Tertiary treatment of urban wastewater by solar and UV-C driven advanced oxidation with peracetic acid: Effect on contaminants of emerging concern and antibiotic resistance

Tertiary treatment of urban wastewater by solar and UV-C driven advanced oxidation with peracetic acid: Effect on contaminants of emerging concern and antibiotic resistance

Photo-driven advanced oxidation process (AOP) with peracetic acid (PAA) has been poorly investigated in water and wastewater treatment so far. In the present work its possible use as tertiary treatment of urban wastewater to effectively minimize the release into the environment of contaminants of em...

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Published in:Water research (Oxford) Vol. 149; pp. 272 - 281
Main Authors: Rizzo, Luigi, Agovino, Teresa, Nahim-Granados, Samira, Castro-Alférez, María, Fernández-Ibáñez, Pilar, Polo-López, María Inmaculada
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-02-2019
Subjects:
Advanced oxidation processes
Antibiotic-resistant bacteria
Peracetic acid
Solar driven processes
Wastewater treatment
Water disinfection
Advanced oxidation processes
Antibiotic-resistant bacteria
Solar driven processes
Peracetic acid
Wastewater treatment
Water disinfection
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Abstract Photo-driven advanced oxidation process (AOP) with peracetic acid (PAA) has been poorly investigated in water and wastewater treatment so far. In the present work its possible use as tertiary treatment of urban wastewater to effectively minimize the release into the environment of contaminants of emerging concern (CECs) and antibiotic-resistant bacteria was investigated. Different initial PAA concentrations, two light sources (sunlight and UV-C) and two different water matrices (groundwater (GW) and wastewater (WW)) were studied. Low PAA doses were found to be effective in the inactivation of antibiotic resistant Escherichia coli (AR E. coli) in GW, with the UV-C process being faster (limit of detection (LOD) achieved for a cumulative energy (QUV) of 0.3 kJL−1 with 0.2 mg PAA L−1) than solar driven one (LOD achieved at QUV = 4.4 kJL−1 with 0.2 mg PAA L−1). Really fast inactivation rates of indigenous AR E. coli were also observed in WW. Higher QUV and PAA initial doses were necessary to effectively remove the three target CECs (carbamazepine (CBZ), diclofenac and sulfamethoxazole), with CBZ being the more refractory one. In conclusion, photo-driven AOP with PAA can be effectively used as tertiary treatment of urban wastewater but initial PAA dose should be optimized to find the best compromise between target bacteria inactivation and CECs removal as well as to prevent scavenging effect of PAA on hydroxyl radicals because of high PAA concentration. [Display omitted] •First time sunlight/PAA investigated in the removal of CECs.•Low PAA doses effective in the inactivation of AR E. coli by UV-C/PAA and sunlight/PAA.•Higher QUV and PAA initial doses are necessary to effectively remove the target CECs.•UV-C/PAA faster than sunlight/PAA in AR E. coli inactivation and CECs removal.•Sunlight/PAA possible option for tertiary treatment in small wastewater treatment plants.
AbstractList Photo-driven advanced oxidation process (AOP) with peracetic acid (PAA) has been poorly investigated in water and wastewater treatment so far. In the present work its possible use as tertiary treatment of urban wastewater to effectively minimize the release into the environment of contaminants of emerging concern (CECs) and antibiotic-resistant bacteria was investigated. Different initial PAA concentrations, two light sources (sunlight and UV-C) and two different water matrices (groundwater (GW) and wastewater (WW)) were studied. Low PAA doses were found to be effective in the inactivation of antibiotic resistant Escherichia coli (AR E. coli) in GW, with the UV-C process being faster (limit of detection (LOD) achieved for a cumulative energy (Q ) of 0.3 kJL with 0.2 mg PAA L ) than solar driven one (LOD achieved at Q  = 4.4 kJL with 0.2 mg PAA L ). Really fast inactivation rates of indigenous AR E. coli were also observed in WW. Higher Q and PAA initial doses were necessary to effectively remove the three target CECs (carbamazepine (CBZ), diclofenac and sulfamethoxazole), with CBZ being the more refractory one. In conclusion, photo-driven AOP with PAA can be effectively used as tertiary treatment of urban wastewater but initial PAA dose should be optimized to find the best compromise between target bacteria inactivation and CECs removal as well as to prevent scavenging effect of PAA on hydroxyl radicals because of high PAA concentration.
