs) was monitored to assess the effectiveness of the treatment technologies and removal efficiencies of these pollutants. Of the 11 target PhC, nine were detected in influent samples within the ng·L−1 to μg·L−1 range. Lower concentrations were detected in one WWTP vs. the other. Nevertheless, the removal efficiencies for most compounds were similar in both WWTPs: within the ranges of 82–92% for beta-blockers, 48–99% for stimulants and 44–95% for nonsteroidal anti-inflammatories, while carbamazepine (anticonvulsant) concentrations increased in effluents. WWTPs produce water that meets water quality standards for irrigation if a properly designed and managed reusing system is adopted.

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圣地亚哥岛-佛得角两个城市污水处理厂生产的农业灌溉用水质量:化学参数和药物残留的评估

佛得角是西非的一个岛国，受到气候变化的影响。减少其贫困和实现粮食安全的一个有效方法是向其农业部门提供水。本研究的目的是监测处理过的水质，以确保任何污染物低于为确保再利用的安全性和可持续性而设定的限制，因为只有10%的处理过的废水被再利用。在佛得角群岛，除化学质量外，还首次监测了两个天然废水处理厂的进、流出物中11种药物化合物的出现情况，以评估处理技术的有效性和对这些污染物的去除效率。在11种目标ph中，有9种在ng·L−1 ~ μg·L−1范围内检测到。在一个污水处理厂中检测到的浓度低于另一个。然而，在两种污水处理方案中，大多数化合物的去除效率相似:受体阻滞剂在82-92%的范围内，兴奋剂在48-99%的范围内，非甾体类抗炎药在44-95%的范围内，而卡马西平(抗惊厥药)浓度在排出物中增加。如果采用设计和管理得当的再利用系统，污水处理厂生产的水就能达到灌溉用水的质量标准。

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