Hybrid wastewater treatment system based in a combination of high rate algae pond and vertical constructed wetland system at large scale

Hybrid wastewater treatment system based in a combination of high rate algae pond and vertical constructed wetland system at large scale

This study aims to compare a conventional wastewater treatment plant and a hybrid alternative treatment plant for the treatment of real urban wastewater from the city of Almería, Spain. The hybrid treatment plant combines a semi-extensive wastewater treatment systems such as a high rate algae pond (...

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Bibliographic Details
Published in:Journal of water process engineering Vol. 43; p. 102311
Main Authors: Saúco, Carlos, Cano, Raúl, Marín, David, Lara, Enrique, Rogalla, Frank, Arbib, Zouhayr
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-10-2021
Subjects:
Constructed wetlands
Microalgae
Wastewater treatment
Water reuse
Microalgae
Wastewater treatment
Constructed wetlands
Water reuse
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Summary:This study aims to compare a conventional wastewater treatment plant and a hybrid alternative treatment plant for the treatment of real urban wastewater from the city of Almería, Spain. The hybrid treatment plant combines a semi-extensive wastewater treatment systems such as a high rate algae pond (HRAP), a dissolved air flotation unit to separate algae biomass from treated wastewater and an extensive wastewater treatment systems such as vertical flow constructed wetlands. The conventional wastewater treatment plant has a treatment capacity of 4000 m3 d−1. The experimental demo plant with a 3000 m2 HRAP and 200 m2 of wetlands surface has been operated throughout one year in parallel with a conventional activated sludge full-scale plant, obtaining a complete comparison of both systems. Regarding removal efficiencies, the new hybrid system achieved values of 96.6%, 76.6% 89.8% and 99.9% for COD, TN, TP and TSS, respectively. The hybrid systems reach disinfection rates of 4 and 5 log units for total coliforms and E.Coli, respectively. Energy demand required in the hybrid system was five times lower than a conventional activated sludge (0.1 kWh m−3). The results here obtained demonstrated the capacity of using hybrid alternative treatment plant as an efficient way of treating wastewater in small populations. [Display omitted] •Hybrid natural systems represent a promising combination for wastewater treatment.•One-year operation provided valuable knowledge of demo plant behavior.•Treated water fulfil the law requirements for discharge and reuse.•Energy demand was reduced five times in comparison with conventional treatments.
ISSN:2214-7144
2214-7144
DOI:10.1016/j.jwpe.2021.102311