Photo-driven advanced oxidation process (AOP) with peracetic acid (PAA) has been poorly investigated in water and wastewater treatment so far. In the present work its possible use as tertiary treatment of urban wastewater to effectively minimize the release into the environment of contaminants of emerging concern (CECs) and antibiotic-resistant bacteria was investigated. Different initial PAA concentrations, two light sources (sunlight and UV-C) and two different water matrices (groundwater (GW) and wastewater (WW)) were studied. Low PAA doses were found to be effective in the inactivation of antibiotic resistant Escherichia coli (AR E. coli) in GW, with the UV-C process being faster (limit of detection (LOD) achieved for a cumulative energy (QUV) of 0.3 kJL-1 with 0.2 mg PAA L-1) than solar driven one (LOD achieved at QUV = 4.4 kJL-1 with 0.2 mg PAA L-1). Really fast inactivation rates of indigenous AR E. coli were also observed in WW. Higher QUV and PAA initial doses were necessary to effectively remove the three target CECs (carbamazepine (CBZ), diclofenac and sulfamethoxazole), with CBZ being the more refractory one. In conclusion, photo-driven AOP with PAA can be effectively used as tertiary treatment of urban wastewater but initial PAA dose should be optimized to find the best compromise between target bacteria inactivation and CECs removal as well as to prevent scavenging effect of PAA on hydroxyl radicals because of high PAA concentration.
Photo-driven advanced oxidation process (AOP) with peracetic acid (PAA) has been poorly investigated in water and wastewater treatment so far. In the present work its possible use as tertiary treatment of urban wastewater to effectively minimize the release into the environment of contaminants of emerging concern (CECs) and antibiotic-resistant bacteria was investigated. Different initial PAA concentrations, two light sources (sunlight and UV-C) and two different water matrices (groundwater (GW) and wastewater (WW)) were studied. Low PAA doses were found to be effective in the inactivation of antibiotic resistant Escherichia coli (AR E. coli) in GW, with the UV-C process being faster (limit of detection (LOD) achieved for a cumulative energy (QUV) of 0.3 kJL−1 with 0.2 mg PAA L−1) than solar driven one (LOD achieved at QUV = 4.4 kJL−1 with 0.2 mg PAA L−1). Really fast inactivation rates of indigenous AR E. coli were also observed in WW. Higher QUV and PAA initial doses were necessary to effectively remove the three target CECs (carbamazepine (CBZ), diclofenac and sulfamethoxazole), with CBZ being the more refractory one. In conclusion, photo-driven AOP with PAA can be effectively used as tertiary treatment of urban wastewater but initial PAA dose should be optimized to find the best compromise between target bacteria inactivation and CECs removal as well as to prevent scavenging effect of PAA on hydroxyl radicals because of high PAA concentration. [Display omitted] •First time sunlight/PAA investigated in the removal of CECs.•Low PAA doses effective in the inactivation of AR E. coli by UV-C/PAA and sunlight/PAA.•Higher QUV and PAA initial doses are necessary to effectively remove the target CECs.•UV-C/PAA faster than sunlight/PAA in AR E. coli inactivation and CECs removal.•Sunlight/PAA possible option for tertiary treatment in small wastewater treatment plants.
Author Rizzo, Luigi
Agovino, Teresa
Nahim-Granados, Samira
Castro-Alférez, María
Fernández-Ibáñez, Pilar
Polo-López, María Inmaculada
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  surname: Rizzo
  fullname: Rizzo, Luigi
  email: l.rizzo@unisa.it
  organization: Department of Civil Engineering, University of Salerno, Via Giovanni Paolo II 132, 84084, Fisciano, SA, Italy
– sequence: 2
  givenname: Teresa
  surname: Agovino
  fullname: Agovino, Teresa
  organization: Department of Civil Engineering, University of Salerno, Via Giovanni Paolo II 132, 84084, Fisciano, SA, Italy
– sequence: 3
  givenname: Samira
  surname: Nahim-Granados
  fullname: Nahim-Granados, Samira
  organization: CIEMAT-Plataforma Solar de Almeria, P.O. Box 22, Tabernas, Almería, Spain
– sequence: 4
  givenname: María
  surname: Castro-Alférez
  fullname: Castro-Alférez, María
  organization: CIEMAT-Plataforma Solar de Almeria, P.O. Box 22, Tabernas, Almería, Spain
– sequence: 5
  givenname: Pilar
  orcidid: 0000-0001-6877-4684
  surname: Fernández-Ibáñez
  fullname: Fernández-Ibáñez, Pilar
  organization: CIEMAT-Plataforma Solar de Almeria, P.O. Box 22, Tabernas, Almería, Spain
– sequence: 6
  givenname: María Inmaculada
  surname: Polo-López
  fullname: Polo-López, María Inmaculada
  email: mpolo@psa.es
  organization: CIEMAT-Plataforma Solar de Almeria, P.O. Box 22, Tabernas, Almería, Spain
BackLink https://www.ncbi.nlm.nih.gov/pubmed/30465985$$D View this record in MEDLINE/PubMed
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Keywords Advanced oxidation processes
Antibiotic-resistant bacteria
Solar driven processes
Peracetic acid
Wastewater treatment
Water disinfection
Language English
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Snippet Photo-driven advanced oxidation process (AOP) with peracetic acid (PAA) has been poorly investigated in water and wastewater treatment so far. In the present...
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SubjectTerms Advanced oxidation processes
Antibiotic-resistant bacteria
Peracetic acid
Solar driven processes
Wastewater treatment
Water disinfection
Title Tertiary treatment of urban wastewater by solar and UV-C driven advanced oxidation with peracetic acid: Effect on contaminants of emerging concern and antibiotic resistance
URI https://dx.doi.org/10.1016/j.watres.2018.11.031
https://www.ncbi.nlm.nih.gov/pubmed/30465985
https://search.proquest.com/docview/2137462494
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