Comparative investigation of known and unknown disinfection by-product precursor removal and microbial community from biological biochar and activated carbon filters

Comparative investigation of known and unknown disinfection by-product precursor removal and microbial community from biological biochar and activated carbon filters

•Biochar filter (BCF) well removed disinfection by-product (DBP) precursor.•Known DBP from BCF and activated carbon filter (BAC) were below water guideline.•BAC removed more chloroform and dichloroacetontrile precursors than BCF.•BCF and BAC had similar bromodichloromethane and unknown DBP precursor...

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Veröffentlicht in:Water research (Oxford) 2024-09, Vol.261, p.121994, Article 121994
Hauptverfasser: Youngwilai, Atcharaporn, Khan, Eakalak, Phungsai, Phanwatt, Therdkiattikul, Nakharin, Limpiyakorn, Tawan, Mhuantong, Wuttichai, Ratpukdi, Thunyalux, Supanchaiyamat, Nontipa, Hunt, Andrew J., Ngernyen, Yuvarat, Siripattanakul-Ratpukdi, Sumana
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Sprache:eng
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Biofiltration
Chloramination
Chlorination
Natural organic matter
Orbitrap mass spectrometry
Unknown screening analysis
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container_issue
container_start_page 121994
container_title Water research (Oxford)
container_volume 261
creator Youngwilai, Atcharaporn
Khan, Eakalak
Phungsai, Phanwatt
Therdkiattikul, Nakharin
Limpiyakorn, Tawan
Mhuantong, Wuttichai
Ratpukdi, Thunyalux
Supanchaiyamat, Nontipa
Hunt, Andrew J.
Ngernyen, Yuvarat
Siripattanakul-Ratpukdi, Sumana
description •Biochar filter (BCF) well removed disinfection by-product (DBP) precursor.•Known DBP from BCF and activated carbon filter (BAC) were below water guideline.•BAC removed more chloroform and dichloroacetontrile precursors than BCF.•BCF and BAC had similar bromodichloromethane and unknown DBP precursor removal.•Abundances of Nordella and Burkholderiaceae correlated to removed DBP precursors. Biological activated carbon filter (BAC) is one of the most effective technologies for removing disinfection by-product (DBP) precursors from water. Biochar is a lower-cost medium that has the potential to replace granular activated carbon in BAC applications, thus leading to the development of biological biochar filter (BCF). This study compared BCF with BAC for the removal of DBP precursors using column experiments. Both BCF and BAC achieved the removal of DBP precursors, resulting in concentrations of all DBP formation potential below the World Health Organization guideline values for drinking water. Bromodichloromethane and unknown DBP precursor removal by BCF was comparable to that by BAC. However, BAC removed more chloroform and dichloroacetontrile precursors than BCF. For microbial community analysis, cell numbers in a bottom layer (inlet) of BCF and BAC columns were higher than those in the top layer. The abundances of Nordella and a microbial genus from Burkholderiaceae at the bottom layer showed a strong correlation to the number of DBP precursors removed and were comparable in BCF and BAC. This finding likely contributes to the similarities between DBPs species removed and the removal performances of some known and unknown DBP precursors by BCF and BAC. Overall results from this study revealed that biochar can be served as a low-cost and sustainable replacement of activated carbon in water filter for DBP precursor removal. [Display omitted]
doi_str_mv 10.1016/j.watres.2024.121994
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Biological activated carbon filter (BAC) is one of the most effective technologies for removing disinfection by-product (DBP) precursors from water. Biochar is a lower-cost medium that has the potential to replace granular activated carbon in BAC applications, thus leading to the development of biological biochar filter (BCF). This study compared BCF with BAC for the removal of DBP precursors using column experiments. Both BCF and BAC achieved the removal of DBP precursors, resulting in concentrations of all DBP formation potential below the World Health Organization guideline values for drinking water. Bromodichloromethane and unknown DBP precursor removal by BCF was comparable to that by BAC. However, BAC removed more chloroform and dichloroacetontrile precursors than BCF. For microbial community analysis, cell numbers in a bottom layer (inlet) of BCF and BAC columns were higher than those in the top layer. The abundances of Nordella and a microbial genus from Burkholderiaceae at the bottom layer showed a strong correlation to the number of DBP precursors removed and were comparable in BCF and BAC. This finding likely contributes to the similarities between DBPs species removed and the removal performances of some known and unknown DBP precursors by BCF and BAC. Overall results from this study revealed that biochar can be served as a low-cost and sustainable replacement of activated carbon in water filter for DBP precursor removal. 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The abundances of Nordella and a microbial genus from Burkholderiaceae at the bottom layer showed a strong correlation to the number of DBP precursors removed and were comparable in BCF and BAC. This finding likely contributes to the similarities between DBPs species removed and the removal performances of some known and unknown DBP precursors by BCF and BAC. Overall results from this study revealed that biochar can be served as a low-cost and sustainable replacement of activated carbon in water filter for DBP precursor removal. 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subjects Biofiltration
Chloramination
Chlorination
Natural organic matter
Orbitrap mass spectrometry
Unknown screening analysis
title Comparative investigation of known and unknown disinfection by-product precursor removal and microbial community from biological biochar and activated carbon filters
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