Reclamation of Real Urban Wastewater Using Solar Advanced Oxidation Processes: An Assessment of Microbial Pathogens and 74 Organic Microcontaminants Uptake in Lettuce and Radish

In this study, disinfection of urban wastewater (UWW) with two solar processes (H2O2 −20 mg/L and photo-Fenton 10 mg/L-Fe2+/20 mg/L-H2O2 at natural water pH) at pilot scale using a 60 L compound parabolic collector reactor for irrigation of two raw-eaten vegetables (lettuce and radish) has been inve...

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Bibliographic Details
Published in:Environmental science & technology 2019-08, Vol.53 (16), p.9705-9714
Main Authors: Aguas, Yelitza, Hincapie, Margarita, Martínez-Piernas, Ana Belén, Agüera, Ana, Fernández-Ibáñez, Pilar, Nahim-Granados, Samira, Polo-López, María Inmaculada
Format: Article
Language:English
Subjects:
Coliforms
Deactivation
Disinfection
E coli
Effluent treatment
Effluents
Enterococcus
Escherichia coli
Hydrogen Peroxide
Inactivation
Iron
Irrigation
Lactuca
Lettuce
Microorganisms
Mineral water
Oxidation
pH effects
Radishes
Raphanus
Reclamation
Salmonella
Soil microorganisms
Solar energy
Ultraviolet radiation
Wastewater
Wastewater oxidation
Wastewater treatment
Water reclamation
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Summary:In this study, disinfection of urban wastewater (UWW) with two solar processes (H2O2 −20 mg/L and photo-Fenton 10 mg/L-Fe2+/20 mg/L-H2O2 at natural water pH) at pilot scale using a 60 L compound parabolic collector reactor for irrigation of two raw-eaten vegetables (lettuce and radish) has been investigated. Several microbial targets (total coliforms, Escherichia coli, Salmonella spp., and Enterococcus spp.) naturally occurring in UWW and 74 organic microcontaminants (OMCs) were monitored. Disinfection results showed no significant differences between both processes, showing the following inactivation resistance order: Salmonella spp. < E. coli < total coliforms < Enterococcus spp. Reductions of target microorganisms to concentrations below the limit of detection (LOD) was achieved in all cases with cumulative solar UV energy per volume (Q UV) ranged from 12 to 40 kJ/L (90 min to 5 h). Solar photo-Fenton showed a reduction of 66% of OMCs and solar/H2O2 of 56% in 5 h treatment. Irrigation of radish and lettuce with solar treated effluents, secondary effluents, and mineral water was performed for 6 and 16 weeks, respectively. The presence of bacteria was monitored in surfaces and uptake of leaves, fruit, and also in soil. The bacterial concentrations detected were below the LOD in the 81.2% (lettuce) and the 87.5% (radish) of the total number of samples evaluated. Moreover, uptake of OMCs was reduced above 70% in crops irrigated with solar treated effluents in comparison with secondary effluents of UWW.
ISSN:0013-936X
1520-5851
DOI:10.1021/acs.est.9b00748