4.4 Article

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

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WATER REUSE
卷 -, 期 -, 页码 -

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IWA PUBLISHING
DOI: 10.2166/wrd.2023.094

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emerging pollutants; food safety; pharmaceutical residues; removal efficiencies; treated water quality; wastewater treatment plant

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The purpose of this study is to monitor the quality of treated water in Cape Verde to ensure its safety and sustainability for reuse. The study found that most pharmaceutical compounds had similar removal efficiencies in two natural wastewater treatment plants, with only carbamazepine concentrations increasing in effluents. With proper design and management, these treatment plants can produce water that meets irrigation water quality standards.
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, 9 were detected in influent samples within the ng center dot L-1 to mu g center dot 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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