Demonstration scale treatment of drainage canal water in the Nile Delta through a combination of facultative lagoons and hybrid constructed wetlands

Drainage canal water (DCW), a mixture of Nile water, drainage water and municipal wastewater, is largely used for irrigation in the Nile Delta. Facultative lagoons (FL) and constructed wetlands (CWs) represent interesting options for DCW treatment before its agricultural re-use, but very few studies...

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Bibliographic Details
Published in:Journal of environmental management 2024-11, Vol.370, p.122663, Article 122663
Main Authors: Frascari, Dario, Rashed, Ahmed, Girometti, Elisa, Pinelli, Davide, Toscano, Attilio, Lavrnić, Stevo
Format: Article
Language:English
Subjects:
agricultural land
Agriculture
class
Constructed wetlands
Drainage canal water
drainage channels
drainage water
Egypt
energy
environmental management
Facultative lagoons
hybrids
irrigation
Mediterranean climate
Municipal wastewater
Nitrogen
phosphates
river deltas
total nitrogen
Waste Disposal, Fluid - methods
Wastewater
Wastewater treatment and reuse
Wetlands
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Summary:Drainage canal water (DCW), a mixture of Nile water, drainage water and municipal wastewater, is largely used for irrigation in the Nile Delta. Facultative lagoons (FL) and constructed wetlands (CWs) represent interesting options for DCW treatment before its agricultural re-use, but very few studies investigated their implementation in Egypt. This work aimed at developing at demonstration scale (250 m3 d−1) a FL + CW treatment train capable to turn DCW into an effluent reusable in agriculture. Three types of hybrid CWs were tested in parallel for 530 days. The combination of FL with a cascade hybrid CW, operated at a 200 L d−1 m−2 surface loading rate, led to medium-to-high removal efficiencies (suspended solids 90%, total nitrogen 84%, phosphate 80%, COD 67%, faecal coliforms 2.2 Log) and surface removal rates (COD 47.5 t y−1 ha−1, total nitrogen 10.9 t y−1 ha−1, faecal coliforms 1.5 ∙ 1011 MPN y−1 ha−1). The effluent, compliant with class C of EU 2020/741 regulation, is potentially reusable to irrigate numerous Egyptian crops. The results show that the combination of FLs with cascade hybrid CWs has a great potential for the treatment of DCW and low-strength municipal wastewater, with near-zero energy consumption, null consumption of chemicals and a land requirement varying between 1.1% and 1.5% of the agricultural land irrigated with the treated DCW. [Display omitted] •Lagoons & constructed wetlands were tested to treat drainage water in Nile Delta.•Facultative lagoon + cascade hybrid constructed wetland was the best combination.•67%–90% pollutant removal efficiencies were attained at large scale (250 m3/d).•Irrigation-quality water was produced according to EU 2020/741 regulation.•The technology features null consumption of energy and chemicals.
ISSN:0301-4797
1095-8630
1095-8630
DOI:10.1016/j.jenvman.2024.122663