Adsorption/Coagulation/Ceramic Microfiltration for Treating Challenging Waters for Drinking Water Production

Pressurized powdered activated carbon/coagulation/ceramic microfiltration (PAC/Alum/MF) was investigated at pilot scale for treating low turbidity and low natural organic matter (NOM) surface waters spiked with organic microcontaminants. A total of 11 trials with clarified or non-clarified waters sp...

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Autores principales: Campinas, Margarida, Viegas, Rui M. C., Coelho, Rosário, Lucas, Helena, Rosa, Maria João
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7911376/
https://www.ncbi.nlm.nih.gov/pubmed/33514022
http://dx.doi.org/10.3390/membranes11020091
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author Campinas, Margarida
Viegas, Rui M. C.
Coelho, Rosário
Lucas, Helena
Rosa, Maria João
author_facet Campinas, Margarida
Viegas, Rui M. C.
Coelho, Rosário
Lucas, Helena
Rosa, Maria João
author_sort Campinas, Margarida
collection PubMed
description Pressurized powdered activated carbon/coagulation/ceramic microfiltration (PAC/Alum/MF) was investigated at pilot scale for treating low turbidity and low natural organic matter (NOM) surface waters spiked with organic microcontaminants. A total of 11 trials with clarified or non-clarified waters spiked with pesticides, pharmaceutical compounds, or microcystins were conducted to assess the removal of microcontaminants, NOM (as 254 nm absorbance, A254, and dissolved organic carbon, DOC), trihalomethane formation potential (THMFP), aerobic endospores as protozoan (oo)cysts indicators, bacteriophages as viruses indicators, and regular drinking water quality parameters. PAC/(Alum)/MF achieved 75% to complete removal of total microcontaminants with 4–18 mg/L of a mesoporous PAC and 2 h contact time, with a reliable particle separation (turbidity < 0.03 NTU) and low aluminium residuals. Microcontaminants showed different amenabilities to PAC adsorption, depending on their charge, hydrophobicity (Log Kow), polar surface area and aromatic rings count. Compounds less amenable to adsorption showed higher vulnerability to NOM competition (higher A254 waters), greatly benefiting from DOC-normalized PAC dose increase. PAC/Alum/MF also attained 29–47% NOM median removal, decreasing THMFP by 26%. PAC complemented NOM removal by coagulation (+15–19%), though with no substantial improvement towards THMFP and membrane fouling. Furthermore, PAC/Alum/MF was a full barrier against aerobic endospores, and PAC dosing was crucial for ≥1.1-log reduction in bacteriophages.
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spelling pubmed-79113762021-02-28 Adsorption/Coagulation/Ceramic Microfiltration for Treating Challenging Waters for Drinking Water Production Campinas, Margarida Viegas, Rui M. C. Coelho, Rosário Lucas, Helena Rosa, Maria João Membranes (Basel) Article Pressurized powdered activated carbon/coagulation/ceramic microfiltration (PAC/Alum/MF) was investigated at pilot scale for treating low turbidity and low natural organic matter (NOM) surface waters spiked with organic microcontaminants. A total of 11 trials with clarified or non-clarified waters spiked with pesticides, pharmaceutical compounds, or microcystins were conducted to assess the removal of microcontaminants, NOM (as 254 nm absorbance, A254, and dissolved organic carbon, DOC), trihalomethane formation potential (THMFP), aerobic endospores as protozoan (oo)cysts indicators, bacteriophages as viruses indicators, and regular drinking water quality parameters. PAC/(Alum)/MF achieved 75% to complete removal of total microcontaminants with 4–18 mg/L of a mesoporous PAC and 2 h contact time, with a reliable particle separation (turbidity < 0.03 NTU) and low aluminium residuals. Microcontaminants showed different amenabilities to PAC adsorption, depending on their charge, hydrophobicity (Log Kow), polar surface area and aromatic rings count. Compounds less amenable to adsorption showed higher vulnerability to NOM competition (higher A254 waters), greatly benefiting from DOC-normalized PAC dose increase. PAC/Alum/MF also attained 29–47% NOM median removal, decreasing THMFP by 26%. PAC complemented NOM removal by coagulation (+15–19%), though with no substantial improvement towards THMFP and membrane fouling. Furthermore, PAC/Alum/MF was a full barrier against aerobic endospores, and PAC dosing was crucial for ≥1.1-log reduction in bacteriophages. MDPI 2021-01-27 /pmc/articles/PMC7911376/ /pubmed/33514022 http://dx.doi.org/10.3390/membranes11020091 Text en © 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Campinas, Margarida
Viegas, Rui M. C.
Coelho, Rosário
Lucas, Helena
Rosa, Maria João
Adsorption/Coagulation/Ceramic Microfiltration for Treating Challenging Waters for Drinking Water Production
title Adsorption/Coagulation/Ceramic Microfiltration for Treating Challenging Waters for Drinking Water Production
title_full Adsorption/Coagulation/Ceramic Microfiltration for Treating Challenging Waters for Drinking Water Production
title_fullStr Adsorption/Coagulation/Ceramic Microfiltration for Treating Challenging Waters for Drinking Water Production
title_full_unstemmed Adsorption/Coagulation/Ceramic Microfiltration for Treating Challenging Waters for Drinking Water Production
title_short Adsorption/Coagulation/Ceramic Microfiltration for Treating Challenging Waters for Drinking Water Production
title_sort adsorption/coagulation/ceramic microfiltration for treating challenging waters for drinking water production
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7911376/
https://www.ncbi.nlm.nih.gov/pubmed/33514022
http://dx.doi.org/10.3390/membranes11020091
